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| cim:_AssetContainersAndWorkRelated |
| cim:_AssetRelationships |
| cim:_DCIMTapChangerModel |
| cim:_DCIMTransformerInfo |
| cim:_DCIMTransformerModel |
| cim:_ElectricalAssets |
| cim:_InfAuxiliaryEquipmentInfo |
| cim:_InfElectricalInfo |
| cim:_InfTransformerInfo |
| cim:_LinearAssets |
| cim:_TransformerObservationsBushing |
| cim:a |
| cim:A |
| cim:A2 |
| cim:A2h |
| cim:A2s |
| cim:AA |
| cim:aaac |
| cim:AB |
| cim:abandon |
| cim:ABC |
| cim:ABCN |
| cim:ABN |
| cim:absoluteValue |
| cim:AC |
| cim:ACA |
| cim:ACCEPT |
 cim:AcceptanceTest - Acceptance test for assets. |
 cim:AcceptanceTest.dateTime - Date and time the asset was last tested using the 'type' of test and yielding the current status in 'success' attribute. |
| cim:AcceptanceTest.success - True if asset has passed acceptance test and may be placed in or is in service. It is set to false if asset is removed from service and is required to be tested again before being placed back in service, possibly in a new location. Since asset may go through multiple tests during its lifecycle, the date of each acceptance test may be recorded in 'Asset.ActivityRecord.status.dateTime'. |
| cim:AcceptanceTest.type - Type of test or group of tests that was conducted on 'dateTime'. |
| cim:AccessPermit - A permit is sometimes needed to provide legal access to land or equipment. For example, local authority permission for road works. |
| cim:AccessPermit.applicationNumber - Permit application number that is used by municipality, state, province, etc. |
| cim:AccessPermit.effectiveDate - Date that permit became official. |
| cim:AccessPermit.expirationDate - Permit expiration date. |
 cim:AccessPermit.payment - Total cost of permit. |
| cim:AccessPermit.permitID - Permit identifier. |
| cim:accountAllocation |
| cim:AccountingUnit - Unit for accounting; use either 'energyUnit' or 'currencyUnit' to specify the unit for 'value'. |
| cim:AccountingUnit.energyUnit - Unit of service. |
| cim:AccountingUnit.monetaryUnit - Unit of currency. |
| cim:AccountingUnit.multiplier - Multiplier for the 'energyUnit' or 'monetaryUnit'. |
| cim:AccountingUnit.value - Value expressed in applicable units. |
| cim:AccountMovement - Credit/debit movements for an account. |
| cim:AccountMovement.amount - Amount that was credited to/debited from an account. For example: payment received/interest charge on arrears. |
| cim:AccountMovement.dateTime - Date and time when the credit/debit transaction was performed. |
| cim:AccountMovement.reason - Reason for credit/debit transaction on an account. Example: payment received/arrears interest levied. |
| cim:accountPayment |
| cim:AccumulationKind |
| cim:Accumulator - Accumulator represents an accumulated (counted) Measurement, e.g. an energy value. |
| cim:Accumulator.maxValue - Normal value range maximum for any of the MeasurementValue.values. Used for scaling, e.g. in bar graphs or of telemetered raw values. |
| cim:AccumulatorLimit - Limit values for Accumulator measurements. |
| cim:AccumulatorLimit.AccumulatorLimitSet - The set of limits.The limit values used for supervision of Measurements. |
| cim:AccumulatorLimit.value - The value to supervise against. The value is positive. |
| cim:AccumulatorLimitSet - An AccumulatorLimitSet specifies a set of Limits that are associated with an Accumulator measurement. |
| cim:AccumulatorLimitSet.Accumulator - The Measurements using the LimitSet.A measurement may have zero or more limit ranges defined for it. |
| cim:AccumulatorReset - This command reset the counter value to zero. |
| cim:AccumulatorValue - AccumulatorValue represents an accumulated (counted) MeasurementValue. |
| cim:AccumulatorValue.Accumulator - Measurement to which this value is connected.The values connected to this measurement. |
| cim:AccumulatorValue.AccumulatorReset - The command that reset the accumulator value.The accumulator value that is reset by the command. |
| cim:AccumulatorValue.value - The value to supervise. The value is positive. |
| cim:ACDCConverter - A unit with valves for three phases, together with unit control equipment, essential protective and switching devices, DC storage capacitors, phase reactors and auxiliaries, if any, used for conversion. |
| cim:ACDCConverter.ACDCConverterDCTerminal - |
| cim:ACDCConverter.baseS - Base apparent power of the converter pole. |
| cim:ACDCConverter.idc - Converter DC current, also called Id. Converter state variable, result from power flow. |
| cim:ACDCConverter.idleLoss - Active power loss in pole at no power transfer. Converter configuration data used in power flow. |
| cim:ACDCConverter.maxUdc - The maximum voltage on the DC side at which the converter should operate. Converter configuration data used in power flow. |
| cim:ACDCConverter.minUdc - Min allowed converter DC voltage. Converter configuration data used in power flow. |
| cim:ACDCConverter.numberOfValves - Number of valves in the converter. Used in loss calculations. |
| cim:ACDCConverter.p - Active power at the point of common coupling. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for a steady state solution in the case a simplified power flow model is used. |
| cim:ACDCConverter.poleLossP - The active power loss at a DC Pole
= idleLoss + switchingLoss*|Idc| + resitiveLoss*Idc^2
For lossless operation Pdc=Pac
For rectifier operation with losses Pdc=Pac-lossP
For inverter operation with losses Pdc=Pac+lossP
Converter state variable used in power flow. |
| cim:ACDCConverter.q - Reactive power at the point of common coupling. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for a steady state solution in the case a simplified power flow model is used. |
| cim:ACDCConverter.ratedUdc - Rated converter DC voltage, also called UdN. Converter configuration data used in power flow. |
| cim:ACDCConverter.resistiveLoss - Converter configuration data used in power flow. Refer to poleLossP. |
| cim:ACDCConverter.switchingLoss - Switching losses, relative to the base apparent power 'baseS'.
Refer to poleLossP. |
| cim:ACDCConverter.targetPpcc - Real power injection target in AC grid, at point of common coupling. |
| cim:ACDCConverter.targetUdc - Target value for DC voltage magnitude. |
| cim:ACDCConverter.uc - Line-to-line converter voltage, the voltage at the AC side of the valve. Converter state variable, result from power flow. |
| cim:ACDCConverter.udc - Converter voltage at the DC side, also called Ud. Converter state variable, result from power flow. |
| cim:ACDCConverter.valveU0 - Valve threshold voltage, also called Uvalve. Forward voltage drop when the valve is conducting. Used in loss calculations, i.e. the switchLoss depend on numberOfValves * valveU0. |
| cim:ACDCConverterDCTerminal - A DC electrical connection point at the AC/DC converter. The AC/DC converter is electrically connected also to the AC side. The AC connection is inherited from the AC conducting equipment in the same way as any other AC equipment. The AC/DC converter DC terminal is separate from generic DC terminal to restrict the connection with the AC side to AC/DC converter and so that no other DC conducting equipment can be connected to the AC side. |
| cim:ACDCConverterDCTerminal.polarity - Represents the normal network polarity condition. |
| cim:ACDCTerminal - An electrical connection point (AC or DC) to a piece of conducting equipment. Terminals are connected at physical connection points called connectivity nodes. |
| cim:ACDCTerminal.BusNameMarker - The bus name marker used to name the bus (topological node).The terminals associated with this bus name marker. |
| cim:ACDCTerminal.connected - The connected status is related to a bus-branch model and the topological node to terminal relation. True implies the terminal is connected to the related topological node and false implies it is not.
In a bus-branch model, the connected status is used to tell if equipment is disconnected without having to change the connectivity described by the topological node to terminal relation. A valid case is that conducting equipment can be connected in one end and open in the other. In particular for an AC line segment, where the reactive line charging can be significant, this is a relevant case. |
| cim:ACDCTerminal.Measure - Measurements associated with this terminal defining where the measurement is placed in the network topology. It may be used, for instance, to capture the sensor position, such as a voltage transformer (PT) at a busbar or a current transformer (CT) at the bar between a breaker and an isolator.One or more measurements may be associated with a terminal in the network. |
| cim:ACDCTerminal.OperationalLimitSet - |
| cim:ACDCTerminal.sequenceNumber - The orientation of the terminal connections for a multiple terminal conducting equipment. The sequence numbering starts with 1 and additional terminals should follow in increasing order. The first terminal is the "starting point" for a two terminal branch. |
| cim:ACE |
| cim:AceTariffType - The Area Control Error tariff type that is applied or used. |
| cim:AceTariffType.Point - |
| cim:AceTariffType.type - The coded type of an ACE tariff. |
| cim:ACLineSegment - A wire or combination of wires, with consistent electrical characteristics, building a single electrical system, used to carry alternating current between points in the power system.
For symmetrical, transposed 3ph lines, it is sufficient to use attributes of the line segment, which describe impedances and admittances for the entire length of the segment. Additionally impedances can be computed by using length and associated per length impedances.
The BaseVoltage at the two ends of ACLineSegments in a Line shall have the same BaseVoltage.nominalVoltage. However, boundary lines may have slightly different BaseVoltage.nominalVoltages and variation is allowed. Larger voltage difference in general requires use of an equivalent branch. |
| cim:ACLineSegment.ACLineSegmentPhase - The line segment phases which belong to the line segment.The line segment to which the phase belongs. |
| cim:ACLineSegment.b0ch - Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. |
| cim:ACLineSegment.bch - Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. This value represents the full charging over the full length of the line. |
| cim:ACLineSegment.Cut - Cuts applied to the line segment.The line segment to which the cut is applied. |
| cim:ACLineSegment.g0ch - Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line section. |
| cim:ACLineSegment.gch - Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line section. |
| cim:ACLineSegment.GroundAction - Ground action involving clamp usage (for the case when the ground is applied along the line segment instead of at its terminals).The line segment that this ground action will affect. This is the only way to access relationship to clamp in case the ground needs to be placed along the line segment. |
| cim:ACLineSegment.JumperAction - Jumper action involving clamp usage (for the case when the jumper is applied along the line segment instead of at its terminals).The line segment that this jumper action will affect. This is the only way to access relationship to clamp in case the jumper needs to connect along the line segment. |
| cim:ACLineSegment.LineFault - The line faults of the line segment.The line segment of this line fault. |
| cim:ACLineSegment.PerLengthImpedance - Per-length impedance of this line segment.All line segments described by this per-length impedance. |
| cim:ACLineSegment.r - Positive sequence series resistance of the entire line section. |
| cim:ACLineSegment.r0 - Zero sequence series resistance of the entire line section. |
| cim:ACLineSegment.shortCircuitEndTemperature - Maximum permitted temperature at the end of SC for the calculation of minimum short-circuit currents. Used for short circuit data exchange according to IEC 60909 |
| cim:ACLineSegment.WireSpacing - Wire spacing configuration for this line segment.All line segments described with this wire spacing configuration. |
| cim:ACLineSegment.x - Positive sequence series reactance of the entire line section. |
| cim:ACLineSegment.x0 - Zero sequence series reactance of the entire line section. |
| cim:ACLineSegmentPhase - Represents a single wire of an alternating current line segment. |
| cim:ACLineSegmentPhase.phase - The phase connection of the wire at both ends. |
| cim:ACLineSegmentPhase.sequenceNumber - Number designation for this line segment phase. Each line segment phase within a line segment should have a unique sequence number. This is useful for unbalanced modeling to bind the mathematical model (PhaseImpedanceData of PerLengthPhaseImpedance) with the connectivity model (this class) and the physical model (WirePosition) without tight coupling. |
| cim:ACN |
| cim:ACNG |
| cim:acsr |
| cim:ACT |
| cim:ActionRequest - Action request against an existing Trade. |
| cim:ActionRequest.actionName - Action name type for the action request. |
| cim:ActionType |
| cim:Active |
| cim:ACTIVE |
| cim:active |
| cim:ActivePower - Product of RMS value of the voltage and the RMS value of the in-phase component of the current. |
| cim:activePower |
| cim:ActivePower.multiplier |
| cim:ActivePower.unit |
| cim:ActivePower.value |
| cim:ActivePowerChangeRate - Rate of change of active power per time. |
| cim:ActivePowerChangeRate.multiplier |
| cim:ActivePowerChangeRate.unit |
| cim:ActivePowerChangeRate.value |
| cim:ActivePowerLimit - Limit on active power flow. |
| cim:activePowerLimit |
| cim:ActivePowerLimit.value - Value of active power limit. |
| cim:ActivePowerPerCurrentFlow |
| cim:ActivePowerPerCurrentFlow.multiplier |
| cim:ActivePowerPerCurrentFlow.unit |
| cim:ActivePowerPerCurrentFlow.value |
| cim:ActivePowerPerFrequency - Active power variation with frequency. |
| cim:ActivePowerPerFrequency.multiplier |
| cim:ActivePowerPerFrequency.unit |
| cim:ActivePowerPerFrequency.value |
| cim:ActivityRecord - Records activity for an entity at a point in time; activity may be for an event that has already occurred or for a planned activity. |
| cim:ActivityRecord.Author - Author of this activity record.All activity records with this author. |
| cim:ActivityRecord.createdDateTime - Date and time this activity record has been created (different from the 'status.dateTime', which is the time of a status change of the associated object, if applicable). |
| cim:ActivityRecord.reason - Reason for event resulting in this activity record, typically supplied when user initiated. |
| cim:ActivityRecord.severity - Severity level of event resulting in this activity record. |
| cim:ActivityRecord.status - Information on consequence of event resulting in this activity record. |
| cim:ActivityRecord.type - Type of event resulting in this activity record. |
| cim:actual |
| cim:Actual |
| cim:ADD |
| cim:AdderType |
| cim:addVref |
| cim:AdjacentCASet - Goups Adjacent Control Areas |
| cim:AdjacentCASet.endEffectiveDate - end effective date |
| cim:AdjacentCASet.HostControlArea - |
| cim:AdjacentCASet.lossPercentage_ - Loss percentage |
| cim:AdjacentCASet.RegisteredResource - |
| cim:AdjacentCASet.RTO - |
| cim:AdjacentCASet.startEffectiveDate - start effective date |
| cim:Admittance - Ratio of current to voltage. |
| cim:admittance |
| cim:Admittance.multiplier |
| cim:Admittance.unit |
| cim:Admittance.value |
| cim:ADSInstructionTypeCommitment |
| cim:ADSInstructionTypeOOS |
| cim:AED |
| cim:aerial |
| cim:AFN |
| cim:AFTER_THE_FACT |
| cim:afterUEL |
| cim:AG |
| cim:AGC |
| cim:AggregatedPnode - An aggregated pricing node is a specialized type of pricing node used to model items such as System Zone, Default Price Zone, Custom Price Zone, Control Area, Aggregated Generation, Aggregated Particpating Load, Aggregated Non-Participating Load, Trading Hub, Designated Control Area(DCA) Zone |
| cim:AggregatedPnode.apnodeType - Aggregate Price Node Types |
| cim:AggregatedPnode.MktCombinedCyclePlant - |
| cim:AggregatedPnode.MPMTestThreshold - |
| cim:AggregatedPnode.participationCategory - Designated Control Area participation in LMP price measurement
'Y' - Participates in both Local Market Power Mitigation (LMPM) and System Market Power Mitigation (SMPM)
'N' - Not included in LMP price measures
'S' - Participatesin SMPM price measures
'L' - Participatesin LMPM price measures |
| cim:AggregatedPnode.TradingHubValues - |
| cim:AggregateKind |
| cim:AggregateNode - An aggregated node can define a typed grouping further defined by the AnodeType enumeratuion. Types range from System Zone/Regions to Market Energy Regions to Aggregated Loads and Aggregated Generators. |
| cim:AggregateNode.anodeType - Type of aggregated node |
| cim:AggregateNode.AreaLoadCurve - |
| cim:AggregateNode.endEffectiveDate - end effective date |
| cim:AggregateNode.qualifASOrder - Processing Order for AS self-provisions for this region. The priority of this attribute directs the awards of any resource that resides in overlapping regions. The regions are processed in priority manner. |
| cim:AggregateNode.RegisteredResource - |
| cim:AggregateNode.RTO - |
| cim:AggregateNode.startEffectiveDate - start effective date |
| cim:AGR |
| cim:Agreement - Formal agreement between two parties defining the terms and conditions for a set of services. The specifics of the services are, in turn, defined via one or more service agreements. |
| cim:Agreement.signDate - Date this agreement was consummated among associated persons and/or organisations. |
| cim:Agreement.validityInterval - Date and time interval this agreement is valid (from going into effect to termination). |
| cim:Ah |
| cim:air |
| cim:AirCompressor - Combustion turbine air compressor which is an integral part of a compressed air energy storage (CAES) plant. |
| cim:AirCompressor.airCompressorRating - Rating of the CAES air compressor. |
| cim:AirCompressor.CAESPlant - An air compressor may be a member of a compressed air energy storage plant.An air compressor may be a member of a compressed air energy storage plant. |
| cim:AirCompressor.CombustionTurbine - A CAES air compressor is driven by combustion turbine.A CAES air compressor is driven by combustion turbine. |
| cim:airNoFilling |
| cim:alarm |
| cim:AlarmDisplayType |
| cim:ALL |
| cim:All |
| cim:AllocationEnergyTypeCode |
| cim:AllocationResult - Models Market clearing results. Indicates market horizon, interval based. Used by a market quality system for billing and settlement purposes |
| cim:AllocationResult.intervalStartTime |
| cim:AllocationResult.updateTimeStamp |
| cim:AllocationResult.updateUser |
| cim:AllocationResultValues - Models Market clearing results in terms of price and MW values |
| cim:AllocationResultValues.aggregateType - "1" -- "Detail",
"2" -- "Aggregate by Market service type", in which case, the "AllocationEnergyType" field will not be filled;
"3" -- "Aggregate by "AllocationEnergyType", in which case "MarketServiceType" will not be filled. |
| cim:AllocationResultValues.allocationMwHour |
| cim:AllocationResultValues.allocationPrice |
| cim:AllocationResultValues.AllocationResult - |
| cim:AllocationResultValues.energyTypeCode |
| cim:AllocationResultValues.marketServiceType - Choices are:
ME - Market Energy Capacity;
SR - Spinning Reserve Capacity;
NR - Non-Spinning Reserve Capacity;
DAC - Day Ahead Capacity;
DEC - Derate Capacity |
| cim:AllocationResultValues.RegisteredResource - |
| cim:ALR |
| cim:ALTERNATE |
| cim:AlternateModel |
| cim:AlternateModelGroup |
| cim:AlternateModelGroup.AlternateModel - An alternate model that can be one possiblity among alternates.The group of alternate models for which one alternate is used. |
| cim:AltGeneratingUnitMeas - A prioritized measurement to be used for the generating unit in the control area specificaiton. |
| cim:AltGeneratingUnitMeas.priority - Priority of a measurement usage. Lower numbers have first priority. |
| cim:AltTieMeas - A prioritized measurement to be used for the tie flow as part of the control area specification. |
| cim:AltTieMeas.priority - Priority of a measurement usage. Lower numbers have first priority. |
| cim:aluminum |
| cim:aluminumAlloy |
| cim:aluminumAlloySteel |
| cim:aluminumSteel |
| cim:AMD |
| cim:AmiBillingReadyKind |
| cim:amiCapable |
| cim:amiDisabled |
| cim:AN |
| cim:Analog - Analog represents an analog Measurement. |
| cim:Analog.maxValue - Normal value range maximum for any of the MeasurementValue.values. Used for scaling, e.g. in bar graphs or of telemetered raw values. |
| cim:Analog.minValue - Normal value range minimum for any of the MeasurementValue.values. Used for scaling, e.g. in bar graphs or of telemetered raw values. |
| cim:Analog.normalValue - Normal measurement value, e.g., used for percentage calculations. |
| cim:Analog.positiveFlowIn - If true then this measurement is an active power, reactive power or current with the convention that a positive value measured at the Terminal means power is flowing into the related PowerSystemResource. |
| cim:AnalogControl - An analog control used for supervisory control. |
| cim:AnalogControl.AnalogValue - The MeasurementValue that is controlled.The Control variable associated with the MeasurementValue. |
| cim:AnalogControl.maxValue - Normal value range maximum for any of the Control.value. Used for scaling, e.g. in bar graphs. |
| cim:AnalogControl.minValue - Normal value range minimum for any of the Control.value. Used for scaling, e.g. in bar graphs. |
| cim:AnalogLimit - Limit values for Analog measurements. |
| cim:AnalogLimit.AnalogLimitSet - The set of limits.The limit values used for supervision of Measurements. |
| cim:AnalogLimit.value - The value to supervise against. |
| cim:AnalogLimitSet - An AnalogLimitSet specifies a set of Limits that are associated with an Analog measurement. |
| cim:AnalogLimitSet.Analog - The Measurements using the LimitSet.A measurement may have zero or more limit ranges defined for it. |
| cim:AnalogLimitType |
| cim:AnalogMeasurementValueQuality - Measurement quality flags for Analog Values. |
| cim:AnalogMeasurementValueQuality.scadaQualityCode - The quality code for the given Analog Value. |
| cim:AnalogToDigitalLogicKind |
| cim:AnalogValue - AnalogValue represents an analog MeasurementValue. |
| cim:AnalogValue.AltGeneratingUnitMeas - The alternate generating unit for which this measurement value applies.The specific analog value used as a source. |
| cim:AnalogValue.AltTieMeas - The usage of the measurement within the control area specification.The specific analog value used as a source. |
| cim:AnalogValue.Analog - Measurement to which this value is connected.The values connected to this measurement. |
| cim:AnalogValue.value - The value to supervise. |
| cim:anchor |
| cim:AnchorKind |
| cim:AncillaryCommodityType |
| cim:AncillaryServiceClearing - Model of results of market clearing with respect to Ancillary Service products |
| cim:and |
| cim:ANG |
| cim:AngleDegrees - Measurement of angle in degrees. |
| cim:AngleDegrees.multiplier |
| cim:AngleDegrees.unit |
| cim:AngleDegrees.value |
| cim:anglemin |
| cim:AngleRadians - Phase angle in radians. |
| cim:AngleRadians.multiplier |
| cim:AngleRadians.unit |
| cim:AngleRadians.value |
| cim:anglesec |
| cim:AnodeType |
| cim:anonymous |
| cim:AOA |
| cim:APerA |
| cim:APerm |
| cim:APN |
| cim:ApnodeType |
| cim:apparentPower |
| cim:ApparentPower - Product of the RMS value of the voltage and the RMS value of the current. |
| cim:ApparentPower.multiplier |
| cim:ApparentPower.unit |
| cim:ApparentPower.value |
| cim:apparentPowerFactor |
| cim:apparentPowerLimit |
| cim:ApparentPowerLimit - Apparent power limit. |
| cim:ApparentPowerLimit.value - The apparent power limit. |
| cim:Appear |
| cim:applicationContext |
| cim:Appointment - Meeting time and location. |
| cim:Appointment.callAhead - True if requested to call customer when someone is about to arrive at their premises. |
| cim:Appointment.meetingInterval - Date and time reserved for appointment. |
| cim:Appointment.PersonRole - All persons for this appointment.All appointments for this person. |
| cim:apprentice |
| cim:approve |
| cim:APPROVED |
| cim:approved |
| cim:Approver - Person who accepted/signed or rejected the document. |
| cim:apTitle |
| cim:Area - Area. |
| cim:Area.multiplier |
| cim:Area.unit |
| cim:Area.value |
| cim:AreaControlMode |
| cim:AreaLoadBid - AreaLoadBid is not submitted by a market participant into the Markets. Instead, it is simply an aggregation of all LoadBids contained wtihin a specific SubControlArea. This entity should inherit from Bid for representation of the timeframe (startTime, stopTime) and the market type. |
| cim:AreaLoadBid.demandBidMW - The Demand Bid Megawatt for the area case.
Attribute Usage: This is Scheduled demand MW in Day Ahead |
| cim:AreaLoadCurve - Area load curve definition. |
| cim:AreaLoadCurve.forecastType - Load forecast area type. |
| cim:AreaLoadCurve.TACArea - |
| cim:AreaReserveSpec - The control area's reserve specification. |
| cim:AreaReserveSpec.Description - Description of the object or instance. |
| cim:AreaReserveSpec.lowerRegMarginReqt - Lower regulating margin requirement in MW, the amount of generation that can be dropped by control in 10 minutes |
| cim:AreaReserveSpec.opReserveReqt - Operating reserve requirement in MW, where operating reserve is the generating capability that is fully available within 30 minutes. Operating reserve is composed of primary reserve (t less than 10 min) and secondary reserve (10 less than t less than 30 min). |
| cim:AreaReserveSpec.primaryReserveReqt - Primary reserve requirement in MW, where primary reserve is generating capability that is fully available within 10 minutes. Primary reserve is composed of spinning reserve and quick-start reserve. |
| cim:AreaReserveSpec.raiseRegMarginReqt - Raise regulating margin requirement in MW, the amount of generation that can be picked up by control in 10 minutes |
| cim:AreaReserveSpec.spinningReserveReqt - Spinning reserve requirement in MW, spinning reserve is generating capability that is presently synchronized to the network and is fully available within 10 minutes |
| cim:ARS |
| cim:AS |
| cim:As |
| cim:AS_CLEAR_ASMP_IFM |
| cim:AS_CLEAR_ASMP_RTM |
| cim:AS_CLEAR_COST_IFM |
| cim:AS_CLEAR_COST_RTM |
| cim:AS_CLEAR_MW_IFM |
| cim:AS_CLEAR_MW_RTM |
| cim:AS_DA_RESULT |
| cim:AS_GEN_TOTAL_MW_IFM |
| cim:AS_GEN_TOTAL_MW_RTM |
| cim:AS_IMP_TOTAL_MW_IFM |
| cim:AS_IMP_TOTAL_MW_RTM |
| cim:AS_LOAD_TOTAL_MW_IFM |
| cim:AS_LOAD_TOTAL_MW_RTM |
| cim:AS_OP_RSRV |
| cim:AS_REGION_REQ_MAX |
| cim:AS_REGION_REQ_MIN |
| cim:AS_REGION_value |
| cim:AS_REQ |
| cim:AS_RTM_RESULT |
| cim:AS_SELF_MW_IFM |
| cim:AS_SELF_MW_RTM |
| cim:AS_TOTAL_MW |
| cim:AS_TOTAL_MW_IFM |
| cim:AS_TOTAL_MW_RTM |
| cim:AS_TYPE |
| cim:AS_USER_RATE |
| cim:asbestosAndVarnishedCambric |
| cim:asBuilt |
| cim:asphalt |
| cim:asphaltic |
| cim:ASR |
| cim:ASREGION |
| cim:ASRequirements - Models Ancillary Service Requirements. Describes interval for which the requirement is applicable. |
| cim:ASRequirements.intervalStartTime - The start of the time interval for which requirement is defined. |
| cim:AssemblyDescription - A description for how to assemble model parts for a specific purpose. |
| cim:AssemblyManifest - A collection of model parts when combined form a case or part of a case. |
| cim:Asset - Tangible resource of the utility, including power system equipment, various end devices, cabinets, buildings, etc. For electrical network equipment, the role of the asset is defined through PowerSystemResource and its subclasses, defined mainly in the Wires model (refer to IEC61970-301 and model package IEC61970::Wires). Asset description places emphasis on the physical characteristics of the equipment fulfilling that role. |
| cim:Asset.acceptanceTest - Information on acceptance test. |
| cim:Asset.critical - True if asset is considered critical for some reason (for example, a pole with critical attachments). |
| cim:Asset.electronicAddress - Electronic address. |
| cim:Asset.ErpItemMaster - |
| cim:Asset.FinancialInfo - |
| cim:Asset.initialCondition - Condition of asset in inventory or at time of installation. Examples include new, rebuilt, overhaul required, other. Refer to inspection data for information on the most current condition of the asset. |
| cim:Asset.initialLossOfLife - Whenever an asset is reconditioned, percentage of expected life for the asset when it was new; zero for new devices. |
| cim:Asset.lifecycle - Lifecycle dates for this asset. |
| cim:Asset.lotNumber - Lot number for this asset. Even for the same model and version number, many assets are manufactured in lots. |
| cim:Asset.Medium - |
| cim:Asset.OperationalTag - All operational tags placed on this asset.Asset on which this tag has been placed. |
| cim:Asset.Ownership - All ownerships of this asset.Asset that is object of this ownership. |
| cim:Asset.Procedure - All procedures applicable to this asset.All assets to which this procedure applies. |
| cim:Asset.purchasePrice - Purchase price of asset. |
| cim:Asset.ReliabilityInfo - |
| cim:Asset.ScheduledEvent - |
| cim:Asset.serialNumber - Serial number of this asset. |
| cim:Asset.status - Status of this asset. |
| cim:Asset.type - Utility-specific classification of Asset and its subtypes, according to their corporate standards, practices, and existing IT systems (e.g., for management of assets, maintenance, work, outage, customers, etc.). |
| cim:Asset.utcNumber - Uniquely tracked commodity (UTC) number. |
| cim:Asset.WorkTask - All work tasks on replacement of this old asset.Old asset replaced by this work task. |
| cim:AssetContainer - Asset that is aggregation of other assets such as conductors, transformers, switchgear, land, fences, buildings, equipment, vehicles, etc. |
| cim:AssetContainer.Asset - All assets within this container asset.Container of this asset. |
| cim:AssetContainer.LandProperty - |
| cim:AssetContainersAndWorkRelated |
| cim:AssetFunction - Function performed by an asset. |
| cim:AssetFunction.configID - Configuration specified for this function. |
| cim:AssetFunction.firmwareID - Firmware version. |
| cim:AssetFunction.hardwareID - Hardware version. |
| cim:AssetFunction.password - Password needed to access this function. |
| cim:AssetFunction.programID - Name of program. |
| cim:AssetInfo - Set of attributes of an asset, representing typical datasheet information of a physical device that can be instantiated and shared in different data exchange contexts:
- as attributes of an asset instance (installed or in stock)
- as attributes of an asset model (product by a manufacturer)
- as attributes of a type asset (generic type of an asset as used in designs/extension planning). |
| cim:AssetInfo.Asset - All assets described by this data.Data applicable to this asset. |
| cim:AssetInfo.AssetModel - Asset model described by this data.Data applicable to this asset model. |
| cim:AssetLocationHazard - Potential hazard related to the location of an asset. Examples are trees growing under overhead power lines, a park being located by a substation (i.e., children climb fence to recover a ball), a lake near an overhead distribution line (fishing pole/line contacting power lines), dangerous neighbour, etc. |
| cim:AssetModel - Model of an asset, either a product of a specific manufacturer or a generic asset model or material item. Datasheet characteristics are available through the associated AssetInfo subclass and can be shared with asset or power system resource instances. |
| cim:AssetModel.ErpInventoryCount - |
| cim:AssetModelCatalogue - Catalogue of available types of products and materials that are used to build or install, maintain or operate an Asset. Each catalogue item is for a specific product (AssetModel) available from a specific supplier. |
| cim:AssetModelCatalogue.AssetModelCatalogueItem - |
| cim:AssetModelCatalogue.status |
| cim:AssetModelCatalogueItem - Provides pricing and other relevant information about a specific manufacturer's product (i.e., AssetModel), and its price from a given supplier. A single AssetModel may be availble from multiple suppliers. Note that manufacturer and supplier are both types of organisation, which the association is inherited from Document. |
| cim:AssetModelCatalogueItem.ProductAssetModel - |
| cim:AssetModelCatalogueItem.unitCost - Unit cost for an asset model from a specific supplier, either for a unit cost or cost per unit length. Cost is for material or asset only and does not include labor to install/construct or configure it. |
| cim:AssetModelUsageKind |
| cim:assetNumber |
| cim:AssetOrganisationRole - Role an organisation plays with respect to asset. |
| cim:AssetOrganisationRole.Asset - All assets for this organisation role.All roles an organisation plays for this asset. |
| cim:AssetOwner - Owner of the asset. |
| cim:AssetOwner.Ownership - All ownerships of this owner.Asset owner that is subject in this ownership. |
| cim:AssetPropertyCurve - An Asset Property that is described through curves rather than as a data point. The relationship is to be defined between an independent variable (X-axis) and one or two dependent variables (Y1-axis and Y2-axis). |
| cim:AssetPropertyCurve.Asset - |
| cim:AssetPropertyCurve.Specification - |
| cim:AssetRelationships |
| cim:AssetUser - Organisation that is a user of the asset. |
| cim:Assignment - An assignment is given to an ErpPerson, Crew, Organisation, Equipment Item, Tool, etc. and may be used to perform Work, WorkTasks, Procedures, etc. TimeSchedules may be set up directly for Assignments or indirectly via the associated WorkTask. Note that these associations are all inherited through the recursive relationship on Document. |
| cim:Assignment.effectivePeriod - Period between the assignment becoming effective and its expiration. |
| cim:Assignment.OldCrew - All Crews having this Assignment.All Assignments for this Crew. |
| cim:AST |
| cim:AsynchronousMachine - A rotating machine whose shaft rotates asynchronously with the electrical field. Also known as an induction machine with no external connection to the rotor windings, e.g squirrel-cage induction machine. |
| cim:AsynchronousMachine.AsynchronousMachineDynamics - Asynchronous machine dynamics model used to describe dynamic behavior of this asynchronous machine.Asynchronous machine to which this asynchronous machine dynamics model applies. |
| cim:AsynchronousMachine.asynchronousMachineType - Indicates the type of Asynchronous Machine (motor or generator). |
| cim:AsynchronousMachine.converterFedDrive - Indicates whether the machine is a converter fed drive. Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.efficiency - Efficiency of the asynchronous machine at nominal operation in percent. Indicator for converter drive motors. Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.iaIrRatio - Ratio of locked-rotor current to the rated current of the motor (Ia/Ir). Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.nominalFrequency - Nameplate data indicates if the machine is 50 or 60 Hz. |
| cim:AsynchronousMachine.nominalSpeed - Nameplate data. Depends on the slip and number of pole pairs. |
| cim:AsynchronousMachine.polePairNumber - Number of pole pairs of stator. Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.ratedMechanicalPower - Rated mechanical power (Pr in the IEC 60909-0). Used for short circuit data exchange according to IEC 60909. |
| cim:AsynchronousMachine.reversible - Indicates for converter drive motors if the power can be reversible. Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.rr1 - Damper 1 winding resistance. |
| cim:AsynchronousMachine.rr2 - Damper 2 winding resistance. |
| cim:AsynchronousMachine.rxLockedRotorRatio - Locked rotor ratio (R/X). Used for short circuit data exchange according to IEC 60909 |
| cim:AsynchronousMachine.tpo - Transient rotor time constant (greater than tppo). |
| cim:AsynchronousMachine.tppo - Sub-transient rotor time constant (greater than 0). |
| cim:AsynchronousMachine.xlr1 - Damper 1 winding leakage reactance. |
| cim:AsynchronousMachine.xlr2 - Damper 2 winding leakage reactance. |
| cim:AsynchronousMachine.xm - Magnetizing reactance. |
| cim:AsynchronousMachine.xp - Transient reactance (unsaturated) (greater than or equal to xpp). |
| cim:AsynchronousMachine.xpp - Sub-transient reactance (unsaturated) (greather than Xl). |
| cim:AsynchronousMachine.xs - Synchronous reactance (greather than xp). |
cim:AsynchronousMachineDynamics - Asynchronous machine whose behaviour is described by reference to a standard model expressed in either time constant reactance form or equivalent circuit form or by definition of a user-defined model.
Parameter Notes:
- Asynchronous machine parameters such as Xl, Xs etc. are actually used as inductances (L) in the model, but are commonly referred to as reactances since, at nominal frequency, the per unit values are the same. However, some references use the symbol L instead of X.
|
| cim:AsynchronousMachineDynamics.MechanicalLoadDynamics - Mechanical load model associated with this asynchronous machine model.Asynchronous machine model with which this mechanical load model is associated. |
| cim:AsynchronousMachineDynamics.TurbineGovernorDynamics - Turbine-governor model associated with this asynchronous machine model.Asynchronous machine model with which this turbine-governor model is associated. |
| cim:AsynchronousMachineDynamics.WindTurbineType1or2Dynamics - Wind generator type 1 or 2 model associated with this asynchronous machine model.Asynchronous machine model with which this wind generator type 1 or 2 model is associated. |
| cim:AsynchronousMachineEquivalentCircuit - The electrical equations of all variations of the asynchronous model are based on the AsynchronousEquivalentCircuit diagram for the direct and quadrature axes, with two equivalent rotor windings in each axis.
Equations for conversion between Equivalent Circuit and Time Constant Reactance forms:
Xs = Xm + Xl
X' = Xl + Xm * Xlr1 / (Xm + Xlr1)
X'' = Xl + Xm * Xlr1* Xlr2 / (Xm * Xlr1 + Xm * Xlr2 + Xlr1 * Xlr2)
T'o = (Xm + Xlr1) / (omega0 * Rr1)
T''o = (Xm * Xlr1 + Xm * Xlr2 + Xlr1 * Xlr2) / (omega0 * Rr2 * (Xm + Xlr1)
Same equations using CIM attributes from AsynchronousMachineTimeConstantReactance class on left of = sign and AsynchronousMachineEquivalentCircuit class on right (except as noted):
xs = xm + RotatingMachineDynamics.statorLeakageReactance
xp = RotatingMachineDynamics.statorLeakageReactance + xm * xlr1 / (xm + xlr1)
xpp = RotatingMachineDynamics.statorLeakageReactance + xm * xlr1* xlr2 / (xm * xlr1 + xm * xlr2 + xlr1 * xlr2)
tpo = (xm + xlr1) / (2*pi*nominal frequency * rr1)
tppo = (xm * xlr1 + xm * xlr2 + xlr1 * xlr2) / (2*pi*nominal frequency * rr2 * (xm + xlr1). |
| cim:AsynchronousMachineEquivalentCircuit.rr1 - Damper 1 winding resistance. |
| cim:AsynchronousMachineEquivalentCircuit.rr2 - Damper 2 winding resistance. |
| cim:AsynchronousMachineEquivalentCircuit.xlr1 - Damper 1 winding leakage reactance. |
| cim:AsynchronousMachineEquivalentCircuit.xlr2 - Damper 2 winding leakage reactance. |
| cim:AsynchronousMachineEquivalentCircuit.xm - Magnetizing reactance. |
| cim:AsynchronousMachineKind |
cim:AsynchronousMachineTimeConstantReactance - Parameter Notes:
- If X'' = X', a single cage (one equivalent rotor winding per axis) is modelled.
- The p in the attribute names is a substitution for a prime in the usual parameter notation, e.g. tpo refers to T'o.
The parameters used for models expressed in time constant reactance form include:
- RotatingMachine.ratedS (MVAbase)
- RotatingMachineDynamics.damping (D)
- RotatingMachineDynamics.inertia (H)
- RotatingMachineDynamics.saturationFactor (S1)
- RotatingMachineDynamics.saturationFactor120 (S12)
- RotatingMachineDynamics.statorLeakageReactance (Xl)
- RotatingMachineDynamics.statorResistance (Rs)
- .xs (Xs)
- .xp (X')
- .xpp (X'')
- .tpo (T'o)
- .tppo (T''o).
|
| cim:AsynchronousMachineTimeConstantReactance.tpo - Transient rotor time constant (T'o) (> T''o). Typical Value = 5. |
| cim:AsynchronousMachineTimeConstantReactance.tppo - Subtransient rotor time constant (T''o) (> 0). Typical Value = 0.03. |
| cim:AsynchronousMachineTimeConstantReactance.xp - Transient reactance (unsaturated) (X') (>=X''). Typical Value = 0.5. |
| cim:AsynchronousMachineTimeConstantReactance.xpp - Subtransient reactance (unsaturated) (X'') (> Xl). Typical Value = 0.2. |
| cim:AsynchronousMachineTimeConstantReactance.xs - Synchronous reactance (Xs) (>= X'). Typical Value = 1.8. |
| cim:AsynchronousMachineUserDefined - Asynchronous machine whose dynamic behaviour is described by a user-defined model. |
| cim:AsynchronousMachineUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:AsynchronousMachineUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:ATL_APNODE |
| cim:ATL_AS_REGION |
| cim:ATL_AS_REGION_MAP |
| cim:ATL_HUB |
| cim:ATL_LAP |
| cim:ATL_LDF |
| cim:ATL_PNODE |
| cim:ATL_PNODE_MAP |
| cim:ATL_PUB |
| cim:ATL_PUB_SCHED |
| cim:ATL_RESOURCE |
| cim:ATL_RUC_ZONE |
| cim:ATL_RUC_ZONE_MAP |
| cim:ATL_STAT |
| cim:ATL_TAC_AREA |
| cim:ATL_TAC_AREA_MAP |
| cim:ATL_TI |
| cim:ATL_TIEPOINT |
| cim:ATL_XREF |
| cim:AttributeInstanceComponent - A class used to provide information about an attribute. |
| cim:AttributeInstanceComponent.attribute - The identification of the formal name of an attribute. |
| cim:AttributeInstanceComponent.attributeValue - The instance value of the attribute. |
| cim:AttributeInstanceComponent.MarketDocument - |
| cim:AttributeInstanceComponent.position - A sequential value representing a relative sequence number. |
| cim:AttributeProperty - Property for a particular attribute that contains name and value |
| cim:AttributeProperty.propertyName |
| cim:AttributeProperty.propertyValue |
| cim:AttributeProperty.sequence |
| cim:AUC |
| cim:Auction - A class providing the identification and type of an auction. |
| cim:Auction.allocationMode - Identification of the method of allocation in an auction. |
| cim:Auction.cancelled - An indicator that signifies that the auction has been cancelled. |
| cim:Auction.category - The product category of an auction. |
| cim:Auction.paymentTerms - The terms which dictate the determination of the bid payment price. |
| cim:Auction.rights - The rights of use the transmission capacity acquired in an auction. |
| cim:Auction.type - The kind of the Auction (e.g. implicit, explicit ...). |
| cim:AUD |
| cim:audibleVolume |
| cim:Author - Person who created document or activity record. |
| cim:automatic |
| cim:AutomaticDispatchMode |
| cim:AutomaticDispInstTypeCommitment |
| cim:automaticPositioning |
| cim:autonomousDst |
| cim:autotransformer |
| cim:AuxiliaryAccount - Variable and dynamic part of auxiliary agreement, generally representing the current state of the account related to the outstanding balance defined in auxiliary agreement. |
| cim:AuxiliaryAccount.AuxiliaryAgreement - Auxiliary agreement regulating this account.All auxiliary accounts regulated by this agreement. |
| cim:AuxiliaryAccount.balance - The total amount currently remaining on this account that is required to be paid in order to settle the account to zero. This excludes any due amounts not yet paid. |
| cim:AuxiliaryAccount.due - Current amounts now due for payment on this account. |
| cim:AuxiliaryAccount.lastCredit - Details of the last credit transaction performed on this account. |
| cim:AuxiliaryAccount.lastDebit - Details of the last debit transaction performed on this account. |
| cim:AuxiliaryAccount.principleAmount - The initial principle amount, with which this account was instantiated. |
| cim:AuxiliaryAgreement - An ad-hoc auxiliary account agreement associated with a customer agreement, not part of the customer's account, but typically subject to formal agreement between customer and supplier (utility). Typically this is used to collect revenue owed by the customer for other services or arrears accrued with the utility for other services. It is typically linked to a prepaid token purchase transaction, thus forcing the customer to make a payment towards settlement of the auxiliary account balance whenever the customer needs to purchase a prepaid token for electricity.
The present status of the auxiliary agreement can be defined in the context of the utility's business rules, for example: enabled, disabled, pending, over recovered, under recovered, written off, etc. |
| cim:AuxiliaryAgreement.arrearsInterest - The interest per annum to be charged prorata on 'AuxiliaryAccount.dueArrears' at the end of each 'payCycle'. |
| cim:AuxiliaryAgreement.auxCycle - The frequency for automatically recurring auxiliary charges, where 'AuxiliaryAccount.initialCharge' is recursively added to 'AuxiliaryAccount.dueCurrent' at the start of each 'auxCycle'. For example: on a specified date and time; hourly; daily; weekly; monthly; 3-monthly; 6-monthly; 12-monthly; etc. |
| cim:AuxiliaryAgreement.auxPriorityCode - The coded priority indicating the priority that this auxiliary agreement has above other auxiliary agreements (associated with the same customer agreement) when it comes to competing for settlement from a payment transaction or token purchase. |
| cim:AuxiliaryAgreement.CustomerAgreement - Customer agreement this (non-service related) auxiliary agreement refers to.All (non-service related) auxiliary agreements that refer to this customer agreement. |
| cim:AuxiliaryAgreement.fixedAmount - The fixed amount that has to be collected from each vending transaction towards settlement of this auxiliary agreement. Note that there may be multiple tokens vended per vending transaction, but this is not relevant. |
| cim:AuxiliaryAgreement.minAmount - The minimum amount that has to be paid at any transaction towards settling this auxiliary agreement or reducing the balance. |
| cim:AuxiliaryAgreement.payCycle - The contractually expected payment frequency (by the customer). Examples are: ad-hoc; on specified date; hourly, daily, weekly, monthly. etc. |
| cim:AuxiliaryAgreement.subType - Sub-classification of the inherited 'type' for this AuxiliaryAgreement. |
| cim:AuxiliaryAgreement.vendPortion - The percentage of the transaction amount that has to be collected from each vending transaction towards settlement of this auxiliary agreement when payments are not in arrears. Note that there may be multiple tokens vended per vending transaction, but this is not relevant. |
| cim:AuxiliaryAgreement.vendPortionArrear - The percentage of the transaction amount that has to be collected from each vending transaction towards settlement of this auxiliary agreement when payments are in arrears. Note that there may be multiple tokens vended per vending transaction, but this is not relevant. |
| cim:auxiliaryCharge |
| cim:auxiliaryChargePayment |
| cim:AuxiliaryCost - Models Market clearing results for Auxillary costs |
| cim:AuxiliaryCost.intervalStartTime |
| cim:AuxiliaryCost.marketType |
| cim:AuxiliaryCost.updateTimeStamp |
| cim:AuxiliaryCost.updateUser |
| cim:AuxiliaryEquipment - AuxiliaryEquipment describe equipment that is not performing any primary functions but support for the equipment performing the primary function.
AuxiliaryEquipment is attached to primary eqipment via an association with Terminal. |
| cim:AuxiliaryObject - Models Auxillary Values |
| cim:AuxiliaryValues - Models Auxillary Values |
| cim:AuxiliaryValues.AuxiliaryCost - |
| cim:AuxiliaryValues.availUndispatchedQ |
| cim:AuxiliaryValues.FiveMinAuxiliaryData - |
| cim:AuxiliaryValues.incrementalORAvail |
| cim:AuxiliaryValues.maxExpostCapacity |
| cim:AuxiliaryValues.minExpostCapacity |
| cim:AuxiliaryValues.noLoadCost |
| cim:AuxiliaryValues.noLoadCostEligibilityFlag |
| cim:AuxiliaryValues.startUpCost |
| cim:AuxiliaryValues.startUpCostEligibilityFlag |
| cim:AuxiliaryValues.TenMinAuxiliaryData - |
| cim:average |
| cim:AWG |
| cim:AZN |
| cim:B |
| cim:BalanceResponsibleParty |
| cim:BalanceSupplier |
| cim:balancingAuthority |
| cim:BAM |
| cim:bandwidth |
| cim:Bank - Organisation that is a commercial bank, agency, or other institution that offers a similar service. |
| cim:Bank.BankAccount - All BankAccounts this Bank provides.Bank that provides this BankAccount. |
| cim:Bank.bic - Bank identifier code as defined in ISO 9362; for use in countries wher IBAN is not yet in operation. |
| cim:Bank.iban - International bank account number defined in ISO 13616; for countries where IBAN is not in operation, the existing BIC or SWIFT codes may be used instead (see ISO 9362). |
| cim:BankAccount - Bank account. |
| cim:BankAccount.accountNumber - Account reference number. |
| cim:BankAccount.ServiceSupplier - ServiceSupplier that is owner of this BankAccount.All BackAccounts this ServiceSupplier owns. |
| cim:BankAccountDetail - Details of a bank account. |
| cim:BankAccountDetail.accountNumber - Operational account reference number. |
| cim:BankAccountDetail.bankName - Name of bank where account is held. |
| cim:BankAccountDetail.branchCode - Branch of bank where account is held. |
| cim:BankAccountDetail.holderID - National identity number (or equivalent) of account holder. |
| cim:BankAccountDetail.holderName - Name of account holder. |
| cim:bankOrder |
| cim:bar |
| cim:BAS |
| cim:BaseCaseConstraintLimit - Possibly time-varying max MW or MVA and optionally Min MW limit or MVA limit (Y1 and Y2, respectively) assigned to a contingency analysis base case. Use CurveSchedule XAxisUnits to specify MW or MVA. To be used only if the BaseCaseConstraintLimit differs from the DefaultConstraintLimit. |
| cim:BaseFrequency - The class describe a base frequency for a power system network. In case of multiple power networks with different frequencies, e.g. 50 or 60 Hertz each network will have it's own base frequency class. Hence it is assumed that power system objects having different base frequencies appear in separate documents where each document has a single base frequency instance. |
| cim:BaseFrequency.frequency - The base frequency. |
| cim:BASELINE |
| cim:BasePower - The BasePower class defines the base power used in the per unit calculations. |
| cim:BasePower.basePower - Value used as base power. |
| cim:BaseReading - Common representation for reading values. Note that a reading value may have multiple qualities, as produced by various systems ('ReadingQuality.source'). |
| cim:BaseReading.ReadingQuality - All qualities of this reading.Reading value to which this quality applies. |
| cim:BaseReading.reportedDateTime - (used only when there are detailed auditing requirements) Date and time at which the reading was first delivered to the metering system. |
| cim:BaseReading.source - System that originally supplied the reading (e.g., customer, AMI system, handheld reading system, another enterprise system, etc.). |
| cim:BaseReading.timePeriod - Start and end of the period for those readings whose type has a time attribute such as 'billing', seasonal' or 'forTheSpecifiedPeriod'. |
| cim:BaseReading.value - Value of this reading. |
| cim:BaseVoltage - Defines a system base voltage which is referenced. |
| cim:BaseVoltage.nominalVoltage - The power system resource's base voltage. |
| cim:BaseVoltage.TopologicalNode - The topological nodes at the base voltage.The base voltage of the topologocial node. |
| cim:BaseVoltage.TransformerEnd - Transformer ends at the base voltage. This is essential for PU calculation.Base voltage of the transformer end. This is essential for PU calculation. |
| cim:BaseVoltage.VoltageLevel - The voltage levels having this base voltage.The base voltage used for all equipment within the voltage level. |
| cim:BaseWork - Common representation for work and work tasks. |
| cim:BaseWork.kind - Kind of work. |
| cim:BaseWork.priority - Priority of work. |
| cim:BaseWork.statusKind - Kind of work status. |
| cim:BasicIntervalSchedule - Schedule of values at points in time. |
| cim:BasicIntervalSchedule.startTime - The time for the first time point. |
| cim:BasicIntervalSchedule.value1Multiplier - Multiplier for value1. |
| cim:BasicIntervalSchedule.value1Unit - Value1 units of measure. |
| cim:BasicIntervalSchedule.value2Multiplier - Multiplier for value2. |
| cim:BasicIntervalSchedule.value2Unit - Value2 units of measure. |
| cim:batteryCarryover |
| cim:batteryVoltage |
| cim:Bay - A collection of power system resources (within a given substation) including conducting equipment, protection relays, measurements, and telemetry. A bay typically represents a physical grouping related to modularization of equipment. |
| cim:Bay.bayEnergyMeasFlag - Indicates the presence/absence of energy measurements. |
| cim:Bay.bayPowerMeasFlag - Indicates the presence/absence of active/reactive power measurements. |
| cim:Bay.breakerConfiguration - Breaker configuration. |
| cim:Bay.busBarConfiguration - Bus bar configuration. |
| cim:Bay.VoltageLevel - The voltage level containing this bay.The bays within this voltage level. |
| cim:BBD |
| cim:BC |
| cim:BCN |
| cim:BDT |
| cim:beforeUEL |
| cim:BEGINNING |
| cim:beltedPilc |
| cim:BEST |
| cim:BGAS |
| cim:BGN |
| cim:BHD |
| cim:Bid - Represents both bids to purchase and offers to sell energy or ancillary services in an RTO-sponsored market. |
| cim:Bid.ActionRequest - |
| cim:Bid.BidHourlySchedule - |
| cim:Bid.marketType - The market type, DAM or RTM. |
| cim:Bid.MitigatedBid - |
| cim:Bid.ProductBid - A bid comprises one or more product bids of market productsA bid comprises one or more product bids of market products |
| cim:Bid.RMRDetermination - |
| cim:Bid.startTime - Start time and date for which bid applies. |
| cim:Bid.stopTime - Stop time and date for which bid is applicable. |
| cim:BIDC |
| cim:BidCalculationBasis |
| cim:BidDistributionFactor - This class allows SC to input different time intervals for distribution factors |
| cim:BidDistributionFactor.ProductBid - |
| cim:BidDistributionFactor.timeIntervalEnd - End of the time interval n which bid is valid (yyyy-mm-dd hh24: mi: ss) |
| cim:BidDistributionFactor.timeIntervalStart - Start of the time interval in which bid is valid (yyyy-mm-dd hh24: mi: ss). |
| cim:BidError - This class represent the error information for a bid that is detected during bid validation |
| cim:BidError.componentType |
| cim:BidError.endTime - hour wihthin the bid for which the error applies |
| cim:BidError.errMessage - error message |
| cim:BidError.errPriority - Priority number for the error message |
| cim:BidError.logTimeStamp |
| cim:BidError.MarketProduct - |
| cim:BidError.msgLevel |
| cim:BidError.ResourceBid - |
| cim:BidError.ruleID |
| cim:BidError.startTime - hour wihthin the bid for which the error applies |
| cim:BidHourlyProductSchedule - Containment for bid parameters that are dependent on a market product type. |
| cim:BidHourlySchedule - Containment for bid hourly parameters that are not product dependent. |
| cim:biDirectional |
| cim:BidMitigationStatus |
| cim:BidMitigationType |
| cim:BidPriceCap - This class represent the bid price cap. |
| cim:BidPriceCap.bidCeiling - Bid Ceiling ($/MWH) |
| cim:BidPriceCap.bidCeilingAS - Bid Ceiling ($/MWH) for generic AS versus a specific market product |
| cim:BidPriceCap.bidFloor - Bid Floor, ($/MWH) |
| cim:BidPriceCap.bidFloorAS - Bid Floor ($/MWH) for generic AS versus a specific market product |
| cim:BidPriceCap.defaultPrice - Bid Default Price($/MWH) |
| cim:BidPriceCap.MarketProduct - |
| cim:BidPriceCap.marketType - Market Type of the cap (DAM or RTM) |
| cim:BidPriceCapType |
| cim:BidPriceCurve - Relationship between unit operating price in $/hour (Y-axis) and unit output in MW (X-axis). |
| cim:BidPriceSchedule - Defines bid schedules to allow a product bid to use specified bid price curves for different time intervals. |
| cim:BidPriceSchedule.BidPriceCurve - |
| cim:BidPriceSchedule.bidType - BID Type:
I - Initial Bid;
F - Final Bid |
| cim:BidPriceSchedule.mitigationStatus - Mitigation Status:
'S' - Mitigated by SMPM because of "misconduct"
'L; - Mitigated by LMPM because of "misconduct"
'R' - Modified by LMPM because of RMR rules
'M' - Mitigated because of "misconduct" both by SMPM and LMPM
'B' - Mitigated because of "misconduct" both by SMPM and modified by LMLM because of RMR rules
'O' - original |
| cim:BidPriceSchedule.ProductBid - |
| cim:BIDS_PUBLIC |
| cim:BidSelfSched - Defines self schedule values to be used for specified time intervals. |
| cim:BidSelfSched.AdjacentCASet - |
| cim:BidSelfSched.balancingFlag - This is a Y/N flag for a self-schedule of a resource per market per date and hour, using a specific TR ID. It indicates whether a self-schedule using a TR is balanced with another self-schedule using the same TR ID. |
| cim:BidSelfSched.bidType - bidType has two types as the required output of requirements and qualified pre-dispatch. |
| cim:BidSelfSched.ContractRight - |
| cim:BidSelfSched.HostControlArea - |
| cim:BidSelfSched.priorityFlag - This is a Y/N flag for a self-schedule of a resource per market per date and hour, using a specific TR ID. It indicates whether a self-schedule using a TR has scheduling priority in DAM/RTM. |
| cim:BidSelfSched.ProductBid - |
| cim:BidSelfSched.pumpSelfSchedMw - Contains the PriceTaker, ExistingTransmissionContract, TransmissionOwnershipRights pumping self schedule quantity. If this value is not null, then the unit is in pumping mode. |
| cim:BidSelfSched.referenceType - Indication of which type of self schedule is being referenced. |
| cim:BidSelfSched.selfSchedMw - Self scheduled value |
| cim:BidSelfSched.selfSchedSptResource - Price Taker Export Self Sched Support Resource |
| cim:BidSelfSched.selfSchedType - This attribute is used to specify if a bid includes a self sched bid. If so what self sched type is it. The possible values are shown as follow but not limited to:
'ETC' - Existing transmission contract
'TOR' - Transmission ownership right
'RMR' - Reliability must run
'RGMR' - Regulatory must run
"RMT" - Relaiability must take
"PT" - Price taker
"LPT" - Low price taker
"SP" - Self provision
"RA" - Resource adequacy
This attribute is originally defined in the BidSelfSched class |
| cim:BidSelfSched.SubControlArea - |
| cim:BidSelfSched.updateType |
| cim:BidSelfSched.wheelingTransactionReference - A unique identifier of a wheeling transaction. A wheeling transaction is a balanced Energy exchange among Supply and Demand Resources. |
| cim:BidSet - As set of mutually exclusive bids for which a maximum of one may be scheduled.
Of these generating bids, only one generating bid can be scheduled at a time. |
| cim:BidSet.GeneratingBid - |
| cim:BidStatusType |
| cim:BidTimeSeries - The formal specification of specific characteristics related to a bid. |
| cim:BidTimeSeries.blockBid - Indication that the values in the period are considered as a whole. They cannot be changed or subdivided. |
| cim:BidTimeSeries.direction - The coded identification of the energy flow. |
| cim:BidTimeSeries.divisible - An indication whether or not each element of the bid may be partially accepted or not. |
| cim:BidTimeSeries.linkedBidsIdentification - Unique identification associated with all linked bids. |
| cim:BidTimeSeries.minimumActivationQuantity - The minimum quantity of energy that can be activated at a given time interval. |
| cim:BidTimeSeries.stepIncrementQuantity - The minimum increment that can be applied for an increase in an activation request. |
| cim:BidType |
| cim:BidTypeRMR |
| cim:BIF |
| cim:BilateralTransaction - Bilateral transaction |
| cim:BilateralTransaction.curtailTimeMax - Maximum curtailment time in number of trading intervals |
| cim:BilateralTransaction.curtailTimeMin - Minimum curtailment time in number of trading intervals |
| cim:BilateralTransaction.marketType - Market type (default=DA)
DA - Day Ahead
RT - Real Time
HA - Hour Ahead |
| cim:BilateralTransaction.purchaseTimeMax - Maximum purchase time in number of trading intervals |
| cim:BilateralTransaction.purchaseTimeMin - Minimum purchase time in number of trading intervals |
| cim:BilateralTransaction.scope - Transaction scope:
'Internal' (default)
'External' |
| cim:BilateralTransaction.totalTranChargeMax - Maximum total transmission (congestion) charges in monetary units |
| cim:BilateralTransaction.transactionType - Transaction type (default 1)
1 - Fixed
2 - Dispatchable continuous
3 - Dispatchable block-loading |
| cim:BILL_TO |
| cim:billCarryover |
| cim:BillDeterminant - Model various charges to support billing and settlement of |
| cim:BillDeterminant.calculationLevel - Level in charge calculation order. |
| cim:BillDeterminant.ChargeComponent - A BillDeterminant can have 0-n ChargeComponent and a ChargeComponent can associate to 0-n BillDeterminant.A BillDeterminant can have 0-n ChargeComponent and a ChargeComponent can associate to 0-n BillDeterminant. |
| cim:BillDeterminant.ChargeProfile - |
| cim:BillDeterminant.configVersion - The version of configuration of calculation logic in the settlement. |
| cim:BillDeterminant.deleteStatus |
| cim:BillDeterminant.effectiveDate |
| cim:BillDeterminant.exception |
| cim:BillDeterminant.factor |
| cim:BillDeterminant.frequency |
| cim:BillDeterminant.numberInterval - Number of intervals of bill determiant in trade day, eg 300 for five minute intervals. |
| cim:BillDeterminant.offset |
| cim:BillDeterminant.precisionLevel - The level of precision in the current value. |
| cim:BillDeterminant.primaryYN |
| cim:BillDeterminant.referenceFlag |
| cim:BillDeterminant.reportable |
| cim:BillDeterminant.roundOff |
| cim:BillDeterminant.source |
| cim:BillDeterminant.terminationDate |
| cim:BillDeterminant.unitOfMeasure - The UOM for the current value of the Bill Determinant. |
| cim:billing |
| cim:BillingAgent |
| cim:billingApproved |
| cim:billingPeriod |
| cim:billLastPeriod |
| cim:BillMediaKind |
| cim:billToDate |
| cim:BIOM |
| cim:bipolar |
| cim:BLACKSTART |
| cim:BlockEnergyTrader |
| cim:bluefill254 |
| cim:BMD |
| cim:BN |
| cim:BND |
| cim:BOB |
| cim:BoilerControlMode |
| cim:BOTH |
| cim:both |
| cim:Boundary - A framework part that is a boundary between 2 frames. |
| cim:boundedQuantity |
| cim:BOV |
| cim:Bq |
| cim:Branch_Group_Derates |
| cim:branchCurrent |
| cim:BranchEndFlow - Dynamic flows and ratings associated with a branch end. |
| cim:BranchEndFlow.loadDumpRating - The Load Dump Rating for the branch |
| cim:BranchEndFlow.longTermRating - The Long Term Rating for the branch |
| cim:BranchEndFlow.mVARFlow - The MVAR flow on the branch
Attribute Usage: Reactive power flow at the series device, transformer, phase shifter, or line end |
| cim:BranchEndFlow.mwFlow - The MW flow on the branch
Attribute Usage: Active power flow at the series device, transformer, phase shifter, or line end |
| cim:BranchEndFlow.normalRating - The Normal Rating for the branch |
| cim:BranchEndFlow.shortTermRating - The Short Term Rating for the branch |
| cim:BranchGroup - A group of branch terminals whose directed flow summation is to be monitored. A branch group need not form a cutset of the network. |
| cim:BranchGroup.BranchGroupTerminal - The directed branch group terminals to be summed.The branch group to which the directed branch group terminals belong. |
| cim:BranchGroup.maximumActivePower - The maximum active power flow. |
| cim:BranchGroup.maximumReactivePower - The maximum reactive power flow. |
| cim:BranchGroup.minimumActivePower - The minimum active power flow. |
| cim:BranchGroup.minimumReactivePower - The minimum reactive power flow. |
| cim:BranchGroup.monitorActivePower - Monitor the active power flow. |
| cim:BranchGroup.monitorReactivePower - Monitor the reactive power flow. |
| cim:BranchGroup.PinBranchGroup - |
| cim:BranchGroupTerminal - A specific directed terminal flow for a branch group. |
| cim:BranchGroupTerminal.positiveFlowIn - The flow into the terminal is summed if set true. The flow out of the terminanl is summed if set false. |
| cim:BranchLongTerm |
| cim:BranchMediumTerm |
| cim:BranchShortTerm |
| cim:Breaker - A mechanical switching device capable of making, carrying, and breaking currents under normal circuit conditions and also making, carrying for a specified time, and breaking currents under specified abnormal circuit conditions e.g. those of short circuit. |
| cim:breaker |
| cim:Breaker.inTransitTime - The transition time from open to close. |
| cim:breakerAndAHalf |
| cim:BreakerConfiguration |
| cim:BreakerInfo - Properties of breaker assets. |
| cim:BreakerInfo.phaseTrip - Phase trip rating. |
| cim:breakerOperation |
| cim:BRL |
| cim:broadcastAddress |
| cim:broken |
| cim:BS |
| cim:BSD |
| cim:BTN |
| cim:Btu |
| cim:building |
| cim:bulkQuantity |
| cim:burd |
| cim:burnedInTheClear |
| cim:BUS |
| cim:BusbarConfiguration |
| cim:BusbarSection - A conductor, or group of conductors, with negligible impedance, that serve to connect other conducting equipment within a single substation.
Voltage measurements are typically obtained from VoltageTransformers that are connected to busbar sections. A bus bar section may have many physical terminals but for analysis is modelled with exactly one logical terminal. |
| cim:BusbarSection.ipMax - Maximum allowable peak short-circuit current of busbar (Ipmax in the IEC 60909-0).
Mechanical limit of the busbar in the substation itself. Used for short circuit data exchange according to IEC 60909 |
| cim:BusbarSectionInfo - Busbar section data. |
| cim:BusbarSectionInfo.ratedCurrent - Rated current. |
| cim:BusbarSectionInfo.ratedVoltage - Rated voltage. |
| cim:busFrequency |
| cim:busFrequencyDeviation |
| cim:Bushing - Bushing asset. |
| cim:Bushing.c1Capacitance - Factory measured capacitance, measured between the power factor tap and the bushing conductor. |
| cim:Bushing.c1PowerFactor - Factory measured insulation power factor, measured between the power factor tap and the bushing conductor. |
| cim:Bushing.c2Capacitance - Factory measured capacitance measured between the power factor tap and ground. |
| cim:Bushing.c2PowerFactor - Factory measured insulation power factor, measured between the power factor tap and ground. |
| cim:Bushing.insulationKind - Kind of insulation. |
| cim:BushingInsulationKind |
| cim:BushingInsulationPF - Bushing insulation power factor condition as a result of a test.
Typical status values are: Acceptable, Minor Deterioration or Moisture Absorption, Major Deterioration or Moisture Absorption, Failed. |
| cim:BushingInsulationPF.Bushing - |
| cim:BushingInsulationPF.status |
| cim:BushingInsulationPF.testKind - Kind of test for this bushing. |
| cim:BushingInsulationPfTestKind |
| cim:BusinessCase - Business justification for capital expenditures, usually addressing operations and maintenance costs as well. |
| cim:BusinessCase.corporateCode - A codified representation of the business case (i.e., codes for highway relocation, replace substation transformers, etc.). |
| cim:BusinessPlan - A BusinessPlan is an organized sequence of predetermined actions required to complete a future organizational objective. It is a type of document that typically references a schedule, physical and/or logical resources (assets and/or PowerSystemResources), locations, etc. |
| cim:BusinessRole - A business role that this organisation plays. A single organisation typically performs many functions, each one described as a role. |
| cim:BusinessRole.status |
| cim:BusinessRole.type - Classification by utility's corporate standards and practices. |
| cim:BusNameMarker - Used to apply user standard names to topology buses. Typically used for "bus/branch" case generation. Associated with one or more terminals that are normally connected with the bus name. The associated terminals are normally connected by non-retained switches. For a ring bus station configuration, all busbar terminals in the ring are typically associated. For a breaker and a half scheme, both busbars would normally be associated. For a ring bus, all busbars would normally be associated. For a "straight" busbar configuration, normally only the main terminal at the busbar would be associated. |
| cim:BusNameMarker.priority - Priority of bus name marker for use as topology bus name. Use 0 for don t care. Use 1 for highest priority. Use 2 as priority is less than 1 and so on. |
| cim:busVoltage |
| cim:busVoltageDerivative |
| cim:butt |
| cim:butyl |
| cim:BUYER |
| cim:BWP |
| cim:BWRSteamSupply - Boiling water reactor used as a steam supply to a steam turbine. |
| cim:BWRSteamSupply.highPowerLimit - High power limit. |
| cim:BWRSteamSupply.inCoreThermalTC - In-core thermal time constant. |
| cim:BWRSteamSupply.integralGain - Integral gain. |
| cim:BWRSteamSupply.lowerLimit - Initial lower limit. |
| cim:BWRSteamSupply.lowPowerLimit - Low power limit. |
| cim:BWRSteamSupply.pressureLimit - Pressure limit. |
| cim:BWRSteamSupply.pressureSetpointGA - Pressure setpoint gain adjuster. |
| cim:BWRSteamSupply.pressureSetpointTC1 - Pressure setpoint time constant. |
| cim:BWRSteamSupply.pressureSetpointTC2 - Pressure setpoint time constant. |
| cim:BWRSteamSupply.proportionalGain - Proportional gain. |
| cim:BWRSteamSupply.rfAux1 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux2 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux3 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux4 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux5 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux6 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux7 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rfAux8 - Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output. |
| cim:BWRSteamSupply.rodPattern - Rod pattern. |
| cim:BWRSteamSupply.rodPatternConstant - Constant associated with rod pattern. |
| cim:BWRSteamSupply.upperLimit - Initial upper limit. |
| cim:byPercentage |
| cim:BYR |
| cim:byValue |
| cim:BZD |
| cim:c |
| cim:C |
| cim:c1 |
| cim:c2 |
| cim:CA |
| cim:CA_value |
| cim:Cabinet - Enclosure that offers protection to the equipment it contains and/or safety to people/animals outside it. |
| cim:CableConstructionKind |
| cim:CableInfo - Cable data. |
| cim:CableInfo.constructionKind - Kind of construction of this cable. |
| cim:CableInfo.diameterOverCore - Diameter over the core, including any semi-con screen; should be the insulating layer's inside diameter. |
| cim:CableInfo.diameterOverInsulation - Diameter over the insulating layer, excluding outer screen. |
| cim:CableInfo.diameterOverJacket - Diameter over the outermost jacketing layer. |
| cim:CableInfo.diameterOverScreen - Diameter over the outer screen; should be the shield's inside diameter. |
| cim:CableInfo.isStrandFill - True if wire strands are extruded in a way to fill the voids in the cable. |
| cim:CableInfo.nominalTemperature - Maximum nominal design operating temperature. |
| cim:CableInfo.outerJacketKind - Kind of outer jacket of this cable. |
| cim:CableInfo.sheathAsNeutral - True if sheath / shield is used as a neutral (i.e., bonded). |
| cim:CableInfo.shieldMaterial - Material of the shield. |
| cim:CableOuterJacketKind |
| cim:CableShieldMaterialKind |
| cim:CAD |
| cim:CAESPlant - Compressed air energy storage plant. |
| cim:CAESPlant.energyStorageCapacity - The rated energy storage capacity. |
| cim:CAESPlant.ratedCapacityP - The CAES plant's gross rated generating capacity. |
| cim:calculated |
| cim:CalculationKind |
| cim:call |
| cim:CANCEL |
| cim:cancelled |
| cim:CANCELLED |
| cim:CANNOT |
| cim:CAP |
| cim:Capability - Capabilities of a crew. |
| cim:Capability.performanceFactor - Capability performance factor. |
| cim:Capability.status |
| cim:Capability.type - Classification by utility's work management standards and practices. |
| cim:Capability.validityInterval - Date and time interval for which this capability is valid (when it became effective and when it expires). |
| cim:Capacitance - Capacitive part of reactance (imaginary part of impedance), at rated frequency. |
| cim:Capacitance.multiplier |
| cim:Capacitance.unit |
| cim:Capacitance.value |
| cim:CapacitancePerLength - Capacitance per unit of length. |
| cim:CapacitancePerLength.multiplier |
| cim:CapacitancePerLength.unit |
| cim:CapacitancePerLength.value |
| cim:capacitiveCoupling |
| cim:CapacityCoordinator |
| cim:CapacityTrader |
| cim:carbon |
| cim:carbonDioxide |
| cim:carbonDisulfide |
| cim:Card - Documentation of the tender when it is a type of card (credit, debit, etc). |
| cim:card |
| cim:Card.accountHolderName - Name of account holder. |
| cim:Card.cvNumber - The card verification number. |
| cim:Card.expiryDate - The date when this card expires. |
| cim:Card.pan - The primary account number. |
| cim:cash |
| cim:Cashier - The operator of the point of sale for the duration of CashierShift. Cashier is under the exclusive management control of Vendor. |
| cim:Cashier.electronicAddress - Electronic address. |
| cim:CashierShift - The operating shift for a cashier, during which the cashier may transact against the cashier shift, subject to vendor shift being open. |
| cim:CashierShift.cashFloat - The amount of cash that the cashier brings to start the shift and that will be taken away at the end of the shift; i.e. the cash float does not get banked. |
| cim:CashierShift.Cashier - Cashier operating this shift.All shifts operated by this cashier. |
| cim:CCYC |
| cim:cd |
| cim:CDF |
| cim:cellon |
| cim:cellular |
| cim:cement |
| cim:CF |
| cim:ch4 |
| cim:CHAIN |
| cim:Channel - A single path for the collection or reporting of register values over a period of time. For example, a register which measures forward energy can have two channels, one providing bulk quantity readings and the other providing interval readings of a fixed interval size. |
| cim:Channel.isVirtual - If true, the data is being calculated by an enterprise system rather than metered directly. |
| cim:Channel.ReadingType - Reading type for register values reported/collected by this channel.Channel reporting/collecting register values with this type information. |
| cim:Channel.Register - Register whose values are collected/reported by this channel.All channels that collect/report values from this register. |
| cim:character |
| cim:Charge - A charge element associated with other entities such as tariff structures, auxiliary agreements or other charge elements. The total charge amount applicable to this instance of charge is the sum of fixed and variable portion. |
| cim:Charge.AuxiliaryAccount - All auxiliary accounts to which this charge has to be levied.All charges levied on this account. |
| cim:Charge.Charge - Parent of this charge sub-component.All sub-components of this complex charge. |
| cim:Charge.ConsumptionTariffInterval - Tariff intervals to which this consumption-based charge has to be levied.All charges used to define this consumption tariff interval. |
| cim:Charge.fixedPortion - The fixed portion of this charge element. |
| cim:Charge.kind - The kind of charge to be applied. |
| cim:Charge.TimeTariffInterval - Tariff intervals to which this time-based charge has to be levied.All charges used to define this time tariff interval. |
| cim:Charge.variablePortion - The variable portion of this charge element, calculated as a percentage of the total amount of a parent charge. |
| cim:CHARGE_CODE_INTERVAL_DETAIL |
| cim:CHARGE_CODE_INTERVAL_TOTAL |
| cim:CHARGE_CODE_SUMMARY |
| cim:CHARGE_GROUP |
| cim:ChargeComponent - A Charge Component is a list of configurable charge quality items to feed into settlement calculation and/or bill determinants. |
| cim:ChargeComponent.ChargeType - A ChargeType can have 0-n ChargeComponent and a ChargeComponent can associate to 0-n ChargeTypeA ChargeType can have 0-n ChargeComponent and a ChargeComponent can associate to 0-n ChargeType |
| cim:ChargeComponent.deleteStatus |
| cim:ChargeComponent.effectiveDate |
| cim:ChargeComponent.equation |
| cim:ChargeComponent.message |
| cim:ChargeComponent.roundOff |
| cim:ChargeComponent.sum |
| cim:ChargeComponent.terminationDate |
| cim:ChargeComponent.type |
| cim:ChargeGroup - Charge Group is the grouping of Charge Types for settlement invoicing purpose. Examples such as Ancillary Services, Interests, etc. |
| cim:ChargeGroup.ChargeGroup - A ChargeGroup instance can have relationships with other ChargeGroup instances.A ChargeGroup instance can have relationships with other ChargeGroup instances. |
| cim:ChargeGroup.ChargeType - A ChargeGroup can have 0-n ChargeType. A ChargeType can associate to 0-n ChargeGroup.A ChargeGroup can have 0-n ChargeType. A ChargeType can associate to 0-n ChargeGroup. |
| cim:ChargeGroup.effectiveDate |
| cim:ChargeGroup.marketCode |
| cim:ChargeGroup.terminationDate |
| cim:ChargeKind |
| cim:ChargeProfile - A type of profile for financial charges |
| cim:ChargeProfile.Bid - |
| cim:ChargeProfile.frequency - The calculation frequency, daily or monthly. |
| cim:ChargeProfile.numberInterval - The number of intervals in the profile data. |
| cim:ChargeProfile.type - The type of profile. It could be amount, price, or quantity. |
| cim:ChargeProfile.unitOfMeasure - The unit of measure applied to the value attribute of the profile data. |
| cim:ChargeProfileData - Model of various charges associated with an energy profile to support billing and settlement |
| cim:ChargeProfileData.BillDeterminant - |
| cim:ChargeProfileData.ChargeProfile - |
| cim:ChargeProfileData.sequence - The sequence number of the profile. |
| cim:ChargeProfileData.timeStamp - The date and time of an interval. |
| cim:ChargeProfileData.value - The value of an interval given a profile type (amount, price, or quantity), subject to the UOM. |
| cim:ChargeType - Charge Type is the basic level configuration for settlement to process specific charges for invoicing purpose. Examples such as: Day Ahead Spinning Reserve Default Invoice Interest Charge, etc. |
| cim:ChargeType.chargeOrder |
| cim:ChargeType.chargeVersion |
| cim:ChargeType.effectiveDate |
| cim:ChargeType.factor |
| cim:ChargeType.frequencyType |
| cim:ChargeType.MajorChargeGroup - A MajorChargeGroup can have 0-n ChargeType. A ChargeType can associate to 0-n MajorChargeGroup.A MajorChargeGroup can have 0-n ChargeType. A ChargeType can associate to 0-n MajorChargeGroup. |
| cim:ChargeType.terminationDate |
| cim:ChargeType.totalInterval |
| cim:charPers |
| cim:CheckOutType |
| cim:chemonite |
| cim:Cheque - The actual tender when it is a type of cheque. |
| cim:cheque |
| cim:Cheque.bankAccountDetail - Details of the account holder and bank. |
| cim:Cheque.chequeNumber - Cheque reference number as printed on the cheque. |
| cim:Cheque.date - Date when cheque becomes valid. |
| cim:Cheque.kind - Kind of cheque. |
| cim:Cheque.micrNumber - The magnetic ink character recognition number printed on the cheque. |
| cim:ChequeKind |
| cim:CHF |
| cim:CHG |
| cim:chlorine |
| cim:CI |
| cim:CIMDataObject - A description of a version of instance data. |
| cim:CIMDataObject.proxy - The object is acting as a reference proxy. |
| cim:Clamp - A Clamp is a galvanic connection at a line segment where other equipment is connected. A Clamp does not cut the line segment.
A Clamp is ConductingEquipment and has one Terminal with an associated ConnectivityNode. Any other ConductingEquipment can be connected to the Clamp ConnectivityNode. |
| cim:Clamp.ACLineSegment - The line segment to which the clamp is connected.The clamps connected to the line segment. |
| cim:Clamp.lengthFromTerminal1 - The length to the place where the clamp is located starting from side one of the line segment, i.e. the line segment terminal with sequence number equal to 1. |
| cim:Classification - Classification of level. Specify as 1..n, with 1 being the most detailed, highest priority, etc as described on the attribue using this data type. |
| cim:Classification.multiplier |
| cim:Classification.unit |
| cim:Classification.value |
| cim:CleanTradeProductType |
| cim:ClearanceAction - Action on clearance document as a switching step. |
| cim:ClearanceAction.kind - Clearance action to perform. |
| cim:ClearanceAction.SwitchingStepGroup - Group to which this step belongs.All clearance action steps in this group. |
| cim:ClearanceActionKind |
| cim:ClearanceDocument - Safety document used to authorise work on conducting equipment in the field. Tagged equipment is not allowed to be operated. |
| cim:ClearanceDocument.ClearanceAction - Clearance action associated with this clearance.Clearance associated with this clearance action. |
| cim:ClearanceDocument.mustBeDeenergised - If true, the equipment must be deenergised. |
| cim:ClearanceDocument.mustBeGrounded - If true, the equipment must be grounded. |
| cim:CLF |
| cim:close |
| cim:Closed |
| cim:closed |
| cim:CLP |
| cim:CM |
| cim:CMMT_MINLOAD_MLC |
| cim:CMMT_MINLOAD_MW |
| cim:CMMT_RA_MLC |
| cim:CMMT_RA_MW |
| cim:CMMT_RA_START_COST |
| cim:CMMT_RA_UNITS |
| cim:CMMT_RMR |
| cim:CMMT_TOTAL_MW |
| cim:CMMT_TOTAL_START_COST |
| cim:CMMT_TOTAL_UNITS |
| cim:CN |
| cim:CnodeDistributionFactor - Participation factors per Cnode. Used to calculate "participation" of Cnode in an AggregateNode. Each Cnode associated to an AggregateNode would be assigned a participation factor for its participation within the AggregateNode. |
| cim:CnodeDistributionFactor.AggregateNode - |
| cim:CnodeDistributionFactor.factor - Used to calculate "participation" of Cnode in an AggregateNode |
| cim:CnodeDistributionFactor.HostControlArea - |
| cim:CnodeDistributionFactor.podLossFactor - Point of delivery loss factor |
| cim:CNY |
| cim:co2 |
| cim:coal |
| cim:COAL |
| cim:CogenerationPlant - A set of thermal generating units for the production of electrical energy and process steam (usually from the output of the steam turbines). The steam sendout is typically used for industrial purposes or for municipal heating and cooling. |
| cim:CogenerationPlant.cogenHPSendoutRating - The high pressure steam sendout. |
| cim:CogenerationPlant.cogenHPSteamRating - The high pressure steam rating. |
| cim:CogenerationPlant.cogenLPSendoutRating - The low pressure steam sendout. |
| cim:CogenerationPlant.cogenLPSteamRating - The low pressure steam rating. |
| cim:CogenerationPlant.ratedP - The rated output active power of the cogeneration plant. |
| cim:CogenerationPlant.SteamSendoutSchedule - A cogeneration plant has a steam sendout schedule.A cogeneration plant has a steam sendout schedule. |
| cim:CombinedCycleConfiguration - Configuration options for combined cycle units.
For example, a Combined Cycle with (CT1, CT2, ST1) will have (CT1, ST1) and (CT2, ST1) configurations as part of(1CT + 1STlogicalconfiguration). |
| cim:CombinedCycleConfiguration.CombinedCycleLogicalConfiguration - |
| cim:CombinedCycleConfiguration.primaryConfiguration - Whether this CombinedCycleConfiguration is the primary configuration in the associated Logical configuration? |
| cim:CombinedCycleConfiguration.ShutdownFlag - Whether Combined Cycle Plant can be shut-down in this Configuration? |
| cim:CombinedCycleConfiguration.StartupFlag - Whether Combined Cycle Plant can be started in this Logical Configuration? |
| cim:CombinedCycleConfigurationMember - Configuration Member of CCP Configuration. |
| cim:CombinedCycleConfigurationMember.CombinedCycleConfiguration - |
| cim:CombinedCycleConfigurationMember.primary - primary configuration. |
| cim:CombinedCycleConfigurationMember.steam - Steam plant. |
| cim:CombinedCycleLogicalConfiguration - Logical Configuration of a Combined Cycle plant.
Operating Combined Cycle Plant (CCP) configurations are represented as Logical CCP Resources. Logical representation shall be used for Market applications to optimize and control Market Operations. Logical representation is also necessary for controlling the number of CCP configurations and to temper performance issues that may otherwise occur.
For example,(2CT configuration),(1CT + 1ST configuration) are examples of logical configuration, without specifying the specific CT and ST participating in the configuration. |
| cim:CombinedCyclePlant - A set of combustion turbines and steam turbines where the exhaust heat from the combustion turbines is recovered to make steam for the steam turbines, resulting in greater overall plant efficiency. |
| cim:CombinedCyclePlant.combCyclePlantRating - The combined cycle plant's active power output rating. |
| cim:CombinedCycleTransitionState - Defines the available from and to Transition States for the Combine Cycle Configurations. |
| cim:CombinedCycleTransitionState.CombinedCycleConfiguration - |
| cim:CombinedCycleTransitionState.upTransition - Flag indicating whether this is an UP transition.
If not, it is a DOWN transition. |
| cim:CombustionTurbine - A prime mover that is typically fueled by gas or light oil. |
| cim:CombustionTurbine.ambientTemp - Default ambient temperature to be used in modeling applications. |
| cim:CombustionTurbine.auxPowerVersusFrequency - Off-nominal frequency effect on turbine auxiliaries. Per unit reduction in auxiliary active power consumption versus per unit reduction in frequency (from rated frequency). |
| cim:CombustionTurbine.auxPowerVersusVoltage - Off-nominal voltage effect on turbine auxiliaries. Per unit reduction in auxiliary active power consumption versus per unit reduction in auxiliary bus voltage (from a specified voltage level). |
| cim:CombustionTurbine.capabilityVersusFrequency - Off-nominal frequency effect on turbine capability. Per unit reduction in unit active power capability versus per unit reduction in frequency (from rated frequency). |
| cim:CombustionTurbine.CTTempActivePowerCurve - A combustion turbine may have an active power versus ambient temperature relationship.A combustion turbine may have an active power versus ambient temperature relationship. |
| cim:CombustionTurbine.HeatRecoveryBoiler - A combustion turbine may have a heat recovery boiler for making steam.A combustion turbine may have a heat recovery boiler for making steam. |
| cim:CombustionTurbine.heatRecoveryFlag - Flag that is set to true if the combustion turbine is associated with a heat recovery boiler. |
| cim:CombustionTurbine.powerVariationByTemp - Per unit change in power per (versus) unit change in ambient temperature. |
| cim:CombustionTurbine.referenceTemp - Reference temperature at which the output of the turbine was defined. |
| cim:CombustionTurbine.timeConstant - The time constant for the turbine. |
| cim:ComDirectionKind |
| cim:ComFunction - Communication function of communication equipment or a device such as a meter. |
| cim:ComFunction.amrAddress - Communication ID number (e.g. serial number, IP address, telephone number, etc.) of the AMR module which serves this meter. |
| cim:ComFunction.amrRouter - Communication ID number (e.g. port number, serial number, data collector ID, etc.) of the parent device associated to this AMR module. |
| cim:ComFunction.ComModule - Module performing this communication function.All functions this communication module performs. |
| cim:ComFunction.direction - Kind of communication direction. |
| cim:ComFunction.technology - Kind of communication technology. |
| cim:Command - A Command is a discrete control used for supervisory control. |
| cim:Command.DiscreteValue - The MeasurementValue that is controlled.The Control variable associated with the MeasurementValue. |
| cim:Command.normalValue - Normal value for Control.value e.g. used for percentage scaling. |
| cim:Command.value - The value representing the actuator output. |
| cim:ComMedia - Communication media such as fibre optic cable, power-line, telephone, etc. |
| cim:commercial |
| cim:commercialIndustrial |
| cim:CommitmentClearing - Models results of market clearing which call for commitment of units. |
| cim:Commitments - Provides the necessary information (on a resource basis) to capture the Startup/Shutdown commitment results. This information is relevant to all markets. |
| cim:Commitments.CommitmentClearing - |
| cim:Commitments.commitmentType - the type of UC status (self commitment, ISO commitment, or SCUC commitment) |
| cim:Commitments.instructionCost - Total cost associated with changing the status of the resource. |
| cim:Commitments.instructionType - Indicator of either a Start-Up or a Shut-Down. |
| cim:Commitments.intervalEndTime - End time for the commitment period. This will be on an interval boundary. |
| cim:Commitments.intervalStartTime - Start time for the commitment period. This will be on an interval boundary. |
| cim:Commitments.minStatusChangeTime - SCUC commitment period start-up time. Calculated start up time based on the StartUpTimeCurve provided with the Bid.
This is a combination of StartUp time bid and Unit down time.
Units is minutes |
| cim:Commitments.noLoadCost - Unit no load cost in case of energy commodity |
| cim:Commitments.RegisteredResource - |
| cim:Commitments.updateTimeStamp |
| cim:Commitments.updateType |
| cim:Commitments.updateUser |
| cim:CommitmentType |
| cim:CommodityKind |
| cim:ComModule - An asset having communications capabilities that can be paired with a meter or other end device to provide the device with communication ability, through associated communication function. An end device that has communications capabilities through embedded hardware can use that function directly (without the communication module), or combine embedded communication function with additional communication functions provided through an external communication module (e.g. zigbee). |
| cim:ComModule.amrSystem - Automated meter reading (AMR) system communicating with this com module. |
| cim:ComModule.supportsAutonomousDst - If true, autonomous daylight saving time (DST) function is supported. |
| cim:ComModule.timeZoneOffset - Time zone offset relative to GMT for the location of this com module. |
| cim:communication |
| cim:CommunicationLink - The connection to remote units is through one or more communication links. Reduntant links may exist. The CommunicationLink class inherit PowerSystemResource. The intention is to allow CommunicationLinks to have Measurements. These Measurements can be used to model link status as operational, out of service, unit failure etc. |
| cim:compacted |
| cim:CompatibleUnit - A pre-planned job model containing labor, material, and accounting requirements for standardized job planning. |
| cim:CompatibleUnit.CostType - |
| cim:CompatibleUnit.CUAllowableAction - |
| cim:CompatibleUnit.CUContractorItem - |
| cim:CompatibleUnit.CULaborItem - |
| cim:CompatibleUnit.CUMaterialItem - |
| cim:CompatibleUnit.CUWorkEquipmentItem - |
| cim:CompatibleUnit.estCost - Estimated total cost for perfoming CU. |
| cim:CompatibleUnit.PropertyUnit - |
| cim:CompatibleUnit.quantity - The quantity, unit of measure, and multiplier at the CU level that applies to the materials. |
| cim:competitiveRetailer |
| cim:completed |
| cim:ComplianceEvent - Compliance events are used for reporting regulatory or contract compliance issues and/or variances. These might be created as a consequence of local business processes and associated rules. It is anticipated that this class will be customised extensively to meet local implementation needs.
Use inherited 'type' to indicate that, for example, expected performance will not be met or reported as mandated. |
| cim:ComplianceEvent.deadline - The deadline for compliance. |
| cim:complianceMonitor |
| cim:CompositeSwitch - A model of a set of individual Switches normally enclosed within the same cabinet and possibly with interlocks that restrict the combination of switch positions. These are typically found in medium voltage distribution networks.
A CompositeSwitch could represent a Ring-Main-Unit (RMU), or pad-mounted switchgear, with primitive internal devices such as an internal bus-bar plus 3 or 4 internal switches each of which may individually be open or closed. A CompositeSwitch and a set of contained Switches can also be used to represent a multi-position switch e.g. a switch that can connect a circuit to Ground, Open or Busbar. |
| cim:CompositeSwitch.compositeSwitchType - An alphanumeric code that can be used as a reference to extra information such as the description of the interlocking scheme if any. |
| cim:CompositeSwitchInfo - Properties of a composite switch. |
| cim:CompositeSwitchInfo.ganged - True if multi-phase switch controls all phases concurrently. |
| cim:CompositeSwitchInfo.initOpMode - Initial operating mode, with the following values: Automatic, Manual. |
| cim:CompositeSwitchInfo.interruptingRating - Breaking capacity, or short circuit rating, is the maximum rated current which the device can safely interrupt at the rated voltage. |
| cim:CompositeSwitchInfo.kind - Kind of composite switch. |
| cim:CompositeSwitchInfo.phaseCode - Phases carried, if applicable. |
| cim:CompositeSwitchInfo.phaseCount - Supported number of phases, typically 0, 1 or 3. |
| cim:CompositeSwitchInfo.ratedVoltage - Rated voltage. |
| cim:CompositeSwitchInfo.remote - True if device is capable of being operated by remote control. |
| cim:CompositeSwitchInfo.switchStateCount - Number of switch states represented by the composite switch. |
| cim:CompositeSwitchKind |
| cim:compound |
| cim:compressed |
| cim:ComTechnologyKind |
| cim:ConcentricNeutralCableInfo - Concentric neutral cable data. |
| cim:ConcentricNeutralCableInfo.diameterOverNeutral - Diameter over the concentric neutral strands. |
| cim:ConcentricNeutralCableInfo.neutralStrandCount - Number of concentric neutral strands. |
| cim:ConcentricNeutralCableInfo.neutralStrandGmr - Geometric mean radius of the neutral strand. |
| cim:ConcentricNeutralCableInfo.neutralStrandRadius - Outside radius of the neutral strand. |
| cim:ConcentricNeutralCableInfo.neutralStrandRDC20 - DC resistance per unit length of the neutral strand at 20 °C. |
| cim:concrete |
| cim:condenser |
| cim:ConditionFactor - This is to specify the various condition factors for a design that may alter the cost estimate or the allocation. |
| cim:ConditionFactor.cfValue - The actual value of the condition factor, such as labor flat fee or percentage. |
| cim:ConditionFactor.Design - |
| cim:ConditionFactor.DesignLocation - |
| cim:ConditionFactor.DesignLocationCU - |
| cim:ConditionFactor.kind - Kind of this condition factor. |
| cim:ConditionFactor.status |
| cim:ConditionFactorKind |
| cim:Conductance - Factor by which voltage must be multiplied to give corresponding power lost from a circuit. Real part of admittance. |
| cim:Conductance.multiplier |
| cim:Conductance.unit |
| cim:Conductance.value |
| cim:ConductancePerLength - Real part of admittance per unit of length. |
| cim:ConductancePerLength.multiplier |
| cim:ConductancePerLength.unit |
| cim:ConductancePerLength.value |
| cim:ConductingEquipment - The parts of the AC power system that are designed to carry current or that are conductively connected through terminals. |
| cim:ConductingEquipment.BaseVoltage - Base voltage of this conducting equipment. Use only when there is no voltage level container used and only one base voltage applies. For example, not used for transformers.All conducting equipment with this base voltage. Use only when there is no voltage level container used and only one base voltage applies. For example, not used for transformers. |
| cim:ConductingEquipment.GroundAction - Action involving grounding operation on this conducting equipment.Equipment being grounded with this operation. In case of placing a ground anywhere along a line segment, you must use the clamp (to get the distance from one terminal), so use the explicit relation with line segment. In all other cases (including placing the ground at a line segment terminal), reference to one or more conducting equipment is sufficient. |
| cim:ConductingEquipment.JumperAction - Jumper action involving jumping operation on this conducting equipment.The conducting equipment that this jumper action will affect. In case of placing a jumper anywhere along a line segment, you must use the clamp (to get the distance from one terminal), so use the explicit relation with line segment. In all other cases (including placing the jumper at a line segment terminal), reference to one or more conducting equipment is sufficient. |
| cim:ConductingEquipment.ProtectionEquipment - Protection equipment used to protect specific conducting equipment. Protection equipment may be used to protect specific conducting equipment. |
| cim:ConductingEquipment.SvStatus - The status state variable associated with this conducting equipment.The conducting equipment associated with the status state variable. |
| cim:ConductingEquipment.Terminal - Conducting equipment have terminals that may be connected to other conducting equipment terminals via connectivity nodes or topological nodes.The conducting equipment of the terminal. Conducting equipment have terminals that may be connected to other conducting equipment terminals via connectivity nodes or topological nodes. |
| cim:Conductor - Combination of conducting material with consistent electrical characteristics, building a single electrical system, used to carry current between points in the power system. |
| cim:Conductor.length - Segment length for calculating line section capabilities |
| cim:ConfigurationEvent - Used to report details on creation, change or deletion of an entity or its configuration. |
| cim:ConfigurationEvent.Asset - Asset whose change resulted in this configuration event.All configuration events created for this asset. |
| cim:ConfigurationEvent.Document - Document whose change resulted in this configuration event.All configuration events created for this document. |
| cim:ConfigurationEvent.effectiveDateTime - Date and time this event has or will become effective. |
| cim:ConfigurationEvent.Location - Location whose change resulted in this configuration event.All configuration events created for this location. |
| cim:ConfigurationEvent.modifiedBy - Source/initiator of modification. |
| cim:ConfigurationEvent.OrganisationRole - Organisation role whose change resulted in this configuration event.All configuration events created for this organisation role. |
| cim:ConfigurationEvent.PersonRole - Person role whose change resulted in this configuration event.All configuration events created for this person role. |
| cim:ConfigurationEvent.remark - Free text remarks. |
| cim:ConfigurationEvent.ServiceCategory - Service category whose change resulted in this configuration event.All configuration events created for this service category. |
| cim:ConfigurationEvent.UsagePoint - Usage point whose change resulted in this configuration event.All configuration events created for this usage point. |
| cim:ConformLoad - ConformLoad represent loads that follow a daily load change pattern where the pattern can be used to scale the load with a system load. |
| cim:ConformLoad.ConformLoadGroup - Group of this ConformLoad.Conform loads assigned to this ConformLoadGroup. |
| cim:ConformLoadGroup - A group of loads conforming to an allocation pattern. |
| cim:ConformLoadSchedule - A curve of load versus time (X-axis) showing the active power values (Y1-axis) and reactive power (Y2-axis) for each unit of the period covered. This curve represents a typical pattern of load over the time period for a given day type and season. |
| cim:ConformLoadSchedule.ConformLoadGroup - The ConformLoadGroup where the ConformLoadSchedule belongs.The ConformLoadSchedules in the ConformLoadGroup. |
| cim:CongestionArea - Designated Congestion Area Definition (DCA) |
| cim:connect |
| cim:ConnectDisconnectFunction - A function that will disconnect and reconnect the customer's load under defined conditions. |
| cim:ConnectDisconnectFunction.eventCount - Running cumulative count of connect or disconnect events, for the lifetime of this function or until the value is cleared. |
| cim:ConnectDisconnectFunction.isConnected - True if this function is in the connected state. |
| cim:ConnectDisconnectFunction.isDelayedDiscon - If set true, the switch may disconnect the service at the end of a specified time delay after the disconnect signal has been given. If set false, the switch may disconnect the service immediately after the disconnect signal has been given. This is typically the case for over current circuit-breakers which are classified as either instantaneous or slow acting. |
| cim:ConnectDisconnectFunction.isLocalAutoDisconOp - If set true and if disconnection can be operated locally, the operation happens automatically. Otherwise it happens manually. |
| cim:ConnectDisconnectFunction.isLocalAutoReconOp - If set true and if reconnection can be operated locally, then the operation happens automatically. Otherwise, it happens manually. |
| cim:ConnectDisconnectFunction.isRemoteAutoDisconOp - If set true and if disconnection can be operated remotely, then the operation happens automatically. If set false and if disconnection can be operated remotely, then the operation happens manually. |
| cim:ConnectDisconnectFunction.isRemoteAutoReconOp - If set true and if reconnection can be operated remotely, then the operation happens automatically. If set false and if reconnection can be operated remotely, then the operation happens manually. |
| cim:ConnectDisconnectFunction.rcdInfo - Information on remote connect disconnect switch. |
| cim:connected |
| cim:connectionFee |
| cim:ConnectivityNode - Connectivity nodes are points where terminals of AC conducting equipment are connected together with zero impedance. |
| cim:ConnectivityNode.Terminal - Terminals interconnected with zero impedance at a this connectivity node. The connectivity node to which this terminal connects with zero impedance. |
| cim:ConnectivityNodeContainer - A base class for all objects that may contain connectivity nodes or topological nodes. |
| cim:ConnectivityNodeContainer.ConnectivityNode - Connectivity nodes which belong to this connectivity node container.Container of this connectivity node. |
| cim:ConnectivityNodeContainer.TopologicalNode - The topological nodes which belong to this connectivity node container.The connectivity node container to which the toplogical node belongs. |
| cim:Connector - A conductor, or group of conductors, with negligible impedance, that serve to connect other conducting equipment within a single substation and are modelled with a single logical terminal. |
| cim:conservator |
| cim:consolidatedEss |
| cim:consolidatedUdc |
| cim:constantYValue |
| cim:constantZ |
| cim:ConstraintClearing - Groups all items associated with Binding Constraints and Constraint Violations per interval and market. |
| cim:ConstraintDuration - Duration constraint to activate, to put in operation, to deactivate, ... a given event. |
| cim:ConstraintDuration.duration - The duration of the constraint. |
| cim:ConstraintDuration.type - The type of the constraint. |
| cim:ConstraintLimitType |
| cim:ConstraintRampType |
| cim:ConstraintResults - Provides the Market results for the constraint processing for either the DAM or RTM. The data includes the constraint type (binding or violated), the solved value for the constraint, and the associated shadow price. |
| cim:ConstraintResults.baseFlow - Branch base Power Flow. |
| cim:ConstraintResults.BGLimit - This value is determined in DA and RTM. The SCUC optimization ensures that the MW flow on the Branch Group will not exceed this limit in the relevant direction. |
| cim:ConstraintResults.BGTRResCap - Branch Group TR Reservation Capacity - This value is determined in DA and RTM. It is the amount of spare transmission capacity that is left for the TR holder to use. |
| cim:ConstraintResults.bindingLimit - MW Limit. |
| cim:ConstraintResults.clearedValue - Cleared MW. |
| cim:ConstraintResults.competitivePathConstraint - Non-competitive path constraint Flag"(Y/N) indicating whether the shadow price on a non-competitive path was non-zero. |
| cim:ConstraintResults.ConstraintClearing - |
| cim:ConstraintResults.constraintType - Type of constraint. |
| cim:ConstraintResults.Flowgate - |
| cim:ConstraintResults.limitFlag - Limit flag ('Maximum', 'Minimum'). |
| cim:ConstraintResults.optimizationFlag - Included in optimization Y/N. |
| cim:ConstraintResults.overloadMW - Transmission overload MW. |
| cim:ConstraintResults.percentMW - Actual MW flow as percent of limit. |
| cim:ConstraintResults.shadowPrice - Shadow Price ($/MW) for the commodity. Shadow price for the corresponding constraint. |
| cim:ConstraintResults.updateTimeStamp - Update time stamp. |
| cim:ConstraintResults.updateType - MQS change type. |
| cim:ConstraintResults.updateUser - Updated user. |
| cim:ConstraintTerm - A constraint term is one element of a linear constraint. |
| cim:ConstraintTerm.factor |
| cim:ConstraintTerm.function - The function is an enumerated value that can be 'active', 'reactive', or 'VA' to indicate the type of flow. |
| cim:ConstraintTerm.SecurityConstraintSum - |
| cim:construction |
| cim:CONSULTATIVE |
| cim:Consumer |
| cim:consumptionCharge |
| cim:ConsumptionResponsibleParty |
| cim:ConsumptionTariffInterval - One of a sequence of intervals defined in terms of consumption quantity of a service such as electricity, water, gas, etc. It is typically used in association with TariffProfile to define the steps or blocks in a step tariff structure, where startValue simultaneously defines the entry value of this step and the closing value of the previous step. Where consumption is >= startValue it falls within this interval and where consumption is < startValue it falls within the previous interval. |
| cim:ConsumptionTariffInterval.sequenceNumber - A sequential reference that defines the identity of this interval and its relative position with respect to other intervals in a sequence of intervals. |
| cim:ConsumptionTariffInterval.startValue - The lowest level of consumption that defines the starting point of this interval. The interval extends to the start of the next interval or until it is reset to the start of the first interval by TariffProfile.tariffCycle. |
| cim:ConsumptionTariffInterval.TariffProfile - All tariff profiles defined by this consumption tariff interval.All consumption tariff intervals used to define this tariff profile. |
| cim:CONT |
| cim:Contingency - An event threatening system reliability, consisting of one or more contingency elements. |
| cim:CONTINGENCY |
| cim:Contingency.ContingencyElement - A contingency can have any number of contingency elements.A contingency element belongs to one contingency. |
| cim:Contingency.mustStudy - Set true if must study this contingency. |
| cim:ContingencyConstraintLimit - Possibly time-varying max MW or MVA and optionally Min MW limit or MVA limit (Y1 and Y2, respectively) assigned to a constraint for a specific contingency. Use CurveSchedule XAxisUnits to specify MW or MVA. |
| cim:ContingencyElement - An element of a system event to be studied by contingency analysis, representing a change in status of a single piece of equipment. |
| cim:ContingencyEquipment - A equipment to which the in service status is to change such as a power transformer or AC line segment. |
| cim:ContingencyEquipment.contingentStatus - The status for the associated equipment when in the contingency state. This status is independent of the case to which the contingency is originally applied, but defines the equipment status when the contingency is applied. |
| cim:ContingencyEquipmentStatusKind |
| cim:continuousCumulative |
| cim:ContractDistributionFactor - Distribution amoung resources at the sink point or source point |
| cim:ContractDistributionFactor.ContractRight - |
| cim:ContractDistributionFactor.factor - MW value that this resource provides to the overall contract. |
| cim:ContractDistributionFactor.Flowgate - |
| cim:ContractDistributionFactor.RegisteredResource - |
| cim:ContractDistributionFactor.sinkFlag - This value will be set to YES if the referenced Cnode is defined as the sink point in the contract. |
| cim:ContractDistributionFactor.sourceFlag - This value will be set to YES if the referenced Cnode is defined as the source point in the contract. |
| cim:contractor |
| cim:ContractorItem - Contractor information for work task. |
| cim:ContractorItem.activityCode - Activity code identifies a specific and distinguishable unit of work. |
| cim:ContractorItem.bidAmount - The amount that a given contractor will charge for performing this unit of work. |
| cim:ContractorItem.cost - The total amount charged. |
| cim:ContractorItem.OldWorkTask - |
| cim:ContractorItem.status |
| cim:ContractorItem.WorkCostDetail - |
| cim:ContractRight - Provides definition of Transmission Ownership Right and Existing Transmission Contract identifiers for use by SCUC. RMR contract hosting: Startup lead time, Contract Service Limits, Max Service Hours, Max MWhs, Max Start-ups, Ramp Rate, Max Net Dependable Capacity, Min Capacity and Unit Substitution for DAM/RTM to retrieve; |
| cim:ContractRight.chainOrder - When used in conjunction with a Transmission Right contract chain, this is the precedence for the contracts. |
| cim:ContractRight.contractMW - MW value of the contract |
| cim:ContractRight.contractPrice - Financial value of the contract |
| cim:ContractRight.contractPriority - Priority for the contract. This should be unique amoung all contracts for a specific resource. This value is the directive for the SCUC algorithm on the order to satisfy/cut contracts. |
| cim:ContractRight.contractStatus - Contract status |
| cim:ContractRight.contractType - type of the contract. Possible values are but not limited by:
ETC, TOR or RMR and RMT self schedules |
| cim:ContractRight.endEffectiveDate - end effective date |
| cim:ContractRight.financialLocation - Indicator if the location associated with this contract is financial (e.g. pricing nodes) or physical (e.g. connectivity nodes). |
| cim:ContractRight.financialRightsDAM - Flag to indicate this contract provides financial rights in the DA Market |
| cim:ContractRight.financialRightsRTM - Flag to indicate this contract provides financial rights in the RT Market |
| cim:ContractRight.fuelAdder - Estimated Fuel Adder |
| cim:ContractRight.latestSchedMinutes - This indicates the latest schedule minutes (e.g. t - xx) that this resource can be notified to respond. This attribute is only used if the market type is not supplied. |
| cim:ContractRight.latestSchedMktType - This indicates the latest schedule market type a contract can be applied to. This is used in conjunction with the latestSchedMinutes attribute to determine the latest time this contract can be called in. The possible values for this attribute are: DAM, RTM or it can be omitted. If omitted, the latestSchedMinutes attribute defines the value. |
| cim:ContractRight.maximumScheduleQuantity - Maximum schedule MW quantity |
| cim:ContractRight.maximumServiceHours - Maximum service hours |
| cim:ContractRight.maximumStartups - Maximum startups |
| cim:ContractRight.maxNetDependableCapacity - Maximum Net Dependable Capacity |
| cim:ContractRight.minimumLoad - Minimum Load |
| cim:ContractRight.minimumScheduleQuantity - Minimum schedule quanity |
| cim:ContractRight.physicalRightsDAM - Flag to indicate this contract provides physical rights in the DA Market |
| cim:ContractRight.physicalRightsRTM - Flag to indicate this contract provides physical rights in the RT Market |
| cim:ContractRight.RTO - |
| cim:ContractRight.SchedulingCoordinator - |
| cim:ContractRight.startEffectiveDate - start effective date |
| cim:ContractRight.startupLeadTime - Start up lead time |
| cim:ContractRight.TransmissionInterfaceRightEntitlement - |
| cim:ContractRight.TransmissionRightChain - |
| cim:ContractRight.TRType - Transmission Right type - is this an individual contract right or a chain contract right. Types = CHAIN or INDIVIDUAL |
| cim:ContractType |
| cim:Control - Control is used for supervisory/device control. It represents control outputs that are used to change the state in a process, e.g. close or open breaker, a set point value or a raise lower command. |
| cim:Control.controlType - Specifies the type of Control, e.g. BreakerOn/Off, GeneratorVoltageSetPoint, TieLineFlow etc. The ControlType.name shall be unique among all specified types and describe the type. |
| cim:Control.operationInProgress - Indicates that a client is currently sending control commands that has not completed. |
| cim:Control.PowerSystemResource - Regulating device governed by this control output.The controller outputs used to actually govern a regulating device, e.g. the magnetization of a synchronous machine or capacitor bank breaker actuator. |
| cim:Control.RemoteControl - The remote point controlling the physical actuator.The Control for the RemoteControl point. |
| cim:Control.timeStamp - The last time a control output was sent. |
| cim:Control.unitMultiplier - The unit multiplier of the controlled quantity. |
| cim:Control.unitSymbol - The unit of measure of the controlled quantity. |
| cim:ControlArea - A control area is a grouping of generating units and/or loads and a cutset of tie lines (as terminals) which may be used for a variety of purposes including automatic generation control, powerflow solution area interchange control specification, and input to load forecasting. Note that any number of overlapping control area specifications can be superimposed on the physical model. |
| cim:ControlArea.ControlAreaGeneratingUnit - The generating unit specificaitons for the control area.The parent control area for the generating unit specifications. |
| cim:ControlArea.netInterchange - The specified positive net interchange into the control area, i.e. positive sign means flow in to the area. |
| cim:ControlArea.pTolerance - Active power net interchange tolerance |
| cim:ControlArea.TieFlow - The tie flows associated with the control area.The control area of the tie flows. |
| cim:ControlArea.type - The primary type of control area definition used to determine if this is used for automatic generation control, for planning interchange control, or other purposes. A control area specified with primary type of automatic generation control could still be forecast and used as an interchange area in power flow analysis. |
| cim:ControlAreaDesignation - Indicates Control Area associated with self-schedule. |
| cim:ControlAreaDesignation.attained - Attained. |
| cim:ControlAreaDesignation.native - Native. |
| cim:ControlAreaGeneratingUnit - A control area generating unit. This class is needed so that alternate control area definitions may include the same generating unit. Note only one instance within a control area should reference a specific generating unit. |
| cim:ControlAreaGeneratingUnit.AltGeneratingUnitMeas - The link to prioritized measurements for this GeneratingUnit.The control aread generating unit to which the prioritized measurement assignment is applied. |
| cim:ControlAreaOperator - Operates the Control Area. Approves and implements energy transactions. Verifies both Inter-Control Area and Intra-Control Area transactions for the power system before granting approval (and implementing) the transactions. |
| cim:ControlAreaOperator.HostControlArea - A ControlAreaCompany controls a ControlArea.A ControlAreaCompany controls a ControlArea. |
| cim:ControlAreaSolutionData - State Estimator Solution Pool Interchange and Losses |
| cim:ControlAreaSolutionData.solvedInterchange - Pool MW Interchange
Attribute Usage: The active power interchange of the pool |
| cim:ControlAreaSolutionData.solvedLosses - Pool Losses MW
Attribute Usage: The active power losses of the pool in MW |
| cim:ControlAreaTypeKind |
| cim:ControlBlockOperator |
| cim:ControlCenter |
| cim:ControlledAppliance - Appliance controlled with a PAN device control. |
| cim:ControlledAppliance.isElectricVehicle - True if the appliance is an electric vehicle. |
| cim:ControlledAppliance.isExteriorLighting - True if the appliance is exterior lighting. |
| cim:ControlledAppliance.isGenerationSystem - True if the appliance is a generation system. |
| cim:ControlledAppliance.isHvacCompressorOrFurnace - True if the appliance is HVAC compressor or furnace. |
| cim:ControlledAppliance.isInteriorLighting - True if the appliance is interior lighting. |
| cim:ControlledAppliance.isIrrigationPump - True if the appliance is an irrigation pump. |
| cim:ControlledAppliance.isManagedCommercialIndustrialLoad - True if the appliance is managed commercial or industrial load. |
| cim:ControlledAppliance.isPoolPumpSpaJacuzzi - True if the appliance is a pool, pump, spa or jacuzzi. |
| cim:ControlledAppliance.isSimpleMiscLoad - True if the appliance is a simple miscellaneous load. |
| cim:ControlledAppliance.isSmartAppliance - True if the appliance is a smart appliance. |
| cim:ControlledAppliance.isStripAndBaseboardHeater - True if the appliance is a stip or baseboard heater. |
| cim:ControlledAppliance.isWaterHeater - True if the appliance is a water heater. |
| cim:CoolantType |
| cim:coolingFluid |
| cim:CoolingKind |
| cim:CoolingPowerRating - There are often stages of power which are associated with stages of cooling. For instance, a transformer may be rated 121kV on the primary, 15kV on the secondary and 4kV on the tertiary winding. These are voltage ratings and the power ratings are generally the same for all three windings and independent of the voltage ratings, there are instances where the tertiary may have a lower power rating.
For example, for three stages, the power rating may be 15/20/25 MVA and the cooling is OA/FA/FOA. The 15 MVA rating goes with the OA cooling (Oil and Air cooling). This is called the self cooled rating as there are no external cooling enhancements. The 20 MVA rating goes with the FA cooling (Forced Air cooling), this means that when the fans are running and thus enhancing the cooling characteristics, the transformer can operate at a power level of 20 MVA. The 25 MVA rating goes with the FOA cooling (Forced Oil and Air cooling), this means that when the fans and pumps are running and thus enhancing the cooling characteristics even more than before, the transformer can operate at a power level of 25 MVA. This 15/20/25 MVA does not state how the power is split between the various windings. It may be 25 MVA input on the primary, 25 MVA output on the secondary and 0 MVA output on the tertiary. It may also operate at 25 MVA input on the primary, 17 MVA output on the secondary and 8 MVA output on the tertiary. |
| cim:CoolingPowerRating.coolingKind - Kind of cooling system. |
| cim:CoolingPowerRating.powerRating - The power rating associated with type of cooling specified for this stage. |
| cim:CoolingPowerRating.stage - Stage of cooling and associated power rating. |
| cim:CoordinateSystem - Coordinate reference system. |
| cim:CoordinateSystem.crsUrn - A Uniform Resource Name (URN) for the coordinate reference system (crs) used to define 'Location.PositionPoints'.
An example would be the European Petroleum Survey Group (EPSG) code for a coordinate reference system, defined in URN under the Open Geospatial Consortium (OGC) namespace as: urn:ogc:def:uom:EPSG::XXXX, where XXXX is an EPSG code (a full list of codes can be found at the EPSG Registry web site http://www.epsg-registry.org/). To define the coordinate system as being WGS84 (latitude, longitude) using an EPSG OGC, this attribute would be urn:ogc:def:uom:EPSG::4236.
A profile should limit this code to a set of allowed URNs agreed to by all sending and receiving parties. |
| cim:CoordinateSystem.Location - All locations described with position points in this coordinate system.Coordinate system used to describe position points of this location. |
| cim:CoordinationCenterOperator |
| cim:COP |
| cim:copper |
| cim:core |
| cim:CorporateStandardKind |
| cim:cosPhi |
| cim:COST |
| cim:COST_BASED |
| cim:CostBasis |
| cim:CostPerEnergyUnit - Cost, in units of currency, per quantity of electrical energy generated. |
| cim:CostPerEnergyUnit.denominatorMultiplier |
| cim:CostPerEnergyUnit.denominatorUnit |
| cim:CostPerEnergyUnit.multiplier |
| cim:CostPerEnergyUnit.unit |
| cim:CostPerEnergyUnit.value |
| cim:CostPerHeatUnit - Cost, in units of currency, per quantity of heat generated. |
| cim:CostPerHeatUnit.denominatorMultiplier |
| cim:CostPerHeatUnit.denominatorUnit |
| cim:CostPerHeatUnit.multiplier |
| cim:CostPerHeatUnit.unit |
| cim:CostPerHeatUnit.value |
| cim:CostPerVolume - Cost per unit volume. |
| cim:CostPerVolume.denominatorMultiplier |
| cim:CostPerVolume.denominatorUnit |
| cim:CostPerVolume.multiplier |
| cim:CostPerVolume.unit |
| cim:CostPerVolume.value |
| cim:CostRate - Cost, in units of currency, per elapsed time. |
| cim:CostRate.denominatorMultiplier |
| cim:CostRate.denominatorUnit |
| cim:CostRate.multiplier |
| cim:CostRate.unit |
| cim:CostRate.value |
| cim:CostType - A categorization for resources, often costs, in accounting transactions. Examples include: material components, building in service, coal sales, overhead, etc. |
| cim:CostType.amountAssignable - True if an amount can be assigned to the resource element (e.g., building in service, transmission plant, software development capital); false otherwise (e.g., internal labor, material components). |
| cim:CostType.code - A codified representation of the resource element. |
| cim:CostType.CostType - |
| cim:CostType.level - The level of the resource element in the hierarchy of resource elements (recursive relationship). |
| cim:CostType.stage - The stage for which this costType applies: estimated design, estimated actual or actual actual. |
| cim:CostType.status |
| cim:COU |
| cim:count |
| cim:CPerkg |
| cim:CPerm2 |
| cim:CPerm3 |
| cim:CPT |
| cim:CPZ |
| cim:Craft - Craft of a person or a crew. Examples include overhead electric, underground electric, high pressure gas, etc. This ensures necessary knowledge and skills before being allowed to perform certain types of work. |
| cim:Craft.Capability - |
| cim:Craft.Skill - |
| cim:Craft.status |
| cim:Craft.type - Classification by utility's work mangement standards and practices. |
| cim:CRC |
| cim:CreateCIMDataObject - An object is to be created in the context. |
| cim:CREATED |
| cim:CREDIT |
| cim:creosote |
| cim:Crew - Group of people with specific skills, tools, and vehicles. |
| cim:crew |
| cim:Crew.status - Status of this crew. |
| cim:Crew.WorkAsset - All work assets used by this crew.Crew using this work asset. |
| cim:Crew.WorkTask - All work tasks this crew participates in.All crews participating in this work task. |
| cim:CrewMember - Member of a crew. |
| cim:CrewMember.Crew - Crew to which this crew member belongs.All members of this crew. |
| cim:CrewMember.SwitchingStep - All switching steps this crew member is responsible for.Crew member responsible for this switching step. |
| cim:CrewType - Custom description of the type of crew. This may be used to determine the type of work the crew can be assigned to. Examples include repair, tree trimming, switching, etc. |
| cim:CrewType.Crew - All crews of this type.Type of this crew. |
| cim:CRITICAL |
| cim:crosslinkedPolyethylene |
| cim:CRR - Congestion Revenue Rights (CRR) class that is inherited from a Document class.
A CRR is a financial concept that is used to hedge congestion charges.
