Class Hierarchy

• PyCIM.SimpleXMLWriter.XMLWriter
• object: The most base type
  • CIM14.Element'.Element
    • CIM14.IEC61968.Assets.AcceptanceTest'.AcceptanceTest: Acceptance test for assets.
    • CIM14.IEC61968.PaymentMetering.AccountMovement'.AccountMovement: Credit/debit movements for an account.
    • CIM14.IEC61968.PaymentMetering.AccountingUnit'.AccountingUnit: Unit for accounting; use either 'energyUnit' or 'currencyUnit' to specify the unit for 'value'.
    • CIM14.IEC61970.ControlArea.AltGeneratingUnitMeas'.AltGeneratingUnitMeas: A prioritized measurement to be used for the generating unit in the control area specificaiton.
    • CIM14.IEC61970.ControlArea.AltTieMeas'.AltTieMeas: A prioritized measurement to be used for the tie flow as part of the control area specification.
    • CIM14.IEC61968.PaymentMetering.BankAccountDetail'.BankAccountDetail: Details of a bank account.
    • CIM14.IEC61970.OperationalLimits.BranchGroupTerminal'.BranchGroupTerminal: A specific directed terminal flow for a branch group.
    • CIM14.IEC61968.PaymentMetering.Card'.Card: Documentation of the tender when it is a type of card (credit, debit, etc).
    • CIM14.IEC61968.PaymentMetering.Cheque'.Cheque: The actual tender when it is a type of cheque.
    • CIM14.Dynamics.TurbineGovernors.Class1'.Class1
    • CIM14.CombinedVersion'.CombinedVersion: The combined version denotes the versions of the subpackages that have been combined into the total CIIMmodel.
    • CIM14.Dynamics.CompositeModel'.CompositeModel
    • CIM14.IEC61968.PaymentMetering.ConsumptionTariffInterval'.ConsumptionTariffInterval: One of a sequence of intervals defined in terms of consumption quantity of a service such as electricity, water, gas, etc.
    • CIM14.IEC61970.ControlArea.ControlAreaGeneratingUnit'.ControlAreaGeneratingUnit: A control area generating unit.
    • CIM14.IEC61968.Common.CoordinateSystem'.CoordinateSystem: Coordinate reference system.
    • CIM14.IEC61970.Core.CurveData'.CurveData: Multi-purpose data points for defining a curve.
    • CIM14.IEC61968.Common.DateTimeInterval'.DateTimeInterval: Interval of date and time.
    • CIM14.IEC61968.PaymentMetering.Due'.Due: Details on amounts due for an account.
    • CIM14.IEC61968.Metering.DynamicDemand'.DynamicDemand: Dynamic demand description.
    • CIM14.IEC61968.Common.ElectronicAddress'.ElectronicAddress: Electronic address information.
    • CIM14.Dynamics.ExcitationSystemLimiter'.ExcitationSystemLimiter
    • CIM14.IEC61968.IEC61968CIMVersion'.IEC61968CIMVersion: IEC 61968 version number assigned to this UML model.
    • CIM14.IEC61970.IEC61970CIMVersion'.IEC61970CIMVersion: This is the IEC 61970 CIM version number assigned to this UML model file.
    • CIM14.IEC61970.Core.IdentifiedObject'.IdentifiedObject: This is a root class to provide common naming attributes for all classes needing naming attributes
      • CIM14.IEC61968.Common.ActivityRecord'.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.
        • CIM14.IEC61968.Metering.EndDeviceEvent'.EndDeviceEvent: Event detected by a DeviceFunction associated with EndDeviceAsset.
      • CIM14.IEC61968.Assets.Asset'.Asset: Tangible resource of the utility, including power system equipment, cabinets, buildings, etc.
        • CIM14.IEC61968.Assets.AssetContainer'.AssetContainer: Asset that is aggregation of other assets such as conductors, transformers, switchgear, land, fences, buildings, equipment, vehicles, etc.
          • CIM14.IEC61968.Metering.EndDeviceAsset'.EndDeviceAsset: AssetContainer that performs one or more end device functions.
