Glossary

 
 
 
 
 
 
 
 _AssetCatalogue_message_type
 _AssetContainersAndWorkRelated
 _AssetRelationships
 _DCIMTapChangerModel
 _DCIMTransformerInfo
 _DCIMTransformerModel
 _ElectricalAssets
 _InfAuxiliaryEquipmentInfo
 _InfElectricalInfo
 _InfTransformerInfo
 _LinearAssets
 _MeasurementList_message_type
 _please_use_valid_date_format
 _please_use_valid_report_name
 _TransformerObservationsBushing
 _TypeAssetCatalogue_message_type
 A
 a
 A2
 A2h
 A2s
 A_AccumulatorLimit_AccumulatorLimitSet  -  The set of limits.The limit values used for supervision of Measurements.
 A_AccumulatorLimitSet_Accumulator  -  The Measurements using the LimitSet.A measurement may have zero or more limit ranges defined for it.
 A_AccumulatorValue_Accumulator  -  Measurement to which this value is connected.The values connected to this measurement.
 A_AccumulatorValue_AccumulatorReset  -  The command that reset the accumulator value.The accumulator value that is reset by the command.
 A_ACDCConverter_ACDCConverterDCTerminal  -  
 A_ACDCTerminal_BusNameMarker  -  The bus name marker used to name the bus (topological node).The terminals associated with this bus name marker.
 A_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.
 A_ACDCTerminal_OperationalLimitSet  -  
 A_AceTariffType_Point  -  
 A_ACLineSegment_ACLineSegmentPhase  -  The line segment phases which belong to the line segment.The line segment to which the phase belongs.
 A_ACLineSegment_Cut  -  Cuts applied to the line segment.The line segment to which the cut is applied.
 A_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.
 A_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.
 A_ACLineSegment_LineFault  -  The line faults of the line segment.The line segment of this line fault.
 A_ACLineSegment_PerLengthImpedance  -  Per-length impedance of this line segment.All line segments described by this per-length impedance.
 A_ACLineSegment_WireSpacing  -  Wire spacing configuration for this line segment.All line segments described with this wire spacing configuration.
 A_ActivityRecord_Author  -  Author of this activity record.All activity records with this author.
 A_AdjacentCASet_HostControlArea  -  
 A_AdjacentCASet_RegisteredResource  -  
 A_AdjacentCASet_RTO  -  
 A_AggregatedPnode_MktCombinedCyclePlant  -  
 A_AggregatedPnode_MPMTestThreshold  -  
 A_AggregatedPnode_TradingHubValues  -  
 A_AggregateNode_AreaLoadCurve  -  
 A_AggregateNode_RegisteredResource  -  
 A_AggregateNode_RTO  -  
 A_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.
 A_AirCompressor_CombustionTurbine  -  A CAES air compressor is driven by combustion turbine.A CAES air compressor is driven by combustion turbine.
 A_AllocationResultValues_AllocationResult  -  
 A_AllocationResultValues_RegisteredResource  -  
 A_AlternateModelGroup_AlternateModel  -  An alternate model that can be one possiblity among alternates.The group of alternate models for which one alternate is used.
 A_AnalogControl_AnalogValue  -  The MeasurementValue that is controlled.The Control variable associated with the MeasurementValue.
 A_AnalogLimit_AnalogLimitSet  -  The set of limits.The limit values used for supervision of Measurements.
 A_AnalogLimitSet_Analog  -  The Measurements using the LimitSet.A measurement may have zero or more limit ranges defined for it.
 A_AnalogValue_AltGeneratingUnitMeas  -  The alternate generating unit for which this measurement value applies.The specific analog value used as a source.
 A_AnalogValue_AltTieMeas  -  The usage of the measurement within the control area specification.The specific analog value used as a source.
 A_AnalogValue_Analog  -  Measurement to which this value is connected.The values connected to this measurement.
 A_Appointment_PersonRole  -  All persons for this appointment.All appointments for this person.
 A_AreaLoadCurve_TACArea  -  
 A_Asset_ErpItemMaster  -  
 A_Asset_FinancialInfo  -  
 A_Asset_Medium  -  
 A_Asset_OperationalTag  -  All operational tags placed on this asset.Asset on which this tag has been placed.
 A_Asset_Ownership  -  All ownerships of this asset.Asset that is object of this ownership.
 A_Asset_Procedure  -  All procedures applicable to this asset.All assets to which this procedure applies.
 A_Asset_ReliabilityInfo  -  
 A_Asset_ScheduledEvent  -  
 A_Asset_WorkTask  -  All work tasks on replacement of this old asset.Old asset replaced by this work task.
 A_AssetContainer_Asset  -  All assets within this container asset.Container of this asset.
 A_AssetContainer_LandProperty  -  
 A_AssetInfo_Asset  -  All assets described by this data.Data applicable to this asset.
 A_AssetInfo_AssetModel  -  Asset model described by this data.Data applicable to this asset model.
 A_AssetModel_ErpInventoryCount  -  
 A_AssetModelCatalogue_AssetModelCatalogueItem  -  
 A_AssetModelCatalogueItem_ProductAssetModel  -  
 A_AssetOrganisationRole_Asset  -  All assets for this organisation role.All roles an organisation plays for this asset.
 A_AssetOwner_Ownership  -  All ownerships of this owner.Asset owner that is subject in this ownership.
 A_AssetPropertyCurve_Asset  -  
 A_AssetPropertyCurve_Specification  -  
 A_Assignment_OldCrew  -  All Crews having this Assignment.All Assignments for this Crew.
 A_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.
 A_AsynchronousMachineDynamics_MechanicalLoadDynamics  -  Mechanical load model associated with this asynchronous machine model.Asynchronous machine model with which this mechanical load model is associated.
 A_AsynchronousMachineDynamics_TurbineGovernorDynamics  -  Turbine-governor model associated with this asynchronous machine model.Asynchronous machine model with which this turbine-governor model is associated.
 A_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.
 A_AsynchronousMachineUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_AttributeInstanceComponent_MarketDocument  -  
 A_AuxiliaryAccount_AuxiliaryAgreement  -  Auxiliary agreement regulating this account.All auxiliary accounts regulated by this agreement.
 A_AuxiliaryAgreement_CustomerAgreement  -  Customer agreement this (non-service related) auxiliary agreement refers to.All (non-service related) auxiliary agreements that refer to this customer agreement.
 A_AuxiliaryValues_AuxiliaryCost  -  
 A_AuxiliaryValues_FiveMinAuxiliaryData  -  
 A_AuxiliaryValues_TenMinAuxiliaryData  -  
 A_Bank_BankAccount  -  All BankAccounts this Bank provides.Bank that provides this BankAccount.
 A_BankAccount_ServiceSupplier  -  ServiceSupplier that is owner of this BankAccount.All BackAccounts this ServiceSupplier owns.
 A_BaseReading_ReadingQuality  -  All qualities of this reading.Reading value to which this quality applies.
 A_BaseVoltage_TopologicalNode  -  The topological nodes at the base voltage.The base voltage of the topologocial node.
 A_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.
 A_BaseVoltage_VoltageLevel  -  The voltage levels having this base voltage.The base voltage used for all equipment within the voltage level.
 A_Bay_VoltageLevel  -  The voltage level containing this bay.The bays within this voltage level.
 A_Bid_ActionRequest  -  
 A_Bid_BidHourlySchedule  -  
 A_Bid_MitigatedBid  -  
 A_Bid_ProductBid  -  A bid comprises one or more product bids of market productsA bid comprises one or more product bids of market products
 A_Bid_RMRDetermination  -  
 A_BidDistributionFactor_ProductBid  -  
 A_BidError_MarketProduct  -  
 A_BidError_ResourceBid  -  
 A_BidPriceCap_MarketProduct  -  
 A_BidPriceSchedule_BidPriceCurve  -  
 A_BidPriceSchedule_ProductBid  -  
 A_BidSelfSched_AdjacentCASet  -  
 A_BidSelfSched_ContractRight  -  
 A_BidSelfSched_HostControlArea  -  
 A_BidSelfSched_ProductBid  -  
 A_BidSelfSched_SubControlArea  -  
 A_BidSet_GeneratingBid  -  
 A_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.
 A_BillDeterminant_ChargeProfile  -  
 A_BranchGroup_BranchGroupTerminal  -  The directed branch group terminals to be summed.The branch group to which the directed branch group terminals belong.
 A_BranchGroup_PinBranchGroup  -  
 A_BushingInsulationPF_Bushing  -  
 A_CashierShift_Cashier  -  Cashier operating this shift.All shifts operated by this cashier.
 A_Channel_ReadingType  -  Reading type for register values reported/collected by this channel.Channel reporting/collecting register values with this type information.
 A_Channel_Register  -  Register whose values are collected/reported by this channel.All channels that collect/report values from this register.
 A_Charge_AuxiliaryAccount  -  All auxiliary accounts to which this charge has to be levied.All charges levied on this account.
 A_Charge_Charge  -  Parent of this charge sub-component.All sub-components of this complex charge.
 A_Charge_ConsumptionTariffInterval  -  Tariff intervals to which this consumption-based charge has to be levied.All charges used to define this consumption tariff interval.
 A_Charge_TimeTariffInterval  -  Tariff intervals to which this time-based charge has to be levied.All charges used to define this time tariff interval.
 A_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
 A_ChargeGroup_ChargeGroup  -  A ChargeGroup instance can have relationships with other ChargeGroup instances.A ChargeGroup instance can have relationships with other ChargeGroup instances.
 A_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.
 A_ChargeProfile_Bid  -  
 A_ChargeProfileData_BillDeterminant  -  
 A_ChargeProfileData_ChargeProfile  -  
 A_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.
 A_Clamp_ACLineSegment  -  The line segment to which the clamp is connected.The clamps connected to the line segment.
 A_ClearanceAction_SwitchingStepGroup  -  Group to which this step belongs.All clearance action steps in this group.
 A_ClearanceDocument_ClearanceAction  -  Clearance action associated with this clearance.Clearance associated with this clearance action.
 A_CnodeDistributionFactor_AggregateNode  -  
 A_CnodeDistributionFactor_HostControlArea  -  
 A_CogenerationPlant_SteamSendoutSchedule  -  A cogeneration plant has a steam sendout schedule.A cogeneration plant has a steam sendout schedule.
 A_CombinedCycleConfiguration_CombinedCycleLogicalConfiguration  -  
 A_CombinedCycleConfigurationMember_CombinedCycleConfiguration  -  
 A_CombinedCycleTransitionState_CombinedCycleConfiguration  -  
 A_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.
 A_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.
 A_ComFunction_ComModule  -  Module performing this communication function.All functions this communication module performs.
 A_Command_DiscreteValue  -  The MeasurementValue that is controlled.The Control variable associated with the MeasurementValue.
 A_Commitments_CommitmentClearing  -  
 A_Commitments_RegisteredResource  -  
 A_CompatibleUnit_CostType  -  
 A_CompatibleUnit_CUAllowableAction  -  
 A_CompatibleUnit_CUContractorItem  -  
 A_CompatibleUnit_CULaborItem  -  
 A_CompatibleUnit_CUMaterialItem  -  
 A_CompatibleUnit_CUWorkEquipmentItem  -  
 A_CompatibleUnit_PropertyUnit  -  
 A_ConditionFactor_Design  -  
 A_ConditionFactor_DesignLocation  -  
 A_ConditionFactor_DesignLocationCU  -  
 A_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.
 A_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.
 A_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.
 A_ConductingEquipment_ProtectionEquipment  -  Protection equipment used to protect specific conducting equipment. Protection equipment may be used to protect specific conducting equipment.
 A_ConductingEquipment_SvStatus  -  The status state variable associated with this conducting equipment.The conducting equipment associated with the status state variable.
 A_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.
 A_ConfigurationEvent_Asset  -  Asset whose change resulted in this configuration event.All configuration events created for this asset.
 A_ConfigurationEvent_Document  -  Document whose change resulted in this configuration event.All configuration events created for this document.
 A_ConfigurationEvent_Location  -  Location whose change resulted in this configuration event.All configuration events created for this location.
 A_ConfigurationEvent_OrganisationRole  -  Organisation role whose change resulted in this configuration event.All configuration events created for this organisation role.
 A_ConfigurationEvent_PersonRole  -  Person role whose change resulted in this configuration event.All configuration events created for this person role.
 A_ConfigurationEvent_ServiceCategory  -  Service category whose change resulted in this configuration event.All configuration events created for this service category.
 A_ConfigurationEvent_UsagePoint  -  Usage point whose change resulted in this configuration event.All configuration events created for this usage point.
 A_ConformLoad_ConformLoadGroup  -  Group of this ConformLoad.Conform loads assigned to this ConformLoadGroup.
 A_ConformLoadSchedule_ConformLoadGroup  -  The ConformLoadGroup where the ConformLoadSchedule belongs.The ConformLoadSchedules in the ConformLoadGroup.
 A_ConnectivityNode_Terminal  -  Terminals interconnected with zero impedance at a this connectivity node. The connectivity node to which this terminal connects with zero impedance.
 A_ConnectivityNodeContainer_ConnectivityNode  -  Connectivity nodes which belong to this connectivity node container.Container of this connectivity node.
 A_ConnectivityNodeContainer_TopologicalNode  -  The topological nodes which belong to this connectivity node container.The connectivity node container to which the toplogical node belongs.
 A_ConstraintResults_ConstraintClearing  -  
 A_ConstraintResults_Flowgate  -  
 A_ConstraintTerm_SecurityConstraintSum  -  
 A_ConsumptionTariffInterval_TariffProfile  -  All tariff profiles defined by this consumption tariff interval.All consumption tariff intervals used to define this tariff profile.
 A_Contingency_ContingencyElement  -  A contingency can have any number of contingency elements.A contingency element belongs to one contingency.
 A_ContractDistributionFactor_ContractRight  -  
 A_ContractDistributionFactor_Flowgate  -  
 A_ContractDistributionFactor_RegisteredResource  -  
 A_ContractorItem_OldWorkTask  -  
 A_ContractorItem_WorkCostDetail  -  
 A_ContractRight_RTO  -  
 A_ContractRight_SchedulingCoordinator  -  
 A_ContractRight_TransmissionInterfaceRightEntitlement  -  
 A_ContractRight_TransmissionRightChain  -  
 A_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.
 A_Control_RemoteControl  -  The remote point controlling the physical actuator.The Control for the RemoteControl point.
 A_ControlArea_ControlAreaGeneratingUnit  -  The generating unit specificaitons for the control area.The parent control area for the generating unit specifications.
 A_ControlArea_TieFlow  -  The tie flows associated with the control area.The control area of the tie flows.
 A_ControlAreaGeneratingUnit_AltGeneratingUnitMeas  -  The link to prioritized measurements for this GeneratingUnit.The control aread generating unit to which the prioritized measurement assignment is applied.
 A_ControlAreaOperator_HostControlArea  -  A ControlAreaCompany controls a ControlArea.A ControlAreaCompany controls a ControlArea.
 A_CoordinateSystem_Location  -  All locations described with position points in this coordinate system.Coordinate system used to describe position points of this location.
 A_CostType_CostType  -  
 A_Craft_Capability  -  
 A_Craft_Skill  -  
 A_Crew_WorkAsset  -  All work assets used by this crew.Crew using this work asset.
 A_Crew_WorkTask  -  All work tasks this crew participates in.All crews participating in this work task.
 A_CrewMember_Crew  -  Crew to which this crew member belongs.All members of this crew.
 A_CrewMember_SwitchingStep  -  All switching steps this crew member is responsible for.Crew member responsible for this switching step.
 A_CrewType_Crew  -  All crews of this type.Type of this crew.
 A_CRR_CRROrgRole  -  
 A_CRRMarket_CRR  -  
 A_CRROrgRole_MktOrganisation  -  
 A_CRRSegment_CRR  -  
 A_CRRSegment_Pnode  -  
 A_CUGroup_CompatibleUnit  -  
 A_CUGroup_CUGroup  -  
 A_CUGroup_DesignLocationCU  -  
 A_CULaborCode_CULaborItem  -  
 A_CUMaterialItem_PropertyUnit  -  
 A_Curve_CurveData  -  The point data values that define this curve.The curve of this curve data point.
 A_Customer_CustomerNotification  -  All notifications required by this customer.Customer requiring this notification.
 A_Customer_TroubleTicket  -  All trouble tickets for this customer.Customer for whom this trouble ticket is relevant.
 A_CustomerAccount_Customer  -  Customer owning this account.All accounts of this customer.
 A_CustomerAccount_CustomerBillingInfo  -  
 A_CustomerAgreement_Customer  -  Customer for this agreement.All agreements of this customer.
 A_CustomerAgreement_CustomerAccount  -  Customer account owning this agreement.All agreements for this customer account.
 A_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.
 A_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.
 A_CustomerAgreement_ServiceSupplier  -  Service supplier for this customer agreement.All customer agreements of this service supplier.
 A_CustomerNotification_Incident  -  Incident as a subject of this customer notification.All notifications for a customer related to the status change of this incident.
 A_Cut_CutAction  -  Action taken with this cut.Cut on which this action is taken.
 A_CutAction_SwitchingStepGroup  -  Group to which this step belongs.All cut action steps in this group.
 A_Dataset_AlternateModel  -  The alternate model using the data.The data belonging to the alternate model.
 A_Dataset_CIMDataObject  -  Data objects contained in the dataset.Dataset containing the data objects.
 A_Dataset_DatasetArg  -  The role of a dataset in the context of an operation.Dataset referenced by this argument of a model operation..
 A_Dataset_ModelPartVersion  -  Model part version corresponding to the dataset.Dataset of the model part version.
 A_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.
 A_DateAndOrTime_TimeSeries  -  
 A_DCBaseTerminal_DCNode  -  
 A_DCConductingEquipment_ProtectiveActionAdjustment  -  
 A_DCEquipmentContainer_DCNode  -  The DC nodes contained in the DC equipment container.The DC container for the DC nodes.
 A_DCLineSegment_PerLengthDCLineParameter  -  Set of per-length parameters for this line segment.All line segments described by this set of per-length parameters.
 A_DCTerminal_DCConductingEquipment  -  
 A_DCTopologicalIsland_DCTopologicalNode  -  
 A_DCTopologicalNode_DCBaseTerminal  -  See association end TopologicalNode.Terminal.See association end Terminal.TopologicalNode.
 A_DCTopologicalNode_DCEquipmentContainer  -  
 A_DCTopologicalNode_DCNode  -  See association end TopologicalNode.ConnectivityNodes.See association end ConnectivityNode.TopologicalNode.
 A_DefaultBidCurve_DefaultBid  -  
 A_Design_DesignLocation  -  
 A_Design_DesignLocationCU  -  
 A_Design_ErpQuoteLineItem  -  
 A_DesignLocation_ErpBomItemData  -  
 A_DesignLocationCU_CompatibleUnit  -  
 A_DesignLocationCU_DesignLocation  -  
 A_Diagram_DiagramObject  -  A diagram is made up of multiple diagram objects.A diagram object is part of a diagram.
 A_Diagram_DiagramStyle  -  A Diagram may have a DiagramStyle.A DiagramStyle can be used by many Diagrams.
 A_DiagramObject_IdentifiedObject  -  The domain object to which this diagram object is associated.The diagram objects that are associated with the domain object.
 A_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.
 A_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).
 A_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.
 A_DifferentialModel_PowerSystemProject  -  The project of the details of model changes.The details of model changes for this project.
 A_DiscontinuousExcitationControlUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_Discrete_ValueAliasSet  -  The ValueAliasSet used for translation of a MeasurementValue.value to a name.The Measurements using the set for translation.
 A_DiscreteValue_Discrete  -  Measurement to which this value is connected.The values connected to this measurement.
 A_DispatchInstReply_RegisteredResource  -  
 A_Document_Approver  -  Approver of this document.All documents for this approver.
 A_Document_Author  -  Author of this document.All documents of this this author.
 A_Document_Editor  -  Editor of this document.All documents for this editor.
 A_Document_Issuer  -  Issuer of this document.All documents for this issuer.
 A_Domain_MarketDocument  -  
 A_Domain_TimeSeries  -  
 A_DopInstruction_InstructionClearingDOP  -  
 A_DopInstruction_RegisteredResource  -  
 A_DotInstruction_InstructionClearingDOT  -  
 A_DuctBank_WireSpacing  -  
 A_EndDevice_Customer  -  Customer owning this end device.All end devices of this customer.
 A_EndDevice_EndDeviceControl  -  All end device controls sending commands to this end device.All end devices receiving commands from this end device control.
 A_EndDevice_EndDeviceEvent  -  All events reported by this end device.End device that reported this end device event.
 A_EndDevice_EndDeviceGroup  -  All end device groups referring to this end device.All end devices this end device group refers to.
 A_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.
 A_EndDevice_UsagePoint  -  Usage point to which this end device belongs.All end devices at this usage point.
 A_EndDeviceAction_EndDeviceControl  -  End device control issuing this end device action.End device action issued by this end device control.
 A_EndDeviceControl_EndDeviceGroup  -  All end device groups receiving commands from this end device control.All end device controls sending commands to this end device group.
 A_EndDeviceControlType_EndDeviceControl  -  All end device controls of this type.Type of this end device control.
 A_EndDeviceEvent_MeterReading  -  Set of measured values to which this event applies.All end device events associated with this set of measured values.
 A_EndDeviceEventDetail_EndDeviceEvent  -  End device owning this detail.All details of this end device event.
 A_EndDeviceEventType_EndDeviceEvent  -  All end device events of this type.Type of this end device event.
 A_EndDeviceFunction_EndDevice  -  End device that performs this function.All end device functions this end device performs.
 A_EndDeviceFunction_Register  -  All registers for quantities metered by this end device function.End device function metering quantities displayed by this register.
 A_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.
 A_EndDeviceInfo_EndDevice  -  All end devices described with this data.End device data.
 A_EnergyArea_ControlArea  -  The control area specification that is used for the load forecast.The energy area that is forecast from this control area specification.
 A_EnergyConsumer_LoadDynamics  -  Load dynamics model used to describe dynamic behavior of this energy consumer.Energy consumer to which this dynamics load model applies.
 A_EnergyConsumer_PowerCutZone  -  The energy consumer is assigned to this power cut zone.Energy consumer is assigned to the power cut zone.
 A_EnergyConsumerPhase_EnergyConsumer  -  The energy consumer to which this phase belongs.The individual phase models for this energy consumer.
 A_EnergyMarket_Bid  -  
 A_EnergyPriceCurve_EnergyTransaction  -  
 A_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.
 A_EnergySchedulingType_EnergySource  -  Energy Source of a particular Energy Scheduling TypeEnergy Scheduling Type of an Energy Source
 A_EnergySource_EnergySourceAction  -  Action taken with this energy source.Energy source on which this action is taken.
 A_EnergySource_EnergySourcePhase  -  The individual phase information of the energy source.The energy sourceto which the phase belongs.
 A_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.
 A_EnergySourceAction_SwitchingStepGroup  -  Group to which this step belongs.All energy source action steps in this group.
 A_EnergyTransaction_CurtailmentProfile  -  An EnergyTransaction may be curtailed by any of the participating entities.An EnergyTransaction may be curtailed by any of the participating entities.
 A_EnergyTransaction_EnergyProfile  -  An EnergyTransaction shall have at least one EnergyProfile.An EnergyTransaction shall have at least one EnergyProfile.
 A_EnergyTransaction_LossProfile  -  An EnergyTransaction may have a LossProfile.An EnergyTransaction may have a LossProfile.
 A_EnergyTransaction_SubControlArea  -  Energy is transferred between interchange areasEnergy is transferred between interchange areas
 A_EnergyTransaction_TransmissionReservation  -  
 A_Equipment_ContingencyEquipment  -  The contingency equipments in which this equipment participates.The single piece of equipment to which to apply the contingency.
 A_Equipment_EquipmentContainer  -  Container of this equipment.Contained equipment.
 A_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.
 A_Equipment_Fault  -  All faults on this equipment.Equipment carrying this fault.
 A_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.
 A_Equipment_OperationalLimitSet  -  The operational limit sets associated with this equipment.The equipment to which the limit set applies.
 A_Equipment_OperationalRestriction  -  All operational restrictions for this equipment.All equipments to which this restriction applies.
 A_Equipment_Outage  -  All outages in which this equipment is involved.All equipments associated with this outage.
 A_Equipment_PinEquipment  -  
 A_Equipment_ProtectiveActionEquipment  -  
 A_Equipment_UsagePoint  -  All usage points connected to the electrical grid through this equipment.All equipment connecting this usage point to the electrical grid.
 A_EquivalentInjection_ReactiveCapabilityCurve  -  The reactive capability curve used by this equivalent injection.The equivalent injection using this reactive capability curve.
 A_EquivalentNetwork_EquivalentEquipment  -  The associated reduced equivalents.The equivalent where the reduced model belongs.
 A_ErpBOM_Design  -  
 A_ErpBOM_ErpBomItemData  -  
 A_ErpBomItemData_GenericAssetModel  -  
 A_ErpCompetency_OldPerson  -  
 A_ErpInventory_Asset  -  
 A_ErpInvoice_CustomerAccount  -  
 A_ErpInvoice_ErpInvoiceLineItem  -  
 A_ErpInvoiceLineItem_CustomerBillingInfo  -  Customer billing for services rendered.
 A_ErpInvoiceLineItem_ErpInvoiceLineItem  -  
 A_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.
 A_ErpInvoiceLineItem_ErpRecDelvLineItem  -  
 A_ErpInvoiceLineItem_WorkBillingInfo  -  
 A_ErpJournalEntry_CostType  -  
 A_ErpJournalEntry_ErpInvoiceLineItem  -  
 A_ErpJournalEntry_ErpJournal  -  
 A_ErpJournalEntry_ErpLedgerEntry  -  
 A_ErpJournalEntry_ErpPayableLineItem  -  
 A_ErpJournalEntry_ErpRecLineItem  -  
 A_ErpLedBudLineItem_ErpLedgerEntry  -  
 A_ErpLedgerBudget_ErpLedBudLineItem  -  
 A_ErpLedgerEntry_ErpLedger  -  
 A_ErpPayable_ContractorItem  -  
 A_ErpPayable_ErpPayableLineItem  -  
 A_ErpPayableLineItem_ErpInvoiceLineItem  -  
 A_ErpPayment_ErpInvoiceLineItem  -  
 A_ErpPayment_ErpPayableLineItem  -  
 A_ErpPayment_ErpRecLineItem  -  
 A_ErpPersonnel_OldPerson  -  
 A_ErpPOLineItem_AssetModelCatalogueItem  -  
 A_ErpPOLineItem_ErpRecDelvLineItem  -  
 A_ErpPOLineItem_ErpReqLineItem  -  
 A_ErpProjectAccounting_ErpTimeEntry  -  
 A_ErpProjectAccounting_Work  -  
 A_ErpProjectAccounting_WorkCostDetail  -  
 A_ErpPurchaseOrder_ErpPOLineItem  -  
 A_ErpQuote_ErpQuoteLineItem  -  
 A_ErpQuoteLineItem_AssetModelCatalogueItem  -  
 A_ErpRecDelvLineItem_Asset  -  
 A_ErpReceivable_ErpRecLineItem  -  
 A_ErpReceiveDelivery_ErpRecDelvLineItem  -  
 A_ErpRecLineItem_ErpInvoiceLineItem  -  
 A_ErpReqLineItem_ErpQuoteLineItem  -  
 A_ErpReqLineItem_GenericAssetModel  -  
 A_ErpReqLineItem_TypeMaterial  -  
 A_ErpRequisition_ErpReqLineItem  -  
 A_ErpSiteLevelData_LandProperty  -  
 A_ErpTimeEntry_ErpTimeSheet  -  
 A_ExcitationSystemDynamics_DiscontinuousExcitationControlDynamics  -  Discontinuous excitation control model associated with this excitation system model.Excitation system model with which this discontinuous excitation control model is associated.
 A_ExcitationSystemDynamics_OverexcitationLimiterDynamics  -  Overexcitation limiter model associated with this excitation system model.Excitation system model with which this overexcitation limiter model is associated.
 A_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.
 A_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.
 A_ExcitationSystemDynamics_PowerSystemStabilizerDynamics  -  Power system stabilizer model associated with this excitation system model.Excitation system model with which this power system stabilizer model is associated.
 A_ExcitationSystemDynamics_UnderexcitationLimiterDynamics  -  Undrexcitation limiter model associated with this excitation system model.Excitation system model with which this underexcitation limiter model is associated.
 A_ExcitationSystemDynamics_VoltageCompensatorDynamics  -  Voltage compensator model associated with this excitation system model.Excitation system model with which this voltage compensator is associated.
 A_ExcitationSystemUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_ExpectedEnergyValues_ExpectedEnergy  -  
 A_ExpectedEnergyValues_RegisteredResource  -  
 A_ExPostLoss_ExPostLossResults  -  
 A_ExPostMarketRegion_ExPostMarketRegionResults  -  
 A_ExPostPricing_ExPostPricingResults  -  
 A_ExPostPricingResults_Pnode  -  
 A_ExPostResource_ExPostResourceResults  -  
 A_Fault_Outage  -  Outage associated with this fault.All faults involved in this outage.
 A_FaultCauseType_Fault  -  All faults with this cause type.All types of fault cause.
 A_FlowDirection_TimeSeries  -  
 A_Flowgate_CRR  -  
 A_Flowgate_GeneratingUnitDynamicValues  -  
 A_Flowgate_GenericConstraints  -  
 A_Flowgate_HostControlArea  -  
 A_Flowgate_MktTerminal  -  
 A_Flowgate_ViolationLimit  -  
 A_FlowgateRelief_Flowgate  -  
 A_FlowgateValue_Flowgate  -  
 A_FlowgateValue_FlowgatePartner  -  
 A_ForbiddenRegion_RegisteredResource  -  
 A_FormerReference_RegisteredResource  -  
 A_Frame_Boundary  -  
 A_FrameworkPart_Frame  -  
 A_FrameworkPart_ModelSpecification  -  Models of the model frame.Model frame of the model part.
 A_FTR_EnergyPriceCurve  -  
 A_FTR_Flowgate  -  
 A_FuelAllocationSchedule_FossilFuel  -  A fuel allocation schedule must have a fossil fuel.A fuel allocation schedule must have a fossil fuel.
 A_FuelRegion_GasPrice  -  
 A_FuelRegion_OilPrice  -  
 A_FuelRegion_RTO  -  
 A_Gate_GateInputPin  -  
 A_Gate_ProtectiveAction  -  
 A_Gate_StageTrigger  -  
 A_Gate_TriggerCondition  -  
 A_GenDistributionFactor_AggregatedPnode  -  
 A_GenDistributionFactor_DistributionFactorSet  -  
 A_GenDistributionFactor_IndividualPnode  -  
 A_GeneralClearingResults_GeneralClearing  -  
 A_GeneralClearingResults_SubControlArea  -  
 A_GeneratingBid_RegisteredGenerator  -  
 A_GeneratingBid_StartUpCostCurve  -  
 A_GeneratingBid_StartUpTimeCurve  -  
 A_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.
 A_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.
 A_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.
 A_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.
 A_GenerationProvider_EnergyProduct  -  
 A_GenericAction_SwitchingStepGroup  -  Group to which this step belongs.All generic action steps in this group.
 A_GenericAssetModel_CompatibleUnit  -  
 A_GenericAssetModel_ErpIssueInventory  -  
 A_Ground_GroundAction  -  Action taken with this ground.Ground on which this action is taken.
 A_GroundAction_SwitchingStepGroup  -  Group to which this step belongs.All ground action steps in this group.
 A_HostControlArea_RTO  -  
 A_HydroGeneratingUnit_HydroGeneratingEfficiencyCurve  -  A hydro generating unit has an efficiency curve.A hydro generating unit has an efficiency curve.
 A_HydroGeneratingUnit_HydroPowerPlant  -  The hydro generating unit belongs to a hydro power plant.The hydro generating unit belongs to a hydro power plant.
 A_HydroGeneratingUnit_PenstockLossCurve  -  A hydro generating unit has a penstock loss curve.A hydro generating unit has a penstock loss curve.
 A_HydroGeneratingUnit_TailbayLossCurve  -  A hydro generating unit has a tailbay loss curve.A hydro generating unit has a tailbay loss curve.
 A_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.
 A_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.
 A_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.
 A_ICCPCommandPoint_Command  -  
 A_ICCPIndicationPoint_ICCPControlPoint  -  
 A_ICCPIndicationPoint_MeasurementValue  -  
 A_ICCPSetPoint_AnalogControl  -  
 A_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.
 A_IdentifiedObject_Name  -  All names of this identified object.Identified object that this name designates.
 A_Incident_TroubleTicket  -  All trouble tickets reporting this incident.Incident reported in this trouble ticket
 A_IncidentHazard_Incident  -  Incident associated with this hazard.All hazards associated with this incident.
 A_IncidentHazard_TroubleTicket  -  Trouble ticket associated with this hazard.All hazards reported with this trouble ticket.
 A_IncrementalDataset_IncrementalCIMDataObject  -  
 A_IncrementalDataset_IncrementalDatasetArg  -  
 A_IncrementalDatasetArgDescription_IncrementalDatasetArg  -  The incremental dataset used for this argument instance.
 A_IndividualPnode_CongestionArea  -  
 A_InspectionDataSet_ScheduledEventData  -  
 A_InstructionClearing_Instructions  -  
 A_InterchangeETCData_InterchangeSchedule  -  
 A_IntermittentResourceEligibility_RegisteredResource  -  
 A_InternalControlArea_CurrentEmergencyScheduledInterchange  -  
 A_InternalControlArea_CurrentScheduledInterchange  -  
 A_InterTieDispatchResponse_RegisteredInterTie  -  
 A_InterTieResults_Flowgate  -  
 A_InterTieResults_InterTieClearing  -  
 A_IntervalReading_IntervalBlock  -  All blocks containing this interval reading.Interval reading contained in this block.