The CRR is usually settled based on the Locational Marginal Prices (LMPs) that are calculated in the day-ahead market. These LMPs are determined by the Day-ahead resource schedules/bids. CRRs will not hedge against marginal losses. If the congestion component of LMP at the sink is greater than at the source, then the CRR owner is entitled to receive a portion of congestion revenues. If the congestion component at the sink is less than at the source, then an obligation-type CRR owner will be charged, but an option-type CRR owner will not. |
| cim:CRR.cRRcategory - CRR category represents 'PTP' for a point-to-point CRR, or 'NSR' for a Network Service Right . If CRR category is 'PTP', both Source ID and Sink ID fields are required. If CRR category is 'NSR' only one field, either Source ID or Sink ID, shall be not null and the other shall be null. However, the 'NSR' category will include at least three records |
| cim:CRR.CRROrgRole - |
| cim:CRR.cRRtype - Type of the CRR, from the possible type definitions in the CRR System (e.g. 'LSE', 'ETC'). |
| cim:CRR.hedgeType - hedger type Obligation or Option |
| cim:CRR.timeOfUse - Time of Use flag of the CRR - Peak (ON), Offpeak (OFF) or all 24 hours (24HR). |
| cim:CRR.tradeSliceID - Segment of the CRR described in the current record |
| cim:CRR_CAT |
| cim:CRR_CLEARING |
| cim:CRR_INVENTORY |
| cim:CRR_MARKET_value |
| cim:CRR_MW |
| cim:CRR_NSR |
| cim:CRR_OPTION |
| cim:CRR_OWNER |
| cim:CRR_SEGMENT |
| cim:CRR_TERM |
| cim:CRR_TOU |
| cim:CRR_TYPE |
| cim:CRRCategoryType |
| cim:CRRHedgeType |
| cim:CRRMarket - Model that describes the Congestion Revenue Rights Auction Market |
| cim:CRRMarket.CRR - |
| cim:CRRMarket.labelID - labelID - an ID for a set of apnodes/pnodes used in a CRR market |
| cim:CRROrgRole - Identifies a way in which an organisation may participate with a defined Congestion Revenue Right (CRR). |
| cim:CRROrgRole.kind - Kind of role the organisation is with regards to the congestion revenue rights. |
| cim:CRROrgRole.MktOrganisation - |
| cim:CRROrgRole.status - Status of congestion revenue rights organisation role. |
| cim:CRRRoleType |
| cim:CRRSegment - CRRSegment represents a segment of a CRR in a particular time frame.
The segment class contains CRR kind, type, quantity, hedger type, time of use flag, and segment period. |
| cim:CRRSegment.amount - Dollar amount = quantity x clearingPrice |
| cim:CRRSegment.clearingPrice - Clearing price of a CRR |
| cim:CRRSegment.CRR - |
| cim:CRRSegment.endDateTime - segment end date time |
| cim:CRRSegment.Pnode - |
| cim:CRRSegment.quantity - The MW amount associated with the CRR |
| cim:CRRSegment.startDateTime - segment start date time |
| cim:CRRSegmentType |
| cim:CsConverter - DC side of the current source converter (CSC). |
| cim:CsConverter.alpha - Firing angle, typical value between 10 and 18 degrees for a rectifier. CSC state variable, result from power flow. |
| cim:CsConverter.gamma - Extinction angle. CSC state variable, result from power flow. |
| cim:CsConverter.maxAlpha - Maximum firing angle. CSC configuration data used in power flow. |
| cim:CsConverter.maxGamma - Maximum extinction angle. CSC configuration data used in power flow. |
| cim:CsConverter.maxIdc - The maximum direct current (Id) on the DC side at which the converter should operate. Converter configuration data use in power flow. |
| cim:CsConverter.minAlpha - Minimum firing angle. CSC configuration data used in power flow. |
| cim:CsConverter.minGamma - Minimum extinction angle. CSC configuration data used in power flow. |
| cim:CsConverter.minIdc - The minimum direct current (Id) on the DC side at which the converter should operate. CSC configuration data used in power flow. |
| cim:CsConverter.operatingMode - Indicates whether the DC pole is operating as an inverter or as a rectifier. CSC control variable used in power flow. |
| cim:CsConverter.pPccControl |
| cim:CsConverter.ratedIdc - Rated converter DC current, also called IdN. Converter configuration data used in power flow. |
| cim:CsConverter.targetAlpha - Target firing angle. CSC control variable used in power flow. |
| cim:CsConverter.targetGamma - Target extinction angle. CSC control variable used in power flow. |
| cim:CsConverter.targetIdc - DC current target value. CSC control variable used in power flow. |
| cim:CSNK |
| cim:CsOperatingModeKind |
| cim:CsPpccControlKind |
| cim:CSRC |
| cim:CTL |
| cim:ctRatio |
| cim:CTTempActivePowerCurve - Relationship between the combustion turbine's power output rating in gross active power (X-axis) and the ambient air temperature (Y-axis). |
| cim:CUAllowableAction - Allowed actions: Install, Remove, Transfer, Abandon, etc. |
| cim:CUAllowableAction.status |
| cim:CUC |
| cim:CUContractorItem - Compatible unit contractor item. |
| cim:CUContractorItem.activityCode - Activity code identifies a specific and distinguishable unit of work. |
| cim:CUContractorItem.bidAmount - The amount that a given contractor will charge for performing this unit of work. |
| cim:CUContractorItem.status |
| cim:CUGroup - A Compatible Unit Group identifies a set of compatible units which may be jointly utilized for estimating and designating jobs. |
| cim:CUGroup.CompatibleUnit - |
| cim:CUGroup.CUGroup - |
| cim:CUGroup.DesignLocationCU - |
| cim:CUGroup.status |
| cim:CULaborCode - Labor code associated with various compatible unit labor items. |
| cim:CULaborCode.code - Labor code. |
| cim:CULaborCode.CULaborItem - |
| cim:CULaborCode.status |
| cim:CULaborItem - Compatible unit labor item. |
| cim:CULaborItem.activityCode - Activity code identifies a specific and distinguishable unit of work. |
| cim:CULaborItem.laborDuration - Estimated time to perform work. |
| cim:CULaborItem.laborRate - The labor rate applied for work. |
| cim:CULaborItem.status |
| cim:CUMaterialItem - Compatible unit of a consumable supply item. For example, nuts, bolts, brackets, glue, etc. |
| cim:CUMaterialItem.corporateCode - Code for material. |
| cim:CUMaterialItem.PropertyUnit - |
| cim:CUMaterialItem.quantity - Quantity of the TypeMaterial for this CU, used to determine estimated costs based on a per unit cost or a cost per unit length specified in the TypeMaterial. |
| cim:CUMaterialItem.status |
| cim:cumulative |
| cim:CUP |
| cim:currency |
| cim:Currency |
| cim:current |
| cim:currentAngle |
| cim:CurrentEmergencyScheduledInterchange - Control area emergency schedules |
| cim:CurrentEmergencyScheduledInterchange.emergencyScheduleMW - Net tie MW. These are three entries, the current emergency schedule interchange and the two future schedules if they exist. |
| cim:CurrentEmergencyScheduledInterchange.emergencyScheduleRampTime - Ramp time, the ramping time for a schedule. This is calculated as the remaining time to ramp if a schedule is ramping. Measured in seconds, but can be negattive. |
| cim:CurrentEmergencyScheduledInterchange.emergencyScheduleStartTime - Net tie time, the start time for a schedule. This is calculated as the current time if a schedule is ramping. |
| cim:CurrentFlow - Electrical current with sign convention: positive flow is out of the conducting equipment into the connectivity node. Can be both AC and DC. |
| cim:currentFlow |
| cim:CurrentFlow.multiplier |
| cim:CurrentFlow.unit |
| cim:CurrentFlow.value |
| cim:currentImbalance |
| cim:currentLimit |
| cim:CurrentLimit - Operational limit on current. |
| cim:CurrentLimit.value - Limit on current flow. |
| cim:CurrentRelay - A device that checks current flow values in any direction or designated direction. |
| cim:CurrentRelay.currentLimit1 - Current limit number one 1 for inverse time pickup. |
| cim:CurrentRelay.currentLimit2 - Current limit number 2 for inverse time pickup. |
| cim:CurrentRelay.currentLimit3 - Current limit number 3 for inverse time pickup. |
| cim:CurrentRelay.inverseTimeFlag - Set true if the current relay has inverse time characteristic. |
| cim:CurrentRelay.timeDelay1 - Inverse time delay number 1 for current limit number 1. |
| cim:CurrentRelay.timeDelay2 - Inverse time delay number 2 for current limit number 2. |
| cim:CurrentRelay.timeDelay3 - Inverse time delay number 3 for current limit number 3. |
| cim:CurrentScheduledInterchange - Control area current net tie (scheduled interchange) sent to real time dispatch. |
| cim:CurrentScheduledInterchange.currentNetTieMW - Current control area net tie MW (the sum of the tie line flows, i.e the sum of flows into and out of the control area), the current instantaneous scheduled interchange. |
| cim:CurrentScheduledInterchange.useEmergencySchedule - Use Emergency Schedule
Attribute Usage: Emergency use indicator, false = Emergency Schedular OFF, true = Emergency Schedular ON. |
| cim:CurrentStatusSC |
| cim:CurrentTransformer - Instrument transformer used to measure electrical qualities of the circuit that is being protected and/or monitored. Typically used as current transducer for the purpose of metering or protection. A typical secondary current rating would be 5A. |
| cim:CurrentTransformer.accuracyClass - CT accuracy classification. |
| cim:CurrentTransformer.accuracyLimit - Percent of rated current for which the CT remains accurate within specified limits. |
| cim:CurrentTransformer.coreBurden - Power burden of the CT core. |
| cim:CurrentTransformer.ctClass - CT classification; i.e. class 10P. |
| cim:CurrentTransformer.usage - Intended usage of the CT; i.e. metering, protection. |
| cim:CurrentTransformerInfo - Properties of current transformer asset. |
| cim:CurrentTransformerInfo.accuracyClass - CT accuracy classification. |
| cim:CurrentTransformerInfo.accuracyLimit - Accuracy limit. |
| cim:CurrentTransformerInfo.coreCount - Number of cores. |
| cim:CurrentTransformerInfo.ctClass |
| cim:CurrentTransformerInfo.kneePointCurrent - Maximum primary current where the CT still displays linear characteristicts. |
| cim:CurrentTransformerInfo.kneePointVoltage - Maximum voltage across the secondary terminals where the CT still displays linear characteristicts. |
| cim:CurrentTransformerInfo.maxRatio - Maximum ratio between the primary and secondary current. |
| cim:CurrentTransformerInfo.nominalRatio - Nominal ratio between the primary and secondary current; i.e. 100:5. |
| cim:CurrentTransformerInfo.primaryFlsRating - Full load secondary (FLS) rating for primary winding. |
| cim:CurrentTransformerInfo.primaryRatio - Ratio for the primary winding tap changer. |
| cim:CurrentTransformerInfo.ratedCurrent - Rated current on the primary side. |
| cim:CurrentTransformerInfo.secondaryFlsRating - Full load secondary (FLS) rating for secondary winding. |
| cim:CurrentTransformerInfo.secondaryRatio - Ratio for the secondary winding tap changer. |
| cim:CurrentTransformerInfo.tertiaryFlsRating - Full load secondary (FLS) rating for tertiary winding. |
| cim:CurrentTransformerInfo.tertiaryRatio - Ratio for the tertiary winding tap changer. |
| cim:CurrentTransformerInfo.usage - Usage: eg. metering, protection, etc. |
| cim:CurtailmentProfile - Curtailing entity must be providing at least one service to the EnergyTransaction. The CurtailmentProfile must be completely contained within the EnergyProfile timeframe for this EnergyTransaction. |
| cim:Curve - A multi-purpose curve or functional relationship between an independent variable (X-axis) and dependent (Y-axis) variables. |
| cim:Curve.CurveData - The point data values that define this curve.The curve of this curve data point. |
| cim:Curve.curveStyle - The style or shape of the curve. |
| cim:Curve.xMultiplier - Multiplier for X-axis. |
| cim:Curve.xUnit - The X-axis units of measure. |
| cim:Curve.y1Multiplier - Multiplier for Y1-axis. |
| cim:Curve.y1Unit - The Y1-axis units of measure. |
| cim:Curve.y2Multiplier - Multiplier for Y2-axis. |
| cim:Curve.y2Unit - The Y2-axis units of measure. |
| cim:Curve.y3Multiplier - Multiplier for Y3-axis. |
| cim:Curve.y3Unit - The Y3-axis units of measure. |
| cim:CurveData - Multi-purpose data points for defining a curve. The use of this generic class is discouraged if a more specific class can be used to specify the x and y axis values along with their specific data types. |
| cim:CurveData.xvalue - The data value of the X-axis variable, depending on the X-axis units. |
| cim:CurveData.y1value - The data value of the first Y-axis variable, depending on the Y-axis units. |
| cim:CurveData.y2value - The data value of the second Y-axis variable (if present), depending on the Y-axis units. |
| cim:CurveData.y3value - The data value of the third Y-axis variable (if present), depending on the Y-axis units. |
| cim:CurveStyle |
| cim:CUSTOMER |
| cim:Customer - Organisation receiving services from service supplier. |
| cim:Customer.CustomerNotification - All notifications required by this customer.Customer requiring this notification. |
| cim:Customer.kind - Kind of customer. |
| cim:Customer.locale - Locale designating language to use in communications with this customer. |
| cim:Customer.priority - Priority of the customer. |
| cim:Customer.pucNumber - (if applicable) Public utilities commission (PUC) identification number. |
| cim:Customer.specialNeed - True if customer organisation has special service needs such as life support, hospitals, etc. |
| cim:Customer.status - Status of this customer. |
| cim:Customer.TroubleTicket - All trouble tickets for this customer.Customer for whom this trouble ticket is relevant. |
| cim:Customer.vip - (use 'priority' instead) True if this is an important customer. Importance is for matters different than those in 'specialNeed' attribute. |
| cim:CustomerAccount - Assignment of a group of products and services purchased by the customer through a customer agreement, used as a mechanism for customer billing and payment. It contains common information from the various types of customer agreements to create billings (invoices) for a customer and receive payment. |
| cim:CustomerAccount.billingCycle - Cycle day on which the associated customer account will normally be billed, used to determine when to produce the billing. |
| cim:CustomerAccount.budgetBill - Budget bill code. |
| cim:CustomerAccount.Customer - Customer owning this account.All accounts of this customer. |
| cim:CustomerAccount.CustomerBillingInfo - |
| cim:CustomerAccount.lastBillAmount - The last amount that will be billed to the customer prior to shut off of the account. |
| cim:CustomerAgreement - Agreement between the customer and the service supplier to pay for service at a specific service location. It records certain billing information about the type of service provided at the service location and is used during charge creation to determine the type of service. |
| cim:CustomerAgreement.Customer - Customer for this agreement.All agreements of this customer. |
| cim:CustomerAgreement.CustomerAccount - Customer account owning this agreement.All agreements for this customer account. |
| cim:CustomerAgreement.DemandResponseProgram - All demand response programs the customer is enrolled in through this customer agreement.All customer agreements through which the customer is enrolled in this demand response program. |
| cim:CustomerAgreement.isPrePay - If true, the customer is a pre-pay customer for the specified service. |
| cim:CustomerAgreement.loadMgmt - Load management code. |
| cim:CustomerAgreement.MeterReading - (could be deprecated in the future) All meter readings for this customer agreement.(could be deprecated in the future) Customer agreement for this meter reading. |
| cim:CustomerAgreement.ServiceSupplier - Service supplier for this customer agreement.All customer agreements of this service supplier. |
| cim:CustomerAgreement.shutOffDateTime - Final date and time the service will be billed to the previous customer. |
| cim:CustomerBillingInfo - The creation of the monthly customer billing statements is the method employed to notify Customers of charges, adjustments and credits applied to their account for Services and Products. The actuall billing occurs through an ErpInvoice. The CustomerBillingInfo includes information from the payment, collection, meter reading, installed meter, service, site, customer, customer account, customer agreement, services and pricing subject areas. Each component price shows up as a separate line item on the ErpInvoice.
The Customer Billing Statement may include collection and account messages, marketing/civic event messages and bill inserts.
One Customer Billing Statement is produced for all Agreements under a CustomerAccount per billing cycle date defined in 'CustomerAccount.billingCycle'.
The history of CustomerBillingInfo, Invoices and Payments is to be maintained in associated ActivityRecords. |
| cim:CustomerBillingInfo.billingDate - Business date designated for the billing run which produced this CustomerBillingInfo. |
| cim:CustomerBillingInfo.dueDate - Calculated date upon which a customer billing amount is due, used in the invoicing process to determine when a Customer's Payment is delinquent. It takes into consideration the regulatory criteria and the Customer's requested due date. In the absence of a Customer requested due date, the due date is typically calculated from the regulated number of days and the 'billingDate'. |
| cim:CustomerBillingInfo.kind - Kind of bill customer receives. |
| cim:CustomerBillingInfo.lastPaymentAmt - Amount of the last payment received from the customer. It is retained in the Customer Billing system, although the details of each payment are tracked in the ERP system. |
| cim:CustomerBillingInfo.lastPaymentDate - Date of the last payment received from the customer. It is retained in the Customer Billing system, although the details of each payment are tracked in the ERP system. |
| cim:CustomerBillingInfo.outBalance - Outstanding balance on the CustomerAccount as of the statement date. |
| cim:CustomerBillingInfo.pymtPlanAmt - Monthly amortized amount due during each billing cycle for the CustomerAccount balance for which the Payment Plan is set-up. |
| cim:CustomerBillingInfo.pymtPlanType - Type of payment plan. |
| cim:CustomerBillingKind |
| cim:CustomerConsumer - The energy buyer in the energy marketplace. |
| cim:CustomerKind |
| cim:CustomerNotification - Conditions for notifying the customer about the changes in the status of their service (e.g., outage restore, estimated restoration time, tariff or service level change, etc.) |
| cim:CustomerNotification.contactType - Type of contact (e.g., phone, email, etc.). |
| cim:CustomerNotification.contactValue - Value of contact type (e.g., phone number, email address, etc.). |
| cim:CustomerNotification.earliestDateTimeToCall - Earliest date time to call the customer. |
| cim:CustomerNotification.Incident - Incident as a subject of this customer notification.All notifications for a customer related to the status change of this incident. |
| cim:CustomerNotification.latestDateTimeToCall - Latest date time to call the customer. |
| cim:CustomerNotification.trigger - Trigger for this notification. |
| cim:customerPremise |
| cim:customerSubstation |
| cim:Cut - A cut separates a line segment into two parts. The cut appears as a switch inserted between these two parts and connects them together. As the cut is normally open there is no galvanic connection between the two line segment parts. But it is possible to close the cut to get galvanic connection.
The cut terminals are oriented towards the line segment terminals with the same sequence number. Hence the cut terminal with sequence number equal to 1 is oriented to the line segment's terminal with sequence number equal to 1.
The cut terminals also act as connection points for jumpers and other equipment, e.g. a mobile generator. To enable this, connectivity nodes are placed at the cut terminals. Once the connectivity nodes are in place any conducting equipment can be connected at them. |
| cim:Cut.CutAction - Action taken with this cut.Cut on which this action is taken. |
| cim:Cut.lengthFromTerminal1 - The length to the place where the cut is located starting from side one of the cut line segment, i.e. the line segment Terminal with sequenceNumber equal to 1. |
| cim:CutAction - Action on cut as a switching step. |
| cim:CutAction.kind - Switching action to perform. |
| cim:CutAction.SwitchingStepGroup - Group to which this step belongs.All cut action steps in this group. |
| cim:CUWorkEquipmentItem - Compatible unit for various types of WorkEquipmentAssets, including vehicles. |
| cim:CUWorkEquipmentItem.equipCode - The equipment type code. |
| cim:CUWorkEquipmentItem.rate - Standard usage rate for the type of vehicle. |
| cim:CUWorkEquipmentItem.status |
| cim:CV |
| cim:CVE |
| cim:CVR |
| cim:CX |
| cim:CZK |
| cim:d |
| cim:D |
| cim:da |
| cim:DA |
| cim:DABE |
| cim:daily |
| cim:DAILY_INITIAL_CREDIT |
| cim:DAILY_INITIAL_MARKET |
| cim:DAILY_RECALC_MARKET |
| cim:DAM |
| cim:DAMMarketType |
| cim:Damping - Per-unit active power variation with frequency referenced on the system apparent power base. Typical values are in range 1.0 - 2.0. |
| cim:Damping.multiplier |
| cim:Damping.unit |
| cim:Damping.value |
| cim:DAPE |
| cim:DASE |
| cim:Data_can_be_requested_for_period_of_31_days_only |
| cim:Data_Transfer_Procedure_Initiated |
| cim:Data_Transfer_Succesful |
| cim:dataOverflowAlarm |
| cim:Dataset - Versioned instance of a model part. This would correspond to a payload of instance data without a header. The MRID would be used in audit trail, not in reusable script intended to work with new versions of data.
A dataset could be serialized multiple times and in multiple technologies, yet retain the same identity. |
| cim:Dataset.AlternateModel - The alternate model using the data.The data belonging to the alternate model. |
| cim:Dataset.CIMDataObject - Data objects contained in the dataset.Dataset containing the data objects. |
| cim:Dataset.DatasetArg - The role of a dataset in the context of an operation.Dataset referenced by this argument of a model operation.. |
| cim:Dataset.ModelPartVersion - Model part version corresponding to the dataset.Dataset of the model part version. |
| cim:DatasetArg - A model operation argument referencing a dataset instance. |
| cim:DatasetArgDescription |
| cim:DatasetArgDescription.DatasetArg - The operation dataset roles conforming to this role type.The type of role for this dataset role. Should only reference role types that belong to the operation type of the associated operation. |
| cim:date |
| cim:DateAndOrTime - The date and or the time. |
| cim:DateAndOrTime.date - Date as "yyyy-mm-dd", which conforms with ISO 8601 |
| cim:DateAndOrTime.time - Time as "hh:mm:ss.sssZ", which conforms with ISO 8601. |
| cim:DateAndOrTime.TimeSeries - |
| cim:DateInterval - Interval between two dates. |
| cim:DateInterval.end - End date of this interval. |
| cim:DateInterval.start - Start date of this interval. |
| cim:DateTimeInterval - Interval between two date and time points. |
| cim:DateTimeInterval.end - End date and time of this interval. |
| cim:DateTimeInterval.start - Start date and time of this interval. |
| cim:Day_Ahead_Final_Market_Info |
| cim:Day_Ahead_Forecast_Information |
| cim:Day_Ahead_Interim_Market_Info |
| cim:Day_Ahead_RMR |
| cim:DayType - Group of similar days. For example it could be used to represent weekdays, weekend, or holidays. |
| cim:dB |
| cim:dBm |
| cim:DCA |
| cim:DCBaseTerminal - An electrical connection point at a piece of DC conducting equipment. DC terminals are connected at one physical DC node that may have multiple DC terminals connected. A DC node is similar to an AC connectivity node. The model enforces that DC connections are distinct from AC connections. |
| cim:DCBaseTerminal.DCNode - |
| cim:DCBreaker - A breaker within a DC system. |
| cim:DCBusbar - A busbar within a DC system. |
| cim:DCChopper - Low resistance equipment used in the internal DC circuit to balance voltages. It has typically positive and negative pole terminals and a ground. |
| cim:DCConductingEquipment - The parts of the DC power system that are designed to carry current or that are conductively connected through DC terminals. |
| cim:DCConductingEquipment.ProtectiveActionAdjustment - |
| cim:DCConverterOperatingModeKind |
| cim:DCConverterUnit - Indivisible operative unit comprising all equipment between the point of common coupling on the AC side and the point of common coupling DC side, essentially one or more converters, together with one or more converter transformers, converter control equipment, essential protective and switching devices and auxiliaries, if any, used for conversion. |
| cim:DCConverterUnit.operationMode |
| cim:dcCurrent |
| cim:DCDisconnector - A disconnector within a DC system. |
| cim:DCEquipmentContainer - A modeling construct to provide a root class for containment of DC as well as AC equipment. The class differ from the EquipmentContaner for AC in that it may also contain DCNodes. Hence it can contain both AC and DC equipment. |
| cim:DCEquipmentContainer.DCNode - The DC nodes contained in the DC equipment container.The DC container for the DC nodes. |
| cim:DCGround - A ground within a DC system. |
| cim:DCGround.inductance - Inductance to ground. |
| cim:DCGround.r - Resistance to ground. |
| cim:DCIMFaultModel |
| cim:DCIMWireInfo |
| cim:DCLine - Overhead lines and/or cables connecting two or more HVDC substations. |
| cim:DCLineSegment - A wire or combination of wires not insulated from one another, with consistent electrical characteristics, used to carry direct current between points in the DC region of the power system. |
| cim:DCLineSegment.capacitance - Capacitance of the DC line segment. Significant for cables only. |
| cim:DCLineSegment.inductance - Inductance of the DC line segment. Neglectable compared with DCSeriesDevice used for smoothing. |
| cim:DCLineSegment.length - Segment length for calculating line section capabilities. |
| cim:DCLineSegment.PerLengthDCLineParameter - Set of per-length parameters for this line segment.All line segments described by this set of per-length parameters. |
| cim:DCLineSegment.resistance - Resistance of the DC line segment. |
| cim:DCNode - DC nodes are points where terminals of DC conducting equipment are connected together with zero impedance. |
| cim:DCPolarityKind |
| cim:DCSeriesDevice - A series device within the DC system, typically a reactor used for filtering or smoothing. Needed for transient and short circuit studies. |
| cim:DCSeriesDevice.inductance - Inductance of the device. |
| cim:DCSeriesDevice.ratedUdc - Rated DC device voltage. Converter configuration data used in power flow. |
| cim:DCSeriesDevice.resistance - Resistance of the DC device. |
| cim:DCShunt - A shunt device within the DC system, typically used for filtering. Needed for transient and short circuit studies. |
| cim:DCShunt.capacitance - Capacitance of the DC shunt. |
| cim:DCShunt.ratedUdc - Rated DC device voltage. Converter configuration data used in power flow. |
| cim:DCShunt.resistance - Resistance of the DC device. |
| cim:DCSwitch - A switch within the DC system. |
| cim:DCTerminal - An electrical connection point to generic DC conducting equipment. |
| cim:DCTerminal.DCConductingEquipment - |
| cim:DCTopologicalIsland - An electrically connected subset of the network. DC topological islands can change as the current network state changes: e.g. due to
- disconnect switches or breakers change state in a SCADA/EMS
- manual creation, change or deletion of topological nodes in a planning tool. |
| cim:DCTopologicalIsland.DCTopologicalNode - |
| cim:DCTopologicalNode - DC bus. |
| cim:DCTopologicalNode.DCBaseTerminal - See association end TopologicalNode.Terminal.See association end Terminal.TopologicalNode. |
| cim:DCTopologicalNode.DCEquipmentContainer - |
| cim:DCTopologicalNode.DCNode - See association end TopologicalNode.ConnectivityNodes.See association end ConnectivityNode.TopologicalNode. |
| cim:dcVoltage |
| cim:Decimal - Decimal is the base-10 notational system for representing real numbers. |
| cim:DecimalQuantity |
| cim:DecimalQuantity.currency - Quantity with decimal value and associated unit or currency information. |
| cim:DecimalQuantity.multiplier |
| cim:DecimalQuantity.unit |
| cim:DecimalQuantity.value |
| cim:DECLINE |
| cim:Decommissioned |
| cim:default |
| cim:DEFAULT_ENERGY_BID |
| cim:DEFAULT_MINIMUM_LOAD_BID |
| cim:DEFAULT_STARTUP_BID |
cim:DefaultBid - DefaultBid is a generic class to hold Default Energy Bid, Default Startup Bid, and Default Minimum Load Bid:
Default Energy Bid
A Default Energy Bid is a monotonically increasing staircase function consisting at maximum 10 economic bid segments, or 10 ($/MW, MW) pairs. There are three methods for determining the Default Energy Bid:
- Cost Based: derived from the Heat Rate or Average Cost multiplied by the Gas Price Index plus 10%.
- LMP Based: a weighted average of LMPs in the preceding 90 days
- Negotiated: an amount negotiated with the designated Independent Entity.
Default Startup Bid
A Default Startup Bid (DSUB) shall be calculated for each RMR unit based on the Startup Cost stored in the Master File and the applicable GPI and EPI
Default Minimum Load Bid
A Default Minimum Load Bid (DMLB) shall be calculated for each RMR unit based on the Minimum Load Cost stored in the Master File and the applicable GPI. |
| cim:DefaultBid.bidType - Default bid type such as Default Energy Bid, Default Minimum Load Bid, and Default Startup Bid |
| cim:DefaultBid.minLoadCost - Minimum load cost in $/hr |
| cim:DefaultBid.peakFlag - on-peak, off-peak, or all |
| cim:DefaultBidCurve - Default bid curve for default energy bid curve and default startup curves (cost and time) |
| cim:DefaultBidCurve.curveType - To indicate a type used for a default energy bid curve, such as LMP, cost or consultative based. |
| cim:DefaultBidCurve.debAdderFlag - Default energy bid adder flag |
| cim:DefaultBidCurve.DefaultBid - |
| cim:DefaultBidCurveData - Curve data for default bid curve and startup cost curve. |
| cim:DefaultBidCurveData.bidSegmentCalcType - Type of calculation basis used to define the default bid segment curve. |
| cim:DefaultConstraintLimit - Possibly time-varying max MW or MVA and optionally Min MW limit or MVA limit (Y1 and Y2, respectively) applied as a default value if no specific constraint limits are specified for a contingency analysis. Use CurveSchedule XAxisUnits to specify MW or MVA. |
| cim:DEFAULTED |
| cim:deg |
| cim:degC |
| cim:DEL |
| cim:DeleteCIMDataObject |
| cim:DELETED |
| cim:deltaData |
| cim:demand |
| cim:demandCharge |
| cim:demandLimit |
| cim:demandReset |
| cim:demandResponse |
| cim:DemandResponseProgram - Demand response program. |
| cim:DemandResponseProgram.type - Type of demand response program; examples are CPP (critical-peak pricing), RTP (real-time pricing), DLC (direct load control), DBP (demand bidding program), BIP (base interruptible program). Note that possible types change a lot and it would be impossible to enumerate them all. |
| cim:DemandResponseProgram.validityInterval - Interval within which the program is valid. |
| cim:DemographicKind |
| cim:deny |
| cim:depot |
| cim:Design - A design for consideration by customers, potential customers, or internal work.
Note that the Version of design is the revision attribute that is inherited from Document. |
| cim:Design.costEstimate - Estimated cost (not price) of design. |
| cim:Design.DesignLocation - |
| cim:Design.DesignLocationCU - |
| cim:Design.ErpQuoteLineItem - |
| cim:Design.kind - Kind of this design. |
| cim:Design.price - Price to customer for implementing design. |
| cim:DesignKind |
| cim:DesignLocation - A logical part of the design (e.g., pole and all equipment on a pole). This includes points and spans. |
| cim:DesignLocation.ErpBomItemData - |
| cim:DesignLocation.spanLength - The legth of the span from the previous pole to this pole. |
| cim:DesignLocation.status |
| cim:DesignLocationCU - Compatible unit at a given design location. |
| cim:DesignLocationCU.CompatibleUnit - |
| cim:DesignLocationCU.cuAccount - A code that helps direct accounting (capital, expense, or accounting treatment). |
| cim:DesignLocationCU.cuAction - A code that instructs the crew what action to perform. |
| cim:DesignLocationCU.cuQuantity - The quantity of the CU being assigned to this location. |
| cim:DesignLocationCU.cuUsage - As the same CU can be used for different purposes and accounting purposes, usage must be specified. Examples include: distribution, transmission, substation. |
| cim:DesignLocationCU.DesignLocation - |
| cim:DesignLocationCU.removalDate - Year when a CU that represents an asset is removed. |
| cim:DesignLocationCU.status |
| cim:DesignLocationCU.toBeEnergised - True if associated electrical equipment is intended to be energized while work is being performed. |
| cim:deviceAddressType1 |
| cim:deviceAddressType2 |
| cim:deviceAddressType3 |
| cim:deviceAddressType4 |
| cim:deviceClass |
| cim:diagnosis |
| cim:DiagnosisDataSet - The result of a problem (typically an asset failure) diagnosis. |
| cim:DiagnosisDataSet.effect - Effect of problem. |
| cim:DiagnosisDataSet.failureMode - Failuer mode, for example: Failure to Insulate; Failure to conduct; Failure to contain oil; Failure to provide ground plane; Other. |
| cim:DiagnosisDataSet.finalCause - Cause of problem determined during diagnosis. |
| cim:DiagnosisDataSet.finalCode - Code for diagnosed probem type. |
| cim:DiagnosisDataSet.finalOrigin - Origin of problem determined during diagnosis. |
| cim:DiagnosisDataSet.finalRemark - Remarks pertaining to findings during problem diagnosis. |
| cim:DiagnosisDataSet.phaseCode - Phase(s) diagnosed. |
| cim:DiagnosisDataSet.preliminaryCode - Code for problem type determined during preliminary assessment. |
| cim:DiagnosisDataSet.preliminaryDateTime - Date and time preliminary assessment of problem was performed. |
| cim:DiagnosisDataSet.preliminaryRemark - Remarks pertaining to preliminary assessment of problem. |
| cim:DiagnosisDataSet.rootCause - Root cause of problem determined during diagnosis. |
| cim:DiagnosisDataSet.rootOrigin - Root origin of problem determined during diagnosis. |
| cim:DiagnosisDataSet.rootRemark - Remarks pertaining to root cause findings during problem diagnosis. |
| cim:diagnostic |
| cim:Diagram - The diagram being exchanged. The coordinate system is a standard Cartesian coordinate system and the orientation attribute defines the orientation. |
| cim:Diagram.DiagramObject - A diagram is made up of multiple diagram objects.A diagram object is part of a diagram. |
| cim:Diagram.DiagramStyle - A Diagram may have a DiagramStyle.A DiagramStyle can be used by many Diagrams. |
| cim:Diagram.orientation - Coordinate system orientation of the diagram. |
| cim:Diagram.x1InitialView - X coordinate of the first corner of the initial view. |
| cim:Diagram.x2InitialView - X coordinate of the second corner of the initial view. |
| cim:Diagram.y1InitialView - Y coordinate of the first corner of the initial view. |
| cim:Diagram.y2InitialView - Y coordinate of the second corner of the initial view. |
| cim:DiagramObject - An object that defines one or more points in a given space. This object can be associated with anything that specializes IdentifiedObject. For single line diagrams such objects typically include such items as analog values, breakers, disconnectors, power transformers, and transmission lines. |
| cim:DiagramObject.drawingOrder - The drawing order of this element. The higher the number, the later the element is drawn in sequence. This is used to ensure that elements that overlap are rendered in the correct order. |
| cim:DiagramObject.IdentifiedObject - The domain object to which this diagram object is associated.The diagram objects that are associated with the domain object. |
| cim:DiagramObject.isPolygon - Defines whether or not the diagram objects points define the boundaries of a polygon or the routing of a polyline. If this value is true then a receiving application should consider the first and last points to be connected. |
| cim:DiagramObject.offsetX - The offset in the X direction. This is used for defining the offset from centre for rendering an icon (the default is that a single point specifies the centre of the icon).
The offset is in per-unit with 0 indicating there is no offset from the horizontal centre of the icon. -0.5 indicates it is offset by 50% to the left and 0.5 indicates an offset of 50% to the right. |
| cim:DiagramObject.offsetY - The offset in the Y direction. This is used for defining the offset from centre for rendering an icon (the default is that a single point specifies the centre of the icon).
The offset is in per-unit with 0 indicating there is no offset from the vertical centre of the icon. The offset direction is dependent on the orientation of the diagram, with -0.5 and 0.5 indicating an offset of +/- 50% on the vertical axis. |
| cim:DiagramObject.rotation - Sets the angle of rotation of the diagram object. Zero degrees is pointing to the top of the diagram. Rotation is clockwise. |
| cim:DiagramObjectGluePoint - This is used for grouping diagram object points from different diagram objects that are considered to be glued together in a diagram even if they are not at the exact same coordinates. |
| cim:DiagramObjectGluePoint.DiagramObjectPoint - A diagram object glue point is associated with 2 or more object points that are considered to be 'glued' together.The 'glue' point to which this point is associated. |
| cim:DiagramObjectPoint - A point in a given space defined by 3 coordinates and associated to a diagram object. The coordinates may be positive or negative as the origin does not have to be in the corner of a diagram. |
| cim:DiagramObjectPoint.DiagramObject - The diagram object with which the points are associated.A diagram object can have 0 or more points to reflect its layout position, routing (for polylines) or boundary (for polygons). |
| cim:DiagramObjectPoint.sequenceNumber - The sequence position of the point, used for defining the order of points for diagram objects acting as a polyline or polygon with more than one point. |
| cim:DiagramObjectPoint.xPosition - The X coordinate of this point. |
| cim:DiagramObjectPoint.yPosition - The Y coordinate of this point. |
| cim:DiagramObjectPoint.zPosition - The Z coordinate of this point. |
| cim:DiagramObjectStyle - A reference to a style used by the originating system for a diagram object. A diagram object style describes information such as line thickness, shape such as circle or rectangle etc, and color. |
| cim:DiagramObjectStyle.DiagramObject - A style can be assigned to multiple diagram objects.A diagram object has a style associated that provides a reference for the style used in the originating system. |
| cim:DiagramStyle - The diagram style refer to a style used by the originating system for a diagram. A diagram style describes information such as schematic, geographic, bus-branch etc. |
| cim:DifferentialModel - A set of statements describing the changes in the network model. The statement is defined in the incremental model. |
| cim:DifferentialModel.PowerSystemProject - The project of the details of model changes.The details of model changes for this project. |
| cim:DimensionsInfo - As applicable, the basic linear, area, or volume dimensions of an asset, asset type (AssetModel) or other type of object (such as land area). Units and multipliers are specified per dimension. |
| cim:DimensionsInfo.orientation - A description of the orientation of the object relative to the dimensions. As an example, a vault may have north-south orientation for the sizeLength measurement and sizeDepth may be the height of the vault. |
| cim:DimensionsInfo.sizeDepth - Depth measurement. |
| cim:DimensionsInfo.sizeDiameter - Diameter measurement. |
| cim:DimensionsInfo.sizeLength - Length measurement. |
| cim:DimensionsInfo.sizeWidth - Width measurement. |
| cim:dirt |
| cim:disableReclosing |
| cim:Disappear |
| cim:DiscExcContIEEEDEC1A - The class represents IEEE Type DEC1A discontinuous excitation control model that boosts generator excitation to a level higher than that demanded by the voltage regulator and stabilizer immediately following a system fault.
Reference: IEEE Standard 421.5-2005 Section 12.2. |
| cim:DiscExcContIEEEDEC1A.esc - Speed change reference (ESC). Typical Value = 0.0015. |
| cim:DiscExcContIEEEDEC1A.kan - Discontinuous controller gain (KAN). Typical Value = 400. |
| cim:DiscExcContIEEEDEC1A.ketl - Terminal voltage limiter gain (KETL). Typical Value = 47. |
| cim:DiscExcContIEEEDEC1A.tan - Discontinuous controller time constant (TAN). Typical Value = 0.08. |
| cim:DiscExcContIEEEDEC1A.td - Time constant (TD). Typical Value = 0.03. |
| cim:DiscExcContIEEEDEC1A.tl1 - Time constant (TL1). Typical Value = 0.025. |
| cim:DiscExcContIEEEDEC1A.tl2 - Time constant (TL2). Typical Value = 1.25. |
| cim:DiscExcContIEEEDEC1A.tw5 - DEC washout time constant (TW5). Typical Value = 5. |
| cim:DiscExcContIEEEDEC1A.val - Regulator voltage reference (VAL). Typical Value = 5.5. |
| cim:DiscExcContIEEEDEC1A.vanmax - Limiter for Van (VANMAX). |
| cim:DiscExcContIEEEDEC1A.vomax - Limiter (VOMAX). Typical Value = 0.3. |
| cim:DiscExcContIEEEDEC1A.vomin - Limiter (VOMIN). Typical Value = 0.1. |
| cim:DiscExcContIEEEDEC1A.vsmax - Limiter (VSMAX). Typical Value = 0.2. |
| cim:DiscExcContIEEEDEC1A.vsmin - Limiter (VSMIN). Typical Value = -0.066. |
| cim:DiscExcContIEEEDEC1A.vtc - Terminal voltage level reference (VTC). Typical Value = 0.95. |
| cim:DiscExcContIEEEDEC1A.vtlmt - Voltage reference (VTLMT). Typical Value = 1.1. |
| cim:DiscExcContIEEEDEC1A.vtm - Voltage limits (VTM). Typical Value = 1.13. |
| cim:DiscExcContIEEEDEC1A.vtn - Voltage limits (VTN). Typical Value = 1.12. |
| cim:DiscExcContIEEEDEC2A - The class represents IEEE Type DEC2A model for the discontinuous excitation control. This system provides transient excitation boosting via an open-loop control as initiated by a trigger signal generated remotely.
Reference: IEEE Standard 421.5-2005 Section 12.3. |
| cim:DiscExcContIEEEDEC2A.td1 - Discontinuous controller time constant (TD1). |
| cim:DiscExcContIEEEDEC2A.td2 - Discontinuous controller washout time constant (TD2). |
| cim:DiscExcContIEEEDEC2A.vdmax - Limiter (VDMAX). |
| cim:DiscExcContIEEEDEC2A.vdmin - Limiter (VDMIN). |
| cim:DiscExcContIEEEDEC2A.vk - Discontinuous controller input reference (VK). |
| cim:DiscExcContIEEEDEC3A - The class represents IEEE Type DEC3A model. In some systems, the stabilizer output is disconnected from the regulator immediately following a severe fault to prevent the stabilizer from competing with action of voltage regulator during the first swing.
Reference: IEEE Standard 421.5-2005 Section 12.4. |
| cim:DiscExcContIEEEDEC3A.tdr - Reset time delay (TDR). |
| cim:DiscExcContIEEEDEC3A.vtmin - Terminal undervoltage comparison level (VTMIN). |
| cim:disconnect |
| cim:Disconnector - A manually operated or motor operated mechanical switching device used for changing the connections in a circuit, or for isolating a circuit or equipment from a source of power. It is required to open or close circuits when negligible current is broken or made. |
| cim:DiscontinuousExcitationControlDynamics - Discontinuous excitation control function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:DiscontinuousExcitationControlUserDefined - Discontinuous excitation control function block whose dynamic behaviour is described by a user-defined model. |
| cim:DiscontinuousExcitationControlUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:DiscontinuousExcitationControlUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:DISCRETE |
| cim:Discrete - Discrete represents a discrete Measurement, i.e. a Measurement representing discrete values, e.g. a Breaker position. |
| cim:Discrete.maxValue - Normal value range maximum for any of the MeasurementValue.values. Used for scaling, e.g. in bar graphs or of telemetered raw values. |
| cim:Discrete.minValue - Normal value range minimum for any of the MeasurementValue.values. Used for scaling, e.g. in bar graphs or of telemetered raw values. |
| cim:Discrete.normalValue - Normal measurement value, e.g., used for percentage calculations. |
| cim:Discrete.ValueAliasSet - The ValueAliasSet used for translation of a MeasurementValue.value to a name.The Measurements using the set for translation. |
| cim:DiscreteCommand |
| cim:DiscreteMeasurementValueQuality - Measurement quality flags for Discrete Values. |
| cim:DiscreteMeasurementValueQuality.manualReplaceIndicator - Switch Manual Replace Indicator. Flag indicating that the switch is manual replace. |
| cim:DiscreteMeasurementValueQuality.removeFromOperationIndicator - Removed From Operation Indicator. Flag indicating that the switch is removed from operation. |
| cim:DiscreteValue - DiscreteValue represents a discrete MeasurementValue. |
| cim:DiscreteValue.Discrete - Measurement to which this value is connected.The values connected to this measurement. |
| cim:DiscreteValue.value - The value to supervise. |
| cim:DispatchAcceptStatus |
| cim:dispatched |
| cim:DispatchInstReply - Response from registered resource acknowleging receipt of dispatch instructions |
| cim:DispatchInstReply.acceptMW - The accepted mw amount by the responder. aka response mw. |
| cim:DispatchInstReply.acceptStatus - The accept status submitted by the responder. enumeration type needs to be defined |
| cim:DispatchInstReply.certificationName - The Subject DN is the X509 Certificate Subject DN. This is the essentially the certificate name presented by the client. In the case of ADS Certificates, this will be the user name. It may be from an API Client or the MP Client (GUI).
The Subject ID normally includes more than just the user name (Common Name), it can also contain information such as City, Company ID, etc. |
| cim:DispatchInstReply.clearedMW - MW amount associated with instruction. For 5 minute binding dispatches, this is the Goto MW or DOT |
| cim:DispatchInstReply.instructionTime - The target date/time for the received instruction. |
| cim:DispatchInstReply.instructionType - instruction type:
commitment
out of sequence
dispatch |
| cim:DispatchInstReply.passIndicator - The type of run for the market clearing. |
| cim:DispatchInstReply.receivedTime - Timestamp indicating the time at which the instruction was received. |
| cim:DispatchInstReply.RegisteredResource - |
| cim:DispatchInstReply.startTime - start time |
| cim:DispatchResponseType |
| cim:DispatchTransactionType |
| cim:Displacement - Unit of displacement relative a reference position, hence can be negative. |
| cim:Displacement.multiplier |
| cim:Displacement.unit |
| cim:Displacement.value |
| cim:DIST |
| cim:distance |
| cim:distortionPowerFactor |
| cim:distortionVoltAmp |
| cim:distribution |
| cim:DistributionFactorSet - A containing class that groups all the distribution factors within a market.
This is calculated daily for DA factors and hourly for RT factors. |
| cim:DistributionFactorSet.intervalEndTime - The end of the time interval for which requirement is defined. |
| cim:DistributionFactorSet.intervalStartTime - The start of the time interval for which requirement is defined. |
| cim:DistributionFactorSet.marketType |
| cim:distributionOverhead |
| cim:distributionProvider |
| cim:distributionUnderground |
| cim:div |
| cim:diversePayment |
| cim:DJF |
| cim:DKK |
| cim:DMLE |
| cim:Document - Parent class for different groupings of information collected and managed as a part of a business process. It will frequently contain references to other objects, such as assets, people and power system resources. |
| cim:Document.Approver - Approver of this document.All documents for this approver. |
| cim:Document.Author - Author of this document.All documents of this this author. |
| cim:Document.authorName - Name of the author of this document. |
| cim:Document.comment - Free text comment. |
| cim:Document.createdDateTime - Date and time that this document was created. |
| cim:Document.docStatus - Status of this document. For status of subject matter this document represents (e.g., Agreement, Work), use 'status' attribute.
Example values for 'docStatus.status' are draft, approved, cancelled, etc. |
| cim:Document.Editor - Editor of this document.All documents for this editor. |
| cim:Document.electronicAddress - Electronic address. |
| cim:Document.Issuer - Issuer of this document.All documents for this issuer. |
| cim:Document.lastModifiedDateTime - Date and time this document was last modified. Documents may potentially be modified many times during their lifetime. |
| cim:Document.revisionNumber - Revision number for this document. |
| cim:Document.status - Status of subject matter (e.g., Agreement, Work) this document represents. For status of the document itself, use 'docStatus' attribute. |
| cim:Document.subject - Document subject. |
| cim:Document.title - Document title. |
| cim:Document.type - Utility-specific classification of this document, according to its corporate standards, practices, and existing IT systems (e.g., for management of assets, maintenance, work, outage, customers, etc.). |
| cim:DocumentOrganisationRole - Role an organisation plays with respect to documents. |
| cim:DocumentPersonRole - Person role with respect to documents. |
| cim:Domain - An area of activity defined within the energy market. |
| cim:Domain.MarketDocument - |
| cim:Domain.TimeSeries - |
| cim:DOP |
| cim:DopInstruction - Provides the necessary information (on a resource basis) to capture the Dispatch Operating Point (DOP) results on a Dispatch interval. This information is only relevant to the RT interval market. |
| cim:DopInstruction.InstructionClearingDOP - |
| cim:DopInstruction.mwDOP - Dispatched Operating Point (MW) |
| cim:DopInstruction.plotPriority - A value used to establish priority of the DOP when plotting. This is only applicable when two DOPs exist for the same time, but with different MW values. E.g. when indicating a step in the curve. Its used to determine if the curve steps up or down. |
| cim:DopInstruction.RegisteredResource - |
| cim:DopInstruction.runIndicatorDOP - Indication of DOP validity.
Shows the DOP is calculated from the latest run (YES). A NO indicator shows that the DOP is copied from a previous execution.
Up to 2 intervals can be missed. |
| cim:DopInstruction.timestampDOP - DOP time stamp |
| cim:DopInstruction.updateTimeStamp |
| cim:DopInstruction.updateType |
| cim:DopInstruction.updateUser |
| cim:DotInstruction - Provides the necessary information (on a resource basis) to capture the Dispatch Operating Target (DOT) results on a Dispatch interval. This information is only relevant to the RT interval market. |
| cim:DotInstruction.actualRampRate - Actual ramp rate. |
| cim:DotInstruction.compliantIndicator - Flag indicating whether or not the resource was in compliance with the instruction (plus/minus 10%).
Directs if a unit is allowed to set the price (ex-post pricing). |
| cim:DotInstruction.DOT - Dispatch operating target value. |
| cim:DotInstruction.economicMaxOverride - Economic Max Limit override for unit, this value is null, if it is not, this value overrides the Energy column value.
Allows dispatcher to override the unit's energy value. |
| cim:DotInstruction.expectedEnergy - Expected energy. |
| cim:DotInstruction.generatorPerformanceDegree - The Degree of Generator Performance (DGP) used for the unit. Measure of how a generator responds to raise /lower signals. Calculated every five minutes. |
| cim:DotInstruction.hourAheadSchedEnergy - HASP results. |
| cim:DotInstruction.hourlySchedule - Hourly Schedule (DA Energy Schedule). |
| cim:DotInstruction.InstructionClearingDOT - |
| cim:DotInstruction.instructionTime - The date/time for the instruction. |
| cim:DotInstruction.maximumEmergencyInd - True if maximum emergency limit activated; false otherwise. If unit is requested to move up to its max emergency limit., this flag is set to true. |
| cim:DotInstruction.meterLoadFollowing - Meter Sub System Load Following. |
| cim:DotInstruction.nonRampRestrictedMW - Desired MW that is not ramp restricted. If no ramp rate limit existed for the unit, this is the MW value tha t the unit was requested to move to. |
| cim:DotInstruction.nonSpinReserve - Non Spin Reserve used to procure energy. |
| cim:DotInstruction.previousDOTTimeStamp - Timestamp when the previous DOT value was issued. |
| cim:DotInstruction.rampRateLimit - The ramp rate limit for the unit in MWs per minute. Participant bidding data. |
| cim:DotInstruction.regulationStatus - Regulation Status (Yes/No). |
| cim:DotInstruction.spinReserve - Spin Reserve used to procure energy. |
| cim:DotInstruction.standardRampEnergy - Standard ramping energy (MWH). |
| cim:DotInstruction.supplementalEnergy - Supplemental Energy procure by Real Time Dispatch. |
| cim:DotInstruction.unitStatus - Output results from the case identifying the reason the unit was committed by the software. |
| cim:doubleBreaker |
| cim:doubleBus |
| cim:DOWN |
| cim:DPZ |
| cim:DroopSignalFeedbackKind |
| cim:DrumBoiler - Drum boiler. |
| cim:DrumBoiler.drumBoilerRating - Rating of drum boiler in steam units. |
| cim:dryType |
| cim:DSR |
| cim:DSSE |
| cim:DuctBank - A duct contains individual wires in the layout as specified with associated wire spacing instances; number of them gives the number of conductors in this duct. |
| cim:DuctBank.circuitCount - Number of circuits in duct bank. Refer to associations between a duct (ConductorAsset) and an ACLineSegment to understand which circuits are in which ducts. |
| cim:DuctBank.WireSpacing - |
| cim:Due - Details on amounts due for an account. |
| cim:Due.arrears - Part of 'current' that constitutes the arrears portion. |
| cim:Due.charges - Part of 'current' that constitutes the charge portion: 'charges' = 'Charge.fixedPortion' + 'Charge.variablePortion'. |
| cim:Due.current - Current total amount now due: current = principle + arrears + interest + charges. Typically the rule for settlement priority is: interest dues, then arrears dues, then current dues, then charge dues. |
| cim:Due.interest - Part of 'current' that constitutes the interest portion. |
| cim:Due.principle - Part of 'current' that constitutes the portion of the principle amount currently due. |
| cim:Duration - Duration as "PnYnMnDTnHnMnS" which conforms to ISO 8601, where nY expresses a number of years, nM a number of months, nD a number of days. The letter T separates the date expression from the time expression and, after it, nH identifies a number of hours, nM a number of minutes and nS a number of seconds. The number of seconds could be expressed as a decimal number, but all other numbers are integers. |
| cim:DYN |
| cim:dynamics_mode |
| cim:dynamics_model |
| cim:DynamicSchedule - A continuously variable component of a control area's MW net interchange schedule. Dynamic schedules are sent and received by control areas. |
| cim:DynamicSchedule.dynSchedSignRev - Dynamic schedule sign reversal required (true/false) |
| cim:DynamicSchedule.dynSchedStatus - The "active" or "inactive" status of the dynamic schedule |
| cim:DynamicsFunctionBlock - Abstract parent class for all Dynamics function blocks. |
| cim:DynamicsFunctionBlock.enabled - Function block used indicator.
true = use of function block is enabled
false = use of function block is disabled. |
| cim:DZD |
| cim:E |
| cim:earliest |
| cim:EarthFaultCompensator - A conducting equipment used to represent a connection to ground which is typically used to compensate earth faults.. An earth fault compensator device modeled with a single terminal implies a second terminal solidly connected to ground. If two terminals are modeled, the ground is not assumed and normal connection rules apply. |
| cim:EarthFaultCompensator.r - Nominal resistance of device. |
| cim:EASTERN |
| cim:ECA |
| cim:EDE |
| cim:Editor - Person who modified the document. |
| cim:EEK |
| cim:EGP |
| cim:EHV |
| cim:electrical_assets-have_no_PSR |
| cim:ElectricalAssets |
| cim:electricalNetwork |
| cim:electricalPower |
| cim:electricity |
| cim:electricityPrimaryMetered |
| cim:electricitySecondaryMetered |
| cim:electricMetering |
| cim:electromechanicalElectrohydraulic |
| cim:electronic |
| cim:ElectronicAddress - Electronic address information. |
| cim:ElectronicAddress.email1 - Primary email address. |
| cim:ElectronicAddress.email2 - Alternate email address. |
| cim:ElectronicAddress.lan - Address on local area network. |
| cim:ElectronicAddress.mac - MAC (Media Access Control) address. |
| cim:ElectronicAddress.password - Password needed to log in. |
| cim:ElectronicAddress.radio - Radio address. |
| cim:ElectronicAddress.userID - User ID needed to log in, which can be for an individual person, an organisation, a location, etc. |
| cim:ElectronicAddress.web - World wide web address. |
| cim:electronicSerialNumber |
| cim:email |
| cim:emergencyLimit |
| cim:Emission - Quantity of emission per fuel heat content. |
| cim:Emission.multiplier |
| cim:Emission.unit |
| cim:Emission.value |
| cim:EmissionAccount - Accounts for tracking emissions usage and credits for thermal generating units. A unit may have zero or more emission accounts, and will typically have one for tracking usage and one for tracking credits. |
| cim:EmissionAccount.emissionType - The type of emission, for example sulfur dioxide (SO2). The y1AxisUnits of the curve contains the unit of measure (e.g. kg) and the emissionType is the type of emission (e.g. sulfer dioxide). |
| cim:EmissionAccount.emissionValueSource - The source of the emission value. |
| cim:EmissionCurve - Relationship between the unit's emission rate in units of mass per hour (Y-axis) and output active power (X-axis) for a given type of emission. This curve applies when only one type of fuel is being burned. |
| cim:EmissionCurve.emissionContent - The emission content per quantity of fuel burned. |
| cim:EmissionCurve.emissionType - The type of emission, which also gives the production rate measurement unit. The y1AxisUnits of the curve contains the unit of measure (e.g. kg) and the emissionType is the type of emission (e.g. sulfer dioxide). |
| cim:EmissionCurve.isNetGrossP - Flag is set to true when output is expressed in net active power. |
| cim:EmissionType |
| cim:EmissionValueSource |
| cim:EN |
| cim:enabled |
| cim:enableReclosing |
| cim:enclosure |
| cim:encoderTamper |
| cim:end |
| cim:END |
| cim:EndDevice - Asset container that performs one or more end device functions. One type of end device is a meter which can perform metering, load management, connect/disconnect, accounting functions, etc. Some end devices, such as ones monitoring and controlling air conditioners, refrigerators, pool pumps may be connected to a meter. All end devices may have communication capability defined by the associated communication function(s). An end device may be owned by a consumer, a service provider, utility or otherwise.
There may be a related end device function that identifies a sensor or control point within a metering application or communications systems (e.g., water, gas, electricity).
Some devices may use an optical port that conforms to the ANSI C12.18 standard for communications. |
| cim:EndDevice.amrSystem - Automated meter reading (AMR) or other communication system responsible for communications to this end device. |
| cim:EndDevice.Customer - Customer owning this end device.All end devices of this customer. |
| cim:EndDevice.EndDeviceControl - All end device controls sending commands to this end device.All end devices receiving commands from this end device control. |
| cim:EndDevice.EndDeviceEvent - All events reported by this end device.End device that reported this end device event. |
| cim:EndDevice.EndDeviceGroup - All end device groups referring to this end device.All end devices this end device group refers to. |
| cim:EndDevice.installCode - Installation code. |
| cim:EndDevice.isPan - If true, this is a premises area network (PAN) device. |
| cim:EndDevice.isVirtual - If true, there is no physical device. As an example, a virtual meter can be defined to aggregate the consumption for two or more physical meters. Otherwise, this is a physical hardware device. |
| cim:EndDevice.ServiceLocation - Service location whose service delivery is measured by this end device.All end devices that measure the service delivered to this service location. |
| cim:EndDevice.timeZoneOffset - Time zone offset relative to GMT for the location of this end device. |
| cim:EndDevice.UsagePoint - Usage point to which this end device belongs.All end devices at this usage point. |
| cim:EndDeviceAction - Action/command performed by an end device on a device other than the end device. |
| cim:EndDeviceAction.command - Command text. |
| cim:EndDeviceAction.duration - Amount of time the action of this control is to remain active. |
| cim:EndDeviceAction.durationIndefinite - True if the action of this control is indefinite. |
| cim:EndDeviceAction.EndDeviceControl - End device control issuing this end device action.End device action issued by this end device control. |
| cim:EndDeviceAction.startDateTime - Start date and time for action of this control. |
| cim:EndDeviceCapability - Inherent capabilities of an end device (i.e., the functions it supports). |
| cim:EndDeviceCapability.autonomousDst - True if autonomous DST (daylight saving time) function is supported. |
| cim:EndDeviceCapability.communication - True if communication function is supported. |
| cim:EndDeviceCapability.connectDisconnect - True if connect and disconnect function is supported. |
| cim:EndDeviceCapability.demandResponse - True if demand response function is supported. |
| cim:EndDeviceCapability.electricMetering - True if electric metering function is supported. |
| cim:EndDeviceCapability.gasMetering - True if gas metering function is supported. |
| cim:EndDeviceCapability.metrology - True if metrology function is supported. |
| cim:EndDeviceCapability.onRequestRead - True if on request read function is supported. |
| cim:EndDeviceCapability.outageHistory - True if outage history function is supported. |
| cim:EndDeviceCapability.pressureCompensation - True if device performs pressure compensation for metered quantities. |
| cim:EndDeviceCapability.pricingInfo - True if pricing information is supported. |
| cim:EndDeviceCapability.pulseOutput - True if device produces pulse outputs. |
| cim:EndDeviceCapability.relaysProgramming - True if relays programming function is supported. |
| cim:EndDeviceCapability.reverseFlow - True if reverse flow function is supported. |
| cim:EndDeviceCapability.superCompressibilityCompensation - True if device performs super compressibility compensation for metered quantities. |
| cim:EndDeviceCapability.temperatureCompensation - True if device performs temperature compensation for metered quantities. |
| cim:EndDeviceCapability.textMessage - True if the displaying of text messages is supported. |
| cim:EndDeviceCapability.waterMetering - True if water metering function is supported. |
| cim:EndDeviceControl - Instructs an end device (or an end device group) to perform a specified action. |
| cim:EndDeviceControl.drProgramLevel - Level of a demand response program request, where 0=emergency. Note: Attribute is not defined on DemandResponseProgram as it is not its inherent property (it serves to control it). |
| cim:EndDeviceControl.drProgramMandatory - Whether a demand response program request is mandatory. Note: Attribute is not defined on DemandResponseProgram as it is not its inherent property (it serves to control it). |
| cim:EndDeviceControl.EndDeviceGroup - All end device groups receiving commands from this end device control.All end device controls sending commands to this end device group. |
| cim:EndDeviceControl.issuerID - Unique identifier of the business entity originating an end device control. |
| cim:EndDeviceControl.issuerTrackingID - Identifier assigned by the initiator (e.g. retail electric provider) of an end device control action to uniquely identify the demand response event, text message, or other subject of the control action. Can be used when cancelling an event or text message request or to identify the originating event or text message in a consequential end device event. |
| cim:EndDeviceControl.priceSignal - (if applicable) Price signal used as parameter for this end device control. |
| cim:EndDeviceControl.primaryDeviceTiming - Timing for the control actions performed on the device identified in the end device control. |
| cim:EndDeviceControl.reason - Reason for the control action that allows to determine how to continue processing. For example, disconnect meter command may require different processing by the receiving system if it has been issued for a network-related reason (protection) or for a payment-related reason. |
| cim:EndDeviceControl.scheduledInterval - (if control has scheduled duration) Date and time interval the control has been scheduled to execute within. |
| cim:EndDeviceControl.secondaryDeviceTiming - Timing for the control actions performed by devices that are responding to event related information sent to the primary device indicated in the end device control. For example, load control actions performed by a PAN device in response to demand response event information sent to a PAN gateway server. |
| cim:EndDeviceControlType - Detailed description for a control produced by an end device. Values in attributes allow for creation of recommended codes to be used for identifying end device controls as follows: <type>.<domain>.<subDomain>.<eventOrAction>. |
| cim:EndDeviceControlType.domain - High-level nature of the control. |
| cim:EndDeviceControlType.EndDeviceControl - All end device controls of this type.Type of this end device control. |
| cim:EndDeviceControlType.eventOrAction - The most specific part of this control type. It is mainly in the form of a verb that gives action to the control that just occurred. |
| cim:EndDeviceControlType.subDomain - More specific nature of the control, as a further sub-categorisation of 'domain'. |
| cim:EndDeviceControlType.type - Type of physical device from which the control was created. A value of zero (0) can be used when the source is unknown. |
| cim:EndDeviceEvent - Event detected by a device function associated with the end device. |
| cim:EndDeviceEvent.issuerID - Unique identifier of the business entity originating an end device control. |
| cim:EndDeviceEvent.issuerTrackingID - Identifier assigned by the initiator (e.g. retail electric provider) of an end device control action to uniquely identify the demand response event, text message, or other subject of the control action. Can be used when cancelling an event or text message request or to identify the originating event or text message in a consequential end device event. |
| cim:EndDeviceEvent.MeterReading - Set of measured values to which this event applies.All end device events associated with this set of measured values. |
| cim:EndDeviceEvent.userID - (if user initiated) ID of user who initiated this end device event. |
| cim:EndDeviceEventDetail - Name-value pair, specific to end device events. |
| cim:EndDeviceEventDetail.EndDeviceEvent - End device owning this detail.All details of this end device event. |
| cim:EndDeviceEventDetail.name - Name. |
| cim:EndDeviceEventDetail.value - Value, including unit information. |
| cim:EndDeviceEventType - Detailed description for an event produced by an end device. Values in attributes allow for creation of recommended codes to be used for identifying end device events as follows: <type>.<domain>.<subDomain>.<eventOrAction>. |
| cim:EndDeviceEventType.domain - High-level nature of the event. By properly classifying events by a small set of domain codes, a system can more easily run reports based on the types of events that have occurred or been received. |
| cim:EndDeviceEventType.EndDeviceEvent - All end device events of this type.Type of this end device event. |
| cim:EndDeviceEventType.eventOrAction - The most specific part of this event type. It is mainly in the form of a verb that gives action to the event that just occurred. |
| cim:EndDeviceEventType.subDomain - More specific nature of the event, as a further sub-categorisation of 'domain'. |
| cim:EndDeviceEventType.type - Type of physical device from which the event was created. A value of zero (0) can be used when the source is unknown. |
| cim:EndDeviceFunction - Function performed by an end device such as a meter, communication equipment, controllers, etc. |
| cim:EndDeviceFunction.enabled - True if the function is enabled. |
| cim:EndDeviceFunction.EndDevice - End device that performs this function.All end device functions this end device performs. |
| cim:EndDeviceFunction.Register - All registers for quantities metered by this end device function.End device function metering quantities displayed by this register. |
| cim:EndDeviceFunctionKind |
| cim:EndDeviceGroup - Abstraction for management of group communications within a two-way AMR system or the data for a group of related end devices. Commands can be issued to all of the end devices that belong to the group using a defined group address and the underlying AMR communication infrastructure. |
| cim:EndDeviceGroup.DemandResponseProgram - All demand response programs this group of end devices is enrolled in.All groups of end devices enrolled in this demand response program. |
| cim:EndDeviceGroup.type - Type of this group. |
| cim:endDeviceID |
| cim:EndDeviceInfo - End device data. |
| cim:EndDeviceInfo.capability - Inherent capabilities of the device (i.e., the functions it supports). |
| cim:EndDeviceInfo.EndDevice - All end devices described with this data.End device data. |
| cim:EndDeviceInfo.isSolidState - If true, this is a solid state end device (as opposed to a mechanical or electromechanical device). |
| cim:EndDeviceInfo.phaseCount - Number of potential phases the end device supports, typically 0, 1 or 3. |
| cim:EndDeviceInfo.ratedCurrent - Rated current. |
| cim:EndDeviceInfo.ratedVoltage - Rated voltage. |
| cim:EndDeviceTiming - Timing for the control actions of end devices. |
| cim:EndDeviceTiming.duration - Duration of the end device control action or the business event that is the subject of the end device control. |
| cim:EndDeviceTiming.durationIndefinite - True if 'duration' is indefinite. |
| cim:EndDeviceTiming.interval - Start and end time of an interval during which end device control actions are to be executed. |
| cim:EndDeviceTiming.randomisation - Kind of randomisation to be applied to the end device control actions to be executed. |
| cim:ENDING |
| cim:ENE_EA |
| cim:ENE_EA_DA |
| cim:ENE_EA_EXCEPT |
| cim:ENE_EA_HASP |
| cim:ENE_EA_MLE |
| cim:ENE_EA_MSSLF |
| cim:ENE_EA_OPTIMAL |
| cim:ENE_EA_RAMP_DEV |
| cim:ENE_EA_RAMP_STD |
| cim:ENE_EA_RESIDUAL |
| cim:ENE_EA_RMR |
| cim:ENE_EA_SELF |
| cim:ENE_EA_SLIC |
| cim:ENE_EXP_CLEAR_HASP |
| cim:ENE_EXP_CLEAR_IFM |
| cim:ENE_EXP_CLEAR_RTM |
| cim:ENE_GEN_CLEAR_HASP |
| cim:ENE_GEN_CLEAR_IFM |
| cim:ENE_GEN_CLEAR_RTM |
| cim:ENE_HASP |
| cim:ENE_IFM |
| cim:ENE_IMP_CLEAR_HASP |
| cim:ENE_IMP_CLEAR_IFM |
| cim:ENE_IMP_CLEAR_RTM |
| cim:ENE_LOAD_ACTUAL |
| cim:ENE_LOAD_CLEAR_HASP |
| cim:ENE_LOAD_CLEAR_IFM |
| cim:ENE_LOAD_CLEAR_RTM |
| cim:ENE_LOAD_FCST |
| cim:ENE_MPM |
| cim:ENE_PEAK_HOUR |
| cim:ENE_PEAK_LOAD |
| cim:ENE_RTM |
| cim:ENE_RUC |
| cim:energization |
| cim:energizationLoadSide |
| cim:energy |
| cim:ENERGY |
| cim:EnergyArea - Describes an area having energy production or consumption. Specializations are intended to support the load allocation function as typically required in energy management systems or planning studies to allocate hypothesized load levels to individual load points for power flow analysis. Often the energy area can be linked to both measured and forecast load levels. |
| cim:EnergyArea.ControlArea - The control area specification that is used for the load forecast.The energy area that is forecast from this control area specification. |
| cim:EnergyConsumer - Generic user of energy - a point of consumption on the power system model. |
| cim:EnergyConsumer.customerCount - Number of individual customers represented by this demand. |
| cim:EnergyConsumer.grounded - Used for Yn and Zn connections. True if the neutral is solidly grounded. |
| cim:EnergyConsumer.LoadDynamics - Load dynamics model used to describe dynamic behavior of this energy consumer.Energy consumer to which this dynamics load model applies. |
| cim:EnergyConsumer.p - Active power of the load. Load sign convention is used, i.e. positive sign means flow out from a node.
For voltage dependent loads the value is at rated voltage.
Starting value for a steady state solution. |
| cim:EnergyConsumer.pfixed - Active power of the load that is a fixed quantity. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumer.pfixedPct - Fixed active power as per cent of load group fixed active power. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumer.phaseConnection - The type of phase connection, such as wye or delta. |
| cim:EnergyConsumer.PowerCutZone - The energy consumer is assigned to this power cut zone.Energy consumer is assigned to the power cut zone. |
| cim:EnergyConsumer.q - Reactive power of the load. Load sign convention is used, i.e. positive sign means flow out from a node.
For voltage dependent loads the value is at rated voltage.
Starting value for a steady state solution. |
| cim:EnergyConsumer.qfixed - Reactive power of the load that is a fixed quantity. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumer.qfixedPct - Fixed reactive power as per cent of load group fixed reactive power. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumerData - Optimal Power Flow or State Estimator Load Data for OTS. This is used for RealTime, Study and Maintenance Users |
| cim:EnergyConsumerData.loadMVAR - The MVAR load
Attribute Usage: The reactive power consumption of the load in MW |
| cim:EnergyConsumerData.loadMW - The active power consumption of the load in MW |
| cim:EnergyConsumerPhase - A single phase of an energy consumer. |
| cim:EnergyConsumerPhase.EnergyConsumer - The energy consumer to which this phase belongs.The individual phase models for this energy consumer. |
| cim:EnergyConsumerPhase.pfixed - Active power of the load that is a fixed quantity. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumerPhase.pfixedPct - Fixed active power as per cent of load group fixed active power. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumerPhase.phase - Phase of this energy consumer component. If the energy consumer is wye connected, the connection is from the indicated phase to the central ground or neutral point. If the energy consumer is delta connected, the phase indicates an energy consumer connected from the indicated phase to the next logical non-neutral phase. |
| cim:EnergyConsumerPhase.qfixed - Reactive power of the load that is a fixed quantity. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyConsumerPhase.qfixedPct - Fixed reactive power as per cent of load group fixed reactive power. Load sign convention is used, i.e. positive sign means flow out from a node. |
| cim:EnergyMarket - Energy and Ancillary Market (e.g. Energy, Spinning Reserve, Non-Spinning Reserve) with a description of the Market operation control parameters. |
| cim:EnergyMarket.Bid - |
| cim:EnergyPriceCurve - Relationship between a price in $(or other monetary unit) /hour (Y-axis) and a MW value (X-axis). |
| cim:EnergyPriceCurve.EnergyTransaction - |
| cim:EnergyPriceIndex - An Energy Price Index for each Resource is valid for a period (e.g. daily) that is identified by a Valid Period Start Time and a Valid Period End Time. An Energy Price Index is in $/MWh. |
| cim:EnergyPriceIndex.endEffectiveDate - End effective date |
| cim:EnergyPriceIndex.energyPriceIndex - Energy price index |
| cim:EnergyPriceIndex.energyPriceIndexType - EPI type such as wholesale or retail |
| cim:EnergyPriceIndex.lastModified - Time updated |
| cim:EnergyPriceIndex.startEffectiveDate - Start effective date |
| cim:EnergyPriceIndexType |
| cim:EnergyProduct - An EnergyProduct is offered commercially as a ContractOrTariff. |
| cim:EnergyProduct.EnergyTransaction - The "Source" for an EnergyTransaction is an EnergyProduct which is injected into a ControlArea. Typically this is a ServicePoint.The "Source" for an EnergyTransaction is an EnergyProduct which is injected into a ControlArea. Typically this is a ServicePoint. |
| cim:EnergyProductType |
| cim:EnergyProfile - Specifies the start time, stop time, level for an EnergyTransaction. |
| cim:EnergySchedulingType - Used to define the type of generation for scheduling purposes. |
| cim:EnergySchedulingType.EnergySource - Energy Source of a particular Energy Scheduling TypeEnergy Scheduling Type of an Energy Source |
| cim:energyServiceConsumer |
| cim:energyServiceScheduler |
| cim:energyServiceSupplier |
| cim:EnergySource - A generic equivalent for an energy supplier on a transmission or distribution voltage level. |
| cim:EnergySource.activePower - High voltage source active injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:EnergySource.EnergySourceAction - Action taken with this energy source.Energy source on which this action is taken. |
| cim:EnergySource.EnergySourcePhase - The individual phase information of the energy source.The energy sourceto which the phase belongs. |
| cim:EnergySource.nominalVoltage - Phase-to-phase nominal voltage. |
| cim:EnergySource.r - Positive sequence Thevenin resistance. |
| cim:EnergySource.r0 - Zero sequence Thevenin resistance. |
| cim:EnergySource.reactivePower - High voltage source reactive injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:EnergySource.rn - Negative sequence Thevenin resistance. |
| cim:EnergySource.voltageAngle - Phase angle of a-phase open circuit. |
| cim:EnergySource.voltageMagnitude - Phase-to-phase open circuit voltage magnitude. |
| cim:EnergySource.WindTurbineType3or4Dynamics - Wind generator Type 3 or 4 dynamics model associated with this energy source.Energy Source (current source) with which this wind Type 3 or 4 dynamics model is asoociated. |
| cim:EnergySource.x - Positive sequence Thevenin reactance. |
| cim:EnergySource.x0 - Zero sequence Thevenin reactance. |
| cim:EnergySource.xn - Negative sequence Thevenin reactance. |
| cim:EnergySourceAction - Action on energy source as a switching step. |
| cim:EnergySourceAction.kind - Switching action to perform. |
| cim:EnergySourceAction.SwitchingStepGroup - Group to which this step belongs.All energy source action steps in this group. |
| cim:EnergySourcePhase - Represents the single phase information of an unbalanced energy source. |
| cim:EnergySourcePhase.phase - Phase of this energy source component. If the energy source wye connected, the connection is from the indicated phase to the central ground or neutral point. If the energy source is delta connected, the phase indicates an energy source connected from the indicated phase to the next logical non-neutral phase. |
| cim:EnergyTransaction - Specifies the schedule for energy transfers between interchange areas that are necessary to satisfy the associated interchange transaction. |
| cim:EnergyTransaction.capacityBacked - Interchange capacity flag. When the flag is set to true, it indicates a transaction is capacity backed. |
| cim:EnergyTransaction.congestChargeMax - Maximum congestion charges in monetary units. |
| cim:EnergyTransaction.CurtailmentProfile - An EnergyTransaction may be curtailed by any of the participating entities.An EnergyTransaction may be curtailed by any of the participating entities. |
| cim:EnergyTransaction.deliveryPointP - Delivery point active power. |
| cim:EnergyTransaction.energyMin - Transaction minimum active power if dispatchable. |
| cim:EnergyTransaction.EnergyProfile - An EnergyTransaction shall have at least one EnergyProfile.An EnergyTransaction shall have at least one EnergyProfile. |
| cim:EnergyTransaction.firmInterchangeFlag - Firm interchange flag indicates whether or not this energy transaction can be changed without potential financial consequences. |
| cim:EnergyTransaction.LossProfile - An EnergyTransaction may have a LossProfile.An EnergyTransaction may have a LossProfile. |
| cim:EnergyTransaction.payCongestion - Willing to Pay congestion flag |
| cim:EnergyTransaction.reason - Reason for energy transaction. |
| cim:EnergyTransaction.receiptPointP - Receipt point active power. |
| cim:EnergyTransaction.state - { Approve | Deny | Study } |
| cim:EnergyTransaction.SubControlArea - Energy is transferred between interchange areasEnergy is transferred between interchange areas |
| cim:EnergyTransaction.TransmissionReservation - |
| cim:EnergyTransactionType |
| cim:EnergyTypeCode |
| cim:enroute |
| cim:EnvironmentalDependentLimit - This is a environmental based limit dependency model for calculating operational limits. |
| cim:epoxy |
| cim:eq |
| cim:Equipment - The parts of a power system that are physical devices, electronic or mechanical. |
| cim:Equipment.aggregate - The single instance of equipment represents multiple pieces of equipment that have been modeled together as an aggregate. Examples would be power transformers or synchronous machines operating in parallel modeled as a single aggregate power transformer or aggregate synchronous machine. This is not to be used to indicate equipment that is part of a group of interdependent equipment produced by a network production program. |
| cim:Equipment.ContingencyEquipment - The contingency equipments in which this equipment participates.The single piece of equipment to which to apply the contingency. |
| cim:Equipment.EquipmentContainer - Container of this equipment.Contained equipment. |
| cim:Equipment.EquipmentLimitSeriesComponent - Equipment limit series calculation component to which this equipment contributes.Equipment contributing toward the series limit. The reference here is to Equipment rather than a specific limit on the equipment so the grouiping can be reused for multiple limits of different types on the same instance of equipment. |
| cim:Equipment.Fault - All faults on this equipment.Equipment carrying this fault. |
| cim:Equipment.inService - If true, the equipment is in service. |
| cim:Equipment.LimitDependency - Limit dependencymodels organized under this equipment as a means for organizing the model in a tree view.The equipment for which this limit dependency model is organized under. |
| cim:Equipment.normallyInService - If true, the equipment is normally in service. |
| cim:Equipment.OperationalLimitSet - The operational limit sets associated with this equipment.The equipment to which the limit set applies. |
| cim:Equipment.OperationalRestriction - All operational restrictions for this equipment.All equipments to which this restriction applies. |
| cim:Equipment.Outage - All outages in which this equipment is involved.All equipments associated with this outage. |
| cim:Equipment.PinEquipment - |
| cim:Equipment.ProtectiveActionEquipment - |
| cim:Equipment.UsagePoint - All usage points connected to the electrical grid through this equipment.All equipment connecting this usage point to the electrical grid. |
| cim:EquipmentContainer - A modeling construct to provide a root class for containing equipment. |
| cim:EquipmentFault - A fault applied at the terminal, external to the equipment. This class is not used to specify faults internal to the equipment. |
| cim:EquipmentLimitSeriesComponent - This represents one instance of an equipment that contributes to the calculation of an operational limit. |
| cim:EquipmentStatusType |
| cim:EquivalentBranch - The class represents equivalent branches. |
| cim:EquivalentBranch.negativeR12 - Negative sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909
EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.negativeR21 - Negative sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909
EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.negativeX12 - Negative sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.negativeX21 - Negative sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909.
Usage: EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.positiveR12 - Positive sequence series resistance from terminal sequence 1 to terminal sequence 2 . Used for short circuit data exchange according to IEC 60909.
EquivalentBranch is a result of network reduction prior to the data exchange. |
| cim:EquivalentBranch.positiveR21 - Positive sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909
EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.positiveX12 - Positive sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.positiveX21 - Positive sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.r - Positive sequence series resistance of the reduced branch. |
| cim:EquivalentBranch.r21 - Resistance from terminal sequence 2 to terminal sequence 1 .Used for steady state power flow. This attribute is optional and represent unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.r is given, then EquivalentBranch.r21 is assumed equal to EquivalentBranch.r.
Usage rule : EquivalentBranch is a result of network reduction prior to the data exchange. |
| cim:EquivalentBranch.x - Positive sequence series reactance of the reduced branch. |
| cim:EquivalentBranch.x21 - Reactance from terminal sequence 2 to terminal sequence 1 .Used for steady state power flow. This attribute is optional and represent unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.x is given, then EquivalentBranch.x21 is assumed equal to EquivalentBranch.x.
Usage rule : EquivalentBranch is a result of network reduction prior to the data exchange. |
| cim:EquivalentBranch.zeroR12 - Zero sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909
EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.zeroR21 - Zero sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.zeroX12 - Zero sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentBranch.zeroX21 - Zero sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909
Usage : EquivalentBranch is a result of network reduction prior to the data exchange |
| cim:EquivalentEquipment - The class represents equivalent objects that are the result of a network reduction. The class is the base for equivalent objects of different types. |
| cim:EquivalentInjection - This class represents equivalent injections (generation or load). Voltage regulation is allowed only at the point of connection. |
| cim:EquivalentInjection.maxP - Maximum active power of the injection. |
| cim:EquivalentInjection.maxQ - Used for modeling of infeed for load flow exchange. Not used for short circuit modeling. If maxQ and minQ are not used ReactiveCapabilityCurve can be used. |
| cim:EquivalentInjection.minP - Minimum active power of the injection. |
| cim:EquivalentInjection.minQ - Used for modeling of infeed for load flow exchange. Not used for short circuit modeling. If maxQ and minQ are not used ReactiveCapabilityCurve can be used. |
| cim:EquivalentInjection.p - Equivalent active power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:EquivalentInjection.q - Equivalent reactive power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:EquivalentInjection.r - Positive sequence resistance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentInjection.r0 - Zero sequence resistance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentInjection.r2 - Negative sequence resistance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentInjection.ReactiveCapabilityCurve - The reactive capability curve used by this equivalent injection.The equivalent injection using this reactive capability curve. |
| cim:EquivalentInjection.regulationCapability - Specifies whether or not the EquivalentInjection has the capability to regulate the local voltage. |
| cim:EquivalentInjection.regulationStatus - Specifies the default regulation status of the EquivalentInjection. True is regulating. False is not regulating. |
| cim:EquivalentInjection.regulationTarget - The target voltage for voltage regulation. |
| cim:EquivalentInjection.x - Positive sequence reactance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentInjection.x0 - Zero sequence reactance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentInjection.x2 - Negative sequence reactance. Used to represent Extended-Ward (IEC 60909).
Usage : Extended-Ward is a result of network reduction prior to the data exchange. |
| cim:EquivalentNetwork - A class that represents an external meshed network that has been reduced to an electrically equivalent model. The ConnectivityNodes contained in the equivalent are intended to reflect internal nodes of the equivalent. The boundary Connectivity nodes where the equivalent connects outside itself are NOT contained by the equivalent. |
| cim:EquivalentNetwork.EquivalentEquipment - The associated reduced equivalents.The equivalent where the reduced model belongs. |
| cim:EquivalentShunt - The class represents equivalent shunts. |
| cim:EquivalentShunt.b - Positive sequence shunt susceptance. |
| cim:EquivalentShunt.g - Positive sequence shunt conductance. |
| cim:ERN |
| cim:ErpAccountKind |
| cim:ErpBankAccount - Relationship under a particular name, usually evidenced by a deposit against which withdrawals can be made. Types of bank accounts include: demand, time, custodial, joint, trustee, corporate, special, and regular accounts.
A statement of transactions during a fiscal period and the resulting balance is maintained on each account.
For Payment metering, the account is associated with Bank and Supplier, reflecting details of the bank account used for depositing revenue collected by TokenVendor. The name of the account holder should be specified in 'name' attribute. |
| cim:ErpBankAccount.bankABA - Bank ABA. |
| cim:ErpBOM - Information that generally describes the Bill of Material Structure and its contents for a utility.
This is used by ERP systems to transfer Bill of Material information between two business applications. |
| cim:ErpBOM.Design - |
| cim:ErpBOM.ErpBomItemData - |
| cim:ErpBomItemData - An individual item on a bill of materials. |
| cim:ErpBomItemData.GenericAssetModel - |
| cim:ErpChartOfAccounts - Accounting structure of a business. Each account represents a financial aspect of a business, such as its Accounts Payable, or the value of its inventory, or its office supply expenses. |
| cim:ErpCompetency - Information that describes aptitudes of a utility employee. Unlike Skills that an ErpPerson must be certified to perform before undertaking certain type of assignments (to be able to perfrom a Craft), ErpCompetency has more to do with typical Human Resource (HR) matters such as schooling, training, etc. |
| cim:ErpCompetency.OldPerson - |
| cim:ErpDocument - Shadow class for Document, to isolate subclassing from this package. If any subclass gets normative and needs inheritance, it will inherit directly from Document. |
| cim:ErpEngChangeOrder - General Utility Engineering Change Order information. |
| cim:ErpIdentifiedObject - Shadow class for IdentifiedObject, to isolate subclassing from this package. If any subclass gets normative and needs inheritance, it will inherit directly from IdentifiedObject. |
| cim:ErpInventory - Utility inventory-related information about an item or part (and not for description of the item and its attributes). It is used by ERP applications to enable the synchronization of Inventory data that exists on separate Item Master databases. This data is not the master data that describes the attributes of the item such as dimensions, weight, or unit of measure - it describes the item as it exists at a specific location. |
| cim:ErpInventory.Asset - |
| cim:ErpInventory.status |
| cim:ErpInventoryCount - This is related to Inventory physical counts organized by AssetModel. Note that a count of a type of asset can be accomplished by the association inherited by AssetModel (from Document) to Asset.
It enables ERP applications to transfer an inventory count between ERP and the actual physical inventory location. This count may be a cycle count or a physical count. |
| cim:ErpInventoryCount.status |
| cim:ErpInvoice - A roll up of invoice line items. The whole invoice has a due date and amount to be paid, with information such as customer, banks etc. being obtained through associations. The invoice roll up is based on individual line items that each contain amounts and descriptions for specific services or products. |
| cim:ErpInvoice.amount - Total amount due on this invoice based on line items and applicable adjustments. |
| cim:ErpInvoice.billMediaKind - Kind of media by which the CustomerBillingInfo was delivered. |
| cim:ErpInvoice.CustomerAccount - |
| cim:ErpInvoice.dueDate - Calculated date upon which the Invoice amount is due. |
| cim:ErpInvoice.ErpInvoiceLineItem - |
| cim:ErpInvoice.kind - Kind of invoice (default is 'sales'). |
| cim:ErpInvoice.mailedDate - Date on which the customer billing statement/invoice was printed/mailed. |
| cim:ErpInvoice.proForma - True if payment is to be paid by a Customer to accept a particular ErpQuote (with associated Design) and have work initiated, at which time an associated ErpInvoice should automatically be generated. EprPayment.subjectStatus satisfies terms specificed in the ErpQuote. |
| cim:ErpInvoice.referenceNumber - Number of an invoice to be reference by this invoice. |
| cim:ErpInvoice.transactionDateTime - Date and time when the invoice is issued. |
| cim:ErpInvoice.transferType - Type of invoice transfer. |
| cim:ErpInvoiceKind |
| cim:ErpInvoiceLineItem - An individual line item on an invoice. |
| cim:ErpInvoiceLineItem.billPeriod - Bill period for the line item. |
| cim:ErpInvoiceLineItem.CustomerBillingInfo - Customer billing for services rendered. |
| cim:ErpInvoiceLineItem.ErpInvoiceLineItem - |
| cim:ErpInvoiceLineItem.ErpQuoteLineItem - Some utilities provide quotes to customer for services, where the customer accepts the quote by making a payment. An invoice is required for this to occur. |
| cim:ErpInvoiceLineItem.ErpRecDelvLineItem - |
| cim:ErpInvoiceLineItem.glAccount - General Ledger account code, must be a valid combination. |
| cim:ErpInvoiceLineItem.glDateTime - Date and time line item will be posted to the General Ledger. |
| cim:ErpInvoiceLineItem.kind - Kind of line item. |
| cim:ErpInvoiceLineItem.lineAmount - Amount due for this line item. |
| cim:ErpInvoiceLineItem.lineNumber - Line item number on invoice statement. |
| cim:ErpInvoiceLineItem.lineVersion - Version number of the bill run. |
| cim:ErpInvoiceLineItem.netAmount - Net line item charge amount. |
| cim:ErpInvoiceLineItem.previousAmount - Previous line item charge amount. |
| cim:ErpInvoiceLineItem.WorkBillingInfo - |
| cim:ErpInvoiceLineItemKind |
| cim:ErpIssueInventory - Can be used to request an application to process an issue or request information about an issue. |
| cim:ErpIssueInventory.status |
| cim:ErpItemMaster - Any unique purchased part for manufactured product tracked by ERP systems for a utility.
Item, as used by the OAG, refers to the basic information about an item, including its attributes, cost, and locations. It does not include item quantities. Compare to the Inventory, which includes all quantities and other location-specific information. |
| cim:ErpItemMaster.status |
| cim:ErpJournal - Book for recording accounting transactions as they occur. Transactions and adjustments are first recorded in a journal, which is like a diary of instructions, advising which account to be charged and by how much.
A journal represents a change in the balances of a business's financial accounts. Many tasks or transactions throughout an enterprise will result in the creation of a journal. Some examples are creating a customer invoice, paying a vendor, transferring inventory, or paying employees. |
| cim:ErpJournalEntry - Details of an individual entry in a journal, which is to be posted to a ledger on the posting date. |
| cim:ErpJournalEntry.accountID - Account identifier for this entry. |
| cim:ErpJournalEntry.amount - The amount of the debit or credit for this account. |
| cim:ErpJournalEntry.CostType - |
| cim:ErpJournalEntry.ErpInvoiceLineItem - |
| cim:ErpJournalEntry.ErpJournal - |
| cim:ErpJournalEntry.ErpLedgerEntry - |
| cim:ErpJournalEntry.ErpPayableLineItem - |
| cim:ErpJournalEntry.ErpRecLineItem - |
| cim:ErpJournalEntry.postingDateTime - Date and time this entry is to be posted to the ledger. |
| cim:ErpJournalEntry.sourceID - The identifer of the source for this entry. |
| cim:ErpJournalEntry.status |
| cim:ErpJournalEntry.transactionDateTime - Date and time journal entry was recorded. |
| cim:ErpLedBudLineItem - Individual entry of a given Ledger Budget, typically containing information such as amount, accounting date, accounting period, and is associated with the applicable general ledger account. |
| cim:ErpLedBudLineItem.ErpLedgerEntry - |
| cim:ErpLedBudLineItem.status |
| cim:ErpLedger - In accounting transactions, a ledger is a book containing accounts to which debits and credits are posted from journals, where transactions are initially recorded. Journal entries are periodically posted to the ledger. Ledger Actual represents actual amounts by account within ledger within company or business area. Actual amounts may be generated in a source application and then loaded to a specific ledger within the enterprise general ledger or budget application. |
| cim:ErpLedgerBudget - Information for utility Ledger Budgets. They support the transfer budget amounts between all possible source applications throughout an enterprise and a general ledger or budget application. |
| cim:ErpLedgerBudget.ErpLedBudLineItem - |
| cim:ErpLedgerEntry - Details of an individual entry in a ledger, which was posted from a journal on the posted date. |
| cim:ErpLedgerEntry.accountID - Account identifier for this entry. |
| cim:ErpLedgerEntry.accountKind - Kind of account for this entry. |
| cim:ErpLedgerEntry.amount - The amount of the debit or credit for this account. |
| cim:ErpLedgerEntry.ErpLedger - |
| cim:ErpLedgerEntry.postedDateTime - Date and time this entry was posted to the ledger. |
| cim:ErpLedgerEntry.status |
| cim:ErpLedgerEntry.transactionDateTime - Date and time journal entry was recorded. |
| cim:ErpPayable - A transaction that represents an invoice from a supplier. A payable (or voucher) is an open item, approved and ready for payment, in the Accounts Payable ledger. |
| cim:ErpPayable.ContractorItem - |
| cim:ErpPayable.ErpPayableLineItem - |
| cim:ErpPayableLineItem - Of an ErpPayable, a line item references an ErpInvoiceLineitem or other source such as credit memos. |
| cim:ErpPayableLineItem.ErpInvoiceLineItem - |
| cim:ErpPayableLineItem.status |
| cim:ErpPayment - Payment infromation and status for any individual line item of an ErpInvoice (e.g., when payment is from a customer). ErpPayable is also updated when payment is to a supplier and ErpReceivable is updated when payment is from a customer. Multiple payments can be made against a single line item and an individual payment can apply to more that one line item. |
| cim:ErpPayment.ErpInvoiceLineItem - |
| cim:ErpPayment.ErpPayableLineItem - |
| cim:ErpPayment.ErpRecLineItem - |
| cim:ErpPayment.termsPayment - Payment terms (e.g., net 30). |
| cim:ErpPersonnel - Information that applies to the basic data about a utility person, used by ERP applications to transfer Personnel data for a worker. |
| cim:ErpPersonnel.OldPerson - |
| cim:ErpPersonnel.status |
| cim:ErpPOLineItem - Of an ErpPurchaseOrder, this is an individually ordered item or product along with the quantity, price and other descriptive information. |
| cim:ErpPOLineItem.AssetModelCatalogueItem - |
| cim:ErpPOLineItem.ErpRecDelvLineItem - |
| cim:ErpPOLineItem.ErpReqLineItem - |
| cim:ErpProjectAccounting - Utility Project Accounting information, used by ERP applications to enable all relevant sub-systems that submit single sided transactions to transfer information with a Project Accounting Application. This would include, but not necessarily be limited to: Accounts Payable, Accounts Receivable, Budget, Order Management, Purchasing, Time and Labor, Travel and Expense. |
| cim:ErpProjectAccounting.ErpTimeEntry - |
| cim:ErpProjectAccounting.Work - |
| cim:ErpProjectAccounting.WorkCostDetail - |
| cim:ErpPurchaseOrder - A document that communicates an order to purchase goods from a buyer to a supplier. The PurchaseOrder carries information to and from the buyer and supplier. It is a legally binding document once both Parties agree to the contents and the specified terms and conditions of the order. |
| cim:ErpPurchaseOrder.ErpPOLineItem - |
| cim:ErpQuote - Document describing the prices of goods or services provided by a supplier. It includes the terms of the purchase, delivery proposals, identification of goods or services ordered, as well as their quantities. |
| cim:ErpQuote.ErpQuoteLineItem - |
| cim:ErpQuoteLineItem - Of an ErpQuote, the item or product quoted along with quantity, price and other descriptive information. |
| cim:ErpQuoteLineItem.AssetModelCatalogueItem - |
| cim:ErpQuoteLineItem.status |
| cim:ErpRecDelvLineItem - Of an ErpReceiveDelivery, this is an individually received good or service by the Organisation receiving goods or services. It may be used to indicate receipt of goods in conjunction with a purchase order line item. |
| cim:ErpRecDelvLineItem.Asset - |
| cim:ErpRecDelvLineItem.status |
| cim:ErpReceivable - Transaction representing an invoice, credit memo or debit memo to a customer. It is an open (unpaid) item in the Accounts Receivable ledger. |
| cim:ErpReceivable.ErpRecLineItem - |
| cim:ErpReceiveDelivery - Transaction for an Organisation receiving goods or services that may be used to indicate receipt of goods in conjunction with a purchase order. A receivable is an open (unpaid) item in the Accounts Receivable ledger. |
| cim:ErpReceiveDelivery.ErpRecDelvLineItem - |
| cim:ErpRecLineItem - Individual entry of an ErpReceivable, it is a particular transaction representing an invoice, credit memo or debit memo to a customer. |
| cim:ErpRecLineItem.ErpInvoiceLineItem - |
| cim:ErpRecLineItem.status |
| cim:ErpReqLineItem - Information that describes a requested item and its attributes. |
| cim:ErpReqLineItem.code |
| cim:ErpReqLineItem.cost - Cost of material. |
| cim:ErpReqLineItem.deliveryDate |
| cim:ErpReqLineItem.ErpQuoteLineItem - |
| cim:ErpReqLineItem.GenericAssetModel - |
| cim:ErpReqLineItem.quantity - Quantity of item requisitioned. |
| cim:ErpReqLineItem.status |
| cim:ErpReqLineItem.TypeMaterial - |
| cim:ErpRequisition - General information that applies to a utility requisition that is a request for the purchase of goods or services. Typically, a requisition leads to the creation of a purchase order to a specific supplier. |
| cim:ErpRequisition.ErpReqLineItem - |
| cim:ErpSalesOrder - General purpose Sales Order is used for utility service orders, etc.
As used by the OAG, the SalesOrder is a step beyond a PurchaseOrder in that the receiving entity of the order also communicates SalesInformoration about the Order along with the Order itself. |
| cim:ErpSiteLevelData - For a utility, general information that describes physical locations of organizations or the location codes and their meanings. This enables ERP applications to ensure that the physical location identifiers are synchronized between the business applications. |
| cim:ErpSiteLevelData.LandProperty - |
| cim:ErpSiteLevelData.status |
| cim:ErpTimeEntry - An individual entry on an ErpTimeSheet. |
| cim:ErpTimeEntry.ErpTimeSheet - |
| cim:ErpTimeEntry.status |
| cim:ErpTimeSheet - Time sheet for employees and contractors. Note that ErpTimeSheet inherits the relationship to ErpPerson from Document. |
| cim:escoThrowOver |
| cim:ESRT |
| cim:estimate |
| cim:estimated |
| cim:ESYS |
| cim:ETB |
| cim:ETC |
| cim:ethernet |
| cim:ethylenePropyleneRubber |
| cim:etrChange |
| cim:EUR |
| cim:ExcAC1A - Modified IEEE AC1A alternator-supplied rectifier excitation system with different rate feedback source. |
| cim:ExcAC1A.hvlvgates - Indicates if both HV gate and LV gate are active (HVLVgates).
true = gates are used
false = gates are not used.
Typical Value = true. |
| cim:ExcAC1A.ka - Voltage regulator gain (Ka). Typical Value = 400. |
| cim:ExcAC1A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.2. |
| cim:ExcAC1A.kd - Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.38. |
| cim:ExcAC1A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcAC1A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0.03. |
| cim:ExcAC1A.kf1 - Coefficient to allow different usage of the model (Kf1). Typical Value = 0. |
| cim:ExcAC1A.kf2 - Coefficient to allow different usage of the model (Kf2). Typical Value = 1. |
| cim:ExcAC1A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC1A.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.1. |
| cim:ExcAC1A.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.03. |
| cim:ExcAC1A.ta - Voltage regulator time constant (Ta). Typical Value = 0.02. |
| cim:ExcAC1A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcAC1A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcAC1A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.8. |
| cim:ExcAC1A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcAC1A.vamax - Maximum voltage regulator output (Vamax). Typical Value = 14.5. |
| cim:ExcAC1A.vamin - Minimum voltage regulator output (Vamin). Typical Value = -14.5. |
| cim:ExcAC1A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 4.18. |
| cim:ExcAC1A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 3.14. |
| cim:ExcAC1A.vrmax - Maximum voltage regulator outputs (Vrmax). Typical Value = 6.03. |
| cim:ExcAC1A.vrmin - Minimum voltage regulator outputs (Rrmin). Typical Value = -5.43. |
| cim:ExcAC2A - Modified IEEE AC2A alternator-supplied rectifier excitation system with different field current limit. |
| cim:ExcAC2A.hvgate - Indicates if HV gate is active (HVgate).
true = gate is used
false = gate is not used.
Typical Value = true. |
| cim:ExcAC2A.ka - Voltage regulator gain (Ka). Typical Value = 400. |
| cim:ExcAC2A.kb - Second stage regulator gain (Kb) (>0). Exciter field current controller gain. Typical Value = 25. |
| cim:ExcAC2A.kb1 - Second stage regulator gain (Kb1). It is exciter field current controller gain used as alternative to Kb to represent a variant of the ExcAC2A model. Typical Value = 25. |
| cim:ExcAC2A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.28. |
| cim:ExcAC2A.kd - Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.35. |
| cim:ExcAC2A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcAC2A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0.03. |
| cim:ExcAC2A.kh - Exciter field current feedback gain (Kh). Typical Value = 1. |
| cim:ExcAC2A.kl - Exciter field current limiter gain (Kl). Typical Value = 10. |
| cim:ExcAC2A.kl1 - Coefficient to allow different usage of the model (Kl1). Typical Value = 1. |
| cim:ExcAC2A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC2A.lvgate - Indicates if LV gate is active (LVgate).
true = gate is used
false = gate is not used.
Typical Value = true. |
| cim:ExcAC2A.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.037. |
| cim:ExcAC2A.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.012. |
| cim:ExcAC2A.ta - Voltage regulator time constant (Ta). Typical Value = 0.02. |
| cim:ExcAC2A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcAC2A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcAC2A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.6. |
| cim:ExcAC2A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcAC2A.vamax - Maximum voltage regulator output (Vamax). Typical Value = 8. |
| cim:ExcAC2A.vamin - Minimum voltage regulator output (Vamin). Typical Value = -8. |
| cim:ExcAC2A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 4.4. |
| cim:ExcAC2A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 3.3. |
| cim:ExcAC2A.vfemax - Exciter field current limit reference (Vfemax). Typical Value = 4.4. |
| cim:ExcAC2A.vlr - Maximum exciter field current (Vlr). Typical Value = 4.4. |
| cim:ExcAC2A.vrmax - Maximum voltage regulator outputs (Vrmax). Typical Value = 105. |
| cim:ExcAC2A.vrmin - Minimum voltage regulator outputs (Vrmin). Typical Value = -95. |
| cim:ExcAC3A - Modified IEEE AC3A alternator-supplied rectifier excitation system with different field current limit. |
| cim:ExcAC3A.efdn - Value of EFD at which feedback gain changes (Efdn). Typical Value = 2.36. |
| cim:ExcAC3A.ka - Voltage regulator gain (Ka). Typical Value = 45.62. |
| cim:ExcAC3A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.104. |
| cim:ExcAC3A.kd - Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.499. |
| cim:ExcAC3A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcAC3A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0.143. |
| cim:ExcAC3A.kf1 - Coefficient to allow different usage of the model (Kf1). Typical Value = 1. |
| cim:ExcAC3A.kf2 - Coefficient to allow different usage of the model (Kf2). Typical Value = 0. |
| cim:ExcAC3A.klv - Gain used in the minimum field voltage limiter loop (Klv). Typical Value = 0.194. |
| cim:ExcAC3A.kn - Excitation control system stabilizer gain (Kn). Typical Value =0.05. |
| cim:ExcAC3A.kr - Constant associated with regulator and alternator field power supply (Kr). Typical Value =3.77. |
| cim:ExcAC3A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC3A.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 1.143. |
| cim:ExcAC3A.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.1. |
| cim:ExcAC3A.ta - Voltage regulator time constant (Ta). Typical Value = 0.013. |
| cim:ExcAC3A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcAC3A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcAC3A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.17. |
| cim:ExcAC3A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcAC3A.vamax - Maximum voltage regulator output (Vamax). Typical Value = 1. |
| cim:ExcAC3A.vamin - Minimum voltage regulator output (Vamin). Typical Value = -0.95. |
| cim:ExcAC3A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1) equals Vemax (Ve1). Typical Value = 6.24. |
| cim:ExcAC3A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 4.68. |
| cim:ExcAC3A.vemin - Minimum exciter voltage output (Vemin). Typical Value = 0.1. |
| cim:ExcAC3A.vfemax - Exciter field current limit reference (Vfemax). Typical Value = 16. |
| cim:ExcAC3A.vlv - Field voltage used in the minimum field voltage limiter loop (Vlv). Typical Value = 0.79. |
| cim:ExcAC4A - Modified IEEE AC4A alternator-supplied rectifier excitation system with different minimum controller output. |
| cim:ExcAC4A.ka - Voltage regulator gain (Ka). Typical Value = 200. |
| cim:ExcAC4A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0. |
| cim:ExcAC4A.ta - Voltage regulator time constant (Ta). Typical Value = 0.015. |
| cim:ExcAC4A.tb - Voltage regulator time constant (Tb). Typical Value = 10. |
| cim:ExcAC4A.tc - Voltage regulator time constant (Tc). Typical Value = 1. |
| cim:ExcAC4A.vimax - Maximum voltage regulator input limit (Vimax). Typical Value = 10. |
| cim:ExcAC4A.vimin - Minimum voltage regulator input limit (Vimin). Typical Value = -10. |
| cim:ExcAC4A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 5.64. |
| cim:ExcAC4A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -4.53. |
| cim:ExcAC5A - Modified IEEE AC5A alternator-supplied rectifier excitation system with different minimum controller output. |
| cim:ExcAC5A.a - Coefficient to allow different usage of the model (a). Typical Value = 1. |
| cim:ExcAC5A.efd1 - Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 5.6. |
| cim:ExcAC5A.efd2 - Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 4.2. |
| cim:ExcAC5A.ka - Voltage regulator gain (Ka). Typical Value = 400. |
| cim:ExcAC5A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcAC5A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0.03. |
| cim:ExcAC5A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC5A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, Efd1 (SE[Efd1]). Typical Value = 0.86. |
| cim:ExcAC5A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, Efd2 (SE[Efd2]). Typical Value = 0.5. |
| cim:ExcAC5A.ta - Voltage regulator time constant (Ta). Typical Value = 0.02. |
| cim:ExcAC5A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcAC5A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcAC5A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.8. |
| cim:ExcAC5A.tf1 - Excitation control system stabilizer time constant (Tf1). Typical Value = 1. |
| cim:ExcAC5A.tf2 - Excitation control system stabilizer time constant (Tf2). Typical Value = 0.8. |
| cim:ExcAC5A.tf3 - Excitation control system stabilizer time constant (Tf3). Typical Value = 0. |
| cim:ExcAC5A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 7.3. |
| cim:ExcAC5A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value =-7.3. |
| cim:ExcAC6A - Modified IEEE AC6A alternator-supplied rectifier excitation system with speed input. |
| cim:ExcAC6A.ka - Voltage regulator gain (Ka). Typical Value = 536. |
| cim:ExcAC6A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.173. |
| cim:ExcAC6A.kd - Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 1.91. |
| cim:ExcAC6A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1.6. |
| cim:ExcAC6A.kh - Exciter field current limiter gain (Kh). Typical Value = 92. |
| cim:ExcAC6A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC6A.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.214. |
| cim:ExcAC6A.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.044. |
| cim:ExcAC6A.ta - Voltage regulator time constant (Ta). Typical Value = 0.086. |
| cim:ExcAC6A.tb - Voltage regulator time constant (Tb). Typical Value = 9. |
| cim:ExcAC6A.tc - Voltage regulator time constant (Tc). Typical Value = 3. |
| cim:ExcAC6A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1. |
| cim:ExcAC6A.th - Exciter field current limiter time constant (Th). Typical Value = 0.08. |
| cim:ExcAC6A.tj - Exciter field current limiter time constant (Tj). Typical Value = 0.02. |
| cim:ExcAC6A.tk - Voltage regulator time constant (Tk). Typical Value = 0.18. |
| cim:ExcAC6A.vamax - Maximum voltage regulator output (Vamax). Typical Value = 75. |
| cim:ExcAC6A.vamin - Minimum voltage regulator output (Vamin). Typical Value = -75. |
| cim:ExcAC6A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 7.4. |
| cim:ExcAC6A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 5.55. |
| cim:ExcAC6A.vfelim - Exciter field current limit reference (Vfelim). Typical Value = 19. |
| cim:ExcAC6A.vhmax - Maximum field current limiter signal reference (Vhmax). Typical Value = 75. |
| cim:ExcAC6A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 44. |
| cim:ExcAC6A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -36. |
| cim:ExcAC8B - Modified IEEE AC8B alternator-supplied rectifier excitation system with speed input and input limiter. |
| cim:ExcAC8B.inlim - Input limiter indicator.
true = input limiter Vimax and Vimin is considered
false = input limiter Vimax and Vimin is not considered.
Typical Value = true. |
| cim:ExcAC8B.ka - Voltage regulator gain (Ka). Typical Value = 1. |
| cim:ExcAC8B.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.55. |
| cim:ExcAC8B.kd - Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 1.1. |
| cim:ExcAC8B.kdr - Voltage regulator derivative gain (Kdr). Typical Value = 10. |
| cim:ExcAC8B.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcAC8B.kir - Voltage regulator integral gain (Kir). Typical Value = 5. |
| cim:ExcAC8B.kpr - Voltage regulator proportional gain (Kpr). Typical Value = 80. |
| cim:ExcAC8B.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcAC8B.pidlim - PID limiter indicator.
true = input limiter Vpidmax and Vpidmin is considered
false = input limiter Vpidmax and Vpidmin is not considered.
Typical Value = true. |
| cim:ExcAC8B.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.3. |
| cim:ExcAC8B.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 3. |
| cim:ExcAC8B.ta - Voltage regulator time constant (Ta). Typical Value = 0. |
| cim:ExcAC8B.tdr - Lag time constant (Tdr). Typical Value = 0.1. |
| cim:ExcAC8B.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.2. |
| cim:ExcAC8B.telim - Selector for the limiter on the block [1/sTe].
See diagram for meaning of true and false.
Typical Value = false. |
| cim:ExcAC8B.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1) equals VEMAX (Ve1). Typical Value = 6.5. |
| cim:ExcAC8B.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 9. |
| cim:ExcAC8B.vemin - Minimum exciter voltage output (Vemin). Typical Value = 0. |
| cim:ExcAC8B.vfemax - Exciter field current limit reference (Vfemax). Typical Value = 6. |
| cim:ExcAC8B.vimax - Input signal maximum (Vimax). Typical Value = 35. |
| cim:ExcAC8B.vimin - Input signal minimum (Vimin). Typical Value = -10. |
| cim:ExcAC8B.vpidmax - PID maximum controller output (Vpidmax). Typical Value = 35. |
| cim:ExcAC8B.vpidmin - PID minimum controller output (Vpidmin). Typical Value = -10. |
| cim:ExcAC8B.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 35. |
| cim:ExcAC8B.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = 0. |
| cim:ExcAC8B.vtmult - Multiply by generator's terminal voltage indicator.
true =the limits Vrmax and Vrmin are multiplied by the generators terminal voltage to represent a thyristor power stage fed from the generator terminals
false = limits are not multiplied by generator's terminal voltage.
Typical Value = false. |
| cim:ExcANS - Italian excitation system. It represents static field voltage or excitation current feedback excitation system. |
| cim:ExcANS.blint - Governor Control Flag (BLINT).
0 = lead-lag regulator
1 = proportional integral regulator.
Typical Value = 0. |
| cim:ExcANS.ifmn - Minimum exciter current (IFMN). Typical Value = -5.2. |
| cim:ExcANS.ifmx - Maximum exciter current (IFMX). Typical Value = 6.5. |
| cim:ExcANS.k2 - Exciter gain (K2). Typical Value = 20. |
| cim:ExcANS.k3 - AVR gain (K3). Typical Value = 1000. |
| cim:ExcANS.kce - Ceiling factor (KCE). Typical Value = 1. |
| cim:ExcANS.krvecc - Feedback enabling (KRVECC).
0 = Open loop control
1 = Closed loop control.
Typical Value = 1. |
| cim:ExcANS.kvfif - Rate feedback signal flag (KVFIF).
0 = output voltage of the exciter
1 = exciter field current.
Typical Value = 0. |
| cim:ExcANS.t1 - Time constant (T1). Typical Value = 20. |
| cim:ExcANS.t2 - Time constant (T2). Typical Value = 0.05. |
| cim:ExcANS.t3 - Time constant (T3). Typical Value = 1.6. |
| cim:ExcANS.tb - Exciter time constant (TB). Typical Value = 0.04. |
| cim:ExcANS.vrmn - Maximum AVR output (VRMN). Typical Value = -5.2. |
| cim:ExcANS.vrmx - Minimum AVR output (VRMX). Typical Value = 6.5. |
| cim:ExcAVR1 - Italian excitation system corresponding to IEEE (1968) Type 1 Model. It represents exciter dynamo and electromechanical regulator. |
| cim:ExcAVR1.e1 - Field voltage value 1 (E1). Typical Value = 4.18. |
| cim:ExcAVR1.e2 - Field voltage value 2 (E2). Typical Value = 3.14. |
| cim:ExcAVR1.ka - AVR gain (KA). Typical Value = 500. |
| cim:ExcAVR1.kf - Rate feedback gain (KF). Typical Value = 0.02. |
| cim:ExcAVR1.se1 - Saturation factor at E1 (S(E1)). Typical Value = 0.1. |
| cim:ExcAVR1.se2 - Saturation factor at E2 (S(E2)). Typical Value = 0.03. |
| cim:ExcAVR1.ta - AVR time constant (TA). Typical Value = 0.2. |
| cim:ExcAVR1.tb - AVR time constant (TB). Typical Value = 0. |
| cim:ExcAVR1.te - Exciter time constant (TE). Typical Value = 1. |
| cim:ExcAVR1.tf - Rate feedback time constant (TF). Typical Value = 1. |
| cim:ExcAVR1.vrmn - Maximum AVR output (VRMN). Typical Value = -6. |
| cim:ExcAVR1.vrmx - Minimum AVR output (VRMX). Typical Value = 7. |
| cim:ExcAVR2 - Italian excitation system corresponding to IEEE (1968) Type 2 Model. It represents alternator and rotating diodes and electromechanic voltage regulators. |
| cim:ExcAVR2.e1 - Field voltage value 1 (E1). Typical Value = 4.18. |
| cim:ExcAVR2.e2 - Field voltage value 2 (E2). Typical Value = 3.14. |
| cim:ExcAVR2.ka - AVR gain (KA). Typical Value = 500. |
| cim:ExcAVR2.kf - Rate feedback gain (KF). Typical Value = 0.02. |
| cim:ExcAVR2.se1 - Saturation factor at E1 (S(E1)). Typical Value = 0.1. |
| cim:ExcAVR2.se2 - Saturation factor at E2 (S(E2)). Typical Value = 0.03. |
| cim:ExcAVR2.ta - AVR time constant (TA). Typical Value = 0.02. |
| cim:ExcAVR2.tb - AVR time constant (TB). Typical Value = 0. |
| cim:ExcAVR2.te - Exciter time constant (TE). Typical Value = 1. |
| cim:ExcAVR2.tf1 - Rate feedback time constant (TF1). Typical Value = 1. |
| cim:ExcAVR2.tf2 - Rate feedback time constant (TF2). Typical Value = 1. |
| cim:ExcAVR2.vrmn - Maximum AVR output (VRMN). Typical Value = -6. |
| cim:ExcAVR2.vrmx - Minimum AVR output (VRMX). Typical Value = 7. |
| cim:ExcAVR3 - Italian excitation system. It represents exciter dynamo and electric regulator. |
| cim:ExcAVR3.e1 - Field voltage value 1 (E1). Typical Value = 4.18. |
| cim:ExcAVR3.e2 - Field voltage value 2 (E2). Typical Value = 3.14. |
| cim:ExcAVR3.ka - AVR gain (KA). Typical Value = 3000. |
| cim:ExcAVR3.se1 - Saturation factor at E1 (S(E1)). Typical Value = 0.1. |
| cim:ExcAVR3.se2 - Saturation factor at E2 (S(E2)). Typical Value = 0.03. |
| cim:ExcAVR3.t1 - AVR time constant (T1). Typical Value = 220. |
| cim:ExcAVR3.t2 - AVR time constant (T2). Typical Value = 1.6. |
| cim:ExcAVR3.t3 - AVR time constant (T3). Typical Value = 0.66. |
| cim:ExcAVR3.t4 - AVR time constant (T4). Typical Value = 0.07. |
| cim:ExcAVR3.te - Exciter time constant (TE). Typical Value = 1. |
| cim:ExcAVR3.vrmn - Maximum AVR output (VRMN). Typical Value = -7.5. |
| cim:ExcAVR3.vrmx - Minimum AVR output (VRMX). Typical Value = 7.5. |
| cim:ExcAVR4 - Italian excitation system. It represents static exciter and electric voltage regulator. |
| cim:ExcAVR4.imul - AVR output voltage dependency selector (Imul).
true = selector is connected
false = selector is not connected.
Typical Value = true. |
| cim:ExcAVR4.ka - AVR gain (KA). Typical Value = 300. |
| cim:ExcAVR4.ke - Exciter gain (KE). Typical Value = 1. |
| cim:ExcAVR4.kif - Exciter internal reactance (KIF). Typical Value = 0. |
| cim:ExcAVR4.t1 - AVR time constant (T1). Typical Value = 4.8. |
| cim:ExcAVR4.t1if - Exciter current feedback time constant (T1IF). Typical Value = 60. |
| cim:ExcAVR4.t2 - AVR time constant (T2). Typical Value = 1.5. |
| cim:ExcAVR4.t3 - AVR time constant (T3). Typical Value = 0. |
| cim:ExcAVR4.t4 - AVR time constant (T4). Typical Value = 0. |
| cim:ExcAVR4.tif - Exciter current feedback time constant (TIF). Typical Value = 0. |
| cim:ExcAVR4.vfmn - Minimum exciter output (VFMN). Typical Value = 0. |
| cim:ExcAVR4.vfmx - Maximum exciter output (VFMX). Typical Value = 5. |
| cim:ExcAVR4.vrmn - Maximum AVR output (VRMN). Typical Value = 0. |
| cim:ExcAVR4.vrmx - Minimum AVR output (VRMX). Typical Value = 5. |
| cim:ExcAVR5 - Manual excitation control with field circuit resistance. This model can be used as a very simple representation of manual voltage control. |
| cim:ExcAVR5.ka - Gain (Ka). |
| cim:ExcAVR5.rex - Effective Output Resistance (Rex). Rex represents the effective output resistance seen by the excitation system. |
| cim:ExcAVR5.ta - Time constant (Ta). |
| cim:ExcAVR7 - IVO excitation system. |
| cim:ExcAVR7.a1 - Lead coefficient (A1). Typical Value = 0.5. |
| cim:ExcAVR7.a2 - Lag coefficient (A2). Typical Value = 0.5. |
| cim:ExcAVR7.a3 - Lead coefficient (A3). Typical Value = 0.5. |
| cim:ExcAVR7.a4 - Lag coefficient (A4). Typical Value = 0.5. |
| cim:ExcAVR7.a5 - Lead coefficient (A5). Typical Value = 0.5. |
| cim:ExcAVR7.a6 - Lag coefficient (A6). Typical Value = 0.5. |
| cim:ExcAVR7.k1 - Gain (K1). Typical Value = 1. |
| cim:ExcAVR7.k3 - Gain (K3). Typical Value = 3. |
| cim:ExcAVR7.k5 - Gain (K5). Typical Value = 1. |
| cim:ExcAVR7.t1 - Lead time constant (T1). Typical Value = 0.05. |
| cim:ExcAVR7.t2 - Lag time constant (T2). Typical Value = 0.1. |
| cim:ExcAVR7.t3 - Lead time constant (T3). Typical Value = 0.1. |
| cim:ExcAVR7.t4 - Lag time constant (T4). Typical Value = 0.1. |
| cim:ExcAVR7.t5 - Lead time constant (T5). Typical Value = 0.1. |
| cim:ExcAVR7.t6 - Lag time constant (T6). Typical Value = 0.1. |
| cim:ExcAVR7.vmax1 - Lead-lag max. limit (Vmax1). Typical Value = 5. |
| cim:ExcAVR7.vmax3 - Lead-lag max. limit (Vmax3). Typical Value = 5. |
| cim:ExcAVR7.vmax5 - Lead-lag max. limit (Vmax5). Typical Value = 5. |
| cim:ExcAVR7.vmin1 - Lead-lag min. limit (Vmin1). Typical Value = -5. |
| cim:ExcAVR7.vmin3 - Lead-lag min. limit (Vmin3). Typical Value = -5. |
| cim:ExcAVR7.vmin5 - Lead-lag min. limit (Vmin5). Typical Value = -2. |
| cim:ExcBBC - Transformer fed static excitation system (static with ABB regulator). This model represents a static excitation system in which a gated thyristor bridge fed by a transformer at the main generator terminals feeds the main generator directly. |
| cim:ExcBBC.efdmax - Maximum open circuit exciter voltage (Efdmax). Typical Value = 5. |
| cim:ExcBBC.efdmin - Minimum open circuit exciter voltage (Efdmin). Typical Value = -5. |
| cim:ExcBBC.k - Steady state gain (K). Typical Value = 300. |
| cim:ExcBBC.switch - Supplementary signal routing selector (switch).
true = Vs connected to 3rd summing point
false = Vs connected to 1st summing point (see diagram).