            • CIM14.IEC61968.Metering.MeterAsset'.MeterAsset: Physical asset that performs the metering role of the ServiceDeliveryPoint.
        • CIM14.IEC61968.Assets.ComMediaAsset'.ComMediaAsset: Communication media such as fibre optic cable, power-line, telephone, etc.
      • CIM14.IEC61968.Assets.AssetFunction'.AssetFunction: Function performed by an asset.
        • CIM14.IEC61968.Metering.DeviceFunction'.DeviceFunction: Function performed by a device such as a meter, communication equipment, controllers, etc.
          • CIM14.IEC61968.Metering.ComFunction'.ComFunction: Communication function of communication equipment or a device such as a meter.
          • CIM14.IEC61968.LoadControl.ConnectDisconnectFunction'.ConnectDisconnectFunction: A function that will disconnect or reconnect the customer's load under defined conditions.
          • CIM14.IEC61968.Metering.ElectricMeteringFunction'.ElectricMeteringFunction: Functionality performed by an electric meter.
      • CIM14.IEC61968.AssetModels.AssetModel'.AssetModel: Documentation for a particular product model made by a manufacturer.
        • CIM14.IEC61968.AssetModels.EndDeviceModel'.EndDeviceModel: Documentation for particular end device product model made by a manufacturer.
      • CIM14.IEC61970.Core.BasePower'.BasePower: The BasePower class defines the base power used in the per unit calculations.
      • CIM14.IEC61970.Core.BaseVoltage'.BaseVoltage: Defines a nominal base voltage which is referenced in the system.
      • CIM14.IEC61970.Core.BasicIntervalSchedule'.BasicIntervalSchedule: Schedule of values at points in time.
        • CIM14.IEC61970.Core.IrregularIntervalSchedule'.IrregularIntervalSchedule: The schedule has TimePoints where the time between them varies.
          • CIM14.IEC61970.Outage.OutageSchedule'.OutageSchedule: The period of time that a piece of equipment is out of service, for example, for maintenance or testing; including the equipment's active power rating while under maintenance.
        • CIM14.IEC61970.Core.RegularIntervalSchedule'.RegularIntervalSchedule: The schedule has TimePoints where the time between them is constant.
          • CIM14.IEC61970.Generation.Production.GenUnitOpSchedule'.GenUnitOpSchedule: The generating unit's Operator-approved current operating schedule (or plan), typically produced with the aid of unit commitment type analyses.
          • CIM14.IEC61970.Generation.Production.HydroPumpOpSchedule'.HydroPumpOpSchedule: The hydro pump's Operator-approved current operating schedule (or plan), typically produced with the aid of unit commitment type analyses.The unit's operating schedule status is typically given as: (0=unavailable) (1=avilable to startup or shutdown) (2=must pump)
          • CIM14.IEC61970.Generation.Production.InflowForecast'.InflowForecast: Natural water inflow to a reservoir, usually forecasted from predicted rain and snowmelt.
          • CIM14.IEC61970.LoadModel.SeasonDayTypeSchedule'.SeasonDayTypeSchedule: The schedule specialize RegularIntervalSchedule with type curve data for a specific type of day and season.
            • CIM14.IEC61970.LoadModel.ConformLoadSchedule'.ConformLoadSchedule: A curve of load versus time (X-axis) showing the active power values (Y1-axis) and reactive power (Y2-axis) for each unit of the period covered.
            • CIM14.IEC61970.LoadModel.NonConformLoadSchedule'.NonConformLoadSchedule: An active power (Y1-axis) and reactive power (Y2-axis) schedule (curves) versus time (X-axis) for non-conforming loads, e.g., large industrial load or power station service (where modeled)
            • CIM14.IEC61970.Wires.RegulationSchedule'.RegulationSchedule: A pre-established pattern over time for a controlled variable, e.g., busbar voltage.
            • CIM14.IEC61970.Wires.SwitchSchedule'.SwitchSchedule: A schedule of switch positions.