 A_IrregularTimePoint_IrregularIntervalSchedule  -  An IrregularTimePoint belongs to an IrregularIntervalSchedule.The point data values that define a curve.
 A_Jumper_JumperAction  -  Action taken with this jumper.Jumper on which this action is taken.
 A_JumperAction_SwitchingStepGroup  -  Group to which this step belongs.All jumper action steps in this group.
 A_LaborItem_OldPerson  -  
 A_LaborItem_OldWorkTask  -  
 A_LandProperty_RightOfWay  -  All rights of way this land property has.All land properties this right of way applies to.
 A_Limit_Procedure  -  
 A_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.
 A_Line_SubGeographicalRegion  -  The sub-geographical region of the line.The lines within the sub-geographical region.
 A_LoadAggregate_LoadMotor  -  Aggregate motor (dynamic) load associated with this aggregate load.Aggregate load to which this aggregate motor (dynamic) load belongs.
 A_LoadAggregate_LoadStatic  -  Aggregate static load associated with this aggregate load.Aggregate load to which this aggregate static load belongs.
 A_LoadBid_AreaLoadBid  -  
 A_LoadBid_RegisteredLoad  -  
 A_LoadDistributionFactor_AggregatedPnode  -  
 A_LoadDistributionFactor_DistributionFactorSet  -  
 A_LoadDistributionFactor_IndividualPnode  -  
 A_LoadFollowingInst_RegisteredResource  -  
 A_LoadGroup_SubLoadArea  -  The SubLoadArea where the Loadgroup belongs.The Loadgroups in the SubLoadArea.
 A_LoadReductionPriceCurve_LoadBid  -  
 A_LoadReductionPriceCurve_RegisteredLoad  -  
 A_LoadReductionTimeCurve_RegisteredLoad  -  
 A_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.
 A_LoadUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_LocalReliabilityArea_RTO  -  
 A_Location_Asset  -  All assets at this location.Location of this asset.
 A_Location_AssetLocationHazard  -  All asset hazards at this location.The location of this hazard.
 A_Location_Incident  -  Incident at this location.Location of this incident.
 A_Location_LandProperty  -  The spatail description of a piece of property.
 A_Location_OldCrew  -  
 A_Location_Route  -  
 A_LocationGrant_LandProperty  -  Land property this location grant applies to.All location grants this land property has.
 A_LossClearingResults_HostControlArea  -  
 A_LossClearingResults_LossClearing  -  
 A_LossClearingResults_RUCZone  -  
 A_MajorChargeGroup_MarketInvoice  -  
 A_Manufacturer_ProductAssetModel  -  All asset models by this manufacturer.Manufacturer of this asset model.
 A_Market_MarketFactors  -  
 A_Market_MarketProduct  -  
 A_Market_MarketRun  -  
 A_MarketCaseClearing_AncillaryServiceClearing  -  
 A_MarketDocument_AceTariffType  -  
 A_MarketDocument_MarketDocument  -  
 A_MarketDocument_MarketParticipant  -  
 A_MarketDocument_Process  -  
 A_MarketDocument_Reason  -  
 A_MarketDocument_TimeSeries  -  
 A_Marketer_EnergyProduct  -  A Marketer may resell an EnergyProduct.A Marketer may resell an EnergyProduct.
 A_MarketEvaluationPoint_TimeSeries  -  
 A_MarketInvoice_MarketInvoiceLineItem  -  
 A_MarketInvoiceLineItem_MarketInvoiceLineItem  -  
 A_MarketLedgerEntry_MarketLedger  -  
 A_MarketParticipant_Bid  -  
 A_MarketParticipant_MarketRole  -  
 A_MarketParticipant_TimeSeries  -  
 A_MarketPerson_MktOrganisation  -  
 A_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.
 A_MarketQualificationRequirement_MarketSkill  -  
 A_MarketRegion_ExPostMarketRegionResults  -  
 A_MarketRegionResults_AncillaryServiceClearing  -  
 A_MarketRegionResults_MarketProduct  -  
 A_MarketRegionResults_MarketRegion  -  
 A_MarketResults_EnergyMarket  -  
 A_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.
 A_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.
 A_MarketScheduledEvent_MajorChargeGroup  -  
 A_MarketSkill_MarketPerson  -  
 A_MarketStatement_MarketStatementLineItem  -  
 A_MarketStatementLineItem_MarketStatementLineItem  -  
 A_MarketStatementLineItem_PassThroughBill  -  
 A_MaterialItem_TypeMaterial  -  
 A_MaterialItem_WorkTask  -  
 A_Measure_Asset  -  
 A_Measure_Location  -  
 A_Measure_MeasurementCalculatorInput  -  
 A_Measure_PinMeasurement  -  
 A_Measure_PowerSystemResource  -  The power system resource that contains the measurement.The measurements associated with this power system resource.
 A_Measure_Procedure  -  Measurements are specified in types of documents, such as procedures.Document containing this measurement.
 A_MeasurementCalculator_MeasurementCalculatorInput  -  
 A_MeasurementValue_MeasurementValueQuality  -  A MeasurementValue has a MeasurementValueQuality associated with it.A MeasurementValue has a MeasurementValueQuality associated with it.
 A_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.
 A_MeasurementValue_OldPerson  -  
 A_MeasurementValue_ProcedureDataSet  -  
 A_MechanicalLoadUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_Medium_Specification  -  
 A_MerchantAccount_MerchantAgreement  -  Merchant agreement that instantiated this merchant account.All merchant accounts instantiated as a result of this merchant agreement.
 A_Meter_MeterWorkTask  -  All work tasks on replacement of this old meter.Old meter replaced by this work task.
 A_Meter_Transaction  -  All vending transactions on this meter.Meter for this vending transaction.
 A_MeteredSubSystem_MSSAggregation  -  
 A_MeterMultiplier_Meter  -  Meter applying this multiplier.All multipliers applied at this meter.
 A_MeterReading_IntervalBlock  -  All interval blocks contained in this meter reading.Meter reading containing this interval block.
 A_MeterReading_Meter  -  Meter providing this reading.All meter readings provided by this meter.
 A_MeterReading_Reading  -  All reading values contained within this meter reading.All meter readings (sets of values) containing this reading value.
 A_MiscCostItem_DesignLocation  -  
 A_MiscCostItem_OldWorkTask  -  
 A_MitigatedBidClearing_MitigatedBid  -  
 A_MitigatedBidClearing_RMRDetermination  -  
 A_MitigatedBidSegment_Bid  -  
 A_MktACLineSegment_BranchEndFlow  -  
 A_MktActivityRecord_MarketFactors  -  
 A_MktAnalogValue_AnalogMeasurementValueQuality  -  
 A_MktCombinedCyclePlant_CombinedCycleLogicalConfiguration  -  
 A_MktConnectivityNode_CnodeDistributionFactor  -  
 A_MktConnectivityNode_IndividualPnode  -  
 A_MktConnectivityNode_LossSensitivity  -  
 A_MktConnectivityNode_NodeConstraintTerm  -  
 A_MktConnectivityNode_RegisteredResource  -  
 A_MktConnectivityNode_RTO  -  
 A_MktConnectivityNode_SysLoadDistributionFactor  -  
 A_MktContingency_ConstraintResults  -  
 A_MktContingency_ContingencyConstraintLimit  -  
 A_MktContingency_TransferInterfaceSolution  -  
 A_MktControlArea_ControlAreaSolutionData  -  
 A_MktDiscreteValue_DiscreteMeasurementValueQuality  -  
 A_MktEnergyConsumer_EnergyConsumerData  -  
 A_MktEnergyConsumer_RegisteredLoad  -  
 A_MktGeneratingUnit_GeneratingUnitDynamicValues  -  
 A_MktGeneratingUnit_RegisteredGenerator  -  
 A_MktHeatRateCurve_RegisteredGenerator  -  
 A_MktHeatRateCurve_ResourceVerifiableCosts  -  
 A_MktLine_Flowgate  -  
 A_MktLoadArea_AreaLoadCurve  -  
 A_MktLoadArea_RegisteredLoad  -  
 A_MktMeasurement_DynamicSchedule  -  
 A_MktMeasurement_Pnode  -  Allows Pnode an association to aggregated resources external DC ties or psuedo tie measurements.Allows Measurements to be associated to Pnodes.
 A_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
 A_MktMeasurement_ViolationLimit  -  
 A_MktOrganisation_IntSchedAgreement  -  
 A_MktOrganisation_OrgPnodeAllocation  -  
 A_MktOrganisation_OrgResOwnership  -  
 A_MktOrganisation_RegisteredResource  -  
 A_MktOrganisation_SchedulingCoordinator  -  
 A_MktOrganisation_ViolationLimit  -  
 A_MktPowerTransformer_BranchEndFlow  -  
 A_MktPowerTransformer_Flowgate  -  
 A_MktSeriesCompensator_BranchEndFlow  -  
 A_MktShuntCompensator_ShuntCompensatorDynamicData  -  
 A_MktSwitch_SwitchStatus  -  
 A_MktTapChanger_TapChangerDynamicData  -  
 A_MktTerminal_TerminalConstraintTerm  -  
 A_MktThermalGeneratingUnit_CombinedCycleConfigurationMember  -  
 A_MktUserAttribute_AttributeProperty  -  
 A_MktUserAttribute_BillDeterminant  -  
 A_MktUserAttribute_ChargeGroup  -  
 A_MktUserAttribute_ChargeType  -  
 A_MktUserAttribute_MarketStatementLineItem  -  
 A_MktUserAttribute_PassThroughBill  -  
 A_Model_AssemblyManifest  -  
 A_Model_ModelPartVersion  -  Model part versions of the model part.Model part of the model part version.
 A_ModelFrameType_FrameworkPart  -  Model frames of the model frame type.Model frame type of the model frame.
 A_ModelOperation_ModelOperationArg  -  Arguments of the operation.The opeation for the operation argument.
 A_ModelOperation_ModelOperationSequence  -  
 A_ModelOperationDescription_ModelOperation  -  The instances of operations that conform to this operation type.The type of the model operation.
 A_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.
 A_ModelSpecification_AssemblyDescription  -  The assembly description into which model parts should be included.The models that are part of the assembly descrption.
 A_ModelSpecification_Model  -  Modle parts conforming to the model part specification.Model specification of the modelt.
 A_MPMResourceStatus_MitigatedBidClearing  -  
 A_MPMResourceStatus_MPMTestCategory  -  
 A_MPMResourceStatus_RegisteredResource  -  
 A_MPMTestResults_AggregatedPnode  -  
 A_MPMTestResults_MPMClearing  -  
 A_MPMTestResults_MPMTestCategory  -  
 A_MPMTestThreshold_MPMTestCategory  -  
 A_MSSZone_MeteredSubSystem  -  
 A_MWLimitSchedule_ContingencyConstraintLimit  -  
 A_NameType_Name  -  All names of this type.Type of this name.
 A_NameTypeAuthority_NameType  -  All name types managed by this authority.Authority responsible for managing names of this type.
 A_NonConformLoad_NonConformLoadGroup  -  Group of this ConformLoad.Conform loads assigned to this ConformLoadGroup.
 A_NonConformLoadSchedule_NonConformLoadGroup  -  The NonConformLoadGroup where the NonConformLoadSchedule belongs.The NonConformLoadSchedules in the NonConformLoadGroup.
 A_NonlinearShuntCompensator_NonlinearShuntCompensatorPoint  -  All points of the non-linear shunt compensator.Non-linear shunt compensator owning this point.
 A_NonlinearShuntCompensatorPhase_NonlinearShuntCompensatorPhasePoint  -  All points of the non-linear shunt compensator phase.Non-linear shunt compensator phase owning this point.
 A_NotificationTimeCurve_GeneratingBid  -  
 A_OldCrew_Capability  -  
 A_OldPerson_Craft  -  
 A_OldPerson_Customer  -  
 A_OldWorkTask_Capability  -  
 A_OldWorkTask_Design  -  
 A_OldWorkTask_DesignLocationCU  -  
 A_OldWorkTask_WorkCostDetail  -  
 A_OldWorkTask_WorkFlowStep  -  
 A_OneCallRequest_WorkLocation  -  
 A_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.
 A_OperationalLimit_LimitScalingLimit  -  
 A_OperationalLimitSet_OperationalLimit  -  Values of equipment limits.The limit set to which the limit values belong.
 A_OperationalLimitType_OperationalLimit  -  The operational limits associated with this type of limit.The limit type associated with this limit.
 A_OperationalLimitType_OperatonalLimitTypeScaling  -  
 A_OperationalTag_TagAction  -  Tag action associated with this tag.Tag associated with this tag action.
 A_Operator_Incident  -  All incidents owned by this operator.Operator who owns this incident.
 A_Operator_SwitchingStep  -  All switching steps this operator is responsible for.Operator responsible for this switching step.
 A_Organisation_OrganisationRole  -  All roles of this organisation.Organisation having this role.
 A_OrgResOwnership_RegisteredResource  -  
 A_Outage_Incident  -  Incident reported in trouble call that results in this outage.Outage for this incident.
 A_Outage_OperationalUpdatedRating  -  All updated ratings for this planned equipment outage.Planned equipment outage with this updated rating.
 A_Outage_OutageSchedule  -  Outage schedule whose execution will result in this outage.All outages resulting from the execution of this outage schedule.
 A_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.
 A_OverexcitationLimiterUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_OverheadCost_OldWorkTask  -  
 A_PanPricingDetail_PanPricing  -  PAN pricing command/action issuing this price detail.All pricing details issued by this PAN pricing command/action.
 A_PassThroughBill_ChargeProfile  -  
 A_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).
 A_Period_MarketDocument  -  
 A_Period_Point  -  
 A_Period_TimeSeries  -  
 A_PerLengthLineParameter_WireInfo  -  All wire datasheets used to calculate this per-length parameter.All per-length parameters calculated from this wire datasheet.
 A_PerLengthLineParameter_WireSpacing  -  Wire spacing datasheet used to calculate this per-length parameter.All per-length parameters calculated from this wire spacing datasheet.
 A_PersonOrganisationRole_OldPerson  -  
 A_PersonPropertyRole_LandProperty  -  
 A_PersonPropertyRole_OldPerson  -  
 A_PersonRole_Person  -  Person having this role.All roles of this person.
 A_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.
 A_PFVArControllerType1UserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_PFVArControllerType2UserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_PhaseImpedanceData_PerLengthPhaseImpedance  -  Conductor phase impedance to which this data belongs.All data that belong to this conductor phase impedance.
 A_PhaseTapChanger_TransformerEnd  -  Transformer end to which this phase tap changer belongs.Phase tap changer associated with this transformer end.
 A_PhaseTapChangerTable_PhaseTapChangerTablePoint  -  The points of this table.The table of this point.
 A_PhaseTapChangerTabular_PhaseTapChangerTable  -  The phase tap changer table for this phase tap changer.The phase tap changers to which this phase tap table applies.
 A_PinGate_Gate  -  
 A_PinMeasurement_MeasurementCalculator  -  
 A_PlannedMarket_MarketPlan  -  a market plan has a number of markets (DA, HA, RT)a market plan has a number of markets (DA, HA, RT)
 A_PlannedMarketEvent_MarketActualEvent  -  All actual events that execute this planned event.Planned event executed by this actual event.
 A_PlannedMarketEvent_PlannedMarket  -  A planned market shall have a set of planned eventsA planned market shall have a set of planned events
 A_Pnode_AggregateNode  -  
 A_Pnode_FTR  -  
 A_Pnode_OrgPnodeAllocation  -  
 A_Pnode_RTO  -  
 A_PnodeDistributionFactor_AggregatedPnode  -  
 A_PnodeDistributionFactor_BidDistributionFactor  -  
 A_PnodeDistributionFactor_IndividualPnode  -  
 A_PnodeResults_Pnode  -  
 A_PnodeResults_PnodeClearing  -  
 A_Point_Price  -  
 A_Point_Quantity  -  
 A_Point_Reason  -  
 A_PointOfSale_CashierShift  -  All shifts this point of sale operated in.Point of sale that is in operation during this shift.
 A_PositionPoint_Location  -  Location described by this position point.Sequence of position points describing this location, expressed in coordinate system 'Location.CoordinateSystem'.
 A_PowerSystemProject_PowerSystemProject  -  The master project for a competing projects.Competing project. Only one of the projects will be commissioned.
 A_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.
 A_PowerSystemResource_AssetInfo  -  Datasheet information for this power system resource.All power system resources with this datasheet information.
 A_PowerSystemResource_ClearanceDocument  -  All clearances applicable to this power system resource.All power system resources tagged through this clearance.
 A_PowerSystemResource_Location  -  Location of this power system resource.All power system resources at this location.
 A_PowerSystemResource_OperatingShare  -  The operating shares of this power system resource.The power system resource to which the share applies.
 A_PowerSystemResource_OperationalTag  -  All operational tags placed on this power system resource.Power system resource on which this tag has been placed.
 A_PowerSystemResource_PSREvent  -  All events associated with this power system resource.Power system resource that generated this event.
 A_PowerSystemResource_ReportingGroup  -  Reporting groups to which this power system resource belongs.Power system resources which belong to this reporting group.
 A_PowerSystemStabilizerUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_PowerTransformer_TransformerTank  -  All transformers that belong to this bank.Bank this transformer belongs to.
 A_PowerTransformerEnd_PowerTransformer  -  The power transformer of this power transformer end.The ends of this power transformer.
 A_PowerTransformerInfo_TransformerTankInfo  -  Data for all the tanks described by this power transformer data.Power transformer data that this tank description is part of.
 A_PricingStructure_CustomerAgreement  -  All customer agreements with this pricing structure.All pricing structures applicable to this customer agreement.
 A_PricingStructure_ServiceCategory  -  Service category to which this pricing structure applies.All pricing structures applicable to this service category.
 A_Procedure_CompatibleUnit  -  
 A_ProcedureDataSet_Procedure  -  Procedure capturing this data set.All data sets captured by this procedure.
 A_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.
 A_ProductAssetModel_GenericAssetModel  -  Generic asset model or material satisified by this product asset model.All product asset models satisfying this generic asset model.
 A_ProductAssetModel_OperationalRestriction  -  All operational restrictions applying to this asset model.Asset model to which this restriction applies.
 A_ProductBid_BidHourlyProductSchedule  -  
 A_ProductBid_MarketProduct  -  
 A_Profile_ProfileData  -  A profile has profile data associated with it.A profile has profile data associated with it.
 A_Project_BusinessCase  -  
 A_Project_ErpProjectAccounting  -  
 A_Project_Project  -  
 A_Project_Work  -  
 A_PropertyOrganisationRole_LandProperty  -  
 A_PropertyUnit_WorkCostDetail  -  
 A_ProprietaryParameterDynamics_WindPlantUserDefined  -  Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model.
 A_ProprietaryParameterDynamics_WindType1or2UserDefined  -  Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model.
 A_ProprietaryParameterDynamics_WindType3or4UserDefined  -  Proprietary user-defined model with which this parameter is associated.Parameter of this proprietary user-defined model.
 A_ProtectedSwitch_ProtectionEquipment  -  Protection equipments that operate this ProtectedSwitch.Protected switches operated by this ProtectionEquipment.
 A_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.
 A_ProtectiveAction_ProtectionEquipment  -  
 A_ProtectiveAction_ProtectiveActionCollection  -  
 A_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.
 A_ProtectiveActionAdjustment_Measure  -  
 A_PSRType_PowerSystemResource  -  Power system resources classified with this power system resource type.Custom classification for this power system resource.
 A_QualificationRequirement_CULaborItem  -  
 A_QualificationRequirement_OldWorkTask  -  
 A_QualificationRequirement_Skill  -  
 A_RampRateCurve_GeneratingBid  -  
 A_RampRateCurve_InterTieBid  -  
 A_RampRateCurve_LoadBid  -  
 A_RampRateCurve_RegisteredResource  -  
 A_RatioTapChanger_TransformerEnd  -  Transformer end to which this ratio tap changer belongs.Ratio tap changer associated with this transformer end.
 A_RatioTapChangerTable_RatioTapChanger  -  The ratio tap changer of this tap ratio table.The tap ratio table for this ratio tap changer.
 A_RatioTapChangerTable_RatioTapChangerTablePoint  -  Points of this table.Table of this point.
 A_ReadingQualityType_ReadingQuality  -  All reading qualities of this type.Type of this reading quality.
 A_ReadingType_ConsumptionTariffInterval  -  All tariff intervals with consumption described by this reading type.Reading type for 'startValue'.
 A_ReadingType_IntervalBlock  -  All blocks containing interval reading values with this type information.Type information for interval reading values contained in this block.
 A_ReadingType_MetrologyRequirement  -  All metrology requirements that require this reading type to be collected.All reading types required to be collected by this metrology requirement.
 A_ReadingType_PendingCalculation  -  Pending calculation that produced this reading type.Reading type resulting from this pending conversion.
 A_ReadingType_Reading  -  All reading values with this type information.Type information for this reading value.
 A_Reason_Period  -  
 A_Reason_TimeSeries  -  
 A_Receipt_CashierShift  -  Cashier shift during which this receipt was recorded.All Receipts recorded for this Shift.
 A_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.
 A_Receipt_VendorShift  -  Vendor shift during which this receipt was recorded.All receipts recorded during this vendor shift.
 A_Reconditioning_Asset  -  
 A_Reconditioning_CoolingPowerRating  -  
 A_RegisteredGenerator_AuxiliaryObject  -  
 A_RegisteredGenerator_EnergyPriceIndex  -  
 A_RegisteredGenerator_FuelCostCurve  -  
 A_RegisteredGenerator_FuelRegion  -  
 A_RegisteredGenerator_LocalReliabilityArea  -  
 A_RegisteredGenerator_StartUpCostCurve  -  
 A_RegisteredGenerator_UnitInitialConditions  -  
 A_RegisteredInterTie_Flowgate  -  
 A_RegisteredInterTie_InterchangeSchedule  -  
 A_RegisteredInterTie_InterTieBid  -  
 A_RegisteredInterTie_WheelingCounterParty  -  
 A_RegisteredLoad_AuxiliaryObject  -  
 A_RegisteredResource_ControlAreaDesignation  -  
 A_RegisteredResource_DefaultBid  -  
 A_RegisteredResource_DotInstruction  -  
 A_RegisteredResource_EnergyMarket  -  
 A_RegisteredResource_ExPostResourceResults  -  
 A_RegisteredResource_HostControlArea  -  
 A_RegisteredResource_Instructions  -  
 A_RegisteredResource_LoadFollowingOperatorInput  -  
 A_RegisteredResource_MPMTestThreshold  -  
 A_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
 A_RegisteredResource_ResourceAwardInstruction  -  
 A_RegisteredResource_ResourceVerifiableCosts  -  
 A_RegularTimePoint_RegularIntervalSchedule  -  Regular interval schedule containing this time point.The regular interval time point data values that define this schedule.
 A_RegulatingControl_ProtectiveActionRegulation  -  
 A_RegulatingControl_RegulatingCondEq  -  The equipment that participates in this regulating control scheme.The regulating control scheme in which this equipment participates.
 A_RegulatingControl_RegulationSchedule  -  Schedule for this Regulating regulating control.Regulating controls that have this Schedule.
 A_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.
 A_RegulatingLimit_RegisteredGenerator  -  
 A_RemedialActionScheme_Gate  -  
 A_RemedialActionScheme_Stage  -  
 A_RemedialActionScheme_TriggerCondition  -  
 A_RemoteInputSignal_DiscontinuousExcitationControlDynamics  -  Discontinuous excitation control model using this remote input signal.Remote input signal used by this discontinuous excitation control system model.
 A_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.
 A_RemoteInputSignal_PowerSystemStabilizerDynamics  -  Power system stabilizer model using this remote input signal.Remote input signal used by this power system stabilizer model.
 A_RemoteInputSignal_UnderexcitationLimiterDynamics  -  Underexcitation limiter model using this remote input signal.Remote input signal used by this underexcitation limiter model.
 A_RemoteInputSignal_VoltageCompensatorDynamics  -  Voltage compensator model using this remote input signal.Remote input signal used by this voltage compensator model.
 A_RemoteInputSignal_WindPlantDynamics  -  The wind plant using the remote signal.The remote signal with which this power plant is associated.
 A_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.
 A_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.
 A_RemoteSource_MeasurementValue  -  Link to the physical telemetered point associated with this measurement.Link to the physical telemetered point associated with this measurement.
 A_RemoteUnit_CommunicationLink  -  RTUs may be attached to communication links.RTUs may be attached to communication links.
 A_RemoteUnit_RemotePoint  -  Remote points this Remote unit contains.Remote unit this point belongs to.
 A_ReportingGroup_BusNameMarker  -  The bus name markers that belong to this reporting group.The reporting group to which this bus name marker belongs.
 A_ReportingGroup_TopologicalNode  -  The topological nodes that belong to the reporting group.The reporting group to which the topological node belongs.
 A_ReportingSuperGroup_ReportingGroup  -  Reporting groups that are grouped under this super group.Reporting super group to which this reporting group belongs.
 A_ReserveDemandCurve_ASRequirements  -  
 A_ReserveDemandCurve_MarketRegion  -  
 A_ReserveReq_ReserveReqCurve  -  
 A_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.
 A_Reservoir_InflowForecast  -  A reservoir may have a "natural" inflow forecast.A reservoir may have a "natural" inflow forecast.
 A_Reservoir_LevelVsVolumeCurve  -  A reservoir may have a level versus volume relationship.A reservoir may have a level versus volume relationship.
 A_Reservoir_Reservoir  -  A reservoir may spill into a downstream reservoir.A reservoir may spill into a downstream reservoir.
 A_Reservoir_TargetLevelSchedule  -  A reservoir may have a water level target schedule.A reservoir may have a water level target schedule.
 A_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.
 A_ResourceAwardInstruction_MarketProduct  -  
 A_ResourceAwardInstruction_ResourceAwardClearing  -  
 A_ResourceCapacity_RegisteredResource  -  
 A_ResourceCertification_RegisteredResource  -  
 A_ResourceDispatchResults_RegisteredResource  -  
 A_ResourceDispatchResults_ResourceClearing  -  
 A_ResourceGroup_RegisteredResource  -  
 A_ResourceGroupReq_ResourceGroup  -  
 A_ResourceLoadFollowingInst_RegisteredResource  -  
 A_ResourceLoadFollowingInst_ResourceClearing  -  
 A_ResourceVerifiableCosts_ResourceOperationMaintenanceCost  -  
 A_ResourceVerifiableCosts_ResourceStartupCost  -  
 A_RMRHeatRateCurve_RegisteredGenerator  -  
 A_RMROperatorInput_RegisteredResource  -  
 A_RMRStartUpCostCurve_RegisteredGenerator  -  
 A_RMRStartUpEnergyCurve_RegisteredGenerator  -  
 A_RMRStartUpFuelCurve_RegisteredGenerator  -  
 A_RMRStartUpTimeCurve_RegisteredGenerator  -  
 A_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.
 A_Route_OldCrew  -  
 A_RTO_EnergyMarket  -  
 A_RTO_MSSAggregation  -  
 A_RTO_ResourceGroupReq  -  
 A_RTO_SecurityConstraints  -  
 A_RTO_SecurityConstraintSum  -  
 A_RUCAwardInstruction_RegisteredResource  -  
 A_RUCAwardInstruction_ResourceAwardClearing  -  
 A_SafetyDocument_FieldSafetySupervisor  -  Supervisor to whom this safety document is issued.All safety documents issued to this supervisor.
 A_SafetyDocument_OperationsSafetySupervisor  -  Supervisor to which this safety document is released.All safety documents released to this supervisor.
 A_SafetyDocument_SwitchingPlan  -  Switching plan to which this safety document applies.All safety documents applicable to this swtiching plan.
 A_ScheduledEvent_ScheduledEventData  -  Specification for this scheduled event.All scheduled events with this specification.
 A_ScheduledLimitDependency_ScheduledLimitValue  -  The scheduled limit values for this limit dependency.
 A_SchedulingCoordinator_Bid  -  
 A_SchedulingCoordinator_LoadRatio  -  
 A_SchedulingCoordinator_SchedulingCoordinatorUser  -  
 A_SchedulingPoint_Flowgate  -  
 A_SchedulingPoint_InterchangeSchedule  -  
 A_SchedulingPoint_RegisteredResource  -  
 A_Seal_AssetContainer  -  Asset container to which this seal is applied.All seals applied to this asset container.
 A_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.
 A_SeasonDayTypeSchedule_DayType  -  DayType for the Schedule.Schedules that use this DayType.
 A_SeasonDayTypeSchedule_Season  -  Season for the Schedule.Schedules that use this Season.
 A_SecurityConstraints_Flowgate  -  
 A_SecurityConstraints_GeneratingBid  -  
 A_SecurityConstraintSum_BaseCaseConstraintLimit  -  
 A_SecurityConstraintSum_ContingencyConstraintLimit  -  
 A_SecurityConstraintSum_DefaultConstraintLimit  -  
 A_SelfScheduleBreakdown_ResourceAwardInstruction  -  
 A_SensitivityPriceCurve_ReserveReq  -  
 A_SeriesEquipmentDependentLimit_EquipmentLimitSeriesComponent  -  Equipment linkages that participates in the limit calculation.Calculation in which the refernce to equipment applies.
 A_ServiceCategory_CustomerAgreement  -  All customer agreements with this service category.Service category for this agreement.
 A_ServiceCategory_UsagePoint  -  All usage points that deliver this category of service.Service category delivered by this usage point.
 A_ServiceLocation_CustomerAgreement  -  All customer agreements regulating this service location.All service locations regulated by this customer agreement.
 A_ServiceMultiplier_UsagePoint  -  Usage point applying this multiplier.All multipliers applied at this usage point.
 A_Settlement_EnergyMarket  -  
 A_Settlement_MajorChargeGroup  -  
 A_Settlement_MarketInvoiceLineItem  -  
 A_Settlement_MarketLedgerEntry  -  
 A_ShiftPattern_OldCrew  -  
 A_ShuntCompensator_SvShuntCompensatorSections  -  The state for the number of shunt compensator sections in service.The shunt compensator for which the state applies.
 A_ShuntCompensatorControl_ShuntCompensatorInfo  -  
 A_ShuntCompensatorPhase_ShuntCompensator  -  Shunt compensator of this shunt compensator phase.The individual phases models for the shunt compensator.
 A_Skill_OldPerson  -  
 A_Specification_DimensionsInfo  -  
 A_Specification_QualificationRequirement  -  
 A_Specification_ReliabilityInfo  -  
 A_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.
 A_Stage_StageTrigger  -  
 A_StageTrigger_ProtectiveActionCollection  -  
 A_StandardIndustryCode_CustomerAgreement  -  
 A_StartUpEnergyCurve_RegisteredGenerator  -  
 A_StartUpFuelCurve_RegisteredGenerator  -  
 A_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.
 A_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.
 A_StartupModel_StartRampCurve  -  The unit's startup model may have a startup ramp curve.The unit's startup model may have a startup ramp curve.
 A_StartUpTimeCurve_RegisteredGenerator  -  
 A_SteamTurbine_SteamSupply  -  Steam turbines may have steam supplied by a steam supply.Steam turbines may have steam supplied by a steam supply.
 A_Streetlight_Pole  -  Pole to which thiss streetlight is attached.All streetlights attached to this pole.
 A_StringMeasurement_StringMeasurementValue  -  The values connected to this measurement.Measurement to which this value is connected.
 A_Structure_WireSpacing  -  
 A_StructureSupport_Structure  -  
 A_SubControlArea_AdjacentCASet  -  
 A_SubControlArea_AggregateNode  -  
 A_SubControlArea_AreaReserveSpec  -  
 A_SubControlArea_CnodeDistributionFactor  -  
 A_SubControlArea_ControlAreaDesignation  -  
 A_SubControlArea_DynamicSchedule  -  A control area can send dynamic schedules to other control areasA control area can send dynamic schedules to other control areas
 A_SubControlArea_ExPostLossResults  -  
 A_SubControlArea_Flowgate  -  
 A_SubControlArea_HostControlArea  -  The interchange area may operate as a control areaThe interchange area may operate as a control area
 A_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
 A_SubControlArea_LossClearingResults  -  
 A_SubControlArea_Pnode  -  
 A_SubControlArea_RegisteredResource  -  
 A_SubControlArea_RTO  -  
 A_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.
 A_SubGeographicalRegion_DCLine  -  
 A_SubGeographicalRegion_GeographicalRegion  -  The geographical region to which this sub-geographical region is within.All sub-geograhpical regions within this geographical region.
 A_SubLoadArea_LoadArea  -  The LoadArea where the SubLoadArea belongs.The SubLoadAreas in the LoadArea.
 A_Substation_Bay  -  Bays contained in the substation.Substation containing the bay.
 A_Substation_DCConverterUnit  -  The DC converter unit belonging ot the substation.The containing substation of the DC converter unit.
 A_Substation_SubGeographicalRegion  -  The SubGeographicalRegion containing the substation.The substations in this sub-geographical region.
 A_SubstitutionResourceList_ContractRight  -  
 A_SubstitutionResourceList_RegisteredResource  -  
 A_Switch_CompositeSwitch  -  Composite switch to which this Switch belongs.Switches contained in this Composite switch.
 A_Switch_ConnectDisconnectFunction  -  
 A_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.
 A_Switch_SwitchAction  -  Action changing status of this switch.Switch that is the object of this switch action.
 A_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.
 A_SwitchAction_SwitchingStepGroup  -  Group to which this step belongs.All switch action steps in this group.
 A_SwitchingStepGroup_SwitchingPlan  -  Switching plan to which this group belongs.All groups of switching steps within this switching plan.