Typical Value = true. |
| cim:ExcBBC.t1 - Controller time constant (T1). Typical Value = 6. |
| cim:ExcBBC.t2 - Controller time constant (T2). Typical Value = 1. |
| cim:ExcBBC.t3 - Lead/lag time constant (T3). Typical Value = 0.05. |
| cim:ExcBBC.t4 - Lead/lag time constant (T4). Typical Value = 0.01. |
| cim:ExcBBC.vrmax - Maximum control element output (Vrmax). Typical Value = 5. |
| cim:ExcBBC.vrmin - Minimum control element output (Vrmin). Typical Value = -5. |
| cim:ExcBBC.xe - Effective excitation transformer reactance (Xe). Typical Value = 0.05. |
| cim:ExcCZ - Czech Proportion/Integral Exciter. |
| cim:ExcCZ.efdmax - Exciter output maximum limit (Efdmax). |
| cim:ExcCZ.efdmin - Exciter output minimum limit (Efdmin). |
| cim:ExcCZ.ka - Regulator gain (Ka). |
| cim:ExcCZ.ke - Exciter constant related to self-excited field (Ke). |
| cim:ExcCZ.kp - Regulator proportional gain (Kp). |
| cim:ExcCZ.ta - Regulator time constant (Ta). |
| cim:ExcCZ.tc - Regulator integral time constant (Tc). |
| cim:ExcCZ.te - Exciter time constant, integration rate associated with exciter control (Te). |
| cim:ExcCZ.vrmax - Voltage regulator maximum limit (Vrmax). |
| cim:ExcCZ.vrmin - Voltage regulator minimum limit (Vrmin). |
| cim:ExcDC1A - Modified IEEE DC1A direct current commutator exciter with speed input and without underexcitation limiters (UEL) inputs. |
| cim:ExcDC1A.edfmax - Maximum voltage exciter output limiter (Efdmax). Typical Value = 99. |
| cim:ExcDC1A.efd1 - Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 3.1. |
| cim:ExcDC1A.efd2 - Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 2.3. |
| cim:ExcDC1A.efdmin - Minimum voltage exciter output limiter (Efdmin). Typical Value = -99. |
| cim:ExcDC1A.exclim - (exclim).
IEEE standard is ambiguous about lower limit on exciter output.
true = a lower limit of zero is applied to integrator output
false = a lower limit of zero is not applied to integrator output.
Typical Value = true. |
| cim:ExcDC1A.ka - Voltage regulator gain (Ka). Typical Value = 46. |
| cim:ExcDC1A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 0. |
| cim:ExcDC1A.kf - Excitation control system stabilizer gain (Kf). Typical Value = 0.1. |
| cim:ExcDC1A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcDC1A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.33. |
| cim:ExcDC1A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.33. |
| cim:ExcDC1A.ta - Voltage regulator time constant (Ta). Typical Value = 0.06. |
| cim:ExcDC1A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcDC1A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcDC1A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.46. |
| cim:ExcDC1A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcDC1A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 1. |
| cim:ExcDC1A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -0.9. |
| cim:ExcDC2A - Modified IEEE DC2A direct current commutator exciters with speed input, one more leg block in feedback loop and without underexcitation limiters (UEL) inputs. DC type 2 excitation system model with added speed multiplier, added lead-lag, and voltage-dependent limits. |
| cim:ExcDC2A.efd1 - Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 3.05. |
| cim:ExcDC2A.efd2 - Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 2.29. |
| cim:ExcDC2A.exclim - (exclim). IEEE standard is ambiguous about lower limit on exciter output.
true = a lower limit of zero is applied to integrator output
false = a lower limit of zero is not applied to integrator output.
Typical Value = true. |
| cim:ExcDC2A.ka - Voltage regulator gain (Ka). Typical Value = 300. |
| cim:ExcDC2A.ke - Exciter constant related to self-excited field (Ke). If Ke is entered as zero, the model calculates an effective value of Ke such that the initial condition value of Vr is zero. The zero value of Ke is not changed. If Ke is entered as non-zero, its value is used directly, without change. Typical Value = 1. |
| cim:ExcDC2A.kf - Excitation control system stabilizer gain (Kf). Typical Value = 0.1. |
| cim:ExcDC2A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcDC2A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.279. |
| cim:ExcDC2A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, Efd2 (Se[Efd2]). Typical Value = 0.117. |
| cim:ExcDC2A.ta - Voltage regulator time constant (Ta). Typical Value = 0.01. |
| cim:ExcDC2A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcDC2A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcDC2A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.33. |
| cim:ExcDC2A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 0.675. |
| cim:ExcDC2A.tf1 - Excitation control system stabilizer time constant (Tf1). Typical Value = 0. |
| cim:ExcDC2A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 4.95. |
| cim:ExcDC2A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -4.9. |
| cim:ExcDC2A.vtlim - (Vtlim).
true = limiter at the block [Ka/(1+sTa)] is dependent on Vt
false = limiter at the block is not dependent on Vt.
Typical Value = true. |
| cim:ExcDC3A - This is modified IEEE DC3A direct current commutator exciters with speed input, and death band. DC old type 4. |
| cim:ExcDC3A.edfmax - Maximum voltage exciter output limiter (Efdmax). Typical Value = 99. |
| cim:ExcDC3A.efd1 - Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 2.6. |
| cim:ExcDC3A.efd2 - Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 3.45. |
| cim:ExcDC3A.efdlim - (Efdlim).
true = exciter output limiter is active
false = exciter output limiter not active.
Typical Value = true. |
| cim:ExcDC3A.efdmin - Minimum voltage exciter output limiter (Efdmin). Typical Value = -99. |
| cim:ExcDC3A.exclim - (exclim). IEEE standard is ambiguous about lower limit on exciter output.
true = a lower limit of zero is applied to integrator output
false = a lower limit of zero not applied to integrator output.
Typical Value = true. |
| cim:ExcDC3A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcDC3A.kr - Death band (Kr). If Kr is not zero, the voltage regulator input changes at a constant rate if Verr > Kr or Verr < -Kr as per the IEEE (1968) Type 4 model. If Kr is zero, the error signal drives the voltage regulator continuously as per the IEEE (1980) DC3 and IEEE (1992, 2005) DC3A models. Typical Value = 0. |
| cim:ExcDC3A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcDC3A.kv - Fast raise/lower contact setting (Kv). Typical Value = 0.05. |
| cim:ExcDC3A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.1. |
| cim:ExcDC3A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, Efd2 (Se[Efd2]). Typical Value = 0.35. |
| cim:ExcDC3A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.83. |
| cim:ExcDC3A.trh - Rheostat travel time (Trh). Typical Value = 20. |
| cim:ExcDC3A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 5. |
| cim:ExcDC3A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = 0. |
| cim:ExcDC3A1 - This is modified old IEEE type 3 excitation system. |
| cim:ExcDC3A1.exclim - (exclim).
true = lower limit of zero is applied to integrator output
false = lower limit of zero not applied to integrator output.
Typical Value = true. |
| cim:ExcDC3A1.ka - Voltage regulator gain (Ka). Typical Value = 300. |
| cim:ExcDC3A1.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcDC3A1.kf - Excitation control system stabilizer gain (Kf). Typical Value = 0.1. |
| cim:ExcDC3A1.ki - Potential circuit gain coefficient (Ki). Typical Value = 4.83. |
| cim:ExcDC3A1.kp - Potential circuit gain coefficient (Kp). Typical Value = 4.37. |
| cim:ExcDC3A1.ta - Voltage regulator time constant (Ta). Typical Value = 0.01. |
| cim:ExcDC3A1.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.83. |
| cim:ExcDC3A1.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 0.675. |
| cim:ExcDC3A1.vb1max - Available exciter voltage limiter (Vb1max). Typical Value = 11.63. |
| cim:ExcDC3A1.vblim - Vb limiter indicator.
true = exciter Vbmax limiter is active
false = Vb1max is active.
Typical Value = true. |
| cim:ExcDC3A1.vbmax - Available exciter voltage limiter (Vbmax). Typical Value = 11.63. |
| cim:ExcDC3A1.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 5. |
| cim:ExcDC3A1.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = 0. |
| cim:ExcELIN1 - Static PI transformer fed excitation system: ELIN (VATECH) - simplified model. This model represents an all-static excitation system. A PI voltage controller establishes a desired field current set point for a proportional current controller. The integrator of the PI controller has a follow-up input to match its signal to the present field current. A power system stabilizer with power input is included in the model. |
| cim:ExcELIN1.dpnf - Controller follow up dead band (Dpnf). Typical Value = 0. |
| cim:ExcELIN1.efmax - Maximum open circuit excitation voltage (Efmax). Typical Value = 5. |
| cim:ExcELIN1.efmin - Minimum open circuit excitation voltage (Efmin). Typical Value = -5. |
| cim:ExcELIN1.ks1 - Stabilizer Gain 1 (Ks1). Typical Value = 0. |
| cim:ExcELIN1.ks2 - Stabilizer Gain 2 (Ks2). Typical Value = 0. |
| cim:ExcELIN1.smax - Stabilizer Limit Output (smax). Typical Value = 0.1. |
| cim:ExcELIN1.tfi - Current transducer time constant (Tfi). Typical Value = 0. |
| cim:ExcELIN1.tnu - Controller reset time constant (Tnu). Typical Value = 2. |
| cim:ExcELIN1.ts1 - Stabilizer Phase Lag Time Constant (Ts1). Typical Value = 1. |
| cim:ExcELIN1.ts2 - Stabilizer Filter Time Constant (Ts2). Typical Value = 1. |
| cim:ExcELIN1.tsw - Stabilizer parameters (Tsw). Typical Value = 3. |
| cim:ExcELIN1.vpi - Current controller gain (Vpi). Typical Value = 12.45. |
| cim:ExcELIN1.vpnf - Controller follow up gain (Vpnf). Typical Value = 2. |
| cim:ExcELIN1.vpu - Voltage controller proportional gain (Vpu). Typical Value = 34.5. |
| cim:ExcELIN1.xe - Excitation transformer effective reactance (Xe) (>=0). Xe represents the regulation of the transformer/rectifier unit. Typical Value = 0.06. |
| cim:ExcELIN2 - Detailed Excitation System Model - ELIN (VATECH). This model represents an all-static excitation system. A PI voltage controller establishes a desired field current set point for a proportional current controller. The integrator of the PI controller has a follow-up input to match its signal to the present field current. Power system stabilizer models used in conjunction with this excitation system model: PssELIN2, PssIEEE2B, Pss2B. |
| cim:ExcELIN2.efdbas - Gain (Efdbas). Typical Value = 0.1. |
| cim:ExcELIN2.iefmax - Limiter (Iefmax). Typical Value = 1. |
| cim:ExcELIN2.iefmax2 - Minimum open circuit excitation voltage (Iefmax2). Typical Value = -5. |
| cim:ExcELIN2.iefmin - Limiter (Iefmin). Typical Value = 1. |
| cim:ExcELIN2.k1 - Voltage regulator input gain (K1). Typical Value = 0. |
| cim:ExcELIN2.k1ec - Voltage regulator input limit (K1ec). Typical Value = 2. |
| cim:ExcELIN2.k2 - Gain (K2). Typical Value = 5. |
| cim:ExcELIN2.k3 - Gain (K3). Typical Value = 0.1. |
| cim:ExcELIN2.k4 - Gain (K4). Typical Value = 0. |
| cim:ExcELIN2.kd1 - Voltage controller derivative gain (Kd1). Typical Value = 34.5. |
| cim:ExcELIN2.ke2 - Gain (Ke2). Typical Value = 0.1. |
| cim:ExcELIN2.ketb - Gain (Ketb). Typical Value = 0.06. |
| cim:ExcELIN2.pid1max - Controller follow up gain (PID1max). Typical Value = 2. |
| cim:ExcELIN2.seve1 - Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0. |
| cim:ExcELIN2.seve2 - Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 1. |
| cim:ExcELIN2.tb1 - Voltage controller derivative washout time constant (Tb1). Typical Value = 12.45. |
| cim:ExcELIN2.te - Time constant (Te). Typical Value = 0. |
| cim:ExcELIN2.te2 - Time Constant (Te2). Typical Value = 1. |
| cim:ExcELIN2.ti1 - Controller follow up dead band (Ti1). Typical Value = 0. |
| cim:ExcELIN2.ti3 - Time constant (Ti3). Typical Value = 3. |
| cim:ExcELIN2.ti4 - Time constant (Ti4). Typical Value = 0. |
| cim:ExcELIN2.tr4 - Time constant (Tr4). Typical Value = 1. |
| cim:ExcELIN2.upmax - Limiter (Upmax). Typical Value = 3. |
| cim:ExcELIN2.upmin - Limiter (Upmin). Typical Value = 0. |
| cim:ExcELIN2.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 3. |
| cim:ExcELIN2.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 0. |
| cim:ExcELIN2.xp - Excitation transformer effective reactance (Xp). Typical Value = 1. |
| cim:Exceptions_in_reading_and_writing_of_XML_files |
| cim:excess |
| cim:exchange |
| cim:ExcHU - Hungarian Excitation System Model, with built-in voltage transducer. |
| cim:ExcHU.ae - Major loop PI tag gain factor (Ae). Typical Value = 3. |
| cim:ExcHU.ai - Minor loop PI tag gain factor (Ai). Typical Value = 22. |
| cim:ExcHU.atr - AVR constant (Atr). Typical Value = 2.19. |
| cim:ExcHU.emax - Field voltage control signal upper limit on AVR base (Emax). Typical Value = 0.996. |
| cim:ExcHU.emin - Field voltage control signal lower limit on AVR base (Emin). Typical Value = -0.866. |
| cim:ExcHU.imax - Major loop PI tag output signal upper limit (Imax). Typical Value = 2.19. |
| cim:ExcHU.imin - Major loop PI tag output signal lower limit (Imin). Typical Value = 0.1. |
| cim:ExcHU.ke - Voltage base conversion constant (Ke). Typical Value = 4.666. |
| cim:ExcHU.ki - Current base conversion constant (Ki). Typical Value = 0.21428. |
| cim:ExcHU.te - Major loop PI tag integration time constant (Te). Typical Value = 0.154. |
| cim:ExcHU.ti - Minor loop PI control tag integration time constant (Ti). Typical Value = 0.01333. |
| cim:ExcHU.tr - Filter time constant (Tr). If a voltage compensator is used in conjunction with this excitation system model, Tr should be set to 0. Typical Value = 0.01. |
| cim:ExcIEEEAC1A - The class represents IEEE Std 421.5-2005 type AC1A model. The model represents the field-controlled alternator-rectifier excitation systems designated Type AC1A. These excitation systems consist of an alternator main exciter with non-controlled rectifiers.
Reference: IEEE Standard 421.5-2005 Section 6.1. |
| cim:ExcIEEEAC1A.ka - Voltage regulator gain (KA). Typical Value = 400. |
| cim:ExcIEEEAC1A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.2. |
| cim:ExcIEEEAC1A.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.38. |
| cim:ExcIEEEAC1A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC1A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0.03. |
| cim:ExcIEEEAC1A.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.1. |
| cim:ExcIEEEAC1A.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.03. |
| cim:ExcIEEEAC1A.ta - Voltage regulator time constant (TA). Typical Value = 0.02. |
| cim:ExcIEEEAC1A.tb - Voltage regulator time constant (TB). Typical Value = 0. |
| cim:ExcIEEEAC1A.tc - Voltage regulator time constant (TC). Typical Value = 0. |
| cim:ExcIEEEAC1A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8. |
| cim:ExcIEEEAC1A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEAC1A.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 14.5. |
| cim:ExcIEEEAC1A.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -14.5. |
| cim:ExcIEEEAC1A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1). Typical Value = 4.18. |
| cim:ExcIEEEAC1A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.14. |
| cim:ExcIEEEAC1A.vrmax - Maximum voltage regulator outputs (VRMAX). Typical Value = 6.03. |
| cim:ExcIEEEAC1A.vrmin - Minimum voltage regulator outputs (VRMIN). Typical Value = -5.43. |
| cim:ExcIEEEAC2A - The class represents IEEE Std 421.5-2005 type AC2A model. The model represents a high initial response field-controlled alternator-rectifier excitation system. The alternator main exciter is used with non-controlled rectifiers. The Type AC2A model is similar to that of Type AC1A except for the inclusion of exciter time constant compensation and exciter field current limiting elements.
Reference: IEEE Standard 421.5-2005 Section 6.2. |
| cim:ExcIEEEAC2A.ka - Voltage regulator gain (KA). Typical Value = 400. |
| cim:ExcIEEEAC2A.kb - Second stage regulator gain (KB). Typical Value = 25. |
| cim:ExcIEEEAC2A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.28. |
| cim:ExcIEEEAC2A.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.35. |
| cim:ExcIEEEAC2A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC2A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0.03. |
| cim:ExcIEEEAC2A.kh - Exciter field current feedback gain (KH). Typical Value = 1. |
| cim:ExcIEEEAC2A.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.037. |
| cim:ExcIEEEAC2A.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.012. |
| cim:ExcIEEEAC2A.ta - Voltage regulator time constant (TA). Typical Value = 0.02. |
| cim:ExcIEEEAC2A.tb - Voltage regulator time constant (TB). Typical Value = 0. |
| cim:ExcIEEEAC2A.tc - Voltage regulator time constant (TC). Typical Value = 0. |
| cim:ExcIEEEAC2A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.6. |
| cim:ExcIEEEAC2A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEAC2A.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 8. |
| cim:ExcIEEEAC2A.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -8. |
| cim:ExcIEEEAC2A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1). Typical Value = 4.4. |
| cim:ExcIEEEAC2A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.3. |
| cim:ExcIEEEAC2A.vfemax - Exciter field current limit reference (VFEMAX). Typical Value = 4.4. |
| cim:ExcIEEEAC2A.vrmax - Maximum voltage regulator outputs (VRMAX). Typical Value = 105. |
| cim:ExcIEEEAC2A.vrmin - Minimum voltage regulator outputs (VRMIN). Typical Value = -95. |
| cim:ExcIEEEAC3A - The class represents IEEE Std 421.5-2005 type AC3A model. The model represents the field-controlled alternator-rectifier excitation systems designated Type AC3A. These excitation systems include an alternator main exciter with non-controlled rectifiers. The exciter employs self-excitation, and the voltage regulator power is derived from the exciter output voltage. Therefore, this system has an additional nonlinearity, simulated by the use of a multiplier
whose inputs are the voltage regulator command signal, Va, and the exciter output voltage, Efd, times KR. This model is applicable to excitation systems employing static voltage regulators.
Reference: IEEE Standard 421.5-2005 Section 6.3. |
| cim:ExcIEEEAC3A.efdn - Value of EFD at which feedback gain changes (EFDN). Typical Value = 2.36. |
| cim:ExcIEEEAC3A.ka - Voltage regulator gain (KA). Typical Value = 45.62. |
| cim:ExcIEEEAC3A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.104. |
| cim:ExcIEEEAC3A.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.499. |
| cim:ExcIEEEAC3A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC3A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0.143. |
| cim:ExcIEEEAC3A.kn - Excitation control system stabilizer gain (KN). Typical Value = 0.05. |
| cim:ExcIEEEAC3A.kr - Constant associated with regulator and alternator field power supply (KR). Typical Value = 3.77. |
| cim:ExcIEEEAC3A.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 1.143. |
| cim:ExcIEEEAC3A.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.1. |
| cim:ExcIEEEAC3A.ta - Voltage regulator time constant (TA). Typical Value = 0.013. |
| cim:ExcIEEEAC3A.tb - Voltage regulator time constant (TB). Typical Value = 0. |
| cim:ExcIEEEAC3A.tc - Voltage regulator time constant (TC). Typical Value = 0. |
| cim:ExcIEEEAC3A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.17. |
| cim:ExcIEEEAC3A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEAC3A.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 1. |
| cim:ExcIEEEAC3A.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -0.95. |
| cim:ExcIEEEAC3A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.24. |
| cim:ExcIEEEAC3A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 4.68. |
| cim:ExcIEEEAC3A.vemin - Minimum exciter voltage output (VEMIN). Typical Value = 0.1. |
| cim:ExcIEEEAC3A.vfemax - Exciter field current limit reference (VFEMAX). Typical Value = 16. |
| cim:ExcIEEEAC4A - The class represents IEEE Std 421.5-2005 type AC4A model. The model represents type AC4A alternator-supplied controlled-rectifier excitation system which is quite different from the other type ac systems. This high initial response excitation system utilizes a full thyristor bridge in the exciter output circuit. The voltage regulator controls the firing of the thyristor bridges. The exciter alternator uses an independent voltage regulator to control its output voltage to a constant value. These effects are not modeled; however, transient loading effects on the exciter alternator are included.
Reference: IEEE Standard 421.5-2005 Section 6.4. |
| cim:ExcIEEEAC4A.ka - Voltage regulator gain (KA). Typical Value = 200. |
| cim:ExcIEEEAC4A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0. |
| cim:ExcIEEEAC4A.ta - Voltage regulator time constant (TA). Typical Value = 0.015. |
| cim:ExcIEEEAC4A.tb - Voltage regulator time constant (TB). Typical Value = 10. |
| cim:ExcIEEEAC4A.tc - Voltage regulator time constant (TC). Typical Value = 1. |
| cim:ExcIEEEAC4A.vimax - Maximum voltage regulator input limit (VIMAX). Typical Value = 10. |
| cim:ExcIEEEAC4A.vimin - Minimum voltage regulator input limit (VIMIN). Typical Value = -10. |
| cim:ExcIEEEAC4A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 5.64. |
| cim:ExcIEEEAC4A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -4.53. |
| cim:ExcIEEEAC5A - The class represents IEEE Std 421.5-2005 type AC5A model. The model represents a simplified model for brushless excitation systems. The regulator is supplied from a source, such as a permanent magnet generator, which is not affected by system disturbances. Unlike other ac models, this model uses loaded rather than open circuit exciter saturation data in the same way as it is used for the dc models. Because the model has been widely implemented by the industry, it is sometimes used to represent other types of systems when either detailed data for them are not available or simplified models are required.
Reference: IEEE Standard 421.5-2005 Section 6.5. |
| cim:ExcIEEEAC5A.efd1 - Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 5.6. |
| cim:ExcIEEEAC5A.efd2 - Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 4.2. |
| cim:ExcIEEEAC5A.ka - Voltage regulator gain (KA). Typical Value = 400. |
| cim:ExcIEEEAC5A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC5A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0.03. |
| cim:ExcIEEEAC5A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.86. |
| cim:ExcIEEEAC5A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.5. |
| cim:ExcIEEEAC5A.ta - Voltage regulator time constant (TA). Typical Value = 0.02. |
| cim:ExcIEEEAC5A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8. |
| cim:ExcIEEEAC5A.tf1 - Excitation control system stabilizer time constant (TF1). Typical Value = 1. |
| cim:ExcIEEEAC5A.tf2 - Excitation control system stabilizer time constant (TF2). Typical Value = 1. |
| cim:ExcIEEEAC5A.tf3 - Excitation control system stabilizer time constant (TF3). Typical Value = 1. |
| cim:ExcIEEEAC5A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 7.3. |
| cim:ExcIEEEAC5A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -7.3. |
| cim:ExcIEEEAC6A - The class represents IEEE Std 421.5-2005 type AC6A model. The model represents field-controlled alternator-rectifier excitation systems with system-supplied electronic voltage regulators. The maximum output of the regulator, VR, is a function of terminal voltage, VT. The field current limiter included in the original model AC6A remains in the 2005 update.
Reference: IEEE Standard 421.5-2005 Section 6.6. |
| cim:ExcIEEEAC6A.ka - Voltage regulator gain (KA). Typical Value = 536. |
| cim:ExcIEEEAC6A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.173. |
| cim:ExcIEEEAC6A.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 1.91. |
| cim:ExcIEEEAC6A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1.6. |
| cim:ExcIEEEAC6A.kh - Exciter field current limiter gain (KH). Typical Value = 92. |
| cim:ExcIEEEAC6A.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.214. |
| cim:ExcIEEEAC6A.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.044. |
| cim:ExcIEEEAC6A.ta - Voltage regulator time constant (TA). Typical Value = 0.086. |
| cim:ExcIEEEAC6A.tb - Voltage regulator time constant (TB). Typical Value = 9. |
| cim:ExcIEEEAC6A.tc - Voltage regulator time constant (TC). Typical Value = 3. |
| cim:ExcIEEEAC6A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1. |
| cim:ExcIEEEAC6A.th - Exciter field current limiter time constant (TH). Typical Value = 0.08. |
| cim:ExcIEEEAC6A.tj - Exciter field current limiter time constant (TJ). Typical Value = 0.02. |
| cim:ExcIEEEAC6A.tk - Voltage regulator time constant (TK). Typical Value = 0.18. |
| cim:ExcIEEEAC6A.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 75. |
| cim:ExcIEEEAC6A.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -75. |
| cim:ExcIEEEAC6A.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 7.4. |
| cim:ExcIEEEAC6A.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 5.55. |
| cim:ExcIEEEAC6A.vfelim - Exciter field current limit reference (VFELIM). Typical Value = 19. |
| cim:ExcIEEEAC6A.vhmax - Maximum field current limiter signal reference (VHMAX). Typical Value = 75. |
| cim:ExcIEEEAC6A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 44. |
| cim:ExcIEEEAC6A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -36. |
| cim:ExcIEEEAC7B - The class represents IEEE Std 421.5-2005 type AC7B model. The model represents excitation systems which consist of an ac alternator with either stationary or rotating rectifiers to produce the dc field requirements. It is an upgrade to earlier ac excitation systems, which replace only the controls but retain the ac alternator and diode rectifier bridge.
Reference: IEEE Standard 421.5-2005 Section 6.7.
Note: In the IEEE Standard 421.5 2005, the [1 / sTE] block is shown as [1 / (1 + sTE)], which is incorrect. |
| cim:ExcIEEEAC7B.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.18. |
| cim:ExcIEEEAC7B.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.02. |
| cim:ExcIEEEAC7B.kdr - Voltage regulator derivative gain (KDR). Typical Value = 0. |
| cim:ExcIEEEAC7B.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC7B.kf1 - Excitation control system stabilizer gain (KF1). Typical Value = 0.212. |
| cim:ExcIEEEAC7B.kf2 - Excitation control system stabilizer gain (KF2). Typical Value = 0. |
| cim:ExcIEEEAC7B.kf3 - Excitation control system stabilizer gain (KF3). Typical Value = 0. |
| cim:ExcIEEEAC7B.kia - Voltage regulator integral gain (KIA). Typical Value = 59.69. |
| cim:ExcIEEEAC7B.kir - Voltage regulator integral gain (KIR). Typical Value = 4.24. |
| cim:ExcIEEEAC7B.kl - Exciter field voltage lower limit parameter (KL). Typical Value = 10. |
| cim:ExcIEEEAC7B.kp - Potential circuit gain coefficient (KP). Typical Value = 4.96. |
| cim:ExcIEEEAC7B.kpa - Voltage regulator proportional gain (KPA). Typical Value = 65.36. |
| cim:ExcIEEEAC7B.kpr - Voltage regulator proportional gain (KPR). Typical Value = 4.24. |
| cim:ExcIEEEAC7B.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.44. |
| cim:ExcIEEEAC7B.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.075. |
| cim:ExcIEEEAC7B.tdr - Lag time constant (TDR). Typical Value = 0. |
| cim:ExcIEEEAC7B.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.1. |
| cim:ExcIEEEAC7B.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEAC7B.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 1. |
| cim:ExcIEEEAC7B.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -0.95. |
| cim:ExcIEEEAC7B.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.3. |
| cim:ExcIEEEAC7B.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.02. |
| cim:ExcIEEEAC7B.vemin - Minimum exciter voltage output (VEMIN). Typical Value = 0. |
| cim:ExcIEEEAC7B.vfemax - Exciter field current limit reference (VFEMAX). Typical Value = 6.9. |
| cim:ExcIEEEAC7B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 5.79. |
| cim:ExcIEEEAC7B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -5.79. |
| cim:ExcIEEEAC8B - The class represents IEEE Std 421.5-2005 type AC8B model. This model represents a PID voltage regulator with either a brushless exciter or dc exciter. The AVR in this model consists of PID control, with separate constants for the proportional (KPR), integral (KIR), and derivative (KDR) gains. The representation of the brushless exciter (TE, KE, SE, KC, KD) is similar to the model Type AC2A. The Type AC8B model can be used to represent static voltage regulators applied to brushless excitation systems. Digitally based voltage regulators feeding dc rotating main exciters can be represented with the AC Type AC8B model with the parameters KC and KD set to 0. For thyristor power stages fed from the generator terminals, the limits VRMAX and VRMIN should be a function of terminal voltage: VT * VRMAX and VT * VRMIN.
Reference: IEEE Standard 421.5-2005 Section 6.8. |
| cim:ExcIEEEAC8B.ka - Voltage regulator gain (KA). Typical Value = 1. |
| cim:ExcIEEEAC8B.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.55. |
| cim:ExcIEEEAC8B.kd - Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 1.1. |
| cim:ExcIEEEAC8B.kdr - Voltage regulator derivative gain (KDR). Typical Value = 10. |
| cim:ExcIEEEAC8B.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEAC8B.kir - Voltage regulator integral gain (KIR). Typical Value = 5. |
| cim:ExcIEEEAC8B.kpr - Voltage regulator proportional gain (KPR). Typical Value = 80. |
| cim:ExcIEEEAC8B.seve1 - Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.3. |
| cim:ExcIEEEAC8B.seve2 - Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 3. |
| cim:ExcIEEEAC8B.ta - Voltage regulator time constant (TA). Typical Value = 0. |
| cim:ExcIEEEAC8B.tdr - Lag time constant (TDR). Typical Value = 0.1. |
| cim:ExcIEEEAC8B.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.2. |
| cim:ExcIEEEAC8B.ve1 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.5. |
| cim:ExcIEEEAC8B.ve2 - Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 9. |
| cim:ExcIEEEAC8B.vemin - Minimum exciter voltage output (VEMIN). Typical Value = 0. |
| cim:ExcIEEEAC8B.vfemax - Exciter field current limit reference (VFEMAX). Typical Value = 6. |
| cim:ExcIEEEAC8B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 35. |
| cim:ExcIEEEAC8B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = 0. |
| cim:ExcIEEEDC1A - The class represents IEEE Std 421.5-2005 type DC1A model. This model represents field-controlled dc commutator exciters with continuously acting voltage regulators (especially the direct-acting rheostatic, rotating amplifier, and magnetic amplifier types). Because this model has been widely implemented by the industry, it is sometimes used to represent other types of systems when detailed data for them are not available or when a simplified model is required.
Reference: IEEE Standard 421.5-2005 Section 5.1. |
| cim:ExcIEEEDC1A.efd1 - Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.1. |
| cim:ExcIEEEDC1A.efd2 - Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.3. |
| cim:ExcIEEEDC1A.exclim - (exclim). IEEE standard is ambiguous about lower limit on exciter output.
true = a lower limit of zero is applied to integrator output
false = a lower limit of zero is not applied to integrator output.
Typical Value = true. |
| cim:ExcIEEEDC1A.ka - Voltage regulator gain (KA). Typical Value = 46. |
| cim:ExcIEEEDC1A.ke - Exciter constant related to self-excited field (KE). Typical Value = 0. |
| cim:ExcIEEEDC1A.kf - Excitation control system stabilizer gain (KF). Typical Value = 0.1. |
| cim:ExcIEEEDC1A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.33. |
| cim:ExcIEEEDC1A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.1. |
| cim:ExcIEEEDC1A.ta - Voltage regulator time constant (TA). Typical Value = 0.06. |
| cim:ExcIEEEDC1A.tb - Voltage regulator time constant (TB). Typical Value = 0. |
| cim:ExcIEEEDC1A.tc - Voltage regulator time constant (TC). Typical Value = 0. |
| cim:ExcIEEEDC1A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.46. |
| cim:ExcIEEEDC1A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEDC1A.uelin - UEL input (uelin).
true = input is connected to the HV gate
false = input connects to the error signal.
Typical Value = true. |
| cim:ExcIEEEDC1A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 1. |
| cim:ExcIEEEDC1A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -0.9. |
| cim:ExcIEEEDC2A - The class represents IEEE Std 421.5-2005 type DC2A model. This model represents represent field-controlled dc commutator exciters with continuously acting voltage regulators having supplies obtained from the generator or auxiliary bus. It differs from the Type DC1A model only in the voltage regulator output limits, which are now proportional to terminal voltage VT.
It is representative of solid-state replacements for various forms of older mechanical and rotating amplifier regulating equipment connected to dc commutator exciters.
Reference: IEEE Standard 421.5-2005 Section 5.2. |
| cim:ExcIEEEDC2A.efd1 - Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.05. |
| cim:ExcIEEEDC2A.efd2 - Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.29. |
| cim:ExcIEEEDC2A.exclim - (exclim). IEEE standard is ambiguous about lower limit on exciter output. Typical Value = - 999 which means that there is no limit applied. |
| cim:ExcIEEEDC2A.ka - Voltage regulator gain (KA). Typical Value = 300. |
| cim:ExcIEEEDC2A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEDC2A.kf - Excitation control system stabilizer gain (KF). Typical Value = 0.1. |
| cim:ExcIEEEDC2A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.279. |
| cim:ExcIEEEDC2A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.117. |
| cim:ExcIEEEDC2A.ta - Voltage regulator time constant (TA). Typical Value = 0.01. |
| cim:ExcIEEEDC2A.tb - Voltage regulator time constant (TB). Typical Value = 0. |
| cim:ExcIEEEDC2A.tc - Voltage regulator time constant (TC). Typical Value = 0. |
| cim:ExcIEEEDC2A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.33. |
| cim:ExcIEEEDC2A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 0.675. |
| cim:ExcIEEEDC2A.uelin - UEL input (uelin).
true = input is connected to the HV gate
false = input connects to the error signal.
Typical Value = true. |
| cim:ExcIEEEDC2A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 4.95. |
| cim:ExcIEEEDC2A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -4.9. |
| cim:ExcIEEEDC3A - The class represents IEEE Std 421.5-2005 type DC3A model. This model represents represent older systems, in particular those dc commutator exciters with non-continuously acting regulators that were commonly used before the development of the continuously acting varieties. These systems respond at basically two different rates, depending upon the magnitude of voltage error. For small errors, adjustment is made periodically with a signal to a motor-operated rheostat. Larger errors cause resistors to be quickly shorted or inserted and a strong forcing signal applied to the exciter. Continuous motion of the motor-operated rheostat occurs for these larger error signals, even though it is bypassed by contactor action.
Reference: IEEE Standard 421.5-2005 Section 5.3. |
| cim:ExcIEEEDC3A.efd1 - Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.375. |
| cim:ExcIEEEDC3A.efd2 - Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 3.15. |
| cim:ExcIEEEDC3A.exclim - (exclim). IEEE standard is ambiguous about lower limit on exciter output.
true = a lower limit of zero is applied to integrator output
false = a lower limit of zero is not applied to integrator output.
Typical Value = true. |
| cim:ExcIEEEDC3A.ke - Exciter constant related to self-excited field (KE). Typical Value = 0.05. |
| cim:ExcIEEEDC3A.kv - Fast raise/lower contact setting (KV). Typical Value = 0.05. |
| cim:ExcIEEEDC3A.seefd1 - Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.267. |
| cim:ExcIEEEDC3A.seefd2 - Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.068. |
| cim:ExcIEEEDC3A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.5. |
| cim:ExcIEEEDC3A.trh - Rheostat travel time (TRH). Typical Value = 20. |
| cim:ExcIEEEDC3A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 1. |
| cim:ExcIEEEDC3A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = 0. |
| cim:ExcIEEEDC4B - The class represents IEEE Std 421.5-2005 type DC4B model. These excitation systems utilize a field-controlled dc commutator exciter with a continuously acting voltage regulator having supplies obtained from the generator or auxiliary bus.
Reference: IEEE Standard 421.5-2005 Section 5.4. |
| cim:ExcIEEEDC4B.efd1 - Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 1.75. |
| cim:ExcIEEEDC4B.efd2 - Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.33. |
| cim:ExcIEEEDC4B.ka - Voltage regulator gain (KA). Typical Value = 1. |
| cim:ExcIEEEDC4B.kd - Regulator derivative gain (KD). Typical Value = 20. |
| cim:ExcIEEEDC4B.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEDC4B.kf - Excitation control system stabilizer gain (KF). Typical Value = 0. |
| cim:ExcIEEEDC4B.ki - Regulator integral gain (KI). Typical Value = 20. |
| cim:ExcIEEEDC4B.kp - Regulator proportional gain (KP). Typical Value = 20. |
| cim:ExcIEEEDC4B.oelin - OEL input (OELin).
true = LV gate
false = subtract from error signal.
Typical Value = true. |
| cim:ExcIEEEDC4B.seefd1 - Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.08. |
| cim:ExcIEEEDC4B.seefd2 - Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.27. |
| cim:ExcIEEEDC4B.ta - Voltage regulator time constant (TA). Typical Value = 0.2. |
| cim:ExcIEEEDC4B.td - Regulator derivative filter time constant(TD). Typical Value = 0.01. |
| cim:ExcIEEEDC4B.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8. |
| cim:ExcIEEEDC4B.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEDC4B.uelin - UEL input (UELin).
true = HV gate
false = add to error signal.
Typical Value = true. |
| cim:ExcIEEEDC4B.vemin - Minimum exciter voltage output(VEMIN). Typical Value = 0. |
| cim:ExcIEEEDC4B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 2.7. |
| cim:ExcIEEEDC4B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -0.9. |
| cim:ExcIEEEST1A - The class represents IEEE Std 421.5-2005 type ST1A model. This model represents systems in which excitation power is supplied through a transformer from the generator terminals (or the units auxiliary bus) and is regulated by a controlled rectifier. The maximum exciter voltage available from such systems is directly related to the generator terminal voltage.
Reference: IEEE Standard 421.5-2005 Section 7.1. |
| cim:ExcIEEEST1A.ilr - Exciter output current limit reference (ILR). Typical Value = 0. |
| cim:ExcIEEEST1A.ka - Voltage regulator gain (KA). Typical Value = 190. |
| cim:ExcIEEEST1A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.08. |
| cim:ExcIEEEST1A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0. |
| cim:ExcIEEEST1A.klr - Exciter output current limiter gain (KLR). Typical Value = 0. |
| cim:ExcIEEEST1A.pssin - Selector of the Power System Stabilizer (PSS) input (PSSin).
true = PSS input (Vs) added to error signal
false = PSS input (Vs) added to voltage regulator output.
Typical Value = true. |
| cim:ExcIEEEST1A.ta - Voltage regulator time constant (TA). Typical Value = 0. |
| cim:ExcIEEEST1A.tb - Voltage regulator time constant (TB). Typical Value = 10. |
| cim:ExcIEEEST1A.tb1 - Voltage regulator time constant (TB1). Typical Value = 0. |
| cim:ExcIEEEST1A.tc - Voltage regulator time constant (TC). Typical Value = 1. |
| cim:ExcIEEEST1A.tc1 - Voltage regulator time constant (TC1). Typical Value = 0. |
| cim:ExcIEEEST1A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEST1A.uelin - Selector of the connection of the UEL input (UELin). Typical Value = ignoreUELsignal. |
| cim:ExcIEEEST1A.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 14.5. |
| cim:ExcIEEEST1A.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -14.5. |
| cim:ExcIEEEST1A.vimax - Maximum voltage regulator input limit (VIMAX). Typical Value = 999. |
| cim:ExcIEEEST1A.vimin - Minimum voltage regulator input limit (VIMIN). Typical Value = -999. |
| cim:ExcIEEEST1A.vrmax - Maximum voltage regulator outputs (VRMAX). Typical Value = 7.8. |
| cim:ExcIEEEST1A.vrmin - Minimum voltage regulator outputs (VRMIN). Typical Value = -6.7. |
| cim:ExcIEEEST1AUELselectorKind |
| cim:ExcIEEEST2A - The class represents IEEE Std 421.5-2005 type ST2A model. Some static systems utilize both current and voltage sources (generator terminal quantities) to comprise the power source. The regulator controls the exciter output through controlled saturation of the power transformer components. These compound-source rectifier excitation systems are designated Type ST2A and are represented by ExcIEEEST2A.
Reference: IEEE Standard 421.5-2005 Section 7.2. |
| cim:ExcIEEEST2A.efdmax - Maximum field voltage (EFDMax). Typical Value = 99. |
| cim:ExcIEEEST2A.ka - Voltage regulator gain (KA). Typical Value = 120. |
| cim:ExcIEEEST2A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 1.82. |
| cim:ExcIEEEST2A.ke - Exciter constant related to self-excited field (KE). Typical Value = 1. |
| cim:ExcIEEEST2A.kf - Excitation control system stabilizer gains (KF). Typical Value = 0.05. |
| cim:ExcIEEEST2A.ki - Potential circuit gain coefficient (KI). Typical Value = 8. |
| cim:ExcIEEEST2A.kp - Potential circuit gain coefficient (KP). Typical Value = 4.88. |
| cim:ExcIEEEST2A.ta - Voltage regulator time constant (TA). Typical Value = 0.15. |
| cim:ExcIEEEST2A.te - Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.5. |
| cim:ExcIEEEST2A.tf - Excitation control system stabilizer time constant (TF). Typical Value = 1. |
| cim:ExcIEEEST2A.uelin - UEL input (UELin).
true = HV gate
false = add to error signal.
Typical Value = true. |
| cim:ExcIEEEST2A.vrmax - Maximum voltage regulator outputs (VRMAX). Typical Value = 1. |
| cim:ExcIEEEST2A.vrmin - Minimum voltage regulator outputs (VRMIN). Typical Value = 0. |
| cim:ExcIEEEST3A - The class represents IEEE Std 421.5-2005 type ST3A model. Some static systems utilize a field voltage control loop to linearize the exciter control characteristic. This also makes the output independent of supply source variations until supply limitations are reached. These systems utilize a variety of controlled-rectifier designs: full thyristor complements or hybrid bridges
in either series or shunt configurations. The power source may consist of only a potential source, either fed from the machine terminals or from internal windings. Some designs may have compound power sources utilizing both machine potential and current. These power sources are represented as phasor combinations of machine terminal current and voltage and are accommodated by suitable parameters in model Type ST3A which is represented by ExcIEEEST3A.
Reference: IEEE Standard 421.5-2005 Section 7.3. |
| cim:ExcIEEEST3A.ka - Voltage regulator gain (KA). This is parameter K in the IEEE Std. Typical Value = 200. |
| cim:ExcIEEEST3A.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.2. |
| cim:ExcIEEEST3A.kg - Feedback gain constant of the inner loop field regulator (KG). Typical Value = 1. |
| cim:ExcIEEEST3A.ki - Potential circuit gain coefficient (KI). Typical Value = 0. |
| cim:ExcIEEEST3A.km - Forward gain constant of the inner loop field regulator (KM). Typical Value = 7.93. |
| cim:ExcIEEEST3A.kp - Potential circuit gain coefficient (KP). Typical Value = 6.15. |
| cim:ExcIEEEST3A.ta - Voltage regulator time constant (TA). Typical Value = 0. |
| cim:ExcIEEEST3A.tb - Voltage regulator time constant (TB). Typical Value = 10. |
| cim:ExcIEEEST3A.tc - Voltage regulator time constant (TC). Typical Value = 1. |
| cim:ExcIEEEST3A.thetap - Potential circuit phase angle (thetap). Typical Value = 0. |
| cim:ExcIEEEST3A.tm - Forward time constant of inner loop field regulator (TM). Typical Value = 0.4. |
| cim:ExcIEEEST3A.vbmax - Maximum excitation voltage (VBMax). Typical Value = 6.9. |
| cim:ExcIEEEST3A.vgmax - Maximum inner loop feedback voltage (VGMax). Typical Value = 5.8. |
| cim:ExcIEEEST3A.vimax - Maximum voltage regulator input limit (VIMAX). Typical Value = 0.2. |
| cim:ExcIEEEST3A.vimin - Minimum voltage regulator input limit (VIMIN). Typical Value = -0.2. |
| cim:ExcIEEEST3A.vmmax - Maximum inner loop output (VMMax). Typical Value = 1. |
| cim:ExcIEEEST3A.vmmin - Minimum inner loop output (VMMin). Typical Value = 0. |
| cim:ExcIEEEST3A.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 10. |
| cim:ExcIEEEST3A.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -10. |
| cim:ExcIEEEST3A.xl - Reactance associated with potential source (XL). Typical Value = 0.081. |
| cim:ExcIEEEST4B - The class represents IEEE Std 421.5-2005 type ST4B model. This model is a variation of the Type ST3A model, with a proportional plus integral (PI) regulator block replacing the lag-lead regulator characteristic that is in the ST3A model. Both potential and compound source rectifier excitation systems are modeled. The PI regulator blocks have non-windup limits that are represented. The voltage regulator of this model is typically implemented digitally.
Reference: IEEE Standard 421.5-2005 Section 7.4. |
| cim:ExcIEEEST4B.kc - Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.113. |
| cim:ExcIEEEST4B.kg - Feedback gain constant of the inner loop field regulator (KG). Typical Value = 0. |
| cim:ExcIEEEST4B.ki - Potential circuit gain coefficient (KI). Typical Value = 0. |
| cim:ExcIEEEST4B.kim - Voltage regulator integral gain output (KIM). Typical Value = 0. |
| cim:ExcIEEEST4B.kir - Voltage regulator integral gain (KIR). Typical Value = 10.75. |
| cim:ExcIEEEST4B.kp - Potential circuit gain coefficient (KP). Typical Value = 9.3. |
| cim:ExcIEEEST4B.kpm - Voltage regulator proportional gain output (KPM). Typical Value = 1. |
| cim:ExcIEEEST4B.kpr - Voltage regulator proportional gain (KPR). Typical Value = 10.75. |
| cim:ExcIEEEST4B.ta - Voltage regulator time constant (TA). Typical Value = 0.02. |
| cim:ExcIEEEST4B.thetap - Potential circuit phase angle (thetap). Typical Value = 0. |
| cim:ExcIEEEST4B.vbmax - Maximum excitation voltage (VBMax). Typical Value = 11.63. |
| cim:ExcIEEEST4B.vmmax - Maximum inner loop output (VMMax). Typical Value = 99. |
| cim:ExcIEEEST4B.vmmin - Minimum inner loop output (VMMin). Typical Value = -99. |
| cim:ExcIEEEST4B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 1. |
| cim:ExcIEEEST4B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -0.87. |
| cim:ExcIEEEST4B.xl - Reactance associated with potential source (XL). Typical Value = 0.124. |
| cim:ExcIEEEST5B - The class represents IEEE Std 421.5-2005 type ST5B model. The Type ST5B excitation system is a variation of the Type ST1A model, with alternative overexcitation and underexcitation inputs and additional limits.
Reference: IEEE Standard 421.5-2005 Section 7.5.
Note: the block diagram in the IEEE 421.5 standard has input signal Vc and does not indicate the summation point with Vref. The implementation of the ExcIEEEST5B shall consider summation point with Vref. |
| cim:ExcIEEEST5B.kc - Rectifier regulation factor (KC). Typical Value = 0.004. |
| cim:ExcIEEEST5B.kr - Regulator gain (KR). Typical Value = 200. |
| cim:ExcIEEEST5B.t1 - Firing circuit time constant (T1). Typical Value = 0.004. |
| cim:ExcIEEEST5B.tb1 - Regulator lag time constant (TB1). Typical Value = 6. |
| cim:ExcIEEEST5B.tb2 - Regulator lag time constant (TB2). Typical Value = 0.01. |
| cim:ExcIEEEST5B.tc1 - Regulator lead time constant (TC1). Typical Value = 0.8. |
| cim:ExcIEEEST5B.tc2 - Regulator lead time constant (TC2). Typical Value = 0.08. |
| cim:ExcIEEEST5B.tob1 - OEL lag time constant (TOB1). Typical Value = 2. |
| cim:ExcIEEEST5B.tob2 - OEL lag time constant (TOB2). Typical Value = 0.08. |
| cim:ExcIEEEST5B.toc1 - OEL lead time constant (TOC1). Typical Value = 0.1. |
| cim:ExcIEEEST5B.toc2 - OEL lead time constant (TOC2). Typical Value = 0.08. |
| cim:ExcIEEEST5B.tub1 - UEL lag time constant (TUB1). Typical Value = 10. |
| cim:ExcIEEEST5B.tub2 - UEL lag time constant (TUB2). Typical Value = 0.05. |
| cim:ExcIEEEST5B.tuc1 - UEL lead time constant (TUC1). Typical Value = 2. |
| cim:ExcIEEEST5B.tuc2 - UEL lead time constant (TUC2). Typical Value = 0.1. |
| cim:ExcIEEEST5B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 5. |
| cim:ExcIEEEST5B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -4. |
| cim:ExcIEEEST6B - The class represents IEEE Std 421.5-2005 type ST6B model. This model consists of a PI voltage regulator with an inner loop field voltage regulator and pre-control. The field voltage regulator implements a proportional control. The pre-control and the delay in the feedback circuit increase the dynamic response.
Reference: IEEE Standard 421.5-2005 Section 7.6. |
| cim:ExcIEEEST6B.ilr - Exciter output current limit reference (ILR). Typical Value = 4.164. |
| cim:ExcIEEEST6B.kci - Exciter output current limit adjustment (KCI). Typical Value = 1.0577. |
| cim:ExcIEEEST6B.kff - Pre-control gain constant of the inner loop field regulator (KFF). Typical Value = 1. |
| cim:ExcIEEEST6B.kg - Feedback gain constant of the inner loop field regulator (KG). Typical Value = 1. |
| cim:ExcIEEEST6B.kia - Voltage regulator integral gain (KIA). Typical Value = 45.094. |
| cim:ExcIEEEST6B.klr - Exciter output current limiter gain (KLR). Typical Value = 17.33. |
| cim:ExcIEEEST6B.km - Forward gain constant of the inner loop field regulator (KM). Typical Value = 1. |
| cim:ExcIEEEST6B.kpa - Voltage regulator proportional gain (KPA). Typical Value = 18.038. |
| cim:ExcIEEEST6B.oelin - OEL input selector (OELin). Typical Value = noOELinput. |
| cim:ExcIEEEST6B.tg - Feedback time constant of inner loop field voltage regulator (TG). Typical Value = 0.02. |
| cim:ExcIEEEST6B.vamax - Maximum voltage regulator output (VAMAX). Typical Value = 4.81. |
| cim:ExcIEEEST6B.vamin - Minimum voltage regulator output (VAMIN). Typical Value = -3.85. |
| cim:ExcIEEEST6B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 4.81. |
| cim:ExcIEEEST6B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -3.85. |
| cim:ExcIEEEST7B - The class represents IEEE Std 421.5-2005 type ST7B model. This model is representative of static potential-source excitation systems. In this system, the AVR consists of a PI voltage regulator. A phase lead-lag filter in series allows introduction of a derivative function, typically used with brushless excitation systems. In that case, the regulator is of the PID type. In addition, the terminal voltage channel includes a phase lead-lag filter. The AVR includes the appropriate inputs on its reference for overexcitation limiter (OEL1), underexcitation limiter (UEL), stator current limiter (SCL), and current compensator (DROOP). All these limitations, when they work at voltage reference level, keep the PSS (VS signal from Type PSS1A, PSS2A, or PSS2B) in operation. However, the UEL limitation can also be transferred to the high value (HV) gate acting on the output signal. In addition, the output signal passes through a low value (LV) gate for a ceiling overexcitation limiter (OEL2).
Reference: IEEE Standard 421.5-2005 Section 7.7. |
| cim:ExcIEEEST7B.kh - High-value gate feedback gain (KH). Typical Value 1. |
| cim:ExcIEEEST7B.kia - Voltage regulator integral gain (KIA). Typical Value = 1. |
| cim:ExcIEEEST7B.kl - Low-value gate feedback gain (KL). Typical Value 1. |
| cim:ExcIEEEST7B.kpa - Voltage regulator proportional gain (KPA). Typical Value = 40. |
| cim:ExcIEEEST7B.oelin - OEL input selector (OELin). Typical Value = noOELinput. |
| cim:ExcIEEEST7B.tb - Regulator lag time constant (TB). Typical Value 1. |
| cim:ExcIEEEST7B.tc - Regulator lead time constant (TC). Typical Value 1. |
| cim:ExcIEEEST7B.tf - Excitation control system stabilizer time constant (TF). Typical Value 1. |
| cim:ExcIEEEST7B.tg - Feedback time constant of inner loop field voltage regulator (TG). Typical Value 1. |
| cim:ExcIEEEST7B.tia - Feedback time constant (TIA). Typical Value = 3. |
| cim:ExcIEEEST7B.uelin - UEL input selector (UELin). Typical Value = noUELinput. |
| cim:ExcIEEEST7B.vmax - Maximum voltage reference signal (VMAX). Typical Value = 1.1. |
| cim:ExcIEEEST7B.vmin - Minimum voltage reference signal (VMIN). Typical Value = 0.9. |
| cim:ExcIEEEST7B.vrmax - Maximum voltage regulator output (VRMAX). Typical Value = 5. |
| cim:ExcIEEEST7B.vrmin - Minimum voltage regulator output (VRMIN). Typical Value = -4.5. |
| cim:Excitation_System |
| cim:ExcitationSystemDynamics - Excitation system function block whose behavior is described by reference to a standard model or by definition of a user-defined model. |
| cim:ExcitationSystemDynamics.DiscontinuousExcitationControlDynamics - Discontinuous excitation control model associated with this excitation system model.Excitation system model with which this discontinuous excitation control model is associated. |
| cim:ExcitationSystemDynamics.OverexcitationLimiterDynamics - Overexcitation limiter model associated with this excitation system model.Excitation system model with which this overexcitation limiter model is associated. |
| cim:ExcitationSystemDynamics.PFVArControllerType1Dynamics - Power Factor or VAr controller Type I model associated with this excitation system model.Excitation system model with which this Power Factor or VAr controller Type I model is associated. |
| cim:ExcitationSystemDynamics.PFVArControllerType2Dynamics - Power Factor or VAr controller Type II model associated with this excitation system model.Excitation system model with which this Power Factor or VAr controller Type II is associated. |
| cim:ExcitationSystemDynamics.PowerSystemStabilizerDynamics - Power system stabilizer model associated with this excitation system model.Excitation system model with which this power system stabilizer model is associated. |
| cim:ExcitationSystemDynamics.UnderexcitationLimiterDynamics - Undrexcitation limiter model associated with this excitation system model.Excitation system model with which this underexcitation limiter model is associated. |
| cim:ExcitationSystemDynamics.VoltageCompensatorDynamics - Voltage compensator model associated with this excitation system model.Excitation system model with which this voltage compensator is associated. |
| cim:ExcitationSystemUserDefined - Excitation system function block whose dynamic behaviour is described by a user-defined model. |
| cim:ExcitationSystemUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:ExcitationSystemUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:ExcOEX3T - Modified IEEE Type ST1 Excitation System with semi-continuous and acting terminal voltage limiter. |
| cim:ExcOEX3T.e1 - Saturation parameter (E1). |
| cim:ExcOEX3T.e2 - Saturation parameter (E2). |
| cim:ExcOEX3T.ka - Gain (KA). |
| cim:ExcOEX3T.kc - Gain (KC). |
| cim:ExcOEX3T.kd - Gain (KD). |
| cim:ExcOEX3T.ke - Gain (KE). |
| cim:ExcOEX3T.kf - Gain (KF). |
| cim:ExcOEX3T.see1 - Saturation parameter (SE(E1)). |
| cim:ExcOEX3T.see2 - Saturation parameter (SE(E2)). |
| cim:ExcOEX3T.t1 - Time constant (T1). |
| cim:ExcOEX3T.t2 - Time constant (T2). |
| cim:ExcOEX3T.t3 - Time constant (T3). |
| cim:ExcOEX3T.t4 - Time constant (T4). |
| cim:ExcOEX3T.t5 - Time constant (T5). |
| cim:ExcOEX3T.t6 - Time constant (T6). |
| cim:ExcOEX3T.te - Time constant (TE). |
| cim:ExcOEX3T.tf - Time constant (TF). |
| cim:ExcOEX3T.vrmax - Limiter (VRMAX). |
| cim:ExcOEX3T.vrmin - Limiter (VRMIN). |
| cim:ExcPIC - Proportional/Integral Regulator Excitation System Model. This model can be used to represent excitation systems with a proportional-integral (PI) voltage regulator controller. |
| cim:ExcPIC.e1 - Field voltage value 1 (E1). Typical Value = 0. |
| cim:ExcPIC.e2 - Field voltage value 2 (E2). Typical Value = 0. |
| cim:ExcPIC.efdmax - Exciter maximum limit (Efdmax). Typical Value = 8. |
| cim:ExcPIC.efdmin - Exciter minimum limit (Efdmin). Typical Value = -0.87. |
| cim:ExcPIC.ka - PI controller gain (Ka). Typical Value = 3.15. |
| cim:ExcPIC.kc - Exciter regulation factor (Kc). Typical Value = 0.08. |
| cim:ExcPIC.ke - Exciter constant (Ke). Typical Value = 0. |
| cim:ExcPIC.kf - Rate feedback gain (Kf). Typical Value = 0. |
| cim:ExcPIC.ki - Current source gain (Ki). Typical Value = 0. |
| cim:ExcPIC.kp - Potential source gain (Kp). Typical Value = 6.5. |
| cim:ExcPIC.se1 - Saturation factor at E1 (Se1). Typical Value = 0. |
| cim:ExcPIC.se2 - Saturation factor at E2 (Se2). Typical Value = 0. |
| cim:ExcPIC.ta1 - PI controller time constant (Ta1). Typical Value = 1. |
| cim:ExcPIC.ta2 - Voltage regulator time constant (Ta2). Typical Value = 0.01. |
| cim:ExcPIC.ta3 - Lead time constant (Ta3). Typical Value = 0. |
| cim:ExcPIC.ta4 - Lag time constant (Ta4). Typical Value = 0. |
| cim:ExcPIC.te - Exciter time constant (Te). Typical Value = 0. |
| cim:ExcPIC.tf1 - Rate feedback time constant (Tf1). Typical Value = 0. |
| cim:ExcPIC.tf2 - Rate feedback lag time constant (Tf2). Typical Value = 0. |
| cim:ExcPIC.vr1 - PI maximum limit (Vr1). Typical Value = 1. |
| cim:ExcPIC.vr2 - PI minimum limit (Vr2). Typical Value = -0.87. |
| cim:ExcPIC.vrmax - Voltage regulator maximum limit (Vrmax). Typical Value = 1. |
| cim:ExcPIC.vrmin - Voltage regulator minimum limit (Vrmin). Typical Value = -0.87. |
| cim:ExcREXS - General Purpose Rotating Excitation System Model. This model can be used to represent a wide range of excitation systems whose DC power source is an AC or DC generator. It encompasses IEEE type AC1, AC2, DC1, and DC2 excitation system models. |
| cim:ExcREXS.e1 - Field voltage value 1 (E1). Typical Value = 3. |
| cim:ExcREXS.e2 - Field voltage value 2 (E2). Typical Value = 4. |
| cim:ExcREXS.fbf - Rate feedback signal flag (Fbf). Typical Value = fieldCurrent. |
| cim:ExcREXS.flimf - Limit type flag (Flimf). Typical Value = 0. |
| cim:ExcREXS.kc - Rectifier regulation factor (Kc). Typical Value = 0.05. |
| cim:ExcREXS.kd - Exciter regulation factor (Kd). Typical Value = 2. |
| cim:ExcREXS.ke - Exciter field proportional constant (Ke). Typical Value = 1. |
| cim:ExcREXS.kefd - Field voltage feedback gain (Kefd). Typical Value = 0. |
| cim:ExcREXS.kf - Rate feedback gain (Kf). Typical Value = 0.05. |
| cim:ExcREXS.kh - Field voltage controller feedback gain (Kh). Typical Value = 0. |
| cim:ExcREXS.kii - Field Current Regulator Integral Gain (Kii). Typical Value = 0. |
| cim:ExcREXS.kip - Field Current Regulator Proportional Gain (Kip). Typical Value = 1. |
| cim:ExcREXS.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcREXS.kvi - Voltage Regulator Integral Gain (Kvi). Typical Value = 0. |
| cim:ExcREXS.kvp - Voltage Regulator Proportional Gain (Kvp). Typical Value = 2800. |
| cim:ExcREXS.kvphz - V/Hz limiter gain (Kvphz). Typical Value = 0. |
| cim:ExcREXS.nvphz - Pickup speed of V/Hz limiter (Nvphz). Typical Value = 0. |
| cim:ExcREXS.se1 - Saturation factor at E1 (Se1). Typical Value = 0.0001. |
| cim:ExcREXS.se2 - Saturation factor at E2 (Se2). Typical Value = 0.001. |
| cim:ExcREXS.ta - Voltage Regulator time constant (Ta). Typical Value = 0.01. |
| cim:ExcREXS.tb1 - Lag time constant (Tb1). Typical Value = 0. |
| cim:ExcREXS.tb2 - Lag time constant (Tb2). Typical Value = 0. |
| cim:ExcREXS.tc1 - Lead time constant (Tc1). Typical Value = 0. |
| cim:ExcREXS.tc2 - Lead time constant (Tc2). Typical Value = 0. |
| cim:ExcREXS.te - Exciter field time constant (Te). Typical Value = 1.2. |
| cim:ExcREXS.tf - Rate feedback time constant (Tf). Typical Value = 1. |
| cim:ExcREXS.tf1 - Feedback lead time constant (Tf1). Typical Value = 0. |
| cim:ExcREXS.tf2 - Feedback lag time constant (Tf2). Typical Value = 0. |
| cim:ExcREXS.tp - Field current Bridge time constant (Tp). Typical Value = 0. |
| cim:ExcREXS.vcmax - Maximum compounding voltage (Vcmax). Typical Value = 0. |
| cim:ExcREXS.vfmax - Maximum Exciter Field Current (Vfmax). Typical Value = 47. |
| cim:ExcREXS.vfmin - Minimum Exciter Field Current (Vfmin). Typical Value = -20. |
| cim:ExcREXS.vimax - Voltage Regulator Input Limit (Vimax). Typical Value = 0.1. |
| cim:ExcREXS.vrmax - Maximum controller output (Vrmax). Typical Value = 47. |
| cim:ExcREXS.vrmin - Minimum controller output (Vrmin). Typical Value = -20. |
| cim:ExcREXS.xc - Exciter compounding reactance (Xc). Typical Value = 0. |
| cim:ExcREXSFeedbackSignalKind |
| cim:ExcSCRX - Simple excitation system model representing generic characteristics of many excitation systems; intended for use where negative field current may be a problem. |
| cim:ExcSCRX.cswitch - Power source switch (Cswitch).
true = fixed voltage of 1.0 PU
false = generator terminal voltage. |
| cim:ExcSCRX.emax - Maximum field voltage output (Emax). Typical Value = 5. |
| cim:ExcSCRX.emin - Minimum field voltage output (Emin). Typical Value = 0. |
| cim:ExcSCRX.k - Gain (K) (>0). Typical Value = 200. |
| cim:ExcSCRX.rcrfd - Rc/Rfd - ratio of field discharge resistance to field winding resistance (RcRfd). Typical Value = 0. |
| cim:ExcSCRX.tatb - Ta/Tb - gain reduction ratio of lag-lead element (TaTb). The parameter Ta is not defined explicitly. Typical Value = 0.1. |
| cim:ExcSCRX.tb - Denominator time constant of lag-lead block (Tb). Typical Value = 10. |
| cim:ExcSCRX.te - Time constant of gain block (Te) (>0). Typical Value = 0.02. |
| cim:ExcSEXS - Simplified Excitation System Model. |
| cim:ExcSEXS.efdmax - Field voltage clipping maximum limit (Efdmax). Typical Value = 5. |
| cim:ExcSEXS.efdmin - Field voltage clipping minimum limit (Efdmin). Typical Value = -5. |
| cim:ExcSEXS.emax - Maximum field voltage output (Emax). Typical Value = 5. |
| cim:ExcSEXS.emin - Minimum field voltage output (Emin). Typical Value = -5. |
| cim:ExcSEXS.k - Gain (K) (>0). Typical Value = 100. |
| cim:ExcSEXS.kc - PI controller gain (Kc). Typical Value = 0.08. |
| cim:ExcSEXS.tatb - Ta/Tb - gain reduction ratio of lag-lead element (TaTb). Typical Value = 0.1. |
| cim:ExcSEXS.tb - Denominator time constant of lag-lead block (Tb). Typical Value = 10. |
| cim:ExcSEXS.tc - PI controller phase lead time constant (Tc). Typical Value = 0. |
| cim:ExcSEXS.te - Time constant of gain block (Te). Typical Value = 0.05. |
| cim:ExcSK - Slovakian Excitation System Model. UEL and secondary voltage control are included in this model. When this model is used, there cannot be a separate underexcitation limiter or VAr controller model. |
| cim:ExcSK.efdmax - Field voltage clipping limit (Efdmax). |
| cim:ExcSK.efdmin - Field voltage clipping limit (Efdmin). |
| cim:ExcSK.emax - Maximum field voltage output (Emax). Typical Value = 20. |
| cim:ExcSK.emin - Minimum field voltage output (Emin). Typical Value = -20. |
| cim:ExcSK.k - Gain (K). Typical Value = 1. |
| cim:ExcSK.k1 - Parameter of underexcitation limit (K1). Typical Value = 0.1364. |
| cim:ExcSK.k2 - Parameter of underexcitation limit (K2). Typical Value = -0.3861. |
| cim:ExcSK.kc - PI controller gain (Kc). Typical Value = 70. |
| cim:ExcSK.kce - Rectifier regulation factor (Kce). Typical Value = 0. |
| cim:ExcSK.kd - Exciter internal reactance (Kd). Typical Value = 0. |
| cim:ExcSK.kgob - P controller gain (Kgob). Typical Value = 10. |
| cim:ExcSK.kp - PI controller gain (Kp). Typical Value = 1. |
| cim:ExcSK.kqi - PI controller gain of integral component (Kqi). Typical Value = 0. |
| cim:ExcSK.kqob - Rate of rise of the reactive power (Kqob). |
| cim:ExcSK.kqp - PI controller gain (Kqp). Typical Value = 0. |
| cim:ExcSK.nq - Dead band of reactive power (nq). Determines the range of sensitivity. Typical Value = 0.001. |
| cim:ExcSK.qconoff - Secondary voltage control state (Qc_on_off).
true = secondary voltage control is ON
false = secondary voltage control is OFF.
Typical Value = false. |
| cim:ExcSK.qz - Desired value (setpoint) of reactive power, manual setting (Qz). |
| cim:ExcSK.remote - Selector to apply automatic calculation in secondary controller model.
true = automatic calculation is activated
false = manual set is active; the use of desired value of reactive power (Qz) is required.
Typical Value = true. |
| cim:ExcSK.sbase - Apparent power of the unit (Sbase). Unit = MVA. Typical Value = 259. |
| cim:ExcSK.tc - PI controller phase lead time constant (Tc). Typical Value = 8. |
| cim:ExcSK.te - Time constant of gain block (Te). Typical Value = 0.1. |
| cim:ExcSK.ti - PI controller phase lead time constant (Ti). Typical Value = 2. |
| cim:ExcSK.tp - Time constant (Tp). Typical Value = 0.1. |
| cim:ExcSK.tr - Voltage transducer time constant (Tr). Typical Value = 0.01. |
| cim:ExcSK.uimax - Maximum error (Uimax). Typical Value = 10. |
| cim:ExcSK.uimin - Minimum error (UImin). Typical Value = -10. |
| cim:ExcSK.urmax - Maximum controller output (URmax). Typical Value = 10. |
| cim:ExcSK.urmin - Minimum controller output (URmin). Typical Value = -10. |
| cim:ExcSK.vtmax - Maximum terminal voltage input (Vtmax). Determines the range of voltage dead band. Typical Value = 1.05. |
| cim:ExcSK.vtmin - Minimum terminal voltage input (Vtmin). Determines the range of voltage dead band. Typical Value = 0.95. |
| cim:ExcSK.yp - Maximum output (Yp). Minimum output = 0. Typical Value = 1. |
| cim:ExcST1A - Modification of an old IEEE ST1A static excitation system without overexcitation limiter (OEL) and underexcitation limiter (UEL). |
| cim:ExcST1A.ilr - Exciter output current limit reference (Ilr). Typical Value = 0. |
| cim:ExcST1A.ka - Voltage regulator gain (Ka). Typical Value = 190. |
| cim:ExcST1A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.05. |
| cim:ExcST1A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0. |
| cim:ExcST1A.klr - Exciter output current limiter gain (Klr). Typical Value = 0. |
| cim:ExcST1A.ta - Voltage regulator time constant (Ta). Typical Value = 0.02. |
| cim:ExcST1A.tb - Voltage regulator time constant (Tb). Typical Value = 10. |
| cim:ExcST1A.tb1 - Voltage regulator time constant (Tb1). Typical Value = 0. |
| cim:ExcST1A.tc - Voltage regulator time constant (Tc). Typical Value = 1. |
| cim:ExcST1A.tc1 - Voltage regulator time constant (Tc1). Typical Value = 0. |
| cim:ExcST1A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcST1A.vamax - Maximum voltage regulator output (Vamax). Typical Value = 999. |
| cim:ExcST1A.vamin - Minimum voltage regulator output (Vamin). Typical Value = -999. |
| cim:ExcST1A.vimax - Maximum voltage regulator input limit (Vimax). Typical Value = 999. |
| cim:ExcST1A.vimin - Minimum voltage regulator input limit (Vimin). Typical Value = -999. |
| cim:ExcST1A.vrmax - Maximum voltage regulator outputs (Vrmax). Typical Value = 7.8. |
| cim:ExcST1A.vrmin - Minimum voltage regulator outputs (Vrmin). Typical Value = -6.7. |
| cim:ExcST1A.xe - Excitation xfmr effective reactance (Xe). Typical Value = 0.04. |
| cim:ExcST2A - Modified IEEE ST2A static excitation system - another lead-lag block added to match the model defined by WECC. |
| cim:ExcST2A.efdmax - Maximum field voltage (Efdmax). Typical Value = 99. |
| cim:ExcST2A.ka - Voltage regulator gain (Ka). Typical Value = 120. |
| cim:ExcST2A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 1.82. |
| cim:ExcST2A.ke - Exciter constant related to self-excited field (Ke). Typical Value = 1. |
| cim:ExcST2A.kf - Excitation control system stabilizer gains (Kf). Typical Value = 0.05. |
| cim:ExcST2A.ki - Potential circuit gain coefficient (Ki). Typical Value = 8. |
| cim:ExcST2A.kp - Potential circuit gain coefficient (Kp). Typical Value = 4.88. |
| cim:ExcST2A.ta - Voltage regulator time constant (Ta). Typical Value = 0.15. |
| cim:ExcST2A.tb - Voltage regulator time constant (Tb). Typical Value = 0. |
| cim:ExcST2A.tc - Voltage regulator time constant (Tc). Typical Value = 0. |
| cim:ExcST2A.te - Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.5. |
| cim:ExcST2A.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 0.7. |
| cim:ExcST2A.uelin - UEL input (UELin).
true = HV gate
false = add to error signal.
Typical Value = false. |
| cim:ExcST2A.vrmax - Maximum voltage regulator outputs (Vrmax). Typical Value = 1. |
| cim:ExcST2A.vrmin - Minimum voltage regulator outputs (Vrmin). Typical Value = -1. |
| cim:ExcST3A - Modified IEEE ST3A static excitation system with added speed multiplier. |
| cim:ExcST3A.efdmax - Maximum AVR output (Efdmax). Typical Value = 6.9. |
| cim:ExcST3A.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 1.1. |
| cim:ExcST3A.kg - Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 1. |
| cim:ExcST3A.ki - Potential circuit gain coefficient (Ki). Typical Value = 4.83. |
| cim:ExcST3A.kj - AVR gain (Kj). Typical Value = 200. |
| cim:ExcST3A.km - Forward gain constant of the inner loop field regulator (Km). Typical Value = 7.04. |
| cim:ExcST3A.kp - Potential source gain (Kp) (>0). Typical Value = 4.37. |
| cim:ExcST3A.ks - Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0. |
| cim:ExcST3A.ks1 - Coefficient to allow different usage of the model-speed coefficient (Ks1). Typical Value = 0. |
| cim:ExcST3A.tb - Voltage regulator time constant (Tb). Typical Value = 6.67. |
| cim:ExcST3A.tc - Voltage regulator time constant (Tc). Typical Value = 1. |
| cim:ExcST3A.thetap - Potential circuit phase angle (thetap). Typical Value = 20. |
| cim:ExcST3A.tm - Forward time constant of inner loop field regulator (Tm). Typical Value = 1. |
| cim:ExcST3A.vbmax - Maximum excitation voltage (Vbmax). Typical Value = 8.63. |
| cim:ExcST3A.vgmax - Maximum inner loop feedback voltage (Vgmax). Typical Value = 6.53. |
| cim:ExcST3A.vimax - Maximum voltage regulator input limit (Vimax). Typical Value = 0.2. |
| cim:ExcST3A.vimin - Minimum voltage regulator input limit (Vimin). Typical Value = -0.2. |
| cim:ExcST3A.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 1. |
| cim:ExcST3A.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = 0. |
| cim:ExcST3A.xl - Reactance associated with potential source (Xl). Typical Value = 0.09. |
| cim:ExcST4B - Modified IEEE ST4B static excitation system with maximum inner loop feedback gain Vgmax. |
| cim:ExcST4B.kc - Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.113. |
| cim:ExcST4B.kg - Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 0. |
| cim:ExcST4B.ki - Potential circuit gain coefficient (Ki). Typical Value = 0. |
| cim:ExcST4B.kim - Voltage regulator integral gain output (Kim). Typical Value = 0. |
| cim:ExcST4B.kir - Voltage regulator integral gain (Kir). Typical Value = 10.75. |
| cim:ExcST4B.kp - Potential circuit gain coefficient (Kp). Typical Value = 9.3. |
| cim:ExcST4B.kpm - Voltage regulator proportional gain output (Kpm). Typical Value = 1. |
| cim:ExcST4B.kpr - Voltage regulator proportional gain (Kpr). Typical Value = 10.75. |
| cim:ExcST4B.lvgate - Selector (LVgate).
true = LVgate is part of the block diagram
false = LVgate is not part of the block diagram.
Typical Value = false. |
| cim:ExcST4B.ta - Voltage regulator time constant (Ta). Typical Value = 0.02. |
| cim:ExcST4B.thetap - Potential circuit phase angle (thetap). Typical Value = 0. |
| cim:ExcST4B.uel - Selector (Uel).
true = UEL is part of block diagram
false = UEL is not part of block diagram.
Typical Value = false. |
| cim:ExcST4B.vbmax - Maximum excitation voltage (Vbmax). Typical Value = 11.63. |
| cim:ExcST4B.vgmax - Maximum inner loop feedback voltage (Vgmax). Typical Value = 5.8. |
| cim:ExcST4B.vmmax - Maximum inner loop output (Vmmax). Typical Value = 99. |
| cim:ExcST4B.vmmin - Minimum inner loop output (Vmmin). Typical Value = -99. |
| cim:ExcST4B.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 1. |
| cim:ExcST4B.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -0.87. |
| cim:ExcST4B.xl - Reactance associated with potential source (Xl). Typical Value = 0.124. |
| cim:ExcST6B - Modified IEEE ST6B static excitation system with PID controller and optional inner feedbacks loop. |
| cim:ExcST6B.ilr - Exciter output current limit reference (Ilr). Typical Value = 4.164. |
| cim:ExcST6B.k1 - Selector (K1).
true = feedback is from Ifd
false = feedback is not from Ifd.
Typical Value = true. |
| cim:ExcST6B.kcl - Exciter output current limit adjustment (Kcl). Typical Value = 1.0577. |
| cim:ExcST6B.kff - Pre-control gain constant of the inner loop field regulator (Kff). Typical Value = 1. |
| cim:ExcST6B.kg - Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 1. |
| cim:ExcST6B.kia - Voltage regulator integral gain (Kia). Typical Value = 45.094. |
| cim:ExcST6B.klr - Exciter output current limit adjustment (Kcl). Typical Value = 17.33. |
| cim:ExcST6B.km - Forward gain constant of the inner loop field regulator (Km). Typical Value = 1. |
| cim:ExcST6B.kpa - Voltage regulator proportional gain (Kpa). Typical Value = 18.038. |
| cim:ExcST6B.kvd - Voltage regulator derivative gain (Kvd). Typical Value = 0. |
| cim:ExcST6B.oelin - OEL input selector (OELin). Typical Value = noOELinput. |
| cim:ExcST6B.tg - Feedback time constant of inner loop field voltage regulator (Tg). Typical Value = 0.02. |
| cim:ExcST6B.ts - Rectifier firing time constant (Ts). Typical Value = 0. |
| cim:ExcST6B.tvd - Voltage regulator derivative gain (Tvd). Typical Value = 0. |
| cim:ExcST6B.vamax - Maximum voltage regulator output (Vamax). Typical Value = 4.81. |
| cim:ExcST6B.vamin - Minimum voltage regulator output (Vamin). Typical Value = -3.85. |
| cim:ExcST6B.vilim - Selector (Vilim).
true = Vimin-Vimax limiter is active
false = Vimin-Vimax limiter is not active.
Typical Value = true. |
| cim:ExcST6B.vimax - Maximum voltage regulator input limit (Vimax). Typical Value = 10. |
| cim:ExcST6B.vimin - Minimum voltage regulator input limit (Vimin). Typical Value = -10. |
| cim:ExcST6B.vmult - Selector (Vmult).
true = multiply regulator output by terminal voltage
false = do not multiply regulator output by terminal voltage.
Typical Value = true. |
| cim:ExcST6B.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 4.81. |
| cim:ExcST6B.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -3.85. |
| cim:ExcST6B.xc - Excitation source reactance (Xc). Typical Value = 0.05. |
| cim:ExcST6BOELselectorKind |
| cim:ExcST7B - Modified IEEE ST7B static excitation system without stator current limiter (SCL) and current compensator (DROOP) inputs. |
| cim:ExcST7B.kh - High-value gate feedback gain (Kh). Typical Value = 1. |
| cim:ExcST7B.kia - Voltage regulator integral gain (Kia). Typical Value = 1. |
| cim:ExcST7B.kl - Low-value gate feedback gain (Kl). Typical Value = 1. |
| cim:ExcST7B.kpa - Voltage regulator proportional gain (Kpa). Typical Value = 40. |
| cim:ExcST7B.oelin - OEL input selector (OELin). Typical Value = noOELinput. |
| cim:ExcST7B.tb - Regulator lag time constant (Tb). Typical Value = 1. |
| cim:ExcST7B.tc - Regulator lead time constant (Tc). Typical Value = 1. |
| cim:ExcST7B.tf - Excitation control system stabilizer time constant (Tf). Typical Value = 1. |
| cim:ExcST7B.tg - Feedback time constant of inner loop field voltage regulator (Tg). Typical Value = 1. |
| cim:ExcST7B.tia - Feedback time constant (Tia). Typical Value = 3. |
| cim:ExcST7B.ts - Rectifier firing time constant (Ts). Typical Value = 0. |
| cim:ExcST7B.uelin - UEL input selector (UELin). Typical Value = noUELinput. |
| cim:ExcST7B.vmax - Maximum voltage reference signal (Vmax). Typical Value = 1.1. |
| cim:ExcST7B.vmin - Minimum voltage reference signal (Vmin). Typical Value = 0.9. |
| cim:ExcST7B.vrmax - Maximum voltage regulator output (Vrmax). Typical Value = 5. |
| cim:ExcST7B.vrmin - Minimum voltage regulator output (Vrmin). Typical Value = -4.5. |
| cim:ExcST7BOELselectorKind |
| cim:ExcST7BUELselectorKind |
| cim:ExecutionType |
| cim:ExpectedEnergy - Model Expected Energy from Market Clearing, interval based |
| cim:ExpectedEnergy.intervalStartTime |
| cim:ExpectedEnergy.updateTimeStamp |
| cim:ExpectedEnergy.updateUser |
| cim:ExpectedEnergyValues - Model Expected Energy from Market Clearing |
| cim:ExpectedEnergyValues.energyTypeCode |
| cim:ExpectedEnergyValues.ExpectedEnergy - |
| cim:ExpectedEnergyValues.expectedMwh |
| cim:ExpectedEnergyValues.RegisteredResource - |
| cim:experimental |
| cim:exponential |
| cim:exponentialRecovery |
| cim:ExPostLoss - Model of ex-post calcultion of MW losses. |
| cim:ExPostLoss.ExPostLossResults - |
| cim:ExPostLossResults - Model results of ex-post calculation of MW losses. Summarizes loss in two categories losses on the the extra high voltage transmission and total losses. Calculated for each subcontrol area. |
| cim:ExPostLossResults.ehvLossMW - EHV MW losses in the company
Attribute Usage: Information purposes - Output of LPA engine. |
| cim:ExPostLossResults.totalLossMW - Total MW losses in the company
Attribute Usage: Information purposes - Output of LPA engine. |
| cim:ExPostMarketRegion - Model of ex-post calculation of cleared MW on a regional basis |
| cim:ExPostMarketRegion.ExPostMarketRegionResults - |
| cim:ExPostMarketRegionResults - Model of expost calculation of cleared MW on a region basis. Includes cleared price |
| cim:ExPostMarketRegionResults.exPostClearedPrice |
| cim:ExPostPricing - Model of ex-post pricing of nodes |
| cim:ExPostPricing.energyPrice - market energy price |
| cim:ExPostPricing.ExPostPricingResults - |
| cim:ExPostPricingResults - Model of ex-post pricing of nodes. Includes LMP information, pnode based. |
| cim:ExPostPricingResults.congestLMP - Congestion component of Location Marginal Price (LMP) in monetary units per MW; congestion component of the hourly LMP at a specific pricing node
Attribute Usage: Result of the Security, Pricing, and Dispatch(SPD)/Simultaneous Feasibility Test(SFT) software and denotes the hourly congestion component of LMP for each pricing node. |
| cim:ExPostPricingResults.lmp - 5 min weighted average LMP; the Location Marginal Price of the Pnode for which price calculation is carried out.
Attribute Usage: 5 min weighted average LMP to be displayed on UI |
| cim:ExPostPricingResults.lossLMP - Loss component of Location Marginal Price (LMP) in monetary units per MW; loss component of the hourly LMP at a specific pricing node
Attribute Usage: Result of the Security, Pricing, and Dispatch(SPD)/Simultaneous Feasibility Test(SFT) software and denotes the hourly loss component of LMP for each pricing node. |
| cim:ExPostPricingResults.Pnode - |
| cim:ExPostResource - Model of ex-post pricing of resources. |
| cim:ExPostResource.ExPostResourceResults - |
| cim:ExPostResourceResults - Model of ex-post pricing of resources contains components of LMPs: energy, congestion, loss. Resource based. |
| cim:ExPostResourceResults.congestionLMP - LMP component in USD (deprecated) |
| cim:ExPostResourceResults.desiredMW - Desired output of unit |
| cim:ExPostResourceResults.dispatchRate - Unit Dispatch rate from real time unit dispatch. |
| cim:ExPostResourceResults.lmp - LMP (Local Marginal Price) in USD at the equipment (deprecated) |
| cim:ExPostResourceResults.lossLMP - loss lmp (deprecated) |
| cim:ExPostResourceResults.maxEconomicMW - Economic Maximum MW |
| cim:ExPostResourceResults.minEconomicMW - Economic Minimum MW |
| cim:ExPostResourceResults.resourceMW - Current MW output of the equipment
Attribute Usage: Information purposes - Information purposes - Output of LPA engine. |
| cim:ExPostResourceResults.status - Status of equipment |
| cim:external |
| cim:ExternalCustomerAgreement - A type of customer agreement involving an external agency. For example, a customer may form a contracts with an Energy Service Supplier if Direct Access is permitted. |
| cim:ExternalNetworkInjection - This class represents external network and it is used for IEC 60909 calculations. |
| cim:ExternalNetworkInjection.governorSCD - Power Frequency Bias. This is the change in power injection divided by the change in frequency and negated. A positive value of the power frequency bias provides additional power injection upon a drop in frequency. |
| cim:ExternalNetworkInjection.ikSecond - Indicates whether initial symmetrical short-circuit current and power have been calculated according to IEC (Ik"). |
| cim:ExternalNetworkInjection.maxInitialSymShCCurrent - Maximum initial symmetrical short-circuit currents (Ik" max) in A (Ik" = Sk"/(SQRT(3) Un)). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.maxP - Maximum active power of the injection. |
| cim:ExternalNetworkInjection.maxQ - Not for short circuit modelling; It is used for modelling of infeed for load flow exchange. If maxQ and minQ are not used ReactiveCapabilityCurve can be used |
| cim:ExternalNetworkInjection.maxR0ToX0Ratio - Maximum ratio of zero sequence resistance of Network Feeder to its zero sequence reactance (R(0)/X(0) max). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.maxR1ToX1Ratio - Maximum ratio of positive sequence resistance of Network Feeder to its positive sequence reactance (R(1)/X(1) max). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.maxZ0ToZ1Ratio - Maximum ratio of zero sequence impedance to its positive sequence impedance (Z(0)/Z(1) max). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.minInitialSymShCCurrent - Minimum initial symmetrical short-circuit currents (Ik" min) in A (Ik" = Sk"/(SQRT(3) Un)). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.minP - Minimum active power of the injection. |
| cim:ExternalNetworkInjection.minQ - Not for short circuit modelling; It is used for modelling of infeed for load flow exchange. If maxQ and minQ are not used ReactiveCapabilityCurve can be used |
| cim:ExternalNetworkInjection.minR0ToX0Ratio - Indicates whether initial symmetrical short-circuit current and power have been calculated according to IEC (Ik"). Used for short circuit data exchange according to IEC 6090 |
| cim:ExternalNetworkInjection.minR1ToX1Ratio - Minimum ratio of positive sequence resistance of Network Feeder to its positive sequence reactance (R(1)/X(1) min). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.minZ0ToZ1Ratio - Minimum ratio of zero sequence impedance to its positive sequence impedance (Z(0)/Z(1) min). Used for short circuit data exchange according to IEC 60909 |
| cim:ExternalNetworkInjection.p - Active power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:ExternalNetworkInjection.q - Reactive power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for steady state solutions. |
| cim:ExternalNetworkInjection.referencePriority - Priority of unit for use as powerflow voltage phase angle reference bus selection. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on. |
| cim:ExternalNetworkInjection.voltageFactor - Voltage factor in pu, which was used to calculate short-circuit current Ik" and power Sk". |
| cim:f |
| cim:F |
| cim:Facility - A facility may contain buildings, storage facilities, switching facilities, power generation, manufacturing facilities, maintenance facilities, etc. |
| cim:Facility.kind - Kind of this facility. |
| cim:FACTOR |
| cim:FACTSDevice - FACTS device asset. |
| cim:FACTSDevice.kind - Kind of FACTS device. |
| cim:FACTSDeviceKind |
| cim:FailureEvent - An event where an asset has failed to perform its functions within specified parameters. |
| cim:FailureEvent.corporateCode - Code for asset failure. |
| cim:FailureEvent.failureIsolationMethod - How the asset failure was isolated from the system. |
| cim:FailureEvent.faultLocatingMethod - The method used for locating the faulted part of the asset. For example, cable options include: Cap Discharge-Thumping, Bridge Method, Visual Inspection, Other. |
| cim:FailureEvent.location - Failure location on an object. |
| cim:FailureIsolationMethodKind |
| cim:fan |
| cim:Fault - Abnormal condition causing current flow through conducting equipment, such as caused by equipment failure or short circuits from objects not typically modeled (for example, a tree falling on a line). |
| cim:Fault.impedance - Fault impedance. Its usage is described by 'kind'. |
| cim:Fault.kind - The kind of phase fault. |
| cim:Fault.Outage - Outage associated with this fault.All faults involved in this outage. |
| cim:Fault.phases - The phases participating in the fault. The fault connections into these phases are further specified by the type of fault. |
| cim:FaultCauseType - Type of cause of the fault. |
| cim:FaultCauseType.Fault - All faults with this cause type.All types of fault cause. |
| cim:FaultImpedance - Impedance description for the fault. |
| cim:FaultImpedance.rGround - The resistance of the fault between phases and ground. |
| cim:FaultImpedance.rLineToLine - The resistance of the fault between phases. |
| cim:FaultImpedance.xGround - The reactance of the fault between phases and ground. |
| cim:FaultImpedance.xLineToLine - The reactance of the fault between phases. |
| cim:FaultIndicator - A FaultIndicator is typically only an indicator (which may or may not be remotely monitored), and not a piece of equipment that actually initiates a protection event. It is used for FLISR (Fault Location, Isolation and Restoration) purposes, assisting with the dispatch of crews to "most likely" part of the network (i.e. assists with determining circuit section where the fault most likely happened). |
| cim:FaultIndicatorInfo - Parameters of fault indicator asset. |
| cim:FaultIndicatorInfo.resetKind - Kind of reset mechanisim of this fault indicator. |
| cim:FaultIndicatorResetKind |
| cim:fdpf |
| cim:FG_act |
| cim:fieldCurrent |
| cim:FieldSafetySupervisor - Crew member on work site responsible for all local safety measures for the work crew doing maintenance, construction and repair in a substation or on a power line/cable. |
| cim:fieldVoltage |
| cim:fifteenMinute |
| cim:fifthMaximum |
| cim:FinancialInfo - Various current financial properties associated with a particular asset. Historical properties may be determined by ActivityRecords associated with the asset. |
| cim:FinancialInfo.account - The account to which this actual material item is charged. |
| cim:FinancialInfo.actualPurchaseCost - The actual purchase cost of this particular asset. |
| cim:FinancialInfo.costDescription - Description of the cost. |
| cim:FinancialInfo.costType - Type of cost to which this Material Item belongs. |
| cim:FinancialInfo.financialValue - Value of asset as of 'valueDateTime'. |
| cim:FinancialInfo.plantTransferDateTime - Date and time asset's financial value was put in plant for regulatory accounting purposes (e.g., for rate base calculations). This is sometime referred to as the "in-service date". |
| cim:FinancialInfo.purchaseDateTime - Date and time asset was purchased. |
| cim:FinancialInfo.purchaseOrderNumber - Purchase order identifier. |
| cim:FinancialInfo.quantity - The quantity of the asset if per unit length, for example conductor. |
| cim:FinancialInfo.valueDateTime - Date and time at which the financial value was last established. |
| cim:FinancialInfo.warrantyEndDateTime - Date and time warranty on asset expires. |
| cim:FIRM |
| cim:FiveMinAuxiliaryData - Models 5-Minutes Auxillary Data |
| cim:FiveMinAuxiliaryData.intervalStartTime |
| cim:FiveMinAuxiliaryData.updateTimeStamp |
| cim:FiveMinAuxiliaryData.updateUser |
| cim:fiveMinute |
| cim:fixed |
| cim:FIXED_CONSTRAINT |
| cim:fixedBlock10Min |
| cim:fixedBlock15Min |
| cim:fixedBlock1Min |
| cim:fixedBlock20Min |
| cim:fixedBlock30Min |
| cim:fixedBlock5Min |
| cim:fixedBlock60Min |
| cim:FJD |
| cim:FKP |
| cim:FLAG |
| cim:FlagTypeRMR |
| cim:Fleeting |
| cim:FloatQuantity - Quantity with float value and associated unit information. |
| cim:FloatQuantity.multiplier |
| cim:FloatQuantity.unit |
| cim:FloatQuantity.value |
| cim:FlowDirection - The coded identification of the direction of energy flow. |
| cim:FlowDirection.direction - The coded identification of the direction of energy flow. |
| cim:FlowDirection.TimeSeries - |
| cim:FlowDirectionKind |
| cim:FlowDirectionType |
| cim:Flowgate - A flowgate, is single or group of transmission elements intended to model MW flow impact relating to transmission limitations and transmission service usage. |
| cim:Flowgate.CRR - |
| cim:Flowgate.direction - The direction of the flowgate, export or import |
| cim:Flowgate.endEffectiveDate - end effective date |
| cim:Flowgate.exportMWRating - Export MW rating |
| cim:Flowgate.GeneratingUnitDynamicValues - |
| cim:Flowgate.GenericConstraints - |
| cim:Flowgate.HostControlArea - |
| cim:Flowgate.importMWRating - Import MW rating |
| cim:Flowgate.MktTerminal - |
| cim:Flowgate.startEffectiveDate - start effective date |
| cim:Flowgate.ViolationLimit - |
| cim:FlowgatePartner - Flowgate defined partner |
| cim:FlowgateRelief - IDC (Interchange Distribution Calulator) sends data for a TLR (Transmission Loading Relief). |
| cim:FlowgateRelief.effectiveDate - Date/Time when record becomes effective
Used to determine when a record becomes effective. |
| cim:FlowgateRelief.Flowgate - |
| cim:FlowgateRelief.idcTargetMktFlow - Energy Flow level that should be maintained according to the TLR rules as specified by the IDC.
For Realtime Markets use in dispatch to control constraints under TLR and calculate unconstrained market flows |
| cim:FlowgateRelief.terminateDate - Date/Time when record is no longer effective
Used to determine when a record is no longer effective |
| cim:FlowgateValue - Day Ahead, Network Native Load, Economic Dispatch, values used for calculation of Network Native Load (NNL) Determinator process. |
| cim:FlowgateValue.economicDispatchLimit - Limit for Economic Dispatch priority 6 energy flow on the specified flowgate for the specified time period. |
| cim:FlowgateValue.effectiveDate - Date/Time when record becomes effective
Used to determine when a record becomes effective |
| cim:FlowgateValue.firmNetworkLimit - Limit for firm flow on the specified flowgate for the specified time period. The amount of energy flow over a specifed flowgate due to generation in the market which can be classified as Firm Network priority. |
| cim:FlowgateValue.flowDirectionFlag - Specifies the direction of energy flow in the flowgate |
| cim:FlowgateValue.Flowgate - |
| cim:FlowgateValue.FlowgatePartner - |
| cim:FlowgateValue.mktFlow - The amount of energy flow over a specifed flowgate due to generation in the market. |
| cim:FlowgateValue.netFirmNetworkLimit - Net Energy flow in flowgate for the associated FlowgatePartner |
| cim:FlowSensor - Represents a two terminal and power conducting device of negligible impedance that senses flow through the device. |
| cim:FO |
| cim:following |
| cim:ForbiddenRegion - Forbbiden region is operating ranges where the units are unable to maintain steady operation without causing equipment damage. The four attributes that define a forbidden region are the low MW, the High MW, the crossing time, and the crossing cost. |
| cim:ForbiddenRegion.crossingCost - Cost associated with crossing the forbidden region |
| cim:ForbiddenRegion.crossTime - Time to cross the forbidden region in minutes. |
| cim:ForbiddenRegion.highMW - High end of the region definition |
| cim:ForbiddenRegion.lowMW - Low end of the region definition. |
| cim:ForbiddenRegion.RegisteredResource - |
| cim:Forced_Termination |
| cim:forcedAir |
| cim:forcedOilAndAir |
| cim:Forecast |
| cim:Forecasted_UDC_Direct_Access_Load |
| cim:FormerReference - Used to indicate former references to the same piece of equipment. The ID, name, and effectivity dates are utilized. |
| cim:FormerReference.RegisteredResource - |
| cim:forward |
| cim:Forward |
| cim:FossilFuel - The fossil fuel consumed by the non-nuclear thermal generating unit. For example, coal, oil, gas, etc. This a the specific fuels that the generating unit can consume. |
| cim:FossilFuel.fossilFuelType - The type of fossil fuel, such as coal, oil, or gas. |
| cim:FossilFuel.fuelCost - The cost in terms of heat value for the given type of fuel. |
| cim:FossilFuel.fuelDispatchCost - The cost of fuel used for economic dispatching which includes: fuel cost, transportation cost, and incremental maintenance cost. |
| cim:FossilFuel.fuelEffFactor - The efficiency factor for the fuel (per unit) in terms of the effective energy absorbed. |
| cim:FossilFuel.fuelHandlingCost - Handling and processing cost associated with this fuel. |
| cim:FossilFuel.fuelHeatContent - The amount of heat per weight (or volume) of the given type of fuel. |
| cim:FossilFuel.fuelMixture - Relative amount of the given type of fuel, when multiple fuels are being consumed. |
| cim:FossilFuel.fuelSulfur - The fuel's fraction of pollution credit per unit of heat content. |
| cim:FossilFuel.highBreakpointP - The active power output level of the unit at which the given type of fuel is switched on. This fuel (e.g., oil) is sometimes used to supplement the base fuel (e.g., coal) at high active power output levels. |
| cim:FossilFuel.lowBreakpointP - The active power output level of the unit at which the given type of fuel is switched off. This fuel (e.g., oil) is sometimes used to stabilize the base fuel (e.g., coal) at low active power output levels. |
| cim:FossilSteamSupply - Fossil fueled boiler (e.g., coal, oil, gas). |
| cim:FossilSteamSupply.auxPowerVersusFrequency - Off nominal frequency effect on auxiliary real power. Per unit active power variation versus per unit frequency variation. |
| cim:FossilSteamSupply.auxPowerVersusVoltage - Off nominal voltage effect on auxiliary real power. Per unit active power variation versus per unit voltage variation. |
| cim:FossilSteamSupply.boilerControlMode - The control mode of the boiler. |
| cim:FossilSteamSupply.controlErrorBiasP - Active power error bias ratio. |
| cim:FossilSteamSupply.controlIC - Integral constant. |
| cim:FossilSteamSupply.controlPC - Proportional constant. |
| cim:FossilSteamSupply.controlPEB - Pressure error bias ratio. |
| cim:FossilSteamSupply.controlPED - Pressure error deadband. |
| cim:FossilSteamSupply.controlTC - Time constant. |
| cim:FossilSteamSupply.feedWaterIG - Feedwater integral gain ratio. |
| cim:FossilSteamSupply.feedWaterPG - Feedwater proportional gain ratio. |
| cim:FossilSteamSupply.feedWaterTC - Feedwater time constant rato. |
| cim:FossilSteamSupply.fuelDemandLimit - Fuel demand limit. |
| cim:FossilSteamSupply.fuelSupplyDelay - Fuel delay. |
| cim:FossilSteamSupply.fuelSupplyTC - Fuel supply time constant. |
| cim:FossilSteamSupply.maxErrorRateP - Active power maximum error rate limit. |
| cim:FossilSteamSupply.mechPowerSensorLag - Mechanical power sensor lag. |
| cim:FossilSteamSupply.minErrorRateP - Active power minimum error rate limit. |
| cim:FossilSteamSupply.pressureCtrlDG - Pressure control derivative gain ratio. |
| cim:FossilSteamSupply.pressureCtrlIG - Pressure control integral gain ratio. |
| cim:FossilSteamSupply.pressureCtrlPG - Pressure control proportional gain ratio. |
| cim:FossilSteamSupply.pressureFeedback - Pressure feedback indicator. |
| cim:FossilSteamSupply.superHeater1Capacity - Drum/primary superheater capacity. |
| cim:FossilSteamSupply.superHeater2Capacity - Secondary superheater capacity. |
| cim:FossilSteamSupply.superHeaterPipePD - Superheater pipe pressure drop constant. |
| cim:FossilSteamSupply.throttlePressureSP - Throttle pressure setpoint. |
| cim:fourthMaximum |
| cim:FPerm |
| cim:fpomega |
| cim:fpslip |
| cim:Frame - A region isolated by boundaries. |
| cim:Frame.Boundary - |
| cim:FrameworkPart - The type of alternate model frame. For example, it could be generator group used to represent generators in state estimator, planning, planning dynamics, short circuit, or real-time dynamics etc., but does not specifically represent any one alternative model. This need to know what objects to be removed in the realization of any one alternate model. |
| cim:FrameworkPart.Frame - |
| cim:FrameworkPart.ModelSpecification - Models of the model frame.Model frame of the model part. |
| cim:FrancisGovernorControlKind |
| cim:freeBreathing |
| cim:Frequency - Cycles per second. |
| cim:frequency |
| cim:Frequency.multiplier |
| cim:Frequency.unit |
| cim:Frequency.value |
| cim:FrequencyConverter - A device to convert from one frequency to another (e.g., frequency F1 to F2) comprises a pair of FrequencyConverter instances. One converts from F1 to DC, the other converts the DC to F2. |
| cim:FrequencyConverter.frequency - Frequency on the AC side. |
| cim:FrequencyConverter.maxP - The maximum active power on the DC side at which the frequence converter should operate. |
| cim:FrequencyConverter.maxU - The maximum voltage on the DC side at which the frequency converter should operate. |
| cim:FrequencyConverter.minP - The minimum active power on the DC side at which the frequence converter should operate. |
| cim:FrequencyConverter.minU - The minimum voltage on the DC side at which the frequency converter should operate. |
| cim:frequencyExcursion |
| cim:fromDevice |
| cim:ft3 |
| cim:FTR - Financial Transmission Rights (FTR) regarding transmission capacity at a flowgate. |
| cim:FTR.action - Buy, Sell |
| cim:FTR.baseEnergy - Quantity, typically MWs - Seller owns all rights being offered, MWs over time on same Point of Receipt, Point of Delivery, or Resource. |
| cim:FTR.class - Peak, Off-peak, 24-hour |
| cim:FTR.EnergyPriceCurve - |
| cim:FTR.Flowgate - |
| cim:FTR.ftrType - Type of rights being offered (product) allowed to be auctioned (option, obligation). |
| cim:FTR.optimized - Fixed (covers re-configuration, grandfathering) or Optimized (up for sale/purchase |
| cim:FUEL_REGION_value |
| cim:FuelAllocationSchedule - The amount of fuel of a given type which is allocated for consumption over a specified period of time. |
| cim:FuelAllocationSchedule.FossilFuel - A fuel allocation schedule must have a fossil fuel.A fuel allocation schedule must have a fossil fuel. |
| cim:FuelAllocationSchedule.fuelAllocationEndDate - The end time and date of the fuel allocation schedule. |
| cim:FuelAllocationSchedule.fuelAllocationStartDate - The start time and date of the fuel allocation schedule. |
| cim:FuelAllocationSchedule.fuelType - The type of fuel, which also indicates the corresponding measurement unit. |
| cim:FuelAllocationSchedule.maxFuelAllocation - The maximum amount fuel that is allocated for consumption for the scheduled time period. |
| cim:FuelAllocationSchedule.minFuelAllocation - The minimum amount fuel that is allocated for consumption for the scheduled time period, e.g., based on a "take-or-pay" contract. |
| cim:FuelCostCurve - Relationship between unit fuel cost in $/kWh(Y-axis) and unit output in MW (X-axis). |
| cim:FuelRegion - Indication of region for fuel inventory purposes |
| cim:FuelRegion.endEffectiveDate - end effective date |
| cim:FuelRegion.fuelRegionType - The type of fuel region |
| cim:FuelRegion.GasPrice - |
| cim:FuelRegion.lastModified - Time of last update |
| cim:FuelRegion.OilPrice - |
| cim:FuelRegion.RTO - |
| cim:FuelRegion.startEffectiveDate - start effective date |
| cim:FuelSource |
| cim:FuelType |
| cim:fuelValveStroke |
| cim:full |
| cim:fund |
| cim:Fuse - An overcurrent protective device with a circuit opening fusible part that is heated and severed by the passage of overcurrent through it. A fuse is considered a switching device because it breaks current. |
| cim:fuse |
| cim:G |
| cim:GA |
| cim:gal |
| cim:gas |
| cim:GAS |
| cim:gasMetering |
| cim:GasPrice - Price of gas in monetary units |
| cim:GasPrice.gasPriceIndex - The average natural gas price at a defined fuel region. |
| cim:Gate - Logical gate than support logical operation based on the input. |
| cim:Gate.GateInputPin - |
| cim:Gate.kind - The logical operation of the gate. |
| cim:Gate.ProtectiveAction - |
| cim:Gate.StageTrigger - |
| cim:Gate.TriggerCondition - |
| cim:GateInputPin - Input pin for a logical gate. The condition described in the input pin will give a logical true or false. Result from measurement and calculation are converted to a true or false. |
| cim:GateInputPin.absoluteValue - If true, use the absolute value for compare.. |
| cim:GateInputPin.aDLogicKind - The compare operation. |
| cim:GateInputPin.duration - The duration the compare condition need to be present before given a true. Default is 0 seconds. |
| cim:GateInputPin.negate - Invert/negate the result of the compare. |
| cim:GateInputPin.thresholdPercentage - The threshold percentage that should be used for compare with the percentage change between input value and threshold value. |
| cim:GateInputPin.thresholdValue - The threshold value that should be used for compare with the input value. |
| cim:GateLogicKind |
| cim:GBP |
| cim:ge |
| cim:GEL |
| cim:GEN |
| cim:GenDistributionFactor - This class models the generation distribution factors. This class needs to be used along with the AggregatedPnode and the IndividualPnode to show the distriubtion of each individual party. |
| cim:GenDistributionFactor.AggregatedPnode - |
| cim:GenDistributionFactor.DistributionFactorSet - |
| cim:GenDistributionFactor.factor - Used to calculate generation "participation" of an individual pnond in an AggregatePnode. |
| cim:GenDistributionFactor.IndividualPnode - |
| cim:GeneralClearing - Model of clearing result of the market run at the market level. Identifies interval |
| cim:GeneralClearingResults - Provides the adjusted load forecast value on a load forecast zone basis. |
| cim:GeneralClearingResults.GeneralClearing - |
| cim:GeneralClearingResults.loadForecast - Load Prediction/Forecast (MW), by Time Period (5', 10', 15') |
| cim:GeneralClearingResults.SubControlArea - |
| cim:GeneralClearingResults.totalLoad - Amount of load in the control zone
Attribute Usage: hourly load value for the specific area |
| cim:GeneralClearingResults.totalNetInterchange - Amount of interchange for the control zone
Attribute Usage: hourly interchange value for the specific area |
| cim:GeneratingBid - Offer to supply energy/ancillary services from a generating unit or resource |
| cim:GeneratingBid.combinedCycleUnitOffer - Will indicate if the unit is part of a CC offer or not |
| cim:GeneratingBid.downTimeMax - Maximum down time. |
| cim:GeneratingBid.installedCapacity - Installed Capacity value |
| cim:GeneratingBid.lowerRampRate - Maximum Dn ramp rate in MW/min |
| cim:GeneratingBid.maxEmergencyMW - Power rating available for unit under emergency conditions greater than or equal to maximum economic limit. |
| cim:GeneratingBid.maximumEconomicMW - Maximum high economic MW limit, that should not exceed the maximum operating MW limit |
| cim:GeneratingBid.minEmergencyMW - Minimum power rating for unit under emergency conditions, which is less than or equal to the economic minimum. |
| cim:GeneratingBid.minimumEconomicMW - Low economic MW limit that shall be greater than or equal to the minimum operating MW limit |
| cim:GeneratingBid.noLoadCost - Resource fixed no load cost. |
| cim:GeneratingBid.notificationTime - Time required for crew notification prior to start up of the unit. |
| cim:GeneratingBid.operatingMode - Bid operating mode ('C' - cycling, 'F' - fixed, 'M' - must run, 'U' - unavailable) |
| cim:GeneratingBid.raiseRampRate - Maximum Up ramp rate in MW/min |
| cim:GeneratingBid.rampCurveType - Ramp curve type:
0 - Fixed ramp rate independent of rate function unit MW output
1 - Static ramp rates as a function of unit MW output only
2 - Dynamic ramp rates as a function of unit MW output and ramping time |
| cim:GeneratingBid.RegisteredGenerator - |
| cim:GeneratingBid.startupCost - Startup cost/price |
| cim:GeneratingBid.StartUpCostCurve - |
| cim:GeneratingBid.startUpRampRate - Resource startup ramp rate (MW/minute) |
| cim:GeneratingBid.StartUpTimeCurve - |
| cim:GeneratingBid.startUpType - Resource startup type:
1 - Fixed startup time and fixed startup cost
2 - Startup time as a function of down time and fixed startup cost
3 - Startup cost as a function of down time |
| cim:GeneratingBid.upTimeMax - Maximum up time. |
| cim:GeneratingUnit - A single or set of synchronous machines for converting mechanical power into alternating-current power. For example, individual machines within a set may be defined for scheduling purposes while a single control signal is derived for the set. In this case there would be a GeneratingUnit for each member of the set and an additional GeneratingUnit corresponding to the set. |
| cim:GeneratingUnit.allocSpinResP - The planned unused capacity (spinning reserve) which can be used to support emergency load. |
| cim:GeneratingUnit.autoCntrlMarginP - The planned unused capacity which can be used to support automatic control overruns. |
| cim:GeneratingUnit.baseP - For dispatchable units, this value represents the economic active power basepoint, for units that are not dispatchable, this value represents the fixed generation value. The value must be between the operating low and high limits. |
| cim:GeneratingUnit.ControlAreaGeneratingUnit - ControlArea specifications for this generating unit.The generating unit specified for this control area. Note that a control area should include a GeneratingUnit only once. |
| cim:GeneratingUnit.controlDeadband - Unit control error deadband. When a unit's desired active power change is less than this deadband, then no control pulses will be sent to the unit. |
| cim:GeneratingUnit.controlPulseHigh - Pulse high limit which is the largest control pulse that the unit can respond to. |
| cim:GeneratingUnit.controlPulseLow - Pulse low limit which is the smallest control pulse that the unit can respond to. |
| cim:GeneratingUnit.controlResponseRate - Unit response rate which specifies the active power change for a control pulse of one second in the most responsive loading level of the unit. |
| cim:GeneratingUnit.efficiency - The efficiency of the unit in converting mechanical energy, from the prime mover, into electrical energy. |
| cim:GeneratingUnit.genControlMode - The unit control mode. |
| cim:GeneratingUnit.genControlSource - The source of controls for a generating unit. |
| cim:GeneratingUnit.GenUnitOpCostCurve - A generating unit may have one or more cost curves, depending upon fuel mixture and fuel cost.A generating unit may have one or more cost curves, depending upon fuel mixture and fuel cost. |
| cim:GeneratingUnit.GenUnitOpSchedule - A generating unit may have an operating schedule, indicating the planned operation of the unit.A generating unit may have an operating schedule, indicating the planned operation of the unit. |
| cim:GeneratingUnit.governorMPL - Governor motor position limit. |
| cim:GeneratingUnit.governorSCD - Governor Speed Changer Droop. This is the change in generator power output divided by the change in frequency normalized by the nominal power of the generator and the nominal frequency and expressed in percent and negated. A positive value of speed change droop provides additional generator output upon a drop in frequency. |
| cim:GeneratingUnit.GrossToNetActivePowerCurve - A generating unit may have a gross active power to net active power curve, describing the losses and auxiliary power requirements of the unit.A generating unit may have a gross active power to net active power curve, describing the losses and auxiliary power requirements of the unit. |
| cim:GeneratingUnit.highControlLimit - High limit for secondary (AGC) control. |
| cim:GeneratingUnit.initialP - Default initial active power which is used to store a powerflow result for the initial active power for this unit in this network configuration. |
| cim:GeneratingUnit.longPF - Generating unit long term economic participation factor. |
| cim:GeneratingUnit.lowControlLimit - Low limit for secondary (AGC) control. |
| cim:GeneratingUnit.lowerRampRate - The normal maximum rate the generating unit active power output can be lowered by control actions. |
| cim:GeneratingUnit.maxEconomicP - Maximum high economic active power limit, that should not exceed the maximum operating active power limit. |
| cim:GeneratingUnit.maximumAllowableSpinningReserve - Maximum allowable spinning reserve. Spinning reserve will never be considered greater than this value regardless of the current operating point. |
| cim:GeneratingUnit.maxOperatingP - This is the maximum operating active power limit the dispatcher can enter for this unit. |
| cim:GeneratingUnit.minEconomicP - Low economic active power limit that must be greater than or equal to the minimum operating active power limit. |
| cim:GeneratingUnit.minimumOffTime - Minimum time interval between unit shutdown and startup. |
| cim:GeneratingUnit.minOperatingP - This is the minimum operating active power limit the dispatcher can enter for this unit. |
| cim:GeneratingUnit.modelDetail - Detail level of the generator model data. |
| cim:GeneratingUnit.nominalP - The nominal power of the generating unit. Used to give precise meaning to percentage based attributes such as the governor speed change droop (governorSCD attribute).
The attribute shall be a positive value equal or less than RotatingMachine.ratedS. |
| cim:GeneratingUnit.normalPF - Generating unit economic participation factor. |
| cim:GeneratingUnit.penaltyFactor - Defined as: 1 / ( 1 - Incremental Transmission Loss); with the Incremental Transmission Loss expressed as a plus or minus value. The typical range of penalty factors is (0.9 to 1.1). |
| cim:GeneratingUnit.raiseRampRate - The normal maximum rate the generating unit active power output can be raised by control actions. |
| cim:GeneratingUnit.ratedGrossMaxP - The unit's gross rated maximum capacity (book value). |
| cim:GeneratingUnit.ratedGrossMinP - The gross rated minimum generation level which the unit can safely operate at while delivering power to the transmission grid. |
| cim:GeneratingUnit.ratedNetMaxP - The net rated maximum capacity determined by subtracting the auxiliary power used to operate the internal plant machinery from the rated gross maximum capacity. |
| cim:GeneratingUnit.shortPF - Generating unit short term economic participation factor. |
| cim:GeneratingUnit.startupCost - The initial startup cost incurred for each start of the GeneratingUnit. |
| cim:GeneratingUnit.startupTime - Time it takes to get the unit on-line, from the time that the prime mover mechanical power is applied. |
| cim:GeneratingUnit.tieLinePF - Generating unit economic participation factor. |
| cim:GeneratingUnit.totalEfficiency - The efficiency of the unit in converting the fuel into electrical energy. |
| cim:GeneratingUnit.variableCost - The variable cost component of production per unit of ActivePower. |
| cim:GeneratingUnitDynamicValues - Optimal Power Flow or State Estimator Unit Data for Operator Training Simulator. This is used for RealTime, Study and Maintenance Users |
| cim:GeneratingUnitDynamicValues.lossFactor - Loss Factor |
| cim:GeneratingUnitDynamicValues.maximumMW - The maximum active power generation of the unit in MW |
| cim:GeneratingUnitDynamicValues.minimumMW - The minimum active power generation of the unit in MW |
| cim:GeneratingUnitDynamicValues.mVAR - Unit reactive power generation in MVAR |
| cim:GeneratingUnitDynamicValues.mw - Unit active power generation in MW |
| cim:GeneratingUnitDynamicValues.sensitivity - Unit sencivity factor. The distribution factors (DFAX) for the unit |
| cim:GenerationProvider - The energy seller in the energy marketplace. |
| cim:GenerationProvider.EnergyProduct - |
| cim:generator |
| cim:generatorAcceleratingPower |
| cim:GeneratorControlMode |
| cim:GeneratorControlSource |
| cim:generatorElectricalPower |
| cim:generatorOperator |
| cim:generatorOrCondenser |
| cim:generatorOrCondenserOrMotor |
| cim:generatorOrMotor |
| cim:generatorOwner |
| cim:GeneratorTypeAsset - Generic generation equipment that may be used for various purposes such as work planning. It defines both the Real and Reactive power properties (modelled at the PSR level as a GeneratingUnit + SynchronousMachine). |
| cim:GeneratorTypeAsset.maxP - Maximum real power limit. |
| cim:GeneratorTypeAsset.maxQ - Maximum reactive power limit. |
| cim:GeneratorTypeAsset.minP - Minimum real power generated. |
| cim:GeneratorTypeAsset.minQ - Minimum reactive power generated. |
| cim:GeneratorTypeAsset.rDirectSubtrans - Direct-axis subtransient resistance. |
| cim:GeneratorTypeAsset.rDirectSync - Direct-axis synchronous resistance. |
| cim:GeneratorTypeAsset.rDirectTrans - Direct-axis transient resistance. |
| cim:GeneratorTypeAsset.rQuadSubtrans - Quadrature-axis subtransient resistance. |
| cim:GeneratorTypeAsset.rQuadSync - Quadrature-axis synchronous resistance. |
| cim:GeneratorTypeAsset.rQuadTrans - Quadrature-axis transient resistance. |
| cim:GeneratorTypeAsset.xDirectSubtrans - Direct-axis subtransient reactance. |
| cim:GeneratorTypeAsset.xDirectSync - Direct-axis synchronous reactance. |
| cim:GeneratorTypeAsset.xDirectTrans - Direct-axis transient reactance. |
| cim:GeneratorTypeAsset.xQuadSubtrans - Quadrature-axis subtransient reactance. |
| cim:GeneratorTypeAsset.xQuadSync - Quadrature-axis synchronous reactance. |
| cim:GeneratorTypeAsset.xQuadTrans - Quadrature-axis transient reactance. |
| cim:GenericAction - An arbitrary switching step. |
| cim:GenericAction.SwitchingStepGroup - Group to which this step belongs.All generic action steps in this group. |
| cim:GenericAssetModel - Generic asset that may be used for planning, work or design purposes. |
| cim:GenericAssetModel.CompatibleUnit - |
| cim:GenericAssetModel.ErpIssueInventory - |
| cim:GenericAssetModel.estimatedUnitCost - Estimated unit cost (or cost per unit length) of this type of asset. It does not include labor to install, construct or configure it. |
| cim:GenericAssetModel.quantity - The value, unit of measure, and multiplier for the quantity. |
| cim:GenericAssetModel.stockItem - True if item is a stock item (default). |
| cim:GenericConstraints - Generic constraints can represent secure areas, voltage profile, transient stability and voltage collapse limits.