 A_SwitchPhase_Switch  -  The switch of the switch phase.The individual switch phases for the switch.
 A_SwitchSchedule_Switch  -  A SwitchSchedule is associated with a Switch.A Switch can be associated with SwitchSchedules.
 A_SynchronousMachine_PrimeMover  -  Prime movers that drive this SynchronousMachine.Synchronous machines this Prime mover drives.
 A_SynchronousMachine_ReactiveCapabilityCurve  -  The default reactive capability curve for use by a synchronous machine.Synchronous machines using this curve as default.
 A_SynchronousMachine_SynchronousMachineDynamics  -  Synchronous machine dynamics model used to describe dynamic behavior of this synchronous machine.Synchronous machine to which synchronous machine dynamics model applies.
 A_SynchronousMachineDynamics_ExcitationSystemDynamics  -  Excitation system model associated with this synchronous machine model.Synchronous machine model with which this excitation system model is associated.
 A_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.
 A_SynchronousMachineDynamics_MechanicalLoadDynamics  -  Mechanical load model associated with this synchronous machine model.Synchronous machine model with which this mechanical load model is associated.
 A_SynchronousMachineUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_SysLoadDistributionFactor_DistributionFactorSet  -  
 A_SysLoadDistributionFactor_HostControlArea  -  
 A_TACArea_AggregatedPnode  -  
 A_TagAction_SwitchingStepGroup  -  Group to which this step belongs.All tag action steps in this group.
 A_TapChanger_SvTapStep  -  The tap step state associated with the tap changer.The tap changer associated with the tap step state.
 A_TapChanger_TapSchedule  -  A TapChanger can have TapSchedules.A TapSchedule is associated with a TapChanger.
 A_TapChangerControl_TapChanger  -  The tap changers that participates in this regulating tap control scheme.The regulating control scheme in which this tap changer participates.
 A_Tariff_PricingStructure  -  All pricing structures using this tariff.All tariffs used by this pricing structure.
 A_TariffProfile_Tariff  -  All tariffs defined by this tariff profile.All tariff profiles using this tariff.
 A_TASE2BilateralTable_ICCPInformationMessage  -  
 A_TASE2BilateralTable_ICCPPoint  -  THe ICCP points of the bilateral table.The bilateral table of the ICCP points.
 A_TASE2BilateralTable_IPAccessPoint  -  
 A_TemperatureDependentLimitTable_TemperatureDependentLimitPoint  -  
 A_Tender_Card  -  Card used to tender payment.Payment tender this card is being used for.
 A_Tender_Cheque  -  Cheque used to tender payment.Payment tender the cheque is being used for.
 A_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.
 A_Terminal_AuxiliaryEquipment  -  The auxiliary equipment connected to the terminal.The Terminal at the equipment where the AuxiliaryEquipment is attached.
 A_Terminal_BranchGroupTerminal  -  The directed branch group terminals for which this terminal is monitored. The terminal to be summed.
 A_Terminal_Bushing  -  
 A_Terminal_EquipmentFault  -  The equipment faults at this terminal.The terminal connecting to the bus to which the fault is applied.
 A_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.
 A_Terminal_PinTerminal  -  
 A_Terminal_RemoteInputSignal  -  Input signal coming from this terminal.Remote terminal with which this input signal is associated.
 A_Terminal_SvPowerFlow  -  The power flow state variable associated with the terminal.The terminal associated with the power flow state variable.
 A_Terminal_TieFlow  -  The control area tie flows to which this terminal associates.The terminal to which this tie flow belongs.
 A_Terminal_TransformerEnd  -  All transformer ends connected at this terminal.Terminal of the power transformer to which this transformer end belongs.
 A_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.
 A_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.
 A_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.
 A_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.
 A_ThermalGeneratingUnit_EmissionCurve  -  A thermal generating unit may have one or more emission curves.A thermal generating unit may have one or more emission curves.
 A_ThermalGeneratingUnit_FossilFuel  -  A thermal generating unit may have one or more fossil fuels.A thermal generating unit may have one or more fossil fuels.
 A_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.
 A_ThermalGeneratingUnit_HeatInputCurve  -  A thermal generating unit may have a heat input curve.A thermal generating unit may have a heat input curve.
 A_ThermalGeneratingUnit_HeatRateCurve  -  A thermal generating unit may have a heat rate curve.A thermal generating unit may have a heat rate curve.
 A_ThermalGeneratingUnit_IncrementalHeatRateCurve  -  A thermal generating unit may have an incremental heat rate curve.A thermal generating unit may have an incremental heat rate curve.
 A_ThermalGeneratingUnit_ShutdownCurve  -  A thermal generating unit may have a shutdown curve.A thermal generating unit may have a shutdown curve.
 A_ThermalGeneratingUnit_StartupModel  -  A thermal generating unit may have a startup model.A thermal generating unit may have a startup model.
 A_TieFlow_AltTieMeas  -  The primary and alternate tie flow measurements associated with the tie flow.The tie flow of the alternate measurements.
 A_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.
 A_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.
 A_TieLine_EnergyTransaction  -  A dynamic energy transaction can act as a pseudo tie line.A dynamic energy transaction can act as a pseudo tie line.
 A_TimePoint_TimeSchedule  -  Time schedule owning this time point.Sequence of time points belonging to this time schedule.
 A_TimeSeries_AttributeInstanceComponent  -  
 A_TimeSeries_Auction  -  
 A_TimeSeries_ConstraintDuration  -  
 A_TimeSeries_MarketObjectStatus  -  
 A_TimeSeries_MktPSRType  -  
 A_TimeSeries_Point  -  
 A_TimeSeries_Price  -  
 A_TimeSeries_Quantity  -  
 A_TimeSeries_RegisteredResource  -  
 A_TimeSeries_Unit  -  
 A_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.
 A_TimeTariffInterval_TariffProfile  -  All tariff profiles defined by this time tariff interval.All time tariff intervals used to define this tariff profile.
 A_TopologicalIsland_TopologicalNode  -  A topological node belongs to a topological island.A topological node belongs to a topological island.
 A_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.
 A_TopologicalNode_SvInjection  -  The injection flows state variables associated with the topological node.The topological node associated with the flow injection state variable.
 A_TopologicalNode_SvVoltage  -  The state voltage associated with the topological node.The topological node associated with the voltage state.
 A_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.
 A_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.
 A_Trade_ActionRequest  -  
 A_Trade_Pnode  -  
 A_Trade_RegisteredGenerator  -  
 A_Trade_SchedulingCoordinator  -  
 A_Trade_TradeProduct  -  
 A_TradeError_Trade  -  
 A_TradingHubValues_TradingHubPrice  -  
 A_Transaction_AuxiliaryAccount  -  Auxiliary account for this payment transaction.All payments against this account.
 A_Transaction_CashierShift  -  Cashier shift during which this transaction was recorded.All transactions recorded during this cashier shift.
 A_Transaction_CustomerAccount  -  Customer account for this payment transaction.All payment transactions for this customer account.
 A_Transaction_PricingStructure  -  Pricing structure applicable for this transaction.All transactions applying this pricing structure.
 A_Transaction_Receipt  -  The receipted payment for which this transaction has been recorded.All transactions recorded for this receipted payment.
 A_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.
 A_Transaction_VendorShift  -  Vendor shift during which this transaction was recorded.All transactions recorded during this vendor shift.
 A_TransactionBid_EnergyProfile  -  
 A_TransactionBid_Pnode  -  
 A_TransactionBid_TransactionBidResults  -  
 A_TransactionBid_TransmissionReservation  -  
 A_TransactionBidClearing_TransactionBidResults  -  
 A_Transactor_MerchantAccount  -  All merchant accounts registered with this transactor.All transactors this merchant account is registered with.
 A_TransferInterface_HostControlArea  -  
 A_TransferInterface_TransferInterfaceSolution  -  
 A_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.
 A_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.
 A_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.
 A_TransformerEnd_WindingInsulation  -  
 A_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.
 A_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.
 A_TransformerEndInfo_ShortCircuitTest  -  All short-circuit test measurements in which this transformer end was short-circuited.All ends short-circuited in this short-circuit test.
 A_TransformerEndInfo_TransformerTankInfo  -  Transformer tank data that this end description is part of.Data for all the ends described by this transformer tank data.
 A_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.
 A_TransformerObservation_BushingInsulationPF  -  
 A_TransformerObservation_ProcedureDataSet  -  
 A_TransformerObservation_Reconditioning  -  
 A_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).
 A_TransformerStarImpedance_TransformerEndInfo  -  Transformer end datasheet used to calculate this transformer star impedance.Transformer star impedance calculated from this transformer end datasheet.
 A_TransformerTank_TransformerObservation  -  
 A_TransformerTank_TransformerTankEnd  -  All windings of this transformer.Transformer this winding belongs to.
 A_TransmissionCapacity_Flowgate  -  
 A_TransmissionCapacity_GenericConstraints  -  
 A_TransmissionCorridor_TransmissionPath  -  A TransmissionPath is contained in a TransmissionCorridor.A TransmissionPath is contained in a TransmissionCorridor.
 A_TransmissionInterfaceRightEntitlement_Flowgate  -  
 A_TransmissionPath_ServicePoint  -  A transmission path has a "point-of-receipt" service pointA transmission path has a "point-of-receipt" service point
 A_TransmissionPath_TransmissionProduct  -  A transmission product is located on a transmission path.A transmission product is located on a transmission path.
 A_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.
 A_TransmissionProvider_TransmissionProduct  -  A TransmissionProvider offers a TransmissionProduct.A TransmissionProvider offers a TransmissionProduct.
 A_TransmissionReservation_ServicePoint  -  
 A_TransmissionReservation_TransmissionPath  -  
 A_TransmissionRightChain_RTO  -  
 A_TransmissionRightOfWay_MktLine  -  
 A_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
 A_TREntitlement_ContractRight  -  
 A_TroubleTicket_CustomerNotification  -  Notification for this trouble ticket.All trouble tickets with this notification.
 A_TurbineGovernorDynamics_SynchronousMachineDynamics  -  Synchronous machine model with which this turbine-governor model is associated.Turbine-governor model associated with this synchronous machine model.
 A_TurbineGovernorDynamics_TurbineLoadControllerDynamics  -  Turbine load controller providing input to this turbine-governor.Turbine-governor controlled by this turbine load controller.
 A_TurbineGovernorUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_TurbineLoadControllerUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_TypeAssetCatalogue_GenericAssetModel  -  
 A_TypeMaterial_CUMaterialItem  -  
 A_TypeMaterial_ErpIssueInventory  -  
 A_UnderexcitationLimiterUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_Unit_AceTariffType  -  
 A_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.
 A_Usage_OldWorkTask  -  
 A_UsagePoint_CustomerAgreement  -  Customer agreement regulating this service delivery point.All service delivery points regulated by this customer agreement.
 A_UsagePoint_EndDeviceControl  -  All end device controls sending commands to this usage point.All usage points receiving commands from this end device control.
 A_UsagePoint_EndDeviceEvent  -  All end device events reported for this usage point.Usage point for which this end device event is reported.
 A_UsagePoint_MeterReading  -  All meter readings obtained from this usage point.Usage point from which this meter reading (set of values) has been obtained.
 A_UsagePoint_MeterWorkTask  -  All meter service work tasks at this usage point.Usage point to which this meter service work task applies.
 A_UsagePoint_MetrologyRequirement  -  All metrology requirements for this usage point.All usage points having this metrology requirement.
 A_UsagePoint_Outage  -  All outages at this usage point.All usage points associated with this outage.
 A_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.
 A_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.
 A_UsagePoint_ServiceSupplier  -  ServiceSupplier (utility) utilising this usage point to deliver a service.All usage points this service supplier utilises to deliver a service.
 A_UsagePoint_UsagePointGroup  -  All groups to which this usage point belongs.All usage points in this group.
 A_UsagePoint_UsagePointLocation  -  Location of this usage point.All usage points at this location.
 A_UsagePointGroup_DemandResponseProgram  -  All demand response programs this usage point group is enrolled in.All usage point groups enrolled in this demand response program.
 A_UsagePointGroup_EndDeviceControl  -  All end device controls sending commands to this usage point group.All usage point groups receiving commands from this end device control.
 A_UserAttribute_ErpInvoiceLineItem  -  
 A_UserAttribute_ErpLedgerEntry  -  
 A_ValueAliasSet_Command  -  The Commands using the set for translation.The ValueAliasSet used for translation of a Control value to a name.
 A_ValueAliasSet_RaiseLowerCommand  -  The Commands using the set for translation.The ValueAliasSet used for translation of a Control value to a name.
 A_ValueToAlias_ValueAliasSet  -  The ValueAliasSet having the ValueToAlias mappings.The ValueToAlias mappings included in the set.
 A_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.
 A_VendorShift_MerchantAccount  -  Merchant account this vendor shift periodically debits (based on aggregated transactions).All vendor shifts that operate on this merchant account.
 A_VendorShift_Vendor  -  Vendor that opens and owns this vendor shift.All vendor shifts opened and owned by this vendor.
 A_VisibilityLayer_DiagramObject  -  A visibility layer can contain one or more diagram objects.A diagram object can be part of multiple visibility layers.
 A_VoltageAdjusterUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_VoltageCompensatorUserDefined_ProprietaryParameterDynamics  -  Parameter of this proprietary user-defined model.Proprietary user-defined model with which this parameter is associated.
 A_VoltageControlZone_BusbarSection  -  A VoltageControlZone is controlled by a designated BusbarSection.A VoltageControlZone is controlled by a designated BusbarSection.
 A_VoltageControlZone_RegulationSchedule  -  A VoltageControlZone may have a voltage regulation schedule.A VoltageControlZone may have a voltage regulation schedule.
 A_VoltageLevel_Substation  -  The substation of the voltage level.The voltage levels within this substation.
 A_VsCapabilityCurve_VsConverter  -  All converters with this capability curve.Capability curve of this converter.
 A_WeatherStation_Equipment  -  
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_WindingInsulation_TransformerObservation  -  
 A_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.
 A_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.
 A_WindPlantReactiveControlIEC_WindPlantIEC  -  Wind plant reactive control model associated with this wind plant.Wind plant model with which this wind reactive control is associated.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_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.
 A_WirePosition_WireSpacing  -  Wire spacing data this wire position belongs to.All positions of single wires (phase or neutral) making the conductor.
 A_Work_Appointment  -  All appointments for this work.All works for this appointment.
 A_Work_BusinessCase  -  
 A_Work_Customer  -  All the customers for which this work is performed.All the works performed for this customer.
 A_Work_Design  -  
 A_Work_Incident  -  All incidents being addressed by this work.All works addressing this incident.
 A_Work_WorkBillingInfo  -  
 A_Work_WorkCostDetail  -  
 A_Work_WorkFlowStep  -  
 A_WorkActivityRecord_BaseWork  -  Base work that this activity record tracks.All activity records for this work or work task.
 A_WorkAsset_CUWorkEquipmentItem  -  
 A_WorkBillingInfo_CustomerAccount  -  
 A_WorkCostDetail_CostType  -  
 A_WorkCostDetail_Design  -  
 A_WorkCostDetail_LaborItem  -  
 A_WorkCostDetail_MiscCostItem  -  
 A_WorkCostDetail_OverheadCost  -  
 A_WorkCostSummary_WorkCostDetail  -  
 A_WorkLocation_BaseWork  -  All works/tasks at this location.Location for this work/task.
 A_WorkLocation_DesignLocation  -  
 A_WorkTask_SwitchingPlan  -  Switching plan executed by this work task.All work tasks to execute this switching plan.
 A_WorkTask_Work  -  Work this task belongs to.All tasks in this work.
 A_WorkTimeSchedule_BaseWork  -  Time schedule for this work or work task.All time schedules for this work or work task.
 AA
 aaac
 AB
 abandon
 ABC
 ABCN
 ABN
 absoluteValue
 AC
 ACA
 ACCEPT
 AcceptanceTest.dateTime  -  Date and time the asset was last tested using the 'type' of test and yielding the current status in 'success' attribute.
 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'.
 AcceptanceTest.type  -  Type of test or group of tests that was conducted on 'dateTime'.
 AccessPermit.applicationNumber  -  Permit application number that is used by municipality, state, province, etc.
 AccessPermit.effectiveDate  -  Date that permit became official.
 AccessPermit.expirationDate  -  Permit expiration date.
 AccessPermit.payment  -  Total cost of permit.
 AccessPermit.permitID  -  Permit identifier.
 accountAllocation
 AccountingUnit.energyUnit  -  Unit of service.
 AccountingUnit.monetaryUnit  -  Unit of currency.
 AccountingUnit.multiplier  -  Multiplier for the 'energyUnit' or 'monetaryUnit'.
 AccountingUnit.value  -  Value expressed in applicable units.
 AccountMovement.amount  -  Amount that was credited to/debited from an account. For example: payment received/interest charge on arrears.
 AccountMovement.dateTime  -  Date and time when the credit/debit transaction was performed.
 AccountMovement.reason  -  Reason for credit/debit transaction on an account. Example: payment received/arrears interest levied.
 accountPayment
 AccumulationKind
 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.
 AccumulatorLimit.value  -  The value to supervise against. The value is positive.
 AccumulatorValue.value  -  The value to supervise. The value is positive.
 ACDCConverter.baseS  -  Base apparent power of the converter pole.
 ACDCConverter.idc  -  Converter DC current, also called Id. Converter state variable, result from power flow.
 ACDCConverter.idleLoss  -  Active power loss in pole at no power transfer. Converter configuration data used in power flow.
 ACDCConverter.maxUdc  -  The maximum voltage on the DC side at which the converter should operate. Converter configuration data used in power flow.
 ACDCConverter.minUdc  -  Min allowed converter DC voltage. Converter configuration data used in power flow.
 ACDCConverter.numberOfValves  -  Number of valves in the converter. Used in loss calculations.
 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.
 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.
 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.
 ACDCConverter.ratedUdc  -  Rated converter DC voltage, also called UdN. Converter configuration data used in power flow.
 ACDCConverter.resistiveLoss  -  Converter configuration data used in power flow. Refer to poleLossP.
 ACDCConverter.switchingLoss  -  Switching losses, relative to the base apparent power 'baseS'. Refer to poleLossP.
 ACDCConverter.targetPpcc  -  Real power injection target in AC grid, at point of common coupling.
 ACDCConverter.targetUdc  -  Target value for DC voltage magnitude.
 ACDCConverter.uc  -  Line-to-line converter voltage, the voltage at the AC side of the valve. Converter state variable, result from power flow.
 ACDCConverter.udc  -  Converter voltage at the DC side, also called Ud. Converter state variable, result from power flow.
 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.
 ACDCConverterDCTerminal.polarity  -  Represents the normal network polarity condition.
 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.
 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.
 ACE
 AceTariffType.type  -  The coded type of an ACE tariff.
 ACLineSegment.b0ch  -  Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line section.
 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.
 ACLineSegment.g0ch  -  Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line section.
 ACLineSegment.gch  -  Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line section.
 ACLineSegment.r  -  Positive sequence series resistance of the entire line section.
 ACLineSegment.r0  -  Zero sequence series resistance of the entire line section.
 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
 ACLineSegment.x  -  Positive sequence series reactance of the entire line section.
 ACLineSegment.x0  -  Zero sequence series reactance of the entire line section.
 ACLineSegmentPhase.phase  -  The phase connection of the wire at both ends.
 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.
 ACN
 ACNG
 acsr
 ACT
 ActionRequest.actionName  -  Action name type for the action request.
 ActionType
 Active
 active
 ACTIVE
 activePower
 ActivePower.multiplier
 ActivePower.unit
 ActivePower.value
 ActivePowerChangeRate.multiplier
 ActivePowerChangeRate.unit
 ActivePowerChangeRate.value
 activePowerLimit
 ActivePowerLimit.value  -  Value of active power limit.
 ActivePowerPerCurrentFlow.multiplier
 ActivePowerPerCurrentFlow.unit
 ActivePowerPerCurrentFlow.value
 ActivePowerPerFrequency.multiplier
 ActivePowerPerFrequency.unit
 ActivePowerPerFrequency.value
 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).
 ActivityRecord.reason  -  Reason for event resulting in this activity record, typically supplied when user initiated.
 ActivityRecord.severity  -  Severity level of event resulting in this activity record.
 ActivityRecord.status  -  Information on consequence of event resulting in this activity record.
 ActivityRecord.type  -  Type of event resulting in this activity record.
 Actual
 actual
 ADD
 AdderType
 addVref
 AdjacentCASet.endEffectiveDate  -  end effective date
 AdjacentCASet.lossPercentage_  -  Loss percentage
 AdjacentCASet.startEffectiveDate  -  start effective date
 admittance
 Admittance.multiplier
 Admittance.unit
 Admittance.value
 ADSInstructionTypeCommitment
 ADSInstructionTypeOOS
 AED
 aerial
 AFN
 AFTER_THE_FACT
 afterUEL
 AG
 AGC
 AggregatedPnode.apnodeType  -  Aggregate Price Node Types
 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
 AggregateKind
 AggregateNode.anodeType  -  Type of aggregated node
 AggregateNode.endEffectiveDate  -  end effective date
 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.
 AggregateNode.startEffectiveDate  -  start effective date
 AGR
 Agreement.signDate  -  Date this agreement was consummated among associated persons and/or organisations.
 Agreement.validityInterval  -  Date and time interval this agreement is valid (from going into effect to termination).
 Ah
 air
 AirCompressor.airCompressorRating  -  Rating of the CAES air compressor.
 airNoFilling
 alarm
 AlarmDisplayType
 All
 ALL
 AllocationEnergyTypeCode
 AllocationResult.intervalStartTime
 AllocationResult.updateTimeStamp
 AllocationResult.updateUser
 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.
 AllocationResultValues.allocationMwHour
 AllocationResultValues.allocationPrice
 AllocationResultValues.energyTypeCode
 AllocationResultValues.marketServiceType  -  Choices are: ME - Market Energy Capacity; SR - Spinning Reserve Capacity; NR - Non-Spinning Reserve Capacity; DAC - Day Ahead Capacity; DEC - Derate Capacity
 ALR
 ALTERNATE
 AlternateModels.AlternateModel
 AlternateModels.AlternateModelGroup
 AltGeneratingUnitMeas.priority  -  Priority of a measurement usage. Lower numbers have first priority.
 AltTieMeas.priority  -  Priority of a measurement usage. Lower numbers have first priority.
 aluminum
 aluminumAlloy
 aluminumAlloySteel
 aluminumSteel
 AMD
 AmiBillingReadyKind
 amiCapable
 amiDisabled
 AN
 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.
 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.
 Analog.normalValue  -  Normal measurement value, e.g., used for percentage calculations.
 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.
 AnalogControl.maxValue  -  Normal value range maximum for any of the Control.value. Used for scaling, e.g. in bar graphs.
 AnalogControl.minValue  -  Normal value range minimum for any of the Control.value. Used for scaling, e.g. in bar graphs.
 AnalogLimit.value  -  The value to supervise against.
 AnalogLimitType
 AnalogMeasurementValueQuality.scadaQualityCode  -  The quality code for the given Analog Value.
 AnalogToDigitalLogicKind
 AnalogValue.value  -  The value to supervise.
 anchor
 AnchorKind
 AncillaryCommodityType
 and
 ANG
 AngleDegrees.multiplier
 AngleDegrees.unit
 AngleDegrees.value
 anglemin
 AngleRadians.multiplier
 AngleRadians.unit
 AngleRadians.value
 anglesec
 AnodeType
 anonymous
 AOA
 APerA
 APerm
 APN
 ApnodeType
 apparentPower
 ApparentPower.multiplier
 ApparentPower.unit
 ApparentPower.value
 apparentPowerFactor
 apparentPowerLimit
 ApparentPowerLimit.value  -  The apparent power limit.
 Appear
 applicationContext
 Appointment.callAhead  -  True if requested to call customer when someone is about to arrive at their premises.
 Appointment.meetingInterval  -  Date and time reserved for appointment.
 apprentice
 approve
 APPROVED
 approved
 apTitle
 Area.multiplier
 Area.unit
 Area.value
 AreaControlMode
 AreaLoadBid.demandBidMW  -  The Demand Bid Megawatt for the area case. Attribute Usage: This is Scheduled demand MW in Day Ahead
 AreaLoadCurve.forecastType  -  Load forecast area type.
 AreaReserveSpec.Description  -  Description of the object or instance.
 AreaReserveSpec.lowerRegMarginReqt  -  Lower regulating margin requirement in MW, the amount of generation that can be dropped by control in 10 minutes
 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).
 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.
 AreaReserveSpec.raiseRegMarginReqt  -  Raise regulating margin requirement in MW, the amount of generation that can be picked up by control in 10 minutes
 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
 ARS
 AS
 As
 AS_CLEAR_ASMP_IFM
 AS_CLEAR_ASMP_RTM
 AS_CLEAR_COST_IFM
 AS_CLEAR_COST_RTM
 AS_CLEAR_MW_IFM
 AS_CLEAR_MW_RTM
 AS_DA_RESULT
 AS_GEN_TOTAL_MW_IFM
 AS_GEN_TOTAL_MW_RTM
 AS_IMP_TOTAL_MW_IFM
 AS_IMP_TOTAL_MW_RTM
 AS_LOAD_TOTAL_MW_IFM
 AS_LOAD_TOTAL_MW_RTM
 AS_OP_RSRV
 AS_REGION_REQ_MAX
 AS_REGION_REQ_MIN
 AS_REGION_value
 AS_REQ
 AS_RTM_RESULT
 AS_SELF_MW_IFM
 AS_SELF_MW_RTM
 AS_TOTAL_MW
 AS_TOTAL_MW_IFM
 AS_TOTAL_MW_RTM
 AS_TYPE
 AS_USER_RATE
 asbestosAndVarnishedCambric
 asBuilt
 asphalt
 asphaltic
 ASR
 ASREGION
 ASRequirements.intervalStartTime  -  The start of the time interval for which requirement is defined.
 Asset.acceptanceTest  -  Information on acceptance test.
 Asset.critical  -  True if asset is considered critical for some reason (for example, a pole with critical attachments).
 Asset.electronicAddress  -  Electronic address.
 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.
 Asset.initialLossOfLife  -  Whenever an asset is reconditioned, percentage of expected life for the asset when it was new; zero for new devices.
 Asset.lifecycle  -  Lifecycle dates for this asset.
 Asset.lotNumber  -  Lot number for this asset. Even for the same model and version number, many assets are manufactured in lots.
 Asset.purchasePrice  -  Purchase price of asset.
 Asset.serialNumber  -  Serial number of this asset.
 Asset.status  -  Status of this asset.
 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.).
 Asset.utcNumber  -  Uniquely tracked commodity (UTC) number.
 AssetContainersAndWorkRelated
 AssetFunction.configID  -  Configuration specified for this function.
 AssetFunction.firmwareID  -  Firmware version.
 AssetFunction.hardwareID  -  Hardware version.
 AssetFunction.password  -  Password needed to access this function.
 AssetFunction.programID  -  Name of program.
 AssetInfo.BusbarSectionInfo  -  Busbar section data.
 AssetInfo.CableInfo  -  Cable data.
 AssetInfo.ConcentricNeutralCableInfo  -  Concentric neutral cable data.
 AssetInfo.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.
 AssetInfo.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.
 AssetInfo.OverheadWireInfo  -  Overhead wire data.
 AssetInfo.PowerTransformerInfo  -  Set of power transformer data, from an equipment library.
 AssetInfo.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.
 AssetInfo.ShuntCompensatorInfo  -  Properties of shunt capacitor, shunt reactor or switchable bank of shunt capacitor or reactor assets.
 AssetInfo.SwitchInfo  -  Switch data.
 AssetInfo.TapChangerInfo  -  Tap changer data.
 AssetInfo.TapeShieldCableInfo  -  Tape shield cable data.
 AssetInfo.TransformerEndInfo  -  Transformer end data.
 AssetInfo.TransformerTankInfo  -  Set of transformer tank data, from an equipment library.
 AssetInfo.TransformerTest  -  Test result for transformer ends, such as short-circuit, open-circuit (excitation) or no-load test.
 AssetInfo.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.
 AssetInfo.WirePosition  -  Identification, spacing and configuration of the wires of a conductor with respect to a structure.
 AssetInfo.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.
 AssetModelCatalogue.status
 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.
 AssetModelUsageKind
 assetNumber
 AssetRelationships
 Assets.AcceptanceTest  -  Acceptance test for assets.
 Assets.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.
 Assets.AssetContainer  -  Asset that is aggregation of other assets such as conductors, transformers, switchgear, land, fences, buildings, equipment, vehicles, etc.
 Assets.AssetFunction  -  Function performed by an asset.
 Assets.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).
 Assets.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.
 Assets.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.
 Assets.AssetOrganisationRole  -  Role an organisation plays with respect to asset.
 Assets.AssetOwner  -  Owner of the asset.
 Assets.AssetUser  -  Organisation that is a user of the asset.
 Assets.ComMedia  -  Communication media such as fibre optic cable, power-line, telephone, etc.
 Assets.LifecycleDate  -  Dates for lifecycle events of an asset.
 Assets.Maintainer  -  Organisation that maintains assets.
 Assets.Manufacturer  -  Organisation that manufactures asset products.
 Assets.Procedure  -  Documented procedure for various types of work or work tasks on assets.
 Assets.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.
 Assets.ProductAssetModel  -  Asset model by a specific manufacturer.
 Assets.Seal  -  Physically controls access to AssetContainers.
 Assignment.effectivePeriod  -  Period between the assignment becoming effective and its expiration.
 AST
 AsynchronousMachine.asynchronousMachineType  -  Indicates the type of Asynchronous Machine (motor or generator).
 AsynchronousMachine.converterFedDrive  -  Indicates whether the machine is a converter fed drive. Used for short circuit data exchange according to IEC 60909
 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
 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
 AsynchronousMachine.nominalFrequency  -  Nameplate data indicates if the machine is 50 or 60 Hz.
 AsynchronousMachine.nominalSpeed  -  Nameplate data. Depends on the slip and number of pole pairs.
 AsynchronousMachine.polePairNumber  -  Number of pole pairs of stator. Used for short circuit data exchange according to IEC 60909
 AsynchronousMachine.ratedMechanicalPower  -  Rated mechanical power (Pr in the IEC 60909-0). Used for short circuit data exchange according to IEC 60909.
 AsynchronousMachine.reversible  -  Indicates for converter drive motors if the power can be reversible. Used for short circuit data exchange according to IEC 60909
 AsynchronousMachine.rr1  -  Damper 1 winding resistance.
 AsynchronousMachine.rr2  -  Damper 2 winding resistance.
 AsynchronousMachine.rxLockedRotorRatio  -  Locked rotor ratio (R/X). Used for short circuit data exchange according to IEC 60909
 AsynchronousMachine.tpo  -  Transient rotor time constant (greater than tppo).
 AsynchronousMachine.tppo  -  Sub-transient rotor time constant (greater than 0).
 AsynchronousMachine.xlr1  -  Damper 1 winding leakage reactance.
 AsynchronousMachine.xlr2  -  Damper 2 winding leakage reactance.
 AsynchronousMachine.xm  -  Magnetizing reactance.
 AsynchronousMachine.xp  -  Transient reactance (unsaturated) (greater than or equal to xpp).
 AsynchronousMachine.xpp  -  Sub-transient reactance (unsaturated) (greather than Xl).
 AsynchronousMachine.xs  -  Synchronous reactance (greather than xp).
 AsynchronousMachineDynamics.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:
  1. 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.
 AsynchronousMachineDynamics.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).
 AsynchronousMachineDynamics.AsynchronousMachineTimeConstantReactance  -  Parameter Notes:
  1. If X'' = X', a single cage (one equivalent rotor winding per axis) is modelled.
  2. 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).
 AsynchronousMachineEquivalentCircuit.rr1  -  Damper 1 winding resistance.
 AsynchronousMachineEquivalentCircuit.rr2  -  Damper 2 winding resistance.
 AsynchronousMachineEquivalentCircuit.xlr1  -  Damper 1 winding leakage reactance.
 AsynchronousMachineEquivalentCircuit.xlr2  -  Damper 2 winding leakage reactance.
 AsynchronousMachineEquivalentCircuit.xm  -  Magnetizing reactance.
 AsynchronousMachineKind
 AsynchronousMachineTimeConstantReactance.tpo  -  Transient rotor time constant (T'o) (> T''o). Typical Value = 5.
 AsynchronousMachineTimeConstantReactance.tppo  -  Subtransient rotor time constant (T''o) (> 0). Typical Value = 0.03.
 AsynchronousMachineTimeConstantReactance.xp  -  Transient reactance (unsaturated) (X') (>=X''). Typical Value = 0.5.
 AsynchronousMachineTimeConstantReactance.xpp  -  Subtransient reactance (unsaturated) (X'') (> Xl). Typical Value = 0.2.
 AsynchronousMachineTimeConstantReactance.xs  -  Synchronous reactance (Xs) (>= X'). Typical Value = 1.8.
 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.
 ATL_APNODE
 ATL_AS_REGION
 ATL_AS_REGION_MAP
 ATL_HUB
 ATL_LAP
 ATL_LDF
 ATL_PNODE
 ATL_PNODE_MAP
 ATL_PUB
 ATL_PUB_SCHED
 ATL_RESOURCE
 ATL_RUC_ZONE
 ATL_RUC_ZONE_MAP
 ATL_STAT
 ATL_TAC_AREA
 ATL_TAC_AREA_MAP
 ATL_TI
 ATL_TIEPOINT
 ATL_XREF
 AttributeInstanceComponent.attribute  -  The identification of the formal name of an attribute.
 AttributeInstanceComponent.attributeValue  -  The instance value of the attribute.
 AttributeInstanceComponent.position  -  A sequential value representing a relative sequence number.
 AttributeProperty.propertyName
 AttributeProperty.propertyValue
 AttributeProperty.sequence
 AUC
 Auction.allocationMode  -  Identification of the method of allocation in an auction.
 Auction.cancelled  -  An indicator that signifies that the auction has been cancelled.
 Auction.category  -  The product category of an auction.
 Auction.paymentTerms  -  The terms which dictate the determination of the bid payment price.
 Auction.rights  -  The rights of use the transmission capacity acquired in an auction.
 Auction.type  -  The kind of the Auction (e.g. implicit, explicit ...).
 AUD
 audibleVolume
 automatic
 AutomaticDispatchMode
 AutomaticDispInstTypeCommitment
 automaticPositioning
 autonomousDst
 autotransformer
 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.
 AuxiliaryAccount.due  -  Current amounts now due for payment on this account.
 AuxiliaryAccount.lastCredit  -  Details of the last credit transaction performed on this account.
 AuxiliaryAccount.lastDebit  -  Details of the last debit transaction performed on this account.
 AuxiliaryAccount.principleAmount  -  The initial principle amount, with which this account was instantiated.
 AuxiliaryAgreement.arrearsInterest  -  The interest per annum to be charged prorata on 'AuxiliaryAccount.dueArrears' at the end of each 'payCycle'.
 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.
 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.
 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.
 AuxiliaryAgreement.minAmount  -  The minimum amount that has to be paid at any transaction towards settling this auxiliary agreement or reducing the balance.
 AuxiliaryAgreement.payCycle  -  The contractually expected payment frequency (by the customer). Examples are: ad-hoc; on specified date; hourly, daily, weekly, monthly. etc.
 AuxiliaryAgreement.subType  -  Sub-classification of the inherited 'type' for this AuxiliaryAgreement.
 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.
 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.
 auxiliaryCharge
 auxiliaryChargePayment
 AuxiliaryCost.intervalStartTime
 AuxiliaryCost.marketType
 AuxiliaryCost.updateTimeStamp
 AuxiliaryCost.updateUser
 AuxiliaryEquipment.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.
 AuxiliaryEquipment.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.
 AuxiliaryEquipment.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).
 AuxiliaryEquipment.FlowSensor  -  Represents a two terminal and power conducting device of negligible impedance that senses flow through the device.
 AuxiliaryEquipment.PostLineSensor  -  A sensor used mainly in overhead distribution networks as the source of both current and voltage measurements.
 AuxiliaryEquipment.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.
 AuxiliaryEquipment.Sensor  -  This class describe devices that transform a measured quantity into signals that can be presented at displays, used in control or be recorded.
 AuxiliaryEquipment.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.
 AuxiliaryEquipment.WaveTrap  -  Line traps are devices that impede high frequency power line carrier signals yet present a negligible impedance at the main power frequency.
 AuxiliaryValues.availUndispatchedQ
 AuxiliaryValues.incrementalORAvail
 AuxiliaryValues.maxExpostCapacity
 AuxiliaryValues.minExpostCapacity
 AuxiliaryValues.noLoadCost
 AuxiliaryValues.noLoadCostEligibilityFlag
 AuxiliaryValues.startUpCost
 AuxiliaryValues.startUpCostEligibilityFlag
 average
 AWG
 AZN
 B
 BalanceResponsibleParty
 BalanceSupplier
 balancingAuthority
 BAM
 bandwidth
 Bank.bic  -  Bank identifier code as defined in ISO 9362; for use in countries wher IBAN is not yet in operation.
 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).
 BankAccount.accountNumber  -  Account reference number.
 BankAccountDetail.accountNumber  -  Operational account reference number.
 BankAccountDetail.bankName  -  Name of bank where account is held.
 BankAccountDetail.branchCode  -  Branch of bank where account is held.
 BankAccountDetail.holderID  -  National identity number (or equivalent) of account holder.
 BankAccountDetail.holderName  -  Name of account holder.
 bankOrder
 bar
 BAS
 BaseFrequency.frequency  -  The base frequency.
 BASELINE
 BasePower.basePower  -  Value used as base power.
 BaseReading.reportedDateTime  -  (used only when there are detailed auditing requirements) Date and time at which the reading was first delivered to the metering system.
 BaseReading.source  -  System that originally supplied the reading (e.g., customer, AMI system, handheld reading system, another enterprise system, etc.).
 BaseReading.timePeriod  -  Start and end of the period for those readings whose type has a time attribute such as 'billing', seasonal' or 'forTheSpecifiedPeriod'.
 BaseReading.value  -  Value of this reading.
 BaseVoltage.nominalVoltage  -  The power system resource's base voltage.
 BaseWork.kind  -  Kind of work.
 BaseWork.priority  -  Priority of work.
 BaseWork.statusKind  -  Kind of work status.
 BasicIntervalSchedule.startTime  -  The time for the first time point.
 BasicIntervalSchedule.value1Multiplier  -  Multiplier for value1.
 BasicIntervalSchedule.value1Unit  -  Value1 units of measure.
 BasicIntervalSchedule.value2Multiplier  -  Multiplier for value2.
 BasicIntervalSchedule.value2Unit  -  Value2 units of measure.
 batteryCarryover
 batteryVoltage
 Bay.bayEnergyMeasFlag  -  Indicates the presence/absence of energy measurements.
 Bay.bayPowerMeasFlag  -  Indicates the presence/absence of active/reactive power measurements.
 Bay.breakerConfiguration  -  Breaker configuration.
 Bay.busBarConfiguration  -  Bus bar configuration.
 BBD
 BC
 BCN
 BDT
 beforeUEL
 BEGINNING
 beltedPilc
 BEST
 BGAS
 BGN
 BHD
 Bid.marketType  -  The market type, DAM or RTM.
 Bid.startTime  -  Start time and date for which bid applies.
 Bid.stopTime  -  Stop time and date for which bid is applicable.
 BIDC
 BidCalculationBasis
 BidDistributionFactor.timeIntervalEnd  -  End of the time interval n which bid is valid (yyyy-mm-dd hh24: mi: ss)
 BidDistributionFactor.timeIntervalStart  -  Start of the time interval in which bid is valid (yyyy-mm-dd hh24: mi: ss).
 BidError.componentType
 BidError.endTime  -  hour wihthin the bid for which the error applies
 BidError.errMessage  -  error message
 BidError.errPriority  -  Priority number for the error message
 BidError.logTimeStamp
 BidError.msgLevel
 BidError.ruleID
 BidError.startTime  -  hour wihthin the bid for which the error applies
 biDirectional
 BidMitigationStatus
 BidMitigationType
 BidPriceCap.bidCeiling  -  Bid Ceiling ($/MWH)
 BidPriceCap.bidCeilingAS  -  Bid Ceiling ($/MWH) for generic AS versus a specific market product
 BidPriceCap.bidFloor  -  Bid Floor, ($/MWH)
 BidPriceCap.bidFloorAS  -  Bid Floor ($/MWH) for generic AS versus a specific market product
 BidPriceCap.defaultPrice  -  Bid Default Price($/MWH)
 BidPriceCap.marketType  -  Market Type of the cap (DAM or RTM)
 BidPriceCapType
 BidPriceSchedule.bidType  -  BID Type: I - Initial Bid; F - Final Bid
 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
 BIDS_PUBLIC
 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.
 BidSelfSched.bidType  -  bidType has two types as the required output of requirements and qualified pre-dispatch.
 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.
 BidSelfSched.pumpSelfSchedMw  -  Contains the PriceTaker, ExistingTransmissionContract, TransmissionOwnershipRights pumping self schedule quantity. If this value is not null, then the unit is in pumping mode.
 BidSelfSched.referenceType  -  Indication of which type of self schedule is being referenced.
 BidSelfSched.selfSchedMw  -  Self scheduled value
 BidSelfSched.selfSchedSptResource  -  Price Taker Export Self Sched Support Resource
 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
 BidSelfSched.updateType
 BidSelfSched.wheelingTransactionReference  -  A unique identifier of a wheeling transaction. A wheeling transaction is a balanced Energy exchange among Supply and Demand Resources.
 BidStatusType
 BidTimeSeries.blockBid  -  Indication that the values in the period are considered as a whole. They cannot be changed or subdivided.
 BidTimeSeries.direction  -  The coded identification of the energy flow.
 BidTimeSeries.divisible  -  An indication whether or not each element of the bid may be partially accepted or not.
 BidTimeSeries.linkedBidsIdentification  -  Unique identification associated with all linked bids.
 BidTimeSeries.minimumActivationQuantity  -  The minimum quantity of energy that can be activated at a given time interval.
 BidTimeSeries.stepIncrementQuantity  -  The minimum increment that can be applied for an increase in an activation request.
 BidType
 BidTypeRMR
 BIF
 BilateralTransaction.curtailTimeMax  -  Maximum curtailment time in number of trading intervals
 BilateralTransaction.curtailTimeMin  -  Minimum curtailment time in number of trading intervals
 BilateralTransaction.marketType  -  Market type (default=DA) DA - Day Ahead RT - Real Time HA - Hour Ahead
 BilateralTransaction.purchaseTimeMax  -  Maximum purchase time in number of trading intervals
 BilateralTransaction.purchaseTimeMin  -  Minimum purchase time in number of trading intervals
 BilateralTransaction.scope  -  Transaction scope: 'Internal' (default) 'External'
 BilateralTransaction.totalTranChargeMax  -  Maximum total transmission (congestion) charges in monetary units
 BilateralTransaction.transactionType  -  Transaction type (default 1) 1 - Fixed 2 - Dispatchable continuous 3 - Dispatchable block-loading
 BILL_TO
 billCarryover
 BillDeterminant.calculationLevel  -  Level in charge calculation order.
 BillDeterminant.configVersion  -  The version of configuration of calculation logic in the settlement.
 BillDeterminant.deleteStatus
 BillDeterminant.effectiveDate
 BillDeterminant.exception
 BillDeterminant.factor
 BillDeterminant.frequency
 BillDeterminant.numberInterval  -  Number of intervals of bill determiant in trade day, eg 300 for five minute intervals.
 BillDeterminant.offset
 BillDeterminant.precisionLevel  -  The level of precision in the current value.
 BillDeterminant.primaryYN
 BillDeterminant.referenceFlag
 BillDeterminant.reportable
 BillDeterminant.roundOff
 BillDeterminant.source
 BillDeterminant.terminationDate
 BillDeterminant.unitOfMeasure  -  The UOM for the current value of the Bill Determinant.
 billing
 BillingAgent
 billingApproved
 billingPeriod
 billLastPeriod
 BillMediaKind
 billToDate
 BIOM
 bipolar
 BLACKSTART
 BlockEnergyTrader
 bluefill254
 BMD
 BN
 BND
 BOB
 BoilerControlMode
 BOTH
 both
 boundedQuantity
 BOV
 Bq
 Branch_Group_Derates
 branchCurrent
 BranchEndFlow.loadDumpRating  -  The Load Dump Rating for the branch
 BranchEndFlow.longTermRating  -  The Long Term Rating for the branch
 BranchEndFlow.mVARFlow  -  The MVAR flow on the branch Attribute Usage: Reactive power flow at the series device, transformer, phase shifter, or line end
 BranchEndFlow.mwFlow  -  The MW flow on the branch Attribute Usage: Active power flow at the series device, transformer, phase shifter, or line end
 BranchEndFlow.normalRating  -  The Normal Rating for the branch
 BranchEndFlow.shortTermRating  -  The Short Term Rating for the branch
 BranchGroup.maximumActivePower  -  The maximum active power flow.
 BranchGroup.maximumReactivePower  -  The maximum reactive power flow.
 BranchGroup.minimumActivePower  -  The minimum active power flow.
 BranchGroup.minimumReactivePower  -  The minimum reactive power flow.
 BranchGroup.monitorActivePower  -  Monitor the active power flow.
 BranchGroup.monitorReactivePower  -  Monitor the reactive power flow.
 BranchGroupTerminal.positiveFlowIn  -  The flow into the terminal is summed if set true. The flow out of the terminanl is summed if set false.
 BranchLongTerm
 BranchMediumTerm
 BranchShortTerm
 breaker
 Breaker.inTransitTime  -  The transition time from open to close.
 breakerAndAHalf
 BreakerConfiguration
 BreakerInfo.phaseTrip  -  Phase trip rating.
 breakerOperation
 BRL
 broadcastAddress
 broken
 BS
 BSD
 BTN
 Btu
 building
 bulkQuantity
 burd
 burnedInTheClear
 BUS
 BusbarConfiguration
 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
 BusbarSectionInfo.ratedCurrent  -  Rated current.
 BusbarSectionInfo.ratedVoltage  -  Rated voltage.
 busFrequency
 busFrequencyDeviation
 Bushing.c1Capacitance  -  Factory measured capacitance, measured between the power factor tap and the bushing conductor.
 Bushing.c1PowerFactor  -  Factory measured insulation power factor, measured between the power factor tap and the bushing conductor.
 Bushing.c2Capacitance  -  Factory measured capacitance measured between the power factor tap and ground.
 Bushing.c2PowerFactor  -  Factory measured insulation power factor, measured between the power factor tap and ground.
 Bushing.insulationKind  -  Kind of insulation.
 BushingInsulationKind
 BushingInsulationPF.status
 BushingInsulationPF.testKind  -  Kind of test for this bushing.
 BushingInsulationPfTestKind
 BusinessCase.corporateCode  -  A codified representation of the business case (i.e., codes for highway relocation, replace substation transformers, etc.).
 BusinessRole.status
 BusinessRole.type  -  Classification by utility's corporate standards and practices.
 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.
 busVoltage
 busVoltageDerivative
 butt
 butyl
 BUYER
 BWP
 BWRSteamSupply.highPowerLimit  -  High power limit.
 BWRSteamSupply.inCoreThermalTC  -  In-core thermal time constant.
 BWRSteamSupply.integralGain  -  Integral gain.
 BWRSteamSupply.lowerLimit  -  Initial lower limit.
 BWRSteamSupply.lowPowerLimit  -  Low power limit.
 BWRSteamSupply.pressureLimit  -  Pressure limit.
 BWRSteamSupply.pressureSetpointGA  -  Pressure setpoint gain adjuster.
 BWRSteamSupply.pressureSetpointTC1  -  Pressure setpoint time constant.
 BWRSteamSupply.pressureSetpointTC2  -  Pressure setpoint time constant.
 BWRSteamSupply.proportionalGain  -  Proportional gain.
 BWRSteamSupply.rfAux1  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux2  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux3  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux4  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux5  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux6  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux7  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rfAux8  -  Coefficient for modeling the effect of off-nominal frequency and voltage on recirculation and core flow, which affects the BWR power output.
 BWRSteamSupply.rodPattern  -  Rod pattern.
 BWRSteamSupply.rodPatternConstant  -  Constant associated with rod pattern.
 BWRSteamSupply.upperLimit  -  Initial upper limit.
 byPercentage
 BYR
 byValue
 BZD
 C
 c
 c1
 c2
 CA
 CA_value
 CableConstructionKind
 CableInfo.constructionKind  -  Kind of construction of this cable.
 CableInfo.diameterOverCore  -  Diameter over the core, including any semi-con screen; should be the insulating layer's inside diameter.
 CableInfo.diameterOverInsulation  -  Diameter over the insulating layer, excluding outer screen.
 CableInfo.diameterOverJacket  -  Diameter over the outermost jacketing layer.
 CableInfo.diameterOverScreen  -  Diameter over the outer screen; should be the shield's inside diameter.
 CableInfo.isStrandFill  -  True if wire strands are extruded in a way to fill the voids in the cable.
 CableInfo.nominalTemperature  -  Maximum nominal design operating temperature.
 CableInfo.outerJacketKind  -  Kind of outer jacket of this cable.
 CableInfo.sheathAsNeutral  -  True if sheath / shield is used as a neutral (i.e., bonded).
 CableInfo.shieldMaterial  -  Material of the shield.
 CableOuterJacketKind
 CableShieldMaterialKind
 CAD
 CAESPlant.energyStorageCapacity  -  The rated energy storage capacity.
 CAESPlant.ratedCapacityP  -  The CAES plant's gross rated generating capacity.
 calculated
 CalculationKind
 call
 CANCEL
 cancelled
 CANCELLED
 CANNOT
 CAP
 Capability.performanceFactor  -  Capability performance factor.
 Capability.status
 Capability.type  -  Classification by utility's work management standards and practices.
 Capability.validityInterval  -  Date and time interval for which this capability is valid (when it became effective and when it expires).
 Capacitance.multiplier
 Capacitance.unit
 Capacitance.value
 CapacitancePerLength.multiplier
 CapacitancePerLength.unit
 CapacitancePerLength.value
 capacitiveCoupling
 CapacityCoordinator
 CapacityTrader
 carbon
 carbonDioxide
 carbonDisulfide
 card
 Card.accountHolderName  -  Name of account holder.
 Card.cvNumber  -  The card verification number.
 Card.expiryDate  -  The date when this card expires.
 Card.pan  -  The primary account number.
 cash
 Cashier.electronicAddress  -  Electronic address.
 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.
 CCYC
 cd
 CDF
 cellon
 cellular
 cement
 CF
 ch4
 CHAIN
 Channel.isVirtual  -  If true, the data is being calculated by an enterprise system rather than metered directly.
 character
 Charge.fixedPortion  -  The fixed portion of this charge element.
 Charge.kind  -  The kind of charge to be applied.
 Charge.variablePortion  -  The variable portion of this charge element, calculated as a percentage of the total amount of a parent charge.
 CHARGE_CODE_INTERVAL_DETAIL
 CHARGE_CODE_INTERVAL_TOTAL
 CHARGE_CODE_SUMMARY
 CHARGE_GROUP
 ChargeComponent.deleteStatus
 ChargeComponent.effectiveDate
 ChargeComponent.equation
 ChargeComponent.message
 ChargeComponent.roundOff
 ChargeComponent.sum
 ChargeComponent.terminationDate
 ChargeComponent.type
 ChargeGroup.effectiveDate
 ChargeGroup.marketCode
 ChargeGroup.terminationDate
 ChargeKind
 ChargeProfile.frequency  -  The calculation frequency, daily or monthly.
 ChargeProfile.numberInterval  -  The number of intervals in the profile data.
 ChargeProfile.type  -  The type of profile. It could be amount, price, or quantity.
 ChargeProfile.unitOfMeasure  -  The unit of measure applied to the value attribute of the profile data.
 ChargeProfileData.sequence  -  The sequence number of the profile.
 ChargeProfileData.timeStamp  -  The date and time of an interval.
 ChargeProfileData.value  -  The value of an interval given a profile type (amount, price, or quantity), subject to the UOM.
 ChargeType.chargeOrder
 ChargeType.chargeVersion
 ChargeType.effectiveDate
 ChargeType.factor
 ChargeType.frequencyType
 ChargeType.terminationDate
 ChargeType.totalInterval
 charPers
 CheckOutType
 chemonite
 cheque
 Cheque.bankAccountDetail  -  Details of the account holder and bank.
 Cheque.chequeNumber  -  Cheque reference number as printed on the cheque.
 Cheque.date  -  Date when cheque becomes valid.
 Cheque.kind  -  Kind of cheque.
 Cheque.micrNumber  -  The magnetic ink character recognition number printed on the cheque.
 ChequeKind
 CHF
 CHG
 chlorine
 CI
 CIMDataObject.proxy  -  The object is acting as a reference proxy.
 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.
 Classification.multiplier
 Classification.unit
 Classification.value
 CleanTradeProductType
 ClearanceAction.kind  -  Clearance action to perform.
 ClearanceActionKind
 ClearanceDocument.mustBeDeenergised  -  If true, the equipment must be deenergised.
 ClearanceDocument.mustBeGrounded  -  If true, the equipment must be grounded.
 CLF
 close
 closed
 Closed
 CLP
 CM
 CMMT_MINLOAD_MLC
 CMMT_MINLOAD_MW
 CMMT_RA_MLC
 CMMT_RA_MW
 CMMT_RA_START_COST
 CMMT_RA_UNITS
 CMMT_RMR
 CMMT_TOTAL_MW
 CMMT_TOTAL_START_COST
 CMMT_TOTAL_UNITS
 CN
 CnodeDistributionFactor.factor  -  Used to calculate "participation" of Cnode in an AggregateNode
 CnodeDistributionFactor.podLossFactor  -  Point of delivery loss factor
 CNY
 co2
 COAL
 coal
 CogenerationPlant.cogenHPSendoutRating  -  The high pressure steam sendout.
 CogenerationPlant.cogenHPSteamRating  -  The high pressure steam rating.
 CogenerationPlant.cogenLPSendoutRating  -  The low pressure steam sendout.
 CogenerationPlant.cogenLPSteamRating  -  The low pressure steam rating.
 CogenerationPlant.ratedP  -  The rated output active power of the cogeneration plant.
 CombinedCycleConfiguration.primaryConfiguration  -  Whether this CombinedCycleConfiguration is the primary configuration in the associated Logical configuration?
 CombinedCycleConfiguration.ShutdownFlag  -  Whether Combined Cycle Plant can be shut-down in this Configuration?
 CombinedCycleConfiguration.StartupFlag  -  Whether Combined Cycle Plant can be started in this Logical Configuration?
 CombinedCycleConfigurationMember.primary  -  primary configuration.
 CombinedCycleConfigurationMember.steam  -  Steam plant.
 CombinedCyclePlant.combCyclePlantRating  -  The combined cycle plant's active power output rating.
 CombinedCycleTransitionState.upTransition  -  Flag indicating whether this is an UP transition. If not, it is a DOWN transition.
 CombustionTurbine.ambientTemp  -  Default ambient temperature to be used in modeling applications.
 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).
 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).
 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).
 CombustionTurbine.heatRecoveryFlag  -  Flag that is set to true if the combustion turbine is associated with a heat recovery boiler.
 CombustionTurbine.powerVariationByTemp  -  Per unit change in power per (versus) unit change in ambient temperature.
 CombustionTurbine.referenceTemp  -  Reference temperature at which the output of the turbine was defined.
 CombustionTurbine.timeConstant  -  The time constant for the turbine.
 ComDirectionKind
 ComFunction.amrAddress  -  Communication ID number (e.g. serial number, IP address, telephone number, etc.) of the AMR module which serves this meter.
 ComFunction.amrRouter  -  Communication ID number (e.g. port number, serial number, data collector ID, etc.) of the parent device associated to this AMR module.
 ComFunction.direction  -  Kind of communication direction.
 ComFunction.technology  -  Kind of communication technology.
 Command.normalValue  -  Normal value for Control.value e.g. used for percentage scaling.
 Command.value  -  The value representing the actuator output.
 commercial
 commercialIndustrial
 Commitments.commitmentType  -  the type of UC status (self commitment, ISO commitment, or SCUC commitment)
 Commitments.instructionCost  -  Total cost associated with changing the status of the resource.
 Commitments.instructionType  -  Indicator of either a Start-Up or a Shut-Down.
 Commitments.intervalEndTime  -  End time for the commitment period. This will be on an interval boundary.
 Commitments.intervalStartTime  -  Start time for the commitment period. This will be on an interval boundary.
 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
 Commitments.noLoadCost  -  Unit no load cost in case of energy commodity
 Commitments.updateTimeStamp
 Commitments.updateType
 Commitments.updateUser
 CommitmentType
 CommodityKind
 ComModule.amrSystem  -  Automated meter reading (AMR) system communicating with this com module.
 ComModule.supportsAutonomousDst  -  If true, autonomous daylight saving time (DST) function is supported.
 ComModule.timeZoneOffset  -  Time zone offset relative to GMT for the location of this com module.
 Common.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.
 Common.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.
 Common.Appointment  -  Meeting time and location.
 Common.Approver  -  Person who accepted/signed or rejected the document.
 Common.Author  -  Person who created document or activity record.
 Common.ConfigurationEvent  -  Used to report details on creation, change or deletion of an entity or its configuration.
 Common.CoordinateSystem  -  Coordinate reference system.
 Common.Crew  -  Group of people with specific skills, tools, and vehicles.
 Common.CrewMember  -  Member of a crew.
 Common.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.
 Common.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.
 Common.DocumentPersonRole  -  Person role with respect to documents.
 Common.Editor  -  Person who modified the document.
 Common.ElectronicAddress  -  Electronic address information.
 Common.Hazard  -  An object or a condition that is a danger for causing loss or perils to an asset and/or people.
 Common.Issuer  -  Person who issued the document and is responsible for its content.
 Common.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.
 Common.OperationPersonRole  -  Person role in the context of utility operations.
 Common.Operator  -  Control room operator.
 Common.Organisation  -  Organisation that might have roles as utility, contractor, supplier, manufacturer, customer, etc.
 Common.OrganisationRole  -  Identifies a way in which an organisation may participate in the utility enterprise (e.g., customer, manufacturer, etc).
 Common.Ownership  -  Ownership of e.g. asset.
 Common.Person  -  General purpose information for name and other information to contact people.
 Common.PersonRole
 Common.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).
 Common.Priority  -  Priority definition.
 Common.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.
 Common.ScheduledEventData  -  Schedule parameters for an activity that is to occur, is occurring, or has completed.
 Common.Status  -  Current status information relevant to an entity.
 Common.StreetAddress  -  General purpose street and postal address information.
 Common.StreetDetail  -  Street details, in the context of address.
 Common.TelephoneNumber  -  Telephone number.
 Common.TimePoint  -  A point in time within a sequence of points in time relative to a time schedule.
 Common.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).
 Common.TownDetail  -  Town details, in the context of address.
 Common.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.
 communication
 compacted
 CompatibleUnit.estCost  -  Estimated total cost for perfoming CU.
 CompatibleUnit.quantity  -  The quantity, unit of measure, and multiplier at the CU level that applies to the materials.
 competitiveRetailer
 completed
 ComplianceEvent.deadline  -  The deadline for compliance.
 complianceMonitor
 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.
 CompositeSwitchInfo.ganged  -  True if multi-phase switch controls all phases concurrently.
 CompositeSwitchInfo.initOpMode  -  Initial operating mode, with the following values: Automatic, Manual.
 CompositeSwitchInfo.interruptingRating  -  Breaking capacity, or short circuit rating, is the maximum rated current which the device can safely interrupt at the rated voltage.
 CompositeSwitchInfo.kind  -  Kind of composite switch.
 CompositeSwitchInfo.phaseCode  -  Phases carried, if applicable.
 CompositeSwitchInfo.phaseCount  -  Supported number of phases, typically 0, 1 or 3.
 CompositeSwitchInfo.ratedVoltage  -  Rated voltage.
 CompositeSwitchInfo.remote  -  True if device is capable of being operated by remote control.
 CompositeSwitchInfo.switchStateCount  -  Number of switch states represented by the composite switch.
 CompositeSwitchKind
 compound
 compressed
 ComTechnologyKind
 ConcentricNeutralCableInfo.diameterOverNeutral  -  Diameter over the concentric neutral strands.
 ConcentricNeutralCableInfo.neutralStrandCount  -  Number of concentric neutral strands.
 ConcentricNeutralCableInfo.neutralStrandGmr  -  Geometric mean radius of the neutral strand.
 ConcentricNeutralCableInfo.neutralStrandRadius  -  Outside radius of the neutral strand.
 ConcentricNeutralCableInfo.neutralStrandRDC20  -  DC resistance per unit length of the neutral strand at 20 °C.
 concrete
 condenser
 ConditionFactor.cfValue  -  The actual value of the condition factor, such as labor flat fee or percentage.
 ConditionFactor.kind  -  Kind of this condition factor.
 ConditionFactor.status
 ConditionFactorKind
 Conductance.multiplier
 Conductance.unit
 Conductance.value
 ConductancePerLength.multiplier
 ConductancePerLength.unit
 ConductancePerLength.value
 Conductor.length  -  Segment length for calculating line section capabilities
 ConfigurationEvent.effectiveDateTime  -  Date and time this event has or will become effective.
 ConfigurationEvent.modifiedBy  -  Source/initiator of modification.
 ConfigurationEvent.remark  -  Free text remarks.
 CongestionRevenueRights.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.
 CongestionRevenueRights.CRROrgRole  -  Identifies a way in which an organisation may participate with a defined Congestion Revenue Right (CRR).
 CongestionRevenueRights.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.
 connect
 ConnectDisconnectFunction.eventCount  -  Running cumulative count of connect or disconnect events, for the lifetime of this function or until the value is cleared.
 ConnectDisconnectFunction.isConnected  -  True if this function is in the connected state.
 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.
 ConnectDisconnectFunction.isLocalAutoDisconOp  -  If set true and if disconnection can be operated locally, the operation happens automatically. Otherwise it happens manually.
 ConnectDisconnectFunction.isLocalAutoReconOp  -  If set true and if reconnection can be operated locally, then the operation happens automatically. Otherwise, it happens manually.
 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.
 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.
 ConnectDisconnectFunction.rcdInfo  -  Information on remote connect disconnect switch.
 connected
 connectionFee
 conservator
 consolidatedEss
 consolidatedUdc
 constantYValue
 constantZ
 ConstraintDuration.duration  -  The duration of the constraint.
 ConstraintDuration.type  -  The type of the constraint.
 ConstraintLimitType
 ConstraintRampType
 ConstraintResults.baseFlow  -  Branch base Power Flow.
 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.
 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.
 ConstraintResults.bindingLimit  -  MW Limit.
 ConstraintResults.clearedValue  -  Cleared MW.
 ConstraintResults.competitivePathConstraint  -  Non-competitive path constraint Flag"(Y/N) indicating whether the shadow price on a non-competitive path was non-zero.
 ConstraintResults.constraintType  -  Type of constraint.
 ConstraintResults.limitFlag  -  Limit flag ('Maximum', 'Minimum').
 ConstraintResults.optimizationFlag  -  Included in optimization Y/N.
 ConstraintResults.overloadMW  -  Transmission overload MW.
 ConstraintResults.percentMW  -  Actual MW flow as percent of limit.
 ConstraintResults.shadowPrice  -  Shadow Price ($/MW) for the commodity. Shadow price for the corresponding constraint.
 ConstraintResults.updateTimeStamp  -  Update time stamp.
 ConstraintResults.updateType  -  MQS change type.
 ConstraintResults.updateUser  -  Updated user.
 ConstraintTerm.factor
 ConstraintTerm.function  -  The function is an enumerated value that can be 'active', 'reactive', or 'VA' to indicate the type of flow.
 construction
 CONSULTATIVE
 Consumer
 consumptionCharge
 ConsumptionResponsibleParty
 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.
 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.
 CONT
 CONTINGENCY
 Contingency
 Contingency.Contingency  -  An event threatening system reliability, consisting of one or more contingency elements.
 Contingency.ContingencyElement  -  An element of a system event to be studied by contingency analysis, representing a change in status of a single piece of equipment.
 Contingency.ContingencyEquipment  -  A equipment to which the in service status is to change such as a power transformer or AC line segment.
 Contingency.mustStudy  -  Set true if must study this contingency.
 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.
 ContingencyEquipmentStatusKind
 continuousCumulative
 ContractDistributionFactor.factor  -  MW value that this resource provides to the overall contract.
 ContractDistributionFactor.sinkFlag  -  This value will be set to YES if the referenced Cnode is defined as the sink point in the contract.
 ContractDistributionFactor.sourceFlag  -  This value will be set to YES if the referenced Cnode is defined as the source point in the contract.
 contractor
 ContractorItem.activityCode  -  Activity code identifies a specific and distinguishable unit of work.
 ContractorItem.bidAmount  -  The amount that a given contractor will charge for performing this unit of work.
 ContractorItem.cost  -  The total amount charged.
 ContractorItem.status
 ContractRight.chainOrder  -  When used in conjunction with a Transmission Right contract chain, this is the precedence for the contracts.
 ContractRight.contractMW  -  MW value of the contract
 ContractRight.contractPrice  -  Financial value of the contract
 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.
 ContractRight.contractStatus  -  Contract status
 ContractRight.contractType  -  type of the contract. Possible values are but not limited by: ETC, TOR or RMR and RMT self schedules
 ContractRight.endEffectiveDate  -  end effective date
 ContractRight.financialLocation  -  Indicator if the location associated with this contract is financial (e.g. pricing nodes) or physical (e.g. connectivity nodes).
 ContractRight.financialRightsDAM  -  Flag to indicate this contract provides financial rights in the DA Market
 ContractRight.financialRightsRTM  -  Flag to indicate this contract provides financial rights in the RT Market
 ContractRight.fuelAdder  -  Estimated Fuel Adder
 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.
 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.
 ContractRight.maximumScheduleQuantity  -  Maximum schedule MW quantity
 ContractRight.maximumServiceHours  -  Maximum service hours
 ContractRight.maximumStartups  -  Maximum startups
 ContractRight.maxNetDependableCapacity  -  Maximum Net Dependable Capacity
 ContractRight.minimumLoad  -  Minimum Load
 ContractRight.minimumScheduleQuantity  -  Minimum schedule quanity
 ContractRight.physicalRightsDAM  -  Flag to indicate this contract provides physical rights in the DA Market
 ContractRight.physicalRightsRTM  -  Flag to indicate this contract provides physical rights in the RT Market
 ContractRight.startEffectiveDate  -  start effective date
 ContractRight.startupLeadTime  -  Start up lead time
 ContractRight.TRType  -  Transmission Right type - is this an individual contract right or a chain contract right. Types = CHAIN or INDIVIDUAL
 ContractType
 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.
 Control.operationInProgress  -  Indicates that a client is currently sending control commands that has not completed.
 Control.timeStamp  -  The last time a control output was sent.
 Control.unitMultiplier  -  The unit multiplier of the controlled quantity.
 Control.unitSymbol  -  The unit of measure of the controlled quantity.
 ControlArea.AltGeneratingUnitMeas  -  A prioritized measurement to be used for the generating unit in the control area specificaiton.