The generic constraints can be one of the following forms:
a) Thermal MW limit constraints type
b) Group line flow constraint type |
| cim:GenericConstraints.intervalEndTime - Interval End Time |
| cim:GenericConstraints.intervalStartTime - Interval Start Time |
| cim:GenericConstraints.maxLimit - Maximum Limit (MW) |
| cim:GenericConstraints.minLimit - Minimum Limit (MW) |
| cim:GenericNonLinearLoadModelKind |
| cim:GenICompensationForGenJ - This class provides the resistive and reactive components of compensation for the generator associated with the IEEE Type 2 voltage compensator for current flow out of one of the other generators in the interconnection. |
| cim:GenICompensationForGenJ.rcij - Resistive component of compensation of generator associated with this IEEE Type 2 voltage compensator for current flow out of another generator (Rcij). |
| cim:GenICompensationForGenJ.xcij - Reactive component of compensation of generator associated with this IEEE Type 2 voltage compensator for current flow out of another generator (Xcij). |
| cim:GenUnitOpCostCurve - Relationship between unit operating cost (Y-axis) and unit output active power (X-axis). The operating cost curve for thermal units is derived from heat input and fuel costs. The operating cost curve for hydro units is derived from water flow rates and equivalent water costs. |
| cim:GenUnitOpCostCurve.isNetGrossP - Flag is set to true when output is expressed in net active power. |
| cim:GenUnitOpSchedule - The generating unit's Operator-approved current operating schedule (or plan), typically produced with the aid of unit commitment type analyses. The X-axis represents absolute time. The Y1-axis represents the status (0=off-line and unavailable: 1=available: 2=must run: 3=must run at fixed power value: etc.). The Y2-axis represents the must run fixed power value where required. |
| cim:GeographicalRegion - A geographical region of a power system network model. |
| cim:GEOT |
| cim:GH |
| cim:GHS |
| cim:GIP |
| cim:GMD |
| cim:GMOL |
| cim:GNF |
| cim:GNOL |
| cim:GO |
| cim:GOOD |
cim:GovCT1 - General model for any prime mover with a PID governor, used primarily for combustion turbine and combined cycle units.
This model can be used to represent a variety of prime movers controlled by PID governors. It is suitable, for example, for representation of
- gas turbine and single shaft combined cycle turbines
- diesel engines with modern electronic or digital governors
- steam turbines where steam is supplied from a large boiler drum or a large header whose pressure is substantially constant over the period under study
- simple hydro turbines in dam configurations where the water column length is short and water inertia effects are minimal.
Additional information on this model is available in the 2012 IEEE report, Dynamic Models for Turbine-Governors in Power System Studies, section 3.1.2.3 page 3-4 (GGOV1). |
| cim:GovCT1.aset - Acceleration limiter setpoint (Aset). Unit = PU/sec. Typical Value = 0.01. |
| cim:GovCT1.db - Speed governor dead band in per unit speed (db). In the majority of applications, it is recommended that this value be set to zero. Typical Value = 0. |
| cim:GovCT1.dm - Speed sensitivity coefficient (Dm). Dm can represent either the variation of the engine power with the shaft speed or the variation of maximum power capability with shaft speed. If it is positive it describes the falling slope of the engine speed verses power characteristic as speed increases. A slightly falling characteristic is typical for reciprocating engines and some aero-derivative turbines. If it is negative the engine power is assumed to be unaffected by the shaft speed, but the maximum permissible fuel flow is taken to fall with falling shaft speed. This is characteristic of single-shaft industrial turbines due to exhaust temperature limits. Typical Value = 0. |
| cim:GovCT1.ka - Acceleration limiter gain (Ka). Typical Value = 10. |
| cim:GovCT1.kdgov - Governor derivative gain (Kdgov). Typical Value = 0. |
| cim:GovCT1.kigov - Governor integral gain (Kigov). Typical Value = 2. |
| cim:GovCT1.kiload - Load limiter integral gain for PI controller (Kiload). Typical Value = 0.67. |
| cim:GovCT1.kimw - Power controller (reset) gain (Kimw). The default value of 0.01 corresponds to a reset time of 100 seconds. A value of 0.001 corresponds to a relatively slow acting load controller. Typical Value = 0.01. |
| cim:GovCT1.kpgov - Governor proportional gain (Kpgov). Typical Value = 10. |
| cim:GovCT1.kpload - Load limiter proportional gain for PI controller (Kpload). Typical Value = 2. |
| cim:GovCT1.kturb - Turbine gain (Kturb) (>0). Typical Value = 1.5. |
| cim:GovCT1.ldref - Load limiter reference value (Ldref). Typical Value = 1. |
| cim:GovCT1.maxerr - Maximum value for speed error signal (maxerr). Typical Value = 0.05. |
| cim:GovCT1.minerr - Minimum value for speed error signal (minerr). Typical Value = -0.05. |
| cim:GovCT1.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovCT1.r - Permanent droop (R). Typical Value = 0.04. |
| cim:GovCT1.rclose - Minimum valve closing rate (Rclose). Unit = PU/sec. Typical Value = -0.1. |
| cim:GovCT1.rdown - Maximum rate of load limit decrease (Rdown). Typical Value = -99. |
| cim:GovCT1.ropen - Maximum valve opening rate (Ropen). Unit = PU/sec. Typical Value = 0.10. |
| cim:GovCT1.rselect - Feedback signal for droop (Rselect). Typical Value = electricalPower. |
| cim:GovCT1.rup - Maximum rate of load limit increase (Rup). Typical Value = 99. |
| cim:GovCT1.ta - Acceleration limiter time constant (Ta) (>0). Typical Value = 0.1. |
| cim:GovCT1.tact - Actuator time constant (Tact). Typical Value = 0.5. |
| cim:GovCT1.tb - Turbine lag time constant (Tb) (>0). Typical Value = 0.5. |
| cim:GovCT1.tc - Turbine lead time constant (Tc). Typical Value = 0. |
| cim:GovCT1.tdgov - Governor derivative controller time constant (Tdgov). Typical Value = 1. |
| cim:GovCT1.teng - Transport time delay for diesel engine used in representing diesel engines where there is a small but measurable transport delay between a change in fuel flow setting and the development of torque (Teng). Teng should be zero in all but special cases where this transport delay is of particular concern. Typical Value = 0. |
| cim:GovCT1.tfload - Load Limiter time constant (Tfload) (>0). Typical Value = 3. |
| cim:GovCT1.tpelec - Electrical power transducer time constant (Tpelec) (>0). Typical Value = 1. |
| cim:GovCT1.tsa - Temperature detection lead time constant (Tsa). Typical Value = 4. |
| cim:GovCT1.tsb - Temperature detection lag time constant (Tsb). Typical Value = 5. |
| cim:GovCT1.vmax - Maximum valve position limit (Vmax). Typical Value = 1. |
| cim:GovCT1.vmin - Minimum valve position limit (Vmin). Typical Value = 0.15. |
| cim:GovCT1.wfnl - No load fuel flow (Wfnl). Typical Value = 0.2. |
| cim:GovCT1.wfspd - Switch for fuel source characteristic to recognize that fuel flow, for a given fuel valve stroke, can be proportional to engine speed (Wfspd).
true = fuel flow proportional to speed (for some gas turbines and diesel engines with positive displacement fuel injectors)
false = fuel control system keeps fuel flow independent of engine speed.
Typical Value = true. |
| cim:GovCT2 - General governor model with frequency-dependent fuel flow limit. This model is a modification of the GovCT1 model in order to represent the frequency-dependent fuel flow limit of a specific gas turbine manufacturer. |
| cim:GovCT2.aset - Acceleration limiter setpoint (Aset). Unit = PU/sec. Typical Value = 10. |
| cim:GovCT2.db - Speed governor dead band in per unit speed (db). In the majority of applications, it is recommended that this value be set to zero. Typical Value = 0. |
| cim:GovCT2.dm - Speed sensitivity coefficient (Dm). Dm can represent either the variation of the engine power with the shaft speed or the variation of maximum power capability with shaft speed. If it is positive it describes the falling slope of the engine speed verses power characteristic as speed increases. A slightly falling characteristic is typical for reciprocating engines and some aero-derivative turbines. If it is negative the engine power is assumed to be unaffected by the shaft speed, but the maximum permissible fuel flow is taken to fall with falling shaft speed. This is characteristic of single-shaft industrial turbines due to exhaust temperature limits. Typical Value = 0. |
| cim:GovCT2.flim1 - Frequency threshold 1 (Flim1). Unit = Hz. Typical Value = 59. |
| cim:GovCT2.flim10 - Frequency threshold 10 (Flim10). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim2 - Frequency threshold 2 (Flim2). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim3 - Frequency threshold 3 (Flim3). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim4 - Frequency threshold 4 (Flim4). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim5 - Frequency threshold 5 (Flim5). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim6 - Frequency threshold 6 (Flim6). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim7 - Frequency threshold 7 (Flim7). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim8 - Frequency threshold 8 (Flim8). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.flim9 - Frequency threshold 9 (Flim9). Unit = Hz. Typical Value = 0. |
| cim:GovCT2.ka - Acceleration limiter Gain (Ka). Typical Value = 10. |
| cim:GovCT2.kdgov - Governor derivative gain (Kdgov). Typical Value = 0. |
| cim:GovCT2.kigov - Governor integral gain (Kigov). Typical Value = 0.45. |
| cim:GovCT2.kiload - Load limiter integral gain for PI controller (Kiload). Typical Value = 1. |
| cim:GovCT2.kimw - Power controller (reset) gain (Kimw). The default value of 0.01 corresponds to a reset time of 100 seconds. A value of 0.001 corresponds to a relatively slow acting load controller. Typical Value = 0. |
| cim:GovCT2.kpgov - Governor proportional gain (Kpgov). Typical Value = 4. |
| cim:GovCT2.kpload - Load limiter proportional gain for PI controller (Kpload). Typical Value = 1. |
| cim:GovCT2.kturb - Turbine gain (Kturb). Typical Value = 1.9168. |
| cim:GovCT2.ldref - Load limiter reference value (Ldref). Typical Value = 1. |
| cim:GovCT2.maxerr - Maximum value for speed error signal (Maxerr). Typical Value = 1. |
| cim:GovCT2.minerr - Minimum value for speed error signal (Minerr). Typical Value = -1. |
| cim:GovCT2.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovCT2.plim1 - Power limit 1 (Plim1). Typical Value = 0.8325. |
| cim:GovCT2.plim10 - Power limit 10 (Plim10). Typical Value = 0. |
| cim:GovCT2.plim2 - Power limit 2 (Plim2). Typical Value = 0. |
| cim:GovCT2.plim3 - Power limit 3 (Plim3). Typical Value = 0. |
| cim:GovCT2.plim4 - Power limit 4 (Plim4). Typical Value = 0. |
| cim:GovCT2.plim5 - Power limit 5 (Plim5). Typical Value = 0. |
| cim:GovCT2.plim6 - Power limit 6 (Plim6). Typical Value = 0. |
| cim:GovCT2.plim7 - Power limit 7 (Plim7). Typical Value = 0. |
| cim:GovCT2.plim8 - Power limit 8 (Plim8). Typical Value = 0. |
| cim:GovCT2.plim9 - Power Limit 9 (Plim9). Typical Value = 0. |
| cim:GovCT2.prate - Ramp rate for frequency-dependent power limit (Prate). Typical Value = 0.017. |
| cim:GovCT2.r - Permanent droop (R). Typical Value = 0.05. |
| cim:GovCT2.rclose - Minimum valve closing rate (Rclose). Unit = PU/sec. Typical Value = -99. |
| cim:GovCT2.rdown - Maximum rate of load limit decrease (Rdown). Typical Value = -99. |
| cim:GovCT2.ropen - Maximum valve opening rate (Ropen). Unit = PU/sec. Typical Value = 99. |
| cim:GovCT2.rselect - Feedback signal for droop (Rselect). Typical Value = electricalPower. |
| cim:GovCT2.rup - Maximum rate of load limit increase (Rup). Typical Value = 99. |
| cim:GovCT2.ta - Acceleration limiter time constant (Ta). Typical Value = 1. |
| cim:GovCT2.tact - Actuator time constant (Tact). Typical Value = 0.4. |
| cim:GovCT2.tb - Turbine lag time constant (Tb). Typical Value = 0.1. |
| cim:GovCT2.tc - Turbine lead time constant (Tc). Typical Value = 0. |
| cim:GovCT2.tdgov - Governor derivative controller time constant (Tdgov). Typical Value = 1. |
| cim:GovCT2.teng - Transport time delay for diesel engine used in representing diesel engines where there is a small but measurable transport delay between a change in fuel flow setting and the development of torque (Teng). Teng should be zero in all but special cases where this transport delay is of particular concern. Typical Value = 0. |
| cim:GovCT2.tfload - Load Limiter time constant (Tfload). Typical Value = 3. |
| cim:GovCT2.tpelec - Electrical power transducer time constant (Tpelec). Typical Value = 2.5. |
| cim:GovCT2.tsa - Temperature detection lead time constant (Tsa). Typical Value = 0. |
| cim:GovCT2.tsb - Temperature detection lag time constant (Tsb). Typical Value = 50. |
| cim:GovCT2.vmax - Maximum valve position limit (Vmax). Typical Value = 1. |
| cim:GovCT2.vmin - Minimum valve position limit (Vmin). Typical Value = 0.175. |
| cim:GovCT2.wfnl - No load fuel flow (Wfnl). Typical Value = 0.187. |
| cim:GovCT2.wfspd - Switch for fuel source characteristic to recognize that fuel flow, for a given fuel valve stroke, can be proportional to engine speed (Wfspd).
true = fuel flow proportional to speed (for some gas turbines and diesel engines with positive displacement fuel injectors)
false = fuel control system keeps fuel flow independent of engine speed.
Typical Value = false. |
| cim:governorOutput |
| cim:GovGAST - Single shaft gas turbine. |
| cim:GovGAST.at - Ambient temperature load limit (Load Limit). Typical Value = 1. |
| cim:GovGAST.dturb - Turbine damping factor (Dturb). Typical Value = 0.18. |
| cim:GovGAST.kt - Temperature limiter gain (Kt). Typical Value = 3. |
| cim:GovGAST.mwbase - Base for power values (MWbase) (> 0). |
| cim:GovGAST.r - Permanent droop (R). Typical Value = 0.04. |
| cim:GovGAST.t1 - Governor mechanism time constant (T1). T1 represents the natural valve positioning time constant of the governor for small disturbances, as seen when rate limiting is not in effect. Typical Value = 0.5. |
| cim:GovGAST.t2 - Turbine power time constant (T2). T2 represents delay due to internal energy storage of the gas turbine engine. T2 can be used to give a rough approximation to the delay associated with acceleration of the compressor spool of a multi-shaft engine, or with the compressibility of gas in the plenum of a the free power turbine of an aero-derivative unit, for example. Typical Value = 0.5. |
| cim:GovGAST.t3 - Turbine exhaust temperature time constant (T3). Typical Value = 3. |
| cim:GovGAST.vmax - Maximum turbine power, PU of MWbase (Vmax). Typical Value = 1. |
| cim:GovGAST.vmin - Minimum turbine power, PU of MWbase (Vmin). Typical Value = 0. |
| cim:GovGAST1 - Modified single shaft gas turbine. |
| cim:GovGAST1.a - Turbine power time constant numerator scale factor (a). Typical Value = 0.8. |
| cim:GovGAST1.b - Turbine power time constant denominator scale factor (b). Typical Value = 1. |
| cim:GovGAST1.db1 - Intentional dead-band width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovGAST1.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovGAST1.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovGAST1.fidle - Fuel flow at zero power output (Fidle). Typical Value = 0.18. |
| cim:GovGAST1.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovGAST1.gv2 - Nonlinear gain point 2,PU gv (Gv2). Typical Value = 0. |
| cim:GovGAST1.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovGAST1.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovGAST1.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovGAST1.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovGAST1.ka - Governor gain (Ka). Typical Value = 0. |
| cim:GovGAST1.kt - Temperature limiter gain (Kt). Typical Value = 3. |
| cim:GovGAST1.lmax - Ambient temperature load limit (Lmax). Lmax is the turbine power output corresponding to the limiting exhaust gas temperature. Typical Value = 1. |
| cim:GovGAST1.loadinc - Valve position change allowed at fast rate (Loadinc). Typical Value = 0.05. |
| cim:GovGAST1.ltrate - Maximum long term fuel valve opening rate (Ltrate). Typical Value = 0.02. |
| cim:GovGAST1.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovGAST1.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovGAST1.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovGAST1.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovGAST1.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovGAST1.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovGAST1.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovGAST1.r - Permanent droop (R). Typical Value = 0.04. |
| cim:GovGAST1.rmax - Maximum fuel valve opening rate (Rmax). Unit = PU/sec. Typical Value = 1. |
| cim:GovGAST1.t1 - Governor mechanism time constant (T1). T1 represents the natural valve positioning time constant of the governor for small disturbances, as seen when rate limiting is not in effect. Typical Value = 0.5. |
| cim:GovGAST1.t2 - Turbine power time constant (T2). T2 represents delay due to internal energy storage of the gas turbine engine. T2 can be used to give a rough approximation to the delay associated with acceleration of the compressor spool of a multi-shaft engine, or with the compressibility of gas in the plenum of the free power turbine of an aero-derivative unit, for example. Typical Value = 0.5. |
| cim:GovGAST1.t3 - Turbine exhaust temperature time constant (T3). T3 represents delay in the exhaust temperature and load limiting system. Typical Value = 3. |
| cim:GovGAST1.t4 - Governor lead time constant (T4). Typical Value = 0. |
| cim:GovGAST1.t5 - Governor lag time constant (T5). Typical Value = 0. |
| cim:GovGAST1.tltr - Valve position averaging time constant (Tltr). Typical Value = 10. |
| cim:GovGAST1.vmax - Maximum turbine power, PU of MWbase (Vmax). Typical Value = 1. |
| cim:GovGAST1.vmin - Minimum turbine power, PU of MWbase (Vmin). Typical Value = 0. |
| cim:GovGAST2 - Gas turbine model. |
| cim:GovGAST2.a - Valve positioner (A). |
| cim:GovGAST2.af1 - Exhaust temperature Parameter (Af1). Unit = per unit temperature. Based on temperature in degrees C. |
| cim:GovGAST2.af2 - Coefficient equal to 0.5(1-speed) (Af2). |
| cim:GovGAST2.b - Valve positioner (B). |
| cim:GovGAST2.bf1 - (Bf1). Bf1 = E(1-w) where E (speed sensitivity coefficient) is 0.55 to 0.65 x Tr. Unit = per unit temperature. Based on temperature in degrees C. |
| cim:GovGAST2.bf2 - Turbine Torque Coefficient Khhv (depends on heating value of fuel stream in combustion chamber) (Bf2). |
| cim:GovGAST2.c - Valve positioner (C). |
| cim:GovGAST2.cf2 - Coefficient defining fuel flow where power output is 0% (Cf2). Synchronous but no output. Typically 0.23 x Khhv (23% fuel flow). |
| cim:GovGAST2.ecr - Combustion reaction time delay (Ecr). |
| cim:GovGAST2.etd - Turbine and exhaust delay (Etd). |
| cim:GovGAST2.k3 - Ratio of Fuel Adjustment (K3). |
| cim:GovGAST2.k4 - Gain of radiation shield (K4). |
| cim:GovGAST2.k5 - Gain of radiation shield (K5). |
| cim:GovGAST2.k6 - Minimum fuel flow (K6). |
| cim:GovGAST2.kf - Fuel system feedback (Kf). |
| cim:GovGAST2.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovGAST2.t - Fuel Control Time Constant (T). |
| cim:GovGAST2.t3 - Radiation shield time constant (T3). |
| cim:GovGAST2.t4 - Thermocouple time constant (T4). |
| cim:GovGAST2.t5 - Temperature control time constant (T5). |
| cim:GovGAST2.tc - Temperature control (Tc). Unit = °F or °C depending on constants Af1 and Bf1. |
| cim:GovGAST2.tcd - Compressor discharge time constant (Tcd). |
| cim:GovGAST2.tf - Fuel system time constant (Tf). |
| cim:GovGAST2.tmax - Maximum Turbine limit (Tmax). |
| cim:GovGAST2.tmin - Minimum Turbine limit (Tmin). |
| cim:GovGAST2.tr - Rated temperature (Tr). Unit = °C depending on parameters Af1 and Bf1. |
| cim:GovGAST2.trate - Turbine rating (Trate). Unit = MW. |
| cim:GovGAST2.tt - Temperature controller integration rate (Tt). |
| cim:GovGAST2.w - Governor gain (1/droop) on turbine rating (W). |
| cim:GovGAST2.x - Governor lead time constant (X). |
| cim:GovGAST2.y - Governor lag time constant (Y) (>0). |
| cim:GovGAST2.z - Governor mode (Z).
true = Droop
false = ISO. |
| cim:GovGAST3 - Generic turbogas with acceleration and temperature controller. |
| cim:GovGAST3.bca - Acceleration limit set-point (Bca). Unit = 1/s. Typical Value = 0.01. |
| cim:GovGAST3.bp - Droop (bp). Typical Value = 0.05. |
| cim:GovGAST3.dtc - Exhaust temperature variation due to fuel flow increasing from 0 to 1 PU (deltaTc). Typical Value = 390. |
| cim:GovGAST3.ka - Minimum fuel flow (Ka). Typical Value = 0.23. |
| cim:GovGAST3.kac - Fuel system feedback (KAC). Typical Value = 0. |
| cim:GovGAST3.kca - Acceleration control integral gain (Kca). Unit = 1/s. Typical Value = 100. |
| cim:GovGAST3.ksi - Gain of radiation shield (Ksi). Typical Value = 0.8. |
| cim:GovGAST3.ky - Coefficient of transfer function of fuel valve positioner (Ky). Typical Value = 1. |
| cim:GovGAST3.mnef - Fuel flow maximum negative error value (MNEF). Typical Value = -0.05. |
| cim:GovGAST3.mxef - Fuel flow maximum positive error value (MXEF). Typical Value = 0.05. |
| cim:GovGAST3.rcmn - Minimum fuel flow (RCMN). Typical Value = -0.1. |
| cim:GovGAST3.rcmx - Maximum fuel flow (RCMX). Typical Value = 1. |
| cim:GovGAST3.tac - Fuel control time constant (Tac). Typical Value = 0.1. |
| cim:GovGAST3.tc - Compressor discharge volume time constant (Tc). Typical Value = 0.2. |
| cim:GovGAST3.td - Temperature controller derivative gain (Td). Typical Value = 3.3. |
| cim:GovGAST3.tfen - Turbine rated exhaust temperature correspondent to Pm=1 PU (Tfen). Typical Value = 540. |
| cim:GovGAST3.tg - Time constant of speed governor (Tg). Typical Value = 0.05. |
| cim:GovGAST3.tsi - Time constant of radiation shield (Tsi). Typical Value = 15. |
| cim:GovGAST3.tt - Temperature controller integration rate (Tt). Typical Value = 250. |
| cim:GovGAST3.ttc - Time constant of thermocouple (Ttc). Typical Value = 2.5. |
| cim:GovGAST3.ty - Time constant of fuel valve positioner (Ty). Typical Value = 0.2. |
| cim:GovGAST4 - Generic turbogas. |
| cim:GovGAST4.bp - Droop (bp). Typical Value = 0.05. |
| cim:GovGAST4.ktm - Compressor gain (Ktm). Typical Value = 0. |
| cim:GovGAST4.mnef - Fuel flow maximum negative error value (MNEF). Typical Value = -0.05. |
| cim:GovGAST4.mxef - Fuel flow maximum positive error value (MXEF). Typical Value = 0.05. |
| cim:GovGAST4.rymn - Minimum valve opening (RYMN). Typical Value = 0. |
| cim:GovGAST4.rymx - Maximum valve opening (RYMX). Typical Value = 1.1. |
| cim:GovGAST4.ta - Maximum gate opening velocity (TA). Typical Value = 3. |
| cim:GovGAST4.tc - Maximum gate closing velocity (Tc). Typical Value = 0.5. |
| cim:GovGAST4.tcm - Fuel control time constant (Tcm). Typical Value = 0.1. |
| cim:GovGAST4.tm - Compressor discharge volume time constant (Tm). Typical Value = 0.2. |
| cim:GovGAST4.tv - Time constant of fuel valve positioner (Ty). Typical Value = 0.1. |
| cim:GovGASTWD - Woodward Gas turbine governor model. |
| cim:GovGASTWD.a - Valve positioner (A). |
| cim:GovGASTWD.af1 - Exhaust temperature Parameter (Af1). |
| cim:GovGASTWD.af2 - Coefficient equal to 0.5(1-speed) (Af2). |
| cim:GovGASTWD.b - Valve positioner (B). |
| cim:GovGASTWD.bf1 - (Bf1). Bf1 = E(1-w) where E (speed sensitivity coefficient) is 0.55 to 0.65 x Tr. |
| cim:GovGASTWD.bf2 - Turbine Torque Coefficient Khhv (depends on heating value of fuel stream in combustion chamber) (Bf2). |
| cim:GovGASTWD.c - Valve positioner (C). |
| cim:GovGASTWD.cf2 - Coefficient defining fuel flow where power output is 0% (Cf2). Synchronous but no output. Typically 0.23 x Khhv (23% fuel flow). |
| cim:GovGASTWD.ecr - Combustion reaction time delay (Ecr). |
| cim:GovGASTWD.etd - Turbine and exhaust delay (Etd). |
| cim:GovGASTWD.k3 - Ratio of Fuel Adjustment (K3). |
| cim:GovGASTWD.k4 - Gain of radiation shield (K4). |
| cim:GovGASTWD.k5 - Gain of radiation shield (K5). |
| cim:GovGASTWD.k6 - Minimum fuel flow (K6). |
| cim:GovGASTWD.kd - Drop Governor Gain (Kd). |
| cim:GovGASTWD.kdroop - (Kdroop). |
| cim:GovGASTWD.kf - Fuel system feedback (Kf). |
| cim:GovGASTWD.ki - Isochronous Governor Gain (Ki). |
| cim:GovGASTWD.kp - PID Proportional gain (Kp). |
| cim:GovGASTWD.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovGASTWD.t - Fuel Control Time Constant (T). |
| cim:GovGASTWD.t3 - Radiation shield time constant (T3). |
| cim:GovGASTWD.t4 - Thermocouple time constant (T4). |
| cim:GovGASTWD.t5 - Temperature control time constant (T5). |
| cim:GovGASTWD.tc - Temperature control (Tc). |
| cim:GovGASTWD.tcd - Compressor discharge time constant (Tcd). |
| cim:GovGASTWD.td - Power transducer time constant (Td). |
| cim:GovGASTWD.tf - Fuel system time constant (Tf). |
| cim:GovGASTWD.tmax - Maximum Turbine limit (Tmax). |
| cim:GovGASTWD.tmin - Minimum Turbine limit (Tmin). |
| cim:GovGASTWD.tr - Rated temperature (Tr). |
| cim:GovGASTWD.trate - Turbine rating (Trate). Unit = MW. |
| cim:GovGASTWD.tt - Temperature controller integration rate (Tt). |
| cim:GovHydro1 - Basic Hydro turbine governor model. |
| cim:GovHydro1.at - Turbine gain (At) (>0). Typical Value = 1.2. |
| cim:GovHydro1.dturb - Turbine damping factor (Dturb) (>=0). Typical Value = 0.5. |
| cim:GovHydro1.gmax - Maximum gate opening (Gmax) (>0). Typical Value = 1. |
| cim:GovHydro1.gmin - Minimum gate opening (Gmin) (>=0). Typical Value = 0. |
| cim:GovHydro1.hdam - Turbine nominal head (hdam). Typical Value = 1. |
| cim:GovHydro1.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovHydro1.qnl - No-load flow at nominal head (qnl) (>=0). Typical Value = 0.08. |
| cim:GovHydro1.rperm - Permanent droop (R) (>0). Typical Value = 0.04. |
| cim:GovHydro1.rtemp - Temporary droop (r) (>R). Typical Value = 0.3. |
| cim:GovHydro1.tf - Filter time constant (Tf) (>0). Typical Value = 0.05. |
| cim:GovHydro1.tg - Gate servo time constant (Tg) (>0). Typical Value = 0.5. |
| cim:GovHydro1.tr - Washout time constant (Tr) (>0). Typical Value = 5. |
| cim:GovHydro1.tw - Water inertia time constant (Tw) (>0). Typical Value = 1. |
| cim:GovHydro1.velm - Maximum gate velocity (Vlem) (>0). Typical Value = 0.2. |
| cim:GovHydro2 - IEEE hydro turbine governor model represents plants with straightforward penstock configurations and hydraulic-dashpot governors. |
| cim:GovHydro2.aturb - Turbine numerator multiplier (Aturb). Typical Value = -1. |
| cim:GovHydro2.bturb - Turbine denominator multiplier (Bturb). Typical Value = 0.5. |
| cim:GovHydro2.db1 - Intentional deadband width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydro2.db2 - Unintentional deadband (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydro2.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydro2.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydro2.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydro2.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydro2.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydro2.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydro2.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydro2.kturb - Turbine gain (Kturb). Typical Value = 1. |
| cim:GovHydro2.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovHydro2.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydro2.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydro2.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydro2.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydro2.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydro2.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydro2.pmax - Maximum gate opening (Pmax). Typical Value = 1. |
| cim:GovHydro2.pmin - Minimum gate opening; (Pmin). Typical Value = 0. |
| cim:GovHydro2.rperm - Permanent droop (Rperm). Typical Value = 0.05. |
| cim:GovHydro2.rtemp - Temporary droop (Rtemp). Typical Value = 0.5. |
| cim:GovHydro2.tg - Gate servo time constant (Tg). Typical Value = 0.5. |
| cim:GovHydro2.tp - Pilot servo valve time constant (Tp). Typical Value = 0.03. |
| cim:GovHydro2.tr - Dashpot time constant (Tr). Typical Value = 12. |
| cim:GovHydro2.tw - Water inertia time constant (Tw). Typical Value = 2. |
| cim:GovHydro2.uc - Maximum gate closing velocity (Uc) (<0). Unit = PU/sec. Typical Value = -0.1. |
| cim:GovHydro2.uo - Maximum gate opening velocity (Uo). Unit = PU/sec. Typical Value = 0.1. |
| cim:GovHydro3 - Modified IEEE Hydro Governor-Turbine Model.
This model differs from that defined in the IEEE modeling guideline paper in that the limits on gate position and velocity do not permit "wind up" of the upstream signals. |
| cim:GovHydro3.at - Turbine gain (At). Typical Value = 1.2. |
| cim:GovHydro3.db1 - Intentional dead-band width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydro3.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydro3.dturb - Turbine damping factor (Dturb). Typical Value = 0.2. |
| cim:GovHydro3.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydro3.governorControl - Governor control flag (Cflag).
true = PID control is active
false = double derivative control is active.
Typical Value = true. |
| cim:GovHydro3.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydro3.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydro3.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydro3.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydro3.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydro3.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydro3.h0 - Turbine nominal head (H0). Typical Value = 1. |
| cim:GovHydro3.k1 - Derivative gain (K1). Typical Value = 0.01. |
| cim:GovHydro3.k2 - Double derivative gain, if Cflag = -1 (K2). Typical Value = 2.5. |
| cim:GovHydro3.kg - Gate servo gain (Kg). Typical Value = 2. |
| cim:GovHydro3.ki - Integral gain (Ki). Typical Value = 0.5. |
| cim:GovHydro3.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovHydro3.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydro3.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydro3.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydro3.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydro3.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydro3.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydro3.pmax - Maximum gate opening, PU of MWbase (Pmax). Typical Value = 1. |
| cim:GovHydro3.pmin - Minimum gate opening, PU of MWbase (Pmin). Typical Value = 0. |
| cim:GovHydro3.qnl - No-load turbine flow at nominal head (Qnl). Typical Value = 0.08. |
| cim:GovHydro3.relec - Steady-state droop, PU, for electrical power feedback (Relec). Typical Value = 0.05. |
| cim:GovHydro3.rgate - Steady-state droop, PU, for governor output feedback (Rgate). Typical Value = 0. |
| cim:GovHydro3.td - Input filter time constant (Td). Typical Value = 0.05. |
| cim:GovHydro3.tf - Washout time constant (Tf). Typical Value = 0.1. |
| cim:GovHydro3.tp - Gate servo time constant (Tp). Typical Value = 0.05. |
| cim:GovHydro3.tt - Power feedback time constant (Tt). Typical Value = 0.2. |
| cim:GovHydro3.tw - Water inertia time constant (Tw). Typical Value = 1. |
| cim:GovHydro3.velcl - Maximum gate closing velocity (Velcl). Unit = PU/sec. Typical Value = -0.2. |
| cim:GovHydro3.velop - Maximum gate opening velocity (Velop). Unit = PU/sec. Typical Value = 0.2. |
| cim:GovHydro4 - Hydro turbine and governor. Represents plants with straight-forward penstock configurations and hydraulic governors of traditional 'dashpot' type. This model can be used to represent simple, Francis, Pelton or Kaplan turbines. |
| cim:GovHydro4.at - Turbine gain (At). Typical Value = 1.2. |
| cim:GovHydro4.bgv0 - Kaplan blade servo point 0 (Bgv0). Typical Value = 0. |
| cim:GovHydro4.bgv1 - Kaplan blade servo point 1 (Bgv1). Typical Value = 0. |
| cim:GovHydro4.bgv2 - Kaplan blade servo point 2 (Bgv2).
Typical Value = 0. Typical Value Francis = 0, Kaplan = 0.1. |
| cim:GovHydro4.bgv3 - Kaplan blade servo point 3 (Bgv3).
Typical Value = 0. Typical Value Francis = 0, Kaplan = 0.667. |
| cim:GovHydro4.bgv4 - Kaplan blade servo point 4 (Bgv4).
Typical Value = 0. Typical Value Francis = 0, Kaplan = 0.9. |
| cim:GovHydro4.bgv5 - Kaplan blade servo point 5 (Bgv5).
Typical Value = 0. Typical Value Francis = 0, Kaplan = 1. |
| cim:GovHydro4.bmax - Maximum blade adjustment factor (Bmax).
Typical Value = 0. Typical Value Francis = 0, Kaplan = 1.1276. |
| cim:GovHydro4.db1 - Intentional deadband width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydro4.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydro4.dturb - Turbine damping factor (Dturb). Unit = delta P (PU of MWbase) / delta speed (PU).
Typical Value = 0.5. Typical Value Francis = 1.1, Kaplan = 1.1. |
| cim:GovHydro4.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydro4.gmax - Maximum gate opening, PU of MWbase (Gmax). Typical Value = 1. |
| cim:GovHydro4.gmin - Minimum gate opening, PU of MWbase (Gmin). Typical Value = 0. |
| cim:GovHydro4.gv0 - Nonlinear gain point 0, PU gv (Gv0).
Typical Value = 0. Typical Value Francis = 0.1, Kaplan = 0.1. |
| cim:GovHydro4.gv1 - Nonlinear gain point 1, PU gv (Gv1).
Typical Value = 0. Typical Value Francis = 0.4, Kaplan = 0.4. |
| cim:GovHydro4.gv2 - Nonlinear gain point 2, PU gv (Gv2).
Typical Value = 0. Typical Value Francis = 0.5, Kaplan = 0.5. |
| cim:GovHydro4.gv3 - Nonlinear gain point 3, PU gv (Gv3).
Typical Value = 0. Typical Value Francis = 0.7, Kaplan = 0.7. |
| cim:GovHydro4.gv4 - Nonlinear gain point 4, PU gv (Gv4).
Typical Value = 0. Typical Value Francis = 0.8, Kaplan = 0.8. |
| cim:GovHydro4.gv5 - Nonlinear gain point 5, PU gv (Gv5).
Typical Value = 0. Typical Value Francis = 0.9, Kaplan = 0.9. |
| cim:GovHydro4.hdam - Head available at dam (hdam). Typical Value = 1. |
| cim:GovHydro4.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydro4.pgv0 - Nonlinear gain point 0, PU power (Pgv0). Typical Value = 0. |
| cim:GovHydro4.pgv1 - Nonlinear gain point 1, PU power (Pgv1).
Typical Value = 0. Typical Value Francis = 0.42, Kaplan = 0.35. |
| cim:GovHydro4.pgv2 - Nonlinear gain point 2, PU power (Pgv2).
Typical Value = 0. Typical Value Francis = 0.56, Kaplan = 0.468. |
| cim:GovHydro4.pgv3 - Nonlinear gain point 3, PU power (Pgv3).
Typical Value = 0. Typical Value Francis = 0.8, Kaplan = 0.796. |
| cim:GovHydro4.pgv4 - Nonlinear gain point 4, PU power (Pgv4).
Typical Value = 0. Typical Value Francis = 0.9, Kaplan = 0.917. |
| cim:GovHydro4.pgv5 - Nonlinear gain point 5, PU power (Pgv5).
Typical Value = 0. Typical Value Francis = 0.97, Kaplan = 0.99. |
| cim:GovHydro4.qn1 - No-load flow at nominal head (Qnl).
Typical Value = 0.08. Typical Value Francis = 0, Kaplan = 0. |
| cim:GovHydro4.rperm - Permanent droop (Rperm). Typical Value = 0.05. |
| cim:GovHydro4.rtemp - Temporary droop (Rtemp). Typical Value = 0.3. |
| cim:GovHydro4.tblade - Blade servo time constant (Tblade). Typical Value = 100. |
| cim:GovHydro4.tg - Gate servo time constant (Tg) (>0). Typical Value = 0.5. |
| cim:GovHydro4.tp - Pilot servo time constant (Tp). Typical Value = 0.1. |
| cim:GovHydro4.tr - Dashpot time constant (Tr) (>0). Typical Value = 5. |
| cim:GovHydro4.tw - Water inertia time constant (Tw) (>0). Typical Value = 1. |
| cim:GovHydro4.uc - Max gate closing velocity (Uc). Typical Value = 0.2. |
| cim:GovHydro4.uo - Max gate opening velocity (Uo). Typical Vlaue = 0.2. |
| cim:GovHydroDD - Double derivative hydro governor and turbine. |
| cim:GovHydroDD.aturb - Turbine numerator multiplier (Aturb) (note 3). Typical Value = -1. |
| cim:GovHydroDD.bturb - Turbine denominator multiplier (Bturb) (note 3). Typical Value = 0.5. |
| cim:GovHydroDD.db1 - Intentional dead-band width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydroDD.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydroDD.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydroDD.gmax - Maximum gate opening (Gmax). Typical Value = 0. |
| cim:GovHydroDD.gmin - Minimum gate opening (Gmin). Typical Value = 0. |
| cim:GovHydroDD.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydroDD.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydroDD.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydroDD.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydroDD.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydroDD.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydroDD.inputSignal - Input signal switch (Flag).
true = Pe input is used
false = feedback is received from CV.
Flag is normally dependent on Tt. If Tf is zero, Flag is set to false. If Tf is not zero, Flag is set to true.
Typical Value = true. |
| cim:GovHydroDD.k1 - Single derivative gain (K1). Typical Value = 3.6. |
| cim:GovHydroDD.k2 - Double derivative gain (K2). Typical Value = 0.2. |
| cim:GovHydroDD.kg - Gate servo gain (Kg). Typical Value = 3. |
| cim:GovHydroDD.ki - Integral gain (Ki). Typical Value = 1. |
| cim:GovHydroDD.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroDD.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydroDD.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydroDD.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydroDD.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydroDD.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydroDD.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydroDD.pmax - Maximum gate opening, PU of MWbase (Pmax). Typical Value = 1. |
| cim:GovHydroDD.pmin - Minimum gate opening, PU of MWbase (Pmin). Typical Value = 0. |
| cim:GovHydroDD.r - Steady state droop (R). Typical Value = 0.05. |
| cim:GovHydroDD.td - Input filter time constant (Td). Typical Value = 0. |
| cim:GovHydroDD.tf - Washout time constant (Tf). Typical Value = 0.1. |
| cim:GovHydroDD.tp - Gate servo time constant (Tp). Typical Value = 0.35. |
| cim:GovHydroDD.tt - Power feedback time constant (Tt). Typical Value = 0.02. |
| cim:GovHydroDD.tturb - Turbine time constant (Tturb) (note 3). Typical Value = 0.8. |
| cim:GovHydroDD.velcl - Maximum gate closing velocity (Velcl). Unit = PU/sec. Typical Value = -0.14. |
| cim:GovHydroDD.velop - Maximum gate opening velocity (Velop). Unit = PU/sec. Typical Value = 0.09. |
| cim:GovHydroFrancis - Detailed hydro unit - Francis model. This model can be used to represent three types of governors.
A schematic of the hydraulic system of detailed hydro unit models, like Francis and Pelton, is provided in the DetailedHydroModelHydraulicSystem diagram. |
| cim:GovHydroFrancis.am - Opening section Seff at the maximum efficiency (Am). Typical Value = 0.7. |
| cim:GovHydroFrancis.av0 - Area of the surge tank (AV0). Unit = m2. Typical Value = 30. |
| cim:GovHydroFrancis.av1 - Area of the compensation tank (AV1). Unit = m2. Typical Value = 700. |
| cim:GovHydroFrancis.bp - Droop (Bp). Typical Value = 0.05. |
| cim:GovHydroFrancis.db1 - Intentional dead-band width (DB1). Unit = Hz. Typical Value = 0. |
| cim:GovHydroFrancis.etamax - Maximum efficiency (EtaMax). Typical Value = 1.05. |
| cim:GovHydroFrancis.governorControl - Governor control flag (Cflag). Typical Value = mechanicHydrolicTachoAccelerator. |
| cim:GovHydroFrancis.h1 - Head of compensation chamber water level with respect to the level of penstock (H1). Unit = m. Typical Value = 4. |
| cim:GovHydroFrancis.h2 - Head of surge tank water level with respect to the level of penstock (H2). Unit = m. Typical Value = 40. |
| cim:GovHydroFrancis.hn - Rated hydraulic head (Hn). Unit = m. Typical Value = 250. |
| cim:GovHydroFrancis.kc - Penstock loss coefficient (due to friction) (Kc). Typical Value = 0.025. |
| cim:GovHydroFrancis.kg - Water tunnel and surge chamber loss coefficient (due to friction) (Kg). Typical Value = 0.025. |
| cim:GovHydroFrancis.kt - Washout gain (Kt). Typical Value = 0.25. |
| cim:GovHydroFrancis.qc0 - No-load turbine flow at nominal head (Qc0). Typical Value = 0.21. |
| cim:GovHydroFrancis.qn - Rated flow (Qn). Unit = m3/s. Typical Value = 40. |
| cim:GovHydroFrancis.ta - Derivative gain (Ta). Typical Value = 3. |
| cim:GovHydroFrancis.td - Washout time constant (Td). Typical Value = 3. |
| cim:GovHydroFrancis.ts - Gate servo time constant (Ts). Typical Value = 0.5. |
| cim:GovHydroFrancis.twnc - Water inertia time constant (Twnc). Typical Value = 1. |
| cim:GovHydroFrancis.twng - Water tunnel and surge chamber inertia time constant (Twng). Typical Value = 3. |
| cim:GovHydroFrancis.tx - Derivative feedback gain (Tx). Typical Value = 1. |
| cim:GovHydroFrancis.va - Maximum gate opening velocity (Va). Unit = PU/sec. Typical Value = 0.011. |
| cim:GovHydroFrancis.valvmax - Maximum gate opening (ValvMax). Typical Value = 1. |
| cim:GovHydroFrancis.valvmin - Minimum gate opening (ValvMin). Typical Value = 0. |
| cim:GovHydroFrancis.vc - Maximum gate closing velocity (Vc). Unit = PU/sec. Typical Value = -0.011. |
| cim:GovHydroFrancis.waterTunnelSurgeChamberSimulation - Water tunnel and surge chamber simulation (Tflag).
true = enable of water tunnel and surge chamber simulation
false = inhibit of water tunnel and surge chamber simulation.
Typical Value = false. |
| cim:GovHydroFrancis.zsfc - Head of upper water level with respect to the level of penstock (Zsfc). Unit = m. Typical Value = 25. |
| cim:GovHydroIEEE0 - IEEE Simplified Hydro Governor-Turbine Model. Used for Mechanical-Hydraulic and Electro-Hydraulic turbine governors, with our without steam feedback. Typical values given are for Mechanical-Hydraulic.
Reference: IEEE Transactions on Power Apparatus and Systems
November/December 1973, Volume PAS-92, Number 6
Dynamic Models for Steam and Hydro Turbines in Power System Studies, Page 1904. |
| cim:GovHydroIEEE0.k - Governor gain (K). |
| cim:GovHydroIEEE0.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovHydroIEEE0.pmax - Gate maximum (Pmax). |
| cim:GovHydroIEEE0.pmin - Gate minimum (Pmin). |
| cim:GovHydroIEEE0.t1 - Governor lag time constant (T1). Typical Value = 0.25. |
| cim:GovHydroIEEE0.t2 - Governor lead time constant (T2). Typical Value = 0. |
| cim:GovHydroIEEE0.t3 - Gate actuator time constant (T3). Typical Value = 0.1. |
| cim:GovHydroIEEE0.t4 - Water starting time (T4). |
| cim:GovHydroIEEE2 - IEEE hydro turbine governor model represents plants with straightforward penstock configurations and hydraulic-dashpot governors.
Reference: IEEE Transactions on Power Apparatus and Systems
November/December 1973, Volume PAS-92, Number 6
Dynamic Models for Steam and Hydro Turbines in Power System Studies, Page 1904. |
| cim:GovHydroIEEE2.aturb - Turbine numerator multiplier (Aturb). Typical Value = -1. |
| cim:GovHydroIEEE2.bturb - Turbine denominator multiplier (Bturb). Typical Value = 0.5. |
| cim:GovHydroIEEE2.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydroIEEE2.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydroIEEE2.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydroIEEE2.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydroIEEE2.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydroIEEE2.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydroIEEE2.kturb - Turbine gain (Kturb). Typical Value = 1. |
| cim:GovHydroIEEE2.mwbase - Base for power values (MWbase) (> 0). Unit = MW. |
| cim:GovHydroIEEE2.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydroIEEE2.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydroIEEE2.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydroIEEE2.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydroIEEE2.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydroIEEE2.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydroIEEE2.pmax - Maximum gate opening (Pmax). Typical Value = 1. |
| cim:GovHydroIEEE2.pmin - Minimum gate opening (Pmin). Typical Value = 0. |
| cim:GovHydroIEEE2.rperm - Permanent droop (Rperm). Typical Value = 0.05. |
| cim:GovHydroIEEE2.rtemp - Temporary droop (Rtemp). Typical Value = 0.5. |
| cim:GovHydroIEEE2.tg - Gate servo time constant (Tg). Typical Value = 0.5. |
| cim:GovHydroIEEE2.tp - Pilot servo valve time constant (Tp). Typical Value = 0.03. |
| cim:GovHydroIEEE2.tr - Dashpot time constant (Tr). Typical Value = 12. |
| cim:GovHydroIEEE2.tw - Water inertia time constant (Tw). Typical Value = 2. |
| cim:GovHydroIEEE2.uc - Maximum gate closing velocity (Uc) (<0). Typical Value = -0.1. |
| cim:GovHydroIEEE2.uo - Maximum gate opening velocity (Uo). Unit = PU/sec. Typical Value = 0.1. |
| cim:GovHydroPelton - Detailed hydro unit - Pelton model. This model can be used to represent the dynamic related to water tunnel and surge chamber.
A schematic of the hydraulic system of detailed hydro unit models, like Francis and Pelton, is located under the GovHydroFrancis class. |
| cim:GovHydroPelton.av0 - Area of the surge tank (AV0). Unit = m2. Typical Value = 30. |
| cim:GovHydroPelton.av1 - Area of the compensation tank (AV1). Unit = m2. Typical Value = 700. |
| cim:GovHydroPelton.bp - Droop (bp). Typical Value = 0.05. |
| cim:GovHydroPelton.db1 - Intentional dead-band width (DB1). Unit = Hz. Typical Value = 0. |
| cim:GovHydroPelton.db2 - Intentional dead-band width of valve opening error (DB2). Unit = Hz. Typical Value = 0.01. |
| cim:GovHydroPelton.h1 - Head of compensation chamber water level with respect to the level of penstock (H1). Unit = m. Typical Value = 4. |
| cim:GovHydroPelton.h2 - Head of surge tank water level with respect to the level of penstock (H2). Unit = m. Typical Value = 40. |
| cim:GovHydroPelton.hn - Rated hydraulic head (Hn). Unit = m. Typical Value = 250. |
| cim:GovHydroPelton.kc - Penstock loss coefficient (due to friction) (Kc). Typical Value = 0.025. |
| cim:GovHydroPelton.kg - Water tunnel and surge chamber loss coefficient (due to friction) (Kg). Typical Value = -0.025. |
| cim:GovHydroPelton.qc0 - No-load turbine flow at nominal head (Qc0). Typical Value = 0.05. |
| cim:GovHydroPelton.qn - Rated flow (Qn). Unit = m3/s. Typical Value = 40. |
| cim:GovHydroPelton.simplifiedPelton - Simplified Pelton model simulation (Sflag).
true = enable of simplified Pelton model simulation
false = enable of complete Pelton model simulation (non linear gain).
Typical Value = false. |
| cim:GovHydroPelton.staticCompensating - Static compensating characteristic (Cflag).
true = enable of static compensating characteristic
false = inhibit of static compensating characteristic.
Typical Value = false. |
| cim:GovHydroPelton.ta - Derivative gain (accelerometer time constant) (Ta). Typical Value = 3. |
| cim:GovHydroPelton.ts - Gate servo time constant (Ts). Typical Value = 0.15. |
| cim:GovHydroPelton.tv - Servomotor integrator time constant (TV). Typical Value = 0.3. |
| cim:GovHydroPelton.twnc - Water inertia time constant (Twnc). Typical Value = 1. |
| cim:GovHydroPelton.twng - Water tunnel and surge chamber inertia time constant (Twng). Typical Value = 3. |
| cim:GovHydroPelton.tx - Electronic integrator time constant (Tx). Typical Value = 0.5. |
| cim:GovHydroPelton.va - Maximum gate opening velocity (Va). Unit = PU/sec. Typical Value = 0.016. |
| cim:GovHydroPelton.valvmax - Maximum gate opening (ValvMax). Typical Value = 1. |
| cim:GovHydroPelton.valvmin - Minimum gate opening (ValvMin). Typical Value = 0. |
| cim:GovHydroPelton.vav - Maximum servomotor valve opening velocity (Vav). Typical Value = 0.017. |
| cim:GovHydroPelton.vc - Maximum gate closing velocity (Vc). Unit = PU/sec. Typical Value = -0.016. |
| cim:GovHydroPelton.vcv - Maximum servomotor valve closing velocity (Vcv). Typical Value = -0.017. |
| cim:GovHydroPelton.waterTunnelSurgeChamberSimulation - Water tunnel and surge chamber simulation (Tflag).
true = enable of water tunnel and surge chamber simulation
false = inhibit of water tunnel and surge chamber simulation.
Typical Value = false. |
| cim:GovHydroPelton.zsfc - Head of upper water level with respect to the level of penstock (Zsfc). Unit = m. Typical Value = 25. |
| cim:GovHydroPID - PID governor and turbine. |
| cim:GovHydroPID.aturb - Turbine numerator multiplier (Aturb) (note 3). Typical Value -1. |
| cim:GovHydroPID.bturb - Turbine denominator multiplier (Bturb) (note 3). Typical Value = 0.5. |
| cim:GovHydroPID.db1 - Intentional dead-band width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydroPID.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydroPID.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydroPID.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydroPID.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydroPID.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydroPID.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydroPID.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydroPID.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydroPID.inputSignal - Input signal switch (Flag).
true = Pe input is used
false = feedback is received from CV.
Flag is normally dependent on Tt. If Tf is zero, Flag is set to false. If Tf is not zero, Flag is set to true. Typical Value = true. |
| cim:GovHydroPID.kd - Derivative gain (Kd). Typical Value = 1.11. |
| cim:GovHydroPID.kg - Gate servo gain (Kg). Typical Value = 2.5. |
| cim:GovHydroPID.ki - Integral gain (Ki). Typical Value = 0.36. |
| cim:GovHydroPID.kp - Proportional gain (Kp). Typical Value = 0.1. |
| cim:GovHydroPID.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroPID.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydroPID.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydroPID.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydroPID.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydroPID.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydroPID.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydroPID.pmax - Maximum gate opening, PU of MWbase (Pmax). Typical Value = 1. |
| cim:GovHydroPID.pmin - Minimum gate opening, PU of MWbase (Pmin). Typical Value = 0. |
| cim:GovHydroPID.r - Steady state droop (R). Typical Value = 0.05. |
| cim:GovHydroPID.td - Input filter time constant (Td). Typical Value = 0. |
| cim:GovHydroPID.tf - Washout time constant (Tf). Typical Value = 0.1. |
| cim:GovHydroPID.tp - Gate servo time constant (Tp). Typical Value = 0.35. |
| cim:GovHydroPID.tt - Power feedback time constant (Tt). Typical Value = 0.02. |
| cim:GovHydroPID.tturb - Turbine time constant (Tturb) (note 3). Typical Value = 0.8. |
| cim:GovHydroPID.velcl - Maximum gate closing velocity (Velcl). Unit = PU/sec. Typical Value = -0.14. |
| cim:GovHydroPID.velop - Maximum gate opening velocity (Velop). Unit = PU/sec. Typical Value = 0.09. |
| cim:GovHydroPID2 - Hydro turbine and governor. Represents plants with straight forward penstock configurations and "three term" electro-hydraulic governors (i.e. Woodard electronic). |
| cim:GovHydroPID2.atw - Factor multiplying Tw (Atw). Typical Value = 0. |
| cim:GovHydroPID2.d - Turbine damping factor (D). Unit = delta P / delta speed. Typical Value = 0. |
| cim:GovHydroPID2.feedbackSignal - Feedback signal type flag (Flag).
true = use gate position feedback signal
false = use Pe. |
| cim:GovHydroPID2.g0 - Gate opening at speed no load (G0). Typical Value = 0. |
| cim:GovHydroPID2.g1 - Intermediate gate opening (G1). Typical Value = 0. |
| cim:GovHydroPID2.g2 - Intermediate gate opening (G2). Typical Value = 0. |
| cim:GovHydroPID2.gmax - Maximum gate opening (Gmax). Typical Value = 0. |
| cim:GovHydroPID2.gmin - Minimum gate opening (Gmin). Typical Value = 0. |
| cim:GovHydroPID2.kd - Derivative gain (Kd). Typical Value = 0. |
| cim:GovHydroPID2.ki - Reset gain (Ki). Unit = PU/ sec. Typical Value = 0. |
| cim:GovHydroPID2.kp - Proportional gain (Kp). Typical Value = 0. |
| cim:GovHydroPID2.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroPID2.p1 - Power at gate opening G1 (P1). Typical Value = 0. |
| cim:GovHydroPID2.p2 - Power at gate opening G2 (P2). Typical Value = 0. |
| cim:GovHydroPID2.p3 - Power at full opened gate (P3). Typical Value = 0. |
| cim:GovHydroPID2.rperm - Permanent drop (Rperm). Typical Value = 0. |
| cim:GovHydroPID2.ta - Controller time constant (Ta) (>0). Typical Value = 0. |
| cim:GovHydroPID2.tb - Gate servo time constant (Tb) (>0). Typical Value = 0. |
| cim:GovHydroPID2.treg - Speed detector time constant (Treg). Typical Value = 0. |
| cim:GovHydroPID2.tw - Water inertia time constant (Tw) (>0). Typical Value = 0. |
| cim:GovHydroPID2.velmax - Maximum gate opening velocity (Velmax). Unit = PU/sec. Typical Value = 0. |
| cim:GovHydroPID2.velmin - Maximum gate closing velocity (Velmin). Unit = PU/sec. Typical Value = 0. |
| cim:GovHydroR - Fourth order lead-lag governor and hydro turbine. |
| cim:GovHydroR.at - Turbine gain (At). Typical Value = 1.2. |
| cim:GovHydroR.db1 - Intentional dead-band width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovHydroR.db2 - Unintentional dead-band (db2). Unit = MW. Typical Value = 0. |
| cim:GovHydroR.dturb - Turbine damping factor (Dturb). Typical Value = 0.2. |
| cim:GovHydroR.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovHydroR.gmax - Maximum governor output (Gmax). Typical Value = 1.05. |
| cim:GovHydroR.gmin - Minimum governor output (Gmin). Typical Value = -0.05. |
| cim:GovHydroR.gv1 - Nonlinear gain point 1, PU gv (Gv1). Typical Value = 0. |
| cim:GovHydroR.gv2 - Nonlinear gain point 2, PU gv (Gv2). Typical Value = 0. |
| cim:GovHydroR.gv3 - Nonlinear gain point 3, PU gv (Gv3). Typical Value = 0. |
| cim:GovHydroR.gv4 - Nonlinear gain point 4, PU gv (Gv4). Typical Value = 0. |
| cim:GovHydroR.gv5 - Nonlinear gain point 5, PU gv (Gv5). Typical Value = 0. |
| cim:GovHydroR.gv6 - Nonlinear gain point 6, PU gv (Gv6). Typical Value = 0. |
| cim:GovHydroR.h0 - Turbine nominal head (H0). Typical Value = 1. |
| cim:GovHydroR.inputSignal - Input signal switch (Flag).
true = Pe input is used
false = feedback is received from CV.
Flag is normally dependent on Tt. If Tf is zero, Flag is set to false. If Tf is not zero, Flag is set to true. Typical Value = true. |
| cim:GovHydroR.kg - Gate servo gain (Kg). Typical Value = 2. |
| cim:GovHydroR.ki - Integral gain (Ki). Typical Value = 0.5. |
| cim:GovHydroR.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroR.pgv1 - Nonlinear gain point 1, PU power (Pgv1). Typical Value = 0. |
| cim:GovHydroR.pgv2 - Nonlinear gain point 2, PU power (Pgv2). Typical Value = 0. |
| cim:GovHydroR.pgv3 - Nonlinear gain point 3, PU power (Pgv3). Typical Value = 0. |
| cim:GovHydroR.pgv4 - Nonlinear gain point 4, PU power (Pgv4). Typical Value = 0. |
| cim:GovHydroR.pgv5 - Nonlinear gain point 5, PU power (Pgv5). Typical Value = 0. |
| cim:GovHydroR.pgv6 - Nonlinear gain point 6, PU power (Pgv6). Typical Value = 0. |
| cim:GovHydroR.pmax - Maximum gate opening, PU of MWbase (Pmax). Typical Value = 1. |
| cim:GovHydroR.pmin - Minimum gate opening, PU of MWbase (Pmin). Typical Value = 0. |
| cim:GovHydroR.qnl - No-load turbine flow at nominal head (Qnl). Typical Value = 0.08. |
| cim:GovHydroR.r - Steady-state droop (R). Typical Value = 0.05. |
| cim:GovHydroR.t1 - Lead time constant 1 (T1). Typical Value = 1.5. |
| cim:GovHydroR.t2 - Lag time constant 1 (T2). Typical Value = 0.1. |
| cim:GovHydroR.t3 - Lead time constant 2 (T3). Typical Value = 1.5. |
| cim:GovHydroR.t4 - Lag time constant 2 (T4). Typical Value = 0.1. |
| cim:GovHydroR.t5 - Lead time constant 3 (T5). Typical Value = 0. |
| cim:GovHydroR.t6 - Lag time constant 3 (T6). Typical Value = 0.05. |
| cim:GovHydroR.t7 - Lead time constant 4 (T7). Typical Value = 0. |
| cim:GovHydroR.t8 - Lag time constant 4 (T8). Typical Value = 0.05. |
| cim:GovHydroR.td - Input filter time constant (Td). Typical Value = 0.05. |
| cim:GovHydroR.tp - Gate servo time constant (Tp). Typical Value = 0.05. |
| cim:GovHydroR.tt - Power feedback time constant (Tt). Typical Value = 0. |
| cim:GovHydroR.tw - Water inertia time constant (Tw). Typical Value = 1. |
| cim:GovHydroR.velcl - Maximum gate closing velocity (Velcl). Unit = PU/sec. Typical Value = -0.2. |
| cim:GovHydroR.velop - Maximum gate opening velocity (Velop). Unit = PU/sec. Typical Value = 0.2. |
| cim:GovHydroWEH - Woodward Electric Hydro Governor Model. |
| cim:GovHydroWEH.db - Speed Dead Band (db). |
| cim:GovHydroWEH.dicn - Value to allow the integral controller to advance beyond the gate limits (Dicn). |
| cim:GovHydroWEH.dpv - Value to allow the Pilot valve controller to advance beyond the gate limits (Dpv). |
| cim:GovHydroWEH.dturb - Turbine damping factor (Dturb). Unit = delta P (PU of MWbase) / delta speed (PU). |
| cim:GovHydroWEH.feedbackSignal - Feedback signal selection (Sw).
true = PID Output (if R-Perm-Gate=droop and R-Perm-Pe=0)
false = Electrical Power (if R-Perm-Gate=0 and R-Perm-Pe=droop) or
false = Gate Position (if R-Perm-Gate=droop and R-Perm-Pe=0). |
| cim:GovHydroWEH.fl1 - Flow Gate 1 (Fl1). Flow value for gate position point 1 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.fl2 - Flow Gate 2 (Fl2). Flow value for gate position point 2 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.fl3 - Flow Gate 3 (Fl3). Flow value for gate position point 3 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.fl4 - Flow Gate 4 (Fl4). Flow value for gate position point 4 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.fl5 - Flow Gate 5 (Fl5). Flow value for gate position point 5 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.fp1 - Flow P1 (Fp1). Turbine Flow value for point 1 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp10 - Flow P10 (Fp10). Turbine Flow value for point 10 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp2 - Flow P2 (Fp2). Turbine Flow value for point 2 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp3 - Flow P3 (Fp3). Turbine Flow value for point 3 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp4 - Flow P4 (Fp4). Turbine Flow value for point 4 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp5 - Flow P5 (Fp5). Turbine Flow value for point 5 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp6 - Flow P6 (Fp6). Turbine Flow value for point 6 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp7 - Flow P7 (Fp7). Turbine Flow value for point 7 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp8 - Flow P8 (Fp8). Turbine Flow value for point 8 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.fp9 - Flow P9 (Fp9). Turbine Flow value for point 9 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.gmax - Maximum Gate Position (Gmax). |
| cim:GovHydroWEH.gmin - Minimum Gate Position (Gmin). |
| cim:GovHydroWEH.gtmxcl - Maximum gate closing rate (Gtmxcl). |
| cim:GovHydroWEH.gtmxop - Maximum gate opening rate (Gtmxop). |
| cim:GovHydroWEH.gv1 - Gate 1 (Gv1). Gate Position value for point 1 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.gv2 - Gate 2 (Gv2). Gate Position value for point 2 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.gv3 - Gate 3 (Gv3). Gate Position value for point 3 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.gv4 - Gate 4 (Gv4). Gate Position value for point 4 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.gv5 - Gate 5 (Gv5). Gate Position value for point 5 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. |
| cim:GovHydroWEH.kd - Derivative controller derivative gain (Kd). |
| cim:GovHydroWEH.ki - Derivative controller Integral gain (Ki). |
| cim:GovHydroWEH.kp - Derivative control gain (Kp). |
| cim:GovHydroWEH.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroWEH.pmss1 - Pmss Flow P1 (Pmss1). Mechanical Power output Pmss for Turbine Flow point 1 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss10 - Pmss Flow P10 (Pmss10). Mechanical Power output Pmss for Turbine Flow point 10 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss2 - Pmss Flow P2 (Pmss2). Mechanical Power output Pmss for Turbine Flow point 2 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss3 - Pmss Flow P3 (Pmss3). Mechanical Power output Pmss for Turbine Flow point 3 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss4 - Pmss Flow P4 (Pmss4). Mechanical Power output Pmss for Turbine Flow point 4 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss5 - Pmss Flow P5 (Pmss5). Mechanical Power output Pmss for Turbine Flow point 5 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss6 - Pmss Flow P6 (Pmss6). Mechanical Power output Pmss for Turbine Flow point 6 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss7 - Pmss Flow P7 (Pmss7). Mechanical Power output Pmss for Turbine Flow point 7 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss8 - Pmss Flow P8 (Pmss8). Mechanical Power output Pmss for Turbine Flow point 8 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.pmss9 - Pmss Flow P9 (Pmss9). Mechanical Power output Pmss for Turbine Flow point 9 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. |
| cim:GovHydroWEH.rpg - Permanent droop for governor output feedback (R-Perm-Gate). |
| cim:GovHydroWEH.rpp - Permanent droop for electrical power feedback (R-Perm-Pe). |
| cim:GovHydroWEH.td - Derivative controller time constant to limit the derivative characteristic beyond a breakdown frequency to avoid amplification of high-frequency noise (Td). |
| cim:GovHydroWEH.tdv - Distributive Valve time lag time constant (Tdv). |
| cim:GovHydroWEH.tg - Value to allow the Distribution valve controller to advance beyond the gate movement rate limit (Tg). |
| cim:GovHydroWEH.tp - Pilot Valve time lag time constant (Tp). |
| cim:GovHydroWEH.tpe - Electrical power droop time constant (Tpe). |
| cim:GovHydroWEH.tw - Water inertia time constant (Tw) (>0). |
| cim:GovHydroWPID - Woodward PID Hydro Governor. |
| cim:GovHydroWPID.d - Turbine damping factor (D). Unit = delta P / delta speed. |
| cim:GovHydroWPID.gatmax - Gate opening Limit Maximum (Gatmax). |
| cim:GovHydroWPID.gatmin - Gate opening Limit Minimum (Gatmin). |
| cim:GovHydroWPID.gv1 - Gate position 1 (Gv1). |
| cim:GovHydroWPID.gv2 - Gate position 2 (Gv2). |
| cim:GovHydroWPID.gv3 - Gate position 3 (Gv3). |
| cim:GovHydroWPID.kd - Derivative gain (Kd). Typical Value = 1.11. |
| cim:GovHydroWPID.ki - Reset gain (Ki). Typical Value = 0.36. |
| cim:GovHydroWPID.kp - Proportional gain (Kp). Typical Value = 0.1. |
| cim:GovHydroWPID.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovHydroWPID.pgv1 - Output at Gv1 PU of MWbase (Pgv1). |
| cim:GovHydroWPID.pgv2 - Output at Gv2 PU of MWbase (Pgv2). |
| cim:GovHydroWPID.pgv3 - Output at Gv3 PU of MWbase (Pgv3). |
| cim:GovHydroWPID.pmax - Maximum Power Output (Pmax). |
| cim:GovHydroWPID.pmin - Minimum Power Output (Pmin). |
| cim:GovHydroWPID.reg - Permanent drop (Reg). |
| cim:GovHydroWPID.ta - Controller time constant (Ta) (>0). Typical Value = 0. |
| cim:GovHydroWPID.tb - Gate servo time constant (Tb) (>0). Typical Value = 0. |
| cim:GovHydroWPID.treg - Speed detector time constant (Treg). |
| cim:GovHydroWPID.tw - Water inertia time constant (Tw) (>0). Typical Value = 0. |
| cim:GovHydroWPID.velmax - Maximum gate opening velocity (Velmax). Unit = PU/sec. Typical Value = 0. |
| cim:GovHydroWPID.velmin - Maximum gate closing velocity (Velmin). Unit = PU/sec. Typical Value = 0. |
| cim:GovSteam0 - A simplified steam turbine governor model. |
| cim:GovSteam0.dt - Turbine damping coefficient (Dt). Unit = delta P / delta speed. Typical Value = 0. |
| cim:GovSteam0.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteam0.r - Permanent droop (R). Typical Value = 0.05. |
| cim:GovSteam0.t1 - Steam bowl time constant (T1). Typical Value = 0.5. |
| cim:GovSteam0.t2 - Numerator time constant of T2/T3 block (T2). Typical Value = 3. |
| cim:GovSteam0.t3 - Reheater time constant (T3). Typical Value = 10. |
| cim:GovSteam0.vmax - Maximum valve position, PU of mwcap (Vmax). Typical Value = 1. |
| cim:GovSteam0.vmin - Minimum valve position, PU of mwcap (Vmin). Typical Value = 0. |
| cim:GovSteam1 - Steam turbine governor model, based on the GovSteamIEEE1 model (with optional deadband and nonlinear valve gain added). |
| cim:GovSteam1.db1 - Intentional deadband width (db1). Unit = Hz. Typical Value = 0. |
| cim:GovSteam1.db2 - Unintentional deadband (db2). Unit = MW. Typical Value = 0. |
| cim:GovSteam1.eps - Intentional db hysteresis (eps). Unit = Hz. Typical Value = 0. |
| cim:GovSteam1.gv1 - Nonlinear gain valve position point 1 (GV1). Typical Value = 0. |
| cim:GovSteam1.gv2 - Nonlinear gain valve position point 2 (GV2). Typical Value = 0.4. |
| cim:GovSteam1.gv3 - Nonlinear gain valve position point 3 (GV3). Typical Value = 0.5. |
| cim:GovSteam1.gv4 - Nonlinear gain valve position point 4 (GV4). Typical Value = 0.6. |
| cim:GovSteam1.gv5 - Nonlinear gain valve position point 5 (GV5). Typical Value = 1. |
| cim:GovSteam1.gv6 - Nonlinear gain valve position point 6 (GV6). Typical Value = 0. |
| cim:GovSteam1.k - Governor gain (reciprocal of droop) (K) (>0). Typical Value = 25. |
| cim:GovSteam1.k1 - Fraction of HP shaft power after first boiler pass (K1). Typical Value = 0.2. |
| cim:GovSteam1.k2 - Fraction of LP shaft power after first boiler pass (K2). Typical Value = 0. |
| cim:GovSteam1.k3 - Fraction of HP shaft power after second boiler pass (K3). Typical Value = 0.3. |
| cim:GovSteam1.k4 - Fraction of LP shaft power after second boiler pass (K4). Typical Value = 0. |
| cim:GovSteam1.k5 - Fraction of HP shaft power after third boiler pass (K5). Typical Value = 0.5. |
| cim:GovSteam1.k6 - Fraction of LP shaft power after third boiler pass (K6). Typical Value = 0. |
| cim:GovSteam1.k7 - Fraction of HP shaft power after fourth boiler pass (K7). Typical Value = 0. |
| cim:GovSteam1.k8 - Fraction of LP shaft power after fourth boiler pass (K8). Typical Value = 0. |
| cim:GovSteam1.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteam1.pgv1 - Nonlinear gain power value point 1 (Pgv1). Typical Value = 0. |
| cim:GovSteam1.pgv2 - Nonlinear gain power value point 2 (Pgv2). Typical Value = 0.75. |
| cim:GovSteam1.pgv3 - Nonlinear gain power value point 3 (Pgv3). Typical Value = 0.91. |
| cim:GovSteam1.pgv4 - Nonlinear gain power value point 4 (Pgv4). Typical Value = 0.98. |
| cim:GovSteam1.pgv5 - Nonlinear gain power value point 5 (Pgv5). Typical Value = 1. |
| cim:GovSteam1.pgv6 - Nonlinear gain power value point 6 (Pgv6). Typical Value = 0. |
| cim:GovSteam1.pmax - Maximum valve opening (Pmax) (> Pmin). Typical Value = 1. |
| cim:GovSteam1.pmin - Minimum valve opening (Pmin) (>=0). Typical Value = 0. |
| cim:GovSteam1.sdb1 - Intentional deadband indicator.
true = intentional deadband is applied
false = intentional deadband is not applied.
Typical Value = true. |
| cim:GovSteam1.sdb2 - Unintentional deadband location.
true = intentional deadband is applied before point "A"
false = intentional deadband is applied after point "A".
Typical Value = true. |
| cim:GovSteam1.t1 - Governor lag time constant (T1). Typical Value = 0. |
| cim:GovSteam1.t2 - Governor lead time constant (T2). Typical Value = 0. |
| cim:GovSteam1.t3 - Valve positioner time constant (T3) (>0). Typical Value = 0.1. |
| cim:GovSteam1.t4 - Inlet piping/steam bowl time constant (T4). Typical Value = 0.3. |
| cim:GovSteam1.t5 - Time constant of second boiler pass (T5). Typical Value = 5. |
| cim:GovSteam1.t6 - Time constant of third boiler pass (T6). Typical Value = 0.5. |
| cim:GovSteam1.t7 - Time constant of fourth boiler pass (T7). Typical Value = 0. |
| cim:GovSteam1.uc - Maximum valve closing velocity (Uc) (<0). Unit = PU/sec. Typical Value = -10. |
| cim:GovSteam1.uo - Maximum valve opening velocity (Uo) (>0). Unit = PU/sec. Typical Value = 1. |
| cim:GovSteam1.valve - Nonlinear valve characteristic.
true = nonlinear valve characteristic is used
false = nonlinear valve characteristic is not used.
Typical Value = true. |
| cim:GovSteam2 - Simplified governor model. |
| cim:GovSteam2.dbf - Frequency dead band (DBF). Typical Value = 0. |
| cim:GovSteam2.k - Governor gain (reciprocal of droop) (K). Typical Value = 20. |
| cim:GovSteam2.mnef - Fuel flow maximum negative error value (MNEF). Typical Value = -1. |
| cim:GovSteam2.mxef - Fuel flow maximum positive error value (MXEF). Typical Value = 1. |
| cim:GovSteam2.pmax - Maximum fuel flow (PMAX). Typical Value = 1. |
| cim:GovSteam2.pmin - Minimum fuel flow (PMIN). Typical Value = 0. |
| cim:GovSteam2.t1 - Governor lag time constant (T1) (>0). Typical Value = 0.45. |
| cim:GovSteam2.t2 - Governor lead time constant (T2) (may be 0). Typical Value = 0. |
| cim:GovSteamCC - Cross compound turbine governor model. |
| cim:GovSteamCC.dhp - HP damping factor (Dhp). Typical Value = 0. |
| cim:GovSteamCC.dlp - LP damping factor (Dlp). Typical Value = 0. |
| cim:GovSteamCC.fhp - Fraction of HP power ahead of reheater (Fhp). Typical Value = 0.3. |
| cim:GovSteamCC.flp - Fraction of LP power ahead of reheater (Flp). Typical Value = 0.7. |
| cim:GovSteamCC.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteamCC.pmaxhp - Maximum HP value position (Pmaxhp). Typical Value = 1. |
| cim:GovSteamCC.pmaxlp - Maximum LP value position (Pmaxlp). Typical Value = 1. |
| cim:GovSteamCC.rhp - HP governor droop (Rhp). Typical Value = 0.05. |
| cim:GovSteamCC.rlp - LP governor droop (Rlp). Typical Value = 0.05. |
| cim:GovSteamCC.t1hp - HP governor time constant (T1hp). Typical Value = 0.1. |
| cim:GovSteamCC.t1lp - LP governor time constant (T1lp). Typical Value = 0.1. |
| cim:GovSteamCC.t3hp - HP turbine time constant (T3hp). Typical Value = 0.1. |
| cim:GovSteamCC.t3lp - LP turbine time constant (T3lp). Typical Value = 0.1. |
| cim:GovSteamCC.t4hp - HP turbine time constant (T4hp). Typical Value = 0.1. |
| cim:GovSteamCC.t4lp - LP turbine time constant (T4lp). Typical Value = 0.1. |
| cim:GovSteamCC.t5hp - HP reheater time constant (T5hp). Typical Value = 10. |
| cim:GovSteamCC.t5lp - LP reheater time constant (T5lp). Typical Value = 10. |
| cim:GovSteamEU - Simplified model of boiler and steam turbine with PID governor. |
| cim:GovSteamEU.chc - Control valves rate closing limit (Chc). Unit = PU/sec. Typical Value = -3.3. |
| cim:GovSteamEU.cho - Control valves rate opening limit (Cho). Unit = PU/sec. Typical Value = 0.17. |
| cim:GovSteamEU.cic - Intercept valves rate closing limit (Cic). Typical Value = -2.2. |
| cim:GovSteamEU.cio - Intercept valves rate opening limit (Cio). Typical Value = 0.123. |
| cim:GovSteamEU.db1 - Dead band of the frequency corrector (db1). Typical Value = 0. |
| cim:GovSteamEU.db2 - Dead band of the speed governor (db2). Typical Value = 0.0004. |
| cim:GovSteamEU.hhpmax - Maximum control valve position (Hhpmax). Typical Value = 1. |
| cim:GovSteamEU.ke - Gain of the power controller (Ke). Typical Value = 0.65. |
| cim:GovSteamEU.kfcor - Gain of the frequency corrector (Kfcor). Typical Value = 20. |
| cim:GovSteamEU.khp - Fraction of total turbine output generated by HP part (Khp). Typical Value = 0.277. |
| cim:GovSteamEU.klp - Fraction of total turbine output generated by HP part (Klp). Typical Value = 0.723. |
| cim:GovSteamEU.kwcor - Gain of the speed governor (Kwcor). Typical Value = 20. |
| cim:GovSteamEU.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteamEU.pmax - Maximal active power of the turbine (Pmax). Typical Value = 1. |
| cim:GovSteamEU.prhmax - Maximum low pressure limit (Prhmax). Typical Value = 1.4. |
| cim:GovSteamEU.simx - Intercept valves transfer limit (Simx). Typical Value = 0.425. |
| cim:GovSteamEU.tb - Boiler time constant (Tb). Typical Value = 100. |
| cim:GovSteamEU.tdp - Derivative time constant of the power controller (Tdp). Typical Value = 0. |
| cim:GovSteamEU.ten - Electro hydraulic transducer (Ten). Typical Value = 0.1. |
| cim:GovSteamEU.tf - Frequency transducer time constant (Tf). Typical Value = 0. |
| cim:GovSteamEU.tfp - Time constant of the power controller (Tfp). Typical Value = 0. |
| cim:GovSteamEU.thp - High pressure (HP) time constant of the turbine (Thp). Typical Value = 0.31. |
| cim:GovSteamEU.tip - Integral time constant of the power controller (Tip). Typical Value = 2. |
| cim:GovSteamEU.tlp - Low pressure(LP) time constant of the turbine (Tlp). Typical Value = 0.45. |
| cim:GovSteamEU.tp - Power transducer time constant (Tp). Typical Value = 0.07. |
| cim:GovSteamEU.trh - Reheater time constant of the turbine (Trh). Typical Value = 8. |
| cim:GovSteamEU.tvhp - Control valves servo time constant (Tvhp). Typical Value = 0.1. |
| cim:GovSteamEU.tvip - Intercept valves servo time constant (Tvip). Typical Value = 0.15. |
| cim:GovSteamEU.tw - Speed transducer time constant (Tw). Typical Value = 0.02. |
| cim:GovSteamEU.wfmax - Upper limit for frequency correction (Wfmax). Typical Value = 0.05. |
| cim:GovSteamEU.wfmin - Lower limit for frequency correction (Wfmin). Typical Value = -0.05. |
| cim:GovSteamEU.wmax1 - Emergency speed control lower limit (wmax1). Typical Value = 1.025. |
| cim:GovSteamEU.wmax2 - Emergency speed control upper limit (wmax2). Typical Value = 1.05. |
| cim:GovSteamEU.wwmax - Upper limit for the speed governor (Wwmax). Typical Value = 0.1. |
| cim:GovSteamEU.wwmin - Lower limit for the speed governor frequency correction (Wwmin). Typical Value = -1. |
| cim:GovSteamFV2 - Steam turbine governor with reheat time constants and modeling of the effects of fast valve closing to reduce mechanical power. |
| cim:GovSteamFV2.dt - (Dt). |
| cim:GovSteamFV2.k - Fraction of the turbine power developed by turbine sections not involved in fast valving (K). |
| cim:GovSteamFV2.mwbase - Alternate Base used instead of Machine base in equipment model if necessary (MWbase) (>0). Unit = MW. |
| cim:GovSteamFV2.r - (R). |
| cim:GovSteamFV2.t1 - Governor time constant (T1). |
| cim:GovSteamFV2.t3 - Reheater time constant (T3). |
| cim:GovSteamFV2.ta - Time after initial time for valve to close (Ta). |
| cim:GovSteamFV2.tb - Time after initial time for valve to begin opening (Tb). |
| cim:GovSteamFV2.tc - Time after initial time for valve to become fully open (Tc). |
| cim:GovSteamFV2.ti - Initial time to begin fast valving (Ti). |
| cim:GovSteamFV2.tt - Time constant with which power falls off after intercept valve closure (Tt). |
| cim:GovSteamFV2.vmax - (Vmax). |
| cim:GovSteamFV2.vmin - (Vmin). |
| cim:GovSteamFV3 - Simplified GovSteamIEEE1 Steam turbine governor model with Prmax limit and fast valving. |
| cim:GovSteamFV3.k - Governor gain, (reciprocal of droop) (K). Typical Value = 20. |
| cim:GovSteamFV3.k1 - Fraction of turbine power developed after first boiler pass (K1). Typical Value = 0.2. |
| cim:GovSteamFV3.k2 - Fraction of turbine power developed after second boiler pass (K2). Typical Value = 0.2. |
| cim:GovSteamFV3.k3 - Fraction of hp turbine power developed after crossover or third boiler pass (K3). Typical Value = 0.6. |
| cim:GovSteamFV3.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteamFV3.pmax - Maximum valve opening, PU of MWbase (Pmax). Typical Value = 1. |
| cim:GovSteamFV3.pmin - Minimum valve opening, PU of MWbase (Pmin). Typical Value = 0. |
| cim:GovSteamFV3.prmax - Max. pressure in reheater (Prmax). Typical Value = 1. |
| cim:GovSteamFV3.t1 - Governor lead time constant (T1). Typical Value = 0. |
| cim:GovSteamFV3.t2 - Governor lag time constant (T2). Typical Value = 0. |
| cim:GovSteamFV3.t3 - Valve positioner time constant (T3). Typical Value = 0. |
| cim:GovSteamFV3.t4 - Inlet piping/steam bowl time constant (T4). Typical Value = 0.2. |
| cim:GovSteamFV3.t5 - Time constant of second boiler pass (i.e. reheater) (T5). Typical Value = 0.5. |
| cim:GovSteamFV3.t6 - Time constant of crossover or third boiler pass (T6). Typical Value = 10. |
| cim:GovSteamFV3.ta - Time to close intercept valve (IV) (Ta). Typical Value = 0.97. |
| cim:GovSteamFV3.tb - Time until IV starts to reopen (Tb). Typical Value = 0.98. |
| cim:GovSteamFV3.tc - Time until IV is fully open (Tc). Typical Value = 0.99. |
| cim:GovSteamFV3.uc - Maximum valve closing velocity (Uc). Unit = PU/sec. Typical Value = -1. |
| cim:GovSteamFV3.uo - Maximum valve opening velocity (Uo). Unit = PU/sec. Typical Value = 0.1. |
| cim:GovSteamFV4 - Detailed electro-hydraulic governor for steam unit. |
| cim:GovSteamFV4.cpsmn - Minimum value of pressure regulator output (Cpsmn). Typical Value = -1. |
| cim:GovSteamFV4.cpsmx - Maximum value of pressure regulator output (Cpsmx). Typical Value = 1. |
| cim:GovSteamFV4.crmn - Minimum value of regulator set-point (Crmn). Typical Value = 0. |
| cim:GovSteamFV4.crmx - Maximum value of regulator set-point (Crmx). Typical Value = 1.2. |
| cim:GovSteamFV4.kdc - Derivative gain of pressure regulator (Kdc). Typical Value = 1. |
| cim:GovSteamFV4.kf1 - Frequency bias (reciprocal of droop) (Kf1). Typical Value = 20. |
| cim:GovSteamFV4.kf3 - Frequency control (reciprocal of droop) (Kf3). Typical Value = 20. |
| cim:GovSteamFV4.khp - Fraction of total turbine output generated by HP part (Khp). Typical Value = 0.35. |
| cim:GovSteamFV4.kic - Integral gain of pressure regulator (Kic). Typical Value = 0.0033. |
| cim:GovSteamFV4.kip - Integral gain of pressure feedback regulator (Kip). Typical Value = 0.5. |
| cim:GovSteamFV4.kit - Integral gain of electro-hydraulic regulator (Kit). Typical Value = 0.04. |
| cim:GovSteamFV4.kmp1 - First gain coefficient of intercept valves characteristic (Kmp1). Typical Value = 0.5. |
| cim:GovSteamFV4.kmp2 - Second gain coefficient of intercept valves characteristic (Kmp2). Typical Value = 3.5. |
| cim:GovSteamFV4.kpc - Proportional gain of pressure regulator (Kpc). Typical Value = 0.5. |
| cim:GovSteamFV4.kpp - Proportional gain of pressure feedback regulator (Kpp). Typical Value = 1. |
| cim:GovSteamFV4.kpt - Proportional gain of electro-hydraulic regulator (Kpt). Typical Value = 0.3. |
| cim:GovSteamFV4.krc - Maximum variation of fuel flow (Krc). Typical Value = 0.05. |
| cim:GovSteamFV4.ksh - Pressure loss due to flow friction in the boiler tubes (Ksh). Typical Value = 0.08. |
| cim:GovSteamFV4.lpi - Maximum negative power error (Lpi). Typical Value = -0.15. |
| cim:GovSteamFV4.lps - Maximum positive power error (Lps). Typical Value = 0.03. |
| cim:GovSteamFV4.mnef - Lower limit for frequency correction (MNEF). Typical Value = -0.05. |
| cim:GovSteamFV4.mxef - Upper limit for frequency correction (MXEF). Typical Value = 0.05. |
| cim:GovSteamFV4.pr1 - First value of pressure set point static characteristic (Pr1). Typical Value = 0.2. |
| cim:GovSteamFV4.pr2 - Second value of pressure set point static characteristic, corresponding to Ps0 = 1.0 PU (Pr2). Typical Value = 0.75. |
| cim:GovSteamFV4.psmn - Minimum value of pressure set point static characteristic (Psmn). Typical Value = 1. |
| cim:GovSteamFV4.rsmimn - Minimum value of integral regulator (Rsmimn). Typical Value = 0. |
| cim:GovSteamFV4.rsmimx - Maximum value of integral regulator (Rsmimx). Typical Value = 1.1. |
| cim:GovSteamFV4.rvgmn - Minimum value of integral regulator (Rvgmn). Typical Value = 0. |
| cim:GovSteamFV4.rvgmx - Maximum value of integral regulator (Rvgmx). Typical Value = 1.2. |
| cim:GovSteamFV4.srmn - Minimum valve opening (Srmn). Typical Value = 0. |
| cim:GovSteamFV4.srmx - Maximum valve opening (Srmx). Typical Value = 1.1. |
| cim:GovSteamFV4.srsmp - Intercept valves characteristic discontinuity point (Srsmp). Typical Value = 0.43. |
| cim:GovSteamFV4.svmn - Maximum regulator gate closing velocity (Svmn). Typical Value = -0.0333. |
| cim:GovSteamFV4.svmx - Maximum regulator gate opening velocity (Svmx). Typical Value = 0.0333. |
| cim:GovSteamFV4.ta - Control valves rate opening time (Ta). Typical Value = 0.8. |
| cim:GovSteamFV4.tam - Intercept valves rate opening time (Tam). Typical Value = 0.8. |
| cim:GovSteamFV4.tc - Control valves rate closing time (Tc). Typical Value = 0.5. |
| cim:GovSteamFV4.tcm - Intercept valves rate closing time (Tcm). Typical Value = 0.5. |
| cim:GovSteamFV4.tdc - Derivative time constant of pressure regulator (Tdc). Typical Value = 90. |
| cim:GovSteamFV4.tf1 - Time constant of fuel regulation (Tf1). Typical Value = 10. |
| cim:GovSteamFV4.tf2 - Time constant of steam chest (Tf2). Typical Value = 10. |
| cim:GovSteamFV4.thp - High pressure (HP) time constant of the turbine (Thp). Typical Value = 0.15. |
| cim:GovSteamFV4.tmp - Low pressure (LP) time constant of the turbine (Tmp). Typical Value = 0.4. |
| cim:GovSteamFV4.trh - Reheater time constant of the turbine (Trh). Typical Value = 10. |
| cim:GovSteamFV4.tv - Boiler time constant (Tv). Typical Value = 60. |
| cim:GovSteamFV4.ty - Control valves servo time constant (Ty). Typical Value = 0.1. |
| cim:GovSteamFV4.y - Coefficient of linearized equations of turbine (Stodola formulation) (Y). Typical Value = 0.13. |
| cim:GovSteamFV4.yhpmn - Minimum control valve position (Yhpmn). Typical Value = 0. |
| cim:GovSteamFV4.yhpmx - Maximum control valve position (Yhpmx). Typical Value = 1.1. |
| cim:GovSteamFV4.ympmn - Minimum intercept valve position (Ympmn). Typical Value = 0. |
| cim:GovSteamFV4.ympmx - Maximum intercept valve position (Ympmx). Typical Value = 1.1. |
cim:GovSteamIEEE1 - IEEE steam turbine governor model.
Reference: IEEE Transactions on Power Apparatus and Systems
November/December 1973, Volume PAS-92, Number 6
Dynamic Models for Steam and Hydro Turbines in Power System Studies, Page 1904.
Parameter Notes:
- Per unit parameters are on base of MWbase, which is normally the MW capability of the turbine.
- T3 must be greater than zero. All other time constants may be zero.
- For a tandem-compound turbine the parameters K2, K4, K6, and K8 are ignored. For a cross-compound turbine, two generators are connected to this turbine-governor model.
- Each generator must be represented in the load flow by data on its own MVA base. The values of K1, K3, K5, K7 must be specified to describe the proportionate development of power on the first turbine shaft. K2, K4, K6, K8 must describe the second turbine shaft. Normally K1 + K3 + K5 + K7 = 1.0 and K2 + K4 + K6 + K8 = 1.0 (if second generator is present).
- The division of power between the two shafts is in proportion to the values of MVA bases of the two generators. The initial condition load flow should, therefore, have the two generators loaded to the same fraction of each ones MVA base.
|
| cim:GovSteamIEEE1.k - Governor gain (reciprocal of droop) (K) (> 0). Typical Value = 25. |
| cim:GovSteamIEEE1.k1 - Fraction of HP shaft power after first boiler pass (K1). Typical Value = 0.2. |
| cim:GovSteamIEEE1.k2 - Fraction of LP shaft power after first boiler pass (K2). Typical Value = 0. |
| cim:GovSteamIEEE1.k3 - Fraction of HP shaft power after second boiler pass (K3). Typical Value = 0.3. |
| cim:GovSteamIEEE1.k4 - Fraction of LP shaft power after second boiler pass (K4). Typical Value = 0. |
| cim:GovSteamIEEE1.k5 - Fraction of HP shaft power after third boiler pass (K5). Typical Value = 0.5. |
| cim:GovSteamIEEE1.k6 - Fraction of LP shaft power after third boiler pass (K6). Typical Value = 0. |
| cim:GovSteamIEEE1.k7 - Fraction of HP shaft power after fourth boiler pass (K7). Typical Value = 0. |
| cim:GovSteamIEEE1.k8 - Fraction of LP shaft power after fourth boiler pass (K8). Typical Value = 0. |
| cim:GovSteamIEEE1.mwbase - Base for power values (MWbase) (> 0). |
| cim:GovSteamIEEE1.pmax - Maximum valve opening (Pmax) (> Pmin). Typical Value = 1. |
| cim:GovSteamIEEE1.pmin - Minimum valve opening (Pmin) (>= 0). Typical Value = 0. |
| cim:GovSteamIEEE1.t1 - Governor lag time constant (T1). Typical Value = 0. |
| cim:GovSteamIEEE1.t2 - Governor lead time constant (T2). Typical Value = 0. |
| cim:GovSteamIEEE1.t3 - Valve positioner time constant (T3) (> 0). Typical Value = 0.1. |
| cim:GovSteamIEEE1.t4 - Inlet piping/steam bowl time constant (T4). Typical Value = 0.3. |
| cim:GovSteamIEEE1.t5 - Time constant of second boiler pass (T5). Typical Value = 5. |
| cim:GovSteamIEEE1.t6 - Time constant of third boiler pass (T6). Typical Value = 0.5. |
| cim:GovSteamIEEE1.t7 - Time constant of fourth boiler pass (T7). Typical Value = 0. |
| cim:GovSteamIEEE1.uc - Maximum valve closing velocity (Uc) (< 0). Unit = PU/sec. Typical Value = -10. |
| cim:GovSteamIEEE1.uo - Maximum valve opening velocity (Uo) (> 0). Unit = PU/sec. Typical Value = 1. |
| cim:GovSteamSGO - Simplified Steam turbine governor model. |
| cim:GovSteamSGO.k1 - One/per unit regulation (K1). |
| cim:GovSteamSGO.k2 - Fraction (K2). |
| cim:GovSteamSGO.k3 - Fraction (K3). |
| cim:GovSteamSGO.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:GovSteamSGO.pmax - Upper power limit (Pmax). |
| cim:GovSteamSGO.pmin - Lower power limit (Pmin). |
| cim:GovSteamSGO.t1 - Controller lag (T1). |
| cim:GovSteamSGO.t2 - Controller lead compensation (T2). |
| cim:GovSteamSGO.t3 - Governor lag (T3) (>0). |
| cim:GovSteamSGO.t4 - Delay due to steam inlet volumes associated with steam chest and inlet piping (T4). |
| cim:GovSteamSGO.t5 - Reheater delay including hot and cold leads (T5). |
| cim:GovSteamSGO.t6 - Delay due to IP-LP turbine, crossover pipes and LP end hoods (T6). |
| cim:gPerg |
| cim:GR |
| cim:gral |
| cim:grayStain |
| cim:greenStain |
| cim:GridAccessProvider |
| cim:GridOperator |
| cim:gridSupplyPoint |
| cim:GrossToNetActivePowerCurve - Relationship between the generating unit's gross active power output on the X-axis (measured at the terminals of the machine(s)) and the generating unit's net active power output on the Y-axis (based on utility-defined measurements at the power station). Station service loads, when modeled, should be treated as non-conforming bus loads. There may be more than one curve, depending on the auxiliary equipment that is in service. |
| cim:Ground - A point where the system is grounded used for connecting conducting equipment to ground. The power system model can have any number of grounds. |
| cim:Ground.GroundAction - Action taken with this ground.Ground on which this action is taken. |
| cim:GroundAction - Action on ground as a switching step. |
| cim:GroundAction.kind - Switching action to perform. |
| cim:GroundAction.SwitchingStepGroup - Group to which this step belongs.All ground action steps in this group. |
| cim:GroundDisconnector - A manually operated or motor operated mechanical switching device used for isolating a circuit or equipment from ground. |
| cim:GroundingImpedance - A fixed impedance device used for grounding. |
| cim:GroundingImpedance.x - Reactance of device. |
| cim:groupAddressType1 |
| cim:groupAddressType2 |
| cim:groupAddressType3 |
| cim:groupAddressType4 |
| cim:GS |
| cim:gt |
| cim:GT |
| cim:GTQ |
| cim:GTUR |
| cim:guy |
| cim:Gy |
| cim:GYD |
| cim:GyPers |
| cim:h |
| cim:H |
| cim:ha |
| cim:HA-SCUC |
| cim:HAM |
| cim:handhole |
| cim:hardCoal |
| cim:HASE |
| cim:HASP |
| cim:Hazard - An object or a condition that is a danger for causing loss or perils to an asset and/or people. |
| cim:Hazard.status - Status of this hazard. |
| cim:Hazard.type - Type of this hazard. |
| cim:hch |
| cim:heat |
| cim:heatingFluid |
| cim:HeatInputCurve - Relationship between unit heat input in energy per time for main fuel (Y1-axis) and supplemental fuel (Y2-axis) versus unit output in active power (X-axis). The quantity of main fuel used to sustain generation at this output level is prorated for throttling between definition points. The quantity of supplemental fuel used at this output level is fixed and not prorated. |
| cim:HeatInputCurve.auxPowerMult - Power output - auxiliary power multiplier adjustment factor. |
| cim:HeatInputCurve.auxPowerOffset - Power output - auxiliary power offset adjustment factor. |
| cim:HeatInputCurve.heatInputEff - Heat input - efficiency multiplier adjustment factor. |
| cim:HeatInputCurve.heatInputOffset - Heat input - offset adjustment factor. |
| cim:HeatInputCurve.isNetGrossP - Flag is set to true when output is expressed in net active power. |
| cim:HeatRate - Heat generated, in energy pertime unit of elapsed time. |
| cim:HeatRate.multiplier |
| cim:HeatRate.unit |
| cim:HeatRate.value |
| cim:HeatRateCurve - Relationship between unit heat rate per active power (Y-axis) and unit output (X-axis). The heat input is from all fuels. |
| cim:HeatRateCurve.isNetGrossP - Flag is set to true when output is expressed in net active power. |
| cim:HeatRecoveryBoiler - The heat recovery system associated with combustion turbines in order to produce steam for combined cycle plants. |
| cim:HeatRecoveryBoiler.steamSupplyRating2 - The steam supply rating in kilopounds per hour, if dual pressure boiler. |
| cim:helix |
| cim:high |
| cim:highMolecularWeightPolyethylene |
| cim:highPressureFluidFilled |
| cim:highPressureSodium |
| cim:highThreshold |
| cim:HKD |
| cim:HNL |
| cim:homePlug |
| cim:HostControlArea - A HostControlArea has a set of tie points and a set of generator controls (i.e., AGC). It also has a total load, including transmission and distribution losses. |
| cim:HostControlArea.areaControlMode - The area's present control mode: (CF = constant frequency) or (CTL = constant tie-line) or (TLB = tie-line bias) or (OFF = off control) |
| cim:HostControlArea.endEffectiveDate - end effective date |
| cim:HostControlArea.freqSetPoint - The present power system frequency set point for automatic generation control |
| cim:HostControlArea.frequencyBiasFactor - The control area's frequency bias factor, in MW/0.1 Hz, for automatic generation control (AGC) |
| cim:HostControlArea.RTO - |
| cim:HostControlArea.startEffectiveDate - start effective date |
| cim:Hour_Ahead_Market_Info |
| cim:Hourly_Expost_Market_Info |
| cim:HourlyPreDispatchSchedule - An indicator specifying that a resource shall have an Hourly Pre-Dispatch. The resource could be a RegisteredGenerator or a RegisteredInterTie.
This schedule is assocated with the hourly parameters in a resource bid. |
| cim:HourlyPreDispatchSchedule.value - Flag defining that for this hour in the resource bid the resource shall have an hourly pre-dispatch. |
| cim:Hours - Time specified in hours. |
| cim:Hours.multiplier |
| cim:Hours.unit |
| cim:Hours.value |
| cim:HPerm |
| cim:HRCV |
| cim:HRK |
| cim:HTG |
| cim:HUF |
| cim:HYDR |
| cim:HydroEnergyConversionKind |
| cim:HydroGeneratingEfficiencyCurve - Relationship between unit efficiency in percent and unit output active power for a given net head in meters. The relationship between efficiency, discharge, head, and power output is expressed as follows: E =KP/HQ
Where: (E=percentage) (P=active power) (H=height) (Q=volume/time unit) (K=constant)
For example, a curve instance for a given net head could relate efficiency (Y-axis) versus active power output (X-axis) or versus discharge on the X-axis. |
| cim:HydroGeneratingUnit - A generating unit whose prime mover is a hydraulic turbine (e.g., Francis, Pelton, Kaplan). |
| cim:HydroGeneratingUnit.energyConversionCapability - Energy conversion capability for generating. |
| cim:HydroGeneratingUnit.HydroGeneratingEfficiencyCurve - A hydro generating unit has an efficiency curve.A hydro generating unit has an efficiency curve. |
| cim:HydroGeneratingUnit.HydroPowerPlant - The hydro generating unit belongs to a hydro power plant.The hydro generating unit belongs to a hydro power plant. |
| cim:HydroGeneratingUnit.hydroUnitWaterCost - The equivalent cost of water that drives the hydro turbine. |
| cim:HydroGeneratingUnit.PenstockLossCurve - A hydro generating unit has a penstock loss curve.A hydro generating unit has a penstock loss curve. |
| cim:HydroGeneratingUnit.TailbayLossCurve - A hydro generating unit has a tailbay loss curve.A hydro generating unit has a tailbay loss curve. |
| cim:hydrogenGas |
| cim:hydrogenSulfide |
| cim:HydroPlantStorageKind |
| cim:HydroPowerPlant - A hydro power station which can generate or pump. When generating, the generator turbines receive water from an upper reservoir. When pumping, the pumps receive their water from a lower reservoir. |
| cim:HydroPowerPlant.dischargeTravelDelay - Water travel delay from tailbay to next downstream hydro power station. |
| cim:HydroPowerPlant.genRatedP - The hydro plant's generating rating active power for rated head conditions. |
| cim:HydroPowerPlant.hydroPlantStorageType - The type of hydro power plant water storage. |
| cim:HydroPowerPlant.penstockType - Type and configuration of hydro plant penstock(s). |
| cim:HydroPowerPlant.plantDischargeCapacity - Total plant discharge capacity. |
| cim:HydroPowerPlant.plantRatedHead - The plant's rated gross head. |
| cim:HydroPowerPlant.pumpRatedP - The hydro plant's pumping rating active power for rated head conditions. |
| cim:HydroPowerPlant.surgeTankCode - A code describing the type (or absence) of surge tank that is associated with the hydro power plant. |
| cim:HydroPowerPlant.surgeTankCrestLevel - The level at which the surge tank spills. |
| cim:HydroPump - A synchronous motor-driven pump, typically associated with a pumped storage plant. |
| cim:HydroPump.HydroPowerPlant - The hydro pump may be a member of a pumped storage plant or a pump for distributing water.The hydro pump may be a member of a pumped storage plant or a pump for distributing water. |
| cim:HydroPump.HydroPumpOpSchedule - The hydro pump has a pumping schedule over time, indicating when pumping is to occur.The hydro pump has a pumping schedule over time, indicating when pumping is to occur. |
| cim:HydroPump.pumpDischAtMaxHead - The pumping discharge under maximum head conditions, usually at full gate. |
| cim:HydroPump.pumpDischAtMinHead - The pumping discharge under minimum head conditions, usually at full gate. |
| cim:HydroPump.pumpPowerAtMaxHead - The pumping power under maximum head conditions, usually at full gate. |
| cim:HydroPump.pumpPowerAtMinHead - The pumping power under minimum head conditions, usually at full gate. |
| cim:HydroPump.RotatingMachine - The synchronous machine drives the turbine which moves the water from a low elevation to a higher elevation. The direction of machine rotation for pumping may or may not be the same as for generating.The synchronous machine drives the turbine which moves the water from a low elevation to a higher elevation. The direction of machine rotation for pumping may or may not be the same as for generating. |
| cim:HydroPumpOpSchedule - The hydro pump's Operator-approved current operating schedule (or plan), typically produced with the aid of unit commitment type analyses.The unit's operating schedule status is typically given as: (0=unavailable) (1=avilable to startup or shutdown) (2=must pump). |
| cim:HydroTurbine - A water driven prime mover. Typical turbine types are: Francis, Kaplan, and Pelton. |
| cim:HydroTurbine.gateRateLimit - Gate rate limit. |
| cim:HydroTurbine.gateUpperLimit - Gate upper limit. |
| cim:HydroTurbine.maxHeadMaxP - Maximum efficiency active power at maximum head conditions. |
| cim:HydroTurbine.minHeadMaxP - Maximum efficiency active power at minimum head conditions. |
| cim:HydroTurbine.speedRating - Rated speed in number of revolutions. |
| cim:HydroTurbine.speedRegulation - Speed regulation. |
| cim:HydroTurbine.transientDroopTime - Transient droop time constant. |
| cim:HydroTurbine.transientRegulation - Transient regulation. |
| cim:HydroTurbine.turbineRating - Rated turbine active power. |
| cim:HydroTurbine.turbineType - Type of turbine. |
| cim:HydroTurbine.waterStartingTime - Water starting time. |
| cim:Hz |
| cim:HzPerHz |
| cim:HzPers |
| cim:I |
| cim:ICC |
| cim:ICCPCommandPoint |
| cim:ICCPCommandPoint.Command - |
| cim:ICCPControlPoint |
| cim:ICCPControlPoint.deviceClass |
| cim:ICCPControlPointDeviceClass |
| cim:ICCPIndicationPoint |
| cim:ICCPIndicationPoint.ICCPControlPoint - |
| cim:ICCPIndicationPoint.MeasurementValue - |
| cim:ICCPIndicationPoint.type |
| cim:ICCPIndicationPointType |
| cim:ICCPInformationMessage - This class represents the TASE.2 Information Message Object. The IdentifiedObject.name attribute must be non-null. The value of the attribute shall be used as the TASE.2 Information Reference, as specified by 60870-6-503. |
| cim:ICCPInformationMessage.localReference - The Local Reference attribute specifies a value agreed upon between sender and receiver of the Information Message. It further identifies the Information Message. |
| cim:ICCPInformationMessage.scope |
| cim:ICCPPoint - The IdentifiedObject.name attribute must have a value. The name attribute shall be used as the DataValue name used for the exchange. |
| cim:ICCPPoint.scope |
| cim:ICCPPScope |
| cim:ICCPSetPoint |
| cim:ICCPSetPoint.AnalogControl - |
| cim:ICCPSetPoint.type |
| cim:ICCPSetPointType |
| cim:IdentifiedObject - This is a root class to provide common identification for all classes needing identification and naming attributes. |
| cim:IdentifiedObject.aliasName - The aliasName is free text human readable name of the object alternative to IdentifiedObject.name. It may be non unique and may not correlate to a naming hierarchy.
The attribute aliasName is retained because of backwards compatibility between CIM relases. It is however recommended to replace aliasName with the Name class as aliasName is planned for retirement at a future time. |
| cim:IdentifiedObject.CIMDataObject - The single CIM data object in the appropriate dataset context.The CIM object holding the properties of this dataset context. Sometimes properties are not required and only the reference to the registered object is required. |
| cim:IdentifiedObject.description - The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy. |
| cim:IdentifiedObject.mRID - Master resource identifier issued by a model authority. The mRID is unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended.
For CIMXML data files in RDF syntax conforming to IEC 61970-552 Edition 1, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements. |
| cim:IdentifiedObject.Name - All names of this identified object.Identified object that this name designates. |
| cim:IdentifiedObject.name - The name is any free human readable and possibly non unique text naming the object. |
| cim:IDR |
| cim:IEC61968 |
| cim:IEC61968CIMVersion - IEC 61968 version number assigned to this UML model. |
| cim:IEC61968CIMVersion.date - Form is YYYY-MM-DD for example for January 5, 2009 it is 2009-01-05. |
| cim:IEC61968CIMVersion.version - Form is IEC61968CIMXXvYY where XX is the major CIM package version and the YY is the minor version. For example IEC61968CIM10v17. |
| cim:IEC61970 |
| cim:IEC61970CIMVersion - This is the IEC 61970 CIM version number assigned to this UML model. |
| cim:IEC61970CIMVersion.date - Form is YYYY-MM-DD for example for January 5, 2009 it is 2009-01-05. |
| cim:IEC61970CIMVersion.version - Form is IEC61970CIMXXvYY where XX is the major CIM package version and the YY is the minor version. For example IEC61970CIM13v18. |
| cim:IEC62325 |
| cim:IEC62325CIMVersion - IEC 62325 version number assigned to this UML model. |
| cim:IEC62325CIMVersion.date - Form is YYYY-MM-DD for example for January 5, 2009 it is 2009-01-05. |
| cim:IEC62325CIMVersion.version - Form is IEC62325CIMXXvYY where XX is the major CIM package version and the YY is the minor version. For example IEC62325CIM10v03. |
| cim:IED |
| cim:ieee1366ASAI |
| cim:ieee1366ASIDI |
| cim:ieee1366ASIFI |
| cim:ieee1366CAIDI |
| cim:ieee1366CAIFI |
| cim:ieee1366CEMIn |
| cim:ieee1366CEMSMIn |
| cim:ieee1366CTAIDI |
| cim:ieee1366MAIFI |
| cim:ieee1366MAIFIe |
| cim:ieee1366MomentaryInterruption |
| cim:ieee1366MomentaryInterruptionEvent |
| cim:ieee1366SAIDI |
| cim:ieee1366SAIFI |
| cim:ieee1366SustainedInterruption |
| cim:ifag |
| cim:IfdBaseKind |
| cim:iffl |
| cim:IFM |
| cim:ifnl |
| cim:ignoreUELsignal |
| cim:ILS |
| cim:ImbalanceSettlementResponsible |
| cim:Impedance - Ratio of voltage to current. |
| cim:Impedance.multiplier |
| cim:Impedance.unit |
| cim:Impedance.value |
| cim:In |
| cim:INACTIVE |
| cim:INADV |
| cim:InadvertentAccount - An account for tracking inadvertent interchange versus time for each control area. A control area may have more than one inadvertent account in order to track inadvertent over one or more specific tie points in addition to the usual overall net inadvertent. Separate accounts would also be used to track designated time periods, such as on-peak and off-peak. |
| cim:Incident - Description of a problem in the field that may be reported in a trouble ticket or come from another source. It may have to do with an outage. |
| cim:Incident.cause - Cause of this incident. |
| cim:Incident.TroubleTicket - All trouble tickets reporting this incident.Incident reported in this trouble ticket |
| cim:IncidentHazard - Hazardous situation associated with an incident. Examples are line down, gas leak, fire, etc. |
| cim:IncidentHazard.Incident - Incident associated with this hazard.All hazards associated with this incident. |
| cim:IncidentHazard.TroubleTicket - Trouble ticket associated with this hazard.All hazards reported with this trouble ticket. |
| cim:IncrementalCIMDataObject - A CRUD style CIM data object. |
| cim:IncrementalDataset - Describes a set of changes that can be applied in different situations. A given registered MRID may only be referenced once by the contained data objects, except a precondition may also reference the same registered MRID. |
| cim:IncrementalDataset.IncrementalCIMDataObject - |
| cim:IncrementalDataset.IncrementalDatasetArg - |
| cim:IncrementalDatasetArg - A generic model operation argument referencing an incremental change description. |
| cim:IncrementalDatasetArgDescription |
| cim:IncrementalDatasetArgDescription.IncrementalDatasetArg - The incremental dataset used for this argument instance. |
| cim:IncrementalHeatRateCurve - Relationship between unit incremental heat rate in (delta energy/time) per (delta active power) and unit output in active power. The IHR curve represents the slope of the HeatInputCurve. Note that the "incremental heat rate" and the "heat rate" have the same engineering units. |
| cim:IncrementalHeatRateCurve.isNetGrossP - Flag is set to true when output is expressed in net active power. |
| cim:indicating |
| cim:INDIVIDUAL |
| cim:IndividualPnode - Individual pricing node based on Pnode |
| cim:IndividualPnode.CongestionArea - |
| cim:Inductance - Inductive part of reactance (imaginary part of impedance), at rated frequency. |
| cim:Inductance.multiplier |
| cim:Inductance.unit |
| cim:Inductance.value |
| cim:InductancePerLength - Inductance per unit of length. |
| cim:InductancePerLength.multiplier |
| cim:InductancePerLength.unit |
| cim:InductancePerLength.value |
| cim:inductive |
| cim:industrial |
| cim:InflowForecast - Natural water inflow to a reservoir, usually forecasted from predicted rain and snowmelt. Typically in one hour increments for up to 10 days. The forecast is given in average cubic meters per second over the time increment. |
| cim:InfoQuestion - Questions and answers associated with a type of document for purposes of clarification. Questions may be predefined or ad hoc. |
| cim:InfoQuestion.answer - Answer to question. |
| cim:InfoQuestion.answerDateTime - The date and time the quesiton was answered. |
| cim:InfoQuestion.answerRemark - Remarks to qualify the answer. |
| cim:InfoQuestion.questionCode - The question code. If blank, refer to questionText. |
| cim:InfoQuestion.questionRemark - Remarks to qualify the question in this situation. |
| cim:InfoQuestion.questionText - For non-coded questions, the question is provided here. |
| cim:InfoQuestion.questionType - The type of the question. |
| cim:informDispatched |
| cim:initial |
| cim:initialEtr |
| cim:inProgress |
| cim:inputAddedToErrorSignal |
| cim:inputHVgate |
| cim:inputHVgateErrorSignal |
| cim:inputHVgateVoltageOutput |
| cim:inputLVgate |
| cim:InputSignalKind |
| cim:inquiry |
| cim:INR |
| cim:INS |
| cim:inService |
| cim:insoluseal |
| cim:inspection |
| cim:InspectionDataSet - Documents the result of one inspection, for a given attribute of an asset. |
| cim:InspectionDataSet.locationCondition - Description of the conditions of the location where the asset resides. |
| cim:InspectionDataSet.ScheduledEventData - |
| cim:install |
| cim:installation |
| cim:instantaneous |
| cim:InstructionClearing - Model of market clearing, relating to commitment instructions. Identifies interval |
| cim:InstructionClearing.Instructions - |
| cim:InstructionClearingDOP - Model of market clearing, related to Dispatch Operating Point. Identifies interval |
| cim:InstructionClearingDOT - Model of market clearing, related to Dispatch Operating Target (model of anticipatory dispatch). Identifies interval |
| cim:InstructionClearingDOT.contingencyActive - Indication that the system is currently operating in a contingency mode. |
| cim:InstructionClearingDOT.dispatchMode |
| cim:Instructions - Provides the necessary information (on a resource basis) to capture the Startup/Shutdown instruction results. This information is relevant to the DA Market (RUC only) as well as the RT Market (HASP, Pre-dispatch, and Interval). |
| cim:Instructions.bindingDOT |
| cim:Instructions.bindingInstruction |
| cim:Instructions.instructionCost - Total cost associated with changing the status of the resource. |
| cim:Instructions.instructionSource - instruction source for market quality results (INS, ACT) |
| cim:Instructions.instructionStartTime - Time the resource should be at Pmin (for start ups).
Time the resource is off line. |
| cim:Instructions.instructionType - Indicator of either a Start-Up or a Shut-Down. |
| cim:Instructions.manuallyBlocked - Manually Blocked Indicator (Yes/No). The instruction has been blocked by an Operator. |
| cim:Instructions.minStatusChangeTime - Minimum start up time required to bring the unit online (minutes).
SCUC commitment period start-up time. Calculated start up time based on the StartUpTimeCurve provided with the Bid.
This is a combination of StartUp time bid and Unit down time.
Units is minutes |
| cim:Instructions.updateTimeStamp |
| cim:Instructions.updateType |
| cim:Instructions.updateUser |
| cim:insulating |
| cim:insulativeGas |
| cim:insulativeOil |
| cim:INT |
| cim:INTEGER |
| cim:IntegerQuantity - Quantity with integer value and associated unit information. |
| cim:IntegerQuantity.multiplier |
| cim:IntegerQuantity.unit |
| cim:IntegerQuantity.value |
| cim:Interchange |
| cim:interchangeAuthority |
| cim:InterchangeETCData - Existing Transmission Contract data for an interchange schedule |
| cim:InterchangeETCData.contractNumber - Existing transmission contract number |
| cim:InterchangeETCData.InterchangeSchedule - |
| cim:InterchangeETCData.usageMW - Existing transmission contract usage MW value |
| cim:InterchangeSchedule - Interchange schedule class to hold information for interchange schedules such as import export type, energy type, and etc. |
| cim:InterchangeSchedule.checkOutType - To indicate a check out type such as adjusted capacity or dispatch capacity. |
| cim:InterchangeSchedule.directionType - Import or export. |
| cim:InterchangeSchedule.energyType - Energy product type. |
| cim:InterchangeSchedule.intervalLength - Interval length. |
| cim:InterchangeSchedule.marketType - Market type. |
| cim:InterchangeSchedule.operatingDate - Operating date, hour. |
| cim:InterchangeSchedule.outOfMarketType - To indicate an out-of-market (OOM) schedule. |
| cim:InterchangeSchedule.scheduleType - Schedule type. |
| cim:InterchangeSchedule.wcrID - Wheeling Counter-Resource ID (required when Schedule Type=Wheel). |
| cim:InterconnectionTradeResponsible |
| cim:Interface |
| cim:IntermittentResourceEligibility - Indicates whether unit is eligible for treatment as a intermittent variable renewable resource |
| cim:IntermittentResourceEligibility.eligibilityStatus - Indicates whether a resource is eligible for PIRP program for a given hour |
| cim:IntermittentResourceEligibility.RegisteredResource - |
| cim:InternalControlArea - There is one internal control area in the system, which is the single control area in the primary network company. Real time generation control affects only the internal control area. |
| cim:InternalControlArea.CurrentEmergencyScheduledInterchange - |
| cim:InternalControlArea.CurrentScheduledInterchange - |
| cim:internalUse |
| cim:internet |
| cim:interruptionBehaviour |
| cim:INTERTIE |
| cim:InterTieBid - This class represents the inter tie bid |
| cim:InterTieBid.minHourlyBlock_ - The minimum hourly block for an Inter-Tie Resource supplied within the bid. |
| cim:InterTieClearing - Model of market clearing related to results at the inter-ties. Identifies interval |
| cim:InterTieDirection |
| cim:InterTieDispatchResponse - Response from an intertie resource acknowleging receipt of dispatch instructions |
| cim:InterTieDispatchResponse.acceptMW - The accepted mw amount by the responder. aka response mw. |
| cim:InterTieDispatchResponse.acceptStatus - The accept status submitted by the responder. Valid values are NON-RESPONSE, ACCEPT, DECLINE, PARTIAL. |
| cim:InterTieDispatchResponse.clearedMW - MW amount associated with instruction. For 5 minute binding dispatches, this is the Goto MW or DOT |
| cim:InterTieDispatchResponse.passIndicator - Part of the Composite key that downstream app uses to match the instruction |
| cim:InterTieDispatchResponse.RegisteredInterTie - |
| cim:InterTieDispatchResponse.startTime - Part of the Composite key that downstream app uses to match the instruction |
| cim:InterTieResults - Provides the tie point specific output from the market applications. Currently, this is defined as the loop flow compensation MW value. |
| cim:InterTieResults.baseMW - Net Actual MW Flow |
| cim:InterTieResults.clearedValue - Net Dispatched MW |
| cim:InterTieResults.Flowgate - |
| cim:InterTieResults.InterTieClearing - |
| cim:INTERVAL |
| cim:IntervalBlock - Time sequence of readings of the same reading type. Contained interval readings may need conversion through the application of an offset and a scalar defined in associated pending. |
| cim:IntervalReading - Data captured at regular intervals of time. Interval data could be captured as incremental data, absolute data, or relative data. The source for the data is usually a tariff quantity or an engineering quantity. Data is typically captured in time-tagged, uniform, fixed-length intervals of 5 min, 10 min, 15 min, 30 min, or 60 min.