 ControlArea.AltTieMeas  -  A prioritized measurement to be used for the tie flow as part of the control area specification.
 ControlArea.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.
 ControlArea.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.
 ControlArea.netInterchange  -  The specified positive net interchange into the control area, i.e. positive sign means flow in to the area.
 ControlArea.pTolerance  -  Active power net interchange tolerance
 ControlArea.TieFlow  -  A flow specification in terms of location and direction for a control area.
 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.
 ControlAreaDesignation.attained  -  Attained.
 ControlAreaDesignation.native  -  Native.
 ControlAreaOperator
 ControlAreaSolutionData.solvedInterchange  -  Pool MW Interchange Attribute Usage: The active power interchange of the pool
 ControlAreaSolutionData.solvedLosses  -  Pool Losses MW Attribute Usage: The active power losses of the pool in MW
 ControlAreaTypeKind
 ControlBlockOperator
 ControlCenter
 ControlledAppliance.isElectricVehicle  -  True if the appliance is an electric vehicle.
 ControlledAppliance.isExteriorLighting  -  True if the appliance is exterior lighting.
 ControlledAppliance.isGenerationSystem  -  True if the appliance is a generation system.
 ControlledAppliance.isHvacCompressorOrFurnace  -  True if the appliance is HVAC compressor or furnace.
 ControlledAppliance.isInteriorLighting  -  True if the appliance is interior lighting.
 ControlledAppliance.isIrrigationPump  -  True if the appliance is an irrigation pump.
 ControlledAppliance.isManagedCommercialIndustrialLoad  -  True if the appliance is managed commercial or industrial load.
 ControlledAppliance.isPoolPumpSpaJacuzzi  -  True if the appliance is a pool, pump, spa or jacuzzi.
 ControlledAppliance.isSimpleMiscLoad  -  True if the appliance is a simple miscellaneous load.
 ControlledAppliance.isSmartAppliance  -  True if the appliance is a smart appliance.
 ControlledAppliance.isStripAndBaseboardHeater  -  True if the appliance is a stip or baseboard heater.
 ControlledAppliance.isWaterHeater  -  True if the appliance is a water heater.
 CoolantType
 coolingFluid
 CoolingKind
 CoolingPowerRating.coolingKind  -  Kind of cooling system.
 CoolingPowerRating.powerRating  -  The power rating associated with type of cooling specified for this stage.
 CoolingPowerRating.stage  -  Stage of cooling and associated power rating.
 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.
 CoordinationCenterOperator
 COP
 copper
 core
 Core.ACDCTerminal  -  An electrical connection point (AC or DC) to a piece of conducting equipment. Terminals are connected at physical connection points called connectivity nodes.
 Core.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.
 Core.BasePower  -  The BasePower class defines the base power used in the per unit calculations.
 Core.BaseVoltage  -  Defines a system base voltage which is referenced.
 Core.BasicIntervalSchedule  -  Schedule of values at points in time.
 Core.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.
 Core.ConductingEquipment  -  The parts of the AC power system that are designed to carry current or that are conductively connected through terminals.
 Core.ConnectivityNode  -  Connectivity nodes are points where terminals of AC conducting equipment are connected together with zero impedance.
 Core.ConnectivityNodeContainer  -  A base class for all objects that may contain connectivity nodes or topological nodes.
 Core.Curve  -  A multi-purpose curve or functional relationship between an independent variable (X-axis) and dependent (Y-axis) variables.
 Core.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.
 Core.Equipment  -  The parts of a power system that are physical devices, electronic or mechanical.
 Core.EquipmentContainer  -  A modeling construct to provide a root class for containing equipment.
 Core.GeographicalRegion  -  A geographical region of a power system network model.
 Core.IdentifiedObject  -  This is a root class to provide common identification for all classes needing identification and naming attributes.
 Core.IrregularIntervalSchedule  -  The schedule has time points where the time between them varies.
 Core.IrregularTimePoint  -  TimePoints for a schedule where the time between the points varies.
 Core.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'.
 Core.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.
 Core.NameTypeAuthority  -  Authority responsible for creation and management of names of a given type; typically an organization or an enterprise system.
 Core.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.
 Core.OperatingShare  -  Specifies the operations contract relationship between a power system resource and a contract participant.
 Core.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.
 Core.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.
 Core.RegularIntervalSchedule  -  The schedule has time points where the time between them is constant.
 Core.RegularTimePoint  -  Time point for a schedule where the time between the consecutive points is constant.
 Core.ReportingGroup  -  A reporting group is used for various ad-hoc groupings used for reporting.
 Core.ReportingSuperGroup  -  A reporting super group, groups reporting groups for a higher level report.
 Core.SubGeographicalRegion  -  A subset of a geographical region of a power system network model.
 Core.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.
 Core.Terminal  -  An AC electrical connection point to a piece of conducting equipment. Terminals are connected at physical connection points called connectivity nodes.
 Core.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.
 CorporateStandardKind
 cosPhi
 COST
 COST_BASED
 CostBasis
 CostPerEnergyUnit.denominatorMultiplier
 CostPerEnergyUnit.denominatorUnit
 CostPerEnergyUnit.multiplier
 CostPerEnergyUnit.unit
 CostPerEnergyUnit.value
 CostPerHeatUnit.denominatorMultiplier
 CostPerHeatUnit.denominatorUnit
 CostPerHeatUnit.multiplier
 CostPerHeatUnit.unit
 CostPerHeatUnit.value
 CostPerVolume.denominatorMultiplier
 CostPerVolume.denominatorUnit
 CostPerVolume.multiplier
 CostPerVolume.unit
 CostPerVolume.value
 CostRate.denominatorMultiplier
 CostRate.denominatorUnit
 CostRate.multiplier
 CostRate.unit
 CostRate.value
 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).
 CostType.code  -  A codified representation of the resource element.
 CostType.level  -  The level of the resource element in the hierarchy of resource elements (recursive relationship).
 CostType.stage  -  The stage for which this costType applies: estimated design, estimated actual or actual actual.
 CostType.status
 COU
 count
 CPerkg
 CPerm2
 CPerm3
 CPT
 CPZ
 Craft.status
 Craft.type  -  Classification by utility's work mangement standards and practices.
 CRC
 CREATED
 CREDIT
 creosote
 crew
 Crew.status  -  Status of this crew.
 CRITICAL
 crosslinkedPolyethylene
 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
 CRR.cRRtype  -  Type of the CRR, from the possible type definitions in the CRR System (e.g. 'LSE', 'ETC').
 CRR.hedgeType  -  hedger type Obligation or Option
 CRR.timeOfUse  -  Time of Use flag of the CRR - Peak (ON), Offpeak (OFF) or all 24 hours (24HR).
 CRR.tradeSliceID  -  Segment of the CRR described in the current record
 CRR_CAT
 CRR_CLEARING
 CRR_INVENTORY
 CRR_MARKET_value
 CRR_MW
 CRR_NSR
 CRR_OPTION
 CRR_OWNER
 CRR_SEGMENT
 CRR_TERM
 CRR_TOU
 CRR_TYPE
 CRRCategoryType
 CRRHedgeType
 CRRMarket.labelID  -  labelID - an ID for a set of apnodes/pnodes used in a CRR market
 CRROrgRole.kind  -  Kind of role the organisation is with regards to the congestion revenue rights.
 CRROrgRole.status  -  Status of congestion revenue rights organisation role.
 CRRRoleType
 CRRSegment.amount  -  Dollar amount = quantity x clearingPrice
 CRRSegment.clearingPrice  -  Clearing price of a CRR
 CRRSegment.endDateTime  -  segment end date time
 CRRSegment.quantity  -  The MW amount associated with the CRR
 CRRSegment.startDateTime  -  segment start date time
 CRRSegmentType
 CsConverter.alpha  -  Firing angle, typical value between 10 and 18 degrees for a rectifier. CSC state variable, result from power flow.
 CsConverter.gamma  -  Extinction angle. CSC state variable, result from power flow.
 CsConverter.maxAlpha  -  Maximum firing angle. CSC configuration data used in power flow.
 CsConverter.maxGamma  -  Maximum extinction angle. CSC configuration data used in power flow.
 CsConverter.maxIdc  -  The maximum direct current (Id) on the DC side at which the converter should operate. Converter configuration data use in power flow.
 CsConverter.minAlpha  -  Minimum firing angle. CSC configuration data used in power flow.
 CsConverter.minGamma  -  Minimum extinction angle. CSC configuration data used in power flow.
 CsConverter.minIdc  -  The minimum direct current (Id) on the DC side at which the converter should operate. CSC configuration data used in power flow.
 CsConverter.operatingMode  -  Indicates whether the DC pole is operating as an inverter or as a rectifier. CSC control variable used in power flow.
 CsConverter.pPccControl
 CsConverter.ratedIdc  -  Rated converter DC current, also called IdN. Converter configuration data used in power flow.
 CsConverter.targetAlpha  -  Target firing angle. CSC control variable used in power flow.
 CsConverter.targetGamma  -  Target extinction angle. CSC control variable used in power flow.
 CsConverter.targetIdc  -  DC current target value. CSC control variable used in power flow.
 CSNK
 CsOperatingModeKind
 CsPpccControlKind
 CSRC
 CTL
 ctRatio
 CUAllowableAction.status
 CUC
 CUContractorItem.activityCode  -  Activity code identifies a specific and distinguishable unit of work.
 CUContractorItem.bidAmount  -  The amount that a given contractor will charge for performing this unit of work.
 CUContractorItem.status
 CUGroup.status
 CULaborCode.code  -  Labor code.
 CULaborCode.status
 CULaborItem.activityCode  -  Activity code identifies a specific and distinguishable unit of work.
 CULaborItem.laborDuration  -  Estimated time to perform work.
 CULaborItem.laborRate  -  The labor rate applied for work.
 CULaborItem.status
 CUMaterialItem.corporateCode  -  Code for material.
 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.
 CUMaterialItem.status
 cumulative
 CUP
 currency
 Currency
 current
 currentAngle
 CurrentEmergencyScheduledInterchange.emergencyScheduleMW  -  Net tie MW. These are three entries, the current emergency schedule interchange and the two future schedules if they exist.
 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.
 CurrentEmergencyScheduledInterchange.emergencyScheduleStartTime  -  Net tie time, the start time for a schedule. This is calculated as the current time if a schedule is ramping.
 currentFlow
 CurrentFlow.multiplier
 CurrentFlow.unit
 CurrentFlow.value
 currentImbalance
 currentLimit
 CurrentLimit.value  -  Limit on current flow.
 CurrentRelay.currentLimit1  -  Current limit number one 1 for inverse time pickup.
 CurrentRelay.currentLimit2  -  Current limit number 2 for inverse time pickup.
 CurrentRelay.currentLimit3  -  Current limit number 3 for inverse time pickup.
 CurrentRelay.inverseTimeFlag  -  Set true if the current relay has inverse time characteristic.
 CurrentRelay.timeDelay1  -  Inverse time delay number 1 for current limit number 1.
 CurrentRelay.timeDelay2  -  Inverse time delay number 2 for current limit number 2.
 CurrentRelay.timeDelay3  -  Inverse time delay number 3 for current limit number 3.
 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.
 CurrentScheduledInterchange.useEmergencySchedule  -  Use Emergency Schedule Attribute Usage: Emergency use indicator, false = Emergency Schedular OFF, true = Emergency Schedular ON.
 CurrentStatusSC
 CurrentTransformer.accuracyClass  -  CT accuracy classification.
 CurrentTransformer.accuracyLimit  -  Percent of rated current for which the CT remains accurate within specified limits.
 CurrentTransformer.coreBurden  -  Power burden of the CT core.
 CurrentTransformer.ctClass  -  CT classification; i.e. class 10P.
 CurrentTransformer.usage  -  Intended usage of the CT; i.e. metering, protection.
 CurrentTransformerInfo.accuracyClass  -  CT accuracy classification.
 CurrentTransformerInfo.accuracyLimit  -  Accuracy limit.
 CurrentTransformerInfo.coreCount  -  Number of cores.
 CurrentTransformerInfo.ctClass
 CurrentTransformerInfo.kneePointCurrent  -  Maximum primary current where the CT still displays linear characteristicts.
 CurrentTransformerInfo.kneePointVoltage  -  Maximum voltage across the secondary terminals where the CT still displays linear characteristicts.
 CurrentTransformerInfo.maxRatio  -  Maximum ratio between the primary and secondary current.
 CurrentTransformerInfo.nominalRatio  -  Nominal ratio between the primary and secondary current; i.e. 100:5.
 CurrentTransformerInfo.primaryFlsRating  -  Full load secondary (FLS) rating for primary winding.
 CurrentTransformerInfo.primaryRatio  -  Ratio for the primary winding tap changer.
 CurrentTransformerInfo.ratedCurrent  -  Rated current on the primary side.
 CurrentTransformerInfo.secondaryFlsRating  -  Full load secondary (FLS) rating for secondary winding.
 CurrentTransformerInfo.secondaryRatio  -  Ratio for the secondary winding tap changer.
 CurrentTransformerInfo.tertiaryFlsRating  -  Full load secondary (FLS) rating for tertiary winding.
 CurrentTransformerInfo.tertiaryRatio  -  Ratio for the tertiary winding tap changer.
 CurrentTransformerInfo.usage  -  Usage: eg. metering, protection, etc.
 Curve.curveStyle  -  The style or shape of the curve.
 Curve.xMultiplier  -  Multiplier for X-axis.
 Curve.xUnit  -  The X-axis units of measure.
 Curve.y1Multiplier  -  Multiplier for Y1-axis.
 Curve.y1Unit  -  The Y1-axis units of measure.
 Curve.y2Multiplier  -  Multiplier for Y2-axis.
 Curve.y2Unit  -  The Y2-axis units of measure.
 Curve.y3Multiplier  -  Multiplier for Y3-axis.
 Curve.y3Unit  -  The Y3-axis units of measure.
 CurveData.xvalue  -  The data value of the X-axis variable, depending on the X-axis units.
 CurveData.y1value  -  The data value of the first Y-axis variable, depending on the Y-axis units.
 CurveData.y2value  -  The data value of the second Y-axis variable (if present), depending on the Y-axis units.
 CurveData.y3value  -  The data value of the third Y-axis variable (if present), depending on the Y-axis units.
 CurveStyle
 CUSTOMER
 Customer.kind  -  Kind of customer.
 Customer.locale  -  Locale designating language to use in communications with this customer.
 Customer.priority  -  Priority of the customer.
 Customer.pucNumber  -  (if applicable) Public utilities commission (PUC) identification number.
 Customer.specialNeed  -  True if customer organisation has special service needs such as life support, hospitals, etc.
 Customer.status  -  Status of this customer.
 Customer.vip  -  (use 'priority' instead) True if this is an important customer. Importance is for matters different than those in 'specialNeed' attribute.
 CustomerAccount.billingCycle  -  Cycle day on which the associated customer account will normally be billed, used to determine when to produce the billing.
 CustomerAccount.budgetBill  -  Budget bill code.
 CustomerAccount.lastBillAmount  -  The last amount that will be billed to the customer prior to shut off of the account.
 CustomerAgreement.isPrePay  -  If true, the customer is a pre-pay customer for the specified service.
 CustomerAgreement.loadMgmt  -  Load management code.
 CustomerAgreement.shutOffDateTime  -  Final date and time the service will be billed to the previous customer.
 CustomerBillingInfo.billingDate  -  Business date designated for the billing run which produced this CustomerBillingInfo.
 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'.
 CustomerBillingInfo.kind  -  Kind of bill customer receives.
 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.
 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.
 CustomerBillingInfo.outBalance  -  Outstanding balance on the CustomerAccount as of the statement date.
 CustomerBillingInfo.pymtPlanAmt  -  Monthly amortized amount due during each billing cycle for the CustomerAccount balance for which the Payment Plan is set-up.
 CustomerBillingInfo.pymtPlanType  -  Type of payment plan.
 CustomerBillingKind
 CustomerKind
 CustomerNotification.contactType  -  Type of contact (e.g., phone, email, etc.).
 CustomerNotification.contactValue  -  Value of contact type (e.g., phone number, email address, etc.).
 CustomerNotification.earliestDateTimeToCall  -  Earliest date time to call the customer.
 CustomerNotification.latestDateTimeToCall  -  Latest date time to call the customer.
 CustomerNotification.trigger  -  Trigger for this notification.
 customerPremise
 Customers.Customer  -  Organisation receiving services from service supplier.
 Customers.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.
 Customers.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.
 Customers.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.)
 Customers.IncidentHazard  -  Hazardous situation associated with an incident. Examples are line down, gas leak, fire, etc.
 Customers.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.
 Customers.ServiceCategory  -  Category of service provided to the customer.
 Customers.ServiceLocation  -  A real estate location, commonly referred to as premises.
 Customers.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).
 Customers.TroubleTicket
 customerSubstation
 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.
 CutAction.kind  -  Switching action to perform.
 CUWorkEquipmentItem.equipCode  -  The equipment type code.
 CUWorkEquipmentItem.rate  -  Standard usage rate for the type of vehicle.
 CUWorkEquipmentItem.status
 CV
 CVE
 CVR
 CX
 CZK
 D
 d
 da
 DA
 DABE
 daily
 DAILY_INITIAL_CREDIT
 DAILY_INITIAL_MARKET
 DAILY_RECALC_MARKET
 DAM
 DAMMarketType
 Damping.multiplier
 Damping.unit
 Damping.value
 DAPE
 DASE
 Data_can_be_requested_for_period_of_31_days_only
 Data_Transfer_Procedure_Initiated
 Data_Transfer_Succesful
 dataOverflowAlarm
 date
 DateAndOrTime.date  -  Date as "yyyy-mm-dd", which conforms with ISO 8601
 DateAndOrTime.time  -  Time as "hh:mm:ss.sssZ", which conforms with ISO 8601.
 DateInterval.end  -  End date of this interval.
 DateInterval.start  -  Start date of this interval.
 DateTimeInterval.end  -  End date and time of this interval.
 DateTimeInterval.start  -  Start date and time of this interval.
 Day_Ahead_Final_Market_Info
 Day_Ahead_Forecast_Information
 Day_Ahead_Interim_Market_Info
 Day_Ahead_RMR
 dB
 dBm
 DC.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.
 DC.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.
 DC.CsConverter  -  DC side of the current source converter (CSC).
 DC.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.
 DC.DCBreaker  -  A breaker within a DC system.
 DC.DCBusbar  -  A busbar within a DC system.
 DC.DCChopper  -  Low resistance equipment used in the internal DC circuit to balance voltages. It has typically positive and negative pole terminals and a ground.
 DC.DCConductingEquipment  -  The parts of the DC power system that are designed to carry current or that are conductively connected through DC terminals.
 DC.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.
 DC.DCDisconnector  -  A disconnector within a DC system.
 DC.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.
 DC.DCGround  -  A ground within a DC system.
 DC.DCLine  -  Overhead lines and/or cables connecting two or more HVDC substations.
 DC.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.
 DC.DCNode  -  DC nodes are points where terminals of DC conducting equipment are connected together with zero impedance.
 DC.DCSeriesDevice  -  A series device within the DC system, typically a reactor used for filtering or smoothing. Needed for transient and short circuit studies.
 DC.DCShunt  -  A shunt device within the DC system, typically used for filtering. Needed for transient and short circuit studies.
 DC.DCSwitch  -  A switch within the DC system.
 DC.DCTerminal  -  An electrical connection point to generic DC conducting equipment.
 DC.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.
 DC.PerLengthDCLineParameter
 DC.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.
 DC.VsConverter  -  DC side of the voltage source converter (VSC).
 DCA
 DCConverterOperatingModeKind
 DCConverterUnit.operationMode
 dcCurrent
 DCGround.inductance  -  Inductance to ground.
 DCGround.r  -  Resistance to ground.
 DCIMFaultModel
 DCIMWireInfo
 DCLineSegment.capacitance  -  Capacitance of the DC line segment. Significant for cables only.
 DCLineSegment.inductance  -  Inductance of the DC line segment. Neglectable compared with DCSeriesDevice used for smoothing.
 DCLineSegment.length  -  Segment length for calculating line section capabilities.
 DCLineSegment.resistance  -  Resistance of the DC line segment.
 DCPolarityKind
 DCSeriesDevice.inductance  -  Inductance of the device.
 DCSeriesDevice.ratedUdc  -  Rated DC device voltage. Converter configuration data used in power flow.
 DCSeriesDevice.resistance  -  Resistance of the DC device.
 DCShunt.capacitance  -  Capacitance of the DC shunt.
 DCShunt.ratedUdc  -  Rated DC device voltage. Converter configuration data used in power flow.
 DCShunt.resistance  -  Resistance of the DC device.
 dcVoltage
 DecimalQuantity.currency  -  Quantity with decimal value and associated unit or currency information.
 DecimalQuantity.multiplier
 DecimalQuantity.unit
 DecimalQuantity.value
 DECLINE
 Decommissioned
 default
 DEFAULT_ENERGY_BID
 DEFAULT_MINIMUM_LOAD_BID
 DEFAULT_STARTUP_BID
 DefaultBid.bidType  -  Default bid type such as Default Energy Bid, Default Minimum Load Bid, and Default Startup Bid
 DefaultBid.minLoadCost  -  Minimum load cost in $/hr
 DefaultBid.peakFlag  -  on-peak, off-peak, or all
 DefaultBidCurve.curveType  -  To indicate a type used for a default energy bid curve, such as LMP, cost or consultative based.
 DefaultBidCurve.debAdderFlag  -  Default energy bid adder flag
 DefaultBidCurveData.bidSegmentCalcType  -  Type of calculation basis used to define the default bid segment curve.
 DEFAULTED
 deg
 degC
 DEL
 DELETED
 deltaData
 demand
 demandCharge
 demandLimit
 demandReset
 demandResponse
 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.
 DemandResponseProgram.validityInterval  -  Interval within which the program is valid.
 DemographicKind
 deny
 depot
 Design.costEstimate  -  Estimated cost (not price) of design.
 Design.kind  -  Kind of this design.
 Design.price  -  Price to customer for implementing design.
 DesignKind
 DesignLocation.spanLength  -  The legth of the span from the previous pole to this pole.
 DesignLocation.status
 DesignLocationCU.cuAccount  -  A code that helps direct accounting (capital, expense, or accounting treatment).
 DesignLocationCU.cuAction  -  A code that instructs the crew what action to perform.
 DesignLocationCU.cuQuantity  -  The quantity of the CU being assigned to this location.
 DesignLocationCU.cuUsage  -  As the same CU can be used for different purposes and accounting purposes, usage must be specified. Examples include: distribution, transmission, substation.
 DesignLocationCU.removalDate  -  Year when a CU that represents an asset is removed.
 DesignLocationCU.status
 DesignLocationCU.toBeEnergised  -  True if associated electrical equipment is intended to be energized while work is being performed.
 DetailedDiagrams.Legend
 DetailedDiagrams.Text
 deviceAddressType1
 deviceAddressType2
 deviceAddressType3
 deviceAddressType4
 deviceClass
 diagnosis
 DiagnosisDataSet.effect  -  Effect of problem.
 DiagnosisDataSet.failureMode  -  Failuer mode, for example: Failure to Insulate; Failure to conduct; Failure to contain oil; Failure to provide ground plane; Other.
 DiagnosisDataSet.finalCause  -  Cause of problem determined during diagnosis.
 DiagnosisDataSet.finalCode  -  Code for diagnosed probem type.
 DiagnosisDataSet.finalOrigin  -  Origin of problem determined during diagnosis.
 DiagnosisDataSet.finalRemark  -  Remarks pertaining to findings during problem diagnosis.
 DiagnosisDataSet.phaseCode  -  Phase(s) diagnosed.
 DiagnosisDataSet.preliminaryCode  -  Code for problem type determined during preliminary assessment.
 DiagnosisDataSet.preliminaryDateTime  -  Date and time preliminary assessment of problem was performed.
 DiagnosisDataSet.preliminaryRemark  -  Remarks pertaining to preliminary assessment of problem.
 DiagnosisDataSet.rootCause  -  Root cause of problem determined during diagnosis.
 DiagnosisDataSet.rootOrigin  -  Root origin of problem determined during diagnosis.
 DiagnosisDataSet.rootRemark  -  Remarks pertaining to root cause findings during problem diagnosis.
 diagnostic
 Diagram.orientation  -  Coordinate system orientation of the diagram.
 Diagram.x1InitialView  -  X coordinate of the first corner of the initial view.
 Diagram.x2InitialView  -  X coordinate of the second corner of the initial view.
 Diagram.y1InitialView  -  Y coordinate of the first corner of the initial view.
 Diagram.y2InitialView  -  Y coordinate of the second corner of the initial view.
 DiagramLayout.Diagram  -  The diagram being exchanged. The coordinate system is a standard Cartesian coordinate system and the orientation attribute defines the orientation.
 DiagramLayout.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.
 DiagramLayout.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.
 DiagramLayout.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.
 DiagramLayout.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.
 DiagramLayout.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.
 DiagramLayout.TextDiagramObject  -  A diagram object for placing free-text or text derived from an associated domain object.
 DiagramLayout.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.
 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.
 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.
 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.
 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.
 DiagramObject.rotation  -  Sets the angle of rotation of the diagram object. Zero degrees is pointing to the top of the diagram. Rotation is clockwise.
 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.
 DiagramObjectPoint.xPosition  -  The X coordinate of this point.
 DiagramObjectPoint.yPosition  -  The Y coordinate of this point.
 DiagramObjectPoint.zPosition  -  The Z coordinate of this point.
 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.
 DimensionsInfo.sizeDepth  -  Depth measurement.
 DimensionsInfo.sizeDiameter  -  Diameter measurement.
 DimensionsInfo.sizeLength  -  Length measurement.
 DimensionsInfo.sizeWidth  -  Width measurement.
 dirt
 disableReclosing
 Disappear
 DiscExcContIEEEDEC1A.esc  -  Speed change reference (ESC). Typical Value = 0.0015.
 DiscExcContIEEEDEC1A.kan  -  Discontinuous controller gain (KAN). Typical Value = 400.
 DiscExcContIEEEDEC1A.ketl  -  Terminal voltage limiter gain (KETL). Typical Value = 47.
 DiscExcContIEEEDEC1A.tan  -  Discontinuous controller time constant (TAN). Typical Value = 0.08.
 DiscExcContIEEEDEC1A.td  -  Time constant (TD). Typical Value = 0.03.
 DiscExcContIEEEDEC1A.tl1  -  Time constant (TL1). Typical Value = 0.025.
 DiscExcContIEEEDEC1A.tl2  -  Time constant (TL2). Typical Value = 1.25.
 DiscExcContIEEEDEC1A.tw5  -  DEC washout time constant (TW5). Typical Value = 5.
 DiscExcContIEEEDEC1A.val  -  Regulator voltage reference (VAL). Typical Value = 5.5.
 DiscExcContIEEEDEC1A.vanmax  -  Limiter for Van (VANMAX).
 DiscExcContIEEEDEC1A.vomax  -  Limiter (VOMAX). Typical Value = 0.3.
 DiscExcContIEEEDEC1A.vomin  -  Limiter (VOMIN). Typical Value = 0.1.
 DiscExcContIEEEDEC1A.vsmax  -  Limiter (VSMAX). Typical Value = 0.2.
 DiscExcContIEEEDEC1A.vsmin  -  Limiter (VSMIN). Typical Value = -0.066.
 DiscExcContIEEEDEC1A.vtc  -  Terminal voltage level reference (VTC). Typical Value = 0.95.
 DiscExcContIEEEDEC1A.vtlmt  -  Voltage reference (VTLMT). Typical Value = 1.1.
 DiscExcContIEEEDEC1A.vtm  -  Voltage limits (VTM). Typical Value = 1.13.
 DiscExcContIEEEDEC1A.vtn  -  Voltage limits (VTN). Typical Value = 1.12.
 DiscExcContIEEEDEC2A.td1  -  Discontinuous controller time constant (TD1).
 DiscExcContIEEEDEC2A.td2  -  Discontinuous controller washout time constant (TD2).
 DiscExcContIEEEDEC2A.vdmax  -  Limiter (VDMAX).
 DiscExcContIEEEDEC2A.vdmin  -  Limiter (VDMIN).
 DiscExcContIEEEDEC2A.vk  -  Discontinuous controller input reference (VK).
 DiscExcContIEEEDEC3A.tdr  -  Reset time delay (TDR).
 DiscExcContIEEEDEC3A.vtmin  -  Terminal undervoltage comparison level (VTMIN).
 disconnect
 DiscontinuousExcitationControlDynamics.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.
 DiscontinuousExcitationControlDynamics.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.
 DiscontinuousExcitationControlDynamics.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.
 DiscontinuousExcitationControlDynamics.DiscontinuousExcitationControlDynamics  -  Discontinuous excitation control function block whose behaviour is described by reference to a standard model or by definition of a user-defined model.
 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.
 DISCRETE
 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.
 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.
 Discrete.normalValue  -  Normal measurement value, e.g., used for percentage calculations.
 DiscreteMeasurementValueQuality.manualReplaceIndicator  -  Switch Manual Replace Indicator. Flag indicating that the switch is manual replace.
 DiscreteMeasurementValueQuality.removeFromOperationIndicator  -  Removed From Operation Indicator. Flag indicating that the switch is removed from operation.
 DiscreteValue.value  -  The value to supervise.
 DispatchAcceptStatus
 dispatched
 DispatchInstReply.acceptMW  -  The accepted mw amount by the responder. aka response mw.
 DispatchInstReply.acceptStatus  -  The accept status submitted by the responder. enumeration type needs to be defined
 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.
 DispatchInstReply.clearedMW  -  MW amount associated with instruction. For 5 minute binding dispatches, this is the Goto MW or DOT
 DispatchInstReply.instructionTime  -  The target date/time for the received instruction.
 DispatchInstReply.instructionType  -  instruction type: commitment out of sequence dispatch
 DispatchInstReply.passIndicator  -  The type of run for the market clearing.
 DispatchInstReply.receivedTime  -  Timestamp indicating the time at which the instruction was received.
 DispatchInstReply.startTime  -  start time
 DispatchResponseType
 DispatchTransactionType
 Displacement.multiplier
 Displacement.unit
 Displacement.value
 DIST
 distance
 distortionPowerFactor
 distortionVoltAmp
 distribution
 DistributionFactorSet.intervalEndTime  -  The end of the time interval for which requirement is defined.
 DistributionFactorSet.intervalStartTime  -  The start of the time interval for which requirement is defined.
 DistributionFactorSet.marketType
 distributionOverhead
 distributionProvider
 distributionUnderground
 div
 diversePayment
 DJF
 DKK
 DMLE
 DocIEC61968.Text
 Document.authorName  -  Name of the author of this document.
 Document.comment  -  Free text comment.
 Document.createdDateTime  -  Date and time that this document was created.
 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.
 Document.electronicAddress  -  Electronic address.
 Document.lastModifiedDateTime  -  Date and time this document was last modified. Documents may potentially be modified many times during their lifetime.
 Document.revisionNumber  -  Revision number for this document.
 Document.status  -  Status of subject matter (e.g., Agreement, Work) this document represents. For status of the document itself, use 'docStatus' attribute.
 Document.subject  -  Document subject.
 Document.title  -  Document title.
 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.).
 Domain.ActivePower  -  Product of RMS value of the voltage and the RMS value of the in-phase component of the current.
 Domain.ActivePowerChangeRate  -  Rate of change of active power per time.
 Domain.ActivePowerPerCurrentFlow
 Domain.ActivePowerPerFrequency  -  Active power variation with frequency.
 Domain.Admittance  -  Ratio of current to voltage.
 Domain.AngleDegrees  -  Measurement of angle in degrees.
 Domain.AngleRadians  -  Phase angle in radians.
 Domain.ApparentPower  -  Product of the RMS value of the voltage and the RMS value of the current.
 Domain.Area  -  Area.
 Domain.Capacitance  -  Capacitive part of reactance (imaginary part of impedance), at rated frequency.
 Domain.CapacitancePerLength  -  Capacitance per unit of length.
 Domain.Conductance  -  Factor by which voltage must be multiplied to give corresponding power lost from a circuit. Real part of admittance.
 Domain.ConductancePerLength  -  Real part of admittance per unit of length.
 Domain.CostPerEnergyUnit  -  Cost, in units of currency, per quantity of electrical energy generated.
 Domain.CostPerVolume  -  Cost per unit volume.
 Domain.CostRate  -  Cost, in units of currency, per elapsed time.
 Domain.CurrentFlow  -  Electrical current with sign convention: positive flow is out of the conducting equipment into the connectivity node. Can be both AC and DC.
 Domain.Damping  -  Per-unit active power variation with frequency referenced on the system apparent power base. Typical values are in range 1.0 - 2.0.
 Domain.DateInterval  -  Interval between two dates.
 Domain.DateTimeInterval  -  Interval between two date and time points.
 Domain.Decimal  -  Decimal is the base-10 notational system for representing real numbers.
 Domain.DecimalQuantity
 Domain.Displacement  -  Unit of displacement relative a reference position, hence can be negative.
 Domain.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.
 Domain.FloatQuantity  -  Quantity with float value and associated unit information.
 Domain.Frequency  -  Cycles per second.
 Domain.Hours  -  Time specified in hours.
 Domain.Impedance  -  Ratio of voltage to current.
 Domain.Inductance  -  Inductive part of reactance (imaginary part of impedance), at rated frequency.
 Domain.InductancePerLength  -  Inductance per unit of length.
 Domain.IntegerQuantity  -  Quantity with integer value and associated unit information.
 Domain.KiloActivePower  -  Active power in kilowatts.
 Domain.Length  -  Unit of length. Never negative.
 Domain.Minutes  -  Time in minutes.
 Domain.Money  -  Amount of money.