Note: Interval Data is sometimes also called "Interval Data Readings" (IDR). |
| cim:IntervalReading.IntervalBlock - All blocks containing this interval reading.Interval reading contained in this block. |
| cim:IntSchedAgreement - A type of agreement that provides the default method by which interchange schedules are to be integrated to obtain hourly MWh schedules for accounting. |
| cim:IntSchedAgreement.defaultIntegrationMethod - The default method by which interchange schedules are to be integrated to obtain hourly MWh schedules for accounting. Method #1 is to integrate the instantaneous schedule between the hourly boundaries. Method #2 compensates for any up/down ramping that occurs across the hourly boundary (this is called block accounting). |
| cim:INVALID |
| cim:inversionTamper |
| cim:inverter |
| cim:investigate |
| cim:INVT_DATETIME |
| cim:IPAccessPoint |
| cim:IPAccessPoint.address |
| cim:IPAccessPoint.addressType |
| cim:IPAccessPoint.gateway |
| cim:IPAccessPoint.subnet |
| cim:ipAddress |
| cim:IPAddressType |
| cim:IPAddressType.multiplier |
| cim:IPAddressType.unit |
| cim:IPAddressType.value |
| cim:ipvdl |
| cim:IQD |
| cim:iqvdl |
| cim:IR |
| cim:IRR |
| cim:IrregularIntervalSchedule - The schedule has time points where the time between them varies. |
| cim:IrregularTimePoint - TimePoints for a schedule where the time between the points varies. |
| cim:IrregularTimePoint.IrregularIntervalSchedule - An IrregularTimePoint belongs to an IrregularIntervalSchedule.The point data values that define a curve. |
| cim:IrregularTimePoint.time - The time is relative to the schedule starting time. |
| cim:IrregularTimePoint.value1 - The first value at the time. The meaning of the value is defined by the derived type of the associated schedule. |
| cim:IrregularTimePoint.value2 - The second value at the time. The meaning of the value is defined by the derived type of the associated schedule. |
| cim:irrigation |
| cim:ISK |
| cim:ISO |
| cim:ISOAPAddressing |
| cim:ISOAPAddressing.multiplier |
| cim:ISOAPAddressing.unit |
| cim:ISOAPAddressing.value |
| cim:ISOUpperLayer |
| cim:ISOUpperLayer.ap |
| cim:ISOUpperLayer.osiPsel |
| cim:ISOUpperLayer.osiSsel |
| cim:ISOUpperLayer.osiTsel |
| cim:issue |
| cim:Issuer - Person who issued the document and is responsible for its content. |
| cim:IST |
| cim:ivr |
| cim:J |
| cim:JMD |
| cim:JobFlagType |
| cim:JobScheduleType |
| cim:JobStartEndType |
| cim:JOD |
| cim:Joint - Joint connects two or more cables. It includes the portion of cable under wipes, welds, or other seals. |
| cim:Joint.configurationKind - Configuration of joint. |
| cim:Joint.fillKind - Material used to fill the joint. |
| cim:Joint.insulation - The type of insulation around the joint, classified according to the utility's asset management standards and practices. |
| cim:JointConfigurationKind |
| cim:JointFillKind |
| cim:JPerK |
| cim:JPerkg |
| cim:JPerkgK |
| cim:JPerm2 |
| cim:JPerm3 |
| cim:JPermol |
| cim:JPermolK |
| cim:JPers |
| cim:JPY |
| cim:Jumper - A short section of conductor with negligible impedance which can be manually removed and replaced if the circuit is de-energized. Note that zero-impedance branches can potentially be modeled by other equipment types. |
| cim:Jumper.JumperAction - Action taken with this jumper.Jumper on which this action is taken. |
| cim:JumperAction - Action on jumper as a switching step. |
| cim:JumperAction.kind - Switching action to perform. |
| cim:JumperAction.SwitchingStepGroup - Group to which this step belongs.All jumper action steps in this group. |
| cim:Junction - A point where one or more conducting equipments are connected with zero resistance. |
| cim:k |
| cim:K |
| cim:kaplan |
| cim:kat |
| cim:katPerm3 |
| cim:kE |
| cim:KES |
| cim:kg |
| cim:kgm |
| cim:kgm2 |
| cim:kgPerJ |
| cim:kgPerm3 |
| cim:KGS |
| cim:kH |
| cim:KHR |
| cim:KiloActivePower - Active power in kilowatts. |
| cim:KiloActivePower.multiplier |
| cim:KiloActivePower.unit |
| cim:KiloActivePower.value |
| cim:KMF |
| cim:kn |
| cim:KPers |
| cim:KPW |
| cim:kR |
| cim:KRW |
| cim:KWD |
| cim:KYD |
| cim:KZT |
| cim:l |
| cim:L |
| cim:labor |
| cim:LaborItem - Labor used for work order. |
| cim:LaborItem.activityCode - Activity code identifies a specific and distinguishable unit of work. |
| cim:LaborItem.cost - Total cost for labor. Note that this may not be able to be derived from labor rate and time charged. |
| cim:LaborItem.laborDuration - Time required to perform work. |
| cim:LaborItem.laborRate - The labor rate applied for work. |
| cim:LaborItem.OldPerson - |
| cim:LaborItem.OldWorkTask - |
| cim:LaborItem.status |
| cim:lagging |
| cim:LAK |
| cim:LandProperty - Information about a particular piece of (land) property such as its use. Ownership of the property may be determined through associations to Organisations and/or ErpPersons. |
| cim:LandProperty.demographicKind - Demographics around the site. |
| cim:LandProperty.externalRecordReference - Reference allocated by the governing organisation (such as municipality) to this piece of land that has a formal reference to Surveyor General's records. The governing organisation is specified in associated Organisation. |
| cim:LandProperty.kind - Kind of (land) property, categorised according to its main functional use from the utility's perspective. |
| cim:LandProperty.RightOfWay - All rights of way this land property has.All land properties this right of way applies to. |
| cim:LandProperty.status |
| cim:LandPropertyKind |
| cim:latchingQuantity |
| cim:latest |
| cim:LBP |
| cim:LD_DROP |
| cim:LD_PICKUP |
| cim:le |
| cim:lead |
| cim:leading |
| cim:Legend |
| cim:Length - Unit of length. Never negative. |
| cim:Length.multiplier |
| cim:Length.unit |
| cim:Length.value |
| cim:letter |
| cim:LevelVsVolumeCurve - Relationship between reservoir volume and reservoir level. The volume is at the y-axis and the reservoir level at the x-axis. |
| cim:LFCResourceType |
| cim:LFD |
| cim:LFU |
| cim:LFZ |
| cim:LifecycleDate - Dates for lifecycle events of an asset. |
| cim:LifecycleDate.installationDate - (if applicable) Date current installation was completed, which may not be the same as the in-service date. Asset may have been installed at other locations previously. Ignored if asset is (1) not currently installed (e.g., stored in a depot) or (2) not intended to be installed (e.g., vehicle, tool). |
| cim:LifecycleDate.manufacturedDate - Date the asset was manufactured. |
| cim:LifecycleDate.purchaseDate - Date the asset was purchased. Note that even though an asset may have been purchased, it may not have been received into inventory at the time of purchase. |
| cim:LifecycleDate.receivedDate - Date the asset was received and first placed into inventory. |
| cim:LifecycleDate.removalDate - (if applicable) Date when the asset was last removed from service. Ignored if (1) not intended to be in service, or (2) currently in service. |
| cim:LifecycleDate.retiredDate - (if applicable) Date the asset is permanently retired from service and may be scheduled for disposal. Ignored if asset is (1) currently in service, or (2) permanently removed from service. |
| cim:lignite |
| cim:Limit - Specifies one limit value for a Measurement. A Measurement typically has several limits that are kept together by the LimitSet class. The actual meaning and use of a Limit instance (i.e., if it is an alarm or warning limit or if it is a high or low limit) is not captured in the Limit class. However the name of a Limit instance may indicate both meaning and use. |
| cim:Limit.Procedure - |
| cim:LimitDependency - A limit calculation model used to compute an operational limit based on external input such as temperature. These are intended to be shared among operational limits with the same calculation form that apply to a piece of equipment.. |
| cim:LimitDependency.OperationalLimit - The operational limits to which this limit dependency model applies.The limit dependency models which are used to calculate this limit. If no limit dependencies are specified then the native limit value is used. |
| cim:LimitScalingLimit - Specifies an operational limit is calculated by scaling another operational limit. |
| cim:LimitScalingLimit.limitScalingPercent - The associated source limit is scaled by this value to compute the limit of the dependency model. |
| cim:LimitSet - Specifies a set of Limits that are associated with a Measurement. A Measurement may have several LimitSets corresponding to seasonal or other changing conditions. The condition is captured in the name and description attributes. The same LimitSet may be used for several Measurements. In particular percentage limits are used this way. |
| cim:LimitSet.isPercentageLimits - Tells if the limit values are in percentage of normalValue or the specified Unit for Measurements and Controls. |
| cim:Line - Contains equipment beyond a substation belonging to a power transmission line. |
| cim:line |
| cim:Line.SubGeographicalRegion - The sub-geographical region of the line.The lines within the sub-geographical region. |
| cim:linear_assets |
| cim:LinearAssets |
| cim:linearLowDensityPolyethylene |
| cim:LinearShuntCompensator - A linear shunt compensator has banks or sections with equal admittance values. |
| cim:LinearShuntCompensator.b0PerSection - Zero sequence shunt (charging) susceptance per section |
| cim:LinearShuntCompensator.bPerSection - Positive sequence shunt (charging) susceptance per section |
| cim:LinearShuntCompensator.g0PerSection - Zero sequence shunt (charging) conductance per section |
| cim:LinearShuntCompensator.gPerSection - Positive sequence shunt (charging) conductance per section |
| cim:LinearShuntCompensatorPhase - A per phase linear shunt compensator has banks or sections with equal admittance values. |
| cim:LinearShuntCompensatorPhase.bPerSection - Susceptance per section of the phase if shunt compensator is wye connected. Susceptance per section phase to phase if shunt compensator is delta connected. |
| cim:LinearShuntCompensatorPhase.gPerSection - Conductance per section for this phase if shunt compensator is wye connected. Conductance per section phase to phase if shunt compensator is delta connected. |
| cim:LineDetail - Details on an amount line, with rounding, date and note. |
| cim:LineDetail.amount - Amount for this line item. |
| cim:LineDetail.dateTime - Date and time when this line was created in the application process. |
| cim:LineDetail.note - Free format note relevant to this line. |
| cim:LineDetail.rounding - Totalised monetary value of all errors due to process rounding or truncating that is not reflected in 'amount'. |
| cim:LineFault - A fault that occurs on an AC line segment at some point along the length. |
| cim:LineFault.lengthFromTerminal1 - The length to the place where the fault is located starting from terminal with sequence number 1 of the faulted line segment. |
| cim:lineLoss |
| cim:lineToGround |
| cim:lineToLine |
| cim:lineToLineToGround |
| cim:liquid |
| cim:LKR |
| cim:lm |
| cim:LMP_BASED |
| cim:LMPM |
| cim:LOAD_ACTUAL |
| cim:LOAD_CLEAR_RTM |
| cim:loadAdaptive |
| cim:LoadAggregate - Standard aggregate load model comprised of static and/or dynamic components. A static load model represents the sensitivity of the real and reactive power consumed by the load to the amplitude and frequency of the bus voltage. A dynamic load model can used to represent the aggregate response of the motor components of the load. |
| cim:LoadAggregate.LoadMotor - Aggregate motor (dynamic) load associated with this aggregate load.Aggregate load to which this aggregate motor (dynamic) load belongs. |
| cim:LoadAggregate.LoadStatic - Aggregate static load associated with this aggregate load.Aggregate load to which this aggregate static load belongs. |
| cim:LoadAggregationPoint - A specialized class of type AggregatedNode type. Defines Load Aggregation Points. |
| cim:LoadArea - The class is the root or first level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling. |
| cim:LoadBid - Offer to supply energy/ancillary services from a load resource (participating load reduces consumption) |
| cim:LoadBid.AreaLoadBid - |
| cim:LoadBid.dropRampRate - Maximum rate that load can be reduced (MW/minute) |
| cim:LoadBid.loadRedInitiationCost - load reduction initiation cost |
| cim:LoadBid.loadRedInitiationTime - load reduction initiation time |
| cim:LoadBid.marketDate - The date represents the NextMarketDate for which the load response bids apply to. |
| cim:LoadBid.meteredValue - Flag indicated that the load reduction is metered. (See above)
If priceSetting and meteredValue both equal 1, then the facility is eligible to set LMP in the real time market. |
| cim:LoadBid.minLoad - Minimum MW load below which it may not be reduced. |
| cim:LoadBid.minLoadReduction - Minimum MW for a load reduction (e.g. MW rating of a discrete pump. |
| cim:LoadBid.minLoadReductionCost - Cost in $ at the minimum reduced load |
| cim:LoadBid.minLoadReductionInterval - Shortest period load reduction shall be maintained before load can be restored to normal levels. |
| cim:LoadBid.minTimeBetLoadRed - Shortest time that load shall be left at normal levels before a new load reduction. |
| cim:LoadBid.pickUpRampRate - Maximum rate load may be restored (MW/minute) |
| cim:LoadBid.priceSetting - Flag to indicate that the facility can set LMP Works in tandem with Metered Value. Greater chance of this being dynamic than the Metered Value, however, it is requested that Price Setting and Metered Value stay at the same source. Currently no customers have implemented the metering capability, but if this option is implemented, then Price Setting could become dynamic. However, Metered Value will remain static. |
| cim:LoadBid.RegisteredLoad - |
| cim:LoadBid.reqNoticeTime - Time period that is required from an order to reduce a load to the time that it takes to get to the minimum load reduction. |
| cim:LoadBid.shutdownCost - The fixed cost associated with committing a load reduction. |
| cim:LoadBreakSwitch - A mechanical switching device capable of making, carrying, and breaking currents under normal operating conditions. |
| cim:LoadComposite - This models combines static load and induction motor load effects.
The dynamics of the motor are simplified by linearizing the induction machine equations. |
| cim:LoadComposite.epfd - Active load-frequency dependence index (dynamic) (Epfd). Typical Value = 1.5. |
| cim:LoadComposite.epfs - Active load-frequency dependence index (static) (Epfs). Typical Value = 1.5. |
| cim:LoadComposite.epvd - Active load-voltage dependence index (dynamic) (Epvd). Typical Value = 0.7. |
| cim:LoadComposite.epvs - Active load-voltage dependence index (static) (Epvs). Typical Value = 0.7. |
| cim:LoadComposite.eqfd - Reactive load-frequency dependence index (dynamic) (Eqfd). Typical Value = 0. |
| cim:LoadComposite.eqfs - Reactive load-frequency dependence index (static) (Eqfs). Typical Value = 0. |
| cim:LoadComposite.eqvd - Reactive load-voltage dependence index (dynamic) (Eqvd). Typical Value = 2. |
| cim:LoadComposite.eqvs - Reactive load-voltage dependence index (static) (Eqvs). Typical Value = 2. |
| cim:LoadComposite.h - Inertia constant (H). Typical Value = 2.5. |
| cim:LoadComposite.lfrac - Loading factor ratio of initial P to motor MVA base (Lfrac). Typical Value = 0.8. |
| cim:LoadComposite.pfrac - Fraction of constant-power load to be represented by this motor model (Pfrac) (>=0.0 and <=1.0). Typical Value = 0.5. |
| cim:LoadDistributionFactor - This class models the load distribution factors. This class should be used in one of two ways:
Use it along with the AggregatedPnode and the IndividualPnode to show the distriubtion of each individual party
OR
Use it with Mkt_EnergyConsumer to represent the current MW/Mvar distribution within it's parnet load group. |
| cim:LoadDistributionFactor.AggregatedPnode - |
| cim:LoadDistributionFactor.DistributionFactorSet - |
| cim:LoadDistributionFactor.IndividualPnode - |
| cim:LoadDistributionFactor.pDistFactor - Real power (MW) load distribution factor |
| cim:LoadDistributionFactor.qDistFactor - Reactive power (MVAr) load distribution factor |
| cim:LoadDynamics - Load whose behaviour is described by reference to a standard model or by definition of a user-defined model.
A standard feature of dynamic load behaviour modelling is the ability to associate the same behaviour to multiple energy consumers by means of a single aggregate load definition. Aggregate loads are used to represent all or part of the real and reactive load from one or more loads in the static (power flow) data. This load is usually the aggregation of many individual load devices and the load model is approximate representation of the aggregate response of the load devices to system disturbances. The load model is always applied to individual bus loads (energy consumers) but a single set of load model parameters can used for all loads in the grouping. |
| cim:LoadFollowingCapacityType |
| cim:LoadFollowingInst - Metered SubSystem Load Following Instruction |
| cim:LoadFollowingInst.endTime - Instruction End Time |
| cim:LoadFollowingInst.loadFollowingMW - Load Following MW Positive for follow-up and negative for follow-down |
| cim:LoadFollowingInst.mssInstructionID - Unique instruction id per instruction, assigned by the SC and provided to ADS. ADS passes through. |
| cim:LoadFollowingInst.RegisteredResource - |
| cim:LoadFollowingInst.startTime - Instruction Start Time |
| cim:LoadFollowingOperatorInput - Model of load following capabilities that are entered by operators on a temporary basis. Related to Registered Resources in Metered Subsystems |
| cim:LoadFollowingOperatorInput.dataEntryTimeStamp - Time the data entry was performed |
| cim:LoadFollowingOperatorInput.tempLoadFollowingDownManualCap - temporarily manually entered LFD capacity |
| cim:LoadFollowingOperatorInput.tempLoadFollowingUpManualCap - temporarily manually entered LFU capacity. |
| cim:LoadFollowingOperatorInput.updateTimeStamp |
| cim:LoadFollowingOperatorInput.updateType |
| cim:LoadFollowingOperatorInput.updateUser |
| cim:LoadForecastType |
| cim:LoadGenericNonLinear - These load models (known also as generic non-linear dynamic (GNLD) load models) can be used in mid-term and long-term voltage stability simulations (i.e., to study voltage collapse), as they can replace a more detailed representation of aggregate load, including induction motors, thermostatically controlled and static loads. |
| cim:LoadGenericNonLinear.bs - Steady state voltage index for reactive power (BS). |
| cim:LoadGenericNonLinear.bt - Transient voltage index for reactive power (BT). |
| cim:LoadGenericNonLinear.genericNonLinearLoadModelType - Type of generic non-linear load model. |
| cim:LoadGenericNonLinear.ls - Steady state voltage index for active power (LS). |
| cim:LoadGenericNonLinear.lt - Transient voltage index for active power (LT). |
| cim:LoadGenericNonLinear.pt - Dynamic portion of active load (PT). |
| cim:LoadGenericNonLinear.qt - Dynamic portion of reactive load (QT). |
| cim:LoadGenericNonLinear.tp - Time constant of lag function of active power (TP). |
| cim:LoadGenericNonLinear.tq - Time constant of lag function of reactive power (TQ). |
| cim:LoadGroup - The class is the third level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling. |
| cim:LoadGroup.SubLoadArea - The SubLoadArea where the Loadgroup belongs.The Loadgroups in the SubLoadArea. |
| cim:loadInterrupt |
| cim:loadManagement |
| cim:LoadMotor - Aggregate induction motor load. This model is used to represent a fraction of an ordinary load as "induction motor load". It allows load that is treated as ordinary constant power in power flow analysis to be represented by an induction motor in dynamic simulation. If Lpp = 0. or Lpp = Lp, or Tppo = 0., only one cage is represented. Magnetic saturation is not modelled. Either a "one-cage" or "two-cage" model of the induction machine can be modelled. Magnetic saturation is not modelled.
This model is intended for representation of aggregations of many motors dispersed through a load represented at a high voltage bus but where there is no information on the characteristics of individual motors.
This model treats a fraction of the constant power part of a load as a motor. During initialisation, the initial power drawn by the motor is set equal to Pfrac times the constant P part of the static load. The remainder of the load is left as static load.
The reactive power demand of the motor is calculated during initialisation as a function of voltage at the load bus. This reactive power demand may be less than or greater than the constant Q component of the load. If the motor's reactive demand is greater than the constant Q component of the load, the model inserts a shunt capacitor at the terminal of the motor to bring its reactive demand down to equal the constant Q reactive load.
If a motor model and a static load model are both present for a load, the motor Pfrac is assumed to be subtracted from the power flow constant P load before the static load model is applied. The remainder of the load, if any, is then represented by the static load model. |
| cim:LoadMotor.d - Damping factor (D). Unit = delta P/delta speed. Typical Value = 2. |
| cim:LoadMotor.h - Inertia constant (H) (not=0). Typical Value = 0.4. |
| cim:LoadMotor.lfac - Loading factor ratio of initial P to motor MVA base (Lfac). Typical Value = 0.8. |
| cim:LoadMotor.lp - Transient reactance (Lp). Typical Value = 0.15. |
| cim:LoadMotor.lpp - Subtransient reactance (Lpp). Typical Value = 0.15. |
| cim:LoadMotor.ls - Synchronous reactance (Ls). Typical Value = 3.2. |
| cim:LoadMotor.pfrac - Fraction of constant-power load to be represented by this motor model (Pfrac) (>=0.0 and <=1.0). Typical Value = 0.3. |
| cim:LoadMotor.ra - Stator resistance (Ra). Typical Value = 0. |
| cim:LoadMotor.tbkr - Circuit breaker operating time (Tbkr). Typical Value = 0.08. |
| cim:LoadMotor.tpo - Transient rotor time constant (Tpo) (not=0). Typical Value = 1. |
| cim:LoadMotor.tppo - Subtransient rotor time constant (Tppo). Typical Value = 0.02. |
| cim:LoadMotor.tv - Voltage trip pickup time (Tv). Typical Value = 0.1. |
| cim:LoadMotor.vt - Voltage threshold for tripping (Vt). Typical Value = 0.7. |
| cim:LoadRatio - Representing the ratio of the load share for the associated SC. |
| cim:LoadRatio.intervalEndTime - Interval End Time |
| cim:LoadRatio.intervalStartTime - Interval Start Time |
| cim:LoadRatio.share - Share in percentage of total Market load for the selected time interval. |
| cim:LoadReductionPriceCurve - This is the price sensitivity that bidder expresses for allowing market load interruption. Relationship between price (Y1-axis) vs. MW (X-axis). |
| cim:LoadReductionPriceCurve.LoadBid - |
| cim:LoadReductionPriceCurve.RegisteredLoad - |
| cim:LoadReductionTimeCurve - This is the cureve that describes the load reduction time. Relationship between time (Y1-axis) vs. MW (X-axis). |
| cim:LoadReductionTimeCurve.loadReductionTimeCurveType - type of the curve: Possible values are but not limited to:
Max, Min, |
| cim:LoadReductionTimeCurve.RegisteredLoad - |
| cim:loadResearch |
| cim:LoadResponseCharacteristic - Models the characteristic response of the load demand due to changes in system conditions such as voltage and frequency. This is not related to demand response.
If LoadResponseCharacteristic.exponentModel is True, the voltage exponents are specified and used as to calculate:
Active power component = Pnominal * (Voltage/cim:BaseVoltage.nominalVoltage) ** cim:LoadResponseCharacteristic.pVoltageExponent
Reactive power component = Qnominal * (Voltage/cim:BaseVoltage.nominalVoltage)** cim:LoadResponseCharacteristic.qVoltageExponent
Where * means "multiply" and ** is "raised to power of". |
| cim:LoadResponseCharacteristic.EnergyConsumer - The set of loads that have the response characteristics.The load response characteristic of this load. If missing, this load is assumed to be constant power. |
| cim:LoadResponseCharacteristic.exponentModel - Indicates the exponential voltage dependency model is to be used. If false, the coefficient model is to be used.
The exponential voltage dependency model consist of the attributes
- pVoltageExponent
- qVoltageExponent.
The coefficient model consist of the attributes
- pConstantImpedance
- pConstantCurrent
- pConstantPower
- qConstantImpedance
- qConstantCurrent
- qConstantPower.
The sum of pConstantImpedance, pConstantCurrent and pConstantPower shall equal 1.
The sum of qConstantImpedance, qConstantCurrent and qConstantPower shall equal 1. |
| cim:LoadResponseCharacteristic.pConstantCurrent - Portion of active power load modeled as constant current. |
| cim:LoadResponseCharacteristic.pConstantImpedance - Portion of active power load modeled as constant impedance. |
| cim:LoadResponseCharacteristic.pConstantPower - Portion of active power load modeled as constant power. |
| cim:LoadResponseCharacteristic.pFrequencyExponent - Exponent of per unit frequency effecting active power. |
| cim:LoadResponseCharacteristic.pVoltageExponent - Exponent of per unit voltage effecting real power. |
| cim:LoadResponseCharacteristic.qConstantCurrent - Portion of reactive power load modeled as constant current. |
| cim:LoadResponseCharacteristic.qConstantImpedance - Portion of reactive power load modeled as constant impedance. |
| cim:LoadResponseCharacteristic.qConstantPower - Portion of reactive power load modeled as constant power. |
| cim:LoadResponseCharacteristic.qFrequencyExponent - Exponent of per unit frequency effecting reactive power. |
| cim:LoadResponseCharacteristic.qVoltageExponent - Exponent of per unit voltage effecting reactive power. |
| cim:loadServingEntity |
| cim:loadShed |
| cim:LoadStatic - General static load model representing the sensitivity of the real and reactive power consumed by the load to the amplitude and frequency of the bus voltage. |
| cim:LoadStatic.ep1 - First term voltage exponent for active power (Ep1). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.ep2 - Second term voltage exponent for active power (Ep2). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.ep3 - Third term voltage exponent for active power (Ep3). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.eq1 - First term voltage exponent for reactive power (Eq1). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.eq2 - Second term voltage exponent for reactive power (Eq2). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.eq3 - Third term voltage exponent for reactive power (Eq3). Used only when .staticLoadModelType = exponential. |
| cim:LoadStatic.kp1 - First term voltage coefficient for active power (Kp1). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kp2 - Second term voltage coefficient for active power (Kp2). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kp3 - Third term voltage coefficient for active power (Kp3). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kp4 - Frequency coefficient for active power (Kp4). Must be non-zero when .staticLoadModelType = ZIP2. Not used for all other values of .staticLoadModelType. |
| cim:LoadStatic.kpf - Frequency deviation coefficient for active power (Kpf). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kq1 - First term voltage coefficient for reactive power (Kq1). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kq2 - Second term voltage coefficient for reactive power (Kq2). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kq3 - Third term voltage coefficient for reactive power (Kq3). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.kq4 - Frequency coefficient for reactive power (Kq4). Must be non-zero when .staticLoadModelType = ZIP2. Not used for all other values of .staticLoadModelType. |
| cim:LoadStatic.kqf - Frequency deviation coefficient for reactive power (Kqf). Not used when .staticLoadModelType = constantZ. |
| cim:LoadStatic.staticLoadModelType - Type of static load model. Typical Value = constantZ. |
| cim:LoadUserDefined - Load whose dynamic behaviour is described by a user-defined model. |
| cim:LoadUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:LoadUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:LOADZONE |
| cim:localOnly |
| cim:LocalReliabilityArea - Allows definition of reliablity areas (eg load pockets) within the ISO/RTO |
| cim:LocalReliabilityArea.RTO - |
| cim:Location - The place, scene, or point of something where someone or something has been, is, and/or will be at a given moment in time. It can be defined with one or more postition points (coordinates) in a given coordinate system. |
| cim:Location.Asset - All assets at this location.Location of this asset. |
| cim:Location.AssetLocationHazard - All asset hazards at this location.The location of this hazard. |
| cim:Location.direction - (if applicable) Direction that allows field crews to quickly find a given asset. For a given location, such as a street address, this is the relative direction in which to find the asset. For example, a streetlight may be located at the 'NW' (northwest) corner of the customer's site, or a usage point may be located on the second floor of an apartment building. |
| cim:Location.electronicAddress - Electronic address. |
| cim:Location.geoInfoReference - (if applicable) Reference to geographical information source, often external to the utility. |
| cim:Location.Incident - Incident at this location.Location of this incident. |
| cim:Location.LandProperty - The spatail description of a piece of property. |
| cim:Location.mainAddress - Main address of the location. |
| cim:Location.OldCrew - |
| cim:Location.phone1 - Phone number. |
| cim:Location.phone2 - Additional phone number. |
| cim:Location.Route - |
| cim:Location.secondaryAddress - Secondary address of the location. For example, PO Box address may have different ZIP code than that in the 'mainAddress'. |
| cim:Location.status - Status of this location. |
| cim:Location.type - Classification by utility's corporate standards and practices, relative to the location itself (e.g., geographical, functional accounting, etc., not a given property that happens to exist at that location). |
| cim:LocationGrant - A grant provides a right, as defined by type, for a parcel of land. Note that the association to Location, Asset, Organisation, etc. for the Grant is inherited from Agreement, a type of Document. |
| cim:LocationGrant.LandProperty - Land property this location grant applies to.All location grants this land property has. |
| cim:LocationGrant.propertyData - Property related information that describes the Grant's land parcel. For example, it may be a deed book number, deed book page number, and parcel number. |
| cim:lock |
| cim:locked |
| cim:LOF |
| cim:logicallyDisconnected |
| cim:loss |
| cim:LOSS_DA_HASP |
| cim:LOSS_RTM |
| cim:LOSS_TOTAL_COST_HASP |
| cim:LOSS_TOTAL_COST_RTM |
| cim:LOSS_TOTAL_MW_HASP |
| cim:LOSS_TOTAL_MW_RTM |
| cim:LossClearing - RT only and is published on 5 minute intervals for the previous RT time interval results. |
| cim:LossClearingResults - Provides the MW loss for RUC Zones, subcontrol areas, and the total loss. |
| cim:LossClearingResults.HostControlArea - |
| cim:LossClearingResults.LossClearing - |
| cim:LossClearingResults.lossMW |
| cim:LossClearingResults.RUCZone - |
| cim:LossProfile - LossProfile is associated with an EnerrgyTransaction and must be completely contained within the time frame of the EnergyProfile associated with this EnergyTransaction. |
| cim:LossSensitivity - Loss sensitivity applied to a ConnectivityNode for a given time interval. |
| cim:LossSensitivity.lossFactor - Loss penalty factor.
Defined as: 1 / ( 1 - Incremental Transmission Loss); with the Incremental Transmission Loss expressed as a plus or minus value. The typical range of penalty factors is (0,9 to 1,1). |
| cim:low |
| cim:lowCapacitanceRubber |
| cim:LOWER |
| cim:lowThreshold |
| cim:lPerh |
| cim:lPerl |
| cim:lPers |
| cim:LPT |
| cim:LRD |
| cim:LSE |
| cim:LSL |
| cim:lt |
| cim:LTAC |
| cim:LTL |
| cim:LVL |
| cim:lx |
| cim:LYD |
| cim:LZMS |
| cim:m |
| cim:M |
| cim:m2 |
| cim:m2Pers |
| cim:m3 |
| cim:m3Compensated |
| cim:m3Perh |
| cim:m3Perkg |
| cim:m3Pers |
| cim:m3Uncompensated |
| cim:macAddress |
| cim:MacroPeriodKind |
| cim:MAD |
| cim:Maintainer - Organisation that maintains assets. |
| cim:maintenance |
| cim:MaintenanceDataSet - The result of a maintenance activity, a type of Procedure, for a given attribute of an asset. |
| cim:MaintenanceDataSet.conditionAfter - Condition of asset just following maintenance procedure. |
| cim:MaintenanceDataSet.conditionBefore - Description of the condition of the asset just prior to maintenance being performed. |
| cim:MaintenanceDataSet.maintCode - Code for the type of maintenance performed. |
| cim:MaintenanceLocation - Location where to perform maintenance work. |
| cim:MaintenanceLocation.block - (if applicable) Name, identifier, or description of the block in which work is to occur. |
| cim:MaintenanceLocation.lot - (if applicable) Name, identifier, or description of the lot in which work is to occur. |
| cim:MaintenanceLocation.nearestIntersection - The names of streets at the nearest intersection to work area. |
| cim:MaintenanceLocation.subdivision - (if applicable) Name, identifier, or description of the subdivision in which work is to occur. |
| cim:mainWithTransfer |
| cim:MajorChargeGroup - A Major Charge Group is the same as Invocie Type which provides the highest level of grouping for charge types configration. Examples as Market, FERC, RMR, |
| cim:MajorChargeGroup.effectiveDate |
| cim:MajorChargeGroup.frequencyType |
| cim:MajorChargeGroup.invoiceType |
| cim:MajorChargeGroup.MarketInvoice - |
| cim:MajorChargeGroup.requireAutorun |
| cim:MajorChargeGroup.revisionNumber - Revision number for the major charge group |
| cim:MajorChargeGroup.runType |
| cim:MajorChargeGroup.runVersion |
| cim:MajorChargeGroup.terminationDate |
| cim:manhole |
| cim:manual |
| cim:MANUAL |
| cim:manuallyIsolated |
| cim:Manufacturer - Organisation that manufactures asset products. |
| cim:Manufacturer.ProductAssetModel - All asset models by this manufacturer.Manufacturer of this asset model. |
| cim:Market - Market (e.g. Day Ahead Market, RealTime Market) with a description of the the Market operation control parameters. |
| cim:Market.actualEnd - Market ending time - actual market end |
| cim:Market.actualStart - Market starting time - actual market start |
| cim:Market.dst - True if daylight savings time (DST) is in effect. |
| cim:Market.end - Market end time. |
| cim:Market.localTimeZone - Local time zone. |
| cim:Market.MarketFactors - |
| cim:Market.MarketProduct - |
| cim:Market.MarketRun - |
| cim:Market.start - Market start time. |
| cim:Market.status - Market Status
'OPEN', 'CLOSED', 'CLEARED', 'BLOCKED' |
| cim:Market.timeIntervalLength - Trading time interval length. |
| cim:Market.tradingDay - Market trading date |
| cim:Market.tradingPeriod - Trading period that describes the market, possibilities could be for an Energy Market:
Day
Hour
For a CRR Market:
Year
Month
Season |
| cim:MARKET_INITIAL |
| cim:MARKET_RECALC |
| cim:MarketActualEvent - This class represent the actual instance of an event. |
| cim:MarketActualEvent.eventComments - Free format comments for the event, for any purpose needed. |
| cim:MarketActualEvent.eventEndTime - End time of the event. |
| cim:MarketActualEvent.eventStartTime - Start time of the event. |
| cim:MarketActualEvent.eventStatus - Event status, e.g. active, canceled, expired, etc. |
| cim:MarketActualEvent.eventType - Actual event type. |
| cim:MarketAgreement - An identification or eventually the contents of an agreement between two or more parties. |
| cim:MarketCaseClearing - Market case clearing results are posted for a given settlement period. |
| cim:MarketCaseClearing.AncillaryServiceClearing - |
| cim:MarketCaseClearing.caseType - Settlement period:
'DA - Bid-in'
'DA - Reliability'
'DA - Amp1'
'DA - Amp2'
'RT - Ex-Ante'
'RT - Ex-Post'
'RT - Amp1'
'RT - Amp2' |
| cim:MarketCaseClearing.modifiedDate - Last time and date clearing results were manually modified. |
| cim:MarketCaseClearing.postedDate - Bid clearing results posted time and date. |
| cim:MarketDocument - Electronic document containing the information necessary to satisfy a given business process set of requirements. |
| cim:MarketDocument.AceTariffType - |
| cim:MarketDocument.MarketDocument - |
| cim:MarketDocument.MarketParticipant - |
| cim:MarketDocument.Process - |
| cim:MarketDocument.Reason - |
| cim:MarketDocument.TimeSeries - |
| cim:Marketer - Matches buyers and sellers, and secures transmission (and other ancillary services) needed to complete the energy transaction. |
| cim:Marketer.EnergyProduct - A Marketer may resell an EnergyProduct.A Marketer may resell an EnergyProduct. |
| cim:MarketEvaluationPoint - The identification of an entity where energy products are measured or computed. |
| cim:MarketEvaluationPoint.TimeSeries - |
| cim:MarketEventStatusKind |
| cim:MarketFactors - Aggregation of market information relative for a specific time interval. |
| cim:MarketFactors.intervalEndTime - The end of the time interval for which requirement is defined. |
| cim:MarketFactors.intervalStartTime - The start of the time interval for which requirement is defined. |
| cim:MarketInformationAggregator |
| cim:MarketInvoice - A roll up of invoice line items. The whole invoice has a due date and amount to be paid, with information such as customer, banks etc. being obtained through associations. The invoice roll up is based on individual line items that each contain amounts and descriptions for specific services or products. |
| cim:MarketInvoice.amount - Total amount due on this invoice based on line items and applicable adjustments. |
| cim:MarketInvoice.billMediaKind - Kind of media by which the CustomerBillingInfo was delivered. |
| cim:MarketInvoice.dueDate - Calculated date upon which the Invoice amount is due. |
| cim:MarketInvoice.kind - Kind of invoice (default is 'sales'). |
| cim:MarketInvoice.mailedDate - Date on which the customer billing statement/invoice was printed/mailed. |
| cim:MarketInvoice.MarketInvoiceLineItem - |
| cim:MarketInvoice.proForma - True if payment is to be paid by a Customer to accept a particular ErpQuote (with associated Design) and have work initiated, at which time an associated ErpInvoice should automatically be generated. EprPayment.subjectStatus satisfies terms specificed in the ErpQuote. |
| cim:MarketInvoice.referenceNumber - Number of an invoice to be reference by this invoice. |
| cim:MarketInvoice.transactionDateTime - Date and time when the invoice is issued. |
| cim:MarketInvoice.transferType - Type of invoice transfer. |
| cim:MarketInvoiceLineItem - An individual line item on an invoice. |
| cim:MarketInvoiceLineItem.billPeriod - Bill period for the line item. |
| cim:MarketInvoiceLineItem.glAccount - General Ledger account code, shall be a valid combination. |
| cim:MarketInvoiceLineItem.glDateTime - Date and time line item will be posted to the General Ledger. |
| cim:MarketInvoiceLineItem.kind - Kind of line item. |
| cim:MarketInvoiceLineItem.lineAmount - Amount due for this line item. |
| cim:MarketInvoiceLineItem.lineNumber - Line item number on invoice statement. |
| cim:MarketInvoiceLineItem.lineVersion - Version number of the bill run. |
| cim:MarketInvoiceLineItem.MarketInvoiceLineItem - |
| cim:MarketInvoiceLineItem.netAmount - Net line item charge amount. |
| cim:MarketInvoiceLineItem.previousAmount - Previous line item charge amount. |
| cim:MarketLedger - In accounting transactions, a ledger is a book containing accounts to which debits and credits are posted from journals, where transactions are initially recorded. Journal entries are periodically posted to the ledger. Ledger Actual represents actual amounts by account within ledger within company or business area. Actual amounts may be generated in a source application and then loaded to a specific ledger within the enterprise general ledger or budget application. |
| cim:MarketLedgerEntry - Details of an individual entry in a ledger, which was posted from a journal on the posted date. |
| cim:MarketLedgerEntry.accountID - Account identifier for this entry. |
| cim:MarketLedgerEntry.accountKind - Kind of account for this entry. |
| cim:MarketLedgerEntry.amount - The amount of the debit or credit for this account. |
| cim:MarketLedgerEntry.MarketLedger - |
| cim:MarketLedgerEntry.postedDateTime - Date and time this entry was posted to the ledger. |
| cim:MarketLedgerEntry.status - Status of ledger entry. |
| cim:MarketLedgerEntry.transactionDateTime - Date and time journal entry was recorded. |
| cim:MarketObjectStatus - The condition or position of an object with regard to its standing. |
| cim:MarketObjectStatus.status - The coded condition or position of an object with regard to its standing. |
| cim:MarketOperator |
| cim:MarketParticipant - An identification of a party acting in a electricity market business process. This class is used to identify organizations that can participate in market management and/or market operations. |
| cim:MarketParticipant.Bid - |
| cim:MarketParticipant.MarketRole - |
| cim:MarketParticipant.TimeSeries - |
| cim:MarketPerson - General purpose information for name and other information to contact people. |
| cim:MarketPerson.category - Category of this person relative to utility operations, classified according to the utility's corporate standards and practices. Examples include employee, contractor, agent, not affiliated, etc.
This field is not used to indicate whether this person is a customer of the utility. Often an employee or contractor is also a customer. Customer information is gained with relationship to Organisation and CustomerData. In similar fashion, this field does not indicate the various roles this person may fill as part of utility operations. |
| cim:MarketPerson.electronicAddressAlternate - Alternate Electronic address. |
| cim:MarketPerson.electronicAddressPrimary - Primary Electronic address. |
| cim:MarketPerson.firstName - Person's first name. |
| cim:MarketPerson.governmentID - Unique identifier for person relative to its governing authority, for example a federal tax identifier (such as a Social Security number in the United States). |
| cim:MarketPerson.landlinePhone - Landline phone number. |
| cim:MarketPerson.lastName - Person's last (family, sir) name. |
| cim:MarketPerson.MktOrganisation - |
| cim:MarketPerson.mName - Middle name(s) or initial(s). |
| cim:MarketPerson.mobilePhone - Mobile phone number. |
| cim:MarketPerson.prefix - A prefix or title for the person's name, such as Miss, Mister, Doctor, etc. |
| cim:MarketPerson.specialNeed - Special service needs for the person (contact) are described; examples include life support, etc. |
| cim:MarketPerson.status |
| cim:MarketPerson.suffix - A suffix for the person's name, such as II, III, etc. |
| cim:MarketPerson.userID - The user name for the person; required to log in. |
| cim:MarketPlan - This class identifies a set of planned markets. This class is a container of these planned markets |
| cim:MarketPlan.tradingDay - Planned market trading day. |
| cim:MarketProduct - A product traded by an RTO (e.g. energy, 10 minute spinning reserve).Ancillary service product examples include:Regulation UpRegulation DnSpinning ReserveNon-Spinning ReserveOperating Reserve |
| cim:MarketProduct.marketProductType - Market product type examples:
EN (Energy)
RU (Regulation Up)
RD (Regulation Dn)
SR (Spinning Reserve)
NR (Non-Spinning Reserve)
RC (RUC) |
| cim:MarketProduct.rampInterval - Ramping time interval for the specific market product type specified by marketProductType attribute. For example, if marketProductType = EN (from enumeration MarketProductType), then the rampInterval is the ramping time interval for Energy. |
| cim:MarketProduct.ReserveReq - Market product associated with reserve requirement must be a reserve or regulation product.Market product associated with reserve requirement must be a reserve or regulation product. |
| cim:MarketProductSelfSchedType |
| cim:MarketProductType |
| cim:MarketProductTypeAsReq |
| cim:MarketQualificationRequirement - Certain skills are required and shall be certified in order for a person (typically a member of a crew) to be qualified to work on types of equipment. |
| cim:MarketQualificationRequirement.effectiveDate - Effective date of the privilege, terminate date of the privilege, or effective date of the application for the organization |
| cim:MarketQualificationRequirement.expirationDate - This is the terminate date of the application for the organization
The specific organization can no longer access the application as of the terminate date |
| cim:MarketQualificationRequirement.MarketSkill - |
| cim:MarketQualificationRequirement.qualificationID - Qualification identifier. |
| cim:MarketQualificationRequirement.status - The status of the privilege. Shows the status of the user´s qualification.
The current statuses are: 1=New, 2=Active, 3=Refused, 4=Terminated, 5=Withdrawn
and it is subject to update. |
| cim:MarketQualificationRequirement.statusType - This is the name of the status of the qualification and is used to display the status of the user's or organization's status. |
| cim:MarketRegion - A specialized class of AggregatedNode type. Defines the MarketRegions. Regions could be system Market Regions, Energy Regions or Ancillary Service Regions. |
| cim:MarketRegion.ExPostMarketRegionResults - |
| cim:MarketRegionResults - Provides all Region Ancillary Service results for the DA and RT markets. The specific data is commodity type (Regulation Up, Regulation Down, Spinning Reserve, Non-spinning Reserve, or Total Up reserves) based for the cleared MW, cleared price, and total capacity required for the region. |
| cim:MarketRegionResults.AncillaryServiceClearing - |
| cim:MarketRegionResults.clearedMW - Cleared generation Value in MW. For AS, this value is clearedMW = AS Total. For AS, clearedMW - selfScheduleMW = AS Procured |
| cim:MarketRegionResults.clearedPrice - Marginal Price ($/MW) for the commodity (Energy, Regulation Up, Regulation Down, Spinning Reserve, or Non-spinning reserve) based on the pricing run. |
| cim:MarketRegionResults.dispatchCtMW - Dispatchable MW for Combustion units. |
| cim:MarketRegionResults.dispatchHydroMW - Dispatchable MW for Hydro units. |
| cim:MarketRegionResults.dispatchRate - Dispatch rate in MW/minutes. |
| cim:MarketRegionResults.dispatchSteamMW - Dispatchable MW for Steam units. |
| cim:MarketRegionResults.imbalanceEnergyBias - Imbalance Energy Bias (MW) by Time Period (5' only) |
| cim:MarketRegionResults.limitFlag - Locational AS Flags indicating whether the Upper or Lower Bound limit of the AS regional procurment is binding |
| cim:MarketRegionResults.lumpyIndicator - The "Lumpy Flag"(Y/N) indicates whether the resource that sets the price is a lumpy generator by hour over the time horizon.
Only applicable for the Day Ahead Market |
| cim:MarketRegionResults.MarketProduct - |
| cim:MarketRegionResults.MarketRegion - |
| cim:MarketRegionResults.maxSufficiencyIndex - Region requirement maximum limit |
| cim:MarketRegionResults.minSufficiencyIndex - Region requirement minimum limit |
| cim:MarketRegionResults.reqMaxMW - Region requirement maximum limit |
| cim:MarketRegionResults.reqMinMW - Region requirement minimum limit |
| cim:MarketRegionResults.selfScheduleMW - Aof AS, selfScheduleMW = AS Self-Provided |
| cim:MarketResults - This class holds elements that are single values for the entire market time horizon. That is, for the Day Ahead market, there is 1 value for each element, not hourly based. Is a summary of the market run |
| cim:MarketResults.ancillarySvcCost - Total AS Cost (i.e., payment) ($) over the time horizon |
| cim:MarketResults.contingentOperatingResAvail - Global Contingent Operating Reserve Availability Indicator (Yes/No) |
| cim:MarketResults.energyCost - Total Energy Cost ($) over the time horizon |
| cim:MarketResults.EnergyMarket - |
| cim:MarketResults.minimumLoadCost - Total Minimum Load Cost ($) over the time horizon |
| cim:MarketResults.startUpCost - Total Start-up Cost ($) over the time horizon |
| cim:MarketResults.totalCost - Total Cost (Energy + AS) cost ($) by over the time horizon |
| cim:MarketResults.totalRucCost - The total RUC capacity cost for this interval |
| cim:MarketRole - The external intended behaviour played by a party within the electricity market. |
| cim:MarketRole.roleType - Defined using an enumerated list of types of market roles for use when a finite list of types are desired. |
| cim:MarketRole.status - Status of the market role. |
| cim:MarketRole.type - The kind of market roles that can be played by parties for given domains within the electricity market. Types are flexible using dataType of string for free-entry of role types. |
| cim:MarketRoleKind |
| cim:MarketRun - This class represent an actual instance of a planned market. For example, a Day Ahead market opens with the Bid Submission, ends with the closing of the Bid Submission. The market run represent the whole process. MarketRuns can be defined for markets such as Day Ahead Market, Real Time Market, Hour Ahead Market, Week Ahead Market,... |
| cim:MarketRun.executionType - The execution type; Day Ahead, Intra Day, Real Time Pre-Dispatch, Real Time Dispatch |
| cim:MarketRun.MarketActualEvent - All actual events that trigger this market run.Market run triggered by this actual event. For example, the DA run is triggered by the actual open bid submission event and terminated by the actual close bid submission event. |
| cim:MarketRun.marketApprovalTime - Approved time for case. Identifies the time that the dispatcher approved a specific real time unit dispatch case |
| cim:MarketRun.marketApprovedStatus - Set to true when the plan is approved by authority and becomes the official plan for the day ahead market. Identifies the approved case for the market for the specified time interval. |
| cim:MarketRun.marketEndTime - The end time defined as the end of the market, market end time. |
| cim:MarketRun.marketStartTime - The start time defined as the beginning of the market, market start time. |
| cim:MarketRun.marketType - The market type, Day Ahead Market or Real Time Market. |
| cim:MarketRun.PlannedMarket - A planned market could have multiple market runs for the reason that a planned market could have a rerun.A planned market could have multiple market runs for the reason that a planned market could have a rerun. |
| cim:MarketRun.reportedState - This is the state of market run activitie as reported by market systems to the market definition services. |
| cim:MarketRun.runState - This is the state controlled by market defintion service.
possible values could be but not limited by: Open, Close. |
| cim:MarketScheduledEvent - Signifies an event to trigger one or more activities, such as reading a meter, recalculating a bill, requesting work, when generating units shall be scheduled for maintenance, when a transformer is scheduled to be refurbished, etc. |
| cim:MarketScheduledEvent.category - Category of scheduled event. |
| cim:MarketScheduledEvent.duration - Duration of the scheduled event, for example, the time to ramp between values. |
| cim:MarketScheduledEvent.MajorChargeGroup - |
| cim:MarketScheduledEvent.status |
| cim:MarketScheduleServices |
| cim:MarketSkill - Proficiency level of a craft, which is required to operate or maintain a particular type of asset and/or perform certain types of work. |
| cim:MarketSkill.certificationPeriod - Interval between the certification and its expiry. |
| cim:MarketSkill.effectiveDateTime - Date and time the skill became effective. |
| cim:MarketSkill.level - Level of skill for a Craft. |
| cim:MarketSkill.MarketPerson - |
| cim:MarketStatement - A statement is a roll up of statement line items. Each statement along with its line items provide the details of specific charges at any given time. Used by Billing and Settlement |
| cim:MarketStatement.end - The end of a bill period. |
| cim:MarketStatement.MarketStatementLineItem - |
| cim:MarketStatement.referenceNumber - The version number of previous statement (in the case of true up). |
| cim:MarketStatement.start - The start of a bill period. |
| cim:MarketStatement.tradeDate - The date of which Settlement is run. |
| cim:MarketStatement.transactionDate - The date of which this statement is issued. |
| cim:MarketStatementDescription |
| cim:MarketStatementDocStatus |
| cim:MarketStatementDocType |
| cim:MarketStatementLineItem - An individual line item on a statement. |
| cim:MarketStatementLineItem.currentAmount - Current settlement amount. |
| cim:MarketStatementLineItem.currentISOAmount - Current ISO settlement amount. |
| cim:MarketStatementLineItem.currentISOQuantity - Current ISO settlement quantity. |
| cim:MarketStatementLineItem.currentPrice - Current settlement price. |
| cim:MarketStatementLineItem.currentQuantity - Current settlement quantity, subject to the UOM. |
| cim:MarketStatementLineItem.intervalDate - The date of which the settlement is run. |
| cim:MarketStatementLineItem.intervalNumber - The number of intervals. |
| cim:MarketStatementLineItem.MarketStatementLineItem - |
| cim:MarketStatementLineItem.netAmount - Net settlement amount. |
| cim:MarketStatementLineItem.netISOAmount - Net ISO settlement amount. |
| cim:MarketStatementLineItem.netISOQuantity - Net ISO settlement quantity. |
| cim:MarketStatementLineItem.netPrice - Net settlement price. |
| cim:MarketStatementLineItem.netQuantity - Net settlement quantity, subject to the UOM. |
| cim:MarketStatementLineItem.PassThroughBill - |
| cim:MarketStatementLineItem.previousAmount - Previous settlement amount. |
| cim:MarketStatementLineItem.previousISOAmount - Previous ISO settlement amount. |
| cim:MarketStatementLineItem.previousISOQuantity - Previous ISO settlement quantity. |
| cim:MarketStatementLineItem.previousPrice - Previous settlement price. |
| cim:MarketStatementLineItem.previousQuantity - Previous settlement quantity, subject to the UOM. |
| cim:MarketStatementLineItem.quantityUOM - The unit of measure for the quantity element of the line item. |
| cim:MarketStatementLineItemAliasName |
| cim:MarketType |
| cim:master |
| cim:material |
| cim:MaterialItem - The physical consumable supply used for work and other purposes. It includes items such as nuts, bolts, brackets, glue, etc. |
| cim:MaterialItem.quantity - Quantity of material used. |
| cim:MaterialItem.TypeMaterial - |
| cim:MaterialItem.WorkTask - |
| cim:MAX_CONSTRAINT |
| cim:MAXIMUM |
| cim:maximum |
| cim:MaxStartUpCostCurve - The maximum Startup costs and time as a function of down time. Relationship between unit startup cost (Y1-axis) vs. unit elapsed down time (X-axis). This is used to validate the information provided in the Bid. |
| cim:MDL |
| cim:Measure - A Measurement represents any measured, calculated or non-measured non-calculated quantity. Any piece of equipment may contain Measurements, e.g. a substation may have temperature measurements and door open indications, a transformer may have oil temperature and tank pressure measurements, a bay may contain a number of power flow measurements and a Breaker may contain a switch status measurement.
The PSR - Measurement association is intended to capture this use of Measurement and is included in the naming hierarchy based on EquipmentContainer. The naming hierarchy typically has Measurements as leafs, e.g. Substation-VoltageLevel-Bay-Switch-Measurement.
Some Measurements represent quantities related to a particular sensor location in the network, e.g. a voltage transformer (PT) at a busbar or a current transformer (CT) at the bar between a breaker and an isolator. The sensing position is not captured in the PSR - Measurement association. Instead it is captured by the Measurement - Terminal association that is used to define the sensing location in the network topology. The location is defined by the connection of the Terminal to ConductingEquipment.
If both a Terminal and PSR are associated, and the PSR is of type ConductingEquipment, the associated Terminal should belong to that ConductingEquipment instance.
When the sensor location is needed both Measurement-PSR and Measurement-Terminal are used. The Measurement-Terminal association is never used alone. |
| cim:Measure.Asset - |
| cim:Measure.Location - |
| cim:Measure.MeasurementCalculatorInput - |
| cim:Measure.measurementType - Specifies the type of measurement. For example, this specifies if the measurement represents an indoor temperature, outdoor temperature, bus voltage, line flow, etc. |
| cim:Measure.phases - Indicates to which phases the measurement applies and avoids the need to use 'measurementType' to also encode phase information (which would explode the types). The phase information in Measurement, along with 'measurementType' and 'phases' uniquely defines a Measurement for a device, based on normal network phase. Their meaning will not change when the computed energizing phasing is changed due to jumpers or other reasons.
If the attribute is missing three phases (ABC) shall be assumed. |
| cim:Measure.PinMeasurement - |
| cim:Measure.PowerSystemResource - The power system resource that contains the measurement.The measurements associated with this power system resource. |
| cim:Measure.Procedure - Measurements are specified in types of documents, such as procedures.Document containing this measurement. |
| cim:Measure.unitMultiplier - The unit multiplier of the measured quantity. |
| cim:Measure.unitSymbol - The unit of measure of the measured quantity. |
| cim:measured |
| cim:measurement |
| cim:MeasurementCalculator - Result of a calculation of one or more measurement. |
| cim:MeasurementCalculator.kind - Calculation operation executed on the operants. |
| cim:MeasurementCalculator.MeasurementCalculatorInput - |
| cim:MeasurementCalculatorInput - Input to measurement calculation. Support Analog, Discrete and Accumulator. |
| cim:MeasurementCalculatorInput.absoluteValue - If true, use the absolute value for the calculation. |
| cim:MeasurementCalculatorInput.order - Positive number that defines the order of the operant in the calculation. 0 = default. The order is not relevant (e.g. summation). |
| cim:MeasurementKind |
| cim:MeasurementTypeEMS |
| cim:MeasurementValue - The current state for a measurement. A state value is an instance of a measurement from a specific source. Measurements can be associated with many state values, each representing a different source for the measurement. |
| cim:MeasurementValue.MeasurementValueQuality - A MeasurementValue has a MeasurementValueQuality associated with it.A MeasurementValue has a MeasurementValueQuality associated with it. |
| cim:MeasurementValue.MeasurementValueSource - A reference to the type of source that updates the MeasurementValue, e.g. SCADA, CCLink, manual, etc. User conventions for the names of sources are contained in the introduction to IEC 61970-301.The MeasurementValues updated by the source. |
| cim:MeasurementValue.OldPerson - |
| cim:MeasurementValue.ProcedureDataSet - |
| cim:MeasurementValue.sensorAccuracy - The limit, expressed as a percentage of the sensor maximum, that errors will not exceed when the sensor is used under reference conditions. |
| cim:MeasurementValue.timeStamp - The time when the value was last updated |
| cim:MeasurementValueQuality - Measurement quality flags. Bits 0-10 are defined for substation automation in draft IEC 61850 part 7-3. Bits 11-15 are reserved for future expansion by that document. Bits 16-31 are reserved for EMS applications. |
| cim:MeasurementValueSource - MeasurementValueSource describes the alternative sources updating a MeasurementValue. User conventions for how to use the MeasurementValueSource attributes are described in the introduction to IEC 61970-301. |
| cim:MeasuringPeriodKind |
| cim:MechanicalLoadDynamics - Mechanical load function block whose behavior is described by reference to a standard model or by definition of a user-defined model. |
| cim:MechanicalLoadUserDefined - Mechanical load function block whose dynamic behaviour is described by a user-defined model. |
| cim:MechanicalLoadUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:MechanicalLoadUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:mechanicHydraulicTransientFeedback |
| cim:mechanicHydrolicTachoAccelerator |
| cim:MechLoad1 - Mechanical load model type 1. |
| cim:MechLoad1.a - Speed squared coefficient (a). |
| cim:MechLoad1.b - Speed coefficient (b). |
| cim:MechLoad1.d - Speed to the exponent coefficient (d). |
| cim:MechLoad1.e - Exponent (e). |
| cim:Medium - A substance that either (1) provides the means of transmission of a force or effect, such as hydraulic fluid, or (2) is used for a surrounding or enveloping substance, such as oil in a transformer or circuit breaker. |
| cim:Medium.kind - Kind of this medium. |
| cim:Medium.Specification - |
| cim:Medium.volumeSpec - The volume of the medium specified for this application. Note that the actual volume is a type of measurement associated witht the asset. |
| cim:MediumKind |
| cim:MerchantAccount - The operating account controlled by merchant agreement, against which the vendor may vend tokens or receipt payments. Transactions via vendor shift debit the account and bank deposits via bank statement credit the account. |
| cim:MerchantAccount.currentBalance - The current operating balance of this account. |
| cim:MerchantAccount.MerchantAgreement - Merchant agreement that instantiated this merchant account.All merchant accounts instantiated as a result of this merchant agreement. |
| cim:MerchantAccount.provisionalBalance - The balance of this account after taking into account any pending debits from VendorShift.merchantDebitAmount and pending credits from BankStatement.merchantCreditAmount or credits (see also BankStatement attributes and VendorShift attributes). |
| cim:MerchantAgreement - A formal controlling contractual agreement between supplier and merchant, in terms of which the merchant is authorised to vend tokens and receipt payments on behalf of the supplier. The merchant is accountable to the supplier for revenue collected at point of sale. |
| cim:mercuryVapor |
| cim:metalHalide |
| cim:Meter - Physical asset that performs the metering role of the usage point. Used for measuring consumption and detection of events. |
| cim:Meter.formNumber - Meter form designation per ANSI C12.10 or other applicable standard. An alphanumeric designation denoting the circuit arrangement for which the meter is applicable and its specific terminal arrangement. |
| cim:Meter.MeterWorkTask - All work tasks on replacement of this old meter.Old meter replaced by this work task. |
| cim:Meter.Transaction - All vending transactions on this meter.Meter for this vending transaction. |
| cim:MeterAdministrator |
| cim:meterConfigurationToken |
| cim:MeteredDataAggregator |
| cim:MeteredDataCollector |
| cim:MeteredDataResponsible |
| cim:MeteredSubSystem - A metered subsystem |
| cim:MeteredSubSystem.MSSAggregation - |
| cim:MeteringPointAdministrator |
| cim:MeterMultiplier - Multiplier applied at the meter. |
| cim:MeterMultiplier.kind - Kind of multiplier. |
| cim:MeterMultiplier.Meter - Meter applying this multiplier.All multipliers applied at this meter. |
| cim:MeterMultiplier.value - Multiplier value. |
| cim:MeterMultiplierKind |
| cim:MeterOperator |
| cim:MeterReading - Set of values obtained from the meter. |
| cim:MeterReading.IntervalBlock - All interval blocks contained in this meter reading.Meter reading containing this interval block. |
| cim:MeterReading.isCoincidentTrigger - If true, this meter reading is the meter reading for which other coincident meter readings are requested or provided. |
| cim:MeterReading.Meter - Meter providing this reading.All meter readings provided by this meter. |
| cim:MeterReading.Reading - All reading values contained within this meter reading.All meter readings (sets of values) containing this reading value. |
| cim:MeterReading.valuesInterval - Date and time interval of the data items contained within this meter reading. |
| cim:MeterWorkTask - Work task involving meters. |
| cim:metrology |
| cim:MetrologyRequirement - A specification of the metering requirements for a particular point within a network. |
| cim:MetrologyRequirement.reason - Reason for this metrology requirement being specified. |
| cim:mfgAssignedConfigurationID |
| cim:mfgAssignedPhysicalSerialNumber |
| cim:mfgAssignedProductNumber |
| cim:mfgAssignedUniqueCommunicationAddress |
| cim:MGA |
| cim:micro |
| cim:middle |
| cim:min |
| cim:MIN_CONSTRAINT |
| cim:minimum |
| cim:MINIMUM |
| cim:MINL |
| cim:Minutes - Time in minutes. |
| cim:Minutes.multiplier |
| cim:Minutes.unit |
| cim:Minutes.value |
| cim:MiscCostItem - Various cost items that are not associated with compatible units. Examples include rental equipment, labor, materials, contractor costs, permits - anything not covered in a CU. |
| cim:MiscCostItem.account - This drives the accounting treatment for this misc. item. |
| cim:MiscCostItem.costPerUnit - The cost per unit for this misc. item. |
| cim:MiscCostItem.costType - The cost type for accounting, such as material, labor, vehicle, contractor, equipment, overhead. |
| cim:MiscCostItem.DesignLocation - |
| cim:MiscCostItem.externalRefID - External reference identifier (e.g. purchase order number, serial number) . |
| cim:MiscCostItem.OldWorkTask - |
| cim:MiscCostItem.quantity - The quantity of the misc. item being assigned to this location. |
| cim:MiscCostItem.status |
| cim:missing |
| cim:MitigatedBid - Mitigated bid results posted for a given settlement period. |
| cim:MitigatedBidClearing - Model of market power mitigation through reference or mitigated bids. Interval based. |
| cim:MitigatedBidClearing.MitigatedBid - |
| cim:MitigatedBidClearing.RMRDetermination - |
| cim:MitigatedBidSegment - Model of mitigated bid. Indicates segment of piece-wise linear bid, that has been mitigated |
| cim:MitigatedBidSegment.Bid - |
| cim:MitigatedBidSegment.intervalStartTime |
| cim:MitigatedBidSegment.segmentMW - Mitigated bid segment MW value |
| cim:MitigatedBidSegment.segmentNumber - Mitigated Bid Segment Number |
| cim:MitigatedBidSegment.thresholdType |
| cim:MKD |
| cim:MktAccountKind |
| cim:MktACLineSegment - Subclass of IEC61970:Wires:ACLineSegment |
| cim:MktACLineSegment.BranchEndFlow - |
| cim:MktActivityRecord - Subclass of IEC61968: Common:ActivityRecord |
| cim:MktActivityRecord.MarketFactors - |
| cim:MktAnalogLimit - Subclass of IEC61970:Meas:AnalogLimit |
| cim:MktAnalogLimit.exceededLimit - true if limit exceeded |
| cim:MktAnalogLimit.limitType - The type of limit the value represents
Branch Limit Types:
Short Term
Medium Term
Long Term
Voltage Limits:
High
Low |
| cim:MktAnalogLimitSet - Subclass of IEC61970:Meas:AnalogLimitSet |
| cim:MktAnalogLimitSet.ratingSet - Rating set numbers |
| cim:MktAnalogValue - Subclass of IEC61970:Meas:AnalogValue |
| cim:MktAnalogValue.AnalogMeasurementValueQuality - |
| cim:MktBillMediaKind |
| cim:MktCombinedCyclePlant - Subclass of Production: CombinedCyclePlant from IEC61970 package.
A set of combustion turbines and steam turbines where the exhaust heat from the combustion turbines is recovered to make steam for the steam turbines, resulting in greater overall plant efficiency |
| cim:MktCombinedCyclePlant.CombinedCycleLogicalConfiguration - |
| cim:MktConductingEquipment - Subclass of IEC61970:Core:ConductingEquipment |
| cim:MktConnectivityNode - Subclass of IEC61970:Topology:ConnectivityNode |
| cim:MktConnectivityNode.CnodeDistributionFactor - |
| cim:MktConnectivityNode.endEffectiveDate - end effective date |
| cim:MktConnectivityNode.IndividualPnode - |
| cim:MktConnectivityNode.LossSensitivity - |
| cim:MktConnectivityNode.NodeConstraintTerm - |
| cim:MktConnectivityNode.RegisteredResource - |
| cim:MktConnectivityNode.RTO - |
| cim:MktConnectivityNode.startEffectiveDate - start effective date |
| cim:MktConnectivityNode.SysLoadDistributionFactor - |
| cim:MktContingency - Subclass of IEC61970:Contingency |
| cim:MktContingency.ConstraintResults - |
| cim:MktContingency.ContingencyConstraintLimit - |
| cim:MktContingency.loadRolloverFlag - load change flag
Flag that indicates whether load rollover and load pickup should be processed for this contingency |
| cim:MktContingency.ltcControlFlag - ltc enable flag
Flag that indicates if LTCs regulate voltage during the solution of the contingency |
| cim:MktContingency.participationFactorSet - Participation Factor flag
An indication which set of generator participation factors should be used to re-allocate generation in this contingency |
| cim:MktContingency.screeningFlag - sceening flag for outage
Flag that indicated whether screening is bypassed for the contingency |
| cim:MktContingency.TransferInterfaceSolution - |
| cim:MktControlArea - Market subclass of IEC61970:ControlArea |
| cim:MktControlArea.ControlAreaSolutionData - |
| cim:MktDiscreteValue - Subclass of IEC61970:Meas:DiscreteValue |
| cim:MktDiscreteValue.DiscreteMeasurementValueQuality - |
| cim:MktEnergyConsumer - Subclass of IEC61970:Wires:EnergyConsumer |
| cim:MktEnergyConsumer.EnergyConsumerData - |
| cim:MktEnergyConsumer.RegisteredLoad - |
| cim:MktGeneratingUnit - Subclass of IEC61970:Production:GeneratingUnit |
| cim:MktGeneratingUnit.GeneratingUnitDynamicValues - |
| cim:MktGeneratingUnit.RegisteredGenerator - |
| cim:MktHeatRateCurve - Subclass of IEC61970: Generation: Production:HeatRateCurve |
| cim:MktHeatRateCurve.RegisteredGenerator - |
| cim:MktHeatRateCurve.ResourceVerifiableCosts - |
| cim:MktInvoiceLineItemKind |
| cim:MktLine - Subclass for IEC61970:Wires:Line |
| cim:MktLine.Flowgate - |
| cim:MktLoadArea - Subclass of IEC61970:LoadModel: LoadArea |
| cim:MktLoadArea.AreaLoadCurve - |
| cim:MktLoadArea.RegisteredLoad - |
| cim:MktMeasurement - Subclass of IEC61970:Meas:Measurement |
| cim:MktMeasurement.DynamicSchedule - |
| cim:MktMeasurement.Pnode - Allows Pnode an association to aggregated resources external DC ties or psuedo tie measurements.Allows Measurements to be associated to Pnodes. |
| cim:MktMeasurement.TiePoint - A measurement is made on the B side of a tie pointA measurement is made on the B side of a tie point |
| cim:MktMeasurement.ViolationLimit - |
| cim:MktOrganisation - Subclass of IEC61968:Core2:TopLevel:Organisation |
| cim:MktOrganisation.creditFlag - Flag to indicate creditworthiness (Y, N) |
| cim:MktOrganisation.creditStartEffectiveDate - Date that the organisation becomes creditworthy. |
| cim:MktOrganisation.endEffectiveDate - end effective date |
| cim:MktOrganisation.IntSchedAgreement - |
| cim:MktOrganisation.lastModified - Indication of the last time this Organization information was modified. |
| cim:MktOrganisation.organisationID - Organisation (internal) ID |
| cim:MktOrganisation.OrgPnodeAllocation - |
| cim:MktOrganisation.OrgResOwnership - |
| cim:MktOrganisation.qualificationStatus - Organisation qualification status, Qualified, Not Qualified, or Disqualified |
| cim:MktOrganisation.RegisteredResource - |
| cim:MktOrganisation.SchedulingCoordinator - |
| cim:MktOrganisation.startEffectiveDate - start effective date |
| cim:MktOrganisation.ViolationLimit - |
| cim:MktPowerTransformer - Subclass of IEC61970:Wires:PowerTransformer |
| cim:MktPowerTransformer.BranchEndFlow - |
| cim:MktPowerTransformer.Flowgate - |
| cim:MktPSRType - The type of a power system resource. |
| cim:MktPSRType.psrType - The coded type of a power system resource. |
| cim:MktSeriesCompensator - Subclass of IEC61970:Wires:SeriesCompensator |
| cim:MktSeriesCompensator.BranchEndFlow - |
| cim:MktShuntCompensator - Subclass of IEC61970:Wires:ShuntCompensator |
| cim:MktShuntCompensator.ShuntCompensatorDynamicData - |
| cim:MktSubClassType |
| cim:MktSwitch - Subclass of IEC61970:Wires:Switch |
| cim:MktSwitch.SwitchStatus - |
| cim:MktTapChanger - Subclass of IEC61970:Wires:TapChanger |
| cim:MktTapChanger.TapChangerDynamicData - |
| cim:MktTerminal - Subclass of IEC61970:Core:Terminal |
| cim:MktTerminal.endEffectiveDate - This is the end date/time of the element eligibility for the flowgate. |
| cim:MktTerminal.startEffectiveDate - This is the begin date/time of the element eligibility for the flowgate. |
| cim:MktTerminal.TerminalConstraintTerm - |
| cim:MktThermalGeneratingUnit - Subclass of ThermalGeneratingUnit from Production Package in IEC61970. |
| cim:MktThermalGeneratingUnit.CombinedCycleConfigurationMember - |
| cim:MktUserAttribute - Subclass of IEC61968:Domain2:UserAttribute |
| cim:MktUserAttribute.AttributeProperty - |
| cim:MktUserAttribute.BillDeterminant - |
| cim:MktUserAttribute.ChargeGroup - |
| cim:MktUserAttribute.ChargeType - |
| cim:MktUserAttribute.MarketStatementLineItem - |
| cim:MktUserAttribute.PassThroughBill - |
| cim:MLE |
| cim:mmHg |
| cim:MMK |
| cim:MNT |
| cim:MO |
| cim:mode1 |
| cim:mode2 |
| cim:mode3 |
| cim:Model - The part of a model that is versioned. There is a source, a specific kind of data included but it could be modified and versioned or have alternatives. |
| cim:Model.AssemblyManifest - |
| cim:Model.ModelPartVersion - Model part versions of the model part.Model part of the model part version. |
| cim:Model.profile |
| cim:ModelFrameType - Examples would be "Boundary" or "Region" type of frame. |
| cim:ModelFrameType.FrameworkPart - Model frames of the model frame type.Model frame type of the model frame. |
| cim:ModelOperation - An operation performed on models. |
| cim:ModelOperation.ModelOperationArg - Arguments of the operation.The opeation for the operation argument. |
| cim:ModelOperation.ModelOperationSequence - |
| cim:ModelOperation.sequenceNumber - Sequence number within a operation sequence, lower is first. Normally starts with 1. |
| cim:ModelOperationArg - Describes the role a dataset plays in a model operation. The role is applicable only in the context of a single operation. |
| cim:ModelOperationArg.sequenceNumber - The sequence number of the argument in an operation. Argument entries are considered in numerical order where the operation requires an ordering. |
| cim:ModelOperationArgDescription - The type of custom operation dataset role for an operation description. |
| cim:ModelOperationArgDescription.multiplicityMaximum - The maximum multiplicity of the instance arguments that should be supplied for a single operation. Use -1 to indicate unlimited. |
| cim:ModelOperationArgDescription.multiplicityMinimum - The minimum multiplicity of the instance arguments that should be supplied for a single operation. Use zero to indicate optional. |
| cim:ModelOperationDescription - The type of model operation. This class is referenced by model operations and defines the kind of operation. |
| cim:ModelOperationDescription.ModelOperation - The instances of operations that conform to this operation type.The type of the model operation. |
| cim:ModelOperationDescription.ModelOperationArgDescription - The type of dataset roles that can be used for a type of general model operation.The type of operation for this type of dataset role. Operations referencing the dataset role type should only belong to operations that reference the operation type. |
| cim:ModelOperationSequence - A concrete sequence of operations. For example, this may be used to describe a specific audit trail, a script or other specific set of actions on specific datasets. |
| cim:ModelPartVersion - Versioned instance of a model part. |
| cim:ModelSpecification - The type of model. For example, state estimator, planning, planning dynamics, short circuit, or real-time dynamics etc. The model must conform to a profile. |
| cim:ModelSpecification.AssemblyDescription - The assembly description into which model parts should be included.The models that are part of the assembly descrption. |
| cim:ModelSpecification.Model - Modle parts conforming to the model part specification.Model specification of the modelt. |
| cim:MODIFIED |
| cim:mol |
| cim:molPerkg |
| cim:molPerm3 |
| cim:molPermol |
| cim:MOLResponsible |
| cim:Money - Amount of money. |
| cim:Money.multiplier |
| cim:Money.unit |
| cim:Money.value |
| cim:monopolarGroundReturn |
| cim:monopolarMetallicReturn |
| cim:MonthDay - MonthDay format as "--mm-dd", which conforms with XSD data type gMonthDay. |
| cim:MonthDayInterval - Interval between two times specified as mont and date. |
| cim:MonthDayInterval.end - End time of this interval. |
| cim:MonthDayInterval.start - Start time of this interval. |
| cim:monthly |
| cim:MONTHLY_INITIAL_MARKET |
| cim:MONTHLY_RECALC_MARKET |
| cim:MOP |
| cim:Mothballed |
| cim:motor |
| cim:motorOrCondenser |
| cim:moveIn |
| cim:moveOut |
| cim:MP |
| cim:mPerm3 |
| cim:mPers |
| cim:mPers2 |
| cim:MPM-1 |
| cim:MPM-2 |
| cim:MPM-3 |
| cim:MPM-4 |
| cim:MPM_FLAG |
| cim:MPMClearing - Model of results of Market Power tests, and possible mitigation. Interval based |
| cim:MPMClearing.LMPMFinalFlag |
| cim:MPMClearing.mitigationOccuredFlag |
| cim:MPMClearing.SMPMFinalFlag |
| cim:MPMResourceStatus - Model of results of Market Power tests, gives status of resource for the associated interval |
| cim:MPMResourceStatus.MitigatedBidClearing - |
| cim:MPMResourceStatus.MPMTestCategory - |
| cim:MPMResourceStatus.RegisteredResource - |
| cim:MPMResourceStatus.resourceStatus - Interval Test Status
'N' - not applicable |
| cim:MPMTestCategory - Provides a reference to the Market Power Mitigation test identifiers and methods for the results of the DA or RT markets. Specific data is the test identifier (Price, Conduct, or Impact) and the test method (System MPM, Local MPM, Alternate System MPM, or Alternate Local MPM). |
| cim:MPMTestCategory.purposeFlag - Nature of threshold data:
'M' - Mitigation threshold
'R' - Reporting threshold |
| cim:MPMTestCategory.testIdentifier - 1 - Global Price Test
2 - Global Conduct Test
3 - Global Impact Test
4 - Local Price Test
5 - Local Conduct Test
6 - Local Impact Test |
| cim:MPMTestCategory.testMethod - The method of performing the market power monitoring. Examples are Normal (default) thresholds or Alternate thresholds. |
| cim:MPMTestIdentifierType |
| cim:MPMTestMethodType |
| cim:MPMTestOutcome |
| cim:MPMTestResults - Provides the outcome and margin percent (as appropriate) result data for the MPM tests. There are relationships to Zone for Designated Congestion Area Tests, CurveSchedData for bid segment tests, to the SubControlArea for the system wide level tests, and Pnodes for the LMPM impact tests. |
| cim:MPMTestResults.AggregatedPnode - |
| cim:MPMTestResults.marginPercent - Used to show the Margin % result of the Impact test |
| cim:MPMTestResults.MPMClearing - |
| cim:MPMTestResults.MPMTestCategory - |
| cim:MPMTestResults.outcome - The results of the test. For the Price, Impact, and Conduct tests, typical values are NA, Pass, Fail, Disable, or Skip. |
| cim:MPMTestThreshold - Market Power Mitigation (MPM) test thresholds for resource as well as designated congestion areas (DCAs) |
| cim:MPMTestThreshold.marketType - Market Type (DAM, RTM) |
| cim:MPMTestThreshold.MPMTestCategory - |
| cim:MPMTestThreshold.percent - Price Threshold in % |
| cim:MPMTestThreshold.price - Price Threshold in $/MW |
| cim:MQSCHGType |
| cim:MQSDELType |
| cim:MQSInstructionSource |
| cim:MRO |
| cim:MSSAggregation - Metered Sub-System aggregation of MSS Zones. |
| cim:MSSAggregation.costRecovery - Charge for Emission Costs, Start Up Costs, or Minimum Load Costs. |
| cim:MSSAggregation.endEffectiveDate - end effective date |
| cim:MSSAggregation.grossSettlement - MSS Load Following may select Net vs. Gross settlement. Net Settlement requires the net Demand settled at the MSS LAP and Net Supply needs to settle at the equivalent to the weighted average price of the MSS generation. Gross load will be settled at the System LAP and the Gross supply will be settled at the LMP. MSS Aggregation that elects gross settlement shall have to identify if its resources are Load Following or not. |
| cim:MSSAggregation.ignoreLosses - Provides an indication if losses are to be ignored for this zone. Also refered to as Exclude Marginal Losses. |
| cim:MSSAggregation.ignoreMarginalLosses - Provides an indication if marginal losses are to be ignored for this zone. |
| cim:MSSAggregation.loadFollowing - Indication that this particular MSSA participates in the Load Following function. |
| cim:MSSAggregation.rucProcurement - Indicates that RUC will be procured by the ISO or self provided. |
| cim:MSSAggregation.startEffectiveDate - start effective date |
| cim:MSSLFE |
| cim:MSSZone - Model to define a zone within a Metered Sub System |
| cim:MSSZone.ignoreLosses - Provides an indication if losses are to be ignored for this metered subsystem zone. |
| cim:MSSZone.lossFactor - This is the default loss factor for the Metered Sub-System (MSS) zone. The actual losses are calculated during the RT market. |
| cim:MSSZone.MeteredSubSystem - |
| cim:MSSZone.rucGrossSettlement - Metered Sub-System (MSS) Load Following may select Net vs. Gross settlement. Net Settlement requires the net Demand settled at the Metered Sub-Sustem (MSS) Load Aggregation Point (LAP) and Net Supply needs to settle at the equivalent to the weighted average price of the MSS generation. Gross load will be settled at the System LAP and the Gross supply will be settled at the LMP. MSS Aggregation that elects gross settlement shall have to identify if its resources are Load Following or not. |
| cim:MT |
| cim:mul |
| cim:multiCastAddress |
| cim:multiHelix |
| cim:MUR |
| cim:MutualCoupling - This class represents the zero sequence line mutual coupling. |
| cim:MutualCoupling.b0ch - Zero sequence mutual coupling shunt (charging) susceptance, uniformly distributed, of the entire line section. |
| cim:MutualCoupling.distance11 - Distance to the start of the coupled region from the first line's terminal having sequence number equal to 1. |
| cim:MutualCoupling.distance12 - Distance to the end of the coupled region from the first line's terminal with sequence number equal to 1. |
| cim:MutualCoupling.distance21 - Distance to the start of coupled region from the second line's terminal with sequence number equal to 1. |
| cim:MutualCoupling.distance22 - Distance to the end of coupled region from the second line's terminal with sequence number equal to 1. |
| cim:MutualCoupling.g0ch - Zero sequence mutual coupling shunt (charging) conductance, uniformly distributed, of the entire line section. |
| cim:MutualCoupling.r0 - Zero sequence branch-to-branch mutual impedance coupling, resistance. |
| cim:MutualCoupling.x0 - Zero sequence branch-to-branch mutual impedance coupling, reactance. |
| cim:MVR |
| cim:MW |
| cim:MWh |
| cim:MWK |
| cim:MWLimitSchedule - Maximum MW and optionally Minimum MW (Y1 and Y2, respectively) |
| cim:MWLimitSchedule.ContingencyConstraintLimit - |
| cim:Mx |
| cim:MXN |
| cim:MYR |
| cim:MZN |
| cim:n |
| cim:N |
| cim:NA |
| cim:NAD |
| cim:Name - The Name class provides the means to define any number of human readable names for an object. A name is not to be used for defining inter-object relationships. For inter-object relationships instead use the object identification 'mRID'. |
| cim:Name.name - Any free text that name the object. |
| cim:NameType - Type of name. Possible values for attribute 'name' are implementation dependent but standard profiles may specify types. An enterprise may have multiple IT systems each having its own local name for the same object, e.g. a planning system may have different names from an EMS. An object may also have different names within the same IT system, e.g. localName as defined in CIM version 14. The definition from CIM14 is:
The localName is a human readable name of the object. It is a free text name local to a node in a naming hierarchy similar to a file directory structure. A power system related naming hierarchy may be: Substation, VoltageLevel, Equipment etc. Children of the same parent in such a hierarchy have names that typically are unique among them. |
| cim:NameType.description - Description of the name type. |
| cim:NameType.Name - All names of this type.Type of this name. |
| cim:NameType.name - Name of the name type. |
| cim:NameTypeAuthority - Authority responsible for creation and management of names of a given type; typically an organization or an enterprise system. |
| cim:NameTypeAuthority.description - Description of the name type authority. |
| cim:NameTypeAuthority.name - Name of the name type authority. |
| cim:NameTypeAuthority.NameType - All name types managed by this authority.Authority responsible for managing names of this type. |
| cim:nand |
| cim:naphthena |
| cim:natural |
| cim:naturalGas |
| cim:ne |
| cim:negative |
| cim:negativeSequence |
| cim:NEGOTIATED |
| cim:Neither |
| cim:net |
| cim:network |
| cim:NFRM |
| cim:NG |
| cim:NGN |
| cim:NIO |
| cim:nitrogenBlanket |
| cim:nitrogenOxide |
| cim:Nm |
| cim:NNG |
| cim:NO |
| cim:No_data_returned_for_the_specified_selection |
| cim:noBreaker |
| cim:NodeConstraintTerm - To be used only to constrain a quantity that cannot be associated with a terminal. For example, a registered generating unit that is not electrically connected to the network. |
| cim:noFillPrefab |
| cim:NOK |
| cim:NoLoadTest - No-load test results determine core admittance parameters. They include exciting current and core loss measurements from applying voltage to one winding. The excitation may be positive sequence or zero sequence. The test may be repeated at different voltages to measure saturation. |
| cim:NoLoadTest.energisedEndVoltage - Voltage applied to the winding (end) during test. |
| cim:NoLoadTest.excitingCurrent - Exciting current measured from a positive-sequence or single-phase excitation test. |
| cim:NoLoadTest.excitingCurrentZero - Exciting current measured from a zero-sequence open-circuit excitation test. |
| cim:NoLoadTest.loss - Losses measured from a positive-sequence or single-phase excitation test. |
| cim:NoLoadTest.lossZero - Losses measured from a zero-sequence excitation test. |
| cim:nomex |
| cim:nominal |
| cim:NominationValidator |
| cim:NON_RESPONSE |
| cim:nonAmi |
| cim:NonConformLoad - NonConformLoad represent loads that do not follow a daily load change pattern and changes are not correlated with the daily load change pattern. |
| cim:NonConformLoad.NonConformLoadGroup - Group of this ConformLoad.Conform loads assigned to this ConformLoadGroup. |
| cim:NonConformLoadGroup - Loads that do not follow a daily and seasonal load variation pattern. |
| cim:NonConformLoadSchedule - An active power (Y1-axis) and reactive power (Y2-axis) schedule (curves) versus time (X-axis) for non-conforming loads, e.g., large industrial load or power station service (where modeled). |
| cim:NonConformLoadSchedule.NonConformLoadGroup - The NonConformLoadGroup where the NonConformLoadSchedule belongs.The NonConformLoadSchedules in the NonConformLoadGroup. |
| cim:NONCRITICAL |
| cim:none |
| cim:NONE |
| cim:NonlinearShuntCompensator - A non linear shunt compensator has bank or section admittance values that differs. |
| cim:NonlinearShuntCompensator.NonlinearShuntCompensatorPoint - All points of the non-linear shunt compensator.Non-linear shunt compensator owning this point. |
| cim:NonlinearShuntCompensatorPhase - A per phase non linear shunt compensator has bank or section admittance values that differs. |
| cim:NonlinearShuntCompensatorPhase.NonlinearShuntCompensatorPhasePoint - All points of the non-linear shunt compensator phase.Non-linear shunt compensator phase owning this point. |
| cim:NonlinearShuntCompensatorPhasePoint - A per phase non linear shunt compensator bank or section admittance value. |
| cim:NonlinearShuntCompensatorPhasePoint.b - Positive sequence shunt (charging) susceptance per section |
| cim:NonlinearShuntCompensatorPhasePoint.g - Positive sequence shunt (charging) conductance per section |
| cim:NonlinearShuntCompensatorPhasePoint.sectionNumber - The number of the section. |
| cim:NonlinearShuntCompensatorPoint - A non linear shunt compensator bank or section admittance value. |
| cim:NonlinearShuntCompensatorPoint.b - Positive sequence shunt (charging) susceptance per section |
| cim:NonlinearShuntCompensatorPoint.b0 - Zero sequence shunt (charging) susceptance per section |
| cim:NonlinearShuntCompensatorPoint.g - Positive sequence shunt (charging) conductance per section |
| cim:NonlinearShuntCompensatorPoint.g0 - Zero sequence shunt (charging) conductance per section |
| cim:NonlinearShuntCompensatorPoint.sectionNumber - The number of the section. |
| cim:nonMetered |
| cim:nonpotableWater |
| cim:nonResidential |
| cim:NONSBO |
| cim:NONSPIN |
| cim:NonStandardItem - This document provides information for non-standard items like customer contributions (e.g., customer digs trench), vouchers (e.g., credit), and contractor bids. |
| cim:NonStandardItem.amount - The projected cost for this item. |
| cim:noOELinput |
| cim:nor |
| cim:normal |
| cim:NORMAL |
| cim:not |
| cim:NotificationTimeCurve - Notification time curve as a function of down time. Relationship between crew notification time (Y1-axis) and unit startup time (Y2-axis) vs. unit elapsed down time (X-axis). |
| cim:NotificationTimeCurve.GeneratingBid - |
| cim:NotificationTriggerKind |
| cim:noUELinput |
| cim:noVoid |
| cim:nox |
| cim:NPerm |
| cim:NPR |
| cim:NR |
| cim:NRT |
| cim:NSR |
| cim:NUCL |
| cim:NuclearGeneratingUnit - A nuclear generating unit. |
| cim:NZD |
| cim:O |
| cim:OARL |
| cim:OASIS |
| cim:OASISBidReportType |
| cim:OASISDataItems |
| cim:OASISErrCode |
| cim:OASISErrDescription |
| cim:OASISIntervalType |
| cim:OASISMarketType |
| cim:OASISMasterType |
| cim:OASISMeasType |
| cim:OASISReportType |
| cim:OASISStatusType |
| cim:OBLIGATION |
| cim:Obsolete |
| cim:OE |
| cim:Oe |
| cim:OFF |
| cim:offAGC |
| cim:offshore |
| cim:ohm |
| cim:ohmm |
| cim:ohmPerm |
| cim:oil |
| cim:OIL |
| cim:oilPaper |
| cim:OilPreservationKind |
| cim:OilPrice - Price of oil in monetary units |
| cim:OilPrice.oilPriceIndex - The average oil price at a defined fuel region. |
| cim:oilShale |
| cim:OK |
| cim:OldCrew - A crew is a group of people with specific skills, tools, and vehicles. |
| cim:OldCrew.Capability - |
| cim:OldCrew.type - Classification by utility's work management standards and practices. |
| cim:OldPerson - General purpose information for name and other information to contact people. |
| cim:OldPerson.Craft - |
| cim:OldPerson.Customer - |
| cim:OldPerson.status |
| cim:OldPerson.type - Utility-specific classification for this person, according to the utility's corporate standards and practices. Examples include employee, contractor, agent, not affiliated, etc.
Note that this field is not used to indicate whether this person is a customer of the utility. Often an employee or contractor is also a customer. Customer information is gained with relationship to Organisation and CustomerData. In similar fashion, this field does not indicate the various roles this person may fill as part of utility operations. |
| cim:OldSwitchInfo - Properties of switch assets. |
| cim:OldSwitchInfo.dielectricStrength - The maximum rms voltage that may be applied across an open contact without breaking down the dielectric properties of the switch in the open position. |
| cim:OldSwitchInfo.loadBreak - True if switch has load breaking capabiity. Unless specified false, this is always assumed to be true for breakers and reclosers. |
| cim:OldSwitchInfo.makingCapacity - The highest value of current the switch can make at the rated voltage under specified operating conditions without suffering significant deterioration of its performance. |
| cim:OldSwitchInfo.minimumCurrent - The lowest value of current that the switch can make, carry and break in uninterrupted duty at the rated voltage under specified operating conditions without suffering significant deterioration of its performance. |
| cim:OldSwitchInfo.poleCount - Number of poles (i.e. of current carrying conductors that are switched). |
| cim:OldSwitchInfo.remote - True if device is capable of being operated by remote control. |
| cim:OldSwitchInfo.withstandCurrent - The highest value of current the switch can carry in the closed position at the rated voltage under specified operating conditions without suffering significant deterioration of its performance. |
| cim:OldTransformerEndInfo |
| cim:OldTransformerEndInfo.dayOverLoadRating - Overload rating for 24 hours. |
| cim:OldTransformerEndInfo.hourOverLoadRating - Overload rating for 1 hour. |
| cim:OldTransformerEndInfo.solidInsulationWeight - Weight of solid insultation in transformer. |
| cim:OldTransformerEndInfo.windingInsulationKind - Type of insultation used for transformer windings. |
| cim:OldTransformerTankInfo |
| cim:OldTransformerTankInfo.constructionKind - Kind of construction for this transformer. |
| cim:OldTransformerTankInfo.coreCoilsWeight - Weight of core and coils in transformer. |
| cim:OldTransformerTankInfo.coreKind - Core kind of this transformer product. |
| cim:OldTransformerTankInfo.function - Function of this transformer. |
| cim:OldTransformerTankInfo.neutralBIL - Basic insulation level of neutral. |
| cim:OldTransformerTankInfo.oilPreservationKind - Kind of oil preservation system. |
| cim:OldWorkTask - A set of tasks is required to implement a design. |
| cim:OldWorkTask.Capability - |
| cim:OldWorkTask.Design - |
| cim:OldWorkTask.DesignLocationCU - |
| cim:OldWorkTask.WorkCostDetail - |
| cim:OldWorkTask.WorkFlowStep - |
| cim:OMR |
| cim:ON |
| cim:onAGC |
| cim:OneCallRequest - A request for other utilities to mark their underground facilities prior to commencement of construction and/or maintenance. |
| cim:OneCallRequest.explosivesUsed - True if explosives have been or are planned to be used. |
| cim:OneCallRequest.markedIndicator - True if work location has been marked, for example for a dig area. |
| cim:OneCallRequest.markingInstruction - Instructions for marking a dig area, if applicable. |
| cim:OneCallRequest.WorkLocation - |
| cim:oneMinute |
| cim:onePerHz |
| cim:onePerm |
| cim:onePhase |
| cim:oneWayAddress |
| cim:OnOff |
| cim:onRequestRead |
| cim:onshore |
| cim:onSite |
| cim:OP |
| cim:OP_RES |
| cim:OP_RSRV_TOTAL |
| cim:open |
| cim:Open |
| cim:OpenAccessProduct - Contracts for services offered commercially. |
| cim:OpenCircuitTest - Open-circuit test results verify winding turn ratios and phase shifts. They include induced voltage and phase shift measurements on open-circuit windings, with voltage applied to the energised end. For three-phase windings, the excitation can be a positive sequence (the default) or a zero sequence. |
| cim:OpenCircuitTest.energisedEndStep - Tap step number for the energised end of the test pair. |
| cim:OpenCircuitTest.energisedEndVoltage - Voltage applied to the winding (end) during test. |
| cim:OpenCircuitTest.openEndStep - Tap step number for the open end of the test pair. |
| cim:OpenCircuitTest.openEndVoltage - Voltage measured at the open-circuited end, with the energised end set to rated voltage and all other ends open. |
| cim:OpenCircuitTest.phaseShift - Phase shift measured at the open end with the energised end set to rated voltage and all other ends open. |
| cim:openLoopReactivePower |
| cim:OpenTieSchedule - Result of bid validation against conditions that may exist on an interchange that becomes disconnected or is heavily discounted with respect the MW flow.
This schedule is assocated with the hourly parameters in a resource bid. |
| cim:OpenTieSchedule.value |
| cim:operable |
| cim:OperatingParticipant - An operator of multiple power system resource objects. Note multple operating participants may operate the same power system resource object. This can be used for modeling jointly owned units where each owner operates as a contractual share. |
| cim:OperatingParticipant.OperatingShare - The operating shares of this operating participant. An operating participant can be resused for any number of power system resources.The operating participant having this share with the associated power system resource. |
| cim:OperatingShare - Specifies the operations contract relationship between a power system resource and a contract participant. |
| cim:OperatingShare.percentage - Percentage operational ownership between the pair (power system resource and operatging participant) associated with this share. The total percentage ownership for a power system resource should add to 100%. |
| cim:OperationalLimit - A value associated with a specific kind of limit.
The sub class value attribute shall be positive.
The sub class value attribute is inversely proportional to OperationalLimitType.acceptableDuration (acceptableDuration for short). A pair of value_x and acceptableDuration_x are related to each other as follows:
if value_1 > value_2 > value_3 >... then
acceptableDuration_1 < acceptableDuration_2 < acceptableDuration_3 < ...
A value_x with direction="high" shall be greater than a value_y with direction="low". |
| cim:OperationalLimit.LimitScalingLimit - |
| cim:OperationalLimitDirectionKind |
| cim:OperationalLimitSet - A set of limits associated with equipment. Sets of limits might apply to a specific temperature, or season for example. A set of limits may contain different severities of limit levels that would apply to the same equipment. The set may contain limits of different types such as apparent power and current limits or high and low voltage limits that are logically applied together as a set. |
| cim:OperationalLimitSet.OperationalLimit - Values of equipment limits.The limit set to which the limit values belong. |
| cim:OperationalLimitType - The operational meaning of a category of limits. |
| cim:OperationalLimitType.acceptableDuration - The nominal acceptable duration of the limit. Limits are commonly expressed in terms of the a time limit for which the limit is normally acceptable. The actual acceptable duration of a specific limit may depend on other local factors such as temperature or wind speed. |
| cim:OperationalLimitType.direction - The direction of the limit. |
| cim:OperationalLimitType.OperationalLimit - The operational limits associated with this type of limit.The limit type associated with this limit. |
| cim:OperationalLimitType.OperatonalLimitTypeScaling - |
| cim:OperationalRestriction - A document that can be associated with equipment to describe any sort of restrictions compared with the original manufacturer's specification or with the usual operational practice e.g. temporary maximum loadings, maximum switching current, do not operate if bus couplers are open, etc.
In the UK, for example, if a breaker or switch ever mal-operates, this is reported centrally and utilities use their asset systems to identify all the installed devices of the same manufacturer's type. They then apply operational restrictions in the operational systems to warn operators of potential problems. After appropriate inspection and maintenance, the operational restrictions may be removed. |
| cim:OperationalRestriction.activePeriod - Interval during which this restriction is applied. |
| cim:OperationalRestriction.restrictedValue - Restricted (new) value; includes unit of measure and potentially multiplier. |
| cim:OperationalTag - Operational tag placed on a power system resource or asset in the context of switching plan execution or other work in the field. |
| cim:OperationalTag.TagAction - Tag action associated with this tag.Tag associated with this tag action. |
| cim:OperationalUpdatedRating - Lowered capability because of deterioration or inadequacy (sometimes referred to as derating or partial outage) or other kind of operational rating change. |
| cim:OperationalUpdatedRating.changeType - Type of operational updated rating, e.g. a derate, a rerate or a return to normal. |
| cim:OperationPersonRole - Person role in the context of utility operations. |
| cim:OperationsSafetySupervisor - Operator with responsibility that the work in high voltage installation is executed in a safe manner and according to safety regulation. |
| cim:OperatonalLimitTypeScaling - One operational limit type scales values of another operational limit type when under the same operational limit set. This applies to any operational limit assigned to the target operational limit type and without other limit dependency models. |
| cim:OperatonalLimitTypeScaling.scalingPercent - The percentage scaling of the source limit to compute the target limit. Applys to operational limits within an operaitonal limit set when both source and target operational limit types exist. |
| cim:Operator - Control room operator. |
| cim:Operator.Incident - All incidents owned by this operator.Operator who owns this incident. |
| cim:Operator.SwitchingStep - All switching steps this operator is responsible for.Operator responsible for this switching step. |
| cim:OPRSV |
| cim:OPTION |
| cim:or |
| cim:ORFC |
| cim:Organisation - Organisation that might have roles as utility, contractor, supplier, manufacturer, customer, etc. |
| cim:Organisation.electronicAddress - Electronic address. |
| cim:Organisation.OrganisationRole - All roles of this organisation.Organisation having this role. |
| cim:Organisation.phone1 - Phone number. |
| cim:Organisation.phone2 - Additional phone number. |
| cim:Organisation.postalAddress - Postal address, potentially different than 'streetAddress' (e.g., another city). |
| cim:Organisation.streetAddress - Street address. |
| cim:OrganisationCode |
| cim:OrganisationRole - Identifies a way in which an organisation may participate in the utility enterprise (e.g., customer, manufacturer, etc). |
| cim:OrganisationType |
| cim:OrgOrgRole - Roles played between Organisations and other Organisations. This includes role ups for ogranisations, cost centers, profit centers, regulatory reporting, etc.
Note that the parent and child relationship is indicated by the name on each end of the association. |
| cim:OrgOrgRole.clientID - Identifiers of the organisation held by another organisation, such as a government agency (federal, state, province, city, county), financial institution (Dun and Bradstreet), etc. |
| cim:OrgPnodeAllocation - This class models the allocation between asset owners and pricing nodes |
| cim:OrgPnodeAllocation.endEffectiveDate - end effective date |
| cim:OrgPnodeAllocation.maxMWAllocation - Maximum MW for the Source/Sink for the Allocation |
| cim:OrgPnodeAllocation.startEffectiveDate - start effective date |
| cim:OrgResOwnership - This class model the ownership percent and type of ownership between resource and organisation |
| cim:OrgResOwnership.asscType - association type for the association between Organisation and Resource: |
| cim:OrgResOwnership.endEffectiveDate - end effective date |
| cim:OrgResOwnership.masterSchedulingCoordinatorFlag - Flag to indicate that the SC representing the Resource is the Master SC. |
| cim:OrgResOwnership.ownershipPercent - ownership percentage for each resource |
| cim:OrgResOwnership.RegisteredResource - |
| cim:OrgResOwnership.startEffectiveDate - start effective date |
| cim:OrientationKind |
| cim:other |
| cim:OTHER |
| cim:OTHR |
| cim:Out |
| cim:Out_of_memory_exception |
| cim:Outage - Document describing details of an active or planned outage in a part of the electrical network.
A non-planned outage may be created upon:
- a breaker trip,
- a fault indicator status change,
- a meter event indicating customer outage,
- a reception of one or more customer trouble calls, or
- an operator command, reflecting information obtained from the field crew.
Outage restoration may be performed using a switching plan which complements the outage information with detailed switching activities, including the relationship to the crew and work.
A planned outage may be created upon:
- a request for service, maintenance or construction work in the field, or
- an operator-defined outage for what-if/contingency network analysis. |
| cim:Outage.actualPeriod - Actual outage period; end of the period corresponds to the actual restoration time. |
| cim:Outage.cancelledDateTime - Date and time planned outage has been cancelled. |
| cim:Outage.cause - One or more causes of this outage.
Note: At present, this is a free text; could be replaced with a separate associated class in case we have multiple causes (e.g. OutageCauseType, inheriting from IdentifiedObject). |
| cim:Outage.estimatedPeriod - Estimated outage period. The start of the period makes sense in case of a planned outage only, whereas the end of the period corresponds to the estimated restoration time in general. |
| cim:Outage.Incident - Incident reported in trouble call that results in this outage.Outage for this incident. |
| cim:Outage.isPlanned - True if planned, false otherwise (for example due to a breaker trip). |
| cim:Outage.OperationalUpdatedRating - All updated ratings for this planned equipment outage.Planned equipment outage with this updated rating. |
| cim:Outage.OutageSchedule - Outage schedule whose execution will result in this outage.All outages resulting from the execution of this outage schedule. |
| cim:Outage.summary - Summary counts of service points (customers) affected by this outage. |
| cim:Outage.SwitchingPlan - All switching plans that lead to supply restoration due to this outage. Only one will be retained for execution.Outage that will be activated or eliminated when this switching plan gets executed. |
| cim:outageHistory |
| cim:OutageSchedule - Document containing the definition of planned outages of equipment and/or service (delivery) points (sometimes referred to as customers). It is used as specification for producing switching plans. |
| cim:outOfService |
| cim:outputHVgate |
| cim:outputLVgate |
| cim:outputVoltage |
| cim:OverexcitationLimiterDynamics - OOverexcitation limiter function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:OverexcitationLimiterUserDefined - Overexcitation limiter system function block whose dynamic behaviour is described by a user-defined model. |
| cim:OverexcitationLimiterUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:OverexcitationLimiterUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:OverexcLim2 - Different from LimIEEEOEL, LimOEL2 has a fixed pickup threshold and reduces the excitation set-point by mean of non-windup integral regulator.
Irated is the rated machine excitation current (calculated from nameplate conditions: Vnom, Pnom, CosPhinom). |
| cim:OverexcLim2.ifdlim - Limit value of rated field current (IFDLIM). Typical Value = 1.05. |
| cim:OverexcLim2.koi - Gain Over excitation limiter (KOI). Typical Value = 0.1. |
| cim:OverexcLim2.voimax - Maximum error signal (VOIMAX). Typical Value = 0. |
| cim:OverexcLim2.voimin - Minimum error signal (VOIMIN). Typical Value = -9999. |
| cim:OverexcLimIEEE - The over excitation limiter model is intended to represent the significant features of OELs necessary for some large-scale system studies. It is the result of a pragmatic approach to obtain a model that can be widely applied with attainable data from generator owners. An attempt to include all variations in the functionality of OELs and duplicate how they interact with the rest of the excitation systems would likely result in a level of application insufficient for the studies for which they are intended.
Reference: IEEE OEL 421.5-2005 Section 9. |
| cim:OverexcLimIEEE.hyst - OEL pickup/drop-out hysteresis (HYST). Typical Value = 0.03. |
| cim:OverexcLimIEEE.ifdlim - OEL timed field current limit (IFDLIM). Typical Value = 1.05. |
| cim:OverexcLimIEEE.ifdmax - OEL instantaneous field current limit (IFDMAX). Typical Value = 1.5. |
| cim:OverexcLimIEEE.itfpu - OEL timed field current limiter pickup level (ITFPU). Typical Value = 1.05. |
| cim:OverexcLimIEEE.kcd - OEL cooldown gain (KCD). Typical Value = 1. |
| cim:OverexcLimIEEE.kramp - OEL ramped limit rate (KRAMP). Unit = PU/sec. Typical Value = 10. |
| cim:OverexcLimX1 - Field voltage over excitation limiter. |
| cim:OverexcLimX1.efd1 - Low voltage point on the inverse time characteristic (EFD1). Typical Value = 1.1. |
| cim:OverexcLimX1.efd2 - Mid voltage point on the inverse time characteristic (EFD2). Typical Value = 1.2. |
| cim:OverexcLimX1.efd3 - High voltage point on the inverse time characteristic (EFD3). Typical Value = 1.5. |
| cim:OverexcLimX1.efddes - Desired field voltage (EFDDES). Typical Value = 0.9. |
| cim:OverexcLimX1.efdrated - Rated field voltage (EFDRATED). Typical Value = 1.05. |
| cim:OverexcLimX1.kmx - Gain (KMX). Typical Value = 0.01. |
| cim:OverexcLimX1.t1 - Time to trip the exciter at the low voltage point on the inverse time characteristic (TIME1). Typical Value = 120. |
| cim:OverexcLimX1.t2 - Time to trip the exciter at the mid voltage point on the inverse time characteristic (TIME2). Typical Value = 40. |
| cim:OverexcLimX1.t3 - Time to trip the exciter at the high voltage point on the inverse time characteristic (TIME3). Typical Value = 15. |
| cim:OverexcLimX1.vlow - Low voltage limit (VLOW) (>0). |
| cim:OverexcLimX2 - Field Voltage or Current overexcitation limiter designed to protect the generator field of an AC machine with automatic excitation control from overheating due to prolonged overexcitation. |
| cim:OverexcLimX2.efd1 - Low voltage or current point on the inverse time characteristic (EFD1). Typical Value = 1.1. |
| cim:OverexcLimX2.efd2 - Mid voltage or current point on the inverse time characteristic (EFD2). Typical Value = 1.2. |
| cim:OverexcLimX2.efd3 - High voltage or current point on the inverse time characteristic (EFD3). Typical Value = 1.5. |
| cim:OverexcLimX2.efddes - Desired field voltage if m=F or field current if m=T (EFDDES). Typical Value = 1. |
| cim:OverexcLimX2.efdrated - Rated field voltage if m=F or field current if m=T (EFDRATED). Typical Value = 1.05. |
| cim:OverexcLimX2.kmx - Gain (KMX). Typical Value = 0.002. |
| cim:OverexcLimX2.m - (m).
true = IFD limiting
false = EFD limiting. |
| cim:OverexcLimX2.t1 - Time to trip the exciter at the low voltage or current point on the inverse time characteristic (TIME1). Typical Value = 120. |
| cim:OverexcLimX2.t2 - Time to trip the exciter at the mid voltage or current point on the inverse time characteristic (TIME2). Typical Value = 40. |
| cim:OverexcLimX2.t3 - Time to trip the exciter at the high voltage or current point on the inverse time characteristic (TIME3). Typical Value = 15. |
| cim:OverexcLimX2.vlow - Low voltage limit (VLOW) (>0). |
| cim:overhead |
| cim:OverheadCost - Overhead cost applied to work order. |
| cim:OverheadCost.code - Overhead code. |
| cim:OverheadCost.cost - The overhead cost to be applied. |
| cim:OverheadCost.OldWorkTask - |
| cim:OverheadCost.status |
| cim:OverheadWireInfo - Overhead wire data. |
| cim:OVGN |
| cim:OWNER |
| cim:Ownership - Ownership of e.g. asset. |
| cim:Ownership.share - Share of this ownership. |
| cim:ozoneResistantRubber |
| cim:p |
| cim:P |
| cim:Pa |
| cim:PAB |
| cim:PackageDependenciesCIMVersion - The version of dependencies description among top level subpackages of the combined CIM model. This is not the same as the combined packages version. |
| cim:PackageDependenciesCIMVersion.date - Date of last change to the main package dependencies in format YYYY-MM-DD. This is updated when the version attribute is updated. |
| cim:PackageDependenciesCIMVersion.version - The version of the main subpackages of the combined CIM model. The format is simply an integer. The version (and date) initial values should be updated any time the dependencies in the model change and require an actual change to the diagrams within this package. |
| cim:pad |
| cim:padmountDeadFront |
| cim:padmounted |
| cim:padmountFeedThrough |
| cim:padmountLiveFront |
| cim:padmountLoopThrough |
| cim:pager |
| cim:PanDemandResponse - PAN control used to issue action/command to PAN devices during a demand response/load control event. |
| cim:PanDemandResponse.appliance - Appliance being controlled. |
| cim:PanDemandResponse.avgLoadAdjustment - Used to define a maximum energy usage limit as a percentage of the client implementations specific average energy usage. The load adjustment percentage is added to 100% creating a percentage limit applied to the client implementations specific average energy usage. A -10% load adjustment percentage will establish an energy usage limit equal to 90% of the client implementations specific average energy usage. Each load adjustment percentage is referenced to the client implementations specific average energy usage. There are no cumulative effects.
The range of this field is -100% to +100% with a resolution of 1. A -100% value equals a total load shed. A +100% value will limit the energy usage to the client implementations specific average energy usage. |
| cim:PanDemandResponse.cancelControlMode - Encoding of cancel control. |
| cim:PanDemandResponse.cancelDateTime - Timestamp when a canceling of the event is scheduled to start. |
| cim:PanDemandResponse.cancelNow - If true, a canceling of the event should start immediately. |
| cim:PanDemandResponse.coolingOffset - Requested offset to apply to the normal cooling setpoint at the time of the start of the event. It represents a temperature change that will be applied to the associated cooling set point. The temperature offsets will be calculated per the local temperature in the thermostat. The calculated temperature will be interpreted as the number of degrees to be added to the cooling set point. Sequential demand response events are not cumulative. The offset shall be applied to the normal setpoint. |
| cim:PanDemandResponse.coolingSetpoint - Requested cooling set point. Temperature set point is typically defined and calculated based on local temperature. |
| cim:PanDemandResponse.criticalityLevel - Level of criticality for the action of this control. The action taken by load control devices for an event can be solely based on this value, or in combination with other load control event fields supported by the device. |
| cim:PanDemandResponse.dutyCycle - Maximum "on" state duty cycle as a percentage of time. For example, if the value is 80, the device would be in an "on" state for 80% of the time for the duration of the action. |
| cim:PanDemandResponse.enrollmentGroup - Provides a mechanism to direct load control actions to groups of PAN devices. It can be used in conjunction with the PAN device types. |
| cim:PanDemandResponse.heatingOffset - Requested offset to apply to the normal heating setpoint at the time of the start of the event. It represents a temperature change that will be applied to the associated heating set point. The temperature offsets will be calculated per the local temperature in the thermostat. The calculated temperature will be interpreted as the number of degrees to be subtracted from the heating set point. Sequential demand response events are not cumulative. The offset shall be applied to the normal setpoint. |
| cim:PanDemandResponse.heatingSetpoint - Requested heating set point. Temperature set point is typically defined and calculated based on local temperature. |
| cim:PanDisplay - PAN action/command used to issue the displaying of text messages on PAN devices. |
| cim:PanDisplay.confirmationRequired - If true, the requesting entity (e.g. retail electric provider) requires confirmation of the successful display of the text message. |
| cim:PanDisplay.priority - Priority associated with the text message to be displayed. |
| cim:PanDisplay.textMessage - Text to be displayed by a PAN device. |
| cim:PanDisplay.transmissionMode - Transmission mode to be used for this PAN display control. |
| cim:PanPricing - PAN action/command used to issue pricing information to a PAN device. |
| cim:PanPricing.providerID - Unique identifier for the commodity provider. |
| cim:PanPricingDetail - Detail for a single price command/action. |
| cim:PanPricingDetail.alternateCostDelivered - Alternative measure of the cost of the energy consumed. An example might be the emissions of CO2 for each kWh of electricity consumed providing a measure of the environmental cost. |
| cim:PanPricingDetail.alternateCostUnit - Cost unit for the alternate cost delivered field. One example is kg of CO2 per unit of measure. |
| cim:PanPricingDetail.currentTimeDate - Current time as determined by a PAN device. |
| cim:PanPricingDetail.generationPrice - Price of the commodity measured in base unit of currency per 'unitOfMeasure'. |
| cim:PanPricingDetail.generationPriceRatio - Ratio of 'generationPrice' to the "normal" price chosen by the commodity provider. |
| cim:PanPricingDetail.PanPricing - PAN pricing command/action issuing this price detail.All pricing details issued by this PAN pricing command/action. |
| cim:PanPricingDetail.price - Price of the commodity measured in base unit of currency per 'unitOfMeasure'. |
| cim:PanPricingDetail.priceRatio - Ratio of 'price' to the "normal" price chosen by the commodity provider. |
| cim:PanPricingDetail.priceTier - Pricing tier as chosen by the commodity provider. |
| cim:PanPricingDetail.priceTierCount - Maximum number of price tiers available. |
| cim:PanPricingDetail.priceTierLabel - Label for price tier. |
| cim:PanPricingDetail.rateLabel - Label of the current billing rate specified by commodity provider. |
| cim:PanPricingDetail.registerTier - Register tier accumulating usage information. |
| cim:PanPricingDetail.unitOfMeasure - Defines commodity as well as its base unit of measure. |
| cim:paper |
| cim:paperoil |
| cim:PaPers |
| cim:PARENT_CHARGE_GROUP |
| cim:part8CallBack |
| cim:PARTIAL |
| cim:Participation - Participation level of a given Pnode in a given AggregatePnode. |
| cim:Participation.factor - Used to calculate "participation" of Pnode in an AggregatePnode. For example, for regulation region this factor is 1 and total sum of all factors for a specific regulation region does not have to be 1. For pricing zone the total sum of all factors has to be 1. |
| cim:ParticipationCategoryMPM |
| cim:PartyConnectedToTheGrid |
| cim:Pas |
| cim:PassIndicatorType |
| cim:PassThroughBill - Pass Through Bill is used for:
1)Two sided charge transactions with or without ISO involvement (hence the ?pass thru?)
2) Specific direct charges or payments that are calculated outside or provided directly to settlements
3) Specific charge bill determinants that are externally supplied and used in charge calculations |
| cim:PassThroughBill.adjustedAmount |
| cim:PassThroughBill.amount - The charge amount of the product/service. |
| cim:PassThroughBill.billedTo - The company to which the PTB transaction is billed. |
| cim:PassThroughBill.billEnd - Bill period end date |
| cim:PassThroughBill.billRunType - The settlement run type, for example: prelim, final, and rerun. |
| cim:PassThroughBill.billStart - Bill period start date |
| cim:PassThroughBill.ChargeProfile - |
| cim:PassThroughBill.effectiveDate - The effective date of the transaction |
| cim:PassThroughBill.isDisputed - Disputed transaction indicator |
| cim:PassThroughBill.isProfiled - A flag indicating whether there is a profile data associated with the PTB. |
| cim:PassThroughBill.paidTo - The company to which the PTB transaction is paid. |
| cim:PassThroughBill.previousEnd - The previous bill period end date |
| cim:PassThroughBill.previousStart - The previous bill period start date |
| cim:PassThroughBill.price - The price of product/service. |
| cim:PassThroughBill.productCode - The product identifier for determining the charge type of the transaction. |
| cim:PassThroughBill.providedBy - The company by which the PTB transaction service is provided. |
| cim:PassThroughBill.quantity - The product quantity. |
| cim:PassThroughBill.serviceEnd - The end date of service provided, if periodic. |
| cim:PassThroughBill.serviceStart - The start date of service provided, if periodic. |
| cim:PassThroughBill.soldTo - The company to which the PTB transaction is sold. |
| cim:PassThroughBill.taxAmount - The tax on services taken. |
| cim:PassThroughBill.timeZone - The time zone code |
| cim:PassThroughBill.tradeDate - The trade date |
| cim:PassThroughBill.transactionDate - The date the transaction occurs. |
| cim:PassThroughBill.transactionType - The type of transaction. For example, charge customer, bill customer, matching AR/AP, or bill determinant |
| cim:PAY_TO |
| cim:PE |
| cim:pelton |
| cim:PEN |
| cim:pendingAdd |
| cim:PendingCalculation - When present, a scalar conversion that needs to be applied to every IntervalReading.value contained in IntervalBlock. This conversion results in a new associated ReadingType, reflecting the true dimensions of IntervalReading values after the conversion. |
| cim:PendingCalculation.IntervalBlock - All blocks of interval reading values to which this pending conversion applies.Pending calculation to apply to interval reading values contained by this block (after which the resulting reading type is different than the original because it reflects the conversion result). |
| cim:PendingCalculation.multiplyBeforeAdd - Whether scalars should be applied before adding the 'offset'. |
| cim:PendingCalculation.offset - (if applicable) Offset to be added as well as multiplication using scalars. |
| cim:PendingCalculation.scalarDenominator - (if scalar is rational number) When 'IntervalReading.value' is multiplied by 'scalarNumerator' and divided by this value, it causes a unit of measure conversion to occur, resulting in the 'ReadingType.unit'. |
| cim:PendingCalculation.scalarFloat - (if scalar is floating number) When multiplied with 'IntervalReading.value', it causes a unit of measure conversion to occur, according to the 'ReadingType.unit'. |
| cim:PendingCalculation.scalarNumerator - (if scalar is integer or rational number) When the scalar is a simple integer, and this attribute is presented alone and multiplied with 'IntervalReading.value', it causes a unit of measure conversion to occur, resulting in the 'ReadingType.unit'. It is never used in conjunction with 'scalarFloat', only with 'scalarDenominator'. |
| cim:pendingRemove |
| cim:pendingReplace |
| cim:PenstockLossCurve - Relationship between penstock head loss (in meters) and total discharge through the penstock (in cubic meters per second). One or more turbines may be connected to the same penstock. |
| cim:penta |
| cim:PerCent - Percentage on a defined base. For example, specify as 100 to indicate at the defined base. |
| cim:PerCent.multiplier |
| cim:PerCent.unit |
| cim:PerCent.value - Normally 0 - 100 on a defined base |
| cim:Period - An identification of a time interval that may have a given resolution. |
| cim:Period.MarketDocument - |
| cim:Period.Point - |
| cim:Period.resolution - The number of units of time that compose an individual step within a period. |
| cim:Period.timeInterval - The start and end date and time for a given interval. |
| cim:Period.TimeSeries - |
| cim:PerLengthDCLineParameter |
| cim:PerLengthDCLineParameter.capacitance - Capacitance per unit of length of the DC line segment; significant for cables only. |
| cim:PerLengthDCLineParameter.inductance - Inductance per unit of length of the DC line segment. |
| cim:PerLengthDCLineParameter.resistance - Resistance per length of the DC line segment. |
| cim:PerLengthImpedance - Common type for per-length impedance electrical catalogues. |
| cim:PerLengthLineParameter - Common type for per-length electrical catalogues describing line parameters. |
| cim:PerLengthLineParameter.WireInfo - All wire datasheets used to calculate this per-length parameter.All per-length parameters calculated from this wire datasheet. |
| cim:PerLengthLineParameter.WireSpacing - Wire spacing datasheet used to calculate this per-length parameter.All per-length parameters calculated from this wire spacing datasheet. |
| cim:PerLengthPhaseImpedance - Impedance and admittance parameters per unit length for n-wire unbalanced lines, in matrix form. |
| cim:PerLengthPhaseImpedance.conductorCount - Number of phase, neutral, and other wires retained. Constrains the number of matrix elements and the phase codes that can be used with this matrix. |
| cim:PerLengthSequenceImpedance - Sequence impedance and admittance parameters per unit length, for transposed lines of 1, 2, or 3 phases. For 1-phase lines, define x=x0=xself. For 2-phase lines, define x=xs-xm and x0=xs+xm. |
| cim:PerLengthSequenceImpedance.b0ch - Zero sequence shunt (charging) susceptance, per unit of length. |
| cim:PerLengthSequenceImpedance.bch - Positive sequence shunt (charging) susceptance, per unit of length. |
| cim:PerLengthSequenceImpedance.g0ch - Zero sequence shunt (charging) conductance, per unit of length. |
| cim:PerLengthSequenceImpedance.gch - Positive sequence shunt (charging) conductance, per unit of length. |
| cim:PerLengthSequenceImpedance.r - Positive sequence series resistance, per unit of length. |
| cim:PerLengthSequenceImpedance.r0 - Zero sequence series resistance, per unit of length. |
| cim:PerLengthSequenceImpedance.x - Positive sequence series reactance, per unit of length. |
| cim:PerLengthSequenceImpedance.x0 - Zero sequence series reactance, per unit of length. |
| cim:Person - General purpose information for name and other information to contact people. |
| cim:Person.electronicAddress - Electronic address. |
| cim:Person.firstName - Person's first name. |
| cim:Person.landlinePhone - Landline phone number. |
| cim:Person.lastName - Person's last (family, sir) name. |
| cim:Person.mName - Middle name(s) or initial(s). |
| cim:Person.mobilePhone - Mobile phone number. |
| cim:Person.prefix - A prefix or title for the person's name, such as Miss, Mister, Doctor, etc. |
| cim:Person.specialNeed - Special service needs for the person (contact) are described; examples include life support, etc. |
| cim:Person.suffix - A suffix for the person's name, such as II, III, etc. |
| cim:PersonOrganisationRole - Role an organisation plays with respect to persons. |
| cim:PersonOrganisationRole.clientID - Identifiers of the person held by an organisation, such as a government agency (federal, state, province, city, county), financial institutions, etc. |
| cim:PersonOrganisationRole.OldPerson - |
| cim:PersonPropertyRole - The role of a person relative to a given piece of property. Examples of roles include: owner, renter, contractor, etc. |
| cim:PersonPropertyRole.LandProperty - |
| cim:PersonPropertyRole.OldPerson - |
| cim:PersonRole |
| cim:PersonRole.Person - Person having this role.All roles of this person. |
| cim:PetersenCoil - A tunable impedance device normally used to offset line charging during single line faults in an ungrounded section of network. |
| cim:PetersenCoil.mode - The mode of operation of the Petersen coil. |
| cim:PetersenCoil.nominalU - The nominal voltage for which the coil is designed. |
| cim:PetersenCoil.offsetCurrent - The offset current that the Petersen coil controller is operating from the resonant point. This is normally a fixed amount for which the controller is configured and could be positive or negative. Typically 0 to 60 Amperes depending on voltage and resonance conditions. |
| cim:PetersenCoil.positionCurrent - The control current used to control the Petersen coil also known as the position current. Typically in the range of 20-200mA. |
| cim:PetersenCoil.xGroundMax - The maximum reactance. |
| cim:PetersenCoil.xGroundMin - The minimum reactance. |
| cim:PetersenCoil.xGroundNominal - The nominal reactance. This is the operating point (normally over compensation) that is defined based on the resonance point in the healthy network condition. The impedance is calculated based on nominal voltage divided by position current. |
| cim:PetersenCoilModeKind |
| cim:petrolatum |
| cim:PF |
| cim:pfc |
| cim:PFVArControllerType1Dynamics - Power Factor or VAr controller Type I function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:PFVArControllerType1Dynamics.VoltageAdjusterDynamics - Voltage adjuster model associated with this Power Factor or VA controller Type I model.Power Factor or VAr controller Type I model with which this voltage adjuster is associated. |
| cim:PFVArControllerType1UserDefined - Power Factor or VAr controller Type I function block whose dynamic behaviour is described by a user-defined model. |
| cim:PFVArControllerType1UserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:PFVArControllerType1UserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:PFVArControllerType2Dynamics - Power Factor or VAr controller Type II function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:PFVArControllerType2UserDefined - Power Factor or VAr controller Type II function block whose dynamic behaviour is described by a user-defined model. |
| cim:PFVArControllerType2UserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:PFVArControllerType2UserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:PFVArType1IEEEPFController - The class represents IEEE PF Controller Type 1 which operates by moving the voltage reference directly.
Reference: IEEE Standard 421.5-2005 Section 11.2. |
| cim:PFVArType1IEEEPFController.ovex - Overexcitation Flag (OVEX)
true = overexcited
false = underexcited. |
| cim:PFVArType1IEEEPFController.tpfc - PF controller time delay (TPFC). Typical Value = 5. |
| cim:PFVArType1IEEEPFController.vitmin - Minimum machine terminal current needed to enable pf/var controller (VITMIN). |
| cim:PFVArType1IEEEPFController.vpf - Synchronous machine power factor (VPF). |
| cim:PFVArType1IEEEPFController.vpfcbw - PF controller dead band (VPFC_BW). Typical Value = 0.05. |
| cim:PFVArType1IEEEPFController.vpfref - PF controller reference (VPFREF). |
| cim:PFVArType1IEEEPFController.vvtmax - Maximum machine terminal voltage needed for pf/var controller to be enabled (VVTMAX). |
| cim:PFVArType1IEEEPFController.vvtmin - Minimum machine terminal voltage needed to enable pf/var controller (VVTMIN). |
| cim:PFVArType1IEEEVArController - The class represents IEEE VAR Controller Type 1 which operates by moving the voltage reference directly.
Reference: IEEE Standard 421.5-2005 Section 11.3. |
| cim:PFVArType1IEEEVArController.tvarc - Var controller time delay (TVARC). Typical Value = 5. |
| cim:PFVArType1IEEEVArController.vvar - Synchronous machine power factor (VVAR). |
| cim:PFVArType1IEEEVArController.vvarcbw - Var controller dead band (VVARC_BW). Typical Value = 0.02. |
| cim:PFVArType1IEEEVArController.vvarref - Var controller reference (VVARREF). |
| cim:PFVArType1IEEEVArController.vvtmax - Maximum machine terminal voltage needed for pf/var controller to be enabled (VVTMAX). |
| cim:PFVArType1IEEEVArController.vvtmin - Minimum machine terminal voltage needed to enable pf/var controller (VVTMIN). |
| cim:PFVArType2Common1 - Power factor / Reactive power regulator. This model represents the power factor or reactive power controller such as the Basler SCP-250. The controller measures power factor or reactive power (PU on generator rated power) and compares it with the operator's set point. |
| cim:PFVArType2Common1.j - Selector (J).
true = control mode for reactive power
false = control mode for power factor. |
| cim:PFVArType2Common1.ki - Reset gain (Ki). |
| cim:PFVArType2Common1.kp - Proportional gain (Kp). |
| cim:PFVArType2Common1.max - Output limit (max). |
| cim:PFVArType2Common1.ref - Reference value of reactive power or power factor (Ref).
The reference value is initialised by this model. This initialisation may override the value exchanged by this attribute to represent a plant operator's change of the reference setting. |
| cim:PFVArType2IEEEPFController - The class represents IEEE PF Controller Type 2 which is a summing point type controller and makes up the outside loop of a two-loop system. This controller is implemented as a slow PI type controller. The voltage regulator forms the inner loop and is implemented as a fast controller.
Reference: IEEE Standard 421.5-2005 Section 11.4. |
| cim:PFVArType2IEEEPFController.exlon - Overexcitation or under excitation flag (EXLON)
true = 1 (not in the overexcitation or underexcitation state, integral action is active)
false = 0 (in the overexcitation or underexcitation state, so integral action is disabled to allow the limiter to play its role). |
| cim:PFVArType2IEEEPFController.ki - Integral gain of the pf controller (KI). Typical Value = 1. |
| cim:PFVArType2IEEEPFController.kp - Proportional gain of the pf controller (KP). Typical Value = 1. |
| cim:PFVArType2IEEEPFController.pfref - Power factor reference (PFREF). |
| cim:PFVArType2IEEEPFController.vclmt - Maximum output of the pf controller (VCLMT). Typical Value = 0.1. |
| cim:PFVArType2IEEEPFController.vref - Voltage regulator reference (VREF). |
| cim:PFVArType2IEEEPFController.vs - Generator sensing voltage (VS). |
| cim:PFVArType2IEEEVArController - The class represents IEEE VAR Controller Type 2 which is a summing point type controller. It makes up the outside loop of a two-loop system. This controller is implemented as a slow PI type controller, and the voltage regulator forms the inner loop and is implemented as a fast controller.
Reference: IEEE Standard 421.5-2005 Section 11.5. |
| cim:PFVArType2IEEEVArController.exlon - Overexcitation or under excitation flag (EXLON)
true = 1 (not in the overexcitation or underexcitation state, integral action is active)
false = 0 (in the overexcitation or underexcitation state, so integral action is disabled to allow the limiter to play its role). |
| cim:PFVArType2IEEEVArController.ki - Integral gain of the pf controller (KI). |
| cim:PFVArType2IEEEVArController.kp - Proportional gain of the pf controller (KP). |
| cim:PFVArType2IEEEVArController.qref - Reactive power reference (QREF). |
| cim:PFVArType2IEEEVArController.vclmt - Maximum output of the pf controller (VCLMT). |
| cim:PFVArType2IEEEVArController.vref - Voltage regulator reference (VREF). |
| cim:PFVArType2IEEEVArController.vs - Generator sensing voltage (VS). |
| cim:PGK |
| cim:PhaseCode |
| cim:PhaseConnectedFaultKind |
| cim:PhaseImpedanceData - Triplet of resistance, reactance, and susceptance matrix element values. |
| cim:PhaseImpedanceData.b - Susceptance matrix element value, per length of unit. |
| cim:PhaseImpedanceData.PerLengthPhaseImpedance - Conductor phase impedance to which this data belongs.All data that belong to this conductor phase impedance. |
| cim:PhaseImpedanceData.r - Resistance matrix element value, per length of unit. |
| cim:PhaseImpedanceData.sequenceNumber - Column-wise element index, assuming a symmetrical matrix. Ranges from 1 to N + N*(N-1)/2, where N is the number of phases possibly including neutral. For instance, with N=4, column 1 = [1 2 3 4 ], column 2 = [- 5 6 7 ], column 3 = [- - 8 9], column 4 = [- - - 10]. |
| cim:PhaseImpedanceData.x - Reactance matrix element value, per length of unit. |
| cim:PhaseShuntConnectionKind |
| cim:PhaseTapChanger - A transformer phase shifting tap model that controls the phase angle difference across the power transformer and potentially the active power flow through the power transformer. This phase tap model may also impact the voltage magnitude. |
| cim:PhaseTapChanger.TransformerEnd - Transformer end to which this phase tap changer belongs.Phase tap changer associated with this transformer end. |
| cim:PhaseTapChangerAsymmetrical - Describes the tap model for an asymmetrical phase shifting transformer in which the difference voltage vector adds to the primary side voltage. The angle between the primary side voltage and the difference voltage is named the winding connection angle. The phase shift depends on both the difference voltage magnitude and the winding connection angle. |
| cim:PhaseTapChangerAsymmetrical.windingConnectionAngle - The phase angle between the in-phase winding and the out-of -phase winding used for creating phase shift. The out-of-phase winding produces what is known as the difference voltage. Setting this angle to 90 degrees is not the same as a symmemtrical transformer. |
| cim:PhaseTapChangerLinear - Describes a tap changer with a linear relation between the tap step and the phase angle difference across the transformer. This is a mathematical model that is an approximation of a real phase tap changer.
The phase angle is computed as stepPhaseShitfIncrement times the tap position.
The secondary side voltage magnitude is the same as at the primary side. |
| cim:PhaseTapChangerLinear.stepPhaseShiftIncrement - Phase shift per step position. A positive value indicates a positive phase shift from the winding where the tap is located to the other winding (for a two-winding transformer).
The actual phase shift increment might be more accurately computed from the symmetrical or asymmetrical models or a tap step table lookup if those are available. |
| cim:PhaseTapChangerLinear.xMax - The reactance depend on the tap position according to a "u" shaped curve. The maximum reactance (xMax) appear at the low and high tap positions. |
| cim:PhaseTapChangerLinear.xMin - The reactance depend on the tap position according to a "u" shaped curve. The minimum reactance (xMin) appear at the mid tap position. |
| cim:PhaseTapChangerNonLinear - The non-linear phase tap changer describes the non-linear behavior of a phase tap changer. This is a base class for the symmetrical and asymmetrical phase tap changer models. The details of these models can be found in the IEC 61970-301 document. |
| cim:PhaseTapChangerNonLinear.voltageStepIncrement - The voltage step increment on the out of phase winding specified in percent of nominal voltage of the transformer end. |
| cim:PhaseTapChangerNonLinear.xMax - The reactance depend on the tap position according to a "u" shaped curve. The maximum reactance (xMax) appear at the low and high tap positions. |
| cim:PhaseTapChangerNonLinear.xMin - The reactance depend on the tap position according to a "u" shaped curve. The minimum reactance (xMin) appear at the mid tap position. |
| cim:PhaseTapChangerSymmetrical - Describes a symmetrical phase shifting transformer tap model in which the secondary side voltage magnitude is the same as at the primary side. The difference voltage magnitude is the base in an equal-sided triangle where the sides corresponds to the primary and secondary voltages. The phase angle difference corresponds to the top angle and can be expressed as twice the arctangent of half the total difference voltage. |
| cim:PhaseTapChangerTable - Describes a tabular curve for how the phase angle difference and impedance varies with the tap step. |
| cim:PhaseTapChangerTable.PhaseTapChangerTablePoint - The points of this table.The table of this point. |
| cim:PhaseTapChangerTablePoint - Describes each tap step in the phase tap changer tabular curve. |
| cim:PhaseTapChangerTablePoint.angle - The angle difference in degrees. |
| cim:PhaseTapChangerTabular |
| cim:PhaseTapChangerTabular.PhaseTapChangerTable - The phase tap changer table for this phase tap changer.The phase tap changers to which this phase tap table applies. |
| cim:phasorPowerFactor |
| cim:phasorReactivePower |
| cim:phone |
| cim:PHOT |
| cim:PHP |
| cim:PHY |
| cim:physicallyDisconnected |
| cim:physicalTamper |
| cim:PIAL |
| cim:PIL |
| cim:PIML |
| cim:PinBranchGroup - Value associated with branch group is used as compare. |
| cim:PinBranchGroup.kind - The compare operation done on the branch group. |
| cim:PinBranchGroupKind |
| cim:PinEquipment - Value associated with Equipment is used as compare. |
| cim:PinEquipment.kind - The compare operation done on the equipment. |
| cim:PinEquipmentKind |
| cim:PinGate - An output from one gate represent an input to another gate. |
| cim:PinGate.Gate - |
| cim:PinMeasurement - Gate input pin that is associated with a Measurement or a calculation of Measurement. |
| cim:PinMeasurement.MeasurementCalculator - |
| cim:PinTerminal - Value associated with Terminal is used as compare. |
| cim:PinTerminal.kind - The compare operation done on the terminal. |
| cim:PinTerminalKind |
| cim:PIRP |
| cim:PJM |
| cim:PKR |
| cim:place |
| cim:planned |
| cim:Planned |
| cim:PlannedMarket - Represent a planned market. For example an planned DA/HA/RT market. |
| cim:PlannedMarket.marketEndTime - Market end time. |
| cim:PlannedMarket.MarketPlan - a market plan has a number of markets (DA, HA, RT)a market plan has a number of markets (DA, HA, RT) |
| cim:PlannedMarket.marketStartTime - Market start time. |
| cim:PlannedMarket.marketType - Market type. |
| cim:PlannedMarketEvent - This class represents planned events. Used to model the various planned events in a market (closing time, clearing time, etc). |
| cim:PlannedMarketEvent.eventType - Planned event type. |
| cim:PlannedMarketEvent.MarketActualEvent - All actual events that execute this planned event.Planned event executed by this actual event. |
| cim:PlannedMarketEvent.PlannedMarket - A planned market shall have a set of planned eventsA planned market shall have a set of planned events |
| cim:PlannedMarketEvent.plannedTime - This is relative time so that this attribute can be used by more than one planned market. For example the bid submission is 10am everyday. |
| cim:planningAuthority |
| cim:Plant - A Plant is a collection of equipment for purposes of generation. |
| cim:plantControl |
| cim:plc |
| cim:PLN |
| cim:Pnode - A pricing node is directly associated with a connectivity node. It is a pricing location for which market participants submit their bids, offers, buy/sell CRRs, and settle. |
| cim:Pnode.AggregateNode - |
| cim:Pnode.endEffectiveDate - End effective date of the period in which the price node definition is valid. |
| cim:Pnode.FTR - |
| cim:Pnode.isPublic - If true, this Pnode is public (prices are published for DA/RT and FTR markets), otherwise it is private (location is not usable by market for bidding/FTRs/transactions). |
| cim:Pnode.OrgPnodeAllocation - |
| cim:Pnode.RTO - |
| cim:Pnode.startEffectiveDate - Start effective date of the period in which the price node definition is valid. |
| cim:PnodeClearing - Pricing node clearing results posted for a given settlement period. |
| cim:PnodeDistributionFactor - This class allows SC to input different distribution factors for pricing node |
| cim:PnodeDistributionFactor.AggregatedPnode - |
| cim:PnodeDistributionFactor.BidDistributionFactor - |
| cim:PnodeDistributionFactor.factor - Used to calculate "participation" of Pnode in an AggregatePnode. For example, for regulation region this factor is 1 and total sum of all factors for a specific regulation region does not have to be 1. For pricing zone the total sum of all factors has to be 1. |
| cim:PnodeDistributionFactor.IndividualPnode - |
| cim:PnodeDistributionFactor.offPeak - Indication that this distribution factor is to apply during off peak. |
| cim:PnodeDistributionFactor.onPeak - Indication that this factor is to apply during Peak periods. |
| cim:PnodeDistributionFactor.podLossFactor - Point of delivery loss factor |
| cim:PnodeResults - Provides the total price, the cost component, the loss component, and the congestion component for Pnodes for the forward and real time markets. There are several prices produced based on the run type (MPM, RUC, Pricing, or Scheduling/Dispatch). |
| cim:PnodeResults.congestLMP - Congestion component of Location Marginal Price (LMP) in monetary units per MW. |
| cim:PnodeResults.costLMP - Cost component of Locational Marginal Pricing (LMP) in monetary units per MW. |
| cim:PnodeResults.lossLMP - Loss component of Location Marginal Price (LMP) in monetary units per MW. |
| cim:PnodeResults.marginalClearingPrice - Locational Marginal Price (LMP) ($/MWh) |
| cim:PnodeResults.Pnode - |
| cim:PnodeResults.PnodeClearing - |
| cim:PnodeResults.scheduledMW - total MW schedule at the pnode |
| cim:PnodeResults.updateTimeStamp |
| cim:PnodeResults.updateType |
| cim:PnodeResults.updateUser |
| cim:POAL |
| cim:POD |
| cim:Point - An identification of a set of values beeing adressed within a specific interval of time. |
| cim:Point.position - A sequential value representing the relative position within a given time interval. |
| cim:Point.Price - |
| cim:Point.quality - The quality of the information being provided. This quality may be estimated, not available, as provided, etc. |
| cim:Point.quantity - Principal quantity identified for a point. |
| cim:Point.Quantity - |
| cim:Point.Reason - |
| cim:Point.secondaryQuantity - Secondary quantity identified for a point. |
| cim:PointOfSale - Logical point where transactions take place with operational interaction between cashier and the payment system; in certain cases the point of sale interacts directly with the end customer, in which case the cashier might not be a real person: for example a self-service kiosk or over the internet. |
| cim:PointOfSale.CashierShift - All shifts this point of sale operated in.Point of sale that is in operation during this shift. |
| cim:PointOfSale.location - Local description for where this point of sale is physically located. |
| cim:POL |
| cim:Pole - Pole asset. |
| cim:Pole.baseKind - Kind of base for this pole. |
| cim:Pole.breastBlock - True if a block of material has been attached to base of pole in ground for stability. This technique is used primarily when anchors can not be used. |
| cim:Pole.classification - Pole class: 1, 2, 3, 4, 5, 6, 7, H1, H2, Other, Unknown. |
| cim:Pole.construction - The framing structure mounted on the pole. |
| cim:Pole.diameter - Diameter of the pole. |
| cim:Pole.jpaReference - Joint pole agreement reference number. |
| cim:Pole.length - Length of the pole (inclusive of any section of the pole that may be underground post-installation). |
| cim:Pole.preservativeKind - Kind of preservative for this pole. |
| cim:Pole.speciesType - Pole species. Aluminum, Aluminum Davit, Concrete, Fiberglass, Galvanized Davit, Galvanized, Steel Davit Primed, Steel Davit, Steel Standard Primed, Steel, Truncated, Wood-Treated, Wood-Hard, Wood-Salt Treated, Wood-Soft, Wood, Other, Unknown. |
| cim:Pole.treatedDateTime - Date and time pole was last treated with preservative. |
| cim:Pole.treatmentKind - Kind of treatment for this pole. |
| cim:PoleBaseKind |
| cim:PolePreservativeKind |
| cim:PoleTreatmentKind |
| cim:polyethylene |
| cim:PositionPoint - Set of spatial coordinates that determine a point, defined in the coordinate system specified in 'Location.CoordinateSystem'. Use a single position point instance to desribe a point-oriented location. Use a sequence of position points to describe a line-oriented object (physical location of non-point oriented objects like cables or lines), or area of an object (like a substation or a geographical zone - in this case, have first and last position point with the same values). |
| cim:PositionPoint.groupNumber - Zero-relative sequence number of this group within a series of points; used when there is a need to express disjoint groups of points that are considered to be part of a single location. |
| cim:PositionPoint.Location - Location described by this position point.Sequence of position points describing this location, expressed in coordinate system 'Location.CoordinateSystem'. |
| cim:PositionPoint.sequenceNumber - Zero-relative sequence number of this point within a series of points. |
| cim:PositionPoint.xPosition - X axis position. |
| cim:PositionPoint.yPosition - Y axis position. |
| cim:PositionPoint.zPosition - (if applicable) Z axis position. |
| cim:positive |
| cim:positiveSequence |
| cim:postalOrder |
| cim:PostLineSensor - A sensor used mainly in overhead distribution networks as the source of both current and voltage measurements. |
| cim:potableWater |
| cim:PotentialTransformer - Instrument transformer (also known as Voltage Transformer) used to measure electrical qualities of the circuit that is being protected and/or monitored. Typically used as voltage transducer for the purpose of metering, protection, or sometimes auxiliary substation supply. A typical secondary voltage rating would be 120V. |
| cim:PotentialTransformer.accuracyClass - PT accuracy classification. |
| cim:PotentialTransformer.nominalRatio - Nominal ratio between the primary and secondary voltage. |
| cim:PotentialTransformer.ptClass - Potential transformer (PT) classification covering burden. |
| cim:PotentialTransformer.type - Potential transformer construction type. |
| cim:PotentialTransformerInfo - Properties of potential transformer asset. |
| cim:PotentialTransformerInfo.accuracyClass |
| cim:PotentialTransformerInfo.nominalRatio |
| cim:PotentialTransformerInfo.primaryRatio - Ratio for the primary winding tap changer. |
| cim:PotentialTransformerInfo.ptClass |
| cim:PotentialTransformerInfo.ratedVoltage - Rated voltage on the primary side. |
| cim:PotentialTransformerInfo.secondaryRatio - Ratio for the secondary winding tap changer. |
| cim:PotentialTransformerInfo.tertiaryRatio - Ratio for the tertiary winding tap changer. |
| cim:PotentialTransformerKind |
| cim:power |
| cim:PowerCutZone - An area or zone of the power system which is used for load shedding purposes. |
| cim:PowerCutZone.cutLevel1 - First level (amount) of load to cut as a percentage of total zone load. |
| cim:PowerCutZone.cutLevel2 - Second level (amount) of load to cut as a percentage of total zone load. |
| cim:powerFactor |
| cim:powerFactorPcc |
| cim:powerLossTamper |
| cim:powerOut |
| cim:powerOutage |
| cim:powerQuality |
| cim:PowerQualityPricing - Pricing can be based on power quality. |
| cim:PowerQualityPricing.emergencyHighVoltLimit - Emergency high voltage limit. |
| cim:PowerQualityPricing.emergencyLowVoltLimit - Emergency low voltage limit. |
| cim:PowerQualityPricing.normalHighVoltLimit - Normal high voltage limit. |
| cim:PowerQualityPricing.normalLowVoltLimit - Normal low voltage limit. |
| cim:PowerQualityPricing.powerFactorMin - Threshold minimum power factor for this PricingStructure, specified in instances where a special charge is levied if the actual power factor for a Service falls below the value specified here. |
| cim:PowerQualityPricing.valueUninterruptedServiceEnergy - Value of uninterrupted service (Cost per energy). |
| cim:PowerQualityPricing.valueUninterruptedServiceP - Value of uninterrupted service (Cost per active power). |
| cim:PowerQualityPricing.voltImbalanceViolCost - Voltage imbalance violation cost (Cost per unit Voltage). |
| cim:PowerQualityPricing.voltLimitViolCost - Voltage limit violation cost (Cost per unit Voltage). |
| cim:powerRestoration |
| cim:powerRestored |
| cim:PowerSystemProject - Meta-data for the change set that describe the status and the planned implementation of the changes into the as-build model. A Power System Project can consist of other Power System Projects |
| cim:PowerSystemProject.actualLifecycle - The actual lifecycle. |
| cim:PowerSystemProject.comment - Free text comment. |
| cim:PowerSystemProject.plannedLifecycle - The planned lifecycle. |
| cim:PowerSystemProject.PowerSystemProject - The master project for a competing projects.Competing project. Only one of the projects will be commissioned. |
| cim:PowerSystemProject.priority - Priority between competing projects. Use 0 for don t care. Use 1 for highest priority. Use 2 as priority is less than 1 and so on. |
| cim:PowerSystemProject.type - Type of project. Multiple tagges can be added with ";" as separator. |
| cim:PowerSystemProject.version - Version is uniquely identifying the project version. Changes to a project are not modelled. So the project with the highest version is the valid/latest project. Only positive numbers equal or higher than 1 are allowed |
| cim:PowerSystemProject.versionUUID - Project version identifier issued by a model authority. The versionUUID is globally unique using a UUID, as specified in RFC 4122. |
| cim:PowerSystemProjectLifecycle - Represent the base lifecycle of a functional model change that could be a construction of new elements. |
| cim:PowerSystemProjectLifecycle.cancelled - The date the Power System Project is in cancelled stage. |
| cim:PowerSystemProjectLifecycle.commissioned - The date Power System Project is in commissioned stage. |
| cim:PowerSystemProjectLifecycle.committed - The date Power System Project is in committed stage. |
| cim:PowerSystemProjectLifecycle.inBuild - The date Power System Project is in build stage. |
| cim:PowerSystemProjectLifecycle.inPlan - The date Power System Project is in planning stage. |
| cim:PowerSystemResource - A power system resource can be an item of equipment such as a switch, an equipment container containing many individual items of equipment such as a substation, or an organisational entity such as sub-control area. Power system resources can have measurements associated. |
| cim:PowerSystemResource.Asset - All assets represented by this power system resource. For example, multiple conductor assets are electrically modelled as a single AC line segment.All power system resources used to electrically model this asset. For example, transformer asset is electrically modelled with a transformer and its windings and tap changer. |
| cim:PowerSystemResource.AssetInfo - Datasheet information for this power system resource.All power system resources with this datasheet information. |
| cim:PowerSystemResource.ClearanceDocument - All clearances applicable to this power system resource.All power system resources tagged through this clearance. |
| cim:PowerSystemResource.Location - Location of this power system resource.All power system resources at this location. |
| cim:PowerSystemResource.OperatingShare - The operating shares of this power system resource.The power system resource to which the share applies. |
| cim:PowerSystemResource.OperationalTag - All operational tags placed on this power system resource.Power system resource on which this tag has been placed. |
| cim:PowerSystemResource.PSREvent - All events associated with this power system resource.Power system resource that generated this event. |
| cim:PowerSystemResource.ReportingGroup - Reporting groups to which this power system resource belongs.Power system resources which belong to this reporting group. |
| cim:PowerSystemStabilizerDynamics - Power system stabilizer function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:PowerSystemStabilizerUserDefined - Power system stabilizer function block whose dynamic behaviour is described by a user-defined model. |
| cim:PowerSystemStabilizerUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:PowerSystemStabilizerUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:powerTransformer |
| cim:PowerTransformer - An electrical device consisting of two or more coupled windings, with or without a magnetic core, for introducing mutual coupling between electric circuits. Transformers can be used to control voltage and phase shift (active power flow).
A power transformer may be composed of separate transformer tanks that need not be identical.
A power transformer can be modeled with or without tanks and is intended for use in both balanced and unbalanced representations. A power transformer typically has two terminals, but may have one (grounding), three or more terminals.
The inherited association ConductingEquipment.BaseVoltage should not be used. The association from TransformerEnd to BaseVoltage should be used instead. |
| cim:PowerTransformer.beforeShCircuitHighestOperatingCurrent - The highest operating current (Ib in the IEC 60909-0) before short circuit (depends on network configuration and relevant reliability philosophy). It is used for calculation of the impedance correction factor KT defined in IEC 60909-0. |
| cim:PowerTransformer.beforeShCircuitHighestOperatingVoltage - The highest operating voltage (Ub in the IEC 60909-0) before short circuit. It is used for calculation of the impedance correction factor KT defined in IEC 60909-0. This is worst case voltage on the low side winding (Section 3.7.1 in the standard). Used to define operating conditions. |
| cim:PowerTransformer.beforeShortCircuitAnglePf - The angle of power factor before short circuit (phib in the IEC 60909-0). It is used for calculation of the impedance correction factor KT defined in IEC 60909-0. This is the worst case power factor. Used to define operating conditions. |
| cim:PowerTransformer.highSideMinOperatingU - The minimum operating voltage (uQmin in the IEC 60909-0) at the high voltage side (Q side) of the unit transformer of the power station unit. A value well established from long-term operating experience of the system. It is used for calculation of the impedance correction factor KG defined in IEC 60909-0 |
| cim:PowerTransformer.isPartOfGeneratorUnit - Indicates whether the machine is part of a power station unit. Used for short circuit data exchange according to IEC 60909 |
| cim:PowerTransformer.operationalValuesConsidered - It is used to define if the data (other attributes related to short circuit data exchange) defines long term operational conditions or not. Used for short circuit data exchange according to IEC 60909. |
| cim:PowerTransformer.TransformerTank - All transformers that belong to this bank.Bank this transformer belongs to. |
| cim:PowerTransformer.vectorGroup - Vector group of the transformer for protective relaying, e.g., Dyn1. For unbalanced transformers, this may not be simply determined from the constituent winding connections and phase angle dispacements.
The vectorGroup string consists of the following components in the order listed: high voltage winding connection, mid voltage winding connection (for three winding transformers), phase displacement clock number from 0 to 11, low voltage winding connection
phase displacement clock number from 0 to 11. The winding connections are D (delta), Y (wye), YN (wye with neutral), Z (zigzag), ZN (zigzag with neutral), A (auto transformer). Upper case means the high voltage, lower case mid or low. The high voltage winding always has clock postion 0 and is not included in the vector group string. Some examples: YNy0 (two winding wye to wye with no phase displacement), YNd11 (two winding wye to delta with 330 degrees phase displacement), YNyn0d5 (three winding transformer wye with neutral high voltgage, wye with neutral mid voltgage and no phase displacement, delta low voltage with 150 degrees displacement).
Phase displacement is defined as the angular difference between the phasors representing the voltages between the neutral point (real or imaginary) and the corresponding terminals of two windings, a positive sequence voltage system being applied to the high-voltage terminals, following each other in alphabetical sequence if they are lettered, or in numerical sequence if they are numbered: the phasors are assumed to rotate in a counter-clockwise sense. |
| cim:PowerTransformerEnd - A PowerTransformerEnd is associated with each Terminal of a PowerTransformer.
The impedance values r, r0, x, and x0 of a PowerTransformerEnd represents a star equivalent as follows
1) for a two Terminal PowerTransformer the high voltage PowerTransformerEnd has non zero values on r, r0, x, and x0 while the low voltage PowerTransformerEnd has zero values for r, r0, x, and x0.
2) for a three Terminal PowerTransformer the three PowerTransformerEnds represents a star equivalent with each leg in the star represented by r, r0, x, and x0 values.
3) for a PowerTransformer with more than three Terminals the PowerTransformerEnd impedance values cannot be used. Instead use the TransformerMeshImpedance or split the transformer into multiple PowerTransformers. |
| cim:PowerTransformerEnd.b - Magnetizing branch susceptance (B mag). The value can be positive or negative. |
| cim:PowerTransformerEnd.b0 - Zero sequence magnetizing branch susceptance. |
| cim:PowerTransformerEnd.connectionKind - Kind of connection. |
| cim:PowerTransformerEnd.g - Magnetizing branch conductance. |
| cim:PowerTransformerEnd.g0 - Zero sequence magnetizing branch conductance (star-model). |
| cim:PowerTransformerEnd.phaseAngleClock - Terminal voltage phase angle displacement where 360 degrees are represented with clock hours. The valid values are 0 to 11. For example, for the secondary side end of a transformer with vector group code of 'Dyn11', specify the connection kind as wye with neutral and specify the phase angle of the clock as 11. The clock value of the transformer end number specified as 1, is assumed to be zero. Note the transformer end number is not assumed to be the same as the terminal sequence number. |
| cim:PowerTransformerEnd.PowerTransformer - The power transformer of this power transformer end.The ends of this power transformer. |
| cim:PowerTransformerEnd.r - Resistance (star-model) of the transformer end.
The attribute shall be equal or greater than zero for non-equivalent transformers. |
| cim:PowerTransformerEnd.r0 - Zero sequence series resistance (star-model) of the transformer end. |
| cim:PowerTransformerEnd.ratedS - Normal apparent power rating.
The attribute shall be a positive value. For a two-winding transformer the values for the high and low voltage sides shall be identical. |
| cim:PowerTransformerEnd.ratedU - Rated voltage: phase-phase for three-phase windings, and either phase-phase or phase-neutral for single-phase windings.
A high voltage side, as given by TransformerEnd.endNumber, shall have a ratedU that is greater or equal than ratedU for the lower voltage sides. |
| cim:PowerTransformerEnd.x - Positive sequence series reactance (star-model) of the transformer end. |
| cim:PowerTransformerEnd.x0 - Zero sequence series reactance of the transformer end. |
| cim:PowerTransformerInfo - Set of power transformer data, from an equipment library. |
| cim:PowerTransformerInfo.TransformerTankInfo - Data for all the tanks described by this power transformer data.Power transformer data that this tank description is part of. |
| cim:PP |
| cim:pPcc |
| cim:pPccAndUdcDroop |
| cim:pPccAndUdcDroopPilot |
| cim:pPccAndUdcDroopWithCompensation |
| cim:ppm |
| cim:PPT |
| cim:PRC_AS |
| cim:PRC_CNSTR |
| cim:PRC_FUEL |
| cim:PRC_HRLY_LMP |
| cim:PRC_INTVL_LMP |
| cim:PRC_NG |
| cim:PRC_SHADOW |
| cim:PRE_HOUR |
| cim:PRE_SCHEDULE |
| cim:PreconditionCIMDataObject - Used to specify precondition properties for a preconditioned update. |
| cim:present |
| cim:Pressure - Pressure in Pascal. |
| cim:Pressure.multiplier |
| cim:Pressure.unit |
| cim:Pressure.value |
| cim:previous |
| cim:Price - The cost corresponding to a specific measure and expressed in a currency. |
| cim:Price.amount - A number of monetary units specified in a unit of currency. |
| cim:Price.category - The category of a price to be used in a price calculation. The price category is mutually agreed between System Operators. |
| cim:Price.direction - The direction indicates whether a System Operator pays the Market Parties or inverse. |
| cim:PriceSetFlag |
| cim:PricingStructure - Grouping of pricing components and prices used in the creation of customer charges and the eligibility criteria under which these terms may be offered to a customer. The reasons for grouping include state, customer classification, site characteristics, classification (i.e. fee price structure, deposit price structure, electric service price structure, etc.) and accounting requirements. |
| cim:PricingStructure.code - Unique user-allocated key for this pricing structure, used by company representatives to identify the correct price structure for allocating to a customer. For rate schedules it is often prefixed by a state code. |
| cim:PricingStructure.CustomerAgreement - All customer agreements with this pricing structure.All pricing structures applicable to this customer agreement. |
| cim:PricingStructure.dailyCeilingUsage - Absolute maximum valid non-demand usage quantity used in validating a customer's billed non-demand usage. |
| cim:PricingStructure.dailyEstimatedUsage - Used in place of actual computed estimated average when history of usage is not available, and typically manually entered by customer accounting. |
| cim:PricingStructure.dailyFloorUsage - Absolute minimum valid non-demand usage quantity used in validating a customer's billed non-demand usage. |
| cim:PricingStructure.revenueKind - (accounting) Kind of revenue, often used to determine the grace period allowed, before collection actions are taken on a customer (grace periods vary between revenue classes). |
| cim:PricingStructure.ServiceCategory - Service category to which this pricing structure applies.All pricing structures applicable to this service category. |
| cim:PricingStructure.taxExemption - True if this pricing structure is not taxable. |
| cim:PrimeMover - The machine used to develop mechanical energy used to drive a generator. |
| cim:PrimeMover.primeMoverRating - Rating of prime mover. |
| cim:Priority - Priority definition. |
| cim:Priority.justification - Justification for 'rank'. |
| cim:Priority.rank - Priority level; usually, lower number means high priority, but the details are provided in 'type'. |
| cim:Priority.type - Type describing 'rank'; e.g., high, emergency, etc. |
| cim:Procedure - Documented procedure for various types of work or work tasks on assets. |
| cim:Procedure.CompatibleUnit - |
| cim:Procedure.instruction - Textual description of this procedure. |
| cim:Procedure.kind - Kind of procedure. |
| cim:Procedure.sequenceNumber - Sequence number in a sequence of procedures being performed. |
| cim:ProcedureDataSet - A data set recorded each time a procedure is executed. Observed results are captured in associated measurement values and/or values for properties relevant to the type of procedure performed. |
| cim:ProcedureDataSet.completedDateTime - Date and time procedure was completed. |
| cim:ProcedureDataSet.Procedure - Procedure capturing this data set.All data sets captured by this procedure. |
| cim:ProcedureDataSet.UserAttribute - UserAttributes used to specify further properties of this procedure data set. Use 'name' to specify what kind of property it is, and 'value.value' attribute for the actual value. |
| cim:ProcedureKind |
| cim:Process - The formal specification of a set of business transactions having the same business goal. |
| cim:PROCESS |
| cim:Process.classificationType - The classification mechanism used to group a set of objects together within a business process. The grouping may be of a detailed or a summary nature. |
| cim:Process.processType - The kind of business process. |
| cim:Producer |
| cim:ProductAssetModel - Asset model by a specific manufacturer. |
| cim:ProductAssetModel.corporateStandardKind - Kind of corporate standard for this asset model. |
| cim:ProductAssetModel.GenericAssetModel - Generic asset model or material satisified by this product asset model.All product asset models satisfying this generic asset model. |
| cim:ProductAssetModel.modelNumber - Manufacturer's model number. |
| cim:ProductAssetModel.modelVersion - Version number for product model, which indicates vintage of the product. |
| cim:ProductAssetModel.OperationalRestriction - All operational restrictions applying to this asset model.Asset model to which this restriction applies. |
| cim:ProductAssetModel.usageKind - Intended usage for this asset model. |
| cim:ProductAssetModel.weightTotal - Total manufactured weight of asset. |
| cim:ProductBid - Component of a bid that pertains to one market product. |
| cim:ProductBid.BidHourlyProductSchedule - |
| cim:ProductBid.MarketProduct - |
| cim:ProductionResponsibleParty |
| cim:Profile - A profile is a simpler curve type. |
| cim:Profile.ProfileData - A profile has profile data associated with it.A profile has profile data associated with it. |
| cim:ProfileData - Data for profile. |
| cim:ProfileData.bidPrice - Bid price associated with contract |
| cim:ProfileData.capacityLevel - Capacity level for the profile, in MW. |
| cim:ProfileData.energyLevel - Energy level for the profile, in MWH. |
| cim:ProfileData.minimumLevel - Minimum MW value of contract |
| cim:ProfileData.sequenceNumber - Sequence to provide item numbering for the profile. { greater than or equal to 1 } |
| cim:ProfileData.startDateTime - Start date/time for this profile. |
| cim:ProfileData.stopDateTime - Stop date/time for this profile. |
| cim:programmed |
| cim:Project - A collection of related work. For construction projects and maintenance projects, multiple phases may be performed. |
| cim:Project.budget - Overall project budget. |
| cim:Project.BusinessCase - |
| cim:Project.ErpProjectAccounting - |
| cim:Project.Project - |
| cim:Project.Work - |
| cim:propane |
| cim:PropertyOrganisationRole - Role an organisation plays with respect to property (for example, the organisation may be the owner, renter, occupier, taxiing authority, etc.). |
| cim:PropertyOrganisationRole.LandProperty - |
| cim:PropertyUnit - Unit of property for reporting purposes. |
| cim:PropertyUnit.accountingUsage - A code that identifies appropriate type of property accounts such as distribution, streetlgihts, communications. |
| cim:PropertyUnit.activityCode - Activity code identifies a specific and distinguishable work action. |
| cim:PropertyUnit.propertyAccount - Used for property record accounting. For example, in the USA, this would be a FERC account. |
| cim:PropertyUnit.status |
| cim:PropertyUnit.WorkCostDetail - |
| cim:ProprietaryParameterDynamics - Supports definition of one or more parameters of several different datatypes for use by proprietary user-defined models. NOTE: This class does not inherit from IdentifiedObject since it is not intended that a single instance of it be referenced by more than one proprietary user-defined model instance. |
| cim:ProprietaryParameterDynamics.booleanParameterValue - Used for boolean parameter value. If this attribute is populated, integerParameterValue and floatParameterValue will not be. |
| cim:ProprietaryParameterDynamics.floatParameterValue - Used for floating point parameter value. If this attribute is populated, booleanParameterValue and integerParameterValue will not be. |
| cim:ProprietaryParameterDynamics.integerParameterValue - Used for integer parameter value. If this attribute is populated, booleanParameterValue and floatParameterValue will not be. |
| cim:ProprietaryParameterDynamics.parameterNumber - Sequence number of the parameter among the set of parameters associated with the related proprietary user-defined model. |
| cim:ProprietaryParameterDynamics.WindPlantUserDefined - Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model. |
| cim:ProprietaryParameterDynamics.WindType1or2UserDefined - Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model. |
| cim:ProprietaryParameterDynamics.WindType3or4UserDefined - Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model. |
| cim:ProtectedSwitch - A ProtectedSwitch is a switching device that can be operated by ProtectionEquipment. |
| cim:ProtectedSwitch.breakingCapacity - The maximum fault current a breaking device can break safely under prescribed conditions of use. |
| cim:ProtectedSwitch.ProtectionEquipment - Protection equipments that operate this ProtectedSwitch.Protected switches operated by this ProtectionEquipment. |
| cim:ProtectedSwitch.RecloseSequence - A breaker may have zero or more automatic reclosures after a trip occurs.A breaker may have zero or more automatic reclosures after a trip occurs. |
| cim:ProtectionEquipment - An electrical device designed to respond to input conditions in a prescribed manner and after specified conditions are met to cause contact operation or similar abrupt change in associated electric control circuits, or simply to display the detected condition. Protection equipment are associated with conducting equipment and usually operate circuit breakers. |
| cim:ProtectionEquipment.highLimit - The maximum allowable value. |
| cim:ProtectionEquipment.lowLimit - The minimum allowable value. |
| cim:ProtectionEquipment.powerDirectionFlag - Direction same as positive active power flow value. |
| cim:ProtectionEquipment.relayDelayTime - The time delay from detection of abnormal conditions to relay operation. |
| cim:ProtectionEquipment.unitMultiplier - The unit multiplier of the value. |
| cim:ProtectionEquipment.unitSymbol - The unit of measure of the value. |
| cim:ProtectionEquipmentInfo - Properties of protection equipment asset. |
| cim:ProtectionEquipmentInfo.groundTrip - Actual ground trip for this type of relay, if applicable. |
| cim:ProtectionEquipmentInfo.phaseTrip - Actual phase trip for this type of relay, if applicable. |
| cim:ProtectiveAction - A protective action for supporting the integrity of the power system. |
| cim:ProtectiveAction.enabled - The status of the class set by operation or by signal. Optional field that will override other status fields. |
| cim:ProtectiveAction.normalEnabled - The default/normal value used when other active signal/values are missing. |
| cim:ProtectiveAction.ProtectionEquipment - |
| cim:ProtectiveAction.ProtectiveActionCollection - |
| cim:ProtectiveActionAdjustment - Protective actions on non-switching equipment. The operating condition is adjusted. |
| cim:ProtectiveActionAdjustment.byPercentage - The adjustment is given in percent of the active value. |
| cim:ProtectiveActionAdjustment.byValue - The adjustment is given in value of the active value. |
| cim:ProtectiveActionAdjustment.ConductingEquipment - The operating condition to the Conducting Equipment is changed when protective action adjustment is activated. For Shunt Compensator or other conducting equipment that operates on discrete values (integer), the values given in float will be rounded. The operating condition to the Conducting Equipment is changed when protective action adjustment is activated. For Shunt Compensator or other conducting equipment that operates on discrete values (integer), the values given in float will be rounded. |
| cim:ProtectiveActionAdjustment.kind - Defines the kind of adjustment that should be done. With this value the correct attribute containing the value needs to be used. |
| cim:ProtectiveActionAdjustment.Measure - |
| cim:ProtectiveActionAdjustment.reduce - If true, the adjusted value is an reduction. Other wise it is an increase in the value. |
| cim:ProtectiveActionAdjustment.setValue - The adjustment is given by a new active value. |
| cim:ProtectiveActionAdjustmentKind |
| cim:ProtectiveActionCollection - A collection of protective actions to protect the integrity of the power system. |
| cim:ProtectiveActionEquipment - Protective action to put an Equipment in-service/out-of-service. |
| cim:ProtectiveActionEquipment.inService - If true the equipment is put in-service, otherwise out-of-service. |
| cim:ProtectiveActionRegulation - Protective action to change regulation to Equipment. |
| cim:ProtectiveActionRegulation.isRegulating - If true the regulator is put in-service, otherwise out-of-service (no regulation). |
| cim:ProtectiveActionRegulation.targetValue - The target value specified the new case input for the regulator. The value has the units appropriate to the mode attribute. The protective action does not change the mode attribute. |
| cim:PROVIDED_BY |
| cim:PRXC |
| cim:PSREvent - Event recording the change in operational status of a power system resource; may be for an event that has already occurred or for a planned activity. |
| cim:PSREvent.kind - Kind of event. |
| cim:PSREventKind |
| cim:PSRType - Classifying instances of the same class, e.g. overhead and underground ACLineSegments. This classification mechanism is intended to provide flexibility outside the scope of this standard, i.e. provide customisation that is non standard. |
| cim:PSRType.PowerSystemResource - Power system resources classified with this power system resource type.Custom classification for this power system resource. |
| cim:Pss1 - Italian PSS - three input PSS (speed, frequency, power). |
| cim:Pss1.kf - Frequency power input gain (KF). Typical Value = 5. |
| cim:Pss1.kpe - Electric power input gain (KPE). Typical Value = 0.3. |
| cim:Pss1.ks - PSS gain (KS). Typical Value = 1. |
| cim:Pss1.kw - Shaft speed power input gain (KW). Typical Value = 0. |
| cim:Pss1.pmin - Minimum power PSS enabling (PMIN). Typical Value = 0.25. |
| cim:Pss1.t10 - Lead/lag time constant (T10). Typical Value = 0. |
| cim:Pss1.t5 - Washout (T5). Typical Value = 3.5. |
| cim:Pss1.t6 - Filter time constant (T6). Typical Value = 0. |
| cim:Pss1.t7 - Lead/lag time constant (T7). Typical Value = 0. |
| cim:Pss1.t8 - Lead/lag time constant (T8). Typical Value = 0. |
| cim:Pss1.t9 - Lead/lag time constant (T9). Typical Value = 0. |
| cim:Pss1.tpe - Electric power filter time constant (TPE). Typical Value = 0.05. |
| cim:Pss1.vadat - Signal selector (VadAt).
true = closed (Generator Power is greater than Pmin)
false = open (Pe is smaller than Pmin).
Typical Value = true. |
| cim:Pss1.vsmn - Stabilizer output max limit (VSMN). Typical Value = -0.06. |
| cim:Pss1.vsmx - Stabilizer output min limit (VSMX). Typical Value = 0.06. |
| cim:Pss1A - Single input power system stabilizer. It is a modified version in order to allow representation of various vendors' implementations on PSS type 1A. |
| cim:Pss1A.a1 - Notch filter parameter (A1). |
| cim:Pss1A.a2 - Notch filter parameter (A2). |
| cim:Pss1A.a3 - Notch filter parameter (A3). |
| cim:Pss1A.a4 - Notch filter parameter (A4). |
| cim:Pss1A.a5 - Notch filter parameter (A5). |
| cim:Pss1A.a6 - Notch filter parameter (A6). |
| cim:Pss1A.a7 - Notch filter parameter (A7). |
| cim:Pss1A.a8 - Notch filter parameter (A8). |
| cim:Pss1A.inputSignalType - Type of input signal. |
| cim:Pss1A.kd - Selector (Kd).
true = e-sTdelay used
false = e-sTdelay not used. |
| cim:Pss1A.ks - Stabilizer gain (Ks). |
| cim:Pss1A.t1 - Lead/lag time constant (T1). |
| cim:Pss1A.t2 - Lead/lag time constant (T2). |
| cim:Pss1A.t3 - Lead/lag time constant (T3). |
| cim:Pss1A.t4 - Lead/lag time constant (T4). |
| cim:Pss1A.t5 - Washout time constant (T5). |
| cim:Pss1A.t6 - Transducer time constant (T6). |
| cim:Pss1A.tdelay - Time constant (Tdelay). |
| cim:Pss1A.vcl - Stabilizer input cutoff threshold (Vcl). |
| cim:Pss1A.vcu - Stabilizer input cutoff threshold (Vcu). |
| cim:Pss1A.vrmax - Maximum stabilizer output (Vrmax). |
| cim:Pss1A.vrmin - Minimum stabilizer output (Vrmin). |
| cim:Pss2B - Modified IEEE PSS2B Model. Extra lead/lag (or rate) block added at end (up to 4 lead/lags total). |
| cim:Pss2B.a - Numerator constant (a). Typical Value = 1. |
| cim:Pss2B.inputSignal1Type - Type of input signal #1. Typical Value = rotorSpeed. |
| cim:Pss2B.inputSignal2Type - Type of input signal #2. Typical Value = generatorElectricalPower. |
| cim:Pss2B.ks1 - Stabilizer gain (Ks1). Typical Value = 12. |
| cim:Pss2B.ks2 - Gain on signal #2 (Ks2). Typical Value = 0.2. |
| cim:Pss2B.ks3 - Gain on signal #2 input before ramp-tracking filter (Ks3). Typical Value = 1. |
| cim:Pss2B.ks4 - Gain on signal #2 input after ramp-tracking filter (Ks4). Typical Value = 1. |
| cim:Pss2B.m - Denominator order of ramp tracking filter (M). Typical Value = 5. |
| cim:Pss2B.n - Order of ramp tracking filter (N). Typical Value = 1. |
| cim:Pss2B.t1 - Lead/lag time constant (T1). Typical Value = 0.12. |
| cim:Pss2B.t10 - Lead/lag time constant (T10). Typical Value = 0. |
| cim:Pss2B.t11 - Lead/lag time constant (T11). Typical Value = 0. |
| cim:Pss2B.t2 - Lead/lag time constant (T2). Typical Value = 0.02. |
| cim:Pss2B.t3 - Lead/lag time constant (T3). Typical Value = 0.3. |
| cim:Pss2B.t4 - Lead/lag time constant (T4). Typical Value = 0.02. |
| cim:Pss2B.t6 - Time constant on signal #1 (T6). Typical Value = 0. |
| cim:Pss2B.t7 - Time constant on signal #2 (T7). Typical Value = 2. |
| cim:Pss2B.t8 - Lead of ramp tracking filter (T8). Typical Value = 0.2. |
| cim:Pss2B.t9 - Lag of ramp tracking filter (T9). Typical Value = 0.1. |
| cim:Pss2B.ta - Lead constant (Ta). Typical Value = 0. |
| cim:Pss2B.tb - Lag time constant (Tb). Typical Value = 0. |
| cim:Pss2B.tw1 - First washout on signal #1 (Tw1). Typical Value = 2. |
| cim:Pss2B.tw2 - Second washout on signal #1 (Tw2). Typical Value = 2. |
| cim:Pss2B.tw3 - First washout on signal #2 (Tw3). Typical Value = 2. |
| cim:Pss2B.tw4 - Second washout on signal #2 (Tw4). Typical Value = 0. |
| cim:Pss2B.vsi1max - Input signal #1 max limit (Vsi1max). Typical Value = 2. |
| cim:Pss2B.vsi1min - Input signal #1 min limit (Vsi1min). Typical Value = -2. |
| cim:Pss2B.vsi2max - Input signal #2 max limit (Vsi2max). Typical Value = 2. |
| cim:Pss2B.vsi2min - Input signal #2 min limit (Vsi2min). Typical Value = -2. |
| cim:Pss2B.vstmax - Stabilizer output max limit (Vstmax). Typical Value = 0.1. |
| cim:Pss2B.vstmin - Stabilizer output min limit (Vstmin). Typical Value = -0.1. |
| cim:Pss2ST - PTI Microprocessor-Based Stabilizer type 1. |
| cim:Pss2ST.inputSignal1Type - Type of input signal #1. Typical Value = rotorAngularFrequencyDeviation. |
| cim:Pss2ST.inputSignal2Type - Type of input signal #2. Typical Value = generatorElectricalPower. |
| cim:Pss2ST.k1 - Gain (K1). |
| cim:Pss2ST.k2 - Gain (K2). |
| cim:Pss2ST.lsmax - Limiter (Lsmax). |
| cim:Pss2ST.lsmin - Limiter (Lsmin). |
| cim:Pss2ST.t1 - Time constant (T1). |
| cim:Pss2ST.t10 - Time constant (T10). |
| cim:Pss2ST.t2 - Time constant (T2). |
| cim:Pss2ST.t3 - Time constant (T3). |
| cim:Pss2ST.t4 - Time constant (T4). |
| cim:Pss2ST.t5 - Time constant (T5). |
| cim:Pss2ST.t6 - Time constant (T6). |
| cim:Pss2ST.t7 - Time constant (T7). |
| cim:Pss2ST.t8 - Time constant (T8). |
| cim:Pss2ST.t9 - Time constant (T9). |
| cim:Pss2ST.vcl - Cutoff limiter (Vcl). |
| cim:Pss2ST.vcu - Cutoff limiter (Vcu). |
| cim:Pss5 - Italian PSS - Detailed PSS. |
| cim:Pss5.ctw2 - Selector for Second washout enabling (CTW2).
true = second washout filter is bypassed
false = second washout filter in use.
Typical Value = true. |
| cim:Pss5.deadband - Stabilizer output dead band (DeadBand). Typical Value = 0. |
| cim:Pss5.isfreq - Selector for Frequency/shaft speed input (IsFreq).
true = speed
false = frequency.
Typical Value = true. |
| cim:Pss5.kf - Frequency/shaft speed input gain (KF). Typical Value = 5. |
| cim:Pss5.kpe - Electric power input gain (KPE). Typical Value = 0.3. |
| cim:Pss5.kpss - PSS gain (KPSS). Typical Value = 1. |
| cim:Pss5.pmm - Minimum power PSS enabling (Pmn). Typical Value = 0.25. |
| cim:Pss5.tl1 - Lead/lag time constant (TL1). Typical Value = 0. |
| cim:Pss5.tl2 - Lead/lag time constant (TL2). Typical Value = 0. |
| cim:Pss5.tl3 - Lead/lag time constant (TL3). Typical Value = 0. |
| cim:Pss5.tl4 - Lead/lag time constant (TL4). Typical Value = 0. |
| cim:Pss5.tpe - Electric power filter time constant (TPE). Typical Value = 0.05. |
| cim:Pss5.tw1 - First WashOut (Tw1). Typical Value = 3.5. |
| cim:Pss5.tw2 - Second WashOut (Tw2). Typical Value = 0. |
| cim:Pss5.vadat - Signal selector (VadAtt).
true = closed (Generator Power is greater than Pmin)
false = open (Pe is smaller than Pmin).
Typical Value = true. |
| cim:Pss5.vsmn - Stabilizer output max limit (VSMN). Typical Value = -0.1. |
| cim:Pss5.vsmx - Stabilizer output min limit (VSMX). Typical Value = 0.1. |
| cim:PssELIN2 - Power system stabilizer typically associated with ExcELIN2 (though PssIEEE2B or Pss2B can also be used). |
| cim:PssELIN2.apss - Coefficient (a_PSS). Typical Value = 0.1. |
| cim:PssELIN2.ks1 - Gain (Ks1). Typical Value = 1. |
| cim:PssELIN2.ks2 - Gain (Ks2). Typical Value = 0.1. |
| cim:PssELIN2.ppss - Coefficient (p_PSS) (>=0 and <=4). Typical Value = 0.1. |
| cim:PssELIN2.psslim - PSS limiter (psslim). Typical Value = 0.1. |
| cim:PssELIN2.ts1 - Time constant (Ts1). Typical Value = 0. |
| cim:PssELIN2.ts2 - Time constant (Ts2). Typical Value = 1. |
| cim:PssELIN2.ts3 - Time constant (Ts3). Typical Value = 1. |
| cim:PssELIN2.ts4 - Time constant (Ts4). Typical Value = 0.1. |
| cim:PssELIN2.ts5 - Time constant (Ts5). Typical Value = 0. |
| cim:PssELIN2.ts6 - Time constant (Ts6). Typical Value = 1. |
| cim:PssIEEE1A - The class represents IEEE Std 421.5-2005 type PSS1A power system stabilizer model. PSS1A is the generalized form of a PSS with a single input. Some common stabilizer input signals are speed, frequency, and power.
Reference: IEEE 1A 421.5-2005 Section 8.1. |
| cim:PssIEEE1A.a1 - PSS signal conditioning frequency filter constant (A1). Typical Value = 0.061. |
| cim:PssIEEE1A.a2 - PSS signal conditioning frequency filter constant (A2). Typical Value = 0.0017. |
| cim:PssIEEE1A.inputSignalType - Type of input signal. Typical Value = rotorAngularFrequencyDeviation. |
| cim:PssIEEE1A.ks - Stabilizer gain (Ks). Typical Value = 5. |
| cim:PssIEEE1A.t1 - Lead/lag time constant (T1). Typical Value = 0.3. |
| cim:PssIEEE1A.t2 - Lead/lag time constant (T2). Typical Value = 0.03. |
| cim:PssIEEE1A.t3 - Lead/lag time constant (T3). Typical Value = 0.3. |
| cim:PssIEEE1A.t4 - Lead/lag time constant (T4). Typical Value = 0.03. |
| cim:PssIEEE1A.t5 - Washout time constant (T5). Typical Value = 10. |
| cim:PssIEEE1A.t6 - Transducer time constant (T6). Typical Value = 0.01. |
| cim:PssIEEE1A.vrmax - Maximum stabilizer output (Vrmax). Typical Value = 0.05. |
| cim:PssIEEE1A.vrmin - Minimum stabilizer output (Vrmin). Typical Value = -0.05. |
| cim:PssIEEE2B - The class represents IEEE Std 421.5-2005 type PSS2B power system stabilizer model. This stabilizer model is designed to represent a variety of dual-input stabilizers, which normally use combinations of power and speed or frequency to derive the stabilizing signal.
Reference: IEEE 2B 421.5-2005 Section 8.2. |
| cim:PssIEEE2B.inputSignal1Type - Type of input signal #1. Typical Value = rotorSpeed. |
| cim:PssIEEE2B.inputSignal2Type - Type of input signal #2. Typical Value = generatorElectricalPower. |
| cim:PssIEEE2B.ks1 - Stabilizer gain (Ks1). Typical Value = 12. |
| cim:PssIEEE2B.ks2 - Gain on signal #2 (Ks2). Typical Value = 0.2. |
| cim:PssIEEE2B.ks3 - Gain on signal #2 input before ramp-tracking filter (Ks3). Typical Value = 1. |
| cim:PssIEEE2B.m - Denominator order of ramp tracking filter (M). Typical Value = 5. |
| cim:PssIEEE2B.n - Order of ramp tracking filter (N). Typical Value = 1. |
| cim:PssIEEE2B.t1 - Lead/lag time constant (T1). Typical Value = 0.12. |
| cim:PssIEEE2B.t10 - Lead/lag time constant (T10). Typical Value = 0. |
| cim:PssIEEE2B.t11 - Lead/lag time constant (T11). Typical Value = 0. |
| cim:PssIEEE2B.t2 - Lead/lag time constant (T2). Typical Value = 0.02. |
| cim:PssIEEE2B.t3 - Lead/lag time constant (T3). Typical Value = 0.3. |
| cim:PssIEEE2B.t4 - Lead/lag time constant (T4). Typical Value = 0.02. |
| cim:PssIEEE2B.t6 - Time constant on signal #1 (T6). Typical Value = 0. |
| cim:PssIEEE2B.t7 - Time constant on signal #2 (T7). Typical Value = 2. |
| cim:PssIEEE2B.t8 - Lead of ramp tracking filter (T8). Typical Value = 0.2. |
| cim:PssIEEE2B.t9 - Lag of ramp tracking filter (T9). Typical Value = 0.1. |
| cim:PssIEEE2B.tw1 - First washout on signal #1 (Tw1). Typical Value = 2. |
| cim:PssIEEE2B.tw2 - Second washout on signal #1 (Tw2). Typical Value = 2. |
| cim:PssIEEE2B.tw3 - First washout on signal #2 (Tw3). Typical Value = 2. |
| cim:PssIEEE2B.tw4 - Second washout on signal #2 (Tw4). Typical Value = 0. |
| cim:PssIEEE2B.vsi1max - Input signal #1 max limit (Vsi1max). Typical Value = 2. |
| cim:PssIEEE2B.vsi1min - Input signal #1 min limit (Vsi1min). Typical Value = -2. |
| cim:PssIEEE2B.vsi2max - Input signal #2 max limit (Vsi2max). Typical Value = 2. |
| cim:PssIEEE2B.vsi2min - Input signal #2 min limit (Vsi2min). Typical Value = -2. |
| cim:PssIEEE2B.vstmax - Stabilizer output max limit (Vstmax). Typical Value = 0.1. |
| cim:PssIEEE2B.vstmin - Stabilizer output min limit (Vstmin). Typical Value = -0.1. |
| cim:PssIEEE3B - The class represents IEEE Std 421.5-2005 type PSS3B power system stabilizer model. The PSS model PSS3B has dual inputs of electrical power and rotor angular frequency deviation. The signals are used to derive an equivalent mechanical power signal.
Reference: IEEE 3B 421.5-2005 Section 8.3. |
| cim:PssIEEE3B.a1 - Notch filter parameter (A1). Typical Value = 0.359. |
| cim:PssIEEE3B.a2 - Notch filter parameter (A2). Typical Value = 0.586. |
| cim:PssIEEE3B.a3 - Notch filter parameter (A3). Typical Value = 0.429. |
| cim:PssIEEE3B.a4 - Notch filter parameter (A4). Typical Value = 0.564. |
| cim:PssIEEE3B.a5 - Notch filter parameter (A5). Typical Value = 0.001. |
| cim:PssIEEE3B.a6 - Notch filter parameter (A6). Typical Value = 0. |
| cim:PssIEEE3B.a7 - Notch filter parameter (A7). Typical Value = 0.031. |
| cim:PssIEEE3B.a8 - Notch filter parameter (A8). Typical Value = 0. |
| cim:PssIEEE3B.inputSignal1Type - Type of input signal #1. Typical Value = generatorElectricalPower. |
| cim:PssIEEE3B.inputSignal2Type - Type of input signal #2. Typical Value = rotorSpeed. |
| cim:PssIEEE3B.ks1 - Gain on signal # 1 (Ks1). Typical Value = -0.602. |
| cim:PssIEEE3B.ks2 - Gain on signal # 2 (Ks2). Typical Value = 30.12. |
| cim:PssIEEE3B.t1 - Transducer time constant (T1). Typical Value = 0.012. |
| cim:PssIEEE3B.t2 - Transducer time constant (T2). Typical Value = 0.012. |
| cim:PssIEEE3B.tw1 - Washout time constant (Tw1). Typical Value = 0.3. |
| cim:PssIEEE3B.tw2 - Washout time constant (Tw2). Typical Value = 0.3. |
| cim:PssIEEE3B.tw3 - Washout time constant (Tw3). Typical Value = 0.6. |
| cim:PssIEEE3B.vstmax - Stabilizer output max limit (Vstmax). Typical Value = 0.1. |
| cim:PssIEEE3B.vstmin - Stabilizer output min limit (Vstmin). Typical Value = -0.1. |
| cim:PssIEEE4B - The class represents IEEE Std 421.5-2005 type PSS2B power system stabilizer model. The PSS4B model represents a structure based on multiple working frequency bands. Three separate bands, respectively dedicated to the low-, intermediate- and high-frequency modes of oscillations, are used in this delta-omega (speed input) PSS.
Reference: IEEE 4B 421.5-2005 Section 8.4. |
| cim:PssIEEE4B.bwh1 - Notch filter 1 (high-frequency band): Three dB bandwidth (Bwi). |
| cim:PssIEEE4B.bwh2 - Notch filter 2 (high-frequency band): Three dB bandwidth (Bwi). |
| cim:PssIEEE4B.bwl1 - Notch filter 1 (low-frequency band): Three dB bandwidth (Bwi). |
| cim:PssIEEE4B.bwl2 - Notch filter 2 (low-frequency band): Three dB bandwidth (Bwi). |
| cim:PssIEEE4B.kh - High band gain (KH). Typical Value = 120. |
| cim:PssIEEE4B.kh1 - High band differential filter gain (KH1). Typical Value = 66. |
| cim:PssIEEE4B.kh11 - High band first lead-lag blocks coefficient (KH11). Typical Value = 1. |
| cim:PssIEEE4B.kh17 - High band first lead-lag blocks coefficient (KH17). Typical Value = 1. |
| cim:PssIEEE4B.kh2 - High band differential filter gain (KH2). Typical Value = 66. |
| cim:PssIEEE4B.ki - Intermediate band gain (KI). Typical Value = 30. |
| cim:PssIEEE4B.ki1 - Intermediate band differential filter gain (KI1). Typical Value = 66. |
| cim:PssIEEE4B.ki11 - Intermediate band first lead-lag blocks coefficient (KI11). Typical Value = 1. |
| cim:PssIEEE4B.ki17 - Intermediate band first lead-lag blocks coefficient (KI17). Typical Value = 1. |
| cim:PssIEEE4B.ki2 - Intermediate band differential filter gain (KI2). Typical Value = 66. |
| cim:PssIEEE4B.kl - Low band gain (KL). Typical Value = 7.5. |
| cim:PssIEEE4B.kl1 - Low band differential filter gain (KL1). Typical Value = 66. |
| cim:PssIEEE4B.kl11 - Low band first lead-lag blocks coefficient (KL11). Typical Value = 1. |
| cim:PssIEEE4B.kl17 - Low band first lead-lag blocks coefficient (KL17). Typical Value = 1. |
| cim:PssIEEE4B.kl2 - Low band differential filter gain (KL2). Typical Value = 66. |
| cim:PssIEEE4B.omeganh1 - Notch filter 1 (high-frequency band): filter frequency (omegani). |
| cim:PssIEEE4B.omeganh2 - Notch filter 2 (high-frequency band): filter frequency (omegani). |
| cim:PssIEEE4B.omeganl1 - Notch filter 1 (low-frequency band): filter frequency (omegani). |
| cim:PssIEEE4B.omeganl2 - Notch filter 2 (low-frequency band): filter frequency (omegani). |
| cim:PssIEEE4B.th1 - High band time constant (TH1). Typical Value = 0.01513. |
| cim:PssIEEE4B.th10 - High band time constant (TH10). Typical Value = 0. |
| cim:PssIEEE4B.th11 - High band time constant (TH11). Typical Value = 0. |
| cim:PssIEEE4B.th12 - High band time constant (TH12). Typical Value = 0. |
| cim:PssIEEE4B.th2 - High band time constant (TH2). Typical Value = 0.01816. |
| cim:PssIEEE4B.th3 - High band time constant (TH3). Typical Value = 0. |
| cim:PssIEEE4B.th4 - High band time constant (TH4). Typical Value = 0. |
| cim:PssIEEE4B.th5 - High band time constant (TH5). Typical Value = 0. |
| cim:PssIEEE4B.th6 - High band time constant (TH6). Typical Value = 0. |
| cim:PssIEEE4B.th7 - High band time constant (TH7). Typical Value = 0.01816. |
| cim:PssIEEE4B.th8 - High band time constant (TH8). Typical Value = 0.02179. |
| cim:PssIEEE4B.th9 - High band time constant (TH9). Typical Value = 0. |
| cim:PssIEEE4B.ti1 - Intermediate band time constant (TI1). Typical Value = 0.173. |
| cim:PssIEEE4B.ti10 - Intermediate band time constant (TI11). Typical Value = 0. |
| cim:PssIEEE4B.ti11 - Intermediate band time constant (TI11). Typical Value = 0. |
| cim:PssIEEE4B.ti12 - Intermediate band time constant (TI2). Typical Value = 0. |
| cim:PssIEEE4B.ti2 - Intermediate band time constant (TI2). Typical Value = 0.2075. |
| cim:PssIEEE4B.ti3 - Intermediate band time constant (TI3). Typical Value = 0. |
| cim:PssIEEE4B.ti4 - Intermediate band time constant (TI4). Typical Value = 0. |
| cim:PssIEEE4B.ti5 - Intermediate band time constant (TI5). Typical Value = 0. |
| cim:PssIEEE4B.ti6 - Intermediate band time constant (TI6). Typical Value = 0. |
| cim:PssIEEE4B.ti7 - Intermediate band time constant (TI7). Typical Value = 0.2075. |
| cim:PssIEEE4B.ti8 - Intermediate band time constant (TI8). Typical Value = 0.2491. |
| cim:PssIEEE4B.ti9 - Intermediate band time constant (TI9). Typical Value = 0. |
| cim:PssIEEE4B.tl1 - Low band time constant (TL1). Typical Value = 1.73. |
| cim:PssIEEE4B.tl10 - Low band time constant (TL10). Typical Value = 0. |
| cim:PssIEEE4B.tl11 - Low band time constant (TL11). Typical Value = 0. |
| cim:PssIEEE4B.tl12 - Low band time constant (TL12). Typical Value = 0. |
| cim:PssIEEE4B.tl2 - Low band time constant (TL2). Typical Value = 2.075. |
| cim:PssIEEE4B.tl3 - Low band time constant (TL3). Typical Value = 0. |
| cim:PssIEEE4B.tl4 - Low band time constant (TL4). Typical Value = 0. |
| cim:PssIEEE4B.tl5 - Low band time constant (TL5). Typical Value = 0. |
| cim:PssIEEE4B.tl6 - Low band time constant (TL6). Typical Value = 0. |
| cim:PssIEEE4B.tl7 - Low band time constant (TL7). Typical Value = 2.075. |
| cim:PssIEEE4B.tl8 - Low band time constant (TL8). Typical Value = 2.491. |
| cim:PssIEEE4B.tl9 - Low band time constant (TL9). Typical Value = 0. |
| cim:PssIEEE4B.vhmax - High band output maximum limit (VHmax). Typical Value = 0.6. |
| cim:PssIEEE4B.vhmin - High band output minimum limit (VHmin). Typical Value = -0.6. |
| cim:PssIEEE4B.vimax - Intermediate band output maximum limit (VImax). Typical Value = 0.6. |
| cim:PssIEEE4B.vimin - Intermediate band output minimum limit (VImin). Typical Value = -0.6. |
| cim:PssIEEE4B.vlmax - Low band output maximum limit (VLmax). Typical Value = 0.075. |
| cim:PssIEEE4B.vlmin - Low band output minimum limit (VLmin). Typical Value = -0.075. |
| cim:PssIEEE4B.vstmax - PSS output maximum limit (VSTmax). Typical Value = 0.15. |
| cim:PssIEEE4B.vstmin - PSS output minimum limit (VSTmin). Typical Value = -0.15. |
| cim:PssPTIST1 - PTI Microprocessor-Based Stabilizer type 1. |
| cim:PssPTIST1.dtc - Time step related to activation of controls (Dtc). Typical Value = 0.025. |
| cim:PssPTIST1.dtf - Time step frequency calculation (Dtf). Typical Value = 0.025. |
| cim:PssPTIST1.dtp - Time step active power calculation (Dtp). Typical Value = 0.0125. |
| cim:PssPTIST1.k - Gain (K). Typical Value = 9. |
| cim:PssPTIST1.m - (M). M=2*H. Typical Value = 5. |
| cim:PssPTIST1.t1 - Time constant (T1). Typical Value = 0.3. |
| cim:PssPTIST1.t2 - Time constant (T2). Typical Value = 1. |
| cim:PssPTIST1.t3 - Time constant (T3). Typical Value = 0.2. |
| cim:PssPTIST1.t4 - Time constant (T4). Typical Value = 0.05. |
| cim:PssPTIST1.tf - Time constant (Tf). Typical Value = 0.2. |
| cim:PssPTIST1.tp - Time constant (Tp). Typical Value = 0.2. |
| cim:PssPTIST3 - PTI Microprocessor-Based Stabilizer type 3. |
| cim:PssPTIST3.a0 - Filter coefficient (A0). |
| cim:PssPTIST3.a1 - Limiter (Al). |
| cim:PssPTIST3.a2 - Filter coefficient (A2). |
| cim:PssPTIST3.a3 - Filter coefficient (A3). |
| cim:PssPTIST3.a4 - Filter coefficient (A4). |
| cim:PssPTIST3.a5 - Filter coefficient (A5). |
| cim:PssPTIST3.al - Limiter (Al). |
| cim:PssPTIST3.athres - Threshold value above which output averaging will be bypassed (Athres). Typical Value = 0.005. |
| cim:PssPTIST3.b0 - Filter coefficient (B0). |
| cim:PssPTIST3.b1 - Filter coefficient (B1). |
| cim:PssPTIST3.b2 - Filter coefficient (B2). |
| cim:PssPTIST3.b3 - Filter coefficient (B3). |
| cim:PssPTIST3.b4 - Filter coefficient (B4). |
| cim:PssPTIST3.b5 - Filter coefficient (B5). |
| cim:PssPTIST3.dl - Limiter (Dl). |
| cim:PssPTIST3.dtc - Time step related to activation of controls (0.03 for 50 Hz) (Dtc). Typical Value = 0.025. |
| cim:PssPTIST3.dtf - Time step frequency calculation (0.03 for 50 Hz) (Dtf). Typical Value = 0.025. |
| cim:PssPTIST3.dtp - Time step active power calculation (0.015 for 50 Hz) (Dtp). Typical Value = 0.0125. |
| cim:PssPTIST3.isw - Digital/analog output switch (Isw).
true = produce analog output
false = convert to digital output, using tap selection table. |
| cim:PssPTIST3.k - Gain (K). Typical Value = 9. |
| cim:PssPTIST3.lthres - Threshold value (Lthres). |
| cim:PssPTIST3.m - (M). M=2*H. Typical Value = 5. |
| cim:PssPTIST3.nav - Number of control outputs to average (Nav) (1 <= Nav <= 16). Typical Value = 4. |
| cim:PssPTIST3.ncl - Number of counts at limit to active limit function (Ncl) (>0). |
| cim:PssPTIST3.ncr - Number of counts until reset after limit function is triggered (Ncr). |
| cim:PssPTIST3.pmin - (Pmin). |
| cim:PssPTIST3.t1 - Time constant (T1). Typical Value = 0.3. |
| cim:PssPTIST3.t2 - Time constant (T2). Typical Value = 1. |
| cim:PssPTIST3.t3 - Time constant (T3). Typical Value = 0.2. |
| cim:PssPTIST3.t4 - Time constant (T4). Typical Value = 0.05. |
| cim:PssPTIST3.t5 - Time constant (T5). |
| cim:PssPTIST3.t6 - Time constant (T6). |
| cim:PssPTIST3.tf - Time constant (Tf). Typical Value = 0.2. |
| cim:PssPTIST3.tp - Time constant (Tp). Typical Value = 0.2. |
| cim:PssSB4 - Power sensitive stabilizer model. |
| cim:PssSB4.kx - Gain (Kx). |
| cim:PssSB4.ta - Time constant (Ta). |
| cim:PssSB4.tb - Time constant (Tb). |
| cim:PssSB4.tc - Time constant (Tc). |
| cim:PssSB4.td - Time constant (Td). |
| cim:PssSB4.te - Time constant (Te). |
| cim:PssSB4.tt - Time constant (Tt). |
| cim:PssSB4.tx1 - Reset time constant (Tx1). |
| cim:PssSB4.tx2 - Time constant (Tx2). |
| cim:PssSB4.vsmax - Limiter (Vsmax). |
| cim:PssSB4.vsmin - Limiter (Vsmin). |
| cim:PssSH - Model for Siemens H infinity power system stabilizer with generator electrical power input. |
| cim:PssSH.k - Main gain (K). Typical Value = 1. |
| cim:PssSH.k0 - Gain 0 (K0). Typical Value = 0.012. |
| cim:PssSH.k1 - Gain 1 (K1). Typical Value = 0.488. |
| cim:PssSH.k2 - Gain 2 (K2). Typical Value = 0.064. |
| cim:PssSH.k3 - Gain 3 (K3). Typical Value = 0.224. |
| cim:PssSH.k4 - Gain 4 (K4). Typical Value = 0.1. |
| cim:PssSH.t1 - Time constant 1 (T1). Typical Value = 0.076. |
| cim:PssSH.t2 - Time constant 2 (T2). Typical Value = 0.086. |
| cim:PssSH.t3 - Time constant 3 (T3). Typical Value = 1.068. |
| cim:PssSH.t4 - Time constant 4 (T4). Typical Value = 1.913. |
| cim:PssSH.td - Input time constant (Td). Typical Value = 10. |
| cim:PssSH.vsmax - Output maximum limit (Vsmax). Typical Value = 0.1. |
| cim:PssSH.vsmin - Output minimum limit (Vsmin). Typical Value = -0.1. |
| cim:PssSK - PSS Slovakian type three inputs. |
| cim:PssSK.k1 - Gain P (K1). Typical Value = -0.3. |
| cim:PssSK.k2 - Gain fe (K2). Typical Value = -0.15. |
| cim:PssSK.k3 - Gain If (K3). Typical Value = 10. |
| cim:PssSK.t1 - Denominator time constant (T1). Typical Value = 0.3. |
| cim:PssSK.t2 - Filter time constant (T2). Typical Value = 0.35. |
| cim:PssSK.t3 - Denominator time constant (T3). Typical Value = 0.22. |
| cim:PssSK.t4 - Filter time constant (T4). Typical Value = 0.02. |
| cim:PssSK.t5 - Denominator time constant (T5). Typical Value = 0.02. |
| cim:PssSK.t6 - Filter time constant (T6). Typical Value = 0.02. |
| cim:PssSK.vsmax - Stabilizer output max limit (Vsmax). Typical Value = 0.4. |
| cim:PssSK.vsmin - Stabilizer output min limit (Vsmin). Typical Value = -0.4. |
| cim:PssWECC - Dual input Power System Stabilizer, based on IEEE type 2, with modified output limiter defined by WECC (Western Electricity Coordinating Council, USA). |
| cim:PssWECC.inputSignal1Type - Type of input signal #1. |
| cim:PssWECC.inputSignal2Type - Type of input signal #2. |
| cim:PssWECC.k1 - Input signal 1 gain (K1). |
| cim:PssWECC.k2 - Input signal 2 gain (K2). |
| cim:PssWECC.t1 - Input signal 1 transducer time constant (T1). |
| cim:PssWECC.t10 - Lag time constant (T10). |
| cim:PssWECC.t2 - Input signal 2 transducer time constant (T2). |
| cim:PssWECC.t3 - Stabilizer washout time constant (T3). |
| cim:PssWECC.t4 - Stabilizer washout time lag constant (T4) (>0). |
| cim:PssWECC.t5 - Lead time constant (T5). |
| cim:PssWECC.t6 - Lag time constant (T6). |
| cim:PssWECC.t7 - Lead time constant (T7). |
| cim:PssWECC.t8 - Lag time constant (T8). |
| cim:PssWECC.t9 - Lead time constant (T9). |
| cim:PssWECC.vcl - Minimum value for voltage compensator output (VCL). |
| cim:PssWECC.vcu - Maximum value for voltage compensator output (VCU). |
| cim:PssWECC.vsmax - Maximum output signal (Vsmax). |
| cim:PssWECC.vsmin - Minimum output signal (Vsmin). |
| cim:PT |
| cim:PTP |
| cim:ptRatio |
| cim:PTUR |
| cim:PU - Per Unit - a positive or negative value referred to a defined base. Values typically range from -10 to +10. |
| cim:PU.multiplier |
| cim:PU.unit |
| cim:PU.value |
| cim:Public_Bid_Data |
| cim:pullbox |
| cim:pulse |
| cim:PUMP |
| cim:PUMP_ETC |
| cim:PUMP_TOR |
| cim:pumpAndGenerator |
| cim:pumpedStorage |
| cim:PumpingCostSchedule - The operating cost of a Pump Storage Hydro Unit operating as a hydro pump.
This schedule is assocated with the hourly parameters in a resource bid associated with a specific product within the bid. |
| cim:PumpingCostSchedule.value |
| cim:PumpingLevelSchedule - The fixed operating level of a Pump Storage Hydro Unit operating as a hydro pump. Associated with the energy market product type.
This schedule is assocated with the hourly parameters in a resource bid associated with a specific product within the bid. |
| cim:PumpingLevelSchedule.value |
| cim:pumpingLoad |
| cim:PumpingShutDownCostSchedule - The cost to shutdown a Pump Storage Hydro Unit (in pump mode) or a pump.
This schedule is assocated with the hourly parameters in a resource bid associated with a specific product within the bid. |
| cim:PumpingShutDownCostSchedule.value |
| cim:Purchase |
| cim:purchase |
| cim:purchasingSellingEntity |
| cim:PurposeFlagType |
| cim:Push_Failed |
| cim:pushbutton |
| cim:pvc |
| cim:PWRSteamSupply - Pressurized water reactor used as a steam supply to a steam turbine. |
| cim:PWRSteamSupply.coldLegFBLagTC - Cold leg feedback lag time constant. |
| cim:PWRSteamSupply.coldLegFBLeadTC1 - Cold leg feedback lead time constant. |
| cim:PWRSteamSupply.coldLegFBLeadTC2 - Cold leg feedback lead time constant. |
| cim:PWRSteamSupply.coldLegFG1 - Cold leg feedback gain 1. |
| cim:PWRSteamSupply.coldLegFG2 - Cold leg feedback gain 2. |
| cim:PWRSteamSupply.coldLegLagTC - Cold leg lag time constant. |
| cim:PWRSteamSupply.coreHTLagTC1 - Core heat transfer lag time constant. |
| cim:PWRSteamSupply.coreHTLagTC2 - Core heat transfer lag time constant. |
| cim:PWRSteamSupply.coreNeutronicsEffTC - Core neutronics effective time constant. |
| cim:PWRSteamSupply.coreNeutronicsHT - Core neutronics and heat transfer. |
| cim:PWRSteamSupply.feedbackFactor - Feedback factor. |
| cim:PWRSteamSupply.hotLegLagTC - Hot leg lag time constant. |
| cim:PWRSteamSupply.hotLegSteamGain - Hot leg steam gain. |
| cim:PWRSteamSupply.hotLegToColdLegGain - Hot leg to cold leg gain. |
| cim:PWRSteamSupply.pressureCG - Pressure control gain. |
| cim:PWRSteamSupply.steamFlowFG - Steam flow feedback gain. |
| cim:PWRSteamSupply.steamPressureDropLagTC - Steam pressure drop lag time constant. |
| cim:PWRSteamSupply.steamPressureFG - Steam pressure feedback gain. |
| cim:PWRSteamSupply.throttlePressureFactor - Throttle pressure factor. |
| cim:PWRSteamSupply.throttlePressureSP - Throttle pressure setpoint. |
| cim:PYG |
| cim:Q |
| cim:q1minusQ4 |
| cim:q1plusQ2 |
| cim:q1plusQ3 |
| cim:q1plusQ4 |
| cim:q2minusQ3 |
| cim:q2plusQ3 |
| cim:q2plusQ4 |
| cim:q3minusQ2 |
| cim:q3plusQ4 |
| cim:QAR |
| cim:Qh |
| cim:quadrant1 |
| cim:quadrant2 |
| cim:quadrant3 |
| cim:quadrant4 |
| cim:QualificationRequirement - Certain skills are required and must be certified in order for a person (typically a member of a crew) to be qualified to work on types of equipment. |
| cim:QualificationRequirement.CULaborItem - |
| cim:QualificationRequirement.OldWorkTask - |
| cim:QualificationRequirement.qualificationID - Qualification identifier. |
| cim:QualificationRequirement.Skill - |
| cim:QUALIFIED_PREDISPATCH |
| cim:Quality61850 - Quality flags in this class are as defined in IEC 61850, except for estimatorReplaced, which has been included in this class for convenience. |
| cim:Quality61850.badReference - Measurement value may be incorrect due to a reference being out of calibration. |
| cim:Quality61850.estimatorReplaced - Value has been replaced by State Estimator. estimatorReplaced is not an IEC61850 quality bit but has been put in this class for convenience. |
| cim:Quality61850.failure - This identifier indicates that a supervision function has detected an internal or external failure, e.g. communication failure. |
| cim:Quality61850.oldData - Measurement value is old and possibly invalid, as it has not been successfully updated during a specified time interval. |
| cim:Quality61850.operatorBlocked - Measurement value is blocked and hence unavailable for transmission. |
| cim:Quality61850.oscillatory - To prevent some overload of the communication it is sensible to detect and suppress oscillating (fast changing) binary inputs. If a signal changes in a defined time (tosc) twice in the same direction (from 0 to 1 or from 1 to 0) then oscillation is detected and the detail quality identifier "oscillatory" is set. If it is detected a configured numbers of transient changes could be passed by. In this time the validity status "questionable" is set. If after this defined numbers of changes the signal is still in the oscillating state the value shall be set either to the opposite state of the previous stable value or to a defined default value. In this case the validity status "questionable" is reset and "invalid" is set as long as the signal is oscillating. If it is configured such that no transient changes should be passed by then the validity status "invalid" is set immediately in addition to the detail quality identifier "oscillatory" (used for status information only). |
| cim:Quality61850.outOfRange - Measurement value is beyond a predefined range of value. |
| cim:Quality61850.overFlow - Measurement value is beyond the capability of being represented properly. For example, a counter value overflows from maximum count back to a value of zero. |
| cim:Quality61850.source - Source gives information related to the origin of a value. The value may be acquired from the process, defaulted or substituted. |
| cim:Quality61850.suspect - A correlation function has detected that the value is not consitent with other values. Typically set by a network State Estimator. |
| cim:Quality61850.test - Measurement value is transmitted for test purposes. |
| cim:Quality61850.validity - Validity of the measurement value. |
| cim:Quantity - Description of quantities needed in the data exchange.
The type of the quantity is described either by the role of the association or the type attribute.
The quality attribute provides the information about the quality of the quantity (measured, estimated, etc.). |
| cim:Quantity.quality - The quality of the information being provided. This quality may be estimated, not available, as provided, etc. |
| cim:Quantity.quantity - The quantity value.
The association role provides the information about what is expressed. |
| cim:Quantity.type - The description of the type of the quantity. |
| cim:quantityPower |
| cim:QUESTIONABLE |
| cim:R |
| cim:RA |
| cim:rad |
| cim:radPers |
| cim:radPers2 |
| cim:RaiseLowerCommand - An analog control that increase or decrease a set point value with pulses. |
| cim:ral |
| cim:RampCurveType |
| cim:RampModeType |
| cim:RampRateCondition |
| cim:RampRateCurve - Ramp rate as a function of resource MW output |
| cim:RampRateCurve.condition - condition for the ramp rate |
| cim:RampRateCurve.constraintRampType - The condition that identifies whether a Generating Resource should be constrained from Ancillary Service provision if its Schedule or Dispatch change across Trading Hours or Trading Intervals requires more than a specified fraction of the duration of the Trading Hour or Trading Interval.
Valid values are Fast/Slow |
| cim:RampRateCurve.GeneratingBid - |
| cim:RampRateCurve.InterTieBid - |
| cim:RampRateCurve.LoadBid - |
| cim:RampRateCurve.rampRateType - How ramp rate is applied (e.g. raise or lower, as when applied to a generation resource) |
| cim:RampRateCurve.RegisteredResource - |
| cim:RampRateType |
| cim:RandomisationKind |
| cim:rAP |
| cim:rAS |
| cim:ratedCurrent |
| cim:rates |
| cim:RATING_ATC |
| cim:Ratio - Fraction specified explicitly with a numerator and denominator, which can be used to calculate the quotient. |
| cim:Ratio.denominator - The part of a fraction that is below the line and that functions as the divisor of the numerator. |
| cim:Ratio.numerator - The part of a fraction that is above the line and signifies the number to be divided by the denominator. |
| cim:RationalNumber - Rational number = 'numerator' / 'denominator'. |
| cim:RationalNumber.denominator - Denominator. Value 1 indicates the number is a simple integer. |
| cim:RationalNumber.numerator - Numerator. |
| cim:RatioTapChanger - A tap changer that changes the voltage ratio impacting the voltage magnitude but not the phase angle across the transformer. |
| cim:RatioTapChanger.stepVoltageIncrement - Tap step increment, in per cent of nominal voltage, per step position. |
| cim:RatioTapChanger.tculControlMode - Specifies the regulation control mode (voltage or reactive) of the RatioTapChanger. |
| cim:RatioTapChanger.TransformerEnd - Transformer end to which this ratio tap changer belongs.Ratio tap changer associated with this transformer end. |
| cim:RatioTapChangerTable - Describes a curve for how the voltage magnitude and impedance varies with the tap step. |
| cim:RatioTapChangerTable.RatioTapChanger - The ratio tap changer of this tap ratio table.The tap ratio table for this ratio tap changer. |
| cim:RatioTapChangerTable.RatioTapChangerTablePoint - Points of this table.Table of this point. |
| cim:RatioTapChangerTablePoint - Describes each tap step in the ratio tap changer tabular curve. |
| cim:RC |
| cim:RCNG |
| cim:RD |
| cim:RDT |
| cim:RE |
| cim:Reactance - Reactance (imaginary part of impedance), at rated frequency. |
| cim:Reactance.multiplier |
| cim:Reactance.unit |
| cim:Reactance.value |
| cim:ReactancePerLength - Reactance (imaginary part of impedance) per unit of length, at rated frequency. |
| cim:ReactancePerLength.multiplier |
| cim:ReactancePerLength.unit |
| cim:ReactancePerLength.value |
| cim:reactive |
| cim:ReactiveCapabilityCurve - Reactive power rating envelope versus the synchronous machine's active power, in both the generating and motoring modes. For each active power value there is a corresponding high and low reactive power limit value. Typically there will be a separate curve for each coolant condition, such as hydrogen pressure. The Y1 axis values represent reactive minimum and the Y2 axis values represent reactive maximum. |
| cim:ReactiveCapabilityCurve.coolantTemperature - The machine's coolant temperature (e.g., ambient air or stator circulating water). |
| cim:ReactiveCapabilityCurve.hydrogenPressure - The hydrogen coolant pressure |
| cim:reactivePcc |
| cim:ReactivePower - Product of RMS value of the voltage and the RMS value of the quadrature component of the current. |
| cim:reactivePower |
| cim:ReactivePower.multiplier |
| cim:ReactivePower.unit |
| cim:ReactivePower.value |
| cim:Reading - Specific value measured by a meter or other asset, or calculated by a system. Each Reading is associated with a specific ReadingType. |
| cim:Reading.reason - Reason for this reading being taken. |
| cim:ReadingInterharmonic - Interharmonics are represented as a rational number 'numerator' / 'denominator', and harmonics are represented using the same mechanism and identified by 'denominator'=1. |
| cim:ReadingInterharmonic.denominator - Interharmonic denominator. Value 0 means not applicable. Value 2 is used in combination with 'numerator'=1 to represent interharmonic 1/2. Finally, value 1 indicates the harmonic of the order specified with 'numerator'. |
| cim:ReadingInterharmonic.numerator - Interharmonic numerator. Value 0 means not applicable. Value 1 is used in combination with 'denominator'=2 to represent interharmonic 1/2, and with 'denominator'=1 it represents fundamental frequency. Finally, values greater than 1 indicate the harmonic of that order (e.g., 'numerator'=5 is the fifth harmonic). |
| cim:ReadingQuality - Quality of a specific reading value or interval reading value. Note that more than one quality may be applicable to a given reading. Typically not used unless problems or unusual conditions occur (i.e., quality for each reading is assumed to be good unless stated otherwise in associated reading quality type). It can also be used with the corresponding reading quality type to indicate that the validation has been performed and succeeded. |
| cim:ReadingQuality.comment - Elaboration on the quality code. |
| cim:ReadingQuality.source - System acting as the source of the quality code. |
| cim:ReadingQuality.timeStamp - Date and time at which the quality code was assigned or ascertained. |
| cim:ReadingQualityType - Detailed description for a quality of a reading value, produced by an end device or a system. Values in attributes allow for creation of the recommended codes to be used for identifying reading value quality codes as follows: <systemId>.<category>.<subCategory>. |
| cim:ReadingQualityType.category - High-level nature of the reading value quality. |
| cim:ReadingQualityType.ReadingQuality - All reading qualities of this type.Type of this reading quality. |
| cim:ReadingQualityType.subCategory - More specific nature of the reading value quality, as a further sub-categorisation of 'category'. |
| cim:ReadingQualityType.systemId - Identification of the system which has declared the issue with the data or provided commentary on the data. |
| cim:ReadingReasonKind |
| cim:ReadingType - Detailed description for a type of a reading value. Values in attributes allow for the creation of recommended codes to be used for identifying reading value types as follows: <macroPeriod>.<aggregate>.<measuringPeriod>.<accumulation>.<flowDirection>.<commodity>.<measurementKind>.<interharmonic.numerator>.<interharmonic.denominator>.<argument.numerator>.<argument.denominator>.<tou>.<cpp>.<consumptionTier>.<phases>.<multiplier>.<unit>.<currency>. |
| cim:ReadingType.accumulation - Accumulation behaviour of a reading over time, usually 'measuringPeriod', to be used with individual endpoints (as opposed to 'macroPeriod' and 'aggregate' that are used to describe aggregations of data from individual endpoints). |
| cim:ReadingType.aggregate - Salient attribute of the reading data aggregated from individual endpoints. This is mainly used to define a mathematical operation carried out over 'macroPeriod', but may also be used to describe an attribute of the data when the 'macroPeriod' is not defined. |
| cim:ReadingType.argument - Argument used to introduce numbers into the unit of measure description where they are needed (e.g., 4 where the measure needs an argument such as CEMI(n=4)). Most arguments used in practice however will be integers (i.e., 'denominator'=1).
Value 0 in 'numerator' and 'denominator' means not applicable. |
| cim:ReadingType.commodity - Commodity being measured. |
| cim:ReadingType.ConsumptionTariffInterval - All tariff intervals with consumption described by this reading type.Reading type for 'startValue'. |
| cim:ReadingType.consumptionTier - In case of common flat-rate pricing for power, in which all purchases are at a given rate, 'consumptionTier'=0. Otherwise, the value indicates the consumption tier, which can be used in conjunction with TOU or CPP pricing.
Consumption tier pricing refers to the method of billing in which a certain "block" of energy is purchased/sold at one price, after which the next block of energy is purchased at another price, and so on, all throughout a defined period. At the start of the defined period, consumption is initially zero, and any usage is measured against the first consumption tier ('consumptionTier'=1). If this block of energy is consumed before the end of the period, energy consumption moves to be reconed against the second consumption tier ('consumptionTier'=2), and so on. At the end of the defined period, the consumption accumulator is reset, and usage within the 'consumptionTier'=1 restarts. |
| cim:ReadingType.cpp - Critical peak period (CPP) bucket the reading value is attributed to. Value 0 means not applicable. Even though CPP is usually considered a specialised form of time of use 'tou', this attribute is defined explicitly for flexibility. |
| cim:ReadingType.currency - Metering-specific currency. |
| cim:ReadingType.flowDirection - Flow direction for a reading where the direction of flow of the commodity is important (for electricity measurements this includes current, energy, power, and demand). |
| cim:ReadingType.interharmonic - Indication of a "harmonic" or "interharmonic" basis for the measurement. Value 0 in 'numerator' and 'denominator' means not applicable. |
| cim:ReadingType.IntervalBlock - All blocks containing interval reading values with this type information.Type information for interval reading values contained in this block. |
| cim:ReadingType.macroPeriod - Time period of interest that reflects how the reading is viewed or captured over a long period of time. |
| cim:ReadingType.measurementKind - Identifies "what" is being measured, as refinement of 'commodity'. When combined with 'unit', it provides detail to the unit of measure. For example, 'energy' with a unit of measure of 'kWh' indicates to the user that active energy is being measured, while with 'kVAh' or 'kVArh', it indicates apparent energy and reactive energy, respectively. 'power' can be combined in a similar way with various power units of measure: Distortion power ('distortionVoltAmperes') with 'kVA' is different from 'power' with 'kVA'. |
| cim:ReadingType.measuringPeriod - Time attribute inherent or fundamental to the reading value (as opposed to 'macroPeriod' that supplies an "adjective" to describe aspects of a time period with regard to the measurement). It refers to the way the value was originally measured and not to the frequency at which it is reported or presented. For example, an hourly interval of consumption data would have value 'hourly' as an attribute. However in the case of an hourly sampled voltage value, the meterReadings schema would carry the 'hourly' interval size information.
It is common for meters to report demand in a form that is measured over the course of a portion of an hour, while enterprise applications however commonly assume the demand (in kW or kVAr) normalised to 1 hour. The system that receives readings directly from the meter therefore shall perform this transformation before publishing readings for use by the other enterprise systems. The scalar used is chosen based on the block size (not any sub-interval size). |
| cim:ReadingType.MetrologyRequirement - All metrology requirements that require this reading type to be collected.All reading types required to be collected by this metrology requirement. |
| cim:ReadingType.multiplier - Metering-specific multiplier. |
| cim:ReadingType.PendingCalculation - Pending calculation that produced this reading type.Reading type resulting from this pending conversion. |
| cim:ReadingType.phases - Metering-specific phase code. |
| cim:ReadingType.Reading - All reading values with this type information.Type information for this reading value. |
| cim:ReadingType.tou - Time of use (TOU) bucket the reading value is attributed to. Value 0 means not applicable. |
| cim:ReadingType.unit - Metering-specific unit. |
| cim:REAL |
| cim:RealEnergy - Real electrical energy. |
| cim:RealEnergy.multiplier |
| cim:RealEnergy.unit |
| cim:RealEnergy.value |
| cim:Reason - The motivation of an act. |
| cim:Reason.code - The motivation of an act in coded form. |
| cim:Reason.Period - |
| cim:Reason.text - The textual explanation corresponding to the reason code. |
| cim:Reason.TimeSeries - |
| cim:recalculation |
| cim:Receipt - Record of total receipted payment from customer. |
| cim:Receipt.CashierShift - Cashier shift during which this receipt was recorded.All Receipts recorded for this Shift. |
| cim:Receipt.isBankable - True if this receipted payment is manually bankable, otherwise it is an electronic funds transfer. |
| cim:Receipt.line - Receipted amount with rounding, date and note. |
| cim:Receipt.Tender - All payments received in the form of tenders recorded by this receipt.Receipt that recorded this receiving of a payment in the form of tenders. |
| cim:Receipt.VendorShift - Vendor shift during which this receipt was recorded.All receipts recorded during this vendor shift. |
| cim:recloser |
| cim:Recloser - Pole-mounted fault interrupter with built-in phase and ground relays, current transformer (CT), and supplemental controls. |
| cim:RecloserInfo - Properties of recloser assets. |
| cim:RecloserInfo.groundTripCapable - True if device has ground trip capability. |
| cim:RecloserInfo.groundTripNormalEnabled - True if normal status of ground trip is enabled. |
| cim:RecloserInfo.groundTripRating - Ground trip rating. |
| cim:RecloserInfo.phaseTripRating - Phase trip rating. |
| cim:RecloserInfo.recloseLockoutCount - Total number of phase reclose operations. |
| cim:RecloseSequence - A reclose sequence (open and close) is defined for each possible reclosure of a breaker. |
| cim:RecloseSequence.recloseDelay - Indicates the time lapse before the reclose step will execute a reclose. |
| cim:RecloseSequence.recloseStep - Indicates the ordinal position of the reclose step relative to other steps in the sequence. |
| cim:ReconciliationAccountable |
| cim:ReconciliationResponsible |
| cim:Reconditioning - Reconditioning information for an asset. |
| cim:Reconditioning.Asset - |
| cim:Reconditioning.CoolingPowerRating - |
| cim:Reconditioning.dateTime - Date and time this reconditioning (or a major overhaul) has been performed. |
| cim:reconnect |
| cim:RECP |
| cim:rectifier |
| cim:RED |
| cim:RedLine - This class is used for handling the accompanying annotations, time stamp, author, etc. of designs, drawings and maps. A red line can be associated with any Location object. |
| cim:RedLine.status |
| cim:refuse |
| cim:REG |
| cim:REGC |
| cim:REGDN |
| cim:Register - A device that indicates or records units of the commodity or other quantity measured. |
| cim:Register.isVirtual - If true, the data it produces is calculated or measured by a device other than a physical end device/meter. Otherwise, any data streams it produces are measured by the hardware of the end device/meter itself. |
| cim:Register.leftDigitCount - Number of digits (dials on a mechanical meter) to the left of the decimal place; default is normally 5. |
| cim:Register.rightDigitCount - Number of digits (dials on a mechanical meter) to the right of the decimal place. |
| cim:Register.touTier - Clock time interval for register to beging/cease accumulating time of usage (e.g., start at 8:00 am, stop at 5:00 pm). |
| cim:Register.touTierName - Name used for the time of use tier (also known as bin or bucket). For example, "peak", "off-peak", "TOU Category A", etc. |
| cim:RegisteredGenerator - Model of a generator that is registered to participate in the market |
| cim:RegisteredGenerator.AuxiliaryObject - |
| cim:RegisteredGenerator.capacityFactor - Capacity Factor |
| cim:RegisteredGenerator.coldStartTime - Cold start time. |
| cim:RegisteredGenerator.combinedCyclePlantName - Name of the Combined Cycle Plant (valid for Combined Cyle modes or configurations) |
| cim:RegisteredGenerator.commericialOperationDate |
| cim:RegisteredGenerator.constrainedOutputFlag - Constrained Output Generator (COG) Indicator (Yes/No), per Generating Resource |
| cim:RegisteredGenerator.costBasis |
| cim:RegisteredGenerator.EnergyPriceIndex - |
| cim:RegisteredGenerator.extremeLongStart - Some long-start up time units may need to receive start up instruction before DA market results are available. Long-Start resources may be either physical resources within the control with start-up times greater than 18 hours or the long-start contractual inter-tie commitment that shall be completed by 6 am one-day ahead. Therefore, there is a need for a process to determine the commitment of such resources before the DA market. |
| cim:RegisteredGenerator.FuelCostCurve - |
| cim:RegisteredGenerator.FuelRegion - |
| cim:RegisteredGenerator.fuelSource - Values: Natural Gas Based Resource, Non Natural Gas Based Resource
"NG" - Natural-Gas-Based Resource - a Resource that is powered by Natural Gas
"NNG" - Non-Natural-Gas-Based Resource - a Resouce that is powered by some other fuel than Natural Gas |
| cim:RegisteredGenerator.highControlLimit - High limit for secondary (AGC) control |
| cim:RegisteredGenerator.hotIntTime - Hot-to-intermediate time (Seasonal) |
| cim:RegisteredGenerator.hotStartTime - Hot start time. |
| cim:RegisteredGenerator.intColdTime - Intermediate-to-cold time (Seasonal) |
| cim:RegisteredGenerator.intendedPIRP - Provides an indication that this resource is intending to participate in the intermittent resource program. |
| cim:RegisteredGenerator.intStartTime - Intermediate start time. |
| cim:RegisteredGenerator.loadFollowingDownMSS - Certifies resources for use in MSS Load Following Down |
| cim:RegisteredGenerator.loadFollowingUpMSS - Certifies resources for use in MSS Load Following Up |
| cim:RegisteredGenerator.LocalReliabilityArea - |
| cim:RegisteredGenerator.lowControlLImit - Low limit for secondary (AGC) control |
| cim:RegisteredGenerator.lowerControlRate - Regulation down response rate in MW per minute |
| cim:RegisteredGenerator.lowerRampRate |
| cim:RegisteredGenerator.maxDependableCap - Maximum Dependable Capacity (MNDC). |
| cim:RegisteredGenerator.maximumAllowableSpinningReserve - Maximum allowable spinning reserve. Spinning reserve will never be considered greater than this value regardless of the current operating point. |
| cim:RegisteredGenerator.maximumOperatingMW - This is the maximum operating MW limit the dispatcher can enter for this unit |
| cim:RegisteredGenerator.maxLayOffSelfSchedQty |
| cim:RegisteredGenerator.maxMinLoadCost - The registered maximum Minimum Load Cost of a Generating Resource registered with a Cost Basis of "Bid Cost". |
| cim:RegisteredGenerator.maxPumpingLevel - max pumping level of a hydro pump unit |
| cim:RegisteredGenerator.maxShutdownTime - Maximum time this device can be shut down. |
| cim:RegisteredGenerator.maxStartUpsPerDay - maximum start ups per day |
| cim:RegisteredGenerator.maxWeeklyEnergy - Maximum weekly Energy (Seasonal) |
| cim:RegisteredGenerator.maxWeeklyStarts - Maximum weekly starts (seasonal parameter) |
| cim:RegisteredGenerator.minimumLoadFuelCost - The cost for the fuel required to get a Generating Resource to operate at the minimum load level |
| cim:RegisteredGenerator.minimumOperatingMW - This is the minimum operating MW limit the dispatcher can enter for this unit. |
| cim:RegisteredGenerator.minLoadCost - minimum load cost. Value is (currency/hr) |
| cim:RegisteredGenerator.mustOfferRA - Flag to indicate that this unit is a resource adequacy resource and must offer. |
| cim:RegisteredGenerator.nameplateCapacity - MW value stated on the nameplate of the Generator -- the value it potentially could provide. |
| cim:RegisteredGenerator.operatingMaintenanceCost - The portion of the Operating Cost of a Generating Resource that is not related to fuel cost. |
| cim:RegisteredGenerator.operatingMode - Combined Cycle operating mode. |
| cim:RegisteredGenerator.proxyFlag |
| cim:RegisteredGenerator.pumpingCost |
| cim:RegisteredGenerator.pumpingFactor - Pumping factor for pump storage units, conversion factor between generating and pumping. |
| cim:RegisteredGenerator.pumpMinDownTime - The minimum down time for the pump in a pump storage unit. |
| cim:RegisteredGenerator.pumpMinUpTime - The minimum up time aspect for the pump in a pump storage unit |
| cim:RegisteredGenerator.pumpShutdownCost - The cost to shutdown a pump during the pump aspect of a pump storage unit. |
| cim:RegisteredGenerator.pumpShutdownTime - The shutdown time (minutes) of the pump aspect of a pump storage unit. |
| cim:RegisteredGenerator.qualifyingFacilityOwner |
| cim:RegisteredGenerator.quickStartFlag - Quick start flag (Yes/No) |
| cim:RegisteredGenerator.raiseControlRate - Regulation up response rate in MW per minute |
| cim:RegisteredGenerator.raiseRampRate |
| cim:RegisteredGenerator.rampCurveType - Ramp curve type:
0 - Fixed ramp rate independent of rate function unit MW output
1 - Static ramp rates as a function of unit MW output only
2 - Dynamic ramp rates as a function of unit MW output and ramping time |
| cim:RegisteredGenerator.rampMode - Ramping mode
0: ignore ramping limits
1: 20-minute ramping rule
2: 60-minute ramping rule |
| cim:RegisteredGenerator.regulationFlag - 0 = Unit is not on regulation
1 = Unit is on AGC and regulating
2 = Unit is suppose to be on regulation but it is not under regulation now |
| cim:RegisteredGenerator.regulationRampRate - For the outage scheduling services |
| cim:RegisteredGenerator.resourceSubType - CCGT90 Combined Cycle greater than 90 MW
CCLE90 Combined Cycle less than or equal to 90 MW
CLLIG Coal and Lignite
DSL Diesel
GASSTM Gas-Steam
GSNONR Gas Steam Non-Reheat Boiler
GSREH Gas Steam Reheat Boiler
GSSUP Gas Steam Supercritical Boiler
HYDRO Hydro
NUC Nuclear
RENEW Renewable
SCGT90 Simple Cycle greater than 90 MW
SCLE90 Simple Cycle less than or equal to 90 MW
WIND Wind
PS Pumped Storage |
| cim:RegisteredGenerator.riverSystem - River System the Resource is tied to. |
| cim:RegisteredGenerator.RMNRFlag - Reliability must not run (RMNR) flag: indicated whether the RMR unit is set as an RMNR in the current market |
| cim:RegisteredGenerator.RMRFlag - Reliability must run (RMR) flag: indicates whether the unit is RMR; Indicates whether the unit is RMR:
N' - not an RMR unit
'1' - RMR Condition 1 unit
'2' - RMR Condition 2 unit |
| cim:RegisteredGenerator.RMRManualIndicator - Indicates the RMR Manual pre-determination status [Y/N] |
| cim:RegisteredGenerator.RMTFlag - Reliability must take (RMT) flag (Yes/No): indicates whether the unit is RMT |
| cim:RegisteredGenerator.spinReserveRamp |
| cim:RegisteredGenerator.StartUpCostCurve - |
| cim:RegisteredGenerator.syncCondCapable - Is the Resource Synchronous Condenser capable Resource? |
| cim:RegisteredGenerator.UnitInitialConditions - |
| cim:RegisteredGenerator.unitType - Generating unit type: Combined Cycle, Gas Turbine, Hydro Turbine, Other, Photovoltaic, Hydro Pump-Turbine, Reciprocating Engine, Steam Turbine, Synchronous Condenser, Wind Turbine |
| cim:RegisteredGenerator.useLimitFlag - Use limit flag: indicates if the use-limited resource is fully scheduled (or has some slack for real-time dispatch) (Y/N) |
| cim:RegisteredInterTie - This class represents the inter tie resource. |
| cim:RegisteredInterTie.direction - indicate the direction (export/import) of an intertie resource |
| cim:RegisteredInterTie.energyProductType - Under each major product type, the commodity type can be applied to further specify the type. |
| cim:RegisteredInterTie.Flowgate - |
| cim:RegisteredInterTie.InterchangeSchedule - |
| cim:RegisteredInterTie.InterTieBid - |
| cim:RegisteredInterTie.isDCTie - Flag to indicated whether this Inter-tie is a DC Tie. |
| cim:RegisteredInterTie.isDynamicInterchange - check if the inter-tie resource is registered for the dynamic interchange.. |
| cim:RegisteredInterTie.minHourlyBlockLimit - The registered upper bound of minimum hourly block for an Inter-Tie Resource |
| cim:RegisteredInterTie.WheelingCounterParty - |
| cim:RegisteredLoad - Model of a load that is registered to participate in the market (demand reduction) |
| cim:RegisteredLoad.AuxiliaryObject - |
| cim:RegisteredLoad.blockLoadTransferFlag - Flag to indicate that the Resource is Block Load pseudo resource (‘Y’, ‘ N’) |
| cim:RegisteredLoad.dynamicallyScheduledLoadResourceFlag - Flag to indicate that a Load Resource is part of a DSR Load |
| cim:RegisteredLoad.dynamicallyScheduledQualificationFlag - Qualification status (used for DSR qualification) |
| cim:RegisteredLoad.loadRegistryMSS - Non-participating load registry as a MSS load |
| cim:RegisteredLoad.maxBaseLoad - Maximum Base Load (MW), per Participating Load Resource |
| cim:RegisteredLoad.maxDeploymentTime - Maximum Deployment time (seconds) |
| cim:RegisteredLoad.maxLoadRedTimesPerDay - Maximum Number of Daily Load Curtailments |
| cim:RegisteredLoad.maxLoadReduction - maximum load reduction |
| cim:RegisteredLoad.maxReductionTime - Maxiimum Load Reduction Time (min), per Participating Load Resource |
| cim:RegisteredLoad.maxWeeklyDeployment - Maximum weekly deployments |
| cim:RegisteredLoad.minLoadReduction - Minimum MW for a load reduction (e.g., MW rating of a discrete pump.
This attribute may be used also in the LoadBid class. The reason that the attribute is also modeled in this class is that it is resource attribute and needs to be persistently stored. |
| cim:RegisteredLoad.minLoadReductionCost - minimum load reduction cost. Single number for the load |
| cim:RegisteredLoad.minLoadReductionInterval - Shortest period load reduction shall be maintained before load can be restored to normal levels.
This attribute may be used also in the LoadBid class. The reason that the attribute is also modeled in this class is that it is resource attribute and needs to be persistently stored. |
| cim:RegisteredLoad.minReductionTime - Minimum Load Reduction Time (min), per Participating Load Resource |
| cim:RegisteredLoad.minTimeBetLoadRed - Shortest time that load shall be left at normal levels before a new load reduction.
This attribute may be used also in the LoadBid class. The reason that the attribute is also modeled in this class is that it is resource attribute and needs to be persistently stored. |
| cim:RegisteredLoad.NPLCustomLoadAggregation - A Non-Participating Load Resource aggregation scheme with resource-specific Distribution Factors that are submitted with the Bid and for which the distributed Energy is settled at the relevant Distribution Location marginal prices. |
| cim:RegisteredLoad.participatingLoad - Participating Load flag: indicates whether the load resource is participates in load reduction actions. |
| cim:RegisteredLoad.reqNoticeTime - Time period that is required from an order to reduce a load to the time that it takes to get to the minimum load reduction.
This attribute may be used also in the LoadBid class. The reason that the attribute is also modeled in this class is that it is resource attribute and needs to be persistently stored. |
| cim:RegisteredLoad.resourceSubType - CLR Controllable Load
NCLR Non-Controllable Load |
| cim:RegisteredResource - A resource that is registered through the market participant registration system. Examples include generating unit, load, and non-physical generator or load. |
| cim:RegisteredResource.ACAFlag - Indication that this resource is associated with an Adjacent Control Area |
| cim:RegisteredResource.ASSPOptimizationFlag - Indication that the resource participates in the optimization process by default. |
| cim:RegisteredResource.commercialOpDate - Resource Commercial Operation Date. |
| cim:RegisteredResource.contingencyAvailFlag - contingent operating reserve availiability (Yes/No). Resource is availiable to participate with capacity in contingency dispatch. |
| cim:RegisteredResource.ControlAreaDesignation - |
| cim:RegisteredResource.DefaultBid - |
| cim:RegisteredResource.dispatchFlag - Dispatch flag: indicates whether the resource is dispatchable (Y/N)
It is move to the RegisteredResource class for the participating load dispatch purpose |
| cim:RegisteredResource.DotInstruction - |
| cim:RegisteredResource.ECAFlag - Indication that this resource is associated with an Embedded Control area |
| cim:RegisteredResource.endEffectiveDate - end effective date |
| cim:RegisteredResource.EnergyMarket - |
| cim:RegisteredResource.ExPostResourceResults - |
| cim:RegisteredResource.flexibleOfferFlag - flexible offer flag (Y/N) |
| cim:RegisteredResource.HostControlArea - |
| cim:RegisteredResource.hourlyPredispatch - Indicates need to dispatch before the start of the operating hour. Only relevent in Real-Time Market. Applies to generation, intertie and participating load resource. Value (Y/N) |
| cim:RegisteredResource.Instructions - |
| cim:RegisteredResource.isAggregatedRes - a flag to indicate if a resource is an aggregated resource |
| cim:RegisteredResource.lastModified - Indication of the last time this item was modified/versioned. |
| cim:RegisteredResource.LMPMFlag - LMPM flag: indicates whether the resource is subject to the LMPM test (Yes/No) |
| cim:RegisteredResource.LoadFollowingOperatorInput - |
| cim:RegisteredResource.marketParticipationFlag - Market Participation flag: indicates whether the resource participate in the market (Y/N) |
| cim:RegisteredResource.maxBaseSelfSchedQty_ - maximum base self schedule quantity |
| cim:RegisteredResource.maxOnTime - maximum on time after start up |
| cim:RegisteredResource.minDispatchTime - minimum number of consecutive hours a resource shall be dispatched if bid is accepted |
| cim:RegisteredResource.minOffTime - minimum off time after shut down |
| cim:RegisteredResource.minOnTime - minimum on time after start up |
| cim:RegisteredResource.MPMTestThreshold - |
| cim:RegisteredResource.mustOfferFlag - Must offer flag: indicates whether the unit is subject to the must offer provisions (Y/N) |
| cim:RegisteredResource.nonMarket - Flag to indicate that the Resource is not participating in the Market Operations. |
| cim:RegisteredResource.Pnode - A registered resource injects power at one or more connectivity nodes related to a pnodeA registered resource injects power at one or more connectivity nodes related to a pnode |
| cim:RegisteredResource.pointOfDeliveryFlag - Indication that the registered resource is a Point of Delivery (YES) resource which implies there is a POD Loss Factor. |
| cim:RegisteredResource.priceSetFlagDA - Price setting flag: indicates whether a resource is capable of setting the Market Clearing Price (Y) for the DA market, and if not, indicates whether the resource shall submit bids for energy at $ 0 (S) or not (N)
Initially in the RegisteredGenerator class. It wasmove to the RegisteredResource class for the participating load dispatch purpose |
| cim:RegisteredResource.priceSetFlagRT - Price setting flag: indicates whether a resource is capable of setting the Market Clearing Price (Y) for the RT market, and if not, indicates whether the resource shall submit bids for energy at $ 0 (S) or not (N)
Initially in the RegisteredGenerator class. It wasmove to the RegisteredResource class for the participating load dispatch purpose |
| cim:RegisteredResource.registrationStatus - Registration Status of resource - Active, Mothballed, Planned, or Decommissioned. |
| cim:RegisteredResource.resourceAdequacyFlag - Indication that this resource participates inthe resource adequacy function. |
| cim:RegisteredResource.ResourceAwardInstruction - |
| cim:RegisteredResource.ResourceVerifiableCosts - |
| cim:RegisteredResource.SMPMFlag - SMPM flag: indicates whether the resource is subject to the SMPM test (Yes/No) |
| cim:RegisteredResource.startEffectiveDate - start effective date |
| cim:RegularIntervalSchedule - The schedule has time points where the time between them is constant. |
| cim:RegularIntervalSchedule.endTime - The time for the last time point. |
| cim:RegularIntervalSchedule.timeStep - The time between each pair of subsequent regular time points in sequence order. |
| cim:RegularTimePoint - Time point for a schedule where the time between the consecutive points is constant. |
| cim:RegularTimePoint.RegularIntervalSchedule - Regular interval schedule containing this time point.The regular interval time point data values that define this schedule. |
| cim:RegularTimePoint.sequenceNumber - The position of the regular time point in the sequence. Note that time points don't have to be sequential, i.e. time points may be omitted. The actual time for a RegularTimePoint is computed by multiplying the associated regular interval schedule's time step with the regular time point sequence number and adding the associated schedules start time. |
| cim:RegularTimePoint.value1 - The first value at the time. The meaning of the value is defined by the derived type of the associated schedule. |
| cim:RegularTimePoint.value2 - The second value at the time. The meaning of the value is defined by the derived type of the associated schedule. |
| cim:RegulatingCondEq - A type of conducting equipment that can regulate a quantity (i.e. voltage or flow) at a specific point in the network. |
| cim:RegulatingCondEq.controlEnabled - Specifies the regulation status of the equipment. True is regulating, false is not regulating. |
| cim:RegulatingControl - Specifies a set of equipment that works together to control a power system quantity such as voltage or flow.