 Domain.MonthDay  -  MonthDay format as "--mm-dd", which conforms with XSD data type gMonthDay.
 Domain.MonthDayInterval  -  Interval between two times specified as mont and date.
 Domain.PerCent  -  Percentage on a defined base. For example, specify as 100 to indicate at the defined base.
 Domain.Pressure  -  Pressure in Pascal.
 Domain.PU  -  Per Unit - a positive or negative value referred to a defined base. Values typically range from -10 to +10.
 Domain.Reactance  -  Reactance (imaginary part of impedance), at rated frequency.
 Domain.ReactancePerLength  -  Reactance (imaginary part of impedance) per unit of length, at rated frequency.
 Domain.ReactivePower  -  Product of RMS value of the voltage and the RMS value of the quadrature component of the current.
 Domain.RealEnergy  -  Real electrical energy.
 Domain.Resistance  -  Resistance (real part of impedance).
 Domain.ResistancePerLength  -  Resistance (real part of impedance) per unit of length.
 Domain.RotationSpeed  -  Number of revolutions per second.
 Domain.Seconds  -  Time, in seconds.
 Domain.Speed  -  Distance per unit of time.
 Domain.StringQuantity  -  Quantity with string value (when it is not important whether it is an integral or a floating point number) and associated unit information.
 Domain.Susceptance  -  Imaginary part of admittance.
 Domain.SusceptancePerLength  -  Imaginary part of admittance per unit of length.
 Domain.Temperature  -  Value of temperature in degrees Celsius.
 Domain.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.
 Domain.TimeInterval  -  Interval between two times.
 Domain.Voltage  -  Electrical voltage, can be both AC and DC.
 Domain.VoltagePerReactivePower  -  Voltage variation with reactive power.
 Domain.Volume  -  Volume.
 Domain.VolumeFlowRate  -  Volume per time.
 Domain.WaterLevel  -  Reservoir water level referred to a given datum such as mean sea level.
 Domain.Weight  -  The weight of an object.
 DOP
 DopInstruction.mwDOP  -  Dispatched Operating Point (MW)
 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.
 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.
 DopInstruction.timestampDOP  -  DOP time stamp
 DopInstruction.updateTimeStamp
 DopInstruction.updateType
 DopInstruction.updateUser
 DotInstruction.actualRampRate  -  Actual ramp rate.
 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).
 DotInstruction.DOT  -  Dispatch operating target value.
 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.
 DotInstruction.expectedEnergy  -  Expected energy.
 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.
 DotInstruction.hourAheadSchedEnergy  -  HASP results.
 DotInstruction.hourlySchedule  -  Hourly Schedule (DA Energy Schedule).
 DotInstruction.instructionTime  -  The date/time for the instruction.
 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.
 DotInstruction.meterLoadFollowing  -  Meter Sub System Load Following.
 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.
 DotInstruction.nonSpinReserve  -  Non Spin Reserve used to procure energy.
 DotInstruction.previousDOTTimeStamp  -  Timestamp when the previous DOT value was issued.
 DotInstruction.rampRateLimit  -  The ramp rate limit for the unit in MWs per minute. Participant bidding data.
 DotInstruction.regulationStatus  -  Regulation Status (Yes/No).
 DotInstruction.spinReserve  -  Spin Reserve used to procure energy.
 DotInstruction.standardRampEnergy  -  Standard ramping energy (MWH).
 DotInstruction.supplementalEnergy  -  Supplemental Energy procure by Real Time Dispatch.
 DotInstruction.unitStatus  -  Output results from the case identifying the reason the unit was committed by the software.
 doubleBreaker
 doubleBus
 DOWN
 DPZ
 DroopSignalFeedbackKind
 DrumBoiler.drumBoilerRating  -  Rating of drum boiler in steam units.
 dryType
 DSR
 DSSE
 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.
 Due.arrears  -  Part of 'current' that constitutes the arrears portion.
 Due.charges  -  Part of 'current' that constitutes the charge portion: 'charges' = 'Charge.fixedPortion' + 'Charge.variablePortion'.
 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.
 Due.interest  -  Part of 'current' that constitutes the interest portion.
 Due.principle  -  Part of 'current' that constitutes the portion of the principle amount currently due.
 DYN
 DynamicSchedule.dynSchedSignRev  -  Dynamic schedule sign reversal required (true/false)
 DynamicSchedule.dynSchedStatus  -  The "active" or "inactive" status of the dynamic schedule
 DynamicsFunctionBlock.enabled  -  Function block used indicator. true = use of function block is enabled false = use of function block is disabled.
 DZD
 E
 earliest
 EarthFaultCompensator.r  -  Nominal resistance of device.
 EASTERN
 ECA
 EDE
 EEK
 EGP
 EHV
 ElectricalAssets
 electricalNetwork
 electricalPower
 electricity
 electricityPrimaryMetered
 electricitySecondaryMetered
 electricMetering
 electromechanicalElectrohydraulic
 electronic
 ElectronicAddress.email1  -  Primary email address.
 ElectronicAddress.email2  -  Alternate email address.
 ElectronicAddress.lan  -  Address on local area network.
 ElectronicAddress.mac  -  MAC (Media Access Control) address.
 ElectronicAddress.password  -  Password needed to log in.
 ElectronicAddress.radio  -  Radio address.
 ElectronicAddress.userID  -  User ID needed to log in, which can be for an individual person, an organisation, a location, etc.
 ElectronicAddress.web  -  World wide web address.
 electronicSerialNumber
 email
 emergencyLimit
 Emission.multiplier
 Emission.unit
 Emission.value
 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).
 EmissionAccount.emissionValueSource  -  The source of the emission value.
 EmissionCurve.emissionContent  -  The emission content per quantity of fuel burned.
 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).
 EmissionCurve.isNetGrossP  -  Flag is set to true when output is expressed in net active power.
 EmissionType
 EmissionValueSource
 EN
 enabled
 enableReclosing
 enclosure
 encoderTamper
 END
 end
 EndDevice.amrSystem  -  Automated meter reading (AMR) or other communication system responsible for communications to this end device.
 EndDevice.installCode  -  Installation code.
 EndDevice.isPan  -  If true, this is a premises area network (PAN) device.
 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.
 EndDevice.timeZoneOffset  -  Time zone offset relative to GMT for the location of this end device.
 EndDeviceAction.command  -  Command text.
 EndDeviceAction.duration  -  Amount of time the action of this control is to remain active.
 EndDeviceAction.durationIndefinite  -  True if the action of this control is indefinite.
 EndDeviceAction.startDateTime  -  Start date and time for action of this control.
 EndDeviceCapability.autonomousDst  -  True if autonomous DST (daylight saving time) function is supported.
 EndDeviceCapability.communication  -  True if communication function is supported.
 EndDeviceCapability.connectDisconnect  -  True if connect and disconnect function is supported.
 EndDeviceCapability.demandResponse  -  True if demand response function is supported.
 EndDeviceCapability.electricMetering  -  True if electric metering function is supported.
 EndDeviceCapability.gasMetering  -  True if gas metering function is supported.
 EndDeviceCapability.metrology  -  True if metrology function is supported.
 EndDeviceCapability.onRequestRead  -  True if on request read function is supported.
 EndDeviceCapability.outageHistory  -  True if outage history function is supported.
 EndDeviceCapability.pressureCompensation  -  True if device performs pressure compensation for metered quantities.
 EndDeviceCapability.pricingInfo  -  True if pricing information is supported.
 EndDeviceCapability.pulseOutput  -  True if device produces pulse outputs.
 EndDeviceCapability.relaysProgramming  -  True if relays programming function is supported.
 EndDeviceCapability.reverseFlow  -  True if reverse flow function is supported.
 EndDeviceCapability.superCompressibilityCompensation  -  True if device performs super compressibility compensation for metered quantities.
 EndDeviceCapability.temperatureCompensation  -  True if device performs temperature compensation for metered quantities.
 EndDeviceCapability.textMessage  -  True if the displaying of text messages is supported.
 EndDeviceCapability.waterMetering  -  True if water metering function is supported.
 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).
 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).
 EndDeviceControl.issuerID  -  Unique identifier of the business entity originating an end device control.
 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.
 EndDeviceControl.priceSignal  -  (if applicable) Price signal used as parameter for this end device control.
 EndDeviceControl.primaryDeviceTiming  -  Timing for the control actions performed on the device identified in the end device control.
 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.
 EndDeviceControl.scheduledInterval  -  (if control has scheduled duration) Date and time interval the control has been scheduled to execute within.
 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.
 EndDeviceControlType.domain  -  High-level nature of the control.
 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.
 EndDeviceControlType.subDomain  -  More specific nature of the control, as a further sub-categorisation of 'domain'.
 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.
 EndDeviceEvent.issuerID  -  Unique identifier of the business entity originating an end device control.
 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.
 EndDeviceEvent.userID  -  (if user initiated) ID of user who initiated this end device event.
 EndDeviceEventDetail.name  -  Name.
 EndDeviceEventDetail.value  -  Value, including unit information.
 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.
 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.
 EndDeviceEventType.subDomain  -  More specific nature of the event, as a further sub-categorisation of 'domain'.
 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.
 EndDeviceFunction.enabled  -  True if the function is enabled.
 EndDeviceFunctionKind
 EndDeviceGroup.type  -  Type of this group.
 endDeviceID
 EndDeviceInfo.capability  -  Inherent capabilities of the device (i.e., the functions it supports).
 EndDeviceInfo.isSolidState  -  If true, this is a solid state end device (as opposed to a mechanical or electromechanical device).
 EndDeviceInfo.phaseCount  -  Number of potential phases the end device supports, typically 0, 1 or 3.
 EndDeviceInfo.ratedCurrent  -  Rated current.
 EndDeviceInfo.ratedVoltage  -  Rated voltage.
 EndDeviceTiming.duration  -  Duration of the end device control action or the business event that is the subject of the end device control.
 EndDeviceTiming.durationIndefinite  -  True if 'duration' is indefinite.
 EndDeviceTiming.interval  -  Start and end time of an interval during which end device control actions are to be executed.
 EndDeviceTiming.randomisation  -  Kind of randomisation to be applied to the end device control actions to be executed.
 ENDING
 ENE_EA
 ENE_EA_DA
 ENE_EA_EXCEPT
 ENE_EA_HASP
 ENE_EA_MLE
 ENE_EA_MSSLF
 ENE_EA_OPTIMAL
 ENE_EA_RAMP_DEV
 ENE_EA_RAMP_STD
 ENE_EA_RESIDUAL
 ENE_EA_RMR
 ENE_EA_SELF
 ENE_EA_SLIC
 ENE_EXP_CLEAR_HASP
 ENE_EXP_CLEAR_IFM
 ENE_EXP_CLEAR_RTM
 ENE_GEN_CLEAR_HASP
 ENE_GEN_CLEAR_IFM
 ENE_GEN_CLEAR_RTM
 ENE_HASP
 ENE_IFM
 ENE_IMP_CLEAR_HASP
 ENE_IMP_CLEAR_IFM
 ENE_IMP_CLEAR_RTM
 ENE_LOAD_ACTUAL
 ENE_LOAD_CLEAR_HASP
 ENE_LOAD_CLEAR_IFM
 ENE_LOAD_CLEAR_RTM
 ENE_LOAD_FCST
 ENE_MPM
 ENE_PEAK_HOUR
 ENE_PEAK_LOAD
 ENE_RTM
 ENE_RUC
 energization
 energizationLoadSide
 energy
 ENERGY
 EnergyConsumer.customerCount  -  Number of individual customers represented by this demand.
 EnergyConsumer.grounded  -  Used for Yn and Zn connections. True if the neutral is solidly grounded.
 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.
 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.
 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.
 EnergyConsumer.phaseConnection  -  The type of phase connection, such as wye or delta.
 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.
 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.
 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.
 EnergyConsumerData.loadMVAR  -  The MVAR load Attribute Usage: The reactive power consumption of the load in MW
 EnergyConsumerData.loadMW  -  The active power consumption of the load in MW
 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.
 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.
 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.
 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.
 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.
 EnergyPriceIndex.endEffectiveDate  -  End effective date
 EnergyPriceIndex.energyPriceIndex  -  Energy price index
 EnergyPriceIndex.energyPriceIndexType  -  EPI type such as wholesale or retail
 EnergyPriceIndex.lastModified  -  Time updated
 EnergyPriceIndex.startEffectiveDate  -  Start effective date
 EnergyPriceIndexType
 EnergyProductType
 energyServiceConsumer
 energyServiceScheduler
 energyServiceSupplier
 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.
 EnergySource.nominalVoltage  -  Phase-to-phase nominal voltage.
 EnergySource.r  -  Positive sequence Thevenin resistance.
 EnergySource.r0  -  Zero sequence Thevenin resistance.
 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.
 EnergySource.rn  -  Negative sequence Thevenin resistance.
 EnergySource.voltageAngle  -  Phase angle of a-phase open circuit.
 EnergySource.voltageMagnitude  -  Phase-to-phase open circuit voltage magnitude.
 EnergySource.x  -  Positive sequence Thevenin reactance.
 EnergySource.x0  -  Zero sequence Thevenin reactance.
 EnergySource.xn  -  Negative sequence Thevenin reactance.
 EnergySourceAction.kind  -  Switching action to perform.
 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.
 EnergyTransaction.capacityBacked  -  Interchange capacity flag. When the flag is set to true, it indicates a transaction is capacity backed.
 EnergyTransaction.congestChargeMax  -  Maximum congestion charges in monetary units.
 EnergyTransaction.deliveryPointP  -  Delivery point active power.
 EnergyTransaction.energyMin  -  Transaction minimum active power if dispatchable.
 EnergyTransaction.firmInterchangeFlag  -  Firm interchange flag indicates whether or not this energy transaction can be changed without potential financial consequences.
 EnergyTransaction.payCongestion  -  Willing to Pay congestion flag
 EnergyTransaction.reason  -  Reason for energy transaction.
 EnergyTransaction.receiptPointP  -  Receipt point active power.
 EnergyTransaction.state  -  { Approve | Deny | Study }
 EnergyTransactionType
 EnergyTypeCode
 enroute
 epoxy
 eq
 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.
 Equipment.inService  -  If true, the equipment is in service.
 Equipment.normallyInService  -  If true, the equipment is normally in service.
 EquipmentStatusType
 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
 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
 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
 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
 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.
 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
 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
 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
 EquivalentBranch.r  -  Positive sequence series resistance of the reduced branch.
 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.
 EquivalentBranch.x  -  Positive sequence series reactance of the reduced branch.
 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.
 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
 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
 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
 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
 EquivalentInjection.maxP  -  Maximum active power of the injection.
 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.
 EquivalentInjection.minP  -  Minimum active power of the injection.
 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.
 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.
 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.
 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.
 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.
 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.
 EquivalentInjection.regulationCapability  -  Specifies whether or not the EquivalentInjection has the capability to regulate the local voltage.
 EquivalentInjection.regulationStatus  -  Specifies the default regulation status of the EquivalentInjection. True is regulating. False is not regulating.
 EquivalentInjection.regulationTarget  -  The target voltage for voltage regulation.
 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.
 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.
 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.
 Equivalents.EquivalentBranch  -  The class represents equivalent branches.
 Equivalents.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.
 Equivalents.EquivalentInjection  -  This class represents equivalent injections (generation or load). Voltage regulation is allowed only at the point of connection.
 Equivalents.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.
 Equivalents.EquivalentShunt  -  The class represents equivalent shunts.
 EquivalentShunt.b  -  Positive sequence shunt susceptance.
 EquivalentShunt.g  -  Positive sequence shunt conductance.
 ERN
 ErpAccountKind
 ErpBankAccount.bankABA  -  Bank ABA.
 ErpInventory.status
 ErpInventoryCount.status
 ErpInvoice.amount  -  Total amount due on this invoice based on line items and applicable adjustments.
 ErpInvoice.billMediaKind  -  Kind of media by which the CustomerBillingInfo was delivered.
 ErpInvoice.dueDate  -  Calculated date upon which the Invoice amount is due.
 ErpInvoice.kind  -  Kind of invoice (default is 'sales').
 ErpInvoice.mailedDate  -  Date on which the customer billing statement/invoice was printed/mailed.
 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.
 ErpInvoice.referenceNumber  -  Number of an invoice to be reference by this invoice.
 ErpInvoice.transactionDateTime  -  Date and time when the invoice is issued.
 ErpInvoice.transferType  -  Type of invoice transfer.
 ErpInvoiceKind
 ErpInvoiceLineItem.billPeriod  -  Bill period for the line item.
 ErpInvoiceLineItem.glAccount  -  General Ledger account code, must be a valid combination.
 ErpInvoiceLineItem.glDateTime  -  Date and time line item will be posted to the General Ledger.
 ErpInvoiceLineItem.kind  -  Kind of line item.
 ErpInvoiceLineItem.lineAmount  -  Amount due for this line item.
 ErpInvoiceLineItem.lineNumber  -  Line item number on invoice statement.
 ErpInvoiceLineItem.lineVersion  -  Version number of the bill run.
 ErpInvoiceLineItem.netAmount  -  Net line item charge amount.
 ErpInvoiceLineItem.previousAmount  -  Previous line item charge amount.
 ErpInvoiceLineItemKind
 ErpIssueInventory.status
 ErpItemMaster.status
 ErpJournalEntry.accountID  -  Account identifier for this entry.
 ErpJournalEntry.amount  -  The amount of the debit or credit for this account.
 ErpJournalEntry.postingDateTime  -  Date and time this entry is to be posted to the ledger.
 ErpJournalEntry.sourceID  -  The identifer of the source for this entry.
 ErpJournalEntry.status
 ErpJournalEntry.transactionDateTime  -  Date and time journal entry was recorded.
 ErpLedBudLineItem.status
 ErpLedgerEntry.accountID  -  Account identifier for this entry.
 ErpLedgerEntry.accountKind  -  Kind of account for this entry.
 ErpLedgerEntry.amount  -  The amount of the debit or credit for this account.
 ErpLedgerEntry.postedDateTime  -  Date and time this entry was posted to the ledger.
 ErpLedgerEntry.status
 ErpLedgerEntry.transactionDateTime  -  Date and time journal entry was recorded.
 ErpPayableLineItem.status
 ErpPayment.termsPayment  -  Payment terms (e.g., net 30).
 ErpPersonnel.status
 ErpQuoteLineItem.status
 ErpRecDelvLineItem.status
 ErpRecLineItem.status
 ErpReqLineItem.code
 ErpReqLineItem.cost  -  Cost of material.
 ErpReqLineItem.deliveryDate
 ErpReqLineItem.quantity  -  Quantity of item requisitioned.
 ErpReqLineItem.status
 ErpSiteLevelData.status
 ErpTimeEntry.status
 escoThrowOver
 ESRT
 estimate
 estimated
 ESYS
 ETB
 ETC
 ethernet
 ethylenePropyleneRubber
 etrChange
 EUR
 Examples.dynamics_mode
 Examples.dynamics_model
 Examples.Excitation_System
 Examples.static_power_system_model
 Examples.Synchronous_Generator
 Examples.Synchronous_Machine
 Examples.Turbine_Governor
 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.
 ExcAC1A.ka  -  Voltage regulator gain (Ka). Typical Value = 400.
 ExcAC1A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.2.
 ExcAC1A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.38.
 ExcAC1A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcAC1A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.03.
 ExcAC1A.kf1  -  Coefficient to allow different usage of the model (Kf1). Typical Value = 0.
 ExcAC1A.kf2  -  Coefficient to allow different usage of the model (Kf2). Typical Value = 1.
 ExcAC1A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcAC1A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.1.
 ExcAC1A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.03.
 ExcAC1A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.02.
 ExcAC1A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcAC1A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcAC1A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.8.
 ExcAC1A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcAC1A.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 14.5.
 ExcAC1A.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -14.5.
 ExcAC1A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 4.18.
 ExcAC1A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 3.14.
 ExcAC1A.vrmax  -  Maximum voltage regulator outputs (Vrmax). Typical Value = 6.03.
 ExcAC1A.vrmin  -  Minimum voltage regulator outputs (Rrmin). Typical Value = -5.43.
 ExcAC2A.hvgate  -  Indicates if HV gate is active (HVgate). true = gate is used false = gate is not used. Typical Value = true.
 ExcAC2A.ka  -  Voltage regulator gain (Ka). Typical Value = 400.
 ExcAC2A.kb  -  Second stage regulator gain (Kb) (>0). Exciter field current controller gain. Typical Value = 25.
 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.
 ExcAC2A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.28.
 ExcAC2A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.35.
 ExcAC2A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcAC2A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.03.
 ExcAC2A.kh  -  Exciter field current feedback gain (Kh). Typical Value = 1.
 ExcAC2A.kl  -  Exciter field current limiter gain (Kl). Typical Value = 10.
 ExcAC2A.kl1  -  Coefficient to allow different usage of the model (Kl1). Typical Value = 1.
 ExcAC2A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcAC2A.lvgate  -  Indicates if LV gate is active (LVgate). true = gate is used false = gate is not used. Typical Value = true.
 ExcAC2A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.037.
 ExcAC2A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.012.
 ExcAC2A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.02.
 ExcAC2A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcAC2A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcAC2A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.6.
 ExcAC2A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcAC2A.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 8.
 ExcAC2A.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -8.
 ExcAC2A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 4.4.
 ExcAC2A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 3.3.
 ExcAC2A.vfemax  -  Exciter field current limit reference (Vfemax). Typical Value = 4.4.
 ExcAC2A.vlr  -  Maximum exciter field current (Vlr). Typical Value = 4.4.
 ExcAC2A.vrmax  -  Maximum voltage regulator outputs (Vrmax). Typical Value = 105.
 ExcAC2A.vrmin  -  Minimum voltage regulator outputs (Vrmin). Typical Value = -95.
 ExcAC3A.efdn  -  Value of EFD at which feedback gain changes (Efdn). Typical Value = 2.36.
 ExcAC3A.ka  -  Voltage regulator gain (Ka). Typical Value = 45.62.
 ExcAC3A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.104.
 ExcAC3A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 0.499.
 ExcAC3A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcAC3A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.143.
 ExcAC3A.kf1  -  Coefficient to allow different usage of the model (Kf1). Typical Value = 1.
 ExcAC3A.kf2  -  Coefficient to allow different usage of the model (Kf2). Typical Value = 0.
 ExcAC3A.klv  -  Gain used in the minimum field voltage limiter loop (Klv). Typical Value = 0.194.
 ExcAC3A.kn  -  Excitation control system stabilizer gain (Kn). Typical Value =0.05.
 ExcAC3A.kr  -  Constant associated with regulator and alternator field power supply (Kr). Typical Value =3.77.
 ExcAC3A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcAC3A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 1.143.
 ExcAC3A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.1.
 ExcAC3A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.013.
 ExcAC3A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcAC3A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcAC3A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.17.
 ExcAC3A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcAC3A.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 1.
 ExcAC3A.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -0.95.
 ExcAC3A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1) equals Vemax (Ve1). Typical Value = 6.24.
 ExcAC3A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 4.68.
 ExcAC3A.vemin  -  Minimum exciter voltage output (Vemin). Typical Value = 0.1.
 ExcAC3A.vfemax  -  Exciter field current limit reference (Vfemax). Typical Value = 16.
 ExcAC3A.vlv  -  Field voltage used in the minimum field voltage limiter loop (Vlv). Typical Value = 0.79.
 ExcAC4A.ka  -  Voltage regulator gain (Ka). Typical Value = 200.
 ExcAC4A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.
 ExcAC4A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.015.
 ExcAC4A.tb  -  Voltage regulator time constant (Tb). Typical Value = 10.
 ExcAC4A.tc  -  Voltage regulator time constant (Tc). Typical Value = 1.
 ExcAC4A.vimax  -  Maximum voltage regulator input limit (Vimax). Typical Value = 10.
 ExcAC4A.vimin  -  Minimum voltage regulator input limit (Vimin). Typical Value = -10.
 ExcAC4A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 5.64.
 ExcAC4A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -4.53.
 ExcAC5A.a  -  Coefficient to allow different usage of the model (a). Typical Value = 1.
 ExcAC5A.efd1  -  Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 5.6.
 ExcAC5A.efd2  -  Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 4.2.
 ExcAC5A.ka  -  Voltage regulator gain (Ka). Typical Value = 400.
 ExcAC5A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcAC5A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.03.
 ExcAC5A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcAC5A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, Efd1 (SE[Efd1]). Typical Value = 0.86.
 ExcAC5A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, Efd2 (SE[Efd2]). Typical Value = 0.5.
 ExcAC5A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.02.
 ExcAC5A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcAC5A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcAC5A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.8.
 ExcAC5A.tf1  -  Excitation control system stabilizer time constant (Tf1). Typical Value = 1.
 ExcAC5A.tf2  -  Excitation control system stabilizer time constant (Tf2). Typical Value = 0.8.
 ExcAC5A.tf3  -  Excitation control system stabilizer time constant (Tf3). Typical Value = 0.
 ExcAC5A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 7.3.
 ExcAC5A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value =-7.3.
 ExcAC6A.ka  -  Voltage regulator gain (Ka). Typical Value = 536.
 ExcAC6A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.173.
 ExcAC6A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 1.91.
 ExcAC6A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.6.
 ExcAC6A.kh  -  Exciter field current limiter gain (Kh). Typical Value = 92.
 ExcAC6A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcAC6A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.214.
 ExcAC6A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 0.044.
 ExcAC6A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.086.
 ExcAC6A.tb  -  Voltage regulator time constant (Tb). Typical Value = 9.
 ExcAC6A.tc  -  Voltage regulator time constant (Tc). Typical Value = 3.
 ExcAC6A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.
 ExcAC6A.th  -  Exciter field current limiter time constant (Th). Typical Value = 0.08.
 ExcAC6A.tj  -  Exciter field current limiter time constant (Tj). Typical Value = 0.02.
 ExcAC6A.tk  -  Voltage regulator time constant (Tk). Typical Value = 0.18.
 ExcAC6A.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 75.
 ExcAC6A.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -75.
 ExcAC6A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 7.4.
 ExcAC6A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 5.55.
 ExcAC6A.vfelim  -  Exciter field current limit reference (Vfelim). Typical Value = 19.
 ExcAC6A.vhmax  -  Maximum field current limiter signal reference (Vhmax). Typical Value = 75.
 ExcAC6A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 44.
 ExcAC6A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -36.
 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.
 ExcAC8B.ka  -  Voltage regulator gain (Ka). Typical Value = 1.
 ExcAC8B.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.55.
 ExcAC8B.kd  -  Demagnetizing factor, a function of exciter alternator reactances (Kd). Typical Value = 1.1.
 ExcAC8B.kdr  -  Voltage regulator derivative gain (Kdr). Typical Value = 10.
 ExcAC8B.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcAC8B.kir  -  Voltage regulator integral gain (Kir). Typical Value = 5.
 ExcAC8B.kpr  -  Voltage regulator proportional gain (Kpr). Typical Value = 80.
 ExcAC8B.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 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.
 ExcAC8B.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.3.
 ExcAC8B.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 3.
 ExcAC8B.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.
 ExcAC8B.tdr  -  Lag time constant (Tdr). Typical Value = 0.1.
 ExcAC8B.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.2.
 ExcAC8B.telim  -  Selector for the limiter on the block [1/sTe]. See diagram for meaning of true and false. Typical Value = false.
 ExcAC8B.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1) equals VEMAX (Ve1). Typical Value = 6.5.
 ExcAC8B.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 9.
 ExcAC8B.vemin  -  Minimum exciter voltage output (Vemin). Typical Value = 0.
 ExcAC8B.vfemax  -  Exciter field current limit reference (Vfemax). Typical Value = 6.
 ExcAC8B.vimax  -  Input signal maximum (Vimax). Typical Value = 35.
 ExcAC8B.vimin  -  Input signal minimum (Vimin). Typical Value = -10.
 ExcAC8B.vpidmax  -  PID maximum controller output (Vpidmax). Typical Value = 35.
 ExcAC8B.vpidmin  -  PID minimum controller output (Vpidmin). Typical Value = -10.
 ExcAC8B.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 35.
 ExcAC8B.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = 0.
 ExcAC8B.vtmult  -  Multiply by generator's terminal voltage indicator. true =the limits Vrmax and Vrmin are multiplied by the generator’s 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.
 ExcANS.blint  -  Governor Control Flag (BLINT). 0 = lead-lag regulator 1 = proportional integral regulator. Typical Value = 0.
 ExcANS.ifmn  -  Minimum exciter current (IFMN). Typical Value = -5.2.
 ExcANS.ifmx  -  Maximum exciter current (IFMX). Typical Value = 6.5.
 ExcANS.k2  -  Exciter gain (K2). Typical Value = 20.
 ExcANS.k3  -  AVR gain (K3). Typical Value = 1000.
 ExcANS.kce  -  Ceiling factor (KCE). Typical Value = 1.
 ExcANS.krvecc  -  Feedback enabling (KRVECC). 0 = Open loop control 1 = Closed loop control. Typical Value = 1.
 ExcANS.kvfif  -  Rate feedback signal flag (KVFIF). 0 = output voltage of the exciter 1 = exciter field current. Typical Value = 0.
 ExcANS.t1  -  Time constant (T1). Typical Value = 20.
 ExcANS.t2  -  Time constant (T2). Typical Value = 0.05.
 ExcANS.t3  -  Time constant (T3). Typical Value = 1.6.
 ExcANS.tb  -  Exciter time constant (TB). Typical Value = 0.04.
 ExcANS.vrmn  -  Maximum AVR output (VRMN). Typical Value = -5.2.
 ExcANS.vrmx  -  Minimum AVR output (VRMX). Typical Value = 6.5.
 ExcAVR1.e1  -  Field voltage value 1 (E1). Typical Value = 4.18.
 ExcAVR1.e2  -  Field voltage value 2 (E2). Typical Value = 3.14.
 ExcAVR1.ka  -  AVR gain (KA). Typical Value = 500.
 ExcAVR1.kf  -  Rate feedback gain (KF). Typical Value = 0.02.
 ExcAVR1.se1  -  Saturation factor at E1 (S(E1)). Typical Value = 0.1.
 ExcAVR1.se2  -  Saturation factor at E2 (S(E2)). Typical Value = 0.03.
 ExcAVR1.ta  -  AVR time constant (TA). Typical Value = 0.2.
 ExcAVR1.tb  -  AVR time constant (TB). Typical Value = 0.
 ExcAVR1.te  -  Exciter time constant (TE). Typical Value = 1.
 ExcAVR1.tf  -  Rate feedback time constant (TF). Typical Value = 1.
 ExcAVR1.vrmn  -  Maximum AVR output (VRMN). Typical Value = -6.
 ExcAVR1.vrmx  -  Minimum AVR output (VRMX). Typical Value = 7.
 ExcAVR2.e1  -  Field voltage value 1 (E1). Typical Value = 4.18.
 ExcAVR2.e2  -  Field voltage value 2 (E2). Typical Value = 3.14.
 ExcAVR2.ka  -  AVR gain (KA). Typical Value = 500.
 ExcAVR2.kf  -  Rate feedback gain (KF). Typical Value = 0.02.
 ExcAVR2.se1  -  Saturation factor at E1 (S(E1)). Typical Value = 0.1.
 ExcAVR2.se2  -  Saturation factor at E2 (S(E2)). Typical Value = 0.03.
 ExcAVR2.ta  -  AVR time constant (TA). Typical Value = 0.02.
 ExcAVR2.tb  -  AVR time constant (TB). Typical Value = 0.
 ExcAVR2.te  -  Exciter time constant (TE). Typical Value = 1.
 ExcAVR2.tf1  -  Rate feedback time constant (TF1). Typical Value = 1.
 ExcAVR2.tf2  -  Rate feedback time constant (TF2). Typical Value = 1.
 ExcAVR2.vrmn  -  Maximum AVR output (VRMN). Typical Value = -6.
 ExcAVR2.vrmx  -  Minimum AVR output (VRMX). Typical Value = 7.
 ExcAVR3.e1  -  Field voltage value 1 (E1). Typical Value = 4.18.
 ExcAVR3.e2  -  Field voltage value 2 (E2). Typical Value = 3.14.
 ExcAVR3.ka  -  AVR gain (KA). Typical Value = 3000.
 ExcAVR3.se1  -  Saturation factor at E1 (S(E1)). Typical Value = 0.1.
 ExcAVR3.se2  -  Saturation factor at E2 (S(E2)). Typical Value = 0.03.
 ExcAVR3.t1  -  AVR time constant (T1). Typical Value = 220.
 ExcAVR3.t2  -  AVR time constant (T2). Typical Value = 1.6.
 ExcAVR3.t3  -  AVR time constant (T3). Typical Value = 0.66.
 ExcAVR3.t4  -  AVR time constant (T4). Typical Value = 0.07.
 ExcAVR3.te  -  Exciter time constant (TE). Typical Value = 1.
 ExcAVR3.vrmn  -  Maximum AVR output (VRMN). Typical Value = -7.5.
 ExcAVR3.vrmx  -  Minimum AVR output (VRMX). Typical Value = 7.5.
 ExcAVR4.imul  -  AVR output voltage dependency selector (Imul). true = selector is connected false = selector is not connected. Typical Value = true.
 ExcAVR4.ka  -  AVR gain (KA). Typical Value = 300.
 ExcAVR4.ke  -  Exciter gain (KE). Typical Value = 1.
 ExcAVR4.kif  -  Exciter internal reactance (KIF). Typical Value = 0.
 ExcAVR4.t1  -  AVR time constant (T1). Typical Value = 4.8.
 ExcAVR4.t1if  -  Exciter current feedback time constant (T1IF). Typical Value = 60.
 ExcAVR4.t2  -  AVR time constant (T2). Typical Value = 1.5.
 ExcAVR4.t3  -  AVR time constant (T3). Typical Value = 0.
 ExcAVR4.t4  -  AVR time constant (T4). Typical Value = 0.
 ExcAVR4.tif  -  Exciter current feedback time constant (TIF). Typical Value = 0.
 ExcAVR4.vfmn  -  Minimum exciter output (VFMN). Typical Value = 0.
 ExcAVR4.vfmx  -  Maximum exciter output (VFMX). Typical Value = 5.
 ExcAVR4.vrmn  -  Maximum AVR output (VRMN). Typical Value = 0.
 ExcAVR4.vrmx  -  Minimum AVR output (VRMX). Typical Value = 5.
 ExcAVR5.ka  -  Gain (Ka).
 ExcAVR5.rex  -  Effective Output Resistance (Rex). Rex represents the effective output resistance seen by the excitation system.
 ExcAVR5.ta  -  Time constant (Ta).
 ExcAVR7.a1  -  Lead coefficient (A1). Typical Value = 0.5.
 ExcAVR7.a2  -  Lag coefficient (A2). Typical Value = 0.5.
 ExcAVR7.a3  -  Lead coefficient (A3). Typical Value = 0.5.
 ExcAVR7.a4  -  Lag coefficient (A4). Typical Value = 0.5.
 ExcAVR7.a5  -  Lead coefficient (A5). Typical Value = 0.5.
 ExcAVR7.a6  -  Lag coefficient (A6). Typical Value = 0.5.
 ExcAVR7.k1  -  Gain (K1). Typical Value = 1.
 ExcAVR7.k3  -  Gain (K3). Typical Value = 3.
 ExcAVR7.k5  -  Gain (K5). Typical Value = 1.
 ExcAVR7.t1  -  Lead time constant (T1). Typical Value = 0.05.
 ExcAVR7.t2  -  Lag time constant (T2). Typical Value = 0.1.
 ExcAVR7.t3  -  Lead time constant (T3). Typical Value = 0.1.
 ExcAVR7.t4  -  Lag time constant (T4). Typical Value = 0.1.
 ExcAVR7.t5  -  Lead time constant (T5). Typical Value = 0.1.
 ExcAVR7.t6  -  Lag time constant (T6). Typical Value = 0.1.
 ExcAVR7.vmax1  -  Lead-lag max. limit (Vmax1). Typical Value = 5.
 ExcAVR7.vmax3  -  Lead-lag max. limit (Vmax3). Typical Value = 5.
 ExcAVR7.vmax5  -  Lead-lag max. limit (Vmax5). Typical Value = 5.
 ExcAVR7.vmin1  -  Lead-lag min. limit (Vmin1). Typical Value = -5.
 ExcAVR7.vmin3  -  Lead-lag min. limit (Vmin3). Typical Value = -5.
 ExcAVR7.vmin5  -  Lead-lag min. limit (Vmin5). Typical Value = -2.
 ExcBBC.efdmax  -  Maximum open circuit exciter voltage (Efdmax). Typical Value = 5.
 ExcBBC.efdmin  -  Minimum open circuit exciter voltage (Efdmin). Typical Value = -5.
 ExcBBC.k  -  Steady state gain (K). Typical Value = 300.
 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.
 ExcBBC.t1  -  Controller time constant (T1). Typical Value = 6.
 ExcBBC.t2  -  Controller time constant (T2). Typical Value = 1.
 ExcBBC.t3  -  Lead/lag time constant (T3). Typical Value = 0.05.
 ExcBBC.t4  -  Lead/lag time constant (T4). Typical Value = 0.01.
 ExcBBC.vrmax  -  Maximum control element output (Vrmax). Typical Value = 5.
 ExcBBC.vrmin  -  Minimum control element output (Vrmin). Typical Value = -5.
 ExcBBC.xe  -  Effective excitation transformer reactance (Xe). Typical Value = 0.05.
 ExcCZ.efdmax  -  Exciter output maximum limit (Efdmax).
 ExcCZ.efdmin  -  Exciter output minimum limit (Efdmin).
 ExcCZ.ka  -  Regulator gain (Ka).
 ExcCZ.ke  -  Exciter constant related to self-excited field (Ke).
 ExcCZ.kp  -  Regulator proportional gain (Kp).
 ExcCZ.ta  -  Regulator time constant (Ta).
 ExcCZ.tc  -  Regulator integral time constant (Tc).
 ExcCZ.te  -  Exciter time constant, integration rate associated with exciter control (Te).
 ExcCZ.vrmax  -  Voltage regulator maximum limit (Vrmax).
 ExcCZ.vrmin  -  Voltage regulator minimum limit (Vrmin).
 ExcDC1A.edfmax  -  Maximum voltage exciter output limiter (Efdmax). Typical Value = 99.
 ExcDC1A.efd1  -  Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 3.1.
 ExcDC1A.efd2  -  Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 2.3.
 ExcDC1A.efdmin  -  Minimum voltage exciter output limiter (Efdmin). Typical Value = -99.
 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.
 ExcDC1A.ka  -  Voltage regulator gain (Ka). Typical Value = 46.
 ExcDC1A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 0.
 ExcDC1A.kf  -  Excitation control system stabilizer gain (Kf). Typical Value = 0.1.
 ExcDC1A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcDC1A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.33.
 ExcDC1A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.33.
 ExcDC1A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.06.
 ExcDC1A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcDC1A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcDC1A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.46.
 ExcDC1A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcDC1A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 1.
 ExcDC1A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -0.9.
 ExcDC2A.efd1  -  Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 3.05.
 ExcDC2A.efd2  -  Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 2.29.
 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.
 ExcDC2A.ka  -  Voltage regulator gain (Ka). Typical Value = 300.
 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.
 ExcDC2A.kf  -  Excitation control system stabilizer gain (Kf). Typical Value = 0.1.
 ExcDC2A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcDC2A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.279.
 ExcDC2A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, Efd2 (Se[Efd2]). Typical Value = 0.117.
 ExcDC2A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.01.
 ExcDC2A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcDC2A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcDC2A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.33.
 ExcDC2A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 0.675.
 ExcDC2A.tf1  -  Excitation control system stabilizer time constant (Tf1). Typical Value = 0.
 ExcDC2A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 4.95.
 ExcDC2A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -4.9.
 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.
 ExcDC3A.edfmax  -  Maximum voltage exciter output limiter (Efdmax). Typical Value = 99.
 ExcDC3A.efd1  -  Exciter voltage at which exciter saturation is defined (Efd1). Typical Value = 2.6.
 ExcDC3A.efd2  -  Exciter voltage at which exciter saturation is defined (Efd2). Typical Value = 3.45.
 ExcDC3A.efdlim  -  (Efdlim). true = exciter output limiter is active false = exciter output limiter not active. Typical Value = true.
 ExcDC3A.efdmin  -  Minimum voltage exciter output limiter (Efdmin). Typical Value = -99.
 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.
 ExcDC3A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 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.
 ExcDC3A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcDC3A.kv  -  Fast raise/lower contact setting (Kv). Typical Value = 0.05.
 ExcDC3A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, Efd1 (Se[Eefd1]). Typical Value = 0.1.
 ExcDC3A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, Efd2 (Se[Efd2]). Typical Value = 0.35.
 ExcDC3A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.83.
 ExcDC3A.trh  -  Rheostat travel time (Trh). Typical Value = 20.
 ExcDC3A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 5.
 ExcDC3A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = 0.
 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.
 ExcDC3A1.ka  -  Voltage regulator gain (Ka). Typical Value = 300.
 ExcDC3A1.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcDC3A1.kf  -  Excitation control system stabilizer gain (Kf). Typical Value = 0.1.
 ExcDC3A1.ki  -  Potential circuit gain coefficient (Ki). Typical Value = 4.83.
 ExcDC3A1.kp  -  Potential circuit gain coefficient (Kp). Typical Value = 4.37.
 ExcDC3A1.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.01.
 ExcDC3A1.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 1.83.
 ExcDC3A1.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 0.675.
 ExcDC3A1.vb1max  -  Available exciter voltage limiter (Vb1max). Typical Value = 11.63.
 ExcDC3A1.vblim  -  Vb limiter indicator. true = exciter Vbmax limiter is active false = Vb1max is active. Typical Value = true.
 ExcDC3A1.vbmax  -  Available exciter voltage limiter (Vbmax). Typical Value = 11.63.
 ExcDC3A1.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 5.
 ExcDC3A1.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = 0.
 ExcELIN1.dpnf  -  Controller follow up dead band (Dpnf). Typical Value = 0.
 ExcELIN1.efmax  -  Maximum open circuit excitation voltage (Efmax). Typical Value = 5.
 ExcELIN1.efmin  -  Minimum open circuit excitation voltage (Efmin). Typical Value = -5.
 ExcELIN1.ks1  -  Stabilizer Gain 1 (Ks1). Typical Value = 0.
 ExcELIN1.ks2  -  Stabilizer Gain 2 (Ks2). Typical Value = 0.
 ExcELIN1.smax  -  Stabilizer Limit Output (smax). Typical Value = 0.1.
 ExcELIN1.tfi  -  Current transducer time constant (Tfi). Typical Value = 0.
 ExcELIN1.tnu  -  Controller reset time constant (Tnu). Typical Value = 2.
 ExcELIN1.ts1  -  Stabilizer Phase Lag Time Constant (Ts1). Typical Value = 1.
 ExcELIN1.ts2  -  Stabilizer Filter Time Constant (Ts2). Typical Value = 1.
 ExcELIN1.tsw  -  Stabilizer parameters (Tsw). Typical Value = 3.
 ExcELIN1.vpi  -  Current controller gain (Vpi). Typical Value = 12.45.
 ExcELIN1.vpnf  -  Controller follow up gain (Vpnf). Typical Value = 2.
 ExcELIN1.vpu  -  Voltage controller proportional gain (Vpu). Typical Value = 34.5.
 ExcELIN1.xe  -  Excitation transformer effective reactance (Xe) (>=0). Xe represents the regulation of the transformer/rectifier unit. Typical Value = 0.06.
 ExcELIN2.efdbas  -  Gain (Efdbas). Typical Value = 0.1.
 ExcELIN2.iefmax  -  Limiter (Iefmax). Typical Value = 1.
 ExcELIN2.iefmax2  -  Minimum open circuit excitation voltage (Iefmax2). Typical Value = -5.
 ExcELIN2.iefmin  -  Limiter (Iefmin). Typical Value = 1.
 ExcELIN2.k1  -  Voltage regulator input gain (K1). Typical Value = 0.
 ExcELIN2.k1ec  -  Voltage regulator input limit (K1ec). Typical Value = 2.
 ExcELIN2.k2  -  Gain (K2). Typical Value = 5.
 ExcELIN2.k3  -  Gain (K3). Typical Value = 0.1.
 ExcELIN2.k4  -  Gain (K4). Typical Value = 0.
 ExcELIN2.kd1  -  Voltage controller derivative gain (Kd1). Typical Value = 34.5.
 ExcELIN2.ke2  -  Gain (Ke2). Typical Value = 0.1.
 ExcELIN2.ketb  -  Gain (Ketb). Typical Value = 0.06.
 ExcELIN2.pid1max  -  Controller follow up gain (PID1max). Typical Value = 2.
 ExcELIN2.seve1  -  Exciter saturation function value at the corresponding exciter voltage, Ve1, back of commutating reactance (Se[Ve1]). Typical Value = 0.
 ExcELIN2.seve2  -  Exciter saturation function value at the corresponding exciter voltage, Ve2, back of commutating reactance (Se[Ve2]). Typical Value = 1.
 ExcELIN2.tb1  -  Voltage controller derivative washout time constant (Tb1). Typical Value = 12.45.
 ExcELIN2.te  -  Time constant (Te). Typical Value = 0.
 ExcELIN2.te2  -  Time Constant (Te2). Typical Value = 1.
 ExcELIN2.ti1  -  Controller follow up dead band (Ti1). Typical Value = 0.
 ExcELIN2.ti3  -  Time constant (Ti3). Typical Value = 3.
 ExcELIN2.ti4  -  Time constant (Ti4). Typical Value = 0.
 ExcELIN2.tr4  -  Time constant (Tr4). Typical Value = 1.
 ExcELIN2.upmax  -  Limiter (Upmax). Typical Value = 3.
 ExcELIN2.upmin  -  Limiter (Upmin). Typical Value = 0.
 ExcELIN2.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve1). Typical Value = 3.
 ExcELIN2.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (Ve2). Typical Value = 0.
 ExcELIN2.xp  -  Excitation transformer effective reactance (Xp). Typical Value = 1.
 Exceptions_in_reading_and_writing_of_XML_files
 excess
 exchange
 ExcHU.ae  -  Major loop PI tag gain factor (Ae). Typical Value = 3.
 ExcHU.ai  -  Minor loop PI tag gain factor (Ai). Typical Value = 22.
 ExcHU.atr  -  AVR constant (Atr). Typical Value = 2.19.
 ExcHU.emax  -  Field voltage control signal upper limit on AVR base (Emax). Typical Value = 0.996.
 ExcHU.emin  -  Field voltage control signal lower limit on AVR base (Emin). Typical Value = -0.866.
 ExcHU.imax  -  Major loop PI tag output signal upper limit (Imax). Typical Value = 2.19.
 ExcHU.imin  -  Major loop PI tag output signal lower limit (Imin). Typical Value = 0.1.
 ExcHU.ke  -  Voltage base conversion constant (Ke). Typical Value = 4.666.
 ExcHU.ki  -  Current base conversion constant (Ki). Typical Value = 0.21428.
 ExcHU.te  -  Major loop PI tag integration time constant (Te). Typical Value = 0.154.
 ExcHU.ti  -  Minor loop PI control tag integration time constant (Ti). Typical Value = 0.01333.
 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.
 ExcIEEEAC1A.ka  -  Voltage regulator gain (KA). Typical Value = 400.
 ExcIEEEAC1A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.2.
 ExcIEEEAC1A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.38.
 ExcIEEEAC1A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC1A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.03.
 ExcIEEEAC1A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.1.
 ExcIEEEAC1A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.03.
 ExcIEEEAC1A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.02.
 ExcIEEEAC1A.tb  -  Voltage regulator time constant (TB). Typical Value = 0.
 ExcIEEEAC1A.tc  -  Voltage regulator time constant (TC). Typical Value = 0.
 ExcIEEEAC1A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8.
 ExcIEEEAC1A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEAC1A.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 14.5.
 ExcIEEEAC1A.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -14.5.
 ExcIEEEAC1A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1). Typical Value = 4.18.
 ExcIEEEAC1A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.14.
 ExcIEEEAC1A.vrmax  -  Maximum voltage regulator outputs (VRMAX). Typical Value = 6.03.
 ExcIEEEAC1A.vrmin  -  Minimum voltage regulator outputs (VRMIN). Typical Value = -5.43.
 ExcIEEEAC2A.ka  -  Voltage regulator gain (KA). Typical Value = 400.
 ExcIEEEAC2A.kb  -  Second stage regulator gain (KB). Typical Value = 25.
 ExcIEEEAC2A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.28.
 ExcIEEEAC2A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.35.
 ExcIEEEAC2A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC2A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.03.
 ExcIEEEAC2A.kh  -  Exciter field current feedback gain (KH). Typical Value = 1.
 ExcIEEEAC2A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.037.
 ExcIEEEAC2A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.012.
 ExcIEEEAC2A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.02.
 ExcIEEEAC2A.tb  -  Voltage regulator time constant (TB). Typical Value = 0.
 ExcIEEEAC2A.tc  -  Voltage regulator time constant (TC). Typical Value = 0.
 ExcIEEEAC2A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.6.
 ExcIEEEAC2A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEAC2A.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 8.
 ExcIEEEAC2A.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -8.
 ExcIEEEAC2A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1). Typical Value = 4.4.
 ExcIEEEAC2A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.3.
 ExcIEEEAC2A.vfemax  -  Exciter field current limit reference (VFEMAX). Typical Value = 4.4.
 ExcIEEEAC2A.vrmax  -  Maximum voltage regulator outputs (VRMAX). Typical Value = 105.
 ExcIEEEAC2A.vrmin  -  Minimum voltage regulator outputs (VRMIN). Typical Value = -95.
 ExcIEEEAC3A.efdn  -  Value of EFD at which feedback gain changes (EFDN). Typical Value = 2.36.
 ExcIEEEAC3A.ka  -  Voltage regulator gain (KA). Typical Value = 45.62.
 ExcIEEEAC3A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.104.
 ExcIEEEAC3A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.499.
 ExcIEEEAC3A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC3A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.143.
 ExcIEEEAC3A.kn  -  Excitation control system stabilizer gain (KN). Typical Value = 0.05.
 ExcIEEEAC3A.kr  -  Constant associated with regulator and alternator field power supply (KR). Typical Value = 3.77.
 ExcIEEEAC3A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 1.143.
 ExcIEEEAC3A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.1.
 ExcIEEEAC3A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.013.
 ExcIEEEAC3A.tb  -  Voltage regulator time constant (TB). Typical Value = 0.
 ExcIEEEAC3A.tc  -  Voltage regulator time constant (TC). Typical Value = 0.
 ExcIEEEAC3A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.17.
 ExcIEEEAC3A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEAC3A.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 1.
 ExcIEEEAC3A.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -0.95.
 ExcIEEEAC3A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.24.
 ExcIEEEAC3A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 4.68.
 ExcIEEEAC3A.vemin  -  Minimum exciter voltage output (VEMIN). Typical Value = 0.1.
 ExcIEEEAC3A.vfemax  -  Exciter field current limit reference (VFEMAX). Typical Value = 16.
 ExcIEEEAC4A.ka  -  Voltage regulator gain (KA). Typical Value = 200.
 ExcIEEEAC4A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.
 ExcIEEEAC4A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.015.
 ExcIEEEAC4A.tb  -  Voltage regulator time constant (TB). Typical Value = 10.
 ExcIEEEAC4A.tc  -  Voltage regulator time constant (TC). Typical Value = 1.
 ExcIEEEAC4A.vimax  -  Maximum voltage regulator input limit (VIMAX). Typical Value = 10.
 ExcIEEEAC4A.vimin  -  Minimum voltage regulator input limit (VIMIN). Typical Value = -10.
 ExcIEEEAC4A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 5.64.
 ExcIEEEAC4A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -4.53.
 ExcIEEEAC5A.efd1  -  Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 5.6.
 ExcIEEEAC5A.efd2  -  Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 4.2.
 ExcIEEEAC5A.ka  -  Voltage regulator gain (KA). Typical Value = 400.
 ExcIEEEAC5A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC5A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.03.
 ExcIEEEAC5A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.86.
 ExcIEEEAC5A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.5.
 ExcIEEEAC5A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.02.
 ExcIEEEAC5A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8.
 ExcIEEEAC5A.tf1  -  Excitation control system stabilizer time constant (TF1). Typical Value = 1.
 ExcIEEEAC5A.tf2  -  Excitation control system stabilizer time constant (TF2). Typical Value = 1.
 ExcIEEEAC5A.tf3  -  Excitation control system stabilizer time constant (TF3). Typical Value = 1.
 ExcIEEEAC5A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 7.3.
 ExcIEEEAC5A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -7.3.
 ExcIEEEAC6A.ka  -  Voltage regulator gain (KA). Typical Value = 536.
 ExcIEEEAC6A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.173.
 ExcIEEEAC6A.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 1.91.
 ExcIEEEAC6A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.6.
 ExcIEEEAC6A.kh  -  Exciter field current limiter gain (KH). Typical Value = 92.
 ExcIEEEAC6A.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.214.
 ExcIEEEAC6A.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.044.
 ExcIEEEAC6A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.086.
 ExcIEEEAC6A.tb  -  Voltage regulator time constant (TB). Typical Value = 9.
 ExcIEEEAC6A.tc  -  Voltage regulator time constant (TC). Typical Value = 3.
 ExcIEEEAC6A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.
 ExcIEEEAC6A.th  -  Exciter field current limiter time constant (TH). Typical Value = 0.08.
 ExcIEEEAC6A.tj  -  Exciter field current limiter time constant (TJ). Typical Value = 0.02.
 ExcIEEEAC6A.tk  -  Voltage regulator time constant (TK). Typical Value = 0.18.
 ExcIEEEAC6A.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 75.
 ExcIEEEAC6A.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -75.
 ExcIEEEAC6A.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 7.4.
 ExcIEEEAC6A.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 5.55.
 ExcIEEEAC6A.vfelim  -  Exciter field current limit reference (VFELIM). Typical Value = 19.
 ExcIEEEAC6A.vhmax  -  Maximum field current limiter signal reference (VHMAX). Typical Value = 75.
 ExcIEEEAC6A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 44.
 ExcIEEEAC6A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -36.
 ExcIEEEAC7B.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.18.
 ExcIEEEAC7B.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 0.02.
 ExcIEEEAC7B.kdr  -  Voltage regulator derivative gain (KDR). Typical Value = 0.
 ExcIEEEAC7B.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC7B.kf1  -  Excitation control system stabilizer gain (KF1). Typical Value = 0.212.
 ExcIEEEAC7B.kf2  -  Excitation control system stabilizer gain (KF2). Typical Value = 0.
 ExcIEEEAC7B.kf3  -  Excitation control system stabilizer gain (KF3). Typical Value = 0.
 ExcIEEEAC7B.kia  -  Voltage regulator integral gain (KIA). Typical Value = 59.69.
 ExcIEEEAC7B.kir  -  Voltage regulator integral gain (KIR). Typical Value = 4.24.
 ExcIEEEAC7B.kl  -  Exciter field voltage lower limit parameter (KL). Typical Value = 10.
 ExcIEEEAC7B.kp  -  Potential circuit gain coefficient (KP). Typical Value = 4.96.
 ExcIEEEAC7B.kpa  -  Voltage regulator proportional gain (KPA). Typical Value = 65.36.
 ExcIEEEAC7B.kpr  -  Voltage regulator proportional gain (KPR). Typical Value = 4.24.
 ExcIEEEAC7B.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.44.
 ExcIEEEAC7B.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 0.075.
 ExcIEEEAC7B.tdr  -  Lag time constant (TDR). Typical Value = 0.
 ExcIEEEAC7B.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.1.
 ExcIEEEAC7B.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEAC7B.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 1.
 ExcIEEEAC7B.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -0.95.
 ExcIEEEAC7B.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.3.
 ExcIEEEAC7B.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 3.02.
 ExcIEEEAC7B.vemin  -  Minimum exciter voltage output (VEMIN). Typical Value = 0.
 ExcIEEEAC7B.vfemax  -  Exciter field current limit reference (VFEMAX). Typical Value = 6.9.
 ExcIEEEAC7B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 5.79.
 ExcIEEEAC7B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -5.79.
 ExcIEEEAC8B.ka  -  Voltage regulator gain (KA). Typical Value = 1.
 ExcIEEEAC8B.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.55.
 ExcIEEEAC8B.kd  -  Demagnetizing factor, a function of exciter alternator reactances (KD). Typical Value = 1.1.
 ExcIEEEAC8B.kdr  -  Voltage regulator derivative gain (KDR). Typical Value = 10.
 ExcIEEEAC8B.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEAC8B.kir  -  Voltage regulator integral gain (KIR). Typical Value = 5.
 ExcIEEEAC8B.kpr  -  Voltage regulator proportional gain (KPR). Typical Value = 80.
 ExcIEEEAC8B.seve1  -  Exciter saturation function value at the corresponding exciter voltage, VE1, back of commutating reactance (SE[VE1]). Typical Value = 0.3.
 ExcIEEEAC8B.seve2  -  Exciter saturation function value at the corresponding exciter voltage, VE2, back of commutating reactance (SE[VE2]). Typical Value = 3.
 ExcIEEEAC8B.ta  -  Voltage regulator time constant (TA). Typical Value = 0.
 ExcIEEEAC8B.tdr  -  Lag time constant (TDR). Typical Value = 0.1.
 ExcIEEEAC8B.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.2.
 ExcIEEEAC8B.ve1  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE1) equals VEMAX (VE1). Typical Value = 6.5.
 ExcIEEEAC8B.ve2  -  Exciter alternator output voltages back of commutating reactance at which saturation is defined (VE2). Typical Value = 9.
 ExcIEEEAC8B.vemin  -  Minimum exciter voltage output (VEMIN). Typical Value = 0.
 ExcIEEEAC8B.vfemax  -  Exciter field current limit reference (VFEMAX). Typical Value = 6.
 ExcIEEEAC8B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 35.
 ExcIEEEAC8B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = 0.
 ExcIEEEDC1A.efd1  -  Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.1.
 ExcIEEEDC1A.efd2  -  Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.3.
 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.
 ExcIEEEDC1A.ka  -  Voltage regulator gain (KA). Typical Value = 46.
 ExcIEEEDC1A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 0.
 ExcIEEEDC1A.kf  -  Excitation control system stabilizer gain (KF). Typical Value = 0.1.
 ExcIEEEDC1A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.33.
 ExcIEEEDC1A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.1.
 ExcIEEEDC1A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.06.
 ExcIEEEDC1A.tb  -  Voltage regulator time constant (TB). Typical Value = 0.
 ExcIEEEDC1A.tc  -  Voltage regulator time constant (TC). Typical Value = 0.
 ExcIEEEDC1A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.46.
 ExcIEEEDC1A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEDC1A.uelin  -  UEL input (uelin). true = input is connected to the HV gate false = input connects to the error signal. Typical Value = true.
 ExcIEEEDC1A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 1.
 ExcIEEEDC1A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -0.9.
 ExcIEEEDC2A.efd1  -  Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.05.
 ExcIEEEDC2A.efd2  -  Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.29.
 ExcIEEEDC2A.exclim  -  (exclim). IEEE standard is ambiguous about lower limit on exciter output. Typical Value = - 999 which means that there is no limit applied.
 ExcIEEEDC2A.ka  -  Voltage regulator gain (KA). Typical Value = 300.
 ExcIEEEDC2A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEDC2A.kf  -  Excitation control system stabilizer gain (KF). Typical Value = 0.1.
 ExcIEEEDC2A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.279.
 ExcIEEEDC2A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.117.
 ExcIEEEDC2A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.01.
 ExcIEEEDC2A.tb  -  Voltage regulator time constant (TB). Typical Value = 0.
 ExcIEEEDC2A.tc  -  Voltage regulator time constant (TC). Typical Value = 0.
 ExcIEEEDC2A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 1.33.
 ExcIEEEDC2A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 0.675.
 ExcIEEEDC2A.uelin  -  UEL input (uelin). true = input is connected to the HV gate false = input connects to the error signal. Typical Value = true.
 ExcIEEEDC2A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 4.95.
 ExcIEEEDC2A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -4.9.
 ExcIEEEDC3A.efd1  -  Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 3.375.
 ExcIEEEDC3A.efd2  -  Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 3.15.
 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.
 ExcIEEEDC3A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 0.05.
 ExcIEEEDC3A.kv  -  Fast raise/lower contact setting (KV). Typical Value = 0.05.
 ExcIEEEDC3A.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.267.
 ExcIEEEDC3A.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.068.
 ExcIEEEDC3A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.5.
 ExcIEEEDC3A.trh  -  Rheostat travel time (TRH). Typical Value = 20.
 ExcIEEEDC3A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 1.
 ExcIEEEDC3A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = 0.
 ExcIEEEDC4B.efd1  -  Exciter voltage at which exciter saturation is defined (EFD1). Typical Value = 1.75.
 ExcIEEEDC4B.efd2  -  Exciter voltage at which exciter saturation is defined (EFD2). Typical Value = 2.33.
 ExcIEEEDC4B.ka  -  Voltage regulator gain (KA). Typical Value = 1.
 ExcIEEEDC4B.kd  -  Regulator derivative gain (KD). Typical Value = 20.
 ExcIEEEDC4B.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEDC4B.kf  -  Excitation control system stabilizer gain (KF). Typical Value = 0.
 ExcIEEEDC4B.ki  -  Regulator integral gain (KI). Typical Value = 20.
 ExcIEEEDC4B.kp  -  Regulator proportional gain (KP). Typical Value = 20.
 ExcIEEEDC4B.oelin  -  OEL input (OELin). true = LV gate false = subtract from error signal. Typical Value = true.
 ExcIEEEDC4B.seefd1  -  Exciter saturation function value at the corresponding exciter voltage, EFD1 (SE[EFD1]). Typical Value = 0.08.
 ExcIEEEDC4B.seefd2  -  Exciter saturation function value at the corresponding exciter voltage, EFD2 (SE[EFD2]). Typical Value = 0.27.
 ExcIEEEDC4B.ta  -  Voltage regulator time constant (TA). Typical Value = 0.2.
 ExcIEEEDC4B.td  -  Regulator derivative filter time constant(TD). Typical Value = 0.01.
 ExcIEEEDC4B.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.8.
 ExcIEEEDC4B.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEDC4B.uelin  -  UEL input (UELin). true = HV gate false = add to error signal. Typical Value = true.
 ExcIEEEDC4B.vemin  -  Minimum exciter voltage output(VEMIN). Typical Value = 0.
 ExcIEEEDC4B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 2.7.
 ExcIEEEDC4B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -0.9.
 ExcIEEEST1A.ilr  -  Exciter output current limit reference (ILR). Typical Value = 0.
 ExcIEEEST1A.ka  -  Voltage regulator gain (KA). Typical Value = 190.
 ExcIEEEST1A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.08.
 ExcIEEEST1A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.
 ExcIEEEST1A.klr  -  Exciter output current limiter gain (KLR). Typical Value = 0.
 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.
 ExcIEEEST1A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.
 ExcIEEEST1A.tb  -  Voltage regulator time constant (TB). Typical Value = 10.
 ExcIEEEST1A.tb1  -  Voltage regulator time constant (TB1). Typical Value = 0.
 ExcIEEEST1A.tc  -  Voltage regulator time constant (TC). Typical Value = 1.
 ExcIEEEST1A.tc1  -  Voltage regulator time constant (TC1). Typical Value = 0.
 ExcIEEEST1A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEST1A.uelin  -  Selector of the connection of the UEL input (UELin). Typical Value = ignoreUELsignal.
 ExcIEEEST1A.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 14.5.
 ExcIEEEST1A.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -14.5.
 ExcIEEEST1A.vimax  -  Maximum voltage regulator input limit (VIMAX). Typical Value = 999.
 ExcIEEEST1A.vimin  -  Minimum voltage regulator input limit (VIMIN). Typical Value = -999.
 ExcIEEEST1A.vrmax  -  Maximum voltage regulator outputs (VRMAX). Typical Value = 7.8.
 ExcIEEEST1A.vrmin  -  Minimum voltage regulator outputs (VRMIN). Typical Value = -6.7.
 ExcIEEEST1AUELselectorKind
 ExcIEEEST2A.efdmax  -  Maximum field voltage (EFDMax). Typical Value = 99.
 ExcIEEEST2A.ka  -  Voltage regulator gain (KA). Typical Value = 120.
 ExcIEEEST2A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 1.82.
 ExcIEEEST2A.ke  -  Exciter constant related to self-excited field (KE). Typical Value = 1.
 ExcIEEEST2A.kf  -  Excitation control system stabilizer gains (KF). Typical Value = 0.05.
 ExcIEEEST2A.ki  -  Potential circuit gain coefficient (KI). Typical Value = 8.
 ExcIEEEST2A.kp  -  Potential circuit gain coefficient (KP). Typical Value = 4.88.
 ExcIEEEST2A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.15.
 ExcIEEEST2A.te  -  Exciter time constant, integration rate associated with exciter control (TE). Typical Value = 0.5.
 ExcIEEEST2A.tf  -  Excitation control system stabilizer time constant (TF). Typical Value = 1.
 ExcIEEEST2A.uelin  -  UEL input (UELin). true = HV gate false = add to error signal. Typical Value = true.
 ExcIEEEST2A.vrmax  -  Maximum voltage regulator outputs (VRMAX). Typical Value = 1.
 ExcIEEEST2A.vrmin  -  Minimum voltage regulator outputs (VRMIN). Typical Value = 0.
 ExcIEEEST3A.ka  -  Voltage regulator gain (KA). This is parameter K in the IEEE Std. Typical Value = 200.
 ExcIEEEST3A.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.2.
 ExcIEEEST3A.kg  -  Feedback gain constant of the inner loop field regulator (KG). Typical Value = 1.
 ExcIEEEST3A.ki  -  Potential circuit gain coefficient (KI). Typical Value = 0.
 ExcIEEEST3A.km  -  Forward gain constant of the inner loop field regulator (KM). Typical Value = 7.93.
 ExcIEEEST3A.kp  -  Potential circuit gain coefficient (KP). Typical Value = 6.15.
 ExcIEEEST3A.ta  -  Voltage regulator time constant (TA). Typical Value = 0.
 ExcIEEEST3A.tb  -  Voltage regulator time constant (TB). Typical Value = 10.
 ExcIEEEST3A.tc  -  Voltage regulator time constant (TC). Typical Value = 1.
 ExcIEEEST3A.thetap  -  Potential circuit phase angle (thetap). Typical Value = 0.
 ExcIEEEST3A.tm  -  Forward time constant of inner loop field regulator (TM). Typical Value = 0.4.
 ExcIEEEST3A.vbmax  -  Maximum excitation voltage (VBMax). Typical Value = 6.9.
 ExcIEEEST3A.vgmax  -  Maximum inner loop feedback voltage (VGMax). Typical Value = 5.8.
 ExcIEEEST3A.vimax  -  Maximum voltage regulator input limit (VIMAX). Typical Value = 0.2.
 ExcIEEEST3A.vimin  -  Minimum voltage regulator input limit (VIMIN). Typical Value = -0.2.
 ExcIEEEST3A.vmmax  -  Maximum inner loop output (VMMax). Typical Value = 1.
 ExcIEEEST3A.vmmin  -  Minimum inner loop output (VMMin). Typical Value = 0.
 ExcIEEEST3A.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 10.