Remote bus voltage control is possible by specifying the controlled terminal located at some place remote from the controlling equipment.
In case multiple equipment, possibly of different types, control same terminal there must be only one RegulatingControl at that terminal. The most specific subtype of RegulatingControl shall be used in case such equipment participate in the control, e.g. TapChangerControl for tap changers.
For flow control load sign convention is used, i.e. positive sign means flow out from a TopologicalNode (bus) into the conducting equipment. |
| cim:RegulatingControl.discrete - The regulation is performed in a discrete mode. This applies to equipment with discrete controls, e.g. tap changers and shunt compensators. |
| cim:RegulatingControl.enabled - The flag tells if regulation is enabled. |
| cim:RegulatingControl.mode - The regulating control mode presently available. This specification allows for determining the kind of regulation without need for obtaining the units from a schedule. |
| cim:RegulatingControl.monitoredPhase - Phase voltage controlling this regulator, measured at regulator location. |
| cim:RegulatingControl.ProtectiveActionRegulation - |
| cim:RegulatingControl.RegulatingCondEq - The equipment that participates in this regulating control scheme.The regulating control scheme in which this equipment participates. |
| cim:RegulatingControl.RegulationSchedule - Schedule for this Regulating regulating control.Regulating controls that have this Schedule. |
| cim:RegulatingControl.targetDeadband - This is a deadband used with discrete control to avoid excessive update of controls like tap changers and shunt compensator banks while regulating.
The units of those appropriate for the mode. |
| cim:RegulatingControl.targetValue - The target value specified for case input. This value can be used for the target value without the use of schedules. The value has the units appropriate to the mode attribute. |
| cim:RegulatingControl.targetValueUnitMultiplier - Specify the multiplier for used for the targetValue. |
| cim:RegulatingControl.Terminal - The terminal associated with this regulating control. The terminal is associated instead of a node, since the terminal could connect into either a topological node (bus in bus-branch model) or a connectivity node (detailed switch model). Sometimes it is useful to model regulation at a terminal of a bus bar object since the bus bar can be present in both a bus-branch model or a model with switch detail.The controls regulating this terminal. |
| cim:RegulatingControlModeKind |
| cim:RegulatingLimit - This class represents the physical characteristc of a generator regarding the regulating limit |
| cim:RegulatingLimit.highLimit |
| cim:RegulatingLimit.lowLimit |
| cim:RegulatingLimit.RegisteredGenerator - |
| cim:Regulation - Special requirements and/or regulations may pertain to certain types of assets or work. For example, fire protection and scaffolding. |
| cim:Regulation.referenceNumber - External reference to regulation, if applicable. |
| cim:RegulationBranchKind |
| cim:RegulationSchedule - A pre-established pattern over time for a controlled variable, e.g., busbar voltage. |
| cim:regulatorBypass |
| cim:REGUP |
| cim:relayActivation |
| cim:relayCycle |
| cim:relaysProgramming |
| cim:release |
| cim:reliabilityAuthority |
| cim:ReliabilityInfo - Information regarding the experienced and expected reliability of a specific asset, type of asset, or asset model. |
| cim:ReliabilityInfo.momFailureRate - Momentary failure rate (temporary failures/kft-year). |
| cim:ReliabilityInfo.mTTR - Mean time to repair (MTTR - hours). |
| cim:RemedialActionScheme - Remedial Action Scheme (RAS), Special Protection Schemes (SPS), System Protection Schemes (SPS) or System Integrity Protection Schemes (SIPS). |
| cim:RemedialActionScheme.armed - The status of the class set by operation or by signal. Optional field that will override other status fields. |
| cim:RemedialActionScheme.Gate - |
| cim:RemedialActionScheme.kind - Kind of Remedial Action Scheme (RAS) |
| cim:RemedialActionScheme.normalArmed - The default/normal value used when other active signal/values are missing. |
| cim:RemedialActionScheme.Stage - |
| cim:RemedialActionScheme.TriggerCondition - |
| cim:RemedialActionSchemeKind |
| cim:remote |
| cim:remoteBranchCurrentAmplitude |
| cim:remoteBusFrequency |
| cim:remoteBusFrequencyDeviation |
| cim:remoteBusVoltage |
| cim:remoteBusVoltageAmplitude |
| cim:remoteBusVoltageAmplitudeDerivative |
| cim:remoteBusVoltageFrequency |
| cim:remoteBusVoltageFrequencyDeviation |
| cim:RemoteConnectDisconnectInfo - Details of remote connect and disconnect function. |
| cim:RemoteConnectDisconnectInfo.armedTimeout - Setting of the timeout elapsed time. |
| cim:RemoteConnectDisconnectInfo.customerVoltageLimit - Voltage limit on customer side of RCD switch above which the connect should not be made. |
| cim:RemoteConnectDisconnectInfo.energyLimit - Limit of energy before disconnect. |
| cim:RemoteConnectDisconnectInfo.energyUsageStartDateTime - Start date and time to accumulate energy for energy usage limiting. |
| cim:RemoteConnectDisconnectInfo.energyUsageWarning - Warning energy limit, used to trigger event code that energy usage is nearing limit. |
| cim:RemoteConnectDisconnectInfo.isArmConnect - True if the RCD switch has to be armed before a connect action can be initiated. |
| cim:RemoteConnectDisconnectInfo.isArmDisconnect - True if the RCD switch has to be armed before a disconnect action can be initiated. |
| cim:RemoteConnectDisconnectInfo.isEnergyLimiting - True if the energy usage is limited and the customer will be disconnected if they go over the limit. |
| cim:RemoteConnectDisconnectInfo.needsPowerLimitCheck - True if load limit has to be checked to issue an immediate disconnect (after a connect) if load is over the limit. |
| cim:RemoteConnectDisconnectInfo.needsVoltageLimitCheck - True if voltage limit has to be checked to prevent connect if voltage is over the limit. |
| cim:RemoteConnectDisconnectInfo.powerLimit - Load limit above which the connect should either not take place or should cause an immediate disconnect. |
| cim:RemoteConnectDisconnectInfo.usePushbutton - True if pushbutton has to be used for connect. |
| cim:RemoteControl - Remote controls are ouputs that are sent by the remote unit to actuators in the process. |
| cim:RemoteControl.actuatorMaximum - The maximum set point value accepted by the remote control point. |
| cim:RemoteControl.actuatorMinimum - The minimum set point value accepted by the remote control point. |
| cim:RemoteControl.remoteControlled - Set to true if the actuator is remotely controlled. |
| cim:RemoteInputSignal - Supports connection to a terminal associated with a remote bus from which an input signal of a specific type is coming. |
| cim:RemoteInputSignal.DiscontinuousExcitationControlDynamics - Discontinuous excitation control model using this remote input signal.Remote input signal used by this discontinuous excitation control system model. |
| cim:RemoteInputSignal.PFVArControllerType1Dynamics - Power Factor or VAr controller Type I model using this remote input signal.Remote input signal used by this Power Factor or VAr controller Type I model. |
| cim:RemoteInputSignal.PowerSystemStabilizerDynamics - Power system stabilizer model using this remote input signal.Remote input signal used by this power system stabilizer model. |
| cim:RemoteInputSignal.remoteSignalType - Type of input signal. |
| cim:RemoteInputSignal.UnderexcitationLimiterDynamics - Underexcitation limiter model using this remote input signal.Remote input signal used by this underexcitation limiter model. |
| cim:RemoteInputSignal.VoltageCompensatorDynamics - Voltage compensator model using this remote input signal.Remote input signal used by this voltage compensator model. |
| cim:RemoteInputSignal.WindPlantDynamics - The wind plant using the remote signal.The remote signal with which this power plant is associated. |
| cim:RemoteInputSignal.WindTurbineType1or2Dynamics - Wind generator Type 1 or Type 2 model using this remote input signal.Remote input signal used by this wind generator Type 1 or Type 2 model. |
| cim:RemoteInputSignal.WindTurbineType3or4Dynamics - Wind turbine Type 3 or 4 models using this remote input signal.Remote input signal used by these wind turbine Type 3 or 4 models. |
| cim:remoteOnly |
| cim:RemotePoint - For a RTU remote points correspond to telemetered values or control outputs. Other units (e.g. control centers) usually also contain calculated values. |
| cim:remotePuBusVoltageDerivative |
| cim:RemoteSignalKind |
| cim:RemoteSource - Remote sources are state variables that are telemetered or calculated within the remote unit. |
| cim:RemoteSource.deadband - The smallest change in value to be reported. |
| cim:RemoteSource.MeasurementValue - Link to the physical telemetered point associated with this measurement.Link to the physical telemetered point associated with this measurement. |
| cim:RemoteSource.scanInterval - The time interval between scans. |
| cim:RemoteSource.sensorMaximum - The maximum value the telemetry item can return. |
| cim:RemoteSource.sensorMinimum - The minimum value the telemetry item can return. |
| cim:RemoteUnit - A remote unit can be a RTU, IED, substation control system, control center etc. The communication with the remote unit can be through various standard protocols (e.g. IEC 61870, IEC 61850) or non standard protocols (e.g. DNP, RP570 etc.). A remote unit contain remote data points that might be telemetered, collected or calculated. The RemoteUnit class inherit PowerSystemResource. The intention is to allow RemotUnits to have Measurements. These Measurements can be used to model unit status as operational, out of service, unit failure etc. |
| cim:RemoteUnit.CommunicationLink - RTUs may be attached to communication links.RTUs may be attached to communication links. |
| cim:RemoteUnit.RemotePoint - Remote points this Remote unit contains.Remote unit this point belongs to. |
| cim:RemoteUnit.remoteUnitType - Type of remote unit. |
| cim:RemoteUnitType |
| cim:remoteWithLocalOverride |
| cim:removal |
| cim:removalTamper |
| cim:remove |
| cim:repair |
| cim:ReportingGroup - A reporting group is used for various ad-hoc groupings used for reporting. |
| cim:ReportingGroup.BusNameMarker - The bus name markers that belong to this reporting group.The reporting group to which this bus name marker belongs. |
| cim:ReportingGroup.TopologicalNode - The topological nodes that belong to the reporting group.The reporting group to which the topological node belongs. |
| cim:ReportingSuperGroup - A reporting super group, groups reporting groups for a higher level report. |
| cim:ReportingSuperGroup.ReportingGroup - Reporting groups that are grouped under this super group.Reporting super group to which this reporting group belongs. |
| cim:reprogrammingTamper |
| cim:request |
| cim:RequestorRmrTest |
| cim:Required_file_does_not_exist |
| cim:REQUIREMENTS |
| cim:ReserveAllocator |
| cim:ReserveDemandCurve - Reserve demand curve. Models maximum quantities of reserve required per Market Region and models a reserve demand curve for the minimum quantities of reserve. The ReserveDemandCurve is a relationship between unit operating reserve price in $/MWhr (Y-axis) and unit reserves in MW (X-axis). |
| cim:ReserveDemandCurve.ASRequirements - |
| cim:ReserveDemandCurve.MarketRegion - |
| cim:ReserveDemandCurve.reqMaxMW - Region requirement maximum limit |
| cim:ReserveDemandCurve.reserveRequirementType - Reserve requirement type that the max and curve apply to. For example, operating reserve, regulation and contingency. |
| cim:ReserveReq - Requirements for minimum amount of reserve and/or regulation to be supplied by a set of qualified resources. |
| cim:ReserveReq.ReserveReqCurve - |
| cim:ReserveReqCurve - A curve relating reserve requirement versus time, showing the values of a specific reserve requirement for each unit of the period covered. The curve can be based on "absolute" time or on "normalized' time.
X is time, typically expressed in absolute time
Y1 is reserve requirement, typically expressed in MW |
| cim:ReserveRequirementType |
| cim:Reservoir - A water storage facility within a hydro system, including: ponds, lakes, lagoons, and rivers. The storage is usually behind some type of dam. |
| cim:Reservoir.activeStorageCapacity - Storage volume between the full supply level and the normal minimum operating level. |
| cim:Reservoir.energyStorageRating - The reservoir's energy storage rating in energy for given head conditions. |
| cim:Reservoir.fullSupplyLevel - Full supply level, above which water will spill. This can be the spillway crest level or the top of closed gates. |
| cim:Reservoir.grossCapacity - Total capacity of reservoir. |
| cim:Reservoir.HydroPowerPlant - Generators discharge water to or pumps are supplied water from a downstream reservoir.Generators discharge water to or pumps are supplied water from a downstream reservoir. |
| cim:Reservoir.InflowForecast - A reservoir may have a "natural" inflow forecast.A reservoir may have a "natural" inflow forecast. |
| cim:Reservoir.LevelVsVolumeCurve - A reservoir may have a level versus volume relationship.A reservoir may have a level versus volume relationship. |
| cim:Reservoir.normalMinOperateLevel - Normal minimum operating level below which the penstocks will draw air. |
| cim:Reservoir.Reservoir - A reservoir may spill into a downstream reservoir.A reservoir may spill into a downstream reservoir. |
| cim:Reservoir.riverOutletWorks - River outlet works for riparian right releases or other purposes. |
| cim:Reservoir.spillTravelDelay - The spillway water travel delay to the next downstream reservoir. |
| cim:Reservoir.spillwayCapacity - The flow capacity of the spillway in cubic meters per second. |
| cim:Reservoir.spillwayCrestLength - The length of the spillway crest. |
| cim:Reservoir.spillwayCrestLevel - Spillway crest level above which water will spill. |
| cim:Reservoir.spillWayGateType - Type of spillway gate, including parameters. |
| cim:Reservoir.TargetLevelSchedule - A reservoir may have a water level target schedule.A reservoir may have a water level target schedule. |
| cim:residential |
| cim:residentialAndCommercial |
| cim:residentialAndStreetlight |
| cim:residentialFarmService |
| cim:residentialStreetlightOthers |
| cim:Resistance - Resistance (real part of impedance). |
| cim:Resistance.multiplier |
| cim:Resistance.unit |
| cim:Resistance.value |
| cim:ResistancePerLength - Resistance (real part of impedance) per unit of length. |
| cim:ResistancePerLength.multiplier |
| cim:ResistancePerLength.unit |
| cim:ResistancePerLength.value |
| cim:ResourceAncillaryServiceQualification - Ancillary Services that a resource is qualified to provide. |
| cim:ResourceAncillaryServiceQualification.certifiedCapacity - Certified capacity for associated resource and market type and ancillary service type product |
| cim:ResourceAncillaryServiceQualification.endEffectiveDate - Ancillary Service Qualification end date |
| cim:ResourceAncillaryServiceQualification.market - market type |
| cim:ResourceAncillaryServiceQualification.qualificationFlag - Status of the qualification ('Y' = Active, 'N' = Inactive) |
| cim:ResourceAncillaryServiceQualification.RegisteredResource - RegisteredResources are qualified for resource ancillary service types (which include market product types as well as other types such as BlackStart) by the association to the class ResourceAncillaryServiceQualification.RegisteredResources are qualified for resource ancillary service types (which include market product types as well as other types such as BlackStart) by the association to the class ResourceAncillaryServiceQualification. |
| cim:ResourceAncillaryServiceQualification.startEffectiveDate - Ancillary Service Qualification effective from date |
| cim:ResourceAncillaryServiceQualification.type - Type of service based on ResourceAncillaryServiceType enumeration |
| cim:ResourceAncillaryServiceType |
| cim:ResourceAssnType |
| cim:ResourceAwardClearing - Models details of bid and offer market clearing. Class indicates whether a contingency is active and whether the automatic dispatching system is active for this interval of the market solution |
| cim:ResourceAwardClearing.contingencyActive - Indication that the system is currently operating in a contingency mode. |
| cim:ResourceAwardClearing.dispatchMode |
| cim:ResourceAwardInstruction - Model of market results, instruction for resource. Contains details of award as attributes |
| cim:ResourceAwardInstruction.awardMW - For DA Energy: Not Applicable;
For DA AS: DA AS market award;
For RT Energy: Not Applicable;
For RT AS: RT AS market award (excluding DA AS market or self-proviison awards) |
| cim:ResourceAwardInstruction.clearedMW - For DA Energy: Total Schedule = DA market schedule + DA self-schedule award;
For DA AS: DA Ancillary Service Awards = DA AS market award + DA AS self-provision award;
For RT Energy: Total Schedule = RT market schedule + RT self-schedule award;
For RT AS: RT Ancillary Service Awards = RT AS self-provision award + RT AS market award + DA AS market award + DA AS self-provision award; |
| cim:ResourceAwardInstruction.clearedPrice - Marginal Price ($/MW) for the commodity (Regulation Up, Regulation Down, Spinning Reserve, or Non-spinning reserve) for pricing run. |
| cim:ResourceAwardInstruction.congestLMP - Congestion component of Location Marginal Price (LMP) in monetary units per MW. |
| cim:ResourceAwardInstruction.costLMP - Cost component of Locational Marginal Pricing (LMP) in monetary units per MW. |
| cim:ResourceAwardInstruction.dispatcherAddedMW - The tier2 mw added by dispatcher action
Market results of the synchronized reserve market |
| cim:ResourceAwardInstruction.economicMax - Unit max output for dispatch; bid in economic maximum |
| cim:ResourceAwardInstruction.economicMin - Unit min output for dispatch; bid in economic minimum |
| cim:ResourceAwardInstruction.effRegulationDownLimit - Effective Regulation Down Limit (MW) |
| cim:ResourceAwardInstruction.effRegulationUpLimit - Effective Regulation Up Limit |
| cim:ResourceAwardInstruction.lmp - Locational marginal price value |
| cim:ResourceAwardInstruction.lossLMP - Loss component of Location Marginal Price (LMP) in monetary units per MW. |
| cim:ResourceAwardInstruction.manuallyBlocked - Indicates if an award was manually blocked (Y/N). Valid for Spinning and Non-spinning. |
| cim:ResourceAwardInstruction.marginalResourceIndicator - Indicator (Yes / No) that this resource set the price for this dispatch / schedule. |
| cim:ResourceAwardInstruction.MarketProduct - |
| cim:ResourceAwardInstruction.mustRunInd - Identifes if the unit was set to must run by the market participant responsible for bidding in the unit |
| cim:ResourceAwardInstruction.noLoadCost - Unit no-load cost in case of energy commodity |
| cim:ResourceAwardInstruction.optimalBidCost - Optimal Bid cost |
| cim:ResourceAwardInstruction.optimalBidPay - Optimal Bid production payment based on LMP |
| cim:ResourceAwardInstruction.optimalMargin - Optimal Bid production margin |
| cim:ResourceAwardInstruction.overrideTimeStamp - Time the manual data entry occured. |
| cim:ResourceAwardInstruction.overrideValue - Provides the ability for the grid operator to override items, such as spin capacity requirements, prior to running the algorithm. This value is market product based (spin, non-spin, reg up, reg down, or RUC). |
| cim:ResourceAwardInstruction.ResourceAwardClearing - |
| cim:ResourceAwardInstruction.selfSchedMW - For DA Energy: DA total self-schedule award;
For DA AS: DA AS self-provision award;
For RT Energy: RT total self-schedule award;
For RT AS: RT AS self-provision award (excluding DA AS market or self-provision awards) |
| cim:ResourceAwardInstruction.startUpCost - Unit start up cost in case of energy commodity |
| cim:ResourceAwardInstruction.status - In or out status of resource |
| cim:ResourceAwardInstruction.totalRevenue - Total bid revenue (startup_cost + no_load_cost + bid_pay) |
| cim:ResourceAwardInstruction.updateTimeStamp |
| cim:ResourceAwardInstruction.updateType |
| cim:ResourceAwardInstruction.updateUser |
| cim:ResourceBid - Energy bid for generation, load, or virtual type for the whole of the market-trading period (i.e., one day in day ahead market or one hour in the real time market) |
| cim:ResourceBid.aggregationFlag - Aggregation flag
0: individual resource level
1: Aggregated node location
2: Aggregated price location) |
| cim:ResourceBid.bidStatus |
| cim:ResourceBid.commodityType - Energy product (commodity) type:
'En' - Energy
'Ru' - Regulation Up
'Rd' - Regulation Dn
'Sr' - Spinning Reserve
'Nr' - Non-Spinning Reserve
'Or' - Operating Reserve |
| cim:ResourceBid.contingencyAvailFlag - contingent operating reserve availiability (Yes/No). Resource is availiable to participate with capacity only in contingency dispatch. |
| cim:ResourceBid.createdISO - A Yes indicates that this bid was created by the ISO. |
| cim:ResourceBid.energyMaxDay - Maximum amount of energy per day which can be produced during the trading period in MWh |
| cim:ResourceBid.energyMinDay - Minimum amount of energy per day which has to be produced during the trading period in MWh |
| cim:ResourceBid.marketSepFlag - Market Separation Flag
'Y' - Enforce market separation constraints for this bid
'N' - Don't enforce market separation constraints for this bid. |
| cim:ResourceBid.minDispatchTime - minimum number of consecutive hours a resource shall be dispatched if bid is accepted |
| cim:ResourceBid.resourceLoadingType - Resource loading curve type
1 - step-wise continuous loading
2 - piece-wise linear continuous loading
3 - block loading |
| cim:ResourceBid.shutDownsMaxDay - Maximum number of shutdowns per day. |
| cim:ResourceBid.shutDownsMaxWeek - Maximum number of shutdowns per week. |
| cim:ResourceBid.startUpsMaxDay - Maximum number of startups per day. |
| cim:ResourceBid.startUpsMaxWeek - Maximum number of startups per week. |
| cim:ResourceBid.virtual - True if bid is virtual. Bid is assumed to be non-virtual if attribute is absent |
| cim:ResourceCapacity - This class model the various capacities of a resource. A resource may have numbers of capacities related to operating, ancillary services, energy trade and so forth. The types are but not limited to:
Ancillary Service
Regulation Up
Regulation Dn
Spinning Reserve
Non-Spinning Reserve
Operating Reserve
RUC
Energy Trade |
| cim:ResourceCapacity.capacityType - capacity type
The types are but not limited to:
Regulation Up
Regulation Dn
Spinning Reserve
Non-Spinning Reserve
FOO capacity
MOO capacity |
| cim:ResourceCapacity.defaultCapacity - default capacity |
| cim:ResourceCapacity.maximumCapacity - maximum capacity |
| cim:ResourceCapacity.minimumCapacity - minimum capacity |
| cim:ResourceCapacity.RegisteredResource - |
| cim:ResourceCapacityType |
| cim:ResourceCertification - This class represent the resource certification for a specific product type. For example, a resource is certified for Non-Spinning reserve for RTM. |
| cim:ResourceCertification.certifiedDAM |
| cim:ResourceCertification.certifiedNonspinDAM |
| cim:ResourceCertification.certifiedNonspinDAMMw |
| cim:ResourceCertification.certifiedNonspinRTM |
| cim:ResourceCertification.certifiedNonspinRTMMw |
| cim:ResourceCertification.certifiedPIRP |
| cim:ResourceCertification.certifiedRegulation |
| cim:ResourceCertification.certifiedRegulationMw |
| cim:ResourceCertification.certifiedReplaceAS |
| cim:ResourceCertification.certifiedRTM |
| cim:ResourceCertification.certifiedRUC |
| cim:ResourceCertification.certifiedSpin |
| cim:ResourceCertification.certifiedSpinMw |
| cim:ResourceCertification.RegisteredResource - |
| cim:ResourceCertificationCategory |
| cim:ResourceCertificationType |
| cim:ResourceClearing - Model of market results, including cleaing result of resources. Associated with ResourceDispatchResults. |
| cim:ResourceDispatchResults - The ResourceDispatchResults class provides market results that can be provided to a SC. The specific data provided consists of several indicators such as contingency flags, blocked start up, and RMR dispatch. It also provides the projected overall and the regulating status of the resource. |
| cim:ResourceDispatchResults.blockedDispatch - Blocked Dispatch Indicator (Yes/No) |
| cim:ResourceDispatchResults.blockedPublishDOP - Block sending DOP to ADS (Y/N) |
| cim:ResourceDispatchResults.contingencyFlag - Contingent Operating Reserve Indicator (Yes/No). Resource participating with AS capacity in contingency dispatch. |
| cim:ResourceDispatchResults.limitIndicator - indicate which limit is the constraints |
| cim:ResourceDispatchResults.lowerLimit - resource energy ramping lower limit |
| cim:ResourceDispatchResults.maxRampRate - maximum ramp rate |
| cim:ResourceDispatchResults.operatingLimitHigh - The upper operating limit incorporating any derate used by the RTD for the Binding Interval. |
| cim:ResourceDispatchResults.operatingLimitLow - The lower operating limit incorporating any derate used by the RTD for the Binding Interval. |
| cim:ResourceDispatchResults.penaltyDispatchIndicator - Penalty Dispatch Indicator (Yes / No) indicating an un-economic adjustment. |
| cim:ResourceDispatchResults.RegisteredResource - |
| cim:ResourceDispatchResults.regulatingLimitHigh - The upper regulating limit incorporating any derate used by the RTD for the Binding Interval. |
| cim:ResourceDispatchResults.regulatingLimitLow - The lower regulating limit incorporating any derate used by the RTD for the Binding Interval. |
| cim:ResourceDispatchResults.ResourceClearing - |
| cim:ResourceDispatchResults.resourceStatus - Unit Commitment Status (On/Off/Starting) |
| cim:ResourceDispatchResults.totalSchedule - Resource total upward schedule. total schedule = En + all AS per resource per interval |
| cim:ResourceDispatchResults.updateTimeStamp |
| cim:ResourceDispatchResults.updateType |
| cim:ResourceDispatchResults.updateUser |
| cim:ResourceDispatchResults.upperLimit - resource energy ramping upper limit |
| cim:ResourceGroup - A logical grouping of resources that are used to model location of types of requirements for ancillary services such as spinning reserve zones, regulation zones, etc. |
| cim:ResourceGroup.RegisteredResource - |
| cim:ResourceGroup.status - Status of this group. |
| cim:ResourceGroup.type - Type of this group. |
| cim:ResourceGroupReq - Ancillary service requirements for a market. |
| cim:ResourceGroupReq.ResourceGroup - |
| cim:ResourceLimitIndicator |
| cim:ResourceLoadFollowingInst - Model of market clearing results for resources that bid to follow load |
| cim:ResourceLoadFollowingInst.calcLoadFollowingMW - weighted average for RTPD and RTCD and same for RTID |
| cim:ResourceLoadFollowingInst.dispWindowHighLimt |
| cim:ResourceLoadFollowingInst.dispWindowLowLimt |
| cim:ResourceLoadFollowingInst.instructionID - Unique instruction id per instruction, assigned by the SC and provided to ADS. ADS passes through. |
| cim:ResourceLoadFollowingInst.intervalStartTime - The start of the time interval for which requirement is defined. |
| cim:ResourceLoadFollowingInst.RegisteredResource - |
| cim:ResourceLoadFollowingInst.ResourceClearing - |
| cim:ResourceOperationMaintenanceCost - To model the Operation and Maintenance (O and M) costs of a generation resource. |
| cim:ResourceOperationMaintenanceCost.gasPercentAboveLowSustainedLimit - Percentage of Fuel Index Price (gas) for operating above Low Sustained Limit (LSL) |
| cim:ResourceOperationMaintenanceCost.oilPercentAboveLowSustainedLimit - Percentage of Fuel Oil Price (FOP) for operating above Low Sustained Limit (LSL) |
| cim:ResourceOperationMaintenanceCost.omCostColdStartup - Verifiable O&M Cost ($), Cold Startup |
| cim:ResourceOperationMaintenanceCost.omCostHotStartup - Verifiable O&M Cost ($), Hot Startup |
| cim:ResourceOperationMaintenanceCost.omCostIntermediateStartup - Verifiable O&M Cost ($), Intermediate Startup |
| cim:ResourceOperationMaintenanceCost.omCostLowSustainedLimit - Verifiable O&M Cost ($/MWh), LSL |
| cim:ResourceOperationMaintenanceCost.solidfuelPercentAboveLowSustainedLimit - Percentage of Solid Fuel for operating above Low Sustained Limit (LSL) |
| cim:resourcePlanner |
| cim:ResourceProvider |
| cim:ResourceRegistrationStatus |
| cim:ResourceStartupCost - To model the startup costs of a generation resource. |
| cim:ResourceStartupCost.fuelColdStartup - Verifiable Cold Start Up Fuel (MMBtu per start) |
| cim:ResourceStartupCost.fuelHotStartup - Verifiable Hot Start Up Fuel (MMBtu per start) |
| cim:ResourceStartupCost.fuelIntermediateStartup - Verifiable Intermediate Start Up Fuel (MMBtu per start) |
| cim:ResourceStartupCost.fuelLowSustainedLimit - Minimum-Energy fuel, MMBtu/MWh |
| cim:ResourceStartupCost.gasPercentColdStartup - Percentage of Fuel Index Price (gas) for cold startup |
| cim:ResourceStartupCost.gasPercentHotStartup - Percentage of Fuel Index Price (gas) for hot startup |
| cim:ResourceStartupCost.gasPercentIntermediateStartup - Percentage of Fuel Index Price (gas) for intermediate startup |
| cim:ResourceStartupCost.gasPercentLowSustainedLimit - Percentage of FIP (gas) for operating at LSL |
| cim:ResourceStartupCost.oilPercentColdStartup - Percentage of Fuel Oil Price (FOP) for cold startup |
| cim:ResourceStartupCost.oilPercentHotStartup - Percentage of Fuel Oil Price (FOP) for hot startup |
| cim:ResourceStartupCost.oilPercentIntermediateStartup - Percentage of Fuel Oil Price (FOP) for intermediate startup |
| cim:ResourceStartupCost.oilPercentLowSustainedLimit - Percentage of FOP (oil) for operating at LSL |
| cim:ResourceStartupCost.solidfuelPercentColdStartup - Percentage of Solid Fuel for cold startup |
| cim:ResourceStartupCost.solidfuelPercentHotStartup - Percentage of Solid Fuel for hot startup |
| cim:ResourceStartupCost.solidfuelPercentIntermediateStartup - Percentage of Solid Fuel for intermedite startup |
| cim:ResourceStartupCost.solidfuelPercentLowSustainedLimit - Percentage of Solid Fuel for operating at LSL |
| cim:ResourceVerifiableCosts - This class is defined to describe the verifiable costs associated with a generation resource. |
| cim:ResourceVerifiableCosts.ResourceOperationMaintenanceCost - |
| cim:ResourceVerifiableCosts.ResourceStartupCost - |
| cim:ResultsConstraintType |
| cim:RETAIL |
| cim:retailer |
| cim:retrieveDefaultBidCurves |
| cim:retrieveMarketAwards |
| cim:retrieveMPMResults |
| cim:retrieveSchedulePrices |
| cim:retrieveStartUpShutDownInstructions |
| cim:rev |
| cim:RevenueKind |
| cim:reversal |
| cim:reverse |
| cim:Reverse |
| cim:reverseFlow |
| cim:reverseRotationTamper |
| cim:rf |
| cim:RFC-SR |
| cim:rfMesh |
| cim:RG |
| cim:RGMR |
| cim:RightOfWay - A right-of-way (ROW) is for land where it is lawful to use for a public road, an electric power line, etc. Note that the association to Location, Asset, Organisation, etc. for the Grant is inherited from Agreement, a type of Document. |
| cim:RightOfWay.propertyData - Property related information that describes the ROW's land parcel. For example, it may be a deed book number, deed book page number, and parcel number. |
| cim:ringBus |
| cim:RJ |
| cim:RMR |
| cim:RMR_DETER_DAM |
| cim:RMR_DETER_HASP |
| cim:RMR_DISPATCH_DAM |
| cim:RMR_DISPATCH_HASP |
| cim:RMR_TOTAL |
| cim:RMR_TOTAL_AVAIL |
| cim:RMRD |
| cim:RMRDetermination - Indicates whether unit is a reliablity must run unit: required to be on to satisfy Grid Code Reliablitiy criteria, load demand, or voltage support. |
| cim:RMRE |
| cim:RMRH |
| cim:RMRHeatRateCurve - Model to support processing of reliability must run units. |
| cim:RMRHeatRateCurve.RegisteredGenerator - |
| cim:RMROperatorInput - RMR Operator's entry of the RMR requirement per market interval. |
| cim:RMROperatorInput.manuallySchedRMRMw - The lower of the original pre-dispatch or the AC run schedule (Also known as the RMR Reguirement) becomes the pre-dispatch value. |
| cim:RMROperatorInput.RegisteredResource - |
| cim:RMROperatorInput.updateTimeStamp |
| cim:RMROperatorInput.updateType |
| cim:RMROperatorInput.updateUser |
| cim:RMRR |
| cim:RMRS |
| cim:RMRStartUpCostCurve - Model to support processing of reliability must run units. |
| cim:RMRStartUpCostCurve.RegisteredGenerator - |
| cim:RMRStartUpEnergyCurve - Model to support processing of reliability must run units. |
| cim:RMRStartUpEnergyCurve.RegisteredGenerator - |
| cim:RMRStartUpFuelCurve - Model to support processing of reliability must run units. |
| cim:RMRStartUpFuelCurve.RegisteredGenerator - |
| cim:RMRStartUpTimeCurve - Model to support processing of reliability must run units. |
| cim:RMRStartUpTimeCurve.RegisteredGenerator - |
| cim:RMRT |
| cim:RMT |
| cim:rod |
| cim:Role - Enumeration of potential roles that might be played by one object relative to another. |
| cim:Role.status |
| cim:Role.type - Type of role. |
| cim:rollingBlock10MinIntvl1MinSubIntvl |
| cim:rollingBlock10MinIntvl2MinSubIntvl |
| cim:rollingBlock10MinIntvl5MinSubIntvl |
| cim:rollingBlock15MinIntvl1MinSubIntvl |
| cim:rollingBlock15MinIntvl3MinSubIntvl |
| cim:rollingBlock15MinIntvl5MinSubIntvl |
| cim:rollingBlock30MinIntvl10MinSubIntvl |
| cim:rollingBlock30MinIntvl15MinSubIntvl |
| cim:rollingBlock30MinIntvl2MinSubIntvl |
| cim:rollingBlock30MinIntvl3MinSubIntvl |
| cim:rollingBlock30MinIntvl5MinSubIntvl |
| cim:rollingBlock30MinIntvl6MinSubIntvl |
| cim:rollingBlock5MinIntvl1MinSubIntvl |
| cim:rollingBlock60MinIntvl10MinSubIntvl |
| cim:rollingBlock60MinIntvl12MinSubIntvl |
| cim:rollingBlock60MinIntvl15MinSubIntvl |
| cim:rollingBlock60MinIntvl20MinSubIntvl |
| cim:rollingBlock60MinIntvl30MinSubIntvl |
| cim:rollingBlock60MinIntvl4MinSubIntvl |
| cim:rollingBlock60MinIntvl5MinSubIntvl |
| cim:rollingBlock60MinIntvl6MinSubIntvl |
| cim:RON |
| cim:RotatingMachine - A rotating machine which may be used as a generator or motor. |
| cim:RotatingMachine.GeneratingUnit - A synchronous machine may operate as a generator and as such becomes a member of a generating unit.A synchronous machine may operate as a generator and as such becomes a member of a generating unit. |
| cim:RotatingMachine.p - Active power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for a steady state solution. |
| cim:RotatingMachine.q - Reactive power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for a steady state solution. |
| cim:RotatingMachine.ratedPowerFactor - Power factor (nameplate data). It is primarily used for short circuit data exchange according to IEC 60909. |
| cim:RotatingMachine.ratedS - Nameplate apparent power rating for the unit.
The attribute shall have a positive value. |
| cim:RotatingMachine.ratedU - Rated voltage (nameplate data, Ur in IEC 60909-0). It is primarily used for short circuit data exchange according to IEC 60909. |
| cim:RotatingMachineDynamics - Abstract parent class for all synchronous and asynchronous machine standard models. |
| cim:RotatingMachineDynamics.damping - Damping torque coefficient (D). A proportionality constant that, when multiplied by the angular velocity of the rotor poles with respect to the magnetic field (frequency), results in the damping torque. This value is often zero when the sources of damping torques (generator damper windings, load damping effects, etc.) are modelled in detail. Typical Value = 0. |
| cim:RotatingMachineDynamics.inertia - Inertia constant of generator or motor and mechanical load (H) (>0). This is the specification for the stored energy in the rotating mass when operating at rated speed. For a generator, this includes the generator plus all other elements (turbine, exciter) on the same shaft and has units of MW*sec. For a motor, it includes the motor plus its mechanical load. Conventional units are per unit on the generator MVA base, usually expressed as MW*second/MVA or just second. This value is used in the accelerating power reference frame for operator training simulator solutions. Typical Value = 3. |
| cim:RotatingMachineDynamics.saturationFactor - Saturation factor at rated terminal voltage (S1) (> or =0). Not used by simplified model. Defined by defined by S(E1) in the SynchronousMachineSaturationParameters diagram. Typical Value = 0.02. |
| cim:RotatingMachineDynamics.saturationFactor120 - Saturation factor at 120% of rated terminal voltage (S12) (> or =S1). Not used by the simplified model, defined by S(E2) in the SynchronousMachineSaturationParameters diagram. Typical Value = 0.12. |
| cim:RotatingMachineDynamics.statorLeakageReactance - Stator leakage reactance (Xl) (> or =0). Typical Value = 0.15. |
| cim:RotatingMachineDynamics.statorResistance - Stator (armature) resistance (Rs) (> or =0). Typical Value = 0.005. |
| cim:RotationSpeed - Number of revolutions per second. |
| cim:RotationSpeed.multiplier |
| cim:RotationSpeed.unit |
| cim:RotationSpeed.value |
| cim:rotorAngularFrequencyDeviation |
| cim:RotorKind |
| cim:rotorSpeed |
| cim:rotPers |
| cim:roundRotor |
| cim:Route - Route that is followed, for example by service crews. |
| cim:Route.OldCrew - |
| cim:Route.status |
| cim:Route.type - Classification by utility's work management standards and practices. |
| cim:RP |
| cim:RRSPIN |
| cim:RSD |
| cim:RSYS |
| cim:RTD |
| cim:RTED |
| cim:RTM |
| cim:RTO - Regional transmission operator. |
| cim:RTO.EnergyMarket - |
| cim:RTO.MSSAggregation - |
| cim:RTO.ResourceGroupReq - |
| cim:RTO.SecurityConstraints - |
| cim:RTO.SecurityConstraintSum - |
| cim:RTPD |
| cim:RTSSE |
| cim:RTU |
| cim:RU |
| cim:RUB |
| cim:rubber |
| cim:RUC |
| cim:RUC_GEN_CLEAR_RUC |
| cim:RUC_IMP_CLEAR_RUC |
| cim:RUC_LOAD_CLEAR_RUC |
| cim:RUC_ZONE_value |
| cim:RUCAwardInstruction - This class models the information about the RUC awards |
| cim:RUCAwardInstruction.clearedPrice - Marginal Price ($/MW) for the commodity (Regulation Up, Regulation Down, Spinning Reserve, or Non-spinning reserve) for pricing run. |
| cim:RUCAwardInstruction.marketProductType - major product type may include the following but not limited to:
Energy
Regulation Up
Regulation Dn
Spinning Reserve
Non-Spinning Reserve
Operating Reserve |
| cim:RUCAwardInstruction.RegisteredResource - |
| cim:RUCAwardInstruction.ResourceAwardClearing - |
| cim:RUCAwardInstruction.RUCAward - The RUC Award of a resource is the portion of the RUC Capacity that is not under RA or RMR contracts. The RUC Award of a resource is the portion of the RUC Capacity that is eligible for RUC Availability payment. |
| cim:RUCAwardInstruction.RUCCapacity - The RUC Capacity of a resource is the difference between (i) the RUC Schedule and (ii) the higher of the DA Schedule and the Minimum Load. |
| cim:RUCAwardInstruction.RUCSchedule - The RUC Schedule of a resource is its output level that balances the load forecast used in RUC. The RUC Schedule in RUC is similar to the DA Schedule in DAM. |
| cim:RUCAwardInstruction.updateTimeStamp |
| cim:RUCAwardInstruction.updateType |
| cim:RUCAwardInstruction.updateUser |
| cim:RUCZONE |
| cim:RUCZone - A specialized class of type AggregatedNode type. Defines RUC Zones. A forecast region represents a collection of Nodes for which the Market operator has developed sufficient historical demand and relevant weather data to perform a demand forecast for such area. The Market Operator may further adjust this forecast to ensure that the Reliability Unit Commitment produces adequate local capacity procurement. |
| cim:runOfRiver |
| cim:runTypeCAISO |
| cim:rural |
| cim:RUT |
| cim:RWF |
| cim:RZ |
| cim:s |
| cim:S |
| cim:s1 |
| cim:s12 |
| cim:s12N |
| cim:s1N |
| cim:s2 |
| cim:s2N |
| cim:SafetyDocument - Document restricting or authorising works on electrical equipment (for example a permit to work, sanction for test, limitation of access, or certificate of isolation), defined based upon organisational practices. |
| cim:SafetyDocument.FieldSafetySupervisor - Supervisor to whom this safety document is issued.All safety documents issued to this supervisor. |
| cim:SafetyDocument.issuedDateTime - Date and time this safety document has been issued. |
| cim:SafetyDocument.OperationsSafetySupervisor - Supervisor to which this safety document is released.All safety documents released to this supervisor. |
| cim:SafetyDocument.releasedDateTime - Date and time this safety document has been released. |
| cim:SafetyDocument.SwitchingPlan - Switching plan to which this safety document applies.All safety documents applicable to this swtiching plan. |
| cim:sag |
| cim:Sale |
| cim:sale |
| cim:salientPole |
| cim:salientPole1 |
| cim:salientPole2 |
| cim:SAR |
| cim:SBD |
| cim:SBO |
| cim:SC |
| cim:SCADAInformation - Contains information about the update from SCADA |
| cim:SCADAInformation.timeStamp - time of the update from SCADA |
| cim:SchedClassType |
| cim:scheduled |
| cim:ScheduledActivePowerLimitValue |
| cim:ScheduledActivePowerLimitValue.value |
| cim:ScheduledApparentPowerLimitValue - A time scheduled value for apparent power limit. |
| cim:ScheduledApparentPowerLimitValue.value - The apparent power limit value for the scheduled time. |
| cim:ScheduledCurrentLimitValue - A current limit that is scheduled. |
| cim:ScheduledCurrentLimitValue.value - The current flow limit value applicable at the scheduled time. |
| cim:ScheduledEvent - An event to trigger one or more activities, such as reading a meter, recalculating a bill, requesting work, when generating units must be scheduled for maintenance, when a transformer is scheduled to be refurbished, etc. |
| cim:ScheduledEvent.duration - Duration of the scheduled event, for example, the time to ramp between values. |
| cim:ScheduledEvent.ScheduledEventData - Specification for this scheduled event.All scheduled events with this specification. |
| cim:ScheduledEvent.status |
| cim:ScheduledEvent.type - Type of scheduled event. |
| cim:ScheduledEventData - Schedule parameters for an activity that is to occur, is occurring, or has completed. |
| cim:ScheduledEventData.estimatedWindow - Estimated date and time for activity execution (with earliest possibility of activity initiation and latest possibility of activity completion). |
| cim:ScheduledEventData.requestedWindow - Requested date and time interval for activity execution. |
| cim:ScheduledEventData.status |
| cim:ScheduledLimitDependency |
| cim:ScheduledLimitDependency.ScheduledLimitValue - The scheduled limit values for this limit dependency. |
| cim:ScheduledLimitValue - A limit that is applicable during a scheduled time period. |
| cim:ScheduledVoltageLimitValue - A voltage limit value for a scheduled time. |
| cim:ScheduledVoltageLimitValue.value - The voltage limit value for the scheduled time. |
| cim:SchedulingCoordinator - Market participants could be represented by Scheduling Coordinators (SCs) that are registered with the RTO/ISO. One participant could register multiple SCs with the RTO/ISO. Many market participants can do business with the RTO/ISO using a single SC. One SC could schedule multiple generators. A load scheduling point could be used by multiple SCs. Each SC could schedule load at multiple scheduling points. An inter-tie scheduling point can be used by multiple SCs. Each SC can schedule interchange at multiple inter-tie scheduling points. |
| cim:SchedulingCoordinator.Bid - |
| cim:SchedulingCoordinator.LoadRatio - |
| cim:SchedulingCoordinator.SchedulingCoordinatorUser - |
| cim:SchedulingCoordinator.scid - This is the short name or Scheduling Coordinator ID field. |
| cim:SchedulingCoordinatorUser - Describing users of a Scheduling Coordinator |
| cim:SchedulingCoordinatorUser.endEffectiveDate - Login ID Expiration Date |
| cim:SchedulingCoordinatorUser.loginID - Login ID |
| cim:SchedulingCoordinatorUser.loginRole - Assigned roles (these are roles with either Read or Read/Write privileges on different Market Systems) |
| cim:SchedulingCoordinatorUser.startEffectiveDate - Login ID Effective Date |
| cim:SchedulingPoint - Connection to other organizations at the boundary of the ISO/RTO. |
| cim:SchedulingPoint.endEffectiveDate - End effective date. |
| cim:SchedulingPoint.Flowgate - |
| cim:SchedulingPoint.InterchangeSchedule - |
| cim:SchedulingPoint.RegisteredResource - |
| cim:SchedulingPoint.startEffectiveDate - Start effective date. |
| cim:SCR |
| cim:screw |
| cim:SDG |
| cim:SDWN |
| cim:SE |
| cim:Seal - Physically controls access to AssetContainers. |
| cim:Seal.appliedDateTime - Date and time this seal has been applied. |
| cim:Seal.AssetContainer - Asset container to which this seal is applied.All seals applied to this asset container. |
| cim:Seal.condition - Condition of seal. |
| cim:Seal.kind - Kind of seal. |
| cim:Seal.sealNumber - (reserved word) Seal number. |
| cim:SealConditionKind |
| cim:SealKind |
| cim:Season - A specified time period of the year. |
| cim:Season.endDate - Date season ends. |
| cim:Season.ScheduledLimitValue - The scheduled limits associated with the season.The season for which the scheduled limits applies. If not specified, then applicable ot any season. |
| cim:Season.startDate - Date season starts. |
| cim:seasonal |
| cim:SeasonDayTypeSchedule - A time schedule covering a 24 hour period, with curve data for a specific type of season and day. |
| cim:SeasonDayTypeSchedule.DayType - DayType for the Schedule.Schedules that use this DayType. |
| cim:SeasonDayTypeSchedule.Season - Season for the Schedule.Schedules that use this Season. |
| cim:secondary |
| cim:secondaryTransformer |
| cim:secondMaximum |
| cim:secondMinimum |
| cim:Seconds - Time, in seconds. |
| cim:Seconds.multiplier |
| cim:Seconds.unit |
| cim:Seconds.value - Time, in seconds |
| cim:Sectionaliser - Automatic switch that will lock open to isolate a faulted section. It may, or may not, have load breaking capability. Its primary purpose is to provide fault sectionalising at locations where the fault current is either too high, or too low, for proper coordination of fuses. |
| cim:sectionner |
| cim:sector |
| cim:SecurityConstraints - Typical for regional transmission operators (RTOs), these constraints include transmission as well as generation group constraints identified in both base case and critical contingency cases. |
| cim:SecurityConstraints.actualMW - Actual branch or group of branches MW flow (only for transmission constraints) |
| cim:SecurityConstraints.Flowgate - |
| cim:SecurityConstraints.GeneratingBid - |
| cim:SecurityConstraints.maxMW - Maximum MW limit |
| cim:SecurityConstraints.minMW - Minimum MW limit (only for transmission constraints). |
| cim:SecurityConstraintsClearing - Binding security constrained clearing results posted for a given settlement period. |
| cim:SecurityConstraintsClearing.mwFlow - Optimal MW flow |
| cim:SecurityConstraintsClearing.mwLimit - Binding MW limit. |
| cim:SecurityConstraintsClearing.shadowPrice - Security constraint shadow price. |
| cim:SecurityConstraintSum - Typically provided by RTO systems, constraints identified in both base case and critical contingency cases have to be transferred.
A constraint has N (>=1) constraint terms. A term is represented by an
instance of TerminalConstraintTerm.
The constraint expression is:
minValue <= c1*x1 + c2*x2 + .... cn*xn + k <= maxValue
where:
- cn is ConstraintTerm.factor
- xn is the flow at the terminal
Flow into the associated equipment is positive for the purpose of ConnectivityNode NodeConstraintTerm
k is SecurityConstraintsLinear.resourceMW
The units of k are assumed to be same as the units of the flows, xn. The constants, cn, are dimensionless.
With these conventions, cn and k are all positive for a typical constraint such as "weighted sum of generation shall be less than limit". Furthermore, cn are all 1.0 for a case such as "interface flow shall be less than limit", assuming the terminals are chosen on the importing side of the interface. |
| cim:SecurityConstraintSum.BaseCaseConstraintLimit - |
| cim:SecurityConstraintSum.ContingencyConstraintLimit - |
| cim:SecurityConstraintSum.DefaultConstraintLimit - |
| cim:segmental |
| cim:SegmentCurveType |
| cim:SEK |
| cim:SELF |
| cim:selfCooling |
| cim:SelfSchedReferenceType |
| cim:SelfSchedTypeCleanBid |
| cim:SelfSchedTypeRawBid |
| cim:SelfScheduleBreakdown - Model of Self Schedules Results. Includes self schedule MW,and type of self schedule for each self schedule type included in total self schedule MW value found in ResourceAwardInstruction. |
| cim:SelfScheduleBreakdown.ResourceAwardInstruction - |
| cim:SelfScheduleBreakdown.selfSchedMW - Cleared value for the specific self schedule type listed. |
| cim:SelfScheduleBreakdown.selfSchedType - Self schedule breakdown type. |
| cim:SelfScheduleBreakdownType |
| cim:SelfScheduleType |
| cim:SelfScheduleTypeMB |
| cim:SELLER |
| cim:semiconducting |
| cim:SensitivityPriceCurve - Optionally, this curve expresses elasticity of the associated requirement. For example, used to reduce requirements when clearing price exceeds reasonable values when the supply quantity becomes scarce. For example, a single point value of $1000/MW for a spinning reserve will cause a reduction in the required spinning reserve.
X axis is constrained quantity (e.g., MW)
Y1 axis is money per constrained quantity |
| cim:SensitivityPriceCurve.ReserveReq - |
| cim:Sensor - This class describe devices that transform a measured quantity into signals that can be presented at displays, used in control or be recorded. |
| cim:separateEssUdc |
| cim:SeriesCompensator - A Series Compensator is a series capacitor or reactor or an AC transmission line without charging susceptance. It is a two terminal device. |
| cim:SeriesCompensator.r - Positive sequence resistance. |
| cim:SeriesCompensator.r0 - Zero sequence resistance. |
| cim:SeriesCompensator.varistorPresent - Describe if a metal oxide varistor (mov) for over voltage protection is configured at the series compensator. |
| cim:SeriesCompensator.varistorRatedCurrent - The maximum current the varistor is designed to handle at specified duration. |
| cim:SeriesCompensator.varistorVoltageThreshold - The dc voltage at which the varistor start conducting. |
| cim:SeriesCompensator.x - Positive sequence reactance. |
| cim:SeriesCompensator.x0 - Zero sequence reactance. |
| cim:SeriesEquipmentDependentLimit - Limit based on most restrictive series equipment limit.
A specification of of equipment that determines the calculated operational limit values based upon other equipment and their ratings. The most restrictive limit connected in series within the group is used. The physical connection based on switch status for example may also impact which elements in the group are considered. Any equipment in the group that are presently connected in series with the equipment of the directly associated operational limit are used. This provides a means to indicate which potentially series equipment limits are considered for a computed operational limit. The operational limit of the same operational limit type is assumed to be used from the grouped equipment. It is also possible to make assumptions or calculations regarding how flow might split if the equipment is not simply in series. |
| cim:SeriesEquipmentDependentLimit.EquipmentLimitSeriesComponent - Equipment linkages that participates in the limit calculation.Calculation in which the refernce to equipment applies. |
| cim:service |
| cim:ServiceCategory - Category of service provided to the customer. |
| cim:ServiceCategory.CustomerAgreement - All customer agreements with this service category.Service category for this agreement. |
| cim:ServiceCategory.kind - Kind of service. |
| cim:ServiceCategory.UsagePoint - All usage points that deliver this category of service.Service category delivered by this usage point. |
| cim:serviceChargePayment |
| cim:serviceConnect |
| cim:serviceDisconnect |
| cim:ServiceGuarantee - A service guarantee, often imposed by a regulator, defines conditions that, if not satisfied, will result in the utility making a monetary payment to the customer. Note that guarantee's identifier is in the 'name' attribute and the status of the guarantee is in the 'Status.status' attribute.
Example service requirements include:
1) If power is not restored within 24 hours, customers can claim $50 for residential customers or $100 for commercial and industrial customers. In addition for each extra period of 12 hours the customer's supply has not been activated, the customer can claim $25.
2) If a customer has a question about their electricity bill, the utility will investigate and respond to the inquiry within 15 working days. If utility fails to meet its guarantee, utility will automatically pay the customer $50. |
| cim:ServiceGuarantee.applicationPeriod - Period in which this service guantee applies. |
| cim:ServiceGuarantee.automaticPay - True if utility must autmatically pay the specified amount whenever the condition is not satisified, otherwise customer must make a claim to receive payment. |
| cim:ServiceGuarantee.payAmount - Amount to be paid by the service provider to the customer for each violation of the 'serviceRequirement'. |
| cim:ServiceGuarantee.serviceRequirement - Explanation of the requirement and conditions for satisfying it. |
| cim:ServiceKind |
| cim:ServiceLocation - A real estate location, commonly referred to as premises. |
| cim:ServiceLocation.accessMethod - Method for the service person to access this service location. For example, a description of where to obtain a key if the facility is unmanned and secured. |
| cim:ServiceLocation.CustomerAgreement - All customer agreements regulating this service location.All service locations regulated by this customer agreement. |
| cim:ServiceLocation.needsInspection - True if inspection is needed of facilities at this service location. This could be requested by a customer, due to suspected tampering, environmental concerns (e.g., a fire in the vicinity), or to correct incompatible data. |
| cim:ServiceLocation.siteAccessProblem - Problems previously encountered when visiting or performing work on this location. Examples include: bad dog, violent customer, verbally abusive occupant, obstructions, safety hazards, etc. |
| cim:ServiceMultiplier - Multiplier applied at the usage point. |
| cim:ServiceMultiplier.kind - Kind of multiplier. |
| cim:ServiceMultiplier.UsagePoint - Usage point applying this multiplier.All multipliers applied at this usage point. |
| cim:ServiceMultiplier.value - Multiplier value. |
| cim:ServiceMultiplierKind |
| cim:ServicePoint - The defined termination points of a transmission path. Service points are defined from the viewpoint of the transmission service. Each service point is contained within (or on the boundary of) an interchange area. A service point is source or destination of a transaction. |
| cim:ServicePointOutageSummary - Summary counts of service points affected by an outage. These counts are sometimes referred to as total and critical customer count. |
| cim:ServicePointOutageSummary.criticalCount - Number of critical service (delivery) points affected by an outage. |
| cim:ServicePointOutageSummary.totalCount - Number of all service (delivery) points affected by an outage. |
| cim:ServiceSupplier - Organisation that provides services to customers. |
| cim:ServiceSupplier.issuerIdentificationNumber - Unique transaction reference prefix number issued to an entity by the International Organization for Standardization for the purpose of tagging onto electronic financial transactions, as defined in ISO/IEC 7812-1 and ISO/IEC 7812-2. |
| cim:ServiceSupplier.kind - Kind of supplier. |
| cim:SetPoint - An analog control that issue a set point value. |
| cim:setpoint |
| cim:SetPoint.normalValue - Normal value for Control.value e.g. used for percentage scaling. |
| cim:SetPoint.value - The value representing the actuator output. |
| cim:Settlement - Specifies a settlement run. |
| cim:Settlement.EnergyMarket - |
| cim:Settlement.MajorChargeGroup - |
| cim:Settlement.MarketInvoiceLineItem - |
| cim:Settlement.MarketLedgerEntry - |
| cim:Settlement.tradeDate - The trade date on which the settlement is run. |
| cim:setValue |
| cim:sewerage |
| cim:sf6 |
| cim:SGD |
| cim:shell |
| cim:Shift - Generally referring to a period of operation or work performed. Whether the shift is open/closed can be derived from attributes 'activityInterval.start' and 'activityInterval.end'.
The grand total for receipts (i.e., cumulative total of all actual receipted amounts during this shift; bankable + non-bankable; excludes rounding error totals) can be derived from receipt:
=sum('Receipt.receiptAmount'); includes bankable and non-bankable receipts.
It also has to be reconciled against:
=sum('receiptsGrandTotalBankable' + 'receiptsGrandTotalNonBankable')
and against receipt summary:
=sum('ReceiptSummary.receiptsTotal').
The attributes with "GrandTotal" defined in this class may need to be used when the source data is periodically flushed from the system and then these cannot be derived. |
| cim:Shift.activityInterval - Interval for activity of this shift. |
| cim:Shift.receiptsGrandTotalBankable - Total of amounts receipted during this shift that can be manually banked (cash and cheques for example). Values are obtained from Receipt attributes:
=sum(Receipt.receiptAmount) for all Receipt.bankable = true. |
| cim:Shift.receiptsGrandTotalNonBankable - Total of amounts receipted during this shift that cannot be manually banked (card payments for example). Values are obtained from Receipt attributes:
=sum(Receipt.receiptAmount) for all Receipt.bankable = false. |
| cim:Shift.receiptsGrandTotalRounding - Cumulative amount in error due to process rounding not reflected in receiptsGrandTotal. Values are obtained from Receipt attributes:
=sum(Receipt.receiptRounding). |
| cim:Shift.transactionsGrandTotal - Cumulative total of transacted amounts during this shift. Values are obtained from transaction:
=sum('Transaction.transactionAmount'). It also has to be reconciled against transaction summary:
=sum('TransactionSummary.transactionsTotal'). |
| cim:Shift.transactionsGrandTotalRounding - Cumulative amount in error due to process rounding not reflected in transactionsGandTotal. Values are obtained from Transaction attributes:
=sum(Transaction.transactionRounding). |
| cim:ShiftPattern - The patterns of shifts worked by people or crews. |
| cim:ShiftPattern.assignmentType - Type of assignement intended to be worked on this shift, for example, temporary, standard, etc. |
| cim:ShiftPattern.cycleCount - Number of cycles for a temporary shift. |
| cim:ShiftPattern.OldCrew - |
| cim:ShiftPattern.status |
| cim:ShiftPattern.validityInterval - Date and time interval for which this shift pattern is valid (when it became effective and when it expires). |
| cim:ShortCircuitRotorKind |
| cim:ShortCircuitTest - Short-circuit test results determine mesh impedance parameters. They include load losses and leakage impedances. For three-phase windings, the excitation can be a positive sequence (the default) or a zero sequence. There shall be at least one grounded winding. |
| cim:ShortCircuitTest.current - Short circuit current.. |
| cim:ShortCircuitTest.energisedEndStep - Tap step number for the energised end of the test pair. |
| cim:ShortCircuitTest.groundedEndStep - Tap step number for the grounded end of the test pair. |
| cim:ShortCircuitTest.leakageImpedance - Leakage impedance measured from a positive-sequence or single-phase short-circuit test. |
| cim:ShortCircuitTest.leakageImpedanceZero - Leakage impedance measured from a zero-sequence short-circuit test. |
| cim:ShortCircuitTest.loss - Load losses from a positive-sequence or single-phase short-circuit test. |
| cim:ShortCircuitTest.lossZero - Load losses from a zero-sequence short-circuit test. |
| cim:ShortCircuitTest.power - Short circuit apparent power. |
| cim:ShortCircuitTest.voltage - Short circuit voltage.. |
| cim:SHP |
| cim:ShuntCompensator - A shunt capacitor or reactor or switchable bank of shunt capacitors or reactors. A section of a shunt compensator is an individual capacitor or reactor. A negative value for reactivePerSection indicates that the compensator is a reactor. ShuntCompensator is a single terminal device. Ground is implied. |
| cim:ShuntCompensator.aVRDelay - Time delay required for the device to be connected or disconnected by automatic voltage regulation (AVR). |
| cim:ShuntCompensator.grounded - Used for Yn and Zn connections. True if the neutral is solidly grounded. |
| cim:ShuntCompensator.maximumSections - The maximum number of sections that may be switched in. |
| cim:ShuntCompensator.nomU - The voltage at which the nominal reactive power may be calculated. This should normally be within 10% of the voltage at which the capacitor is connected to the network. |
| cim:ShuntCompensator.normalSections - The normal number of sections switched in. |
| cim:ShuntCompensator.phaseConnection - The type of phase connection, such as wye or delta. |
| cim:ShuntCompensator.sections - Shunt compensator sections in use.
Starting value for steady state solution. Non integer values are allowed to support continuous variables. The reasons for continuous value are to support study cases where no discrete shunt compensators has yet been designed, a solutions where a narrow voltage band force the sections to oscillate or accommodate for a continuous solution as input. |
| cim:ShuntCompensator.SvShuntCompensatorSections - The state for the number of shunt compensator sections in service.The shunt compensator for which the state applies. |
| cim:ShuntCompensator.switchOnCount - The switch on count since the capacitor count was last reset or initialized. |
| cim:ShuntCompensator.switchOnDate - The date and time when the capacitor bank was last switched on. |
| cim:ShuntCompensator.voltageSensitivity - Voltage sensitivity required for the device to regulate the bus voltage, in voltage/reactive power. |
| cim:ShuntCompensatorControl - Distribution capacitor bank control settings. |
| cim:ShuntCompensatorControl.branchDirect - For VAR, amp, or power factor locally controlled shunt impedances, the flow direction: in, out. |
| cim:ShuntCompensatorControl.cellSize - The size of the individual units that make up the bank. |
| cim:ShuntCompensatorControl.controlKind - Kind of control (if any). |
| cim:ShuntCompensatorControl.highVoltageOverride - For locally controlled shunt impedances which have a voltage override feature, the high voltage override value. If the voltage is above this value, the shunt impedance will be turned off regardless of the other local controller settings. |
| cim:ShuntCompensatorControl.localControlKind - Kind of local controller. |
| cim:ShuntCompensatorControl.localOffLevel - Upper control setting. |
| cim:ShuntCompensatorControl.localOnLevel - Lower control setting. |
| cim:ShuntCompensatorControl.localOverride - True if the locally controlled capacitor has voltage override capability. |
| cim:ShuntCompensatorControl.lowVoltageOverride - For locally controlled shunt impedances which have a voltage override feature, the low voltage override value. If the voltage is below this value, the shunt impedance will be turned on regardless of the other local controller settings. |
| cim:ShuntCompensatorControl.maxSwitchOperationCount - IdmsShuntImpedanceData.maxNumSwitchOps. |
| cim:ShuntCompensatorControl.normalOpen - True if open is normal status for a fixed capacitor bank, otherwise normal status is closed. |
| cim:ShuntCompensatorControl.regBranch - For VAR, amp, or power factor locally controlled shunt impedances, the index of the regulation branch. |
| cim:ShuntCompensatorControl.regBranchEnd - For VAR, amp, or power factor locally controlled shunt impedances, the end of the branch that is regulated. The field has the following values: from side, to side, and tertiary (only if the branch is a transformer). |
| cim:ShuntCompensatorControl.regBranchKind - (For VAR, amp, or power factor locally controlled shunt impedances) Kind of regulation branch. |
| cim:ShuntCompensatorControl.sensingPhaseCode - Phases that are measured for controlling the device. |
| cim:ShuntCompensatorControl.ShuntCompensatorInfo - |
| cim:ShuntCompensatorControl.switchOperationCycle - Time interval between consecutive switching operations. |
| cim:ShuntCompensatorControl.vRegLineLine - True if regulated voltages are measured line to line, otherwise they are measured line to ground. |
| cim:ShuntCompensatorDynamicData - Optimal Power Flow or State Estimator Filter Bank Data for OTS. This is used for RealTime, Study and Maintenance Users |
| cim:ShuntCompensatorDynamicData.connectionStatus - The current status for the Voltage Control Capacitor 1= Connected 0 = Disconnected |
| cim:ShuntCompensatorDynamicData.desiredVoltage - The desired voltage for the Voltage Control Capacitor |
| cim:ShuntCompensatorDynamicData.mVARInjection - The injection of reactive power of the filter bank in the NA solution or VCS reactive power production |
| cim:ShuntCompensatorDynamicData.stepPosition - Voltage control capacitor step position |
| cim:ShuntCompensatorDynamicData.voltageRegulationStatus - Indicator if the voltage control this is regulating True = Yes, False = No |
| cim:ShuntCompensatorInfo - Properties of shunt capacitor, shunt reactor or switchable bank of shunt capacitor or reactor assets. |
| cim:ShuntCompensatorInfo.maxPowerLoss - Maximum allowed apparent power loss. |
| cim:ShuntCompensatorInfo.ratedCurrent - Rated current. |
| cim:ShuntCompensatorInfo.ratedReactivePower - Rated reactive power. |
| cim:ShuntCompensatorInfo.ratedVoltage - Rated voltage. |
| cim:ShuntCompensatorPhase - Single phase of a multi-phase shunt compensator when its attributes might be different per phase. |
| cim:ShuntCompensatorPhase.maximumSections - The maximum number of sections that may be switched in for this phase. |
| cim:ShuntCompensatorPhase.normalSections - For the capacitor phase, the normal number of sections switched in. |
| cim:ShuntCompensatorPhase.phase - Phase of this shunt compensator component. If the shunt compensator is wye connected, the connection is from the indicated phase to the central ground or neutral point. If the shunt compensator is delta connected, the phase indicates a shunt compensator connected from the indicated phase to the next logical non-neutral phase. |
| cim:ShuntCompensatorPhase.ShuntCompensator - Shunt compensator of this shunt compensator phase.The individual phases models for the shunt compensator. |
| cim:ShuntImpedanceControlKind |
| cim:ShuntImpedanceLocalControlKind |
| cim:SHUT_DOWN |
| cim:ShutdownCurve - Relationship between the rate in gross active power/minute (Y-axis) at which a unit should be shutdown and its present gross MW output (X-axis). |
| cim:ShutdownCurve.shutdownCost - Fixed shutdown cost. |
| cim:ShutdownCurve.shutdownDate - The date and time of the most recent generating unit shutdown. |
| cim:signalStrength |
| cim:signaltoNoiseRatio |
| cim:siliconRubber |
| cim:SimpleEndDeviceFunction - Simple end device function distinguished by 'kind'. Use this class for instances that cannot be represented by another end device function specialisations. |
| cim:SimpleEndDeviceFunction.kind - Kind of this function. |
| cim:singleBreaker |
| cim:singleBus |
| cim:SinglePhaseKind |
| cim:Sink |
| cim:sixtyMinute |
| cim:Skill - Proficiency level of a craft, which is required to operate or maintain a particular type of asset and/or perform certain types of work. |
| cim:Skill.certificationPeriod - Interval between the certification and its expiry. |
| cim:Skill.effectiveDateTime - Date and time the skill became effective. |
| cim:Skill.level - Level of skill for a Craft. |
| cim:Skill.OldPerson - |
| cim:SkillLevelKind |
| cim:SL |
| cim:SLD_FCST |
| cim:SLD_FCST_PEAK |
| cim:SLD_MKTS |
| cim:SLIC |
| cim:SLL |
| cim:SLOW |
| cim:so2 |
| cim:SolarGeneratingUnit - A solar thermal generating unit. |
| cim:SOLD_TO |
| cim:solid |
| cim:solidPorcelain |
| cim:SOLR |
| cim:SOS |
| cim:Source |
| cim:SourceSinkFlag |
| cim:SourceSinkType |
| cim:SOUTH-S |
| cim:SP |
| cim:specialRestrictionLand |
| cim:Specification - Specification can be used for various purposes relative to an asset, a logical device (PowerSystemResource), location, etc. Examples include documents supplied by manufacturers such as asset installation instructions, asset maintenance instructions, etc. |
| cim:Specification.DimensionsInfo - |
| cim:Specification.QualificationRequirement - |
| cim:Specification.ReliabilityInfo - |
| cim:Specification.UserAttribute - UserAttributes used to specify ratings of the asset covered by this specification. Ratings also can be used to set the initial value of operational measurement limits. Use 'name' to specify what kind of rating it is (e.g., voltage, current), and 'value' attribute for the actual value and unit information of the rating. |
| cim:Specification_Layer |
| cim:specifiedPeriod |
| cim:Speed - Distance per unit of time. |
| cim:Speed.multiplier |
| cim:Speed.unit |
| cim:Speed.value |
| cim:SPerm |
| cim:sPers |
| cim:SPIN |
| cim:SpinningEventNameType |
| cim:SpinningEventType |
| cim:sqrt |
| cim:sr |
| cim:SR |
| cim:SRD |
| cim:SRE |
| cim:SRT |
| cim:Stage - Stage of a remedial action scheme. |
| cim:Stage.priority - The priority of the stage. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on. A stage with higher priority needs be activated before a lower stage can be activated. |
| cim:Stage.StageTrigger - |
| cim:StageTrigger - Condition that is triggered either by TriggerCondition of by gate condition within a stage and has remedial action-s. |
| cim:StageTrigger.armed - The status of the class set by operation or by signal. Optional field that will override other status fields. |
| cim:StageTrigger.normalArmed - The default/normal value used when other active signal/values are missing. |
| cim:StageTrigger.priority - Priority of trigger. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on. A trigger with the highest priority will trigger first. |
| cim:StageTrigger.ProtectiveActionCollection - |
| cim:standard |
| cim:StandardIndustryCode - The Standard Industrial Classification (SIC) are the codes that identify the type of products/service an industry is involved in, and used for statutory reporting purposes. For example, in the USA these codes are located by the federal government, and then published in a book entitled "The Standard Industrial Classification Manual". The codes are arranged in a hierarchical structure.
Note that Residential Service Agreements are not classified according to the SIC codes. |
| cim:StandardIndustryCode.code - Standard alphanumeric code assigned to a particular product/service within an industry. |
| cim:StandardIndustryCode.CustomerAgreement - |
| cim:standardsDeveloper |
| cim:start |
| cim:START |
| cim:START_UP |
| cim:startAndEnd |
| cim:StartIgnFuelCurve - The quantity of ignition fuel (Y-axis) used to restart and repay the auxiliary power consumed versus the number of hours (X-axis) the unit was off line. |
| cim:StartIgnFuelCurve.ignitionFuelType - Type of ignition fuel. |
| cim:StartMainFuelCurve - The quantity of main fuel (Y-axis) used to restart and repay the auxiliary power consumed versus the number of hours (X-axis) the unit was off line. |
| cim:StartMainFuelCurve.mainFuelType - Type of main fuel. |
| cim:StartRampCurve - Rate in gross active power/minute (Y-axis) at which a unit can be loaded versus the number of hours (X-axis) the unit was off line. |
| cim:StartRampCurve.hotStandbyRamp - The startup ramp rate in gross for a unit that is on hot standby. |
| cim:StartUpCostCurve - Startup costs and time as a function of down time. Relationship between unit startup cost (Y1-axis) vs. unit elapsed down time (X-axis). |
| cim:StartUpEnergyCurve - The energy consumption of a generating resource to complete a start-up from the StartUpEnergyCurve. Definition of the StartUpEnergyCurve includes, xvalue as the cooling time and y1value as the MW value. |
| cim:StartUpEnergyCurve.RegisteredGenerator - |
| cim:StartUpFuelCurve - The fuel consumption of a Generating Resource to complete a Start-Up.(x=cooling time) Form Startup Fuel Curve. xAxisData -> cooling time, y1AxisData -> MBtu |
| cim:StartUpFuelCurve.RegisteredGenerator - |
| cim:StartupModel - Unit start up characteristics depending on how long the unit has been off line. |
| cim:StartupModel.fixedMaintCost - Fixed maintenance cost. |
| cim:StartupModel.hotStandbyHeat - The amount of heat input per time uint required for hot standby operation. |
| cim:StartupModel.incrementalMaintCost - Incremental maintenance cost. |
| cim:StartupModel.minimumDownTime - The minimum number of hours the unit must be down before restart. |
| cim:StartupModel.minimumRunTime - The minimum number of hours the unit must be operating before being allowed to shut down. |
| cim:StartupModel.riskFactorCost - The opportunity cost associated with the return in monetary unit. This represents the restart's "share" of the unit depreciation and risk of an event which would damage the unit. |
| cim:StartupModel.StartIgnFuelCurve - The unit's startup model may have a startup ignition fuel curve.The unit's startup model may have a startup ignition fuel curve. |
| cim:StartupModel.StartMainFuelCurve - The unit's startup model may have a startup main fuel curve.The unit's startup model may have a startup main fuel curve. |
| cim:StartupModel.StartRampCurve - The unit's startup model may have a startup ramp curve.The unit's startup model may have a startup ramp curve. |
| cim:StartupModel.startupCost - Total miscellaneous start up costs. |
| cim:StartupModel.startupDate - The date and time of the most recent generating unit startup. |
| cim:StartupModel.startupPriority - Startup priority within control area where lower numbers indicate higher priorities. More than one unit in an area may be assigned the same priority. |
| cim:StartupModel.stbyAuxP - The unit's auxiliary active power consumption to maintain standby mode. |
| cim:StartUpTimeCurve - Startup time curve as a function of down time, where time is specified in minutes. Relationship between unit startup time (Y1-axis) vs. unit elapsed down time (X-axis). |
| cim:StartUpTimeCurve.RegisteredGenerator - |
| cim:statcom |
| cim:STATE |
| cim:StateVariable - An abstract class for state variables. |
| cim:static_power_system_model |
| cim:StaticLoadModelKind |
| cim:StaticVarCompensator - A facility for providing variable and controllable shunt reactive power. The SVC typically consists of a stepdown transformer, filter, thyristor-controlled reactor, and thyristor-switched capacitor arms.
The SVC may operate in fixed MVar output mode or in voltage control mode. When in voltage control mode, the output of the SVC will be proportional to the deviation of voltage at the controlled bus from the voltage setpoint. The SVC characteristic slope defines the proportion. If the voltage at the controlled bus is equal to the voltage setpoint, the SVC MVar output is zero. |
| cim:StaticVarCompensator.capacitiveRating - Maximum available capacitive reactance. |
| cim:StaticVarCompensator.inductiveRating - Maximum available inductive reactance. |
| cim:StaticVarCompensator.q - Reactive power injection. Load sign convention is used, i.e. positive sign means flow out from a node.
Starting value for a steady state solution. |
| cim:StaticVarCompensator.slope - The characteristics slope of an SVC defines how the reactive power output changes in proportion to the difference between the regulated bus voltage and the voltage setpoint. |
| cim:StaticVarCompensator.sVCControlMode - SVC control mode. |
| cim:StaticVarCompensator.voltageSetPoint - The reactive power output of the SVC is proportional to the difference between the voltage at the regulated bus and the voltage setpoint. When the regulated bus voltage is equal to the voltage setpoint, the reactive power output is zero. |
| cim:StationSupply - Station supply with load derived from the station output. |
| cim:statistical |
| cim:Status - Current status information relevant to an entity. |
| cim:Status.dateTime - Date and time for which status 'value' applies. |
| cim:Status.reason - Reason code or explanation for why an object went to the current status 'value'. |
| cim:Status.remark - Pertinent information regarding the current 'value', as free form text. |
| cim:Status.value - Status value at 'dateTime'; prior status changes may have been kept in instances of activity records associated with the object to which this status applies. |
| cim:STD |
| cim:steam |
| cim:SteamSendoutSchedule - The cogeneration plant's steam sendout schedule in volume per time unit. |
| cim:SteamSupply - Steam supply for steam turbine. |
| cim:SteamSupply.steamSupplyRating - Rating of steam supply. |
| cim:SteamTurbine - Steam turbine. |
| cim:SteamTurbine.crossoverTC - Crossover time constant. |
| cim:SteamTurbine.reheater1TC - First reheater time constant. |
| cim:SteamTurbine.reheater2TC - Second reheater time constant. |
| cim:SteamTurbine.shaft1PowerHP - Fraction of power from shaft 1 high pressure turbine output. |
| cim:SteamTurbine.shaft1PowerIP - Fraction of power from shaft 1 intermediate pressure turbine output. |
| cim:SteamTurbine.shaft1PowerLP1 - Fraction of power from shaft 1 first low pressure turbine output. |
| cim:SteamTurbine.shaft1PowerLP2 - Fraction of power from shaft 1 second low pressure turbine output. |
| cim:SteamTurbine.shaft2PowerHP - Fraction of power from shaft 2 high pressure turbine output. |
| cim:SteamTurbine.shaft2PowerIP - Fraction of power from shaft 2 intermediate pressure turbine output. |
| cim:SteamTurbine.shaft2PowerLP1 - Fraction of power from shaft 2 first low pressure turbine output. |
| cim:SteamTurbine.shaft2PowerLP2 - Fraction of power from shaft 2 second low pressure turbine output. |
| cim:SteamTurbine.steamChestTC - Steam chest time constant. |
| cim:SteamTurbine.SteamSupply - Steam turbines may have steam supplied by a steam supply.Steam turbines may have steam supplied by a steam supply. |
| cim:steel |
| cim:storage |
| cim:store |
| cim:straightLineYValues |
| cim:stranded |
| cim:StreetAddress - General purpose street and postal address information. |
| cim:StreetAddress.poBox - Post office box. |
| cim:StreetAddress.postalCode - Postal code for the address. |
| cim:StreetAddress.status - Status of this address. |
| cim:StreetAddress.streetDetail - Street detail. |
| cim:StreetAddress.townDetail - Town detail. |
| cim:StreetDetail - Street details, in the context of address. |
| cim:StreetDetail.addressGeneral - First line of a free form address or some additional address information (for example a mail stop). |
| cim:StreetDetail.addressGeneral2 - (if applicable) Second line of a free form address. |
| cim:StreetDetail.addressGeneral3 - (if applicable) Third line of a free form address. |
| cim:StreetDetail.buildingName - (if applicable) In certain cases the physical location of the place of interest does not have a direct point of entry from the street, but may be located inside a larger structure such as a building, complex, office block, apartment, etc. |
| cim:StreetDetail.code - (if applicable) Utilities often make use of external reference systems, such as those of the town-planner's department or surveyor general's mapping system, that allocate global reference codes to streets. |
| cim:StreetDetail.name - Name of the street. |
| cim:StreetDetail.number - Designator of the specific location on the street. |
| cim:StreetDetail.prefix - Prefix to the street name. For example: North, South, East, West. |
| cim:StreetDetail.suffix - Suffix to the street name. For example: North, South, East, West. |
| cim:StreetDetail.suiteNumber - Number of the apartment or suite. |
| cim:StreetDetail.type - Type of street. Examples include: street, circle, boulevard, avenue, road, drive, etc. |
| cim:StreetDetail.withinTownLimits - True if this street is within the legal geographical boundaries of the specified town (default). |
| cim:streetLight |
| cim:Streetlight - Streetlight asset. |
| cim:streetlight |
| cim:Streetlight.armLength - Length of arm. Note that a new light may be placed on an existing arm. |
| cim:Streetlight.lampKind - Lamp kind. |
| cim:Streetlight.lightRating - Power rating of light. |
| cim:Streetlight.Pole - Pole to which thiss streetlight is attached.All streetlights attached to this pole. |
| cim:StreetlightLampKind |
| cim:StringMeasurement - StringMeasurement represents a measurement with values of type string. |
| cim:StringMeasurement.StringMeasurementValue - The values connected to this measurement.Measurement to which this value is connected. |
| cim:StringMeasurementValue - StringMeasurementValue represents a measurement value of type string. |
| cim:StringMeasurementValue.value - The value to supervise. |
| cim:StringQuantity - Quantity with string value (when it is not important whether it is an integral or a floating point number) and associated unit information. |
| cim:StringQuantity.multiplier |
| cim:StringQuantity.unit |
| cim:StringQuantity.value |
| cim:STRT |
| cim:Structure - Construction holding assets such as conductors, transformers, switchgear, etc. Where applicable, number of conductors can be derived from the number of associated wire spacing instances. |
| cim:Structure.fumigantAppliedDate - Date fumigant was last applied. |
| cim:Structure.fumigantName - Name of fumigant. |
| cim:Structure.height - Visible height of structure above ground level for overhead construction (e.g., Pole or Tower) or below ground level for an underground vault, manhole, etc. Refer to associated DimensionPropertiesInfo for other types of dimensions. |
| cim:Structure.materialKind - Material this structure is made of. |
| cim:Structure.ratedVoltage - Maximum rated voltage of the equipment that can be mounted on/contained within the structure. |
| cim:Structure.removeWeed - True if weeds are to be removed around asset. |
| cim:Structure.weedRemovedDate - Date weed were last removed. |
| cim:Structure.WireSpacing - |
| cim:StructureMaterialKind |
| cim:StructureSupport - Support for structure assets. |
| cim:StructureSupport.anchorKind - (if anchor) Kind of anchor. |
| cim:StructureSupport.anchorRodCount - (if anchor) Number of rods used. |
| cim:StructureSupport.anchorRodLength - (if anchor) Length of rod used. |
| cim:StructureSupport.direction - Direction of this support structure. |
| cim:StructureSupport.kind - Kind of structure support. |
| cim:StructureSupport.length - Length of this support structure. |
| cim:StructureSupport.size - Size of this support structure. |
| cim:StructureSupport.Structure - |
| cim:StructureSupportKind |
| cim:study |
| cim:STUR |
| cim:SubControlArea - An area defined for the purpose of tracking interchange with surrounding areas via tie points; may or may not serve as a control area. |
| cim:SubControlArea.AdjacentCASet - |
| cim:SubControlArea.AggregateNode - |
| cim:SubControlArea.AreaReserveSpec - |
| cim:SubControlArea.areaShortName - Market area short name, which is the regulation zone. It references AGC regulation zone name. |
| cim:SubControlArea.CnodeDistributionFactor - |
| cim:SubControlArea.constantCoefficient - Loss estimate constant coefficient |
| cim:SubControlArea.ControlAreaDesignation - |
| cim:SubControlArea.DynamicSchedule - A control area can send dynamic schedules to other control areasA control area can send dynamic schedules to other control areas |
| cim:SubControlArea.embeddedControlArea - Used in conjunction with the InternalCA flag. If the InternalCA flag is YES, this flag does not apply. If the InternaCA flag is NO, this flag provides an indication of AdjacentCA (NO) or Embedded CA (YES). |
| cim:SubControlArea.endEffectiveDate - end effective date |
| cim:SubControlArea.ExPostLossResults - |
| cim:SubControlArea.Flowgate - |
| cim:SubControlArea.HostControlArea - The interchange area may operate as a control areaThe interchange area may operate as a control area |
| cim:SubControlArea.InadvertentAccount - A control area can have one or more net inadvertent interchange accountsA control area can have one or more net inadvertent interchange accounts |
| cim:SubControlArea.internalCA - A Yes/No indication that this control area is contained internal to the system. |
| cim:SubControlArea.linearCoefficient - Loss estimate linear coefficient |
| cim:SubControlArea.localCA - Indication that this control area is the local control area. |
| cim:SubControlArea.LossClearingResults - |
| cim:SubControlArea.maxSelfSchedMW - Maximum amount of self schedule MWs allowed for an embedded control area. |
| cim:SubControlArea.minSelfSchedMW - Minimum amount of self schedule MW allowed for an embedded control area. |
| cim:SubControlArea.Pnode - |
| cim:SubControlArea.quadraticCoefficient - Loss estimate quadratic coefficient |
| cim:SubControlArea.RegisteredResource - |
| cim:SubControlArea.RTO - |
| cim:SubControlArea.startEffectiveDate - start effective date |
| cim:SubControlArea.TieLine - The SubControlArea is on the B side of a collection of metered points which define the SubControlArea's boundary for a ControlAreaOperator or CustomerConsumer.The SubControlArea is on the B side of a collection of metered points which define the SubControlArea's boundary for a ControlAreaOperator or CustomerConsumer. |
| cim:Subcritical - Once-through subcritical boiler. |
| cim:SubGeographicalRegion - A subset of a geographical region of a power system network model. |
| cim:SubGeographicalRegion.DCLine - |
| cim:SubGeographicalRegion.GeographicalRegion - The geographical region to which this sub-geographical region is within.All sub-geograhpical regions within this geographical region. |
| cim:SubLoadArea - The class is the second level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling. |
| cim:SubLoadArea.LoadArea - The LoadArea where the SubLoadArea belongs.The SubLoadAreas in the LoadArea. |
| cim:SubscribePowerCurve - Price curve for specifying the cost of energy (X) at points in time (y1) according to a prcing structure, which is based on a tariff. |
| cim:substation |
| cim:Substation - A collection of equipment for purposes other than generation or utilization, through which electric energy in bulk is passed for the purposes of switching or modifying its characteristics. |
| cim:Substation.Bay - Bays contained in the substation.Substation containing the bay. |
| cim:Substation.DCConverterUnit - The DC converter unit belonging ot the substation.The containing substation of the DC converter unit. |
| cim:Substation.SubGeographicalRegion - The SubGeographicalRegion containing the substation.The substations in this sub-geographical region. |
| cim:SubstationControlSystem |
| cim:SUBSTITUTED |
| cim:SubstitutionResourceList - List of resources that can be substituted for within the bounds of a Contract definition. This class has a precedence and a resource. |
| cim:SubstitutionResourceList.ContractRight - |
| cim:SubstitutionResourceList.precedence - An indicator of the order a resource should be substituted. The lower the number the higher the precedence. |
| cim:SubstitutionResourceList.RegisteredResource - |
| cim:subsurfaceEnclosure |
| cim:subtransient |
| cim:subtransientSimplified |
| cim:subtransientSimplifiedDirectAxis |
| cim:subtransientTypeF |
| cim:subtransientTypeJ |
| cim:subway |
| cim:sum |
| cim:summation |
| cim:SUMR |
| cim:Supercritical - Once-through supercritical boiler. |
| cim:SupplierKind |
| cim:SurgeArrester - Shunt device, installed on the network, usually in the proximity of electrical equipment in order to protect the said equipment against transient voltage transients caused by lightning or switching activity. |
| cim:SurgeArresterInfo - Properties of surge arrester. |
| cim:SurgeArresterInfo.continuousOperatingVoltage - Maximum continuous power frequency voltage allowed on the surge arrester. |
| cim:SurgeArresterInfo.isPolymer - If true, the arrester has a polymer housing, porcelain otherwise. |
| cim:SurgeArresterInfo.lightningImpulseDischargeVoltage - Residual voltage during an 8x20 microsecond current impulse at the nominal discharge current level. |
| cim:SurgeArresterInfo.lineDischargeClass - Determines the arrester energy discharge capability. Choices are limited to 0 (none) through 5 (highest) by IEC 60099. Classes 1..3 require a 10-kA nominal discharge current. Classes 4..5 require a 20-kA nominal discharge current. Lower nominal discharge currents must use class 0. |
| cim:SurgeArresterInfo.nominalDischargeCurrent - The lightning discharge current used to classify the arrester. Choices are limited to 1.5, 2.5, 5, 10, and 20 kA by IEC 60099. |
| cim:SurgeArresterInfo.pressureReliefClass - Fault current level at which all parts of the failed arrester lie within a circle prescribed by IEC 60099. |
| cim:SurgeArresterInfo.ratedVoltage - The temporary overvoltage (TOV) level at power frequency that the surge arrester withstands for 10 seconds. |
| cim:SurgeArresterInfo.steepFrontDischargeVoltage - Residual voltage during a current impulse with front time of 1 microsecond, and magnitude equal to the nominal discharge current level. |
| cim:SurgeArresterInfo.switchingImpulseDischargeVoltage - Residual voltage during a current impulse with front time of at least 30 microseconds, and magnitude specified in IEC 60099 for the line discharge class. Does not apply to line discharge class 0. |
| cim:Susceptance - Imaginary part of admittance. |
| cim:Susceptance.multiplier |
| cim:Susceptance.unit |
| cim:Susceptance.value |
| cim:SusceptancePerLength - Imaginary part of admittance per unit of length. |
| cim:SusceptancePerLength.multiplier |
| cim:SusceptancePerLength.unit |
| cim:SusceptancePerLength.value |
| cim:suspension |
| cim:Sv |
| cim:svc |
| cim:SVC - SVC asset allows the capacitive and inductive ratings for each phase to be specified individually if required. |
| cim:SVC.capacitiveRating - Maximum capacitive reactive power. |
| cim:SVC.inductiveRating - Maximum inductive reactive power. |
| cim:SVCControlMode |
| cim:SvInjection - The SvInjection is reporting the calculated bus injection minus the sum of the terminal flows. The terminal flow is positive out from the bus (load sign convention) and bus injection has positive flow into the bus. SvInjection may have the remainder after state estimation or slack after power flow calculation. |
| cim:SvInjection.phase - The terminal phase at which the connection is applied. If missing, the injection is assumed to be balanced among non-neutral phases. |
| cim:SvInjection.pInjection - The active power injected into the bus in addition to injections from equipment terminals. Positive sign means injection into the TopologicalNode (bus). |
| cim:SvInjection.qInjection - The reactive power injected into the bus in addition to injections from equipment terminals. Positive sign means injection into the TopologicalNode (bus). |
| cim:SvPowerFlow - State variable for power flow. Load convention is used for flow direction. This means flow out from the TopologicalNode into the equipment is positive. |
| cim:SvPowerFlow.p - The active power flow. Load sign convention is used, i.e. positive sign means flow out from a TopologicalNode (bus) into the conducting equipment. |
| cim:SvPowerFlow.phase - The individual phase of the flow. If unspecified, then assumed to be balanced among phases. |
| cim:SvPowerFlow.q - The reactive power flow. Load sign convention is used, i.e. positive sign means flow out from a TopologicalNode (bus) into the conducting equipment. |
| cim:SvShuntCompensatorSections - State variable for the number of sections in service for a shunt compensator. |
| cim:SvShuntCompensatorSections.sections - The number of sections in service as a continous variable. To get integer value scale with ShuntCompensator.bPerSection. |
| cim:SvStatus - State variable for status. |
| cim:SvStatus.inService - The in service status as a result of topology processing. |
| cim:SvStatus.phase - The individual phase status. If the attribute is unspecified, then three phase model is assumed. |
| cim:SvTapStep - State variable for transformer tap step. This class is to be used for taps of LTC (load tap changing) transformers, not fixed tap transformers. |
| cim:SvTapStep.position - The floating point tap position. This is not the tap ratio, but rather the tap step position as defined by the related tap changer model and normally is constrained to be within the range of minimum and maximum tap positions. |
| cim:SvVoltage - State variable for voltage. |
| cim:SvVoltage.angle - The voltage angle of the topological node complex voltage with respect to system reference. |
| cim:SvVoltage.phase - If specified the voltage is the line to ground voltage of the individual phase. If unspecified, then the voltage is assumed balanced. |
| cim:SvVoltage.v - The voltage magnitude at the topological node. |
| cim:swell |
| cim:switch |
| cim:Switch - A generic device designed to close, or open, or both, one or more electric circuits. All switches are two terminal devices including grounding switches. |
| cim:Switch.CompositeSwitch - Composite switch to which this Switch belongs.Switches contained in this Composite switch. |
| cim:Switch.ConnectDisconnectFunction - |
| cim:Switch.normalOpen - The attribute is used in cases when no Measurement for the status value is present. If the Switch has a status measurement the Discrete.normalValue is expected to match with the Switch.normalOpen. |
| cim:Switch.open - The attribute tells if the switch is considered open when used as input to topology processing. |
| cim:Switch.Outage - Current outage of this protective device.All potentially open switches causing this outage. This realationship is meant to be used as "indication" for initiation of outage-related business processes, whereas for actual actions of switches, SwitchAction-Switch relationship should be used. |
| cim:Switch.ratedCurrent - The maximum continuous current carrying capacity in amps governed by the device material and construction. |
| cim:Switch.retained - Branch is retained in a bus branch model. The flow through retained switches will normally be calculated in power flow. |
| cim:Switch.SwitchAction - Action changing status of this switch.Switch that is the object of this switch action. |
| cim:Switch.switchOnCount - The switch on count since the switch was last reset or initialized. |
| cim:Switch.switchOnDate - The date and time when the switch was last switched on. |
| cim:SwitchAction - Action on switch as a switching step. |
| cim:SwitchAction.kind - Switching action to perform. |
| cim:SwitchAction.Outage - Planned outage for whose scope this switch action applies.All switch actions to apply within the scope of this planned outage. Each such action groups switches to which the action is to apply in order to produce the desired network state considered as outage. |
| cim:SwitchAction.SwitchingStepGroup - Group to which this step belongs.All switch action steps in this group. |
| cim:SwitchActionKind |
| cim:switchArmed |
| cim:switchDisabled |
| cim:SwitchInfo - Switch data. |
| cim:SwitchInfo.breakingCapacity - The maximum fault current a breaking device can break safely under prescribed conditions of use. |
| cim:SwitchInfo.isSinglePhase - If true, it is a single phase switch. |
| cim:SwitchInfo.isUnganged - If true, the switch is not ganged (i.e., a switch phase may be operated separately from other phases). |
| cim:SwitchInfo.ratedCurrent - Rated current. |
| cim:SwitchInfo.ratedVoltage - Rated voltage. |
| cim:SwitchingPlan - A sequence of grouped or atomic steps intended to:
- de-energise equipment or part of the network for safe work, and/or
- bring back in service previously de-energised equipment or part of the network. |
| cim:SwitchingPlan.purpose - Purpose of this plan, such as whether it is to move the state from normal to some abnormal condition, or to restore the normal state after an abnormal condition, or to perform some kind of optimisation such as correction of overload, voltage control, etc. |
| cim:SwitchingPlan.rank - Ranking in comparison to other switching plans. |
| cim:SwitchingStep - Atomic switching step; can be part of a switching step group, or part of a switching plan. |
| cim:SwitchingStep.description - Free text description of this activity. |
| cim:SwitchingStep.executedDateTime - Actual date and time of this switching step. |
| cim:SwitchingStep.isFreeSequence - If true, the sequence number serves for presentation purposes only, and the activity itself may be executed at any time. |
| cim:SwitchingStep.issuedDateTime - Date and time when the crew was given the instruction to execute the action; not applicable if the action is performed by operator remote control. |
| cim:SwitchingStep.plannedDateTime - Planned date and time of this switching step. |
| cim:SwitchingStep.sequenceNumber - Order of this activity in the sequence of activities within the switching plan. |
| cim:SwitchingStepGroup - A logical step, grouping atomic switching steps that are important to distinguish when they may change topology (e.g. placing a jumper between two cuts). |
| cim:SwitchingStepGroup.isFreeSequence - If true, the sequence number serves for presentation purposes only, and the activity itself may be executed at any time. |
| cim:SwitchingStepGroup.sequenceNumber - Order of this activity in the sequence of activities within the switching plan. |
| cim:SwitchingStepGroup.SwitchingPlan - Switching plan to which this group belongs.All groups of switching steps within this switching plan. |
| cim:SwitchPhase - Single phase of a multi-phase switch when its attributes might be different per phase. |
| cim:SwitchPhase.closed - The attribute tells if the switch is considered closed when used as input to topology processing. |
| cim:SwitchPhase.normalOpen - Used in cases when no Measurement for the status value is present. If the SwitchPhase has a status measurement the Discrete.normalValue is expected to match with this value. |
| cim:SwitchPhase.phaseSide1 - Phase of this SwitchPhase on the side with terminal sequence number equal 1. Should be a phase contained in that terminal’s phases attribute. |
| cim:SwitchPhase.phaseSide2 - Phase of this SwitchPhase on the side with terminal sequence number equal 2. Should be a phase contained in that terminal’s Terminal.phases attribute. |
| cim:SwitchPhase.Switch - The switch of the switch phase.The individual switch phases for the switch. |
| cim:switchPosition |
| cim:SwitchSchedule - A schedule of switch positions. If RegularTimePoint.value1 is 0, the switch is open. If 1, the switch is closed. |
| cim:SwitchSchedule.Switch - A SwitchSchedule is associated with a Switch.A Switch can be associated with SwitchSchedules. |
| cim:SwitchStatus - Optimal Power Flow or State Estimator Circuit Breaker Status. |
| cim:SwitchStatus.switchStatus - Circuit Breaker Status (closed or open) of the circuit breaker from the power flow. |
| cim:SwitchStatusType |
| cim:SYNC |
| cim:SYNCCOND |
| cim:SynchrocheckRelay - A device that operates when two AC circuits are within the desired limits of frequency, phase angle, and voltage, to permit or to cause the paralleling of these two circuits. Used to prevent the paralleling of non-synchronous topological islands. |
| cim:SynchrocheckRelay.maxAngleDiff - The maximum allowable voltage vector phase angle difference across the open device. |
| cim:SynchrocheckRelay.maxFreqDiff - The maximum allowable frequency difference across the open device. |
| cim:SynchrocheckRelay.maxVoltDiff - The maximum allowable difference voltage across the open device. |
| cim:Synchronous_Generator |
| cim:Synchronous_Machine |
| cim:SynchronousMachine - An electromechanical device that operates with shaft rotating synchronously with the network. It is a single machine operating either as a generator or synchronous condenser or pump. |
| cim:SynchronousMachine.aVRToManualLag - Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a lagging MVAr violation. |
| cim:SynchronousMachine.aVRToManualLead - Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a leading MVAr violation. |
| cim:SynchronousMachine.baseQ - Default base reactive power value. This value represents the initial reactive power that can be used by any application function. |
| cim:SynchronousMachine.condenserP - Active power consumed when in condenser mode operation. |
| cim:SynchronousMachine.coolantCondition - Temperature or pressure of coolant medium |
| cim:SynchronousMachine.coolantType - Method of cooling the machine. |
| cim:SynchronousMachine.earthing - Indicates whether or not the generator is earthed. Used for short circuit data exchange according to IEC 60909 |
| cim:SynchronousMachine.earthingStarPointR - Generator star point earthing resistance (Re). Used for short circuit data exchange according to IEC 60909 |
| cim:SynchronousMachine.earthingStarPointX - Generator star point earthing reactance (Xe). Used for short circuit data exchange according to IEC 60909 |
| cim:SynchronousMachine.ikk - Steady-state short-circuit current (in A for the profile) of generator with compound excitation during 3-phase short circuit.
- Ikk=0: Generator with no compound excitation.
- Ikk?0: Generator with compound excitation.
Ikk is used to calculate the minimum steady-state short-circuit current for generators with compound excitation
(Section 4.6.1.2 in the IEC 60909-0)
Used only for single fed short circuit on a generator. (Section 4.3.4.2. in the IEC 60909-0) |
| cim:SynchronousMachine.manualToAVR - Time delay required when switching from Manual to Automatic Voltage Regulation. This value is used in the accelerating power reference frame for powerflow solutions |
| cim:SynchronousMachine.maxQ - Maximum reactive power limit. This is the maximum (nameplate) limit for the unit. |
| cim:SynchronousMachine.maxU - Maximum voltage limit for the unit. |
| cim:SynchronousMachine.minQ - Minimum reactive power limit for the unit. |
| cim:SynchronousMachine.minU - Minimum voltage limit for the unit. |
| cim:SynchronousMachine.mu - Factor to calculate the breaking current (Section 4.5.2.1 in the IEC 60909-0).
Used only for single fed short circuit on a generator (Section 4.3.4.2. in the IEC 60909-0). |
| cim:SynchronousMachine.operatingMode - Current mode of operation. |
| cim:SynchronousMachine.PrimeMover - Prime movers that drive this SynchronousMachine.Synchronous machines this Prime mover drives. |
| cim:SynchronousMachine.qPercent - Percent of the coordinated reactive control that comes from this machine. |
| cim:SynchronousMachine.r - Equivalent resistance (RG) of generator. RG is considered for the calculation of all currents, except for the calculation of the peak current ip. Used for short circuit data exchange according to IEC 60909 |
| cim:SynchronousMachine.r0 - Zero sequence resistance of the synchronous machine. |
| cim:SynchronousMachine.r2 - Negative sequence resistance. |
| cim:SynchronousMachine.ReactiveCapabilityCurve - The default reactive capability curve for use by a synchronous machine.Synchronous machines using this curve as default. |
| cim:SynchronousMachine.referencePriority - Priority of unit for use as powerflow voltage phase angle reference bus selection. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on. |
| cim:SynchronousMachine.satDirectSubtransX - Direct-axis subtransient reactance saturated, also known as Xd"sat. |
| cim:SynchronousMachine.satDirectSyncX - Direct-axes saturated synchronous reactance (xdsat); reciprocal of short-circuit ration. Used for short circuit data exchange, only for single fed short circuit on a generator. (Section 4.3.4.2. in the IEC 60909-0). |
| cim:SynchronousMachine.satDirectTransX - Saturated Direct-axis transient reactance. The attribute is primarily used for short circuit calculations according to ANSI. |
| cim:SynchronousMachine.shortCircuitRotorType - Type of rotor, used by short circuit applications, only for single fed short circuit according to IEC 60909. |
| cim:SynchronousMachine.SynchronousMachineDynamics - Synchronous machine dynamics model used to describe dynamic behavior of this synchronous machine.Synchronous machine to which synchronous machine dynamics model applies. |
| cim:SynchronousMachine.type - Modes that this synchronous machine can operate in. |
| cim:SynchronousMachine.voltageRegulationRange - Range of generator voltage regulation (PG in the IEC 60909-0) used for calculation of the impedance correction factor KG defined in IEC 60909-0
This attribute is used to describe the operating voltage of the generating unit. |
| cim:SynchronousMachine.x0 - Zero sequence reactance of the synchronous machine. |
| cim:SynchronousMachine.x2 - Negative sequence reactance. |
cim:SynchronousMachineDetailed - All synchronous machine detailed types use a subset of the same data parameters and input/output variables.
The several variations differ in the following ways:
- The number of equivalent windings that are included
- The way in which saturation is incorporated into the model.
- Whether or not subtransient saliency (X''q not = X''d) is represented.
Note: It is not necessary for each simulation tool to have separate models for each of the model types. The same model can often be used for several types by alternative logic within the model. Also, differences in saturation representation may not result in significant model performance differences so model substitutions are often acceptable. |
| cim:SynchronousMachineDetailed.efdBaseRatio - Ratio of Efd bases of exciter and generator models. Typical Value = 1. |
| cim:SynchronousMachineDetailed.ifdBaseType - Excitation base system mode. Typical Value = ifag. |
| cim:SynchronousMachineDetailed.ifdBaseValue - Ifd base current if .ifdBaseType = other.
Not needed if .ifdBaseType not = other.
Unit = A. Typical Value = 0. |
| cim:SynchronousMachineDetailed.saturationFactor120QAxis - Q-axis saturation factor at 120% of rated terminal voltage (S12q) (>=S1q). Typical Value = 0.12. |
| cim:SynchronousMachineDetailed.saturationFactorQAxis - Q-axis saturation factor at rated terminal voltage (S1q) (>= 0). Typical Value = 0.02. |
cim:SynchronousMachineDynamics - Synchronous machine whose behaviour is described by reference to a standard model expressed in one of the following forms:
- simplified (or classical), where a group of generators or motors is not modelled in detail
- detailed, in equivalent circuit form
- detailed, in time constant reactance form
or by definition of a user-defined model.
Note: It is a common practice to represent small generators by a negative load rather than by a dynamic generator model when performing dynamics simulations. In this case a SynchronousMachine in the static model is not represented by anything in the dynamics model, instead it is treated as ordinary load.
Parameter Notes:
- Synchronous machine parameters such as Xl, Xd, Xp etc. are actually used as inductances (L) in the models, but are commonly referred to as reactances since, at nominal frequency, the per unit values are the same. However, some references use the symbol L instead of X.
|
| cim:SynchronousMachineDynamics.ExcitationSystemDynamics - Excitation system model associated with this synchronous machine model.Synchronous machine model with which this excitation system model is associated. |
| cim:SynchronousMachineDynamics.GenICompensationForGenJ - Compensation of voltage compensator's generator for current flow out of this generator.Standard synchronous machine out of which current flow is being compensated for. |
| cim:SynchronousMachineDynamics.MechanicalLoadDynamics - Mechanical load model associated with this synchronous machine model.Synchronous machine model with which this mechanical load model is associated. |
| cim:SynchronousMachineEquivalentCircuit - The electrical equations for all variations of the synchronous models are based on the SynchronousEquivalentCircuit diagram for the direct and quadrature axes.
Equations for conversion between Equivalent Circuit and Time Constant Reactance forms:
Xd = Xad + Xl
Xd = Xl + Xad * Xfd / (Xad + Xfd)
Xd = Xl + Xad * Xfd * X1d / (Xad * Xfd + Xad * X1d + Xfd * X1d)
Xq = Xaq + Xl
Xq = Xl + Xaq * X1q / (Xaq+ X1q)
Xq = Xl + Xaq * X1q* X2q / (Xaq * X1q + Xaq * X2q + X1q * X2q)
Tdo = (Xad + Xfd) / (omega0 * Rfd)
Tdo = (Xad * Xfd + Xad * X1d + Xfd * X1d) / (omega0 * R1d * (Xad + Xfd)
Tqo = (Xaq + X1q) / (omega0 * R1q)
Tqo = (Xaq * X1q + Xaq * X2q + X1q * X2q)/ (omega0 * R2q * (Xaq + X1q)
Same equations using CIM attributes from SynchronousMachineTimeConstantReactance class on left of = sign and SynchronousMachineEquivalentCircuit class on right (except as noted):
xDirectSync = xad + RotatingMachineDynamics.statorLeakageReactance
xDirectTrans = RotatingMachineDynamics.statorLeakageReactance + xad * xfd / (xad + xfd)
xDirectSubtrans = RotatingMachineDynamics.statorLeakageReactance + xad * xfd * x1d / (xad * xfd + xad * x1d + xfd * x1d)
xQuadSync = xaq + RotatingMachineDynamics.statorLeakageReactance
xQuadTrans = RotatingMachineDynamics.statorLeakageReactance + xaq * x1q / (xaq+ x1q)
xQuadSubtrans = RotatingMachineDynamics.statorLeakageReactance + xaq * x1q* x2q / (xaq * x1q + xaq * x2q + x1q * x2q)
tpdo = (xad + xfd) / (2*pi*nominal frequency * rfd)
tppdo = (xad * xfd + xad * x1d + xfd * x1d) / (2*pi*nominal frequency * r1d * (xad + xfd)
tpqo = (xaq + x1q) / (2*pi*nominal frequency * r1q)
tppqo = (xaq * x1q + xaq * x2q + x1q * x2q)/ (2*pi*nominal frequency * r2q * (xaq + x1q).
Are only valid for a simplified model where "Canay" reactance is zero. |
| cim:SynchronousMachineEquivalentCircuit.r1d - D-axis damper 1 winding resistance. |
| cim:SynchronousMachineEquivalentCircuit.r1q - Q-axis damper 1 winding resistance. |
| cim:SynchronousMachineEquivalentCircuit.r2q - Q-axis damper 2 winding resistance. |
| cim:SynchronousMachineEquivalentCircuit.rfd - Field winding resistance. |
| cim:SynchronousMachineEquivalentCircuit.x1d - D-axis damper 1 winding leakage reactance. |
| cim:SynchronousMachineEquivalentCircuit.x1q - Q-axis damper 1 winding leakage reactance. |
| cim:SynchronousMachineEquivalentCircuit.x2q - Q-axis damper 2 winding leakage reactance. |
| cim:SynchronousMachineEquivalentCircuit.xad - D-axis mutual reactance. |
| cim:SynchronousMachineEquivalentCircuit.xaq - Q-axis mutual reactance. |
| cim:SynchronousMachineEquivalentCircuit.xf1d - Differential mutual (Canay) reactance. |
| cim:SynchronousMachineEquivalentCircuit.xfd - Field winding leakage reactance. |
| cim:SynchronousMachineKind |
| cim:SynchronousMachineModelKind |
| cim:SynchronousMachineOperatingMode |
cim:SynchronousMachineSimplified - The simplified model represents a synchronous generator as a constant internal voltage behind an impedance (Rs + jXp) as shown in the Simplified diagram.
Since internal voltage is held constant, there is no Efd input and any excitation system model will be ignored. There is also no Ifd output.
This model should not be used for representing a real generator except, perhaps, small generators whose response is insignificant.
The parameters used for the Simplified model include:
- RotatingMachineDynamics.damping (D)
- RotatingMachineDynamics.inertia (H)
- RotatingMachineDynamics.statorLeakageReactance (used to exchange jXp for SynchronousMachineSimplified)
- RotatingMachineDynamics.statorResistance (Rs).
|
cim:SynchronousMachineTimeConstantReactance - Synchronous machine detailed modelling types are defined by the combination of the attributes SynchronousMachineTimeConstantReactance.modelType and SynchronousMachineTimeConstantReactance.rotorType.
Parameter notes:
- The p in the time-related attribute names is a substitution for a prime in the usual parameter notation, e.g. tpdo refers to T'do.
The parameters used for models expressed in time constant reactance form include:
- RotatingMachine.ratedS (MVAbase)
- RotatingMachineDynamics.damping (D)
- RotatingMachineDynamics.inertia (H)
- RotatingMachineDynamics.saturationFactor (S1)
- RotatingMachineDynamics.saturationFactor120 (S12)
- RotatingMachineDynamics.statorLeakageReactance (Xl)
- RotatingMachineDynamics.statorResistance (Rs)
- SynchronousMachineTimeConstantReactance.ks (Ks)
- SynchronousMachineDetailed.saturationFactorQAxis (S1q)
- SynchronousMachineDetailed.saturationFactor120QAxis (S12q)
- SynchronousMachineDetailed.efdBaseRatio
- SynchronousMachineDetailed.ifdBaseType
- SynchronousMachineDetailed.ifdBaseValue, if present
- .xDirectSync (Xd)
- .xDirectTrans (X'd)
- .xDirectSubtrans (X''d)
- .xQuadSync (Xq)
- .xQuadTrans (X'q)
- .xQuadSubtrans (X''q)
- .tpdo (T'do)
- .tppdo (T''do)
- .tpqo (T'qo)
- .tppqo (T''qo)
- .tc.
|
| cim:SynchronousMachineTimeConstantReactance.ks - Saturation loading correction factor (Ks) (>= 0). Used only by Type J model. Typical Value = 0. |
| cim:SynchronousMachineTimeConstantReactance.modelType - Type of synchronous machine model used in Dynamic simulation applications. |
| cim:SynchronousMachineTimeConstantReactance.rotorType - Type of rotor on physical machine. |
| cim:SynchronousMachineTimeConstantReactance.tc - Damping time constant for Canay reactance. Typical Value = 0. |
| cim:SynchronousMachineTimeConstantReactance.tpdo - Direct-axis transient rotor time constant (T'do) (> T''do). Typical Value = 5. |
| cim:SynchronousMachineTimeConstantReactance.tppdo - Direct-axis subtransient rotor time constant (T''do) (> 0). Typical Value = 0.03. |
| cim:SynchronousMachineTimeConstantReactance.tppqo - Quadrature-axis subtransient rotor time constant (T''qo) (> 0). Typical Value = 0.03. |
| cim:SynchronousMachineTimeConstantReactance.tpqo - Quadrature-axis transient rotor time constant (T'qo) (> T''qo). Typical Value = 0.5. |
| cim:SynchronousMachineTimeConstantReactance.xDirectSubtrans - Direct-axis subtransient reactance (unsaturated) (X''d) (> Xl). Typical Value = 0.2. |
| cim:SynchronousMachineTimeConstantReactance.xDirectSync - Direct-axis synchronous reactance (Xd) (>= X'd).
The quotient of a sustained value of that AC component of armature voltage that is produced by the total direct-axis flux due to direct-axis armature current and the value of the AC component of this current, the machine running at rated speed. Typical Value = 1.8. |
| cim:SynchronousMachineTimeConstantReactance.xDirectTrans - Direct-axis transient reactance (unsaturated) (X'd) (> =X''d). Typical Value = 0.5. |
| cim:SynchronousMachineTimeConstantReactance.xQuadSubtrans - Quadrature-axis subtransient reactance (X''q) (> Xl). Typical Value = 0.2. |
| cim:SynchronousMachineTimeConstantReactance.xQuadSync - Quadrature-axis synchronous reactance (Xq) (> =X'q).
The ratio of the component of reactive armature voltage, due to the quadrature-axis component of armature current, to this component of current, under steady state conditions and at rated frequency. Typical Value = 1.6. |
| cim:SynchronousMachineTimeConstantReactance.xQuadTrans - Quadrature-axis transient reactance (X'q) (> =X''q). Typical Value = 0.3. |
| cim:SynchronousMachineUserDefined - Synchronous machine whose dynamic behaviour is described by a user-defined model. |
| cim:SynchronousMachineUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:SynchronousMachineUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:SYP |
| cim:SYS |
| cim:SysLoadDistributionFactor - This class models the system distribution factors. This class needs to be used along with the HostControlArea and the ConnectivityNode to show the distribution of each individual party. |
| cim:SysLoadDistributionFactor.DistributionFactorSet - |
| cim:SysLoadDistributionFactor.factor - Used to calculate load "participation" of a connectivity node in an host control area |
| cim:SysLoadDistributionFactor.HostControlArea - |
| cim:System_Error |
| cim:SystemOperator |
| cim:SystemType |
| cim:SZL |
| cim:T |
| cim:TAC_AREA_value |
| cim:TACArea - Transmission Access Charge Area. Charges assessed, on behalf of the Participating Transmission Owner, to parties who require access to the controlled grid. |
| cim:TACArea.AggregatedPnode - |
| cim:TACArea.endEffectiveDate - end effective date |
| cim:TACArea.startEffectiveDate - start effective date |
| cim:TagAction - Action on operation tag as a switching step. |
| cim:TagAction.kind - Kind of tag action. |
| cim:TagAction.SwitchingStepGroup - Group to which this step belongs.All tag action steps in this group. |
| cim:TagActionKind |
| cim:TailbayLossCurve - Relationship between tailbay head loss hight (y-axis) and the total discharge into the power station's tailbay volume per time unit (x-axis) . There could be more than one curve depending on the level of the tailbay reservoir or river level. |
| cim:tamper |
| cim:TapChanger - Mechanism for changing transformer winding tap positions. |
| cim:TapChanger.controlEnabled - Specifies the regulation status of the equipment. True is regulating, false is not regulating. |
| cim:TapChanger.highStep - Highest possible tap step position, advance from neutral.
The attribute shall be greater than lowStep. |
| cim:TapChanger.initialDelay - For an LTC, the delay for initial tap changer operation (first step change) |
| cim:TapChanger.lowStep - Lowest possible tap step position, retard from neutral |
| cim:TapChanger.ltcFlag - Specifies whether or not a TapChanger has load tap changing capabilities. |
| cim:TapChanger.neutralStep - The neutral tap step position for this winding.
The attribute shall be equal or greater than lowStep and equal or less than highStep. |
| cim:TapChanger.neutralU - Voltage at which the winding operates at the neutral tap setting. |
| cim:TapChanger.normalStep - The tap step position used in "normal" network operation for this winding. For a "Fixed" tap changer indicates the current physical tap setting.
The attribute shall be equal or greater than lowStep and equal or less than highStep. |
| cim:TapChanger.step - Tap changer position.
Starting step for a steady state solution. Non integer values are allowed to support continuous tap variables. The reasons for continuous value are to support study cases where no discrete tap changers has yet been designed, a solutions where a narrow voltage band force the tap step to oscillate or accommodate for a continuous solution as input.