 ExcIEEEST3A.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -10.
 ExcIEEEST3A.xl  -  Reactance associated with potential source (XL). Typical Value = 0.081.
 ExcIEEEST4B.kc  -  Rectifier loading factor proportional to commutating reactance (KC). Typical Value = 0.113.
 ExcIEEEST4B.kg  -  Feedback gain constant of the inner loop field regulator (KG). Typical Value = 0.
 ExcIEEEST4B.ki  -  Potential circuit gain coefficient (KI). Typical Value = 0.
 ExcIEEEST4B.kim  -  Voltage regulator integral gain output (KIM). Typical Value = 0.
 ExcIEEEST4B.kir  -  Voltage regulator integral gain (KIR). Typical Value = 10.75.
 ExcIEEEST4B.kp  -  Potential circuit gain coefficient (KP). Typical Value = 9.3.
 ExcIEEEST4B.kpm  -  Voltage regulator proportional gain output (KPM). Typical Value = 1.
 ExcIEEEST4B.kpr  -  Voltage regulator proportional gain (KPR). Typical Value = 10.75.
 ExcIEEEST4B.ta  -  Voltage regulator time constant (TA). Typical Value = 0.02.
 ExcIEEEST4B.thetap  -  Potential circuit phase angle (thetap). Typical Value = 0.
 ExcIEEEST4B.vbmax  -  Maximum excitation voltage (VBMax). Typical Value = 11.63.
 ExcIEEEST4B.vmmax  -  Maximum inner loop output (VMMax). Typical Value = 99.
 ExcIEEEST4B.vmmin  -  Minimum inner loop output (VMMin). Typical Value = -99.
 ExcIEEEST4B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 1.
 ExcIEEEST4B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -0.87.
 ExcIEEEST4B.xl  -  Reactance associated with potential source (XL). Typical Value = 0.124.
 ExcIEEEST5B.kc  -  Rectifier regulation factor (KC). Typical Value = 0.004.
 ExcIEEEST5B.kr  -  Regulator gain (KR). Typical Value = 200.
 ExcIEEEST5B.t1  -  Firing circuit time constant (T1). Typical Value = 0.004.
 ExcIEEEST5B.tb1  -  Regulator lag time constant (TB1). Typical Value = 6.
 ExcIEEEST5B.tb2  -  Regulator lag time constant (TB2). Typical Value = 0.01.
 ExcIEEEST5B.tc1  -  Regulator lead time constant (TC1). Typical Value = 0.8.
 ExcIEEEST5B.tc2  -  Regulator lead time constant (TC2). Typical Value = 0.08.
 ExcIEEEST5B.tob1  -  OEL lag time constant (TOB1). Typical Value = 2.
 ExcIEEEST5B.tob2  -  OEL lag time constant (TOB2). Typical Value = 0.08.
 ExcIEEEST5B.toc1  -  OEL lead time constant (TOC1). Typical Value = 0.1.
 ExcIEEEST5B.toc2  -  OEL lead time constant (TOC2). Typical Value = 0.08.
 ExcIEEEST5B.tub1  -  UEL lag time constant (TUB1). Typical Value = 10.
 ExcIEEEST5B.tub2  -  UEL lag time constant (TUB2). Typical Value = 0.05.
 ExcIEEEST5B.tuc1  -  UEL lead time constant (TUC1). Typical Value = 2.
 ExcIEEEST5B.tuc2  -  UEL lead time constant (TUC2). Typical Value = 0.1.
 ExcIEEEST5B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 5.
 ExcIEEEST5B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -4.
 ExcIEEEST6B.ilr  -  Exciter output current limit reference (ILR). Typical Value = 4.164.
 ExcIEEEST6B.kci  -  Exciter output current limit adjustment (KCI). Typical Value = 1.0577.
 ExcIEEEST6B.kff  -  Pre-control gain constant of the inner loop field regulator (KFF). Typical Value = 1.
 ExcIEEEST6B.kg  -  Feedback gain constant of the inner loop field regulator (KG). Typical Value = 1.
 ExcIEEEST6B.kia  -  Voltage regulator integral gain (KIA). Typical Value = 45.094.
 ExcIEEEST6B.klr  -  Exciter output current limiter gain (KLR). Typical Value = 17.33.
 ExcIEEEST6B.km  -  Forward gain constant of the inner loop field regulator (KM). Typical Value = 1.
 ExcIEEEST6B.kpa  -  Voltage regulator proportional gain (KPA). Typical Value = 18.038.
 ExcIEEEST6B.oelin  -  OEL input selector (OELin). Typical Value = noOELinput.
 ExcIEEEST6B.tg  -  Feedback time constant of inner loop field voltage regulator (TG). Typical Value = 0.02.
 ExcIEEEST6B.vamax  -  Maximum voltage regulator output (VAMAX). Typical Value = 4.81.
 ExcIEEEST6B.vamin  -  Minimum voltage regulator output (VAMIN). Typical Value = -3.85.
 ExcIEEEST6B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 4.81.
 ExcIEEEST6B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -3.85.
 ExcIEEEST7B.kh  -  High-value gate feedback gain (KH). Typical Value 1.
 ExcIEEEST7B.kia  -  Voltage regulator integral gain (KIA). Typical Value = 1.
 ExcIEEEST7B.kl  -  Low-value gate feedback gain (KL). Typical Value 1.
 ExcIEEEST7B.kpa  -  Voltage regulator proportional gain (KPA). Typical Value = 40.
 ExcIEEEST7B.oelin  -  OEL input selector (OELin). Typical Value = noOELinput.
 ExcIEEEST7B.tb  -  Regulator lag time constant (TB). Typical Value 1.
 ExcIEEEST7B.tc  -  Regulator lead time constant (TC). Typical Value 1.
 ExcIEEEST7B.tf  -  Excitation control system stabilizer time constant (TF). Typical Value 1.
 ExcIEEEST7B.tg  -  Feedback time constant of inner loop field voltage regulator (TG). Typical Value 1.
 ExcIEEEST7B.tia  -  Feedback time constant (TIA). Typical Value = 3.
 ExcIEEEST7B.uelin  -  UEL input selector (UELin). Typical Value = noUELinput.
 ExcIEEEST7B.vmax  -  Maximum voltage reference signal (VMAX). Typical Value = 1.1.
 ExcIEEEST7B.vmin  -  Minimum voltage reference signal (VMIN). Typical Value = 0.9.
 ExcIEEEST7B.vrmax  -  Maximum voltage regulator output (VRMAX). Typical Value = 5.
 ExcIEEEST7B.vrmin  -  Minimum voltage regulator output (VRMIN). Typical Value = -4.5.
 ExcitationSystemDynamics.ExcAC1A  -  Modified IEEE AC1A alternator-supplied rectifier excitation system with different rate feedback source.
 ExcitationSystemDynamics.ExcAC2A  -  Modified IEEE AC2A alternator-supplied rectifier excitation system with different field current limit.
 ExcitationSystemDynamics.ExcAC3A  -  Modified IEEE AC3A alternator-supplied rectifier excitation system with different field current limit.
 ExcitationSystemDynamics.ExcAC4A  -  Modified IEEE AC4A alternator-supplied rectifier excitation system with different minimum controller output.
 ExcitationSystemDynamics.ExcAC5A  -  Modified IEEE AC5A alternator-supplied rectifier excitation system with different minimum controller output.
 ExcitationSystemDynamics.ExcAC6A  -  Modified IEEE AC6A alternator-supplied rectifier excitation system with speed input.
 ExcitationSystemDynamics.ExcAC8B  -  Modified IEEE AC8B alternator-supplied rectifier excitation system with speed input and input limiter.
 ExcitationSystemDynamics.ExcANS  -  Italian excitation system. It represents static field voltage or excitation current feedback excitation system.
 ExcitationSystemDynamics.ExcAVR1  -  Italian excitation system corresponding to IEEE (1968) Type 1 Model. It represents exciter dynamo and electromechanical regulator.
 ExcitationSystemDynamics.ExcAVR2  -  Italian excitation system corresponding to IEEE (1968) Type 2 Model. It represents alternator and rotating diodes and electromechanic voltage regulators.
 ExcitationSystemDynamics.ExcAVR3  -  Italian excitation system. It represents exciter dynamo and electric regulator.
 ExcitationSystemDynamics.ExcAVR4  -  Italian excitation system. It represents static exciter and electric voltage regulator.
 ExcitationSystemDynamics.ExcAVR5  -  Manual excitation control with field circuit resistance. This model can be used as a very simple representation of manual voltage control.
 ExcitationSystemDynamics.ExcAVR7  -  IVO excitation system.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcCZ  -  Czech Proportion/Integral Exciter.
 ExcitationSystemDynamics.ExcDC1A  -  Modified IEEE DC1A direct current commutator exciter with speed input and without underexcitation limiters (UEL) inputs.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcDC3A  -  This is modified IEEE DC3A direct current commutator exciters with speed input, and death band. DC old type 4.
 ExcitationSystemDynamics.ExcDC3A1  -  This is modified old IEEE type 3 excitation system.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcHU  -  Hungarian Excitation System Model, with built-in voltage transducer.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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 unit’s 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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcitationSystemDynamics  -  Excitation system function block whose behavior is described by reference to a standard model or by definition of a user-defined model.
 ExcitationSystemDynamics.ExcOEX3T  -  Modified IEEE Type ST1 Excitation System with semi-continuous and acting terminal voltage limiter.
 ExcitationSystemDynamics.ExcPIC  -  Proportional/Integral Regulator Excitation System Model. This model can be used to represent excitation systems with a proportional-integral (PI) voltage regulator controller.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcSCRX  -  Simple excitation system model representing generic characteristics of many excitation systems; intended for use where negative field current may be a problem.
 ExcitationSystemDynamics.ExcSEXS  -  Simplified Excitation System Model.
 ExcitationSystemDynamics.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.
 ExcitationSystemDynamics.ExcST1A  -  Modification of an old IEEE ST1A static excitation system without overexcitation limiter (OEL) and underexcitation limiter (UEL).
 ExcitationSystemDynamics.ExcST2A  -  Modified IEEE ST2A static excitation system - another lead-lag block added to match the model defined by WECC.
 ExcitationSystemDynamics.ExcST3A  -  Modified IEEE ST3A static excitation system with added speed multiplier.
 ExcitationSystemDynamics.ExcST4B  -  Modified IEEE ST4B static excitation system with maximum inner loop feedback gain Vgmax.
 ExcitationSystemDynamics.ExcST6B  -  Modified IEEE ST6B static excitation system with PID controller and optional inner feedbacks loop.
 ExcitationSystemDynamics.ExcST7B  -  Modified IEEE ST7B static excitation system without stator current limiter (SCL) and current compensator (DROOP) inputs.
 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.
 ExcOEX3T.e1  -  Saturation parameter (E1).
 ExcOEX3T.e2  -  Saturation parameter (E2).
 ExcOEX3T.ka  -  Gain (KA).
 ExcOEX3T.kc  -  Gain (KC).
 ExcOEX3T.kd  -  Gain (KD).
 ExcOEX3T.ke  -  Gain (KE).
 ExcOEX3T.kf  -  Gain (KF).
 ExcOEX3T.see1  -  Saturation parameter (SE(E1)).
 ExcOEX3T.see2  -  Saturation parameter (SE(E2)).
 ExcOEX3T.t1  -  Time constant (T1).
 ExcOEX3T.t2  -  Time constant (T2).
 ExcOEX3T.t3  -  Time constant (T3).
 ExcOEX3T.t4  -  Time constant (T4).
 ExcOEX3T.t5  -  Time constant (T5).
 ExcOEX3T.t6  -  Time constant (T6).
 ExcOEX3T.te  -  Time constant (TE).
 ExcOEX3T.tf  -  Time constant (TF).
 ExcOEX3T.vrmax  -  Limiter (VRMAX).
 ExcOEX3T.vrmin  -  Limiter (VRMIN).
 ExcPIC.e1  -  Field voltage value 1 (E1). Typical Value = 0.
 ExcPIC.e2  -  Field voltage value 2 (E2). Typical Value = 0.
 ExcPIC.efdmax  -  Exciter maximum limit (Efdmax). Typical Value = 8.
 ExcPIC.efdmin  -  Exciter minimum limit (Efdmin). Typical Value = -0.87.
 ExcPIC.ka  -  PI controller gain (Ka). Typical Value = 3.15.
 ExcPIC.kc  -  Exciter regulation factor (Kc). Typical Value = 0.08.
 ExcPIC.ke  -  Exciter constant (Ke). Typical Value = 0.
 ExcPIC.kf  -  Rate feedback gain (Kf). Typical Value = 0.
 ExcPIC.ki  -  Current source gain (Ki). Typical Value = 0.
 ExcPIC.kp  -  Potential source gain (Kp). Typical Value = 6.5.
 ExcPIC.se1  -  Saturation factor at E1 (Se1). Typical Value = 0.
 ExcPIC.se2  -  Saturation factor at E2 (Se2). Typical Value = 0.
 ExcPIC.ta1  -  PI controller time constant (Ta1). Typical Value = 1.
 ExcPIC.ta2  -  Voltage regulator time constant (Ta2). Typical Value = 0.01.
 ExcPIC.ta3  -  Lead time constant (Ta3). Typical Value = 0.
 ExcPIC.ta4  -  Lag time constant (Ta4). Typical Value = 0.
 ExcPIC.te  -  Exciter time constant (Te). Typical Value = 0.
 ExcPIC.tf1  -  Rate feedback time constant (Tf1). Typical Value = 0.
 ExcPIC.tf2  -  Rate feedback lag time constant (Tf2). Typical Value = 0.
 ExcPIC.vr1  -  PI maximum limit (Vr1). Typical Value = 1.
 ExcPIC.vr2  -  PI minimum limit (Vr2). Typical Value = -0.87.
 ExcPIC.vrmax  -  Voltage regulator maximum limit (Vrmax). Typical Value = 1.
 ExcPIC.vrmin  -  Voltage regulator minimum limit (Vrmin). Typical Value = -0.87.
 ExcREXS.e1  -  Field voltage value 1 (E1). Typical Value = 3.
 ExcREXS.e2  -  Field voltage value 2 (E2). Typical Value = 4.
 ExcREXS.fbf  -  Rate feedback signal flag (Fbf). Typical Value = fieldCurrent.
 ExcREXS.flimf  -  Limit type flag (Flimf). Typical Value = 0.
 ExcREXS.kc  -  Rectifier regulation factor (Kc). Typical Value = 0.05.
 ExcREXS.kd  -  Exciter regulation factor (Kd). Typical Value = 2.
 ExcREXS.ke  -  Exciter field proportional constant (Ke). Typical Value = 1.
 ExcREXS.kefd  -  Field voltage feedback gain (Kefd). Typical Value = 0.
 ExcREXS.kf  -  Rate feedback gain (Kf). Typical Value = 0.05.
 ExcREXS.kh  -  Field voltage controller feedback gain (Kh). Typical Value = 0.
 ExcREXS.kii  -  Field Current Regulator Integral Gain (Kii). Typical Value = 0.
 ExcREXS.kip  -  Field Current Regulator Proportional Gain (Kip). Typical Value = 1.
 ExcREXS.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcREXS.kvi  -  Voltage Regulator Integral Gain (Kvi). Typical Value = 0.
 ExcREXS.kvp  -  Voltage Regulator Proportional Gain (Kvp). Typical Value = 2800.
 ExcREXS.kvphz  -  V/Hz limiter gain (Kvphz). Typical Value = 0.
 ExcREXS.nvphz  -  Pickup speed of V/Hz limiter (Nvphz). Typical Value = 0.
 ExcREXS.se1  -  Saturation factor at E1 (Se1). Typical Value = 0.0001.
 ExcREXS.se2  -  Saturation factor at E2 (Se2). Typical Value = 0.001.
 ExcREXS.ta  -  Voltage Regulator time constant (Ta). Typical Value = 0.01.
 ExcREXS.tb1  -  Lag time constant (Tb1). Typical Value = 0.
 ExcREXS.tb2  -  Lag time constant (Tb2). Typical Value = 0.
 ExcREXS.tc1  -  Lead time constant (Tc1). Typical Value = 0.
 ExcREXS.tc2  -  Lead time constant (Tc2). Typical Value = 0.
 ExcREXS.te  -  Exciter field time constant (Te). Typical Value = 1.2.
 ExcREXS.tf  -  Rate feedback time constant (Tf). Typical Value = 1.
 ExcREXS.tf1  -  Feedback lead time constant (Tf1). Typical Value = 0.
 ExcREXS.tf2  -  Feedback lag time constant (Tf2). Typical Value = 0.
 ExcREXS.tp  -  Field current Bridge time constant (Tp). Typical Value = 0.
 ExcREXS.vcmax  -  Maximum compounding voltage (Vcmax). Typical Value = 0.
 ExcREXS.vfmax  -  Maximum Exciter Field Current (Vfmax). Typical Value = 47.
 ExcREXS.vfmin  -  Minimum Exciter Field Current (Vfmin). Typical Value = -20.
 ExcREXS.vimax  -  Voltage Regulator Input Limit (Vimax). Typical Value = 0.1.
 ExcREXS.vrmax  -  Maximum controller output (Vrmax). Typical Value = 47.
 ExcREXS.vrmin  -  Minimum controller output (Vrmin). Typical Value = -20.
 ExcREXS.xc  -  Exciter compounding reactance (Xc). Typical Value = 0.
 ExcREXSFeedbackSignalKind
 ExcSCRX.cswitch  -  Power source switch (Cswitch). true = fixed voltage of 1.0 PU false = generator terminal voltage.
 ExcSCRX.emax  -  Maximum field voltage output (Emax). Typical Value = 5.
 ExcSCRX.emin  -  Minimum field voltage output (Emin). Typical Value = 0.
 ExcSCRX.k  -  Gain (K) (>0). Typical Value = 200.
 ExcSCRX.rcrfd  -  Rc/Rfd - ratio of field discharge resistance to field winding resistance (RcRfd). Typical Value = 0.
 ExcSCRX.tatb  -  Ta/Tb - gain reduction ratio of lag-lead element (TaTb). The parameter Ta is not defined explicitly. Typical Value = 0.1.
 ExcSCRX.tb  -  Denominator time constant of lag-lead block (Tb). Typical Value = 10.
 ExcSCRX.te  -  Time constant of gain block (Te) (>0). Typical Value = 0.02.
 ExcSEXS.efdmax  -  Field voltage clipping maximum limit (Efdmax). Typical Value = 5.
 ExcSEXS.efdmin  -  Field voltage clipping minimum limit (Efdmin). Typical Value = -5.
 ExcSEXS.emax  -  Maximum field voltage output (Emax). Typical Value = 5.
 ExcSEXS.emin  -  Minimum field voltage output (Emin). Typical Value = -5.
 ExcSEXS.k  -  Gain (K) (>0). Typical Value = 100.
 ExcSEXS.kc  -  PI controller gain (Kc). Typical Value = 0.08.
 ExcSEXS.tatb  -  Ta/Tb - gain reduction ratio of lag-lead element (TaTb). Typical Value = 0.1.
 ExcSEXS.tb  -  Denominator time constant of lag-lead block (Tb). Typical Value = 10.
 ExcSEXS.tc  -  PI controller phase lead time constant (Tc). Typical Value = 0.
 ExcSEXS.te  -  Time constant of gain block (Te). Typical Value = 0.05.
 ExcSK.efdmax  -  Field voltage clipping limit (Efdmax).
 ExcSK.efdmin  -  Field voltage clipping limit (Efdmin).
 ExcSK.emax  -  Maximum field voltage output (Emax). Typical Value = 20.
 ExcSK.emin  -  Minimum field voltage output (Emin). Typical Value = -20.
 ExcSK.k  -  Gain (K). Typical Value = 1.
 ExcSK.k1  -  Parameter of underexcitation limit (K1). Typical Value = 0.1364.
 ExcSK.k2  -  Parameter of underexcitation limit (K2). Typical Value = -0.3861.
 ExcSK.kc  -  PI controller gain (Kc). Typical Value = 70.
 ExcSK.kce  -  Rectifier regulation factor (Kce). Typical Value = 0.
 ExcSK.kd  -  Exciter internal reactance (Kd). Typical Value = 0.
 ExcSK.kgob  -  P controller gain (Kgob). Typical Value = 10.
 ExcSK.kp  -  PI controller gain (Kp). Typical Value = 1.
 ExcSK.kqi  -  PI controller gain of integral component (Kqi). Typical Value = 0.
 ExcSK.kqob  -  Rate of rise of the reactive power (Kqob).
 ExcSK.kqp  -  PI controller gain (Kqp). Typical Value = 0.
 ExcSK.nq  -  Dead band of reactive power (nq). Determines the range of sensitivity. Typical Value = 0.001.
 ExcSK.qconoff  -  Secondary voltage control state (Qc_on_off). true = secondary voltage control is ON false = secondary voltage control is OFF. Typical Value = false.
 ExcSK.qz  -  Desired value (setpoint) of reactive power, manual setting (Qz).
 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.
 ExcSK.sbase  -  Apparent power of the unit (Sbase). Unit = MVA. Typical Value = 259.
 ExcSK.tc  -  PI controller phase lead time constant (Tc). Typical Value = 8.
 ExcSK.te  -  Time constant of gain block (Te). Typical Value = 0.1.
 ExcSK.ti  -  PI controller phase lead time constant (Ti). Typical Value = 2.
 ExcSK.tp  -  Time constant (Tp). Typical Value = 0.1.
 ExcSK.tr  -  Voltage transducer time constant (Tr). Typical Value = 0.01.
 ExcSK.uimax  -  Maximum error (Uimax). Typical Value = 10.
 ExcSK.uimin  -  Minimum error (UImin). Typical Value = -10.
 ExcSK.urmax  -  Maximum controller output (URmax). Typical Value = 10.
 ExcSK.urmin  -  Minimum controller output (URmin). Typical Value = -10.
 ExcSK.vtmax  -  Maximum terminal voltage input (Vtmax). Determines the range of voltage dead band. Typical Value = 1.05.
 ExcSK.vtmin  -  Minimum terminal voltage input (Vtmin). Determines the range of voltage dead band. Typical Value = 0.95.
 ExcSK.yp  -  Maximum output (Yp). Minimum output = 0. Typical Value = 1.
 ExcST1A.ilr  -  Exciter output current limit reference (Ilr). Typical Value = 0.
 ExcST1A.ka  -  Voltage regulator gain (Ka). Typical Value = 190.
 ExcST1A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.05.
 ExcST1A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.
 ExcST1A.klr  -  Exciter output current limiter gain (Klr). Typical Value = 0.
 ExcST1A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.02.
 ExcST1A.tb  -  Voltage regulator time constant (Tb). Typical Value = 10.
 ExcST1A.tb1  -  Voltage regulator time constant (Tb1). Typical Value = 0.
 ExcST1A.tc  -  Voltage regulator time constant (Tc). Typical Value = 1.
 ExcST1A.tc1  -  Voltage regulator time constant (Tc1). Typical Value = 0.
 ExcST1A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcST1A.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 999.
 ExcST1A.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -999.
 ExcST1A.vimax  -  Maximum voltage regulator input limit (Vimax). Typical Value = 999.
 ExcST1A.vimin  -  Minimum voltage regulator input limit (Vimin). Typical Value = -999.
 ExcST1A.vrmax  -  Maximum voltage regulator outputs (Vrmax). Typical Value = 7.8.
 ExcST1A.vrmin  -  Minimum voltage regulator outputs (Vrmin). Typical Value = -6.7.
 ExcST1A.xe  -  Excitation xfmr effective reactance (Xe). Typical Value = 0.04.
 ExcST2A.efdmax  -  Maximum field voltage (Efdmax). Typical Value = 99.
 ExcST2A.ka  -  Voltage regulator gain (Ka). Typical Value = 120.
 ExcST2A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 1.82.
 ExcST2A.ke  -  Exciter constant related to self-excited field (Ke). Typical Value = 1.
 ExcST2A.kf  -  Excitation control system stabilizer gains (Kf). Typical Value = 0.05.
 ExcST2A.ki  -  Potential circuit gain coefficient (Ki). Typical Value = 8.
 ExcST2A.kp  -  Potential circuit gain coefficient (Kp). Typical Value = 4.88.
 ExcST2A.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.15.
 ExcST2A.tb  -  Voltage regulator time constant (Tb). Typical Value = 0.
 ExcST2A.tc  -  Voltage regulator time constant (Tc). Typical Value = 0.
 ExcST2A.te  -  Exciter time constant, integration rate associated with exciter control (Te). Typical Value = 0.5.
 ExcST2A.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 0.7.
 ExcST2A.uelin  -  UEL input (UELin). true = HV gate false = add to error signal. Typical Value = false.
 ExcST2A.vrmax  -  Maximum voltage regulator outputs (Vrmax). Typical Value = 1.
 ExcST2A.vrmin  -  Minimum voltage regulator outputs (Vrmin). Typical Value = -1.
 ExcST3A.efdmax  -  Maximum AVR output (Efdmax). Typical Value = 6.9.
 ExcST3A.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 1.1.
 ExcST3A.kg  -  Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 1.
 ExcST3A.ki  -  Potential circuit gain coefficient (Ki). Typical Value = 4.83.
 ExcST3A.kj  -  AVR gain (Kj). Typical Value = 200.
 ExcST3A.km  -  Forward gain constant of the inner loop field regulator (Km). Typical Value = 7.04.
 ExcST3A.kp  -  Potential source gain (Kp) (>0). Typical Value = 4.37.
 ExcST3A.ks  -  Coefficient to allow different usage of the model-speed coefficient (Ks). Typical Value = 0.
 ExcST3A.ks1  -  Coefficient to allow different usage of the model-speed coefficient (Ks1). Typical Value = 0.
 ExcST3A.tb  -  Voltage regulator time constant (Tb). Typical Value = 6.67.
 ExcST3A.tc  -  Voltage regulator time constant (Tc). Typical Value = 1.
 ExcST3A.thetap  -  Potential circuit phase angle (thetap). Typical Value = 20.
 ExcST3A.tm  -  Forward time constant of inner loop field regulator (Tm). Typical Value = 1.
 ExcST3A.vbmax  -  Maximum excitation voltage (Vbmax). Typical Value = 8.63.
 ExcST3A.vgmax  -  Maximum inner loop feedback voltage (Vgmax). Typical Value = 6.53.
 ExcST3A.vimax  -  Maximum voltage regulator input limit (Vimax). Typical Value = 0.2.
 ExcST3A.vimin  -  Minimum voltage regulator input limit (Vimin). Typical Value = -0.2.
 ExcST3A.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 1.
 ExcST3A.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = 0.
 ExcST3A.xl  -  Reactance associated with potential source (Xl). Typical Value = 0.09.
 ExcST4B.kc  -  Rectifier loading factor proportional to commutating reactance (Kc). Typical Value = 0.113.
 ExcST4B.kg  -  Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 0.
 ExcST4B.ki  -  Potential circuit gain coefficient (Ki). Typical Value = 0.
 ExcST4B.kim  -  Voltage regulator integral gain output (Kim). Typical Value = 0.
 ExcST4B.kir  -  Voltage regulator integral gain (Kir). Typical Value = 10.75.
 ExcST4B.kp  -  Potential circuit gain coefficient (Kp). Typical Value = 9.3.
 ExcST4B.kpm  -  Voltage regulator proportional gain output (Kpm). Typical Value = 1.
 ExcST4B.kpr  -  Voltage regulator proportional gain (Kpr). Typical Value = 10.75.
 ExcST4B.lvgate  -  Selector (LVgate). true = LVgate is part of the block diagram false = LVgate is not part of the block diagram. Typical Value = false.
 ExcST4B.ta  -  Voltage regulator time constant (Ta). Typical Value = 0.02.
 ExcST4B.thetap  -  Potential circuit phase angle (thetap). Typical Value = 0.
 ExcST4B.uel  -  Selector (Uel). true = UEL is part of block diagram false = UEL is not part of block diagram. Typical Value = false.
 ExcST4B.vbmax  -  Maximum excitation voltage (Vbmax). Typical Value = 11.63.
 ExcST4B.vgmax  -  Maximum inner loop feedback voltage (Vgmax). Typical Value = 5.8.
 ExcST4B.vmmax  -  Maximum inner loop output (Vmmax). Typical Value = 99.
 ExcST4B.vmmin  -  Minimum inner loop output (Vmmin). Typical Value = -99.
 ExcST4B.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 1.
 ExcST4B.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -0.87.
 ExcST4B.xl  -  Reactance associated with potential source (Xl). Typical Value = 0.124.
 ExcST6B.ilr  -  Exciter output current limit reference (Ilr). Typical Value = 4.164.
 ExcST6B.k1  -  Selector (K1). true = feedback is from Ifd false = feedback is not from Ifd. Typical Value = true.
 ExcST6B.kcl  -  Exciter output current limit adjustment (Kcl). Typical Value = 1.0577.
 ExcST6B.kff  -  Pre-control gain constant of the inner loop field regulator (Kff). Typical Value = 1.
 ExcST6B.kg  -  Feedback gain constant of the inner loop field regulator (Kg). Typical Value = 1.
 ExcST6B.kia  -  Voltage regulator integral gain (Kia). Typical Value = 45.094.
 ExcST6B.klr  -  Exciter output current limit adjustment (Kcl). Typical Value = 17.33.
 ExcST6B.km  -  Forward gain constant of the inner loop field regulator (Km). Typical Value = 1.
 ExcST6B.kpa  -  Voltage regulator proportional gain (Kpa). Typical Value = 18.038.
 ExcST6B.kvd  -  Voltage regulator derivative gain (Kvd). Typical Value = 0.
 ExcST6B.oelin  -  OEL input selector (OELin). Typical Value = noOELinput.
 ExcST6B.tg  -  Feedback time constant of inner loop field voltage regulator (Tg). Typical Value = 0.02.
 ExcST6B.ts  -  Rectifier firing time constant (Ts). Typical Value = 0.
 ExcST6B.tvd  -  Voltage regulator derivative gain (Tvd). Typical Value = 0.
 ExcST6B.vamax  -  Maximum voltage regulator output (Vamax). Typical Value = 4.81.
 ExcST6B.vamin  -  Minimum voltage regulator output (Vamin). Typical Value = -3.85.
 ExcST6B.vilim  -  Selector (Vilim). true = Vimin-Vimax limiter is active false = Vimin-Vimax limiter is not active. Typical Value = true.
 ExcST6B.vimax  -  Maximum voltage regulator input limit (Vimax). Typical Value = 10.
 ExcST6B.vimin  -  Minimum voltage regulator input limit (Vimin). Typical Value = -10.
 ExcST6B.vmult  -  Selector (Vmult). true = multiply regulator output by terminal voltage false = do not multiply regulator output by terminal voltage. Typical Value = true.
 ExcST6B.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 4.81.
 ExcST6B.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -3.85.
 ExcST6B.xc  -  Excitation source reactance (Xc). Typical Value = 0.05.
 ExcST6BOELselectorKind
 ExcST7B.kh  -  High-value gate feedback gain (Kh). Typical Value = 1.
 ExcST7B.kia  -  Voltage regulator integral gain (Kia). Typical Value = 1.
 ExcST7B.kl  -  Low-value gate feedback gain (Kl). Typical Value = 1.
 ExcST7B.kpa  -  Voltage regulator proportional gain (Kpa). Typical Value = 40.
 ExcST7B.oelin  -  OEL input selector (OELin). Typical Value = noOELinput.
 ExcST7B.tb  -  Regulator lag time constant (Tb). Typical Value = 1.
 ExcST7B.tc  -  Regulator lead time constant (Tc). Typical Value = 1.
 ExcST7B.tf  -  Excitation control system stabilizer time constant (Tf). Typical Value = 1.
 ExcST7B.tg  -  Feedback time constant of inner loop field voltage regulator (Tg). Typical Value = 1.
 ExcST7B.tia  -  Feedback time constant (Tia). Typical Value = 3.
 ExcST7B.ts  -  Rectifier firing time constant (Ts). Typical Value = 0.
 ExcST7B.uelin  -  UEL input selector (UELin). Typical Value = noUELinput.
 ExcST7B.vmax  -  Maximum voltage reference signal (Vmax). Typical Value = 1.1.
 ExcST7B.vmin  -  Minimum voltage reference signal (Vmin). Typical Value = 0.9.
 ExcST7B.vrmax  -  Maximum voltage regulator output (Vrmax). Typical Value = 5.
 ExcST7B.vrmin  -  Minimum voltage regulator output (Vrmin). Typical Value = -4.5.
 ExcST7BOELselectorKind
 ExcST7BUELselectorKind
 ExecutionType
 ExpectedEnergy.intervalStartTime
 ExpectedEnergy.updateTimeStamp
 ExpectedEnergy.updateUser
 ExpectedEnergyValues.energyTypeCode
 ExpectedEnergyValues.expectedMwh
 experimental
 exponential
 exponentialRecovery
 ExPostLossResults.ehvLossMW  -  EHV MW losses in the company Attribute Usage: Information purposes - Output of LPA engine.
 ExPostLossResults.totalLossMW  -  Total MW losses in the company Attribute Usage: Information purposes - Output of LPA engine.
 ExPostMarketRegionResults.exPostClearedPrice
 ExPostPricing.energyPrice  -  market energy price
 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.
 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
 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.
 ExPostResourceResults.congestionLMP  -  LMP component in USD (deprecated)
 ExPostResourceResults.desiredMW  -  Desired output of unit
 ExPostResourceResults.dispatchRate  -  Unit Dispatch rate from real time unit dispatch.
 ExPostResourceResults.lmp  -  LMP (Local Marginal Price) in USD at the equipment (deprecated)
 ExPostResourceResults.lossLMP  -  loss lmp (deprecated)
 ExPostResourceResults.maxEconomicMW  -  Economic Maximum MW