The attribute shall be equal or greater than lowStep and equal or less than highStep. |
| cim:TapChanger.subsequentDelay - For an LTC, the delay for subsequent tap changer operation (second and later step changes) |
| cim:TapChanger.SvTapStep - The tap step state associated with the tap changer.The tap changer associated with the tap step state. |
| cim:TapChanger.TapSchedule - A TapChanger can have TapSchedules.A TapSchedule is associated with a TapChanger. |
| cim:TapChangerControl - Describes behavior specific to tap changers, e.g. how the voltage at the end of a line varies with the load level and compensation of the voltage drop by tap adjustment. |
| cim:TapChangerControl.limitVoltage - Maximum allowed regulated voltage on the PT secondary, regardless of line drop compensation. Sometimes referred to as first-house protection. |
| cim:TapChangerControl.lineDropCompensation - If true, the line drop compensation is to be applied. |
| cim:TapChangerControl.lineDropR - Line drop compensator resistance setting for normal (forward) power flow. |
| cim:TapChangerControl.lineDropX - Line drop compensator reactance setting for normal (forward) power flow. |
| cim:TapChangerControl.reverseLineDropR - Line drop compensator resistance setting for reverse power flow. |
| cim:TapChangerControl.reverseLineDropX - Line drop compensator reactance setting for reverse power flow. |
| cim:TapChangerControl.TapChanger - The tap changers that participates in this regulating tap control scheme.The regulating control scheme in which this tap changer participates. |
| cim:TapChangerDynamicData - Optimal Power Flow or State Estimator Phase Shifter Data. This is used for RealTime, Study and Maintenance Users. SE Solution Phase Shifter Measurements from the last run of SE |
| cim:TapChangerDynamicData.angleRegulationStatus - True means the phase shifter is regulating. |
| cim:TapChangerDynamicData.desiredMW - Phase Shifter Desired MW. The active power regulation setpoint of the phase shifter |
| cim:TapChangerDynamicData.desiredVoltage - The desired voltage for the LTC |
| cim:TapChangerDynamicData.maximumAngle - The maximum phase angle shift of the phase shifter |
| cim:TapChangerDynamicData.minimumAngle - The minimum phase angle shift of the phase shifter |
| cim:TapChangerDynamicData.solvedAngle - Phase Shifter Angle. The solved phase angle shift of the phase shifter |
| cim:TapChangerDynamicData.tapPosition - Tap position of the phase shifter, high-side tap position of the transformer, or low-side tap position of the transformer |
| cim:TapChangerDynamicData.voltageRegulationStatus - Indicator if the LTC transformer is regulating True = Yes, False = No |
| cim:TapChangerInfo - Tap changer data. |
| cim:TapChangerInfo.bil - Basic Insulation Level (BIL) expressed as the impulse crest voltage of a nominal wave, typically 1.2 X 50 microsecond. This is a measure of the ability of the insulation to withstand very high voltage surges. |
| cim:TapChangerInfo.ctRating - Built-in current transformer primary rating. |
| cim:TapChangerInfo.ctRatio - Built-in current transducer ratio. |
| cim:TapChangerInfo.frequency - Frequency at which the ratings apply. |
| cim:TapChangerInfo.highStep - Highest possible tap step position, advance from neutral. |
| cim:TapChangerInfo.isTcul - Whether this tap changer has under load tap changing capabilities. |
| cim:TapChangerInfo.lowStep - Lowest possible tap step position, retard from neutral. |
| cim:TapChangerInfo.neutralStep - The neutral tap step position for the winding. |
| cim:TapChangerInfo.neutralU - Voltage at which the winding operates at the neutral tap setting. |
| cim:TapChangerInfo.ptRatio - Built-in voltage transducer ratio. |
| cim:TapChangerInfo.ratedApparentPower - Rated apparent power. |
| cim:TapChangerInfo.ratedCurrent - Rated current. |
| cim:TapChangerInfo.ratedVoltage - Rated voltage. |
| cim:TapChangerInfo.stepPhaseIncrement - Phase shift per step position. |
| cim:TapChangerInfo.stepVoltageIncrement - Tap step increment, in per cent of rated voltage, per step position. |
| cim:TapChangerTablePoint |
| cim:TapChangerTablePoint.b - The magnetizing branch susceptance deviation in percent of nominal value. The actual susceptance is calculated as follows:
calculated magnetizing susceptance = b(nominal) * (1 + b(from this class)/100). The b(nominal) is defined as the static magnetizing susceptance on the associated power transformer end or ends. This model assumes the star impedance (pi model) form. |
| cim:TapChangerTablePoint.g - The magnetizing branch conductance deviation in percent of nominal value. The actual conductance is calculated as follows:
calculated magnetizing conductance = g(nominal) * (1 + g(from this class)/100). The g(nominal) is defined as the static magnetizing conductance on the associated power transformer end or ends. This model assumes the star impedance (pi model) form. |
| cim:TapChangerTablePoint.r - The resistance deviation in percent of nominal value. The actual reactance is calculated as follows:
calculated resistance = r(nominal) * (1 + r(from this class)/100). The r(nominal) is defined as the static resistance on the associated power transformer end or ends. This model assumes the star impedance (pi model) form. |
| cim:TapChangerTablePoint.ratio - The voltage ratio in per unit. Hence this is a value close to one. |
| cim:TapChangerTablePoint.step - The tap step. |
| cim:TapChangerTablePoint.x - The series reactance deviation in percent of nominal value. The actual reactance is calculated as follows:
calculated reactance = x(nominal) * (1 + x(from this class)/100). The x(nominal) is defined as the static series reactance on the associated power transformer end or ends. This model assumes the star impedance (pi model) form. |
| cim:TapeShieldCableInfo - Tape shield cable data. |
| cim:TapeShieldCableInfo.tapeLap - Percentage of the tape shield width that overlaps in each wrap, typically 10% to 25%. |
| cim:TapeShieldCableInfo.tapeThickness - Thickness of the tape shield, before wrapping. |
| cim:tapPosition |
| cim:TapSchedule - A pre-established pattern over time for a tap step. |
| cim:TargetLevelSchedule - Reservoir water level targets from advanced studies or "rule curves". Typically in one hour increments for up to 10 days. |
| cim:TargetLevelSchedule.highLevelLimit - High target level limit, above which the reservoir operation will be penalized. |
| cim:TargetLevelSchedule.lowLevelLimit - Low target level limit, below which the reservoir operation will be penalized. |
| cim:Tariff - Document, approved by the responsible regulatory agency, listing the terms and conditions, including a schedule of prices, under which utility services will be provided. It has a unique number within the state or province. For rate schedules it is frequently allocated by the affiliated Public utilities commission (PUC). |
| cim:Tariff.endDate - (if tariff became inactive) Date tariff was terminated. |
| cim:Tariff.PricingStructure - All pricing structures using this tariff.All tariffs used by this pricing structure. |
| cim:Tariff.startDate - Date tariff was activated. |
| cim:TariffProfile - A schedule of charges; structure associated with Tariff that allows the definition of complex tarif structures such as step and time of use when used in conjunction with TimeTariffInterval and Charge. Inherited 'status.value' is defined in the context of the utility's business rules, for example: active, inactive, etc. |
| cim:TariffProfile.Tariff - All tariffs defined by this tariff profile.All tariff profiles using this tariff. |
| cim:TariffProfile.tariffCycle - The frequency at which the tariff charge schedule is repeated. Examples are: once off on a specified date and time; hourly; daily; weekly; monthly; 3-monthly; 6-monthly; 12-monthly; etc. At the end of each cycle, the business rules are reset to start from the beginning again. |
| cim:tariffRate |
| cim:TASE2BilateralTable - This class describe the sending (providing) side in a bilateral ICCP data exchange. Hence the ICCP bilateral (table) descriptions are created by exchanging ICCPProvider data between the parties. |
| cim:TASE2BilateralTable.bilateralTableID - Specifies the version of the Bilateral Table configuration that is being exchanged. |
| cim:TASE2BilateralTable.calling - Used to indicate if the Provider is responsible for initiating the TASE.2 connection. If the value is TRUE, the provider is responsible for establishing the association. If the value is FALSE, the peer provider of the Bilateral Table will need to establish the association. |
| cim:TASE2BilateralTable.ICCPInformationMessage - |
| cim:TASE2BilateralTable.ICCPPoint - THe ICCP points of the bilateral table.The bilateral table of the ICCP points. |
| cim:TASE2BilateralTable.IPAccessPoint - |
| cim:TASE2BilateralTable.nameOfICC - Specifies the ICC scope name that the remote can use to access the information in the Bilateral Table if the information is not VCC scoped. This value may not be null. |
| cim:TASE2BilateralTable.tase2version - Specifies the version of the TASE.2 that is needed to access the Bilateral Table information via TASE.2 |
| cim:taxCharge |
| cim:taxChargePayment |
| cim:TCNG |
| cim:TCPAcessPoint |
| cim:TCPAcessPoint.keepAliveTime |
| cim:TCPAcessPoint.port |
| cim:tcpar |
| cim:tcsc |
| cim:tcvl |
| cim:TE |
| cim:TEE |
| cim:TelephoneNumber - Telephone number. |
| cim:TelephoneNumber.areaCode - (if applicable) Area or region code. |
| cim:TelephoneNumber.cityCode - City code. |
| cim:TelephoneNumber.countryCode - Country code. |
| cim:TelephoneNumber.dialOut - (if applicable) Dial out code, for instance to call outside an enterprise. |
| cim:TelephoneNumber.extension - (if applicable) Extension for this telephone number. |
| cim:TelephoneNumber.internationalPrefix - (if applicable) Prefix used when calling an international number. |
| cim:TelephoneNumber.ituPhone - Phone number according to ITU E.164. |
| cim:TelephoneNumber.localNumber - Main (local) part of this telephone number. |
| cim:TempEquipActionKind |
| cim:temperature |
| cim:Temperature - Value of temperature in degrees Celsius. |
| cim:Temperature.multiplier |
| cim:Temperature.unit |
| cim:Temperature.value |
| cim:TemperatureDependentLimitPoint - A point on a table of limit verses temperature. |
| cim:TemperatureDependentLimitPoint.limitPercent - The scaling of the operational limit in percent. |
| cim:TemperatureDependentLimitPoint.temperature - The temperature of the table point. |
| cim:TemperatureDependentLimitTable - This is a table lookup that provides limit values corresponding to a temperature input. |
| cim:TemperatureDependentLimitTable.TemperatureDependentLimitPoint - |
| cim:TemperaturePolynomialLimit - This describes the coefficients of a polynomial function that has temperature as input and calculates limit values as output. |
| cim:TemperaturePolynomialLimit.coefficient0 - The polinomial coefficent of power 0. |
| cim:TemperaturePolynomialLimit.coefficient1 - The polinomial coefficent of power 1. |
| cim:TemperaturePolynomialLimit.coefficient2 - The polinomial coefficent of power 2. |
| cim:TemperaturePolynomialLimit.coefficient3 - The polinomial coefficent of power 3. |
| cim:TemperaturePolynomialLimit.coefficient4 - The polinomial coefficent of power 4. |
| cim:Ten_Min_Expost_Market_Info |
| cim:Tender - Tender is what is "offered" by the customer towards making a payment and is often more than the required payment (hence the need for 'change'). The payment is thus that part of the Tender that goes towards settlement of a particular transaction.
Tender is modelled as an aggregation of Cheque and Card. Both these tender types can exist in a single tender bid thus 'accountHolderName' has to exist separately in each of Cheque and Card as each could have a different account holder name. |
| cim:Tender.amount - Amount tendered by customer. |
| cim:Tender.Card - Card used to tender payment.Payment tender this card is being used for. |
| cim:Tender.change - Difference between amount tendered by customer and the amount charged by point of sale. |
| cim:Tender.Cheque - Cheque used to tender payment.Payment tender the cheque is being used for. |
| cim:Tender.kind - Kind of tender from customer. |
| cim:TenderKind |
| cim:TenMinAuxiliaryData - Models 10-Minutes Auxillary Data |
| cim:TenMinAuxiliaryData.intervalStartTime |
| cim:TenMinAuxiliaryData.updateTimeStamp |
| cim:TenMinAuxiliaryData.updateUser |
| cim:tenMinute |
| cim:tension |
| cim:Terminal - An AC electrical connection point to a piece of conducting equipment. Terminals are connected at physical connection points called connectivity nodes. |
| cim:Terminal.ACDCConverter - All converters' DC sides linked to this point of common coupling terminal.Point of common coupling terminal for this converter DC side. It is typically the terminal on the power transformer (or switch) closest to the AC network. The power flow measurement must be the sum of all flows into the transformer. |
| cim:Terminal.AuxiliaryEquipment - The auxiliary equipment connected to the terminal.The Terminal at the equipment where the AuxiliaryEquipment is attached. |
| cim:Terminal.BranchGroupTerminal - The directed branch group terminals for which this terminal is monitored. The terminal to be summed. |
| cim:Terminal.Bushing - |
| cim:Terminal.EquipmentFault - The equipment faults at this terminal.The terminal connecting to the bus to which the fault is applied. |
| cim:Terminal.MutualCoupling - Mutual couplings with the branch associated as the first branch.The starting terminal for the calculation of distances along the second branch of the mutual coupling. |
| cim:Terminal.phases - Represents the normal network phasing condition.
If the attribute is missing three phases (ABC or ABCN) shall be assumed. |
| cim:Terminal.PinTerminal - |
| cim:Terminal.RemoteInputSignal - Input signal coming from this terminal.Remote terminal with which this input signal is associated. |
| cim:Terminal.SvPowerFlow - The power flow state variable associated with the terminal.The terminal associated with the power flow state variable. |
| cim:Terminal.TieFlow - The control area tie flows to which this terminal associates.The terminal to which this tie flow belongs. |
| cim:Terminal.TransformerEnd - All transformer ends connected at this terminal.Terminal of the power transformer to which this transformer end belongs. |
| cim:TerminalConstraintTerm - A constraint term associated with a specific terminal on a physical piece of equipment. |
| cim:TEST |
| cim:test |
| cim:TestDataSet - Test results, usually obtained by a lab or other independent organisation. |
| cim:TestDataSet.conclusion - Conclusion drawn from test results. |
| cim:TestDataSet.specimenID - Identifier of specimen used in inspection or test. |
| cim:TestDataSet.specimenToLabDateTime - Date and time the specimen was received by the lab. |
| cim:Text |
| cim:TextDiagramObject - A diagram object for placing free-text or text derived from an associated domain object. |
| cim:TextDiagramObject.text - The text that is displayed by this text diagram object. |
| cim:TH |
| cim:THB |
| cim:therm |
| cim:ThermalGeneratingUnit - A generating unit whose prime mover could be a steam turbine, combustion turbine, or diesel engine. |
| cim:ThermalGeneratingUnit.CAESPlant - A thermal generating unit may be a member of a compressed air energy storage plant.A thermal generating unit may be a member of a compressed air energy storage plant. |
| cim:ThermalGeneratingUnit.CogenerationPlant - A thermal generating unit may be a member of a cogeneration plant.A thermal generating unit may be a member of a cogeneration plant. |
| cim:ThermalGeneratingUnit.CombinedCyclePlant - A thermal generating unit may be a member of a combined cycle plant.A thermal generating unit may be a member of a combined cycle plant. |
| cim:ThermalGeneratingUnit.EmissionAccount - A thermal generating unit may have one or more emission allowance accounts.A thermal generating unit may have one or more emission allowance accounts. |
| cim:ThermalGeneratingUnit.EmissionCurve - A thermal generating unit may have one or more emission curves.A thermal generating unit may have one or more emission curves. |
| cim:ThermalGeneratingUnit.FossilFuel - A thermal generating unit may have one or more fossil fuels.A thermal generating unit may have one or more fossil fuels. |
| cim:ThermalGeneratingUnit.FuelAllocationSchedule - A thermal generating unit may have one or more fuel allocation schedules.A thermal generating unit may have one or more fuel allocation schedules. |
| cim:ThermalGeneratingUnit.HeatInputCurve - A thermal generating unit may have a heat input curve.A thermal generating unit may have a heat input curve. |
| cim:ThermalGeneratingUnit.HeatRateCurve - A thermal generating unit may have a heat rate curve.A thermal generating unit may have a heat rate curve. |
| cim:ThermalGeneratingUnit.IncrementalHeatRateCurve - A thermal generating unit may have an incremental heat rate curve.A thermal generating unit may have an incremental heat rate curve. |
| cim:ThermalGeneratingUnit.oMCost - Operating and maintenance cost for the thermal unit. |
| cim:ThermalGeneratingUnit.ShutdownCurve - A thermal generating unit may have a shutdown curve.A thermal generating unit may have a shutdown curve. |
| cim:ThermalGeneratingUnit.StartupModel - A thermal generating unit may have a startup model.A thermal generating unit may have a startup model. |
| cim:thermallyUpgradedPaper |
| cim:thirdMaximum |
| cim:thirtyMinute |
| cim:threeMinute |
| cim:threePhase |
| cim:throwOver |
| cim:TI |
| cim:TieFlow - A flow specification in terms of location and direction for a control area. |
| cim:TieFlow.AltTieMeas - The primary and alternate tie flow measurements associated with the tie flow.The tie flow of the alternate measurements. |
| cim:TieFlow.positiveFlowIn - True if the flow into the terminal (load convention) is also flow into the control area. For example, this attribute should be true if using the tie line terminal further away from the control area. For example to represent a tie to a shunt component (like a load or generator) in another area, this is the near end of a branch and this attribute would be specified as false. |
| cim:TieLine |
| cim:TieLine.ControlAreaOperator - A ControlAreaOperator has a collection of tie points that ring the ControlArea, called a TieLine.A ControlAreaOperator has a collection of tie points that ring the ControlArea, called a TieLine. |
| cim:TieLine.CustomerConsumer - A CustomerConsumer may ring its perimeter with metering, which can create a unique SubControlArea at the collection of metering points, called a TieLine.A ControlAreaOperator or CustomerConsumer may ring their perimeter with metering, which can create a unique SubControlArea at the collection of metering points, called a TieLine. |
| cim:TieLine.EnergyTransaction - A dynamic energy transaction can act as a pseudo tie line.A dynamic energy transaction can act as a pseudo tie line. |
| cim:TiePoint - Site of an interface between interchange areas. The tie point can be a network branch (e.g., transmission line or transformer) or a switching device. For transmission lines, the interchange area boundary is usually at a designated point such as the middle of the line. Line end metering is then corrected for line losses. |
| cim:TiePoint.tiePointMWRating - The MW rating of the tie point. |
| cim:time |
| cim:Time - Time as "hh:mm:ss.sss", which conforms with ISO 8601. UTC time zone is specified as "hh:mm:ss.sssZ". A local timezone relative UTC is specified as "hh:mm:ss.sss±hh:mm". The second component (shown here as "ss.sss") could have any number of digits in its fractional part to allow any kind of precision beyond seconds. |
| cim:Timed_out_waiting_for_query_response |
| cim:timeDelay |
| cim:TimeInterval - Interval between two times. |
| cim:TimeInterval.end - End time of this interval. |
| cim:TimeInterval.start - Start time of this interval. |
| cim:TimeOfUse |
| cim:TimePoint - A point in time within a sequence of points in time relative to a time schedule. |
| cim:TimePoint.dateTime - Absolute date and time for this time point. For calendar-based time point, it is typically manually entered, while for interval-based or sequence-based time point it is derived. |
| cim:TimePoint.relativeTimeInterval - (if interval-based) A point in time relative to scheduled start time in 'TimeSchedule.scheduleInterval.start'. |
| cim:TimePoint.sequenceNumber - (if sequence-based) Relative sequence number for this time point. |
| cim:TimePoint.status - Status of this time point. |
| cim:TimePoint.TimeSchedule - Time schedule owning this time point.Sequence of time points belonging to this time schedule. |
| cim:TimePoint.window - Interval defining the window of time that this time point is valid (for example, seasonal, only on weekends, not on weekends, only 8:00 am to 5:00 pm, etc.). |
| cim:TimeSchedule - Description of anything that changes through time. Time schedule is used to perform a single-valued function of time. Use inherited 'type' attribute to give additional information on this schedule, such as: periodic (hourly, daily, weekly, monthly, etc.), day of the month, by date, calendar (specific times and dates). |
| cim:TimeSchedule.disabled - True if this schedule is deactivated (disabled). |
| cim:TimeSchedule.offset - The offset from midnight (i.e., 0 h, 0 min, 0 s) for the periodic time points to begin. For example, for an interval meter that is set up for five minute intervals ('recurrencePeriod'=300=5 min), setting 'offset'=120=2 min would result in scheduled events to read the meter executing at 2 min, 7 min, 12 min, 17 min, 22 min, 27 min, 32 min, 37 min, 42 min, 47 min, 52 min, and 57 min past each hour. |
| cim:TimeSchedule.recurrencePattern - Interval at which the scheduled action repeats (e.g., first Monday of every month, last day of the month, etc.). |
| cim:TimeSchedule.recurrencePeriod - Duration between time points, from the beginning of one period to the beginning of the next period. Note that a device like a meter may have multiple interval periods (e.g., 1 min, 5 min, 15 min, 30 min, or 60 min). |
| cim:TimeSchedule.scheduleInterval - Schedule date and time interval. |
| cim:timeScheduled |
| cim:TimeSeries - A set of regular time-ordered measurements or values of quantitative nature of an individual or collective phenomenon taken at successive, in most cases equidistant, periods / points of time. |
| cim:TimeSeries.AttributeInstanceComponent - |
| cim:TimeSeries.Auction - |
| cim:TimeSeries.businessType - The identification of the nature of the time series. |
| cim:TimeSeries.cancelledTS - An indicator stating that the TimeSeries, identified by the mRID, is cancelled as well as all the values sent in a previous version of the TimeSeries in a previous document. |
| cim:TimeSeries.ConstraintDuration - |
| cim:TimeSeries.curveType - The coded representation of the type of curve being described. |
| cim:TimeSeries.MarketObjectStatus - |
| cim:TimeSeries.MktPSRType - |
| cim:TimeSeries.objectAggregation - Identification of the object that is the common denominator used to aggregate a time series. |
| cim:TimeSeries.Point - |
| cim:TimeSeries.Price - |
| cim:TimeSeries.product - The type of the product such as Power, energy, reactive power, transport capacity that is the subject of the time series. |
| cim:TimeSeries.Quantity - |
| cim:TimeSeries.RegisteredResource - |
| cim:TimeSeries.Unit - |
| cim:TimeSeries.version - Version of the time series. |
| cim:TimeTariffInterval - One of a sequence of time intervals defined in terms of real time. It is typically used in association with TariffProfile to define the intervals in a time of use tariff structure, where startDateTime simultaneously determines the starting point of this interval and the ending point of the previous interval. |
| cim:TimeTariffInterval.ConsumptionTariffInterval - All consumption tariff intervals that introduce variation in this time of use tariff interval; allows to express e.g., peak hour prices that are different with different consumption blocks.All time of use tariff intervals influenced by this consumption tariff interval. |
| cim:TimeTariffInterval.sequenceNumber - A sequential reference that defines the identity of this interval and its relative position with respect to other intervals in a sequence of intervals. |
| cim:TimeTariffInterval.startTime - A real time marker that defines the starting time (typically it is the time of day) for this interval. The interval extends to the start of the next interval or until it is reset to the start of the first interval by TariffProfile.tariffCycle. |
| cim:TimeTariffInterval.TariffProfile - All tariff profiles defined by this time tariff interval.All time tariff intervals used to define this tariff profile. |
| cim:TimeZoneType |
| cim:TINTRFCE_value |
| cim:TJS |
| cim:TLB |
| cim:TMT |
| cim:TND |
| cim:toDevice |
| cim:tokenCancellation |
| cim:tokenExchange |
| cim:tokenFreeIssue |
| cim:tokenGrant |
| cim:tokenSalePayment |
| cim:tonne |
| cim:Tool - Tool asset. |
| cim:Tool.lastCalibrationDate - (if applicable) Date the tool was last calibrated. |
| cim:TOP |
| cim:TopologicalIsland - An electrically connected subset of the network. Topological islands can change as the current network state changes: e.g. due to
- disconnect switches or breakers change state in a SCADA/EMS
- manual creation, change or deletion of topological nodes in a planning tool. |
| cim:TopologicalIsland.TopologicalNode - A topological node belongs to a topological island.A topological node belongs to a topological island. |
| cim:TopologicalNode - For a detailed substation model a topological node is a set of connectivity nodes that, in the current network state, are connected together through any type of closed switches, including jumpers. Topological nodes change as the current network state changes (i.e., switches, breakers, etc. change state).
For a planning model, switch statuses are not used to form topological nodes. Instead they are manually created or deleted in a model builder tool. Topological nodes maintained this way are also called "busses". |
| cim:TopologicalNode.ConnectivityNode - The connectivity nodes combine together to form this topological node. May depend on the current state of switches in the network.The topological node to which this connectivity node is assigned. May depend on the current state of switches in the network. |
| cim:TopologicalNode.pInjection - The active power injected into the bus at this location in addition to injections from equipment. Positive sign means injection into the TopologicalNode (bus).
Starting value for a steady state solution. |
| cim:TopologicalNode.qInjection - The reactive power injected into the bus at this location in addition to injections from equipment. Positive sign means injection into the TopologicalNode (bus).
Starting value for a steady state solution. |
| cim:TopologicalNode.SvInjection - The injection flows state variables associated with the topological node.The topological node associated with the flow injection state variable. |
| cim:TopologicalNode.SvVoltage - The state voltage associated with the topological node.The topological node associated with the voltage state. |
| cim:TopologicalNode.Terminal - The terminals associated with the topological node. This can be used as an alternative to the connectivity node path to terminal, thus making it unneccesary to model connectivity nodes in some cases. Note that if connectivity nodes are in the model, this association would probably not be used as an input specification.The topological node associated with the terminal. This can be used as an alternative to the connectivity node path to topological node, thus making it unneccesary to model connectivity nodes in some cases. Note that the if connectivity nodes are in the model, this association would probably not be used as an input specification. |
| cim:TopologicalNode.TopologicalIsland - The island for which the node is an angle reference. Normally there is one angle reference node for each island.The angle reference for the island. Normally there is one TopologicalNode that is selected as the angle reference for each island. Other reference schemes exist, so the association is typically optional. |
| cim:TOR |
| cim:total |
| cim:totalByPhase |
| cim:totalHarmonicDistortion |
| cim:Tower - Tower asset. Dimensions of the Tower are specified in associated DimensionsInfo class.
When used for planning purposes, a transmission tower carrying two 3-phase circuits will have 2 instances of Connection, each of which will have 3 MountingPoint instances, one for each phase all with coordinates relative to a common origin on the tower. (It may also have a 3rd Connection with a single MountingPoint for the Neutral line). |
| cim:Tower.constructionKind - Construction structure on the tower. |
| cim:TowerConstructionKind |
| cim:TownDetail - Town details, in the context of address. |
| cim:TownDetail.code - Town code. |
| cim:TownDetail.country - Name of the country. |
| cim:TownDetail.name - Town name. |
| cim:TownDetail.section - Town section. For example, it is common for there to be 36 sections per township. |
| cim:TownDetail.stateOrProvince - Name of the state or province. |
| cim:Trade - Inter Scheduling Coordinator Trades to model financial trades which may impact settlement |
| cim:Trade.ActionRequest - |
| cim:Trade.adjustedTradeQuantity - The validated and current market accepted trade amount of a physical energy trade. |
| cim:Trade.counterTradeQuantity - MW quantity submitted by counter SC for the same trade |
| cim:Trade.dependOnTradeName - The Depend On IST Name points to the unique IST Name in the chain of physical energy trades. |
| cim:Trade.lastModified - Time and date the trade was last modified. |
| cim:Trade.marketType |
| cim:Trade.Pnode - |
| cim:Trade.RegisteredGenerator - |
| cim:Trade.SchedulingCoordinator - |
| cim:Trade.startTime - Start time and date for which trade applies. |
| cim:Trade.stopTime - Stop time and date for which trade is applicable. |
| cim:Trade.submitFromTimeStamp - Timestamp of submittal of submit From Scheduling Coordinator Trade to Market Participant Bid Submittal |
| cim:Trade.submitFromUser - Userid of the submit From Scheduling Coordinator trade |
| cim:Trade.submitToTimeStamp - Timestamp of submittal of submit To Scheduling Coordinator Trade to Market Participant Bid Submittal |
| cim:Trade.submitToUser_ - Userid of the submit To Scheduling Coordinator trade |
| cim:Trade.TradeProduct - |
| cim:Trade.tradeQuantity - tradeQuantity:
If tradeType = IST, The amount of an Energy Trade.
If tradeType = AST, The amount of an Ancillary Service Obligation Trade.
If tradeType = UCT, The amount of a Unit Commitment Obligation Trade. |
| cim:Trade.tradeStatus - Resulting status of the trade following the rule engine processing. |
| cim:Trade.updateTimeStamp |
| cim:Trade.updateUser |
| cim:TRADE_DATE |
| cim:TradeError - Trade error and warning messages associated with the rule engine processing of the submitted trade. |
| cim:TradeError.endTime - hour wihthin the trade for which the error applies |
| cim:TradeError.errMessage - error message |
| cim:TradeError.errPriority - Priority number for the error message |
| cim:TradeError.logTimeStamp - Timestamp of logged error/warning message |
| cim:TradeError.ruleID - Rule identifier which triggered the error/warning message |
| cim:TradeError.startTime - hour wihthin the trade for which the error applies |
| cim:TradeError.Trade - |
| cim:TradeProduct - TradeType TradeProduct
IST (InterSC Trade) PHY (Physical Energy Trade)
IST APN (Energy Trades at Aggregated Pricing Nodes)
IST CPT (Converted Physical Energy Trade)
AST (Ancilliary Services Trade) RUT (Regulation Up Trade)
AST RDT (Regulation Down Trade)
AST SRT (Spinning Reserve Trade)
AST NRT (Non-Spinning Reserve Trade)
UCT (Unit Commitment Trade) null |
| cim:TradeProduct.tradeProductType - PHY (Physical Energy Trade);
APN (Energy Trades at Aggregated Pricing Nodes);
CPT (Converted Physical Energy Trade);
RUT (Regulation Up Trade);
RDT (Regulation Down Trade);
SRT (Spinning Reserve Trade);
NRT (Non-Spinning Reserve Trade) |
| cim:TradeProduct.tradeType - IST - InterSC Trade;
AST - Ancilliary Services Trade;
UCT - Unit Commitment Trade |
| cim:TradeProductType |
| cim:TradeResponsibleParty |
| cim:TradeStatusType |
| cim:TradeType |
| cim:TRADINGHUB |
| cim:TradingHubPrice - Models prices at Trading Hubs, interval based |
| cim:TradingHubPrice.intervalStartTime |
| cim:TradingHubPrice.marketType |
| cim:TradingHubPrice.updateTimeStamp |
| cim:TradingHubPrice.updateUser |
| cim:TradingHubValues - Models prices at Trading Hubs |
| cim:TradingHubValues.price - Utilizes the Market type. For DA, the price is hourly. For RTM the price is a 5 minute price. |
| cim:TradingHubValues.TradingHubPrice - |
| cim:Transaction - The record of details of payment for service or token sale. |
| cim:Transaction.AuxiliaryAccount - Auxiliary account for this payment transaction.All payments against this account. |
| cim:Transaction.CashierShift - Cashier shift during which this transaction was recorded.All transactions recorded during this cashier shift. |
| cim:Transaction.CustomerAccount - Customer account for this payment transaction.All payment transactions for this customer account. |
| cim:Transaction.diverseReference - Formal reference for use with diverse payment (traffic fine for example). |
| cim:Transaction.donorReference - Reference to the entity that is the source of 'amount' (for example: customer for token purchase; or supplier for free issue token). |
| cim:Transaction.kind - Kind of transaction. |
| cim:Transaction.line - Transaction amount, rounding, date and note for this transaction line. |
| cim:Transaction.PricingStructure - Pricing structure applicable for this transaction.All transactions applying this pricing structure. |
| cim:Transaction.Receipt - The receipted payment for which this transaction has been recorded.All transactions recorded for this receipted payment. |
| cim:Transaction.receiverReference - Reference to the entity that is the recipient of 'amount' (for example, supplier for service charge payment; or tax receiver for VAT). |
| cim:Transaction.reversedId - (if 'kind' is transactionReversal) Reference to the original transaction that is being reversed by this transaction. |
| cim:Transaction.serviceUnitsEnergy - Actual amount of service units that is being paid for. |
| cim:Transaction.serviceUnitsError - Number of service units not reflected in 'serviceUnitsEnergy' due to process rounding or truncating errors. |
| cim:Transaction.UserAttribute - All snapshots of meter parameters recorded at the time of this transaction. Use 'name' and 'value.value' attributes to specify name and value of a parameter from meter.Transaction for which this snapshot has been recorded. |
| cim:Transaction.VendorShift - Vendor shift during which this transaction was recorded.All transactions recorded during this vendor shift. |
| cim:TransactionBid - Bilateral or scheduled transactions for energy and ancillary services considered by market clearing process |
| cim:TransactionBid.demandTransaction - Set true if this is a demand transaction. |
| cim:TransactionBid.dispatchable - Set true if this is a dispatchable transaction. |
| cim:TransactionBid.EnergyProfile - |
| cim:TransactionBid.payCongestion - Set true if this is a willing to pay transaction. This flag is used to determine whether a schedule is willing-to-pay-congestion or not. |
| cim:TransactionBid.Pnode - |
| cim:TransactionBid.TransactionBidResults - |
| cim:TransactionBid.TransmissionReservation - |
| cim:TransactionBidClearing - Contains the intervals relavent for the associated TransactionBidResults. For example, Day Ahead cleared results for the transaction bids for each interval of the market day. |
| cim:TransactionBidClearing.TransactionBidResults - |
| cim:TransactionBidResults - Contains the cleared results for each TransactionBid submitted to and accepted by the market. |
| cim:TransactionBidResults.clearedMW - The market transaction megawatt |
| cim:TransactionBidResults.clearedPrice - The price of the market transaction |
| cim:TransactionKind |
| cim:transactionReversal |
| cim:Transactor - The entity that ultimately executes the transaction and which is in control of the process; typically this is embodied in secure software running on a server that may employ secure hardware encryption devices for secure transaction processing. |
| cim:Transactor.MerchantAccount - All merchant accounts registered with this transactor.All transactors this merchant account is registered with. |
| cim:transfer |
| cim:TransferInterface - A Transfer Interface is made up of branches such as transmission lines and transformers. |
| cim:TransferInterface.HostControlArea - |
| cim:TransferInterface.TransferInterfaceSolution - |
| cim:TransferInterfaceSolution - TNA Interface Definitions from OPF for VSA |
| cim:TransferInterfaceSolution.interfaceMargin - The margin for the interface |
| cim:TransferInterfaceSolution.postTransferMW - Post Transfer MW for step |
| cim:TransferInterfaceSolution.transferLimit - Transfer Interface + Limit
Attribute Usage: The absoloute of the maximum flow on the transfer interface. This is a positive MW value. |
| cim:transformer |
| cim:TransformerConstructionKind |
| cim:TransformerControlMode |
| cim:TransformerCoreAdmittance - The transformer core admittance. Used to specify the core admittance of a transformer in a manner that can be shared among power transformers. |
| cim:TransformerCoreAdmittance.b - Magnetizing branch susceptance (B mag). The value can be positive or negative. |
| cim:TransformerCoreAdmittance.b0 - Zero sequence magnetizing branch susceptance. |
| cim:TransformerCoreAdmittance.g - Magnetizing branch conductance (G mag). |
| cim:TransformerCoreAdmittance.g0 - Zero sequence magnetizing branch conductance. |
| cim:TransformerCoreAdmittance.TransformerEndInfo - Transformer end datasheet used to calculate this core admittance.Core admittance calculated from this transformer end datasheet, representing magnetising current and core losses. The full values of the transformer should be supplied for one transformer end info only. |
| cim:TransformerCoreKind |
| cim:TransformerEnd - A conducting connection point of a power transformer. It corresponds to a physical transformer winding terminal. In earlier CIM versions, the TransformerWinding class served a similar purpose, but this class is more flexible because it associates to terminal but is not a specialization of ConductingEquipment. |
| cim:TransformerEnd.bmagSat - Core shunt magnetizing susceptance in the saturation region. |
| cim:TransformerEnd.endNumber - Number for this transformer end, corresponding to the end's order in the power transformer vector group or phase angle clock number. Highest voltage winding should be 1. Each end within a power transformer should have a unique subsequent end number. Note the transformer end number need not match the terminal sequence number. |
| cim:TransformerEnd.grounded - (for Yn and Zn connections) True if the neutral is solidly grounded. |
| cim:TransformerEnd.magBaseU - The reference voltage at which the magnetizing saturation measurements were made |
| cim:TransformerEnd.magSatFlux - Core magnetizing saturation curve knee flux level. |
| cim:TransformerEnd.rground - (for Yn and Zn connections) Resistance part of neutral impedance where 'grounded' is true. |
| cim:TransformerEnd.TransformerCoreAdmittance - Core admittance of this transformer end, representing magnetising current and core losses. The full values of the transformer should be supplied for one transformer end only.All transformer ends having this core admittance. |
| cim:TransformerEnd.TransformerMeshImpedance - All mesh impedances between this 'to' and other 'from' transformer ends.From end this mesh impedance is connected to. It determines the voltage reference. |
| cim:TransformerEnd.WindingInsulation - |
| cim:TransformerEnd.xground - (for Yn and Zn connections) Reactive part of neutral impedance where 'grounded' is true. |
| cim:TransformerEndInfo - Transformer end data. |
| cim:TransformerEndInfo.connectionKind - Kind of connection. |
| cim:TransformerEndInfo.emergencyS - Apparent power that the winding can carry under emergency conditions (also called long-term emergency power). |
| cim:TransformerEndInfo.endNumber - Number for this transformer end, corresponding to the end's order in the PowerTransformer.vectorGroup attribute. Highest voltage winding should be 1. |
| cim:TransformerEndInfo.insulationU - Basic insulation level voltage rating. |
| cim:TransformerEndInfo.NoLoadTest - All no-load test measurements in which this transformer end was energised.Transformer end that current is applied to in this no-load test. |
| cim:TransformerEndInfo.OpenCircuitTest - All open-circuit test measurements in which this transformer end was not excited.Transformer end measured for induced voltage and angle in this open-circuit test. |
| cim:TransformerEndInfo.phaseAngleClock - Winding phase angle where 360 degrees are represented with clock hours, so the valid values are {0, ..., 11}. For example, to express the second winding in code 'Dyn11', set attributes as follows: 'endNumber'=2, 'connectionKind' = Yn and 'phaseAngleClock' = 11. |
| cim:TransformerEndInfo.r - DC resistance. |
| cim:TransformerEndInfo.ratedS - Normal apparent power rating. |
| cim:TransformerEndInfo.ratedU - Rated voltage: phase-phase for three-phase windings, and either phase-phase or phase-neutral for single-phase windings. |
| cim:TransformerEndInfo.ShortCircuitTest - All short-circuit test measurements in which this transformer end was short-circuited.All ends short-circuited in this short-circuit test. |
| cim:TransformerEndInfo.shortTermS - Apparent power that this winding can carry for a short period of time (in emergency). |
| cim:TransformerEndInfo.TransformerTankInfo - Transformer tank data that this end description is part of.Data for all the ends described by this transformer tank data. |
| cim:TransformerFunctionKind |
| cim:transformerLoss |
| cim:TransformerMeshImpedance - Transformer mesh impedance (Delta-model) between transformer ends.
The typical case is that this class describes the impedance between two transformer ends pair-wise, i.e. the cardinalities at both tranformer end associations are 1. But in cases where two or more transformer ends are modeled the cardinalities are larger than 1. |
| cim:TransformerMeshImpedance.r - Resistance between the 'from' and the 'to' end, seen from the 'from' end. |
| cim:TransformerMeshImpedance.r0 - Zero-sequence resistance between the 'from' and the 'to' end, seen from the 'from' end. |
| cim:TransformerMeshImpedance.TransformerEndInfo - All 'to' transformer end datasheets this mesh impedance for 'from' transformer end is calculated from.All mesh impedances between this 'from' and other 'to' transformer ends. |
| cim:TransformerMeshImpedance.x - Reactance between the 'from' and the 'to' end, seen from the 'from' end. |
| cim:TransformerMeshImpedance.x0 - Zero-sequence reactance between the 'from' and the 'to' end, seen from the 'from' end. |
| cim:TransformerObservation - Common information captured during transformer inspections and/or diagnostics. Note that some properties may be measured through other means and therefore have measurement values in addition to the observed values recorded here. |
| cim:TransformerObservation.BushingInsulationPF - |
| cim:TransformerObservation.bushingTemp - Bushing temperature. |
| cim:TransformerObservation.dga - Dissolved Gas Analysis. Typical values are: Acceptable, Overheating, Corona, Sparking, Arcing. |
| cim:TransformerObservation.freqResp - Frequency Response Analysis. Typical values are: acceptable, slight movement, significant movement, failed, near failure. A graphic of the response diagram, which is a type of document, may be associated with this analysis through the recursive document relationship of the ProcedureDataSet. |
| cim:TransformerObservation.furfuralDP - Overall measure of furfural in oil and mechanical strength of paper. DP, the degree of polymerization, is the strength of the paper. Furfural is a measure of furfural compounds, often expressed in parts per million. |
| cim:TransformerObservation.hotSpotTemp - Hotspot oil temperature. |
| cim:TransformerObservation.oilColor - Oil Quality Analysis-Color. |
| cim:TransformerObservation.oilDielectricStrength - Oil Quality Analysis-Dielectric Strength. |
| cim:TransformerObservation.oilIFT - Oil Quality Analysis- inter facial tension (IFT) - number-Dynes/CM. |
| cim:TransformerObservation.oilLevel - The level of oil in the transformer. |
| cim:TransformerObservation.oilNeutralizationNumber - Oil Quality Analysis-Neutralization Number - Number - Mg KOH. |
| cim:TransformerObservation.ProcedureDataSet - |
| cim:TransformerObservation.pumpVibration - Pump vibration, with typical values being: nominal, high. |
| cim:TransformerObservation.Reconditioning - |
| cim:TransformerObservation.status |
| cim:TransformerObservation.topOilTemp - Top oil temperature. |
| cim:TransformerObservation.waterContent - Water Content expressed in parts per million. |
| cim:TransformerObservationsBushing |
| cim:transformerRatio |
| cim:TransformerStarImpedance - Transformer star impedance (Pi-model) that accurately reflects impedance for transformers with 2 or 3 windings. For transformers with 4 or more windings, you must use TransformerMeshImpedance class.
For transmission networks use PowerTransformerEnd impedances (r, r0, x, x0, b, b0, g and g0). |
| cim:TransformerStarImpedance.r - Resistance of the transformer end. |
| cim:TransformerStarImpedance.r0 - Zero sequence series resistance of the transformer end. |
| cim:TransformerStarImpedance.TransformerEnd - All transformer ends having this star impedance.(accurate for 2- or 3-winding transformers only) Pi-model impedances of this transformer end. By convention, for a two winding transformer, the full values of the transformer should be entered on the high voltage end (endNumber=1). |
| cim:TransformerStarImpedance.TransformerEndInfo - Transformer end datasheet used to calculate this transformer star impedance.Transformer star impedance calculated from this transformer end datasheet. |
| cim:TransformerStarImpedance.x - Positive sequence series reactance of the transformer end. |
| cim:TransformerStarImpedance.x0 - Zero sequence series reactance of the transformer end. |
| cim:TransformerTank - An assembly of two or more coupled windings that transform electrical power between voltage levels. These windings are bound on a common core and place in the same tank. Transformer tank can be used to model both single-phase and 3-phase transformers. |
| cim:TransformerTank.TransformerObservation - |
| cim:TransformerTank.TransformerTankEnd - All windings of this transformer.Transformer this winding belongs to. |
| cim:TransformerTankEnd - Transformer tank end represents an individual winding for unbalanced models or for transformer tanks connected into a bank (and bank is modelled with the PowerTransformer). |
| cim:TransformerTankEnd.phases - Describes the phases carried by a conducting equipment. |
| cim:TransformerTankInfo - Set of transformer tank data, from an equipment library. |
| cim:TransformerTest - Test result for transformer ends, such as short-circuit, open-circuit (excitation) or no-load test. |
| cim:TransformerTest.basePower - Base power at which the tests are conducted, usually equal to the rateds of one of the involved transformer ends. |
| cim:TransformerTest.temperature - Temperature at which the test is conducted. |
| cim:transmission |
| cim:TransmissionCapacity - This class models the transmission (either a transmission interface or a POR/POD pair) capacity including Total Transfer Capacity (TTC), Operating Transfer Capacity (OTC), and Capacity Benefit Margin (CBM) |
| cim:TransmissionCapacity.capacityBenefitMargin - Capacity Benefit Margin (CBM) is used by Markets to calculate the transmission interface limits. This number could be manually or procedurally determined. The CBM is defined per transmission interface (branch group). |
| cim:TransmissionCapacity.Flowgate - |
| cim:TransmissionCapacity.GenericConstraints - |
| cim:TransmissionCapacity.operationalTransmissionCapacity - The Operational Transmission Capacity (OTC) is the transmission capacity under the operating condition during a specific time period, incorporating the effects of derates and current settings of operation controls. The OTCs for all transmission interface (branch group) are always provided regardless of outage or switching conditions. |
| cim:TransmissionCapacity.OTC15min_emergency - The Operational Transmission Capacity (OTC) 15 minute Emergency Limit |
| cim:TransmissionCapacity.OTCemergency - The Operational Transmission Capacity (OTC) Emergency Limit. |
| cim:TransmissionCapacity.POD - point of delivery |
| cim:TransmissionCapacity.POR - point of receipt |
| cim:TransmissionCapacity.startOperatingDate - Operating date & hour when the entitlement applies |
| cim:TransmissionCapacity.totalTransmissionCapacity - Total Transmission Capacity |
| cim:TransmissionCapacityAllocator |
| cim:TransmissionCorridor - A corridor containing one or more rights of way |
| cim:TransmissionCorridor.TransmissionPath - A TransmissionPath is contained in a TransmissionCorridor.A TransmissionPath is contained in a TransmissionCorridor. |
| cim:TransmissionInterfaceRightEntitlement - This is formally called the branch group ETC/TOR entitlement with the inclusion of CVR as ETC. Is used to represent the entitlements. This could be also used to represent the TR entitlement on a POR/POD. |
| cim:TransmissionInterfaceRightEntitlement.entitlement - the entitlement |
| cim:TransmissionInterfaceRightEntitlement.Flowgate - |
| cim:TransmissionInterfaceRightEntitlement.POD - point of delivery |
| cim:TransmissionInterfaceRightEntitlement.POR - point of receipt |
| cim:TransmissionInterfaceRightEntitlement.startOperatingDate - Operating date and hour when the entitlement applies |
| cim:TransmissionModeKind |
| cim:transmissionOperator |
| cim:transmissionOwner |
| cim:TransmissionPath - An electrical connection, link, or line consisting of one or more parallel transmission elements between two areas of the interconnected electric systems, or portions thereof. TransmissionCorridor and TransmissionRightOfWay refer to legal aspects. The TransmissionPath refers to the segments between a TransmissionProvider's ServicePoints. |
| cim:TransmissionPath.availTransferCapability - The available transmission capability of a transmission path for the reference direction. |
| cim:TransmissionPath.parallelPathFlag - Flag which indicates if the transmission path is also a designated interconnection "parallel path". |
| cim:TransmissionPath.ServicePoint - A transmission path has a "point-of-receipt" service pointA transmission path has a "point-of-receipt" service point |
| cim:TransmissionPath.totalTransferCapability - The total transmission capability of a transmission path in the reference direction. |
| cim:TransmissionPath.TransmissionProduct - A transmission product is located on a transmission path.A transmission product is located on a transmission path. |
| cim:transmissionPlanner |
| cim:TransmissionProduct |
| cim:TransmissionProduct.transmissionProductType - Type of the transmission product. This could be a transmission service class (firm, total transmission capability, or non-firm), transmission service period (on-peak, full-period, off-peak), transmission service increments (yearly extended, hourly fixed, monthly sliding, etc.), transmission service type (network, available transmission capability, or point-to-point, or a transmission service window (fixed hourly, sliding weekly, extended monthly, etc.). |
| cim:TransmissionProvider - Provider of the transmission capacity (interconnecting wires between Generation and Consumption) required to fulfill and Energy Transaction's energy exchange. Posts information for transmission paths and AvailableTransmissionCapacities on a reservation node. Buys and sells its products and services on the same reservation node. |
| cim:TransmissionProvider.LossProfile - Part of the LossProfile for an EnergyTransaction may be a loss for a TransmissionProvider. If so, the TransmissionProvider must be one of the participating entities in the EnergyTransaction.Part of the LossProfile for an EnergyTransaction may be a loss for a TransmissionProvider. If so, the TransmissionProvider must be one of the participating entities in the EnergyTransaction. |
| cim:TransmissionProvider.TransmissionProduct - A TransmissionProvider offers a TransmissionProduct.A TransmissionProvider offers a TransmissionProduct. |
| cim:TransmissionReservation - A transmission reservation is obtained from the OASIS system to reserve transmission for a specified time period, transmission path and transmission product. |
| cim:TransmissionReservation.ServicePoint - |
| cim:TransmissionReservation.TransmissionPath - |
| cim:TransmissionRightChain - Allows chaining of TransmissionContractRights. Many individual contract rights can be included in the definition of a TransmissionRightChain. A TransmissionRightChain is also defined as a TransmissionContractRight itself. |
| cim:TransmissionRightChain.endEffectiveDate - end effective date |
| cim:TransmissionRightChain.RTO - |
| cim:TransmissionRightChain.startEffectiveDate - start effective date |
| cim:TransmissionRightOfWay - A collection of transmission lines that are close proximity to each other. |
| cim:TransmissionRightOfWay.MktLine - |
| cim:TransmissionRightOfWay.TransmissionCorridor - A transmission right-of-way is a member of a transmission corridorA transmission right-of-way is a member of a transmission corridor |
| cim:transmissionServiceProvider |
| cim:travel |
| cim:treeResistantHighMolecularWeightPolyethylene |
| cim:treeRetardantCrosslinkedPolyethylene |
| cim:trench |
| cim:TREntitlement - A Transmission Right(TR) can be a chain of TR's or on individual.
When a transmission right is not a chain, this is formally the ETC/TOR Entitlement for each ETC/TOR contract with the inclusion of CVR(Converted Rights) as an ETC. This is the sum of all entitlements on all related transmission interfaces for the same TR.
When TR is a chain, its entitlement is the minimum of all entitlements for the individual TRs in the chain. |
| cim:TREntitlement.ContractRight - |
| cim:TREntitlement.entitlement - The entitlement |
| cim:TREntitlement.startOperatingDate - Operating date and hour when the entitlement applies |
| cim:TriggerCondition - A conditions that can trigger remedial actions. |
| cim:TRNS_AS_IMPORT |
| cim:TRNS_ATC |
| cim:TRNS_ENE_IMPORT |
| cim:TRNS_EQUIP_value |
| cim:TRNS_OUTAGE |
| cim:TRNS_RATING_CBM |
| cim:TRNS_RATING_DIRECTION |
| cim:TRNS_RATING_OTC |
| cim:TRNS_RATING_OTC_DERATE |
| cim:TRNS_RATING_TTC |
| cim:TRNS_TI_value |
| cim:TRNS_TR_ENTMTS |
| cim:TRNS_TR_USEAGE |
| cim:TRNS_USAGE |
| cim:TroubleReportingKind |
| cim:TroubleTicket |
| cim:TroubleTicket.CustomerNotification - Notification for this trouble ticket.All trouble tickets with this notification. |
| cim:TroubleTicket.dateTimeOfReport - Date and time the trouble has been reported. |
| cim:TroubleTicket.firstResponder - A first responder on site such as police, fire department etc. |
| cim:TroubleTicket.reportingKind - Indicates how the customer reported trouble. |
| cim:TroubleTicket.resolvedDateTime - Date and time this trouble ticket has been resolved. |
| cim:TroubleTicket.troubleCode - Trouble code (e.g., power down, flickering lights, partial power, etc). |
| cim:TRType |
| cim:TRY |
| cim:tsbr |
| cim:tssc |
| cim:TTD |
| cim:tunnel |
| cim:Turbine_Governor |
| cim:TurbineGovernorDynamics - Turbine-governor function block whose behavior is described by reference to a standard model or by definition of a user-defined model. |
| cim:TurbineGovernorDynamics.SynchronousMachineDynamics - Synchronous machine model with which this turbine-governor model is associated.Turbine-governor model associated with this synchronous machine model. |
| cim:TurbineGovernorDynamics.TurbineLoadControllerDynamics - Turbine load controller providing input to this turbine-governor.Turbine-governor controlled by this turbine load controller. |
| cim:TurbineGovernorUserDefined - Turbine-governor function block whose dynamic behaviour is described by a user-defined model. |
| cim:TurbineGovernorUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:TurbineGovernorUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:TurbineLoadControllerDynamics - Turbine load controller function block whose behavior is described by reference to a standard model or by definition of a user-defined model. |
| cim:TurbineLoadControllerUserDefined - Turbine load controller function block whose dynamic behaviour is described by a user-defined model. |
| cim:TurbineLoadControllerUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:TurbineLoadControllerUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:TurbineType |
| cim:TurbLCFB1 - Turbine Load Controller model developed in the WECC. This model represents a supervisory turbine load controller that acts to maintain turbine power at a set value by continuous adjustment of the turbine governor speed-load reference. This model is intended to represent slow reset 'outer loop' controllers managing the action of the turbine governor. |
| cim:TurbLCFB1.db - Controller dead band (db). Typical Value = 0. |
| cim:TurbLCFB1.emax - Maximum control error (Emax) (note 4). Typical Value = 0.02. |
| cim:TurbLCFB1.fb - Frequency bias gain (Fb). Typical Value = 0. |
| cim:TurbLCFB1.fbf - Frequency bias flag (Fbf).
true = enable frequency bias
false = disable frequency bias.
Typical Value = false. |
| cim:TurbLCFB1.irmax - Maximum turbine speed/load reference bias (Irmax) (note 3). Typical Value = 0. |
| cim:TurbLCFB1.ki - Integral gain (Ki). Typical Value = 0. |
| cim:TurbLCFB1.kp - Proportional gain (Kp). Typical Value = 0. |
| cim:TurbLCFB1.mwbase - Base for power values (MWbase) (>0). Unit = MW. |
| cim:TurbLCFB1.pbf - Power controller flag (Pbf).
true = enable load controller
false = disable load controller.
Typical Value = false. |
| cim:TurbLCFB1.pmwset - Power controller setpoint (Pmwset) (note 1). Unit = MW. Typical Value = 0. |
| cim:TurbLCFB1.speedReferenceGovernor - Type of turbine governor reference (Type).
true = speed reference governor
false = load reference governor.
Typical Value = true. |
| cim:TurbLCFB1.tpelec - Power transducer time constant (Tpelec). Typical Value = 0. |
| cim:turboSeries1 |
| cim:turboSeries2 |
| cim:tvLicence |
| cim:TWD |
| cim:twentyfourHour |
| cim:twentyMinute |
| cim:twoMinute |
| cim:twoWayAddress |
| cim:TypeAssetCatalogue - Catalogue of generic types of assets (TypeAsset) that may be used for design purposes. It is not associated with a particular manufacturer. |
| cim:TypeAssetCatalogue.GenericAssetModel - |
| cim:TypeAssetCatalogue.status |
| cim:TypeMaterial - Documentation for a generic material item that may be used for design, work and other purposes. Any number of MaterialItems manufactured by various vendors may be used to perform this TypeMaterial.
Note that class analagous to "AssetModel" is not used for material items. This is because in some cases, for example, a utility sets up a Master material record for a 3 inch long half inch diameter steel bolt and they do not necessarily care what specific supplier is providing the material item. As different vendors are used to supply the part, the Stock Code of the material item can stay the same. In other cases, each time the vendor changes, a new stock code is set up so they can track material used by vendor. Therefore a Material Item "Model" is not typically needed. |
| cim:TypeMaterial.costType - The type of cost to which this Material Item belongs. |
| cim:TypeMaterial.CUMaterialItem - |
| cim:TypeMaterial.ErpIssueInventory - |
| cim:TypeMaterial.estUnitCost - The estimated unit cost of this type of material, either for a unit cost or cost per unit length. Cost is for material or asset only and does not include labor to install/construct or configure it. |
| cim:TypeMaterial.quantity - The value, unit of measure, and multiplier for the quantity. |
| cim:TypeMaterial.stockItem - True if item is a stock item (default). |
| cim:TZS |
| cim:U |
| cim:UAH |
| cim:UC |
| cim:UCT |
| cim:udc |
| cim:ugMultiSwitch |
| cim:UGX |
| cim:unavailable |
| cim:unbeltedPilc |
| cim:underEvaluation |
| cim:UnderexcitationLimiterDynamics - Underexcitation limiter function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:UnderexcitationLimiterUserDefined - Underexcitation limiter function block whose dynamic behaviour is described by a user-defined model. |
| cim:UnderexcitationLimiterUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:UnderexcitationLimiterUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:UnderexcLim2Simplified - This model can be derived from UnderexcLimIEEE2.
The limit characteristic (look up table) is a single straight-line, the same as UnderexcLimIEEE2 (see Figure 10.4 (p 32), IEEE 421.5-2005 Section 10.2). |
| cim:UnderexcLim2Simplified.kui - Gain Under excitation limiter (Kui). Typical Value = 0.1. |
| cim:UnderexcLim2Simplified.p0 - Segment P initial point (P0). Typical Value = 0. |
| cim:UnderexcLim2Simplified.p1 - Segment P end point (P1). Typical Value = 1. |
| cim:UnderexcLim2Simplified.q0 - Segment Q initial point (Q0). Typical Value = -0.31. |
| cim:UnderexcLim2Simplified.q1 - Segment Q end point (Q1). Typical Value = -0.1. |
| cim:UnderexcLim2Simplified.vuimax - Maximum error signal (VUImax). Typical Value = 1. |
| cim:UnderexcLim2Simplified.vuimin - Minimum error signal (VUImin). Typical Value = 0. |
| cim:UnderexcLimIEEE1 - The class represents the Type UEL1 model which has a circular limit boundary when plotted in terms of machine reactive power vs. real power output.
Reference: IEEE UEL1 421.5-2005 Section 10.1. |
| cim:UnderexcLimIEEE1.kuc - UEL center setting (KUC). Typical Value = 1.38. |
| cim:UnderexcLimIEEE1.kuf - UEL excitation system stabilizer gain (KUF). Typical Value = 3.3. |
| cim:UnderexcLimIEEE1.kui - UEL integral gain (KUI). Typical Value = 0. |
| cim:UnderexcLimIEEE1.kul - UEL proportional gain (KUL). Typical Value = 100. |
| cim:UnderexcLimIEEE1.kur - UEL radius setting (KUR). Typical Value = 1.95. |
| cim:UnderexcLimIEEE1.tu1 - UEL lead time constant (TU1). Typical Value = 0. |
| cim:UnderexcLimIEEE1.tu2 - UEL lag time constant (TU2). Typical Value = 0.05. |
| cim:UnderexcLimIEEE1.tu3 - UEL lead time constant (TU3). Typical Value = 0. |
| cim:UnderexcLimIEEE1.tu4 - UEL lag time constant (TU4). Typical Value = 0. |
| cim:UnderexcLimIEEE1.vucmax - UEL maximum limit for operating point phasor magnitude (VUCMAX). Typical Value = 5.8. |
| cim:UnderexcLimIEEE1.vuimax - UEL integrator output maximum limit (VUIMAX). |
| cim:UnderexcLimIEEE1.vuimin - UEL integrator output minimum limit (VUIMIN). |
| cim:UnderexcLimIEEE1.vulmax - UEL output maximum limit (VULMAX). Typical Value = 18. |
| cim:UnderexcLimIEEE1.vulmin - UEL output minimum limit (VULMIN). Typical Value = -18. |
| cim:UnderexcLimIEEE1.vurmax - UEL maximum limit for radius phasor magnitude (VURMAX). Typical Value = 5.8. |
| cim:UnderexcLimIEEE2 - The class represents the Type UEL2 which has either a straight-line or multi-segment characteristic when plotted in terms of machine reactive power output vs. real power output.
Reference: IEEE UEL2 421.5-2005 Section 10.2. (Limit characteristic lookup table shown in Figure 10.4 (p 32) of the standard). |
| cim:UnderexcLimIEEE2.k1 - UEL terminal voltage exponent applied to real power input to UEL limit look-up table (k1). Typical Value = 2. |
| cim:UnderexcLimIEEE2.k2 - UEL terminal voltage exponent applied to reactive power output from UEL limit look-up table (k2). Typical Value = 2. |
| cim:UnderexcLimIEEE2.kfb - Gain associated with optional integrator feedback input signal to UEL (KFB). Typical Value = 0. |
| cim:UnderexcLimIEEE2.kuf - UEL excitation system stabilizer gain (KUF). Typical Value = 0. |
| cim:UnderexcLimIEEE2.kui - UEL integral gain (KUI). Typical Value = 0.5. |
| cim:UnderexcLimIEEE2.kul - UEL proportional gain (KUL). Typical Value = 0.8. |
| cim:UnderexcLimIEEE2.p0 - Real power values for endpoints (P0). Typical Value = 0. |
| cim:UnderexcLimIEEE2.p1 - Real power values for endpoints (P1). Typical Value = 0.3. |
| cim:UnderexcLimIEEE2.p10 - Real power values for endpoints (P10). |
| cim:UnderexcLimIEEE2.p2 - Real power values for endpoints (P2). Typical Value = 0.6. |
| cim:UnderexcLimIEEE2.p3 - Real power values for endpoints (P3). Typical Value = 0.9. |
| cim:UnderexcLimIEEE2.p4 - Real power values for endpoints (P4). Typical Value = 1.02. |
| cim:UnderexcLimIEEE2.p5 - Real power values for endpoints (P5). |
| cim:UnderexcLimIEEE2.p6 - Real power values for endpoints (P6). |
| cim:UnderexcLimIEEE2.p7 - Real power values for endpoints (P7). |
| cim:UnderexcLimIEEE2.p8 - Real power values for endpoints (P8). |
| cim:UnderexcLimIEEE2.p9 - Real power values for endpoints (P9). |
| cim:UnderexcLimIEEE2.q0 - Reactive power values for endpoints (Q0). Typical Value = -0.31. |
| cim:UnderexcLimIEEE2.q1 - Reactive power values for endpoints (Q1). Typical Value = -0.31. |
| cim:UnderexcLimIEEE2.q10 - Reactive power values for endpoints (Q10). |
| cim:UnderexcLimIEEE2.q2 - Reactive power values for endpoints (Q2). Typical Value = -0.28. |
| cim:UnderexcLimIEEE2.q3 - Reactive power values for endpoints (Q3). Typical Value = -0.21. |
| cim:UnderexcLimIEEE2.q4 - Reactive power values for endpoints (Q4). Typical Value = 0. |
| cim:UnderexcLimIEEE2.q5 - Reactive power values for endpoints (Q5). |
| cim:UnderexcLimIEEE2.q6 - Reactive power values for endpoints (Q6). |
| cim:UnderexcLimIEEE2.q7 - Reactive power values for endpoints (Q7). |
| cim:UnderexcLimIEEE2.q8 - Reactive power values for endpoints (Q8). |
| cim:UnderexcLimIEEE2.q9 - Reactive power values for endpoints (Q9). |
| cim:UnderexcLimIEEE2.tu1 - UEL lead time constant (TU1). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tu2 - UEL lag time constant (TU2). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tu3 - UEL lead time constant (TU3). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tu4 - UEL lag time constant (TU4). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tul - Time constant associated with optional integrator feedback input signal to UEL (TUL). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tup - Real power filter time constant (TUP). Typical Value = 5. |
| cim:UnderexcLimIEEE2.tuq - Reactive power filter time constant (TUQ). Typical Value = 0. |
| cim:UnderexcLimIEEE2.tuv - Voltage filter time constant (TUV). Typical Value = 5. |
| cim:UnderexcLimIEEE2.vuimax - UEL integrator output maximum limit (VUIMAX). Typical Value = 0.25. |
| cim:UnderexcLimIEEE2.vuimin - UEL integrator output minimum limit (VUIMIN). Typical Value = 0. |
| cim:UnderexcLimIEEE2.vulmax - UEL output maximum limit (VULMAX). Typical Value = 0.25. |
| cim:UnderexcLimIEEE2.vulmin - UEL output minimum limit (VULMIN). Typical Value = 0. |
| cim:UnderexcLimX1 - Allis-Chalmers minimum excitation limiter. |
| cim:UnderexcLimX1.k - Minimum excitation limit slope (K) (>0). |
| cim:UnderexcLimX1.kf2 - Differential gain (Kf2). |
| cim:UnderexcLimX1.km - Minimum excitation limit gain (Km). |
| cim:UnderexcLimX1.melmax - Minimum excitation limit value (MELMAX). |
| cim:UnderexcLimX1.tf2 - Differential time constant (Tf2) (>0). |
| cim:UnderexcLimX1.tm - Minimum excitation limit time constant (Tm). |
| cim:UnderexcLimX2 - Westinghouse minimum excitation limiter. |
| cim:UnderexcLimX2.kf2 - Differential gain (Kf2). |
| cim:UnderexcLimX2.km - Minimum excitation limit gain (Km). |
| cim:UnderexcLimX2.melmax - Minimum excitation limit value (MELMAX). |
| cim:UnderexcLimX2.qo - Excitation center setting (Qo). |
| cim:UnderexcLimX2.r - Excitation radius (R). |
| cim:UnderexcLimX2.tf2 - Differential time constant (Tf2) (>0). |
| cim:UnderexcLimX2.tm - Minimum excitation limit time constant (Tm). |
| cim:underground |
| cim:UndergroundStructure - Underground structure. |
| cim:UndergroundStructure.hasVentilation - True if vault is ventilating. |
| cim:UndergroundStructure.kind - True if vault is ventilating. |
| cim:UndergroundStructure.material - Primary material of underground structure. |
| cim:UndergroundStructure.sealingWarrantyExpiresDate - Date sealing warranty expires. |
| cim:UndergroundStructureKind |
| cim:unipedeVoltageDip10to15 |
| cim:unipedeVoltageDip15to30 |
| cim:unipedeVoltageDip30to60 |
| cim:unipedeVoltageDip60to90 |
| cim:unipedeVoltageDip90to100 |
| cim:Unit - The identification of the unit name for the time series quantities. |
| cim:Unit.AceTariffType - |
| cim:Unit.name - The coded representation of the unit. |
| cim:UnitInitialConditions - Resource status at the end of a given clearing period. |
| cim:UnitInitialConditions.cumEnergy - Cumulative energy production over trading period. |
| cim:UnitInitialConditions.cumStatusChanges - Cumulative number of status changes of the resource. |
| cim:UnitInitialConditions.numberOfStartups - Number of start ups in the Operating Day until the end of previous hour. |
| cim:UnitInitialConditions.onlineStatus - 'true' if the GeneratingUnit is currently On-Line |
| cim:UnitInitialConditions.resourceMW - Resource MW output at the end of previous clearing period. |
| cim:UnitInitialConditions.resourceStatus - Resource status at the end of previous clearing period:
0 - off-line
1 - on-line production
2 - in shutdown process
3 - in startup process |
| cim:UnitInitialConditions.statusDate - Time and date for resourceStatus |
| cim:UnitInitialConditions.timeInStatus - Time in market trading intervals the resource is in the state as of the end of the previous clearing period. |
| cim:UnitInitialConditions.timeInterval - Time interval |
| cim:UnitMultiplier |
| cim:UnitSymbol |
| cim:UnitType |
| cim:UnitTypeEMS |
| cim:unknown |
| cim:unspecified |
| cim:UOMType |
| cim:UP |
| cim:update |
| cim:UpdateCIMDataObject - The object already exists and is to be modified. |
| cim:UpdateCIMDataObject.PreconditionCIMDataObject - The data object holding preconditions of updates.The associated data object representing the update. Normally the associaiton is specifed, but in the case of a proxy object where the association is removed, we might not reference any data object as it would only reference a proxy data object with no associations. |
| cim:upfc |
| cim:UPPER |
| cim:urban |
| cim:Usage - The way material and assets are used to perform a certain type of work task. The way is described in text in the inheritied description attribute. |
| cim:Usage.OldWorkTask - |
| cim:Usage.status |
| cim:UsagePoint - Logical or physical point in the network to which readings or events may be attributed. Used at the place where a physical or virtual meter may be located; however, it is not required that a meter be present. |
| cim:UsagePoint.amiBillingReady - Tracks the lifecycle of the metering installation at a usage point with respect to readiness for billing via advanced metering infrastructure reads. |
| cim:UsagePoint.checkBilling - True if as a result of an inspection or otherwise, there is a reason to suspect that a previous billing may have been performed with erroneous data. Value should be reset once this potential discrepancy has been resolved. |
| cim:UsagePoint.connectionState - State of the usage point with respect to connection to the network. |
| cim:UsagePoint.CustomerAgreement - Customer agreement regulating this service delivery point.All service delivery points regulated by this customer agreement. |
| cim:UsagePoint.EndDeviceControl - All end device controls sending commands to this usage point.All usage points receiving commands from this end device control. |
| cim:UsagePoint.EndDeviceEvent - All end device events reported for this usage point.Usage point for which this end device event is reported. |
| cim:UsagePoint.estimatedLoad - Estimated load. |
| cim:UsagePoint.grounded - True if grounded. |
| cim:UsagePoint.isSdp - If true, this usage point is a service delivery point, i.e., a usage point where the ownership of the service changes hands. |
| cim:UsagePoint.isVirtual - If true, this usage point is virtual, i.e., no physical location exists in the network where a meter could be located to collect the meter readings. For example, one may define a virtual usage point to serve as an aggregation of usage for all of a company's premises distributed widely across the distribution territory. Otherwise, the usage point is physical, i.e., there is a logical point in the network where a meter could be located to collect meter readings. |
| cim:UsagePoint.MeterReading - All meter readings obtained from this usage point.Usage point from which this meter reading (set of values) has been obtained. |
| cim:UsagePoint.MeterWorkTask - All meter service work tasks at this usage point.Usage point to which this meter service work task applies. |
| cim:UsagePoint.MetrologyRequirement - All metrology requirements for this usage point.All usage points having this metrology requirement. |
| cim:UsagePoint.minimalUsageExpected - If true, minimal or zero usage is expected at this usage point for situations such as premises vacancy, logical or physical disconnect. It is used for readings validation and estimation. |
| cim:UsagePoint.nominalServiceVoltage - Nominal service voltage. |
| cim:UsagePoint.Outage - All outages at this usage point.All usage points associated with this outage. |
| cim:UsagePoint.outageRegion - Outage region in which this usage point is located. |
| cim:UsagePoint.phaseCode - Phase code. Number of wires and specific nominal phases can be deduced from enumeration literal values. For example, ABCN is three-phase, four-wire, s12n (splitSecondary12N) is single-phase, three-wire, and s1n and s2n are single-phase, two-wire. |
| cim:UsagePoint.PricingStructure - All pricing structures applicable to this service delivery point (with prepayment meter running as a stand-alone device, with no CustomerAgreement or Customer).All service delivery points (with prepayment meter running as a stand-alone device, with no CustomerAgreement or Customer) to which this pricing structure applies. |
| cim:UsagePoint.ratedCurrent - Current flow that this usage point is configured to deliver. |
| cim:UsagePoint.ratedPower - Active power that this usage point is configured to deliver. |
| cim:UsagePoint.readCycle - Cycle day on which the meter for this usage point will normally be read. Usually correlated with the billing cycle. |
| cim:UsagePoint.readRoute - Identifier of the route to which this usage point is assigned for purposes of meter reading. Typically used to configure hand held meter reading systems prior to collection of reads. |
| cim:UsagePoint.serviceDeliveryRemark - Remarks about this usage point, for example the reason for it being rated with a non-nominal priority. |
| cim:UsagePoint.ServiceLocation - Service location where the service delivered by this usage point is consumed.All usage points delivering service (of the same type) to this service location. |
| cim:UsagePoint.servicePriority - Priority of service for this usage point. Note that usage points at the same service location can have different priorities. |
| cim:UsagePoint.ServiceSupplier - ServiceSupplier (utility) utilising this usage point to deliver a service.All usage points this service supplier utilises to deliver a service. |
| cim:UsagePoint.UsagePointGroup - All groups to which this usage point belongs.All usage points in this group. |
| cim:UsagePoint.UsagePointLocation - Location of this usage point.All usage points at this location. |
| cim:UsagePointConnectedKind |
| cim:UsagePointGroup - Abstraction for management of group communications within a two-way AMR system or the data for a group of related usage points. Commands can be issued to all of the usage points that belong to a usage point group using a defined group address and the underlying AMR communication infrastructure. |
| cim:UsagePointGroup.DemandResponseProgram - All demand response programs this usage point group is enrolled in.All usage point groups enrolled in this demand response program. |
| cim:UsagePointGroup.EndDeviceControl - All end device controls sending commands to this usage point group.All usage point groups receiving commands from this end device control. |
| cim:UsagePointGroup.type - Type of this group. |
| cim:UsagePointLocation - Location of an individual usage point. |
| cim:UsagePointLocation.accessMethod - Method for the service person to access this usage point location. For example, a description of where to obtain a key if the facility is unmanned and secured. |
| cim:UsagePointLocation.remark - Remarks about this location. |
| cim:UsagePointLocation.siteAccessProblem - Problems previously encountered when visiting or performing work at this location. Examples include: bad dog, violent customer, verbally abusive occupant, obstructions, safety hazards, etc. |
| cim:USD |
| cim:user |
| cim:UserAttribute - Generic name-value pair class, with optional sequence number and units for value; can be used to model parts of information exchange when concrete types are not known in advance. |
| cim:UserAttribute.ErpInvoiceLineItem - |
| cim:UserAttribute.ErpLedgerEntry - |
| cim:UserAttribute.name - Name of an attribute. |
| cim:UserAttribute.sequenceNumber - Sequence number for this attribute in a list of attributes. |
| cim:UserAttribute.value - Value of an attribute, including unit information. |
| cim:utility |
| cim:UYU |
| cim:UZS |
| cim:V |
| cim:V2 |
| cim:V2h |
| cim:VA |
| cim:VAdjIEEE - The class represents IEEE Voltage Adjuster which is used to represent the voltage adjuster in either a power factor or var control system.
Reference: IEEE Standard 421.5-2005 Section 11.1. |
| cim:VAdjIEEE.adjslew - Rate at which output of adjuster changes (ADJ_SLEW). Unit = sec./PU. Typical Value = 300. |
| cim:VAdjIEEE.taoff - Time that adjuster pulses are off (TAOFF). Typical Value = 0.5. |
| cim:VAdjIEEE.taon - Time that adjuster pulses are on (TAON). Typical Value = 0.1. |
| cim:VAdjIEEE.vadjf - Set high to provide a continuous raise or lower (VADJF). |
| cim:VAdjIEEE.vadjmax - Maximum output of the adjuster (VADJMAX). Typical Value = 1.1. |
| cim:VAdjIEEE.vadjmin - Minimum output of the adjuster (VADJMIN). Typical Value = 0.9. |
| cim:VAh |
| cim:Valid |
| cim:Validation_exception_during_transformation_of_XML |
| cim:Validity |
| cim:ValueAliasSet - Describes the translation of a set of values into a name and is intendend to facilitate cusom translations. Each ValueAliasSet has a name, description etc. A specific Measurement may represent a discrete state like Open, Closed, Intermediate etc. This requires a translation from the MeasurementValue.value number to a string, e.g. 0->"Invalid", 1->"Open", 2->"Closed", 3->"Intermediate". Each ValueToAlias member in ValueAliasSet.Value describe a mapping for one particular value to a name. |
| cim:ValueAliasSet.Command - The Commands using the set for translation.The ValueAliasSet used for translation of a Control value to a name. |
| cim:ValueAliasSet.RaiseLowerCommand - The Commands using the set for translation.The ValueAliasSet used for translation of a Control value to a name. |
| cim:ValueToAlias - Describes the translation of one particular value into a name, e.g. 1 as "Open". |
| cim:ValueToAlias.value - The value that is mapped. |
| cim:ValueToAlias.ValueAliasSet - The ValueAliasSet having the ValueToAlias mappings.The ValueToAlias mappings included in the set. |
| cim:VAr |
| cim:VArh |
| cim:varnishedCambricCloth |
| cim:varnishedDacronGlass |
| cim:vault |
| cim:vaultThreePhase |
| cim:VCC |
| cim:VCompIEEEType1 - The class represents the terminal voltage transducer and the load compensator as defined in the IEEE Std 421.5-2005, Section 4. This model is common to all excitation system models described in the IEEE Standard.
Reference: IEEE Standard 421.5-2005 Section 4. |
| cim:VCompIEEEType1.rc - Resistive component of compensation of a generator (Rc). |
| cim:VCompIEEEType1.tr - Time constant which is used for the combined voltage sensing and compensation signal (Tr). |
| cim:VCompIEEEType1.xc - Reactive component of compensation of a generator (Xc). |
cim:VCompIEEEType2 - The class represents the terminal voltage transducer and the load compensator as defined in the IEEE Std 421.5-2005, Section 4. This model is designed to cover the following types of compensation:
- reactive droop
- transformer-drop or line-drop compensation
- reactive differential compensation known also as cross-current compensation.
Reference: IEEE Standard 421.5-2005, Section 4. |
| cim:VCompIEEEType2.GenICompensationForGenJ - Compensation of this voltage compensator's generator for current flow out of another generator.The standard IEEE Type 2 voltage compensator of this compensation. |
| cim:VCompIEEEType2.tr - Time constant which is used for the combined voltage sensing and compensation signal (Tr). |
| cim:VEF |
| cim:Vehicle - Vehicle asset. |
| cim:Vehicle.odometerReadDateTime - Date and time the last odometer reading was recorded. |
| cim:Vehicle.odometerReading - Odometer reading of this vehicle as of the 'odometerReadingDateTime'. Refer to associated ActivityRecords for earlier readings. |
| cim:Vehicle.usageKind - Kind of usage of the vehicle. |
| cim:VehicleUsageKind |
| cim:Vendor - The entity that owns the point of sale and contracts with the cashier to receipt payments and vend tokens using the payment system. The vendor has a private contract with and is managed by the merchant which is a type of organisation. The vendor is accountable to the merchant for revenue collected, and the merchant is in turn accountable to the supplier. |
| cim:VendorShift - The operating shift for a vendor during which the vendor may transact against the merchant's account. It aggregates transactions and receipts during the shift and periodically debits a merchant account. The totals in vendor shift should always be the sum of totals aggregated in all cashier shifts that were open under the particular vendor shift. |
| cim:VendorShift.MerchantAccount - Merchant account this vendor shift periodically debits (based on aggregated transactions).All vendor shifts that operate on this merchant account. |
| cim:VendorShift.merchantDebitAmount - The amount that is to be debited from the merchant account for this vendor shift. This amount reflects the sum(PaymentTransaction.transactionAmount). |
| cim:VendorShift.posted - If true, merchantDebitAmount has been debited from MerchantAccount; typically happens at the end of VendorShift when it closes. |
| cim:VendorShift.Vendor - Vendor that opens and owns this vendor shift.All vendor shifts opened and owned by this vendor. |
| cim:verify |
| cim:Vh |
| cim:ViolationLimit - A type of limit that indicates if it is enforced and, through association, the organisation responsible for setting the limit. |
| cim:ViolationLimit.enforced - True if limit is enforced. |
| cim:VisibilityLayer - Layers are typically used for grouping diagram objects according to themes and scales. Themes are used to display or hide certain information (e.g., lakes, borders), while scales are used for hiding or displaying information depending on the current zoom level (hide text when it is too small to be read, or when it exceeds the screen size). This is also called de-cluttering.
CIM based graphics exchange will support an m:n relationship between diagram objects and layers. It will be the task of the importing system to convert an m:n case into an appropriate 1:n representation if the importing system does not support m:n. |
| cim:VisibilityLayer.DiagramObject - A visibility layer can contain one or more diagram objects.A diagram object can be part of multiple visibility layers. |
| cim:VisibilityLayer.drawingOrder - The drawing order for this layer. The higher the number, the later the layer and the objects within it are rendered. |
| cim:VND |
| cim:volt |
| cim:Voltage - Electrical voltage, can be both AC and DC. |
| cim:voltage |
| cim:Voltage.multiplier |
| cim:Voltage.unit |
| cim:Voltage.value |
| cim:VoltageAdjusterDynamics - Voltage adjuster function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:VoltageAdjusterUserDefined - Voltage adjuster function block whose dynamic behaviour is described by a user-defined model. |
| cim:VoltageAdjusterUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:VoltageAdjusterUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:voltageAngle |
| cim:VoltageCompensatorDynamics - Voltage compensator function block whose behaviour is described by reference to a standard model or by definition of a user-defined model. |
| cim:VoltageCompensatorUserDefined - Voltage compensator function block whose dynamic behaviour is described by a user-defined model. |
| cim:VoltageCompensatorUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:VoltageCompensatorUserDefined.ProprietaryParameterDynamics - Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated. |
| cim:VoltageControlZone - An area of the power system network which is defined for secondary voltage control purposes. A voltage control zone consists of a collection of substations with a designated bus bar section whose voltage will be controlled. |
| cim:VoltageControlZone.BusbarSection - A VoltageControlZone is controlled by a designated BusbarSection.A VoltageControlZone is controlled by a designated BusbarSection. |
| cim:VoltageControlZone.RegulationSchedule - A VoltageControlZone may have a voltage regulation schedule.A VoltageControlZone may have a voltage regulation schedule. |
| cim:voltageExcursion |
| cim:VoltageHigh |
| cim:voltageImbalance |
| cim:VoltageLevel - A collection of equipment at one common system voltage forming a switchgear. The equipment typically consist of breakers, busbars, instrumentation, control, regulation and protection devices as well as assemblies of all these. |
| cim:VoltageLevel.highVoltageLimit - The bus bar's high voltage limit |
| cim:VoltageLevel.lowVoltageLimit - The bus bar's low voltage limit |
| cim:VoltageLevel.Substation - The substation of the voltage level.The voltage levels within this substation. |
| cim:VoltageLimit - Operational limit applied to voltage. |
| cim:voltageLimit |
| cim:VoltageLimit.value - Limit on voltage. High or low limit nature of the limit depends upon the properties of the operational limit type. |
| cim:VoltageLow |
| cim:voltagePcc |
| cim:VoltagePerReactivePower - Voltage variation with reactive power. |
| cim:VoltagePerReactivePower.multiplier |
| cim:VoltagePerReactivePower.unit |
| cim:VoltagePerReactivePower.value |
| cim:voltageRegulator |
| cim:volume |
| cim:Volume - Volume. |
| cim:Volume.multiplier |
| cim:Volume.unit |
| cim:Volume.value |
| cim:VolumeFlowRate - Volume per time. |
| cim:VolumeFlowRate.multiplier |
| cim:VolumeFlowRate.unit |
| cim:VolumeFlowRate.value |
| cim:volumetricFlow |
| cim:VPerHz |
| cim:VPerm |
| cim:VPerV |
| cim:VPerVA |
| cim:VPerVAr |
| cim:Vs |
| cim:VS |
| cim:VsCapabilityCurve - The P-Q capability curve for a voltage source converter, with P on x-axis and Qmin and Qmax on y1-axis and y2-axis. |
| cim:VsCapabilityCurve.VsConverter - All converters with this capability curve.Capability curve of this converter. |
| cim:VsConverter - DC side of the voltage source converter (VSC). |
| cim:VsConverter.delta - Angle between uf and uc. Converter state variable used in power flow. |
| cim:VsConverter.droop - Droop constant; pu value is obtained as D [kV/MW] x Sb / Ubdc. |
| cim:VsConverter.droopCompensation - Compensation constant. Used to compensate for voltage drop when controlling voltage at a distant bus. |
| cim:VsConverter.maxModulationIndex - The max quotient between the AC converter voltage (Uc) and DC voltage (Ud). A factor typically less than 1. VSC configuration data used in power flow. |
| cim:VsConverter.maxValveCurrent - The maximum current through a valve. This current limit is the basis for calculating the capability diagram. VSC configuration data. |
| cim:VsConverter.pPccControl - Kind of control of real power and/or DC voltage. |
| cim:VsConverter.qPccControl |
| cim:VsConverter.qShare - Reactive power sharing factor among parallel converters on Uac control. |
| cim:VsConverter.targetQpcc - Reactive power injection target in AC grid, at point of common coupling. |
| cim:VsConverter.targetUpcc - Voltage target in AC grid, at point of common coupling. |
| cim:VsConverter.uf - Line-to-line voltage on the valve side of the converter transformer. Converter state variable, result from power flow. |
| cim:VsPpccControlKind |
| cim:VsQpccControlKind |
| cim:VUV |
| cim:W |
| cim:waitingOnApproval |
| cim:waitingOnMaterial |
| cim:waitingToBeScheduled |
| cim:WAST |
| cim:wasteWater |
| cim:watchdogTimeout |
| cim:water |
| cim:WaterLevel - Reservoir water level referred to a given datum such as mean sea level. |
| cim:WaterLevel.multiplier |
| cim:WaterLevel.unit |
| cim:WaterLevel.value |
| cim:waterMetering |
| cim:WATR |
| cim:WaveTrap - Line traps are devices that impede high frequency power line carrier signals yet present a negligible impedance at the main power frequency. |
| cim:Wb |
| cim:WeatherStation - This represents a source of ambient temperature. |
| cim:WeatherStation.Equipment - |
| cim:weatherZone |
| cim:weekly |
| cim:Weight - The weight of an object. |
| cim:Weight.multiplier |
| cim:Weight.unit |
| cim:Weight.value |
| cim:Wh |
| cim:WheelingCounterParty - Counter party in a wheeling transaction. |
| cim:WheelingReferenceSchedule - A unique identifier of a wheeling transaction. A wheeling transaction is a balanced Energy exchange among Supply and Demand Resources.
This schedule is assocated with the hourly parameters in a resource bid. |
| cim:WheelingReferenceSchedule.value |
| cim:WHL |
| cim:WHOLESALE |
| cim:WIND |
| cim:WindAeroConstIEC - The constant aerodynamic torque model assumes that the aerodynamic torque is constant.
Reference: IEC Standard 61400-27-1 Section 6.6.1.1. |
| cim:WindAeroLinearIEC - The linearised aerodynamic model.
Reference: IEC Standard 614000-27-1 Section 6.6.1.2. |
| cim:WindAeroLinearIEC.dpomega - Partial derivative of aerodynamic power with respect to changes in WTR speed (dpomega). It is case dependent parameter. |
| cim:WindAeroLinearIEC.dptheta - Partial derivative of aerodynamic power with respect to changes in pitch angle (dptheta). It is case dependent parameter. |
| cim:WindAeroLinearIEC.omegazero - Rotor speed if the wind turbine is not derated (omega0). It is case dependent parameter. |
| cim:WindAeroLinearIEC.pavail - Available aerodynamic power (pavail). It is case dependent parameter. |
| cim:WindAeroLinearIEC.thetazero - Pitch angle if the wind turbine is not derated (theta0). It is case dependent parameter. |
| cim:WindContCurrLimIEC - Current limitation model. The current limitation model combines the physical limits.
Reference: IEC Standard 61400-27-1 Section 6.6.5.7. |
| cim:WindContCurrLimIEC.imax - Maximum continuous current at the wind turbine terminals (imax). It is type dependent parameter. |
| cim:WindContCurrLimIEC.imaxdip - Maximum current during voltage dip at the wind turbine terminals (imax,dip). It is project dependent parameter. |
| cim:WindContCurrLimIEC.mdfslim - Limitation of type 3 stator current (MDFSLim):
- false=0: total current limitation,
- true=1: stator current limitation).
It is type dependent parameter. |
| cim:WindContCurrLimIEC.mqpri - Prioritisation of q control during LVRT (Mqpri):
- true = 1: reactive power priority,
- false = 0: active power priority.
It is project dependent parameter. |
| cim:WindContCurrLimIEC.tufilt - Voltage measurement filter time constant (Tufilt). It is type dependent parameter. |
| cim:WindContCurrLimIEC.WindDynamicsLookupTable - The wind dynamics lookup table associated with this current control limitation model.The current control limitation model with which this wind dynamics lookup table is associated. |
| cim:WindContPitchAngleIEC - Pitch angle control model.
Reference: IEC Standard 61400-27-1 Section 6.6.5.8. |
| cim:WindContPitchAngleIEC.dthetamax - Maximum pitch positive ramp rate (dthetamax). It is type dependent parameter. Unit = degrees/sec. |
| cim:WindContPitchAngleIEC.dthetamin - Maximum pitch negative ramp rate (dthetamin). It is type dependent parameter. Unit = degrees/sec. |
| cim:WindContPitchAngleIEC.kic - Power PI controller integration gain (KIc). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.kiomega - Speed PI controller integration gain (KIomega). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.kpc - Power PI controller proportional gain (KPc). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.kpomega - Speed PI controller proportional gain (KPomega). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.kpx - Pitch cross coupling gain (KPX). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.thetamax - Maximum pitch angle (thetamax). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.thetamin - Minimum pitch angle (thetamin). It is type dependent parameter. |
| cim:WindContPitchAngleIEC.ttheta - Pitch time constant (ttheta). It is type dependent parameter. |
| cim:WindContPType3IEC - P control model Type 3.
Reference: IEC Standard 61400-27-1 Section 6.6.5.3. |
| cim:WindContPType3IEC.dpmax - Maximum wind turbine power ramp rate (dpmax). It is project dependent parameter. |
| cim:WindContPType3IEC.dtrisemaxlvrt - Limitation of torque rise rate during LVRT for S1 (dTrisemaxLVRT). It is project dependent parameter. |
| cim:WindContPType3IEC.kdtd - Gain for active drive train damping (KDTD). It is type dependent parameter. |
| cim:WindContPType3IEC.kip - PI controller integration parameter (KIp). It is type dependent parameter. |
| cim:WindContPType3IEC.kpp - PI controller proportional gain (KPp). It is type dependent parameter. |
| cim:WindContPType3IEC.mplvrt - Enable LVRT power control mode (MpLVRT).
true = 1: voltage control
false = 0: reactive power control.
It is project dependent parameter. |
| cim:WindContPType3IEC.omegaoffset - Offset to reference value that limits controller action during rotor speed changes (omegaoffset). It is case dependent parameter. |
| cim:WindContPType3IEC.pdtdmax - Maximum active drive train damping power (pDTDmax). It is type dependent parameter. |
| cim:WindContPType3IEC.rramp - Ramp limitation of torque, required in some grid codes (Rramp). It is project dependent parameter. |
| cim:WindContPType3IEC.tdvs - Time delay after deep voltage sags (TDVS). It is project dependent parameter. |
| cim:WindContPType3IEC.temin - Minimum electrical generator torque (Temin). It is type dependent parameter. |
| cim:WindContPType3IEC.tomegafilt - Filter time constant for generator speed measurement (Tomegafilt). It is type dependent parameter. |
| cim:WindContPType3IEC.tpfilt - Filter time constant for power measurement (Tpfilt). It is type dependent parameter. |
| cim:WindContPType3IEC.tpord - Time constant in power order lag (Tpord). It is type dependent parameter. |
| cim:WindContPType3IEC.tufilt - Filter time constant for voltage measurement (Tufilt). It is type dependent parameter. |
| cim:WindContPType3IEC.tuscale - Voltage scaling factor of reset-torque (Tuscale). It is project dependent parameter. |
| cim:WindContPType3IEC.twref - Time constant in speed reference filter (Tomega,ref). It is type dependent parameter. |
| cim:WindContPType3IEC.udvs - Voltage limit for hold LVRT status after deep voltage sags (uDVS). It is project dependent parameter. |
| cim:WindContPType3IEC.updip - Voltage dip threshold for P-control (uPdip). Part of turbine control, often different (e.g 0.8) from converter thresholds. It is project dependent parameter. |
| cim:WindContPType3IEC.wdtd - Active drive train damping frequency (omegaDTD). It can be calculated from two mass model parameters. It is type dependent parameter. |
| cim:WindContPType3IEC.WindDynamicsLookupTable - The wind dynamics lookup table associated with this P control type 3 model.The P control type 3 model with which this wind dynamics lookup table is associated. |
| cim:WindContPType3IEC.zeta - Coefficient for active drive train damping (zeta). It is type dependent parameter. |
| cim:WindContPType4aIEC - P control model Type 4A.
Reference: IEC Standard 61400-27-1 Section 6.6.5.4. |
| cim:WindContPType4aIEC.dpmax - Maximum wind turbine power ramp rate (dpmax). It is project dependent parameter. |
| cim:WindContPType4aIEC.tpord - Time constant in power order lag (Tpord). It is type dependent parameter. |
| cim:WindContPType4aIEC.tufilt - Voltage measurement filter time constant (Tufilt). It is type dependent parameter. |
| cim:WindContPType4bIEC - P control model Type 4B.
Reference: IEC Standard 61400-27-1 Section 6.6.5.5. |
| cim:WindContPType4bIEC.dpmax - Maximum wind turbine power ramp rate (dpmax). It is project dependent parameter. |
| cim:WindContPType4bIEC.tpaero - Time constant in aerodynamic power response (Tpaero). It is type dependent parameter. |
| cim:WindContPType4bIEC.tpord - Time constant in power order lag (Tpord). It is type dependent parameter. |
| cim:WindContPType4bIEC.tufilt - Voltage measurement filter time constant (Tufilt). It is type dependent parameter. |
| cim:WindContQIEC - Q control model.
Reference: IEC Standard 61400-27-1 Section 6.6.5.6. |
| cim:WindContQIEC.iqh1 - Maximum reactive current injection during dip (iqh1). It is type dependent parameter. |
| cim:WindContQIEC.iqmax - Maximum reactive current injection (iqmax). It is type dependent parameter. |
| cim:WindContQIEC.iqmin - Minimum reactive current injection (iqmin). It is type dependent parameter. |
| cim:WindContQIEC.iqpost - Post fault reactive current injection (iqpost). It is project dependent parameter. |
| cim:WindContQIEC.kiq - Reactive power PI controller integration gain (KI,q). It is type dependent parameter. |
| cim:WindContQIEC.kiu - Voltage PI controller integration gain (KI,u). It is type dependent parameter. |
| cim:WindContQIEC.kpq - Reactive power PI controller proportional gain (KP,q). It is type dependent parameter. |
| cim:WindContQIEC.kpu - Voltage PI controller proportional gain (KP,u). It is type dependent parameter. |
| cim:WindContQIEC.kqv - Voltage scaling factor for LVRT current (Kqv). It is project dependent parameter. |
| cim:WindContQIEC.qmax - Maximum reactive power (qmax). It is type dependent parameter. |
| cim:WindContQIEC.qmin - Minimum reactive power (qmin). It is type dependent parameter. |
| cim:WindContQIEC.rdroop - Resistive component of voltage drop impedance (rdroop). It is project dependent parameter. |
| cim:WindContQIEC.tiq - Time constant in reactive current lag (Tiq). It is type dependent parameter. |
| cim:WindContQIEC.tpfilt - Power measurement filter time constant (Tpfilt). It is type dependent parameter. |
| cim:WindContQIEC.tpost - Length of time period where post fault reactive power is injected (Tpost). It is project dependent parameter. |
| cim:WindContQIEC.tqord - Time constant in reactive power order lag (Tqord). It is type dependent parameter. |
| cim:WindContQIEC.tufilt - Voltage measurement filter time constant (Tufilt). It is type dependent parameter. |
| cim:WindContQIEC.udb1 - Voltage dead band lower limit (udb1). It is type dependent parameter. |
| cim:WindContQIEC.udb2 - Voltage dead band upper limit (udb2). It is type dependent parameter. |
| cim:WindContQIEC.umax - Maximum voltage in voltage PI controller integral term (umax). It is type dependent parameter. |
| cim:WindContQIEC.umin - Minimum voltage in voltage PI controller integral term (umin). It is type dependent parameter. |
| cim:WindContQIEC.uqdip - Voltage threshold for LVRT detection in q control (uqdip). It is type dependent parameter. |
| cim:WindContQIEC.uref0 - User defined bias in voltage reference (uref0), used when MqG = MG,u. It is case dependent parameter. |
| cim:WindContQIEC.windLVRTQcontrolModesType - Types of LVRT Q control modes (MqLVRT). It is project dependent parameter. |
| cim:WindContQIEC.windQcontrolModesType - Types of general wind turbine Q control modes (MqG). It is project dependent parameter. |
| cim:WindContQIEC.xdroop - Inductive component of voltage drop impedance (xdroop). It is project dependent parameter. |
| cim:WindContRotorRIEC - Rotor resistance control model.
Reference: IEC Standard 61400-27-1 Section 6.6.5.2. |
| cim:WindContRotorRIEC.kirr - Integral gain in rotor resistance PI controller (KIrr). It is type dependent parameter. |
| cim:WindContRotorRIEC.komegafilt - Filter gain for generator speed measurement (Komegafilt). It is type dependent parameter. |
| cim:WindContRotorRIEC.kpfilt - Filter gain for power measurement (Kpfilt). It is type dependent parameter. |
| cim:WindContRotorRIEC.kprr - Proportional gain in rotor resistance PI controller (KPrr). It is type dependent parameter. |
| cim:WindContRotorRIEC.rmax - Maximum rotor resistance (rmax). It is type dependent parameter. |
| cim:WindContRotorRIEC.rmin - Minimum rotor resistance (rmin). It is type dependent parameter. |
| cim:WindContRotorRIEC.tomegafilt - Filter time constant for generator speed measurement (Tomegafilt). It is type dependent parameter. |
| cim:WindContRotorRIEC.tpfilt - Filter time constant for power measurement (Tpfilt). It is type dependent parameter. |
| cim:WindContRotorRIEC.WindDynamicsLookupTable - The wind dynamics lookup table associated with this rotor resistance control model.The rotor resistance control model with which this wind dynamics lookup table is associated. |
| cim:WindDynamicsLookupTable - The class models a look up table for the purpose of wind standard models. |
| cim:WindDynamicsLookupTable.input - Input value (x) for the lookup table function. |
| cim:WindDynamicsLookupTable.lookupTableFunctionType - Type of the lookup table function. |
| cim:WindDynamicsLookupTable.output - Output value (y) for the lookup table function. |
| cim:WindDynamicsLookupTable.sequence - Sequence numbers of the pairs of the input (x) and the output (y) of the lookup table function. |
| cim:WindGeneratingUnit - A wind driven generating unit. May be used to represent a single turbine or an aggregation. |
| cim:WindGeneratingUnit.windGenUnitType - The kind of wind generating unit |
| cim:WindGenTurbineType1IEC - Wind turbine IEC Type 1.
Reference: IEC Standard 61400-27-1, section 6.5.2. |
| cim:WindGenTurbineType1IEC.WindAeroConstIEC - Wind aerodynamic model associated with this wind turbine type 1 model.Wind turbine type 1 model with which this wind aerodynamic model is associated. |
| cim:WindGenTurbineType2IEC - Wind turbine IEC Type 2.
Reference: IEC Standard 61400-27-1, section 6.5.3. |
| cim:WindGenTurbineType2IEC.WindContRotorRIEC - Wind control rotor resistance model associated with wind turbine type 2 model.Wind turbine type 2 model with whitch this wind control rotor resistance model is associated. |
| cim:WindGenTurbineType2IEC.WindPitchContEmulIEC - Pitch control emulator model associated with this wind turbine type 2 model.Wind turbine type 2 model with which this Pitch control emulator model is associated. |
| cim:WindGenTurbineType3aIEC - IEC Type 3A generator set model.
Reference: IEC Standard 61400-27-1 Section 6.6.3.2. |
| cim:WindGenTurbineType3aIEC.kpc - Current PI controller proportional gain (KPc). It is type dependent parameter. |
| cim:WindGenTurbineType3aIEC.tic - Current PI controller integration time constant (TIc). It is type dependent parameter. |
| cim:WindGenTurbineType3aIEC.xs - Electromagnetic transient reactance (xS). It is type dependent parameter. |
| cim:WindGenTurbineType3bIEC - IEC Type 3B generator set model.
Reference: IEC Standard 61400-27-1 Section 6.6.3.3. |
| cim:WindGenTurbineType3bIEC.fducw - Crowbar duration versus voltage variation look-up table (fduCW()). It is case dependent parameter. |
cim:WindGenTurbineType3bIEC.mwtcwp - Crowbar control mode (MWTcwp).
- true = 1 in the model
- false = 0 in the model.
The parameter is case dependent parameter. |
| cim:WindGenTurbineType3bIEC.tg - Current generation Time constant (Tg). It is type dependent parameter. |
| cim:WindGenTurbineType3bIEC.two - Time constant for crowbar washout filter (Two). It is case dependent parameter. |
| cim:WindGenTurbineType3bIEC.xs - Electromagnetic transient reactance (xS). It is type dependent parameter. |
| cim:WindGenTurbineType3IEC - Generator model for wind turbines of IEC type 3A and 3B. |
| cim:WindGenTurbineType3IEC.dipmax - Maximum active current ramp rate (dipmax). It is project dependent parameter. |
| cim:WindGenTurbineType3IEC.diqmax - Maximum reactive current ramp rate (diqmax). It is project dependent parameter. |
| cim:WindGenTurbineType3IEC.WindAeroLinearIEC - Wind aerodynamic model associated with this wind generator type 3 model.Wind generator type 3 model with which this wind aerodynamic model is associated. |
| cim:WindGenTurbineType3IEC.WindContPitchAngleIEC - Wind control pitch angle model associated with this wind turbine type 3.Wind turbine type 3 model with which this pitch control model is associated. |
| cim:WindGenTurbineType3IEC.WindContPType3IEC - Wind control P type 3 model associated with this wind turbine type 3 model.Wind turbine type 3 model with which this Wind control P type 3 model is associated. |
| cim:WindGenTurbineType3IEC.WindMechIEC - Wind mechanical model associated with this wind turbine Type 3 model.Wind turbine Type 3 model with which this wind mechanical model is associated. |
| cim:WindGenType4IEC - IEC Type 4 generator set model.
Reference: IEC Standard 61400-27-1 Section 6.6.3.4. |
| cim:WindGenType4IEC.dipmax - Maximum active current ramp rate (dipmax). It is project dependent parameter. |
| cim:WindGenType4IEC.diqmax - Maximum reactive current ramp rate (diqmax). It is project dependent parameter. |
| cim:WindGenType4IEC.diqmin - Minimum reactive current ramp rate (diqmin). It is case dependent parameter. |
| cim:WindGenType4IEC.tg - Time constant (Tg). It is type dependent parameter. |
| cim:WindGenUnitKind |
| cim:WindingConnection |
| cim:WindingInsulation - Winding insulation condition as a result of a test. |
| cim:WindingInsulation.insulationPFStatus - Status of Winding Insulation Power Factor as of statusDate: Acceptable, Minor Deterioration or Moisture Absorption, Major Deterioration or Moisture Absorption, Failed. |
| cim:WindingInsulation.insulationResistance - For testType, status of Winding Insulation Resistance as of statusDate. Typical values are: Acceptable, Questionable, Failed. |
| cim:WindingInsulation.leakageReactance - As of statusDate, the leakage reactance measured at the "from" winding with the "to" winding short-circuited and all other windings open-circuited. |
| cim:WindingInsulation.status |
| cim:WindingInsulation.TransformerObservation - |
| cim:WindingInsulationKind |
| cim:WindLookupTableFunctionKind |
| cim:WindLVRTQcontrolModesKind |
| cim:windMachine |
| cim:WindMechIEC - Two mass model.
Reference: IEC Standard 61400-27-1 Section 6.6.2.1. |
| cim:WindMechIEC.cdrt - Drive train damping (cdrt). It is type dependent parameter. |
| cim:WindMechIEC.hgen - Inertia constant of generator (Hgen). It is type dependent parameter. |
| cim:WindMechIEC.hwtr - Inertia constant of wind turbine rotor (HWTR). It is type dependent parameter. |
| cim:WindMechIEC.kdrt - Drive train stiffness (kdrt). It is type dependent parameter. |
| cim:WindPitchContEmulIEC - Pitch control emulator model.
Reference: IEC Standard 61400-27-1 Section 6.6.5.1. |
| cim:WindPitchContEmulIEC.kdroop - Power error gain (Kdroop). It is case dependent parameter. |
| cim:WindPitchContEmulIEC.kipce - Pitch control emulator integral constant (KI,pce). It is type dependent parameter. |
| cim:WindPitchContEmulIEC.komegaaero - Aerodynamic power change vs. omegaWTR change (Komegaaero). It is case dependent parameter. |
| cim:WindPitchContEmulIEC.kppce - Pitch control emulator proportional constant (KP,pce). It is type dependent parameter. |
| cim:WindPitchContEmulIEC.omegaref - Rotor speed in initial steady state (omegaref). It is case dependent parameter. |
| cim:WindPitchContEmulIEC.pimax - Maximum steady state power (pimax). It is case dependent parameter. |
| cim:WindPitchContEmulIEC.pimin - Minimum steady state power (pimin). It is case dependent parameter. |
| cim:WindPitchContEmulIEC.t1 - First time constant in pitch control lag (T1). It is type dependent parameter. |
| cim:WindPitchContEmulIEC.t2 - Second time constant in pitch control lag (T2). It is type dependent parameter. |
| cim:WindPitchContEmulIEC.tpe - Time constant in generator air gap power lag (Tpe). It is type dependent parameter. |
| cim:WindPlantDynamics - Parent class supporting relationships to wind turbines Type 3 and 4 and wind plant IEC and user defined wind plants including their control models. |
| cim:WindPlantFreqPcontrolIEC - Frequency and active power controller model.
Reference: IEC Standard 61400-27-1 Annex E. |
| cim:WindPlantFreqPcontrolIEC.dprefmax - Maximum ramp rate of pWTref request from the plant controller to the wind turbines (dprefmax). It is project dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.dprefmin - Minimum (negative) ramp rate of pWTref request from the plant controller to the wind turbines (dprefmin). It is project dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.kiwpp - Plant P controller integral gain (KIWPp). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.kpwpp - Plant P controller proportional gain (KPWPp). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.prefmax - Maximum pWTref request from the plant controller to the wind turbines (prefmax). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.prefmin - Minimum pWTref request from the plant controller to the wind turbines (prefmin). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.tpft - Lead time constant in reference value transfer function (Tpft). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.tpfv - Lag time constant in reference value transfer function (Tpfv). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.twpffilt - Filter time constant for frequency measurement (TWPffilt). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.twppfilt - Filter time constant for active power measurement (TWPpfilt). It is type dependent parameter. |
| cim:WindPlantFreqPcontrolIEC.WindDynamicsLookupTable - The wind dynamics lookup table associated with this frequency and active power wind plant model.The frequency and active power wind plant control model with which this wind dynamics lookup table is associated. |
| cim:WindPlantIEC - Simplified IEC type plant level model.
Reference: IEC 61400-27-1, AnnexE. |
| cim:WindPlantIEC.WindPlantFreqPcontrolIEC - Wind plant frequency and active power control model associated with this wind plant.Wind plant model with which this wind plant frequency and active power control is associated. |
| cim:WindPlantReactiveControlIEC - Simplified plant voltage and reactive power control model for use with type 3 and type 4 wind turbine models.
Reference: IEC Standard 61400-27-1 Annex E. |
| cim:WindPlantReactiveControlIEC.kiwpx - Plant Q controller integral gain (KIWPx). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.kpwpx - Plant Q controller proportional gain (KPWPx). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.kwpqu - Plant voltage control droop (KWPqu). It is project dependent parameter. |
| cim:WindPlantReactiveControlIEC.mwppf - Power factor control modes selector (MWPpf). Used only if mwpu is set to false.
true = 1: power factor control
false = 0: reactive power control.
It is project dependent parameter. |
| cim:WindPlantReactiveControlIEC.mwpu - Reactive power control modes selector (MWPu).
true = 1: voltage control
false = 0: reactive power control.
It is project dependent parameter. |
| cim:WindPlantReactiveControlIEC.twppfilt - Filter time constant for active power measurement (TWPpfilt). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.twpqfilt - Filter time constant for reactive power measurement (TWPqfilt). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.twpufilt - Filter time constant for voltage measurement (TWPufilt). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.txft - Lead time constant in reference value transfer function (Txft). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.txfv - Lag time constant in reference value transfer function (Txfv). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.uwpqdip - Voltage threshold for LVRT detection in q control (uWPqdip). It is type dependent parameter. |
| cim:WindPlantReactiveControlIEC.WindPlantIEC - Wind plant reactive control model associated with this wind plant.Wind plant model with which this wind reactive control is associated. |
| cim:WindPlantReactiveControlIEC.xrefmax - Maximum xWTref (qWTref or delta uWTref) request from the plant controller (xrefmax). It is project dependent parameter. |
| cim:WindPlantReactiveControlIEC.xrefmin - Minimum xWTref (qWTref or deltauWTref) request from the plant controller (xrefmin). It is project dependent parameter. |
| cim:WindPlantUserDefined - Wind plant function block whose dynamic behaviour is described by a user-defined model. |
| cim:WindPlantUserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:WindProtectionIEC - The grid protection model includes protection against over and under voltage, and against over and under frequency.
Reference: IEC Standard 614000-27-1 Section 6.6.6. |
| cim:WindProtectionIEC.fover - Set of wind turbine over frequency protection levels (fover). It is project dependent parameter. |
| cim:WindProtectionIEC.funder - Set of wind turbine under frequency protection levels (funder). It is project dependent parameter. |
| cim:WindProtectionIEC.tfover - Set of corresponding wind turbine over frequency protection disconnection times (Tfover). It is project dependent parameter. |
| cim:WindProtectionIEC.tfunder - Set of corresponding wind turbine under frequency protection disconnection times (Tfunder). It is project dependent parameter. |
| cim:WindProtectionIEC.tuover - Set of corresponding wind turbine over voltage protection disconnection times (Tuover). It is project dependent parameter. |
| cim:WindProtectionIEC.tuunder - Set of corresponding wind turbine under voltage protection disconnection times (Tuunder). It is project dependent parameter. |
| cim:WindProtectionIEC.uover - Set of wind turbine over voltage protection levels (uover). It is project dependent parameter. |
| cim:WindProtectionIEC.uunder - Set of wind turbine under voltage protection levels (uunder). It is project dependent parameter. |
| cim:WindQcontrolModesKind |
| cim:WindTurbineType1or2Dynamics - Parent class supporting relationships to wind turbines Type 1 and 2 and their control models. |
| cim:WindTurbineType1or2IEC - Generator model for wind turbine of IEC Type 1 or Type 2 is a standard asynchronous generator model.
Reference: IEC Standard 614000-27-1 Section 6.6.3.1. |
| cim:WindTurbineType1or2IEC.WindMechIEC - Wind mechanical model associated with this wind generator type 1 or 2 model.Wind generator type 1 or 2 model with which this wind mechanical model is associated. |
| cim:WindTurbineType1or2IEC.WindProtectionIEC - Wind turbune protection model associated with this wind generator type 1 or 2 model.Wind generator type 1 or 2 model with which this wind turbine protection model is associated. |
| cim:WindTurbineType3or4Dynamics - Parent class supporting relationships to wind turbines Type 3 and 4 and wind plant including their control models. |
| cim:WindTurbineType3or4Dynamics.WindPlantDynamics - The wind plant with which the wind turbines type 3 or 4 are associated.The wind turbine type 3 or 4 associated with this wind plant. |
| cim:WindTurbineType3or4IEC - Parent class supporting relationships to IEC wind turbines Type 3 and 4 and wind plant including their control models. |
| cim:WindTurbineType3or4IEC.WindContCurrLimIEC - Wind control current limitation model associated with this wind turbine type 3 or 4 model.Wind turbine type 3 or 4 model with which this wind control current limitation model is associated. |
| cim:WindTurbineType3or4IEC.WindContQIEC - Wind control Q model associated with this wind turbine type 3 or 4 model.Wind turbine type 3 or 4 model with which this reactive control mode is associated. |
| cim:WindTurbineType3or4IEC.WindProtectionIEC - Wind turbune protection model associated with this wind generator type 3 or 4 model.Wind generator type 3 or 4 model with which this wind turbine protection model is associated. |
| cim:WindTurbineType4aIEC - Wind turbine IEC Type 4A.
Reference: IEC Standard 61400-27-1, section 6.5.5.2. |
| cim:WindTurbineType4aIEC.WindContPType4aIEC - Wind control P type 4A model associated with this wind turbine type 4A model. Wind turbine type 4A model with which this wind control P type 4A model is associated. |
| cim:WindTurbineType4bIEC - Wind turbine IEC Type 4A.
Reference: IEC Standard 61400-27-1, section 6.5.5.3. |
| cim:WindTurbineType4bIEC.WindContPType4bIEC - Wind control P type 4B model associated with this wind turbine type 4B model.Wind turbine type 4B model with which this wind control P type 4B model is associated. |
| cim:WindTurbineType4bIEC.WindMechIEC - Wind mechanical model associated with this wind turbine Type 4B model.Wind turbine type 4B model with which this wind mechanical model is associated. |
| cim:WindType1or2UserDefined - Wind Type 1 or Type 2 function block whose dynamic behaviour is described by a user-defined model. |
| cim:WindType1or2UserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:WindType3or4UserDefined - Wind Type 3 or Type 4 function block whose dynamic behaviour is described by a user-defined model. |
| cim:WindType3or4UserDefined.proprietary - Behaviour is based on proprietary model as opposed to detailed model.
true = user-defined model is proprietary with behaviour mutually understood by sending and receiving applications and parameters passed as general attributes
false = user-defined model is explicitly defined in terms of control blocks and their input and output signals. |
| cim:WireInfo - Wire data that can be specified per line segment phase, or for the line segment as a whole in case its phases all have the same wire characteristics. |
| cim:WireInfo.coreRadius - (if there is a different core material) Radius of the central core. |
| cim:WireInfo.coreStrandCount - (if used) Number of strands in the steel core. |
| cim:WireInfo.gmr - Geometric mean radius. If we replace the conductor by a thin walled tube of radius GMR, then its reactance is identical to the reactance of the actual conductor. |
| cim:WireInfo.insulated - True if conductor is insulated. |
| cim:WireInfo.insulationMaterial - (if insulated conductor) Material used for insulation. |
| cim:WireInfo.insulationThickness - (if insulated conductor) Thickness of the insulation. |
| cim:WireInfo.material - Conductor material. |
| cim:WireInfo.rAC25 - AC resistance per unit length of the conductor at 25 °C. |
| cim:WireInfo.rAC50 - AC resistance per unit length of the conductor at 50 °C. |
| cim:WireInfo.rAC75 - AC resistance per unit length of the conductor at 75 °C. |
| cim:WireInfo.radius - Outside radius of the wire. |
| cim:WireInfo.ratedCurrent - Current carrying capacity of the wire under stated thermal conditions. |
| cim:WireInfo.rDC20 - DC resistance per unit length of the conductor at 20 °C. |
| cim:WireInfo.sizeDescription - Describes the wire gauge or cross section (e.g., 4/0, #2, 336.5). |
| cim:WireInfo.strandCount - Number of strands in the conductor. |
| cim:WireInsulationKind |
| cim:WireMaterialKind |
| cim:WirePosition - Identification, spacing and configuration of the wires of a conductor with respect to a structure. |
| cim:WirePosition.sequenceNumber - Sequence number for the wire with this position, with its counterpart in the AC line segment phase. |
| cim:WirePosition.WireSpacing - Wire spacing data this wire position belongs to.All positions of single wires (phase or neutral) making the conductor. |
| cim:WirePosition.xCoord - Signed horizontal distance from the wire at this position to a common reference point. |
| cim:WirePosition.yCoord - Signed vertical distance from the wire at this position: above ground (positive value) or burial depth below ground (negative value). |
| cim:wires1to1 |
| cim:wires2to1 |
| cim:wires3to1 |
| cim:WireSpacing - Wire spacing data that associates multiple wire positions with the line segment, and allows to calculate line segment impedances. Number of phases can be derived from the number of associated wire positions whose phase is not neutral. |
| cim:WireSpacing.isCable - If true, this spacing data describes a cable. |
| cim:WireSpacing.phaseWireCount - Number of wire sub-conductors in the symmetrical bundle (typically between 1 and 4). |
| cim:WireSpacing.phaseWireSpacing - Distance between wire sub-conductors in a symmetrical bundle. |
| cim:WireSpacing.usage - Usage of the associated wires. |
| cim:WireUsageKind |
| cim:wood |
| cim:Work - Document used to request, initiate, track and record work. |
| cim:Work.Appointment - All appointments for this work.All works for this appointment. |
| cim:Work.BusinessCase - |
| cim:Work.Customer - All the customers for which this work is performed.All the works performed for this customer. |
| cim:Work.Design - |
| cim:Work.Incident - All incidents being addressed by this work.All works addressing this incident. |
| cim:Work.requestDateTime - Date and time work was requested. |
| cim:Work.WorkBillingInfo - |
| cim:Work.WorkCostDetail - |
| cim:Work.WorkFlowStep - |
| cim:WorkActionKind |
| cim:WorkActivityRecord - Records information about the status of work or work task at a point in time. |
| cim:WorkActivityRecord.BaseWork - Base work that this activity record tracks.All activity records for this work or work task. |
| cim:WorkActivityRecord.percentComplete - Estimated percentage of completion of this individual work task or overall work order. |
| cim:WorkAsset - Asset used to perform work. |
| cim:WorkAsset.CUWorkEquipmentItem - |
| cim:WorkBillingInfo - Billing information for work performed for the customer. The history of Work Billing Info, Invoices, and Payments is to be maintained in associated ActivityRecords. |
| cim:WorkBillingInfo.costEstimate - Estimated cost for work. |
| cim:WorkBillingInfo.CustomerAccount - |
| cim:WorkBillingInfo.deposit - Amount of price on deposit. |
| cim:WorkBillingInfo.discount - Discount from standard price. |
| cim:WorkBillingInfo.dueDateTime - Date and time by which payment for bill is expected from client. |
| cim:WorkBillingInfo.issueDateTime - Date and time bill was issued to client. |
| cim:WorkBillingInfo.receivedDateTime - Date payment was received from client. |
| cim:WorkBillingInfo.workPrice - Amount of bill. |
| cim:WorkCostDetail - A collection of all of the individual cost items collected from multiple sources. |
| cim:WorkCostDetail.amount - Amount in designated currency for work, either a total or an individual element. As defined in the attribute "type," multiple instances are applicable to each work for: planned cost, actual cost, authorized cost, budgeted cost, forecasted cost, other. |
| cim:WorkCostDetail.CostType - |
| cim:WorkCostDetail.Design - |
| cim:WorkCostDetail.isDebit - True if 'amount' is a debit, false if it is a credit. |
| cim:WorkCostDetail.LaborItem - |
| cim:WorkCostDetail.MiscCostItem - |
| cim:WorkCostDetail.OverheadCost - |
| cim:WorkCostDetail.transactionDateTime - Date and time that 'amount' is posted to the work. |
| cim:WorkCostSummary - A roll up by cost type for the entire cost of a work order. For example, total labor. |
| cim:WorkCostSummary.WorkCostDetail - |
| cim:WorkDocument - Shadow class for Document, to isolate subclassing from this package. If any subclass gets normative and needs inheritance, it will inherit directly from Document. |
| cim:WorkFlowStep - A pre-defined set of work steps for a given type of work. |
| cim:WorkFlowStep.sequenceNumber - Used to define dependencies of each work flow step, which is for the instance of WorkTask associated with a given instance of WorkFlow. |
| cim:WorkFlowStep.status |
| cim:WorkIdentifiedObject - Shadow class for IdentifiedObject, to isolate subclassing from this package. If any subclass gets normative and needs inheritance, it will inherit directly from IdentifiedObject. |
| cim:WorkKind |
| cim:WorkLocation - Information about a particular location for various forms of work. |
| cim:WorkLocation.BaseWork - All works/tasks at this location.Location for this work/task. |
| cim:WorkLocation.DesignLocation - |
| cim:WorkStatusKind |
| cim:WorkTask |
| cim:WorkTask.crewETA - Estimated time of arrival, so that customer or police/fire department can be informed when the crew will arrive. |
| cim:WorkTask.instruction - Instructions for performing this task. |
| cim:WorkTask.schedOverride - If specified, override schedule and perform this task in accordance with instructions specified here. |
| cim:WorkTask.SwitchingPlan - Switching plan executed by this work task.All work tasks to execute this switching plan. |
| cim:WorkTask.taskKind - Kind of work. |
| cim:WorkTask.Work - Work this task belongs to.All tasks in this work. |
| cim:WorkTaskKind |
| cim:WorkTimeSchedule - Time schedule specific to work. |
| cim:WorkTimeSchedule.BaseWork - Time schedule for this work or work task.All time schedules for this work or work task. |
| cim:WorkTimeSchedule.kind - Kind of this work schedule. |
| cim:WorkTimeScheduleKind |
| cim:WORST |
| cim:WPerA |
| cim:WPerm2 |
| cim:WPerm2sr |
| cim:WPermK |
| cim:WPers |
| cim:WPersr |
| cim:WPerW |
| cim:WST |
| cim:X |
| cim:XAF |
| cim:XCD |
| cim:xformer |
| cim:XN |
| cim:xnor |
| cim:XOF |
| cim:xor |
| cim:XPF |
| cim:XY |
| cim:XYN |
| cim:y |
| cim:Y |
| cim:YER |
| cim:YES |
| cim:YesNo |
| cim:Yn |
| cim:z |
| cim:Z |
| cim:ZAR |
| cim:zeroFlowDuration |
| cim:zeroSequence |
| cim:zigbee |
| cim:zIP1 |
| cim:zIP2 |
| cim:ZMK |
| cim:Zn |
| cim:ZN |
| cim:Zone - Area divided off from other areas. It may be part of the electrical network, a land area where special restrictions apply, weather areas, etc. For weather, it is an area where a set of relatively homogenous weather measurements apply. |
| cim:Zone.kind - Kind of this zone. |
| cim:ZoneKind |
| cim:ZoneType |
| cim:ZWL |