            • CIM14.IEC61970.Wires.TapSchedule'.TapSchedule: A pre-established pattern over time for a tap step.
          • CIM14.IEC61970.Generation.Production.SteamSendoutSchedule'.SteamSendoutSchedule: The cogeneration plant's steam sendout schedule in volume per time unit.
      • CIM14.Dynamics.BlockConnection'.BlockConnection: A meta-dyanamics model connectivity specification.
      • CIM14.Dynamics.BlockConnectivity'.BlockConnectivity: A instance definition of connectivity of BlockUsage objects as defined in a a BlockConnection within the dyanmics-meta-model.
      • CIM14.Dynamics.BlockInputReference'.BlockInputReference: Used at the meta dynamics level.
      • CIM14.Dynamics.BlockInputType'.BlockInputType
      • CIM14.Dynamics.BlockOutputType'.BlockOutputType
      • CIM14.Dynamics.BlockParameter'.BlockParameter: Specification of a paramter for use in a dynamic block.
      • CIM14.Dynamics.BlockType'.BlockType: This is the kind of a block used to specify what kind of blocks could fit into a particular slot.
      • CIM14.Dynamics.BlockUsageInputReference'.BlockUsageInputReference: Used at instance level to tie the input of a referenced block to the output of another referenced block.
      • CIM14.Dynamics.BlockUsageOutputReference'.BlockUsageOutputReference: Used at instance level to tie the input of a referenced block to the output of another referenced block.
      • CIM14.IEC61970.OperationalLimits.BranchGroup'.BranchGroup: A group of branch terminals whose directed flow summation is to be monitored.
      • CIM14.IEC61970.Topology.BusNameMarker'.BusNameMarker: Used to apply user standard names to topology buses.
      • CIM14.IEC61968.PaymentMetering.Cashier'.Cashier: The operator of the point of sale for the duration of CashierShift.
      • CIM14.IEC61968.PaymentMetering.Charge'.Charge: A charge element associated with other entities such as tariff structures, auxiliary agreements or other charge elements.
      • CIM14.IEC61970.Outage.ClearanceTag'.ClearanceTag: A clearance tag that is used to authorize and schedule work on conducting equipment in the field.
      • CIM14.IEC61970.Outage.ClearanceTagType'.ClearanceTagType: Type of ClearanceTag.
      • CIM14.IEC61968.AssetModels.ConductorInfo'.ConductorInfo: Conductor data.
        • CIM14.IEC61968.AssetModels.CableInfo'.CableInfo: Cable data.
          • CIM14.IEC61968.AssetModels.ConcentricNeutralCableInfo'.ConcentricNeutralCableInfo: Concentric neutral cable data.
          • CIM14.IEC61968.AssetModels.TapeShieldCableInfo'.TapeShieldCableInfo: Tape shield cable data.
        • CIM14.IEC61968.AssetModels.OverheadConductorInfo'.OverheadConductorInfo: Overhead conductor data.
      • CIM14.Dynamics.ConnectionFrame'.ConnectionFrame
      • CIM14.IEC61970.Core.ConnectivityNode'.ConnectivityNode: Connectivity nodes are points where terminals of conducting equipment are connected together with zero impedance.
      • CIM14.IEC61970.Contingency.Contingency'.Contingency: An event threatening system reliability, consisting of one or more contingency elements.
      • CIM14.IEC61970.Contingency.ContingencyElement'.ContingencyElement: An element of a system event to be studied by contingency analysis, representing a change in status of a single piece of equipment.
        • CIM14.IEC61970.Contingency.ContingencyEquipment'.ContingencyEquipment: A equipment to which the in service status is to change such as a power transformer or AC line segment.
      • CIM14.IEC61970.Meas.Control'.Control: Control is used for supervisory/device control.
        • CIM14.IEC61970.Meas.Command'.Command: A Command is a discrete control used for supervisory control.
        • CIM14.IEC61970.Meas.SetPoint'.SetPoint: A SetPoint is an analog control used for supervisory control.
      • CIM14.IEC61970.Meas.ControlType'.ControlType: Specifies the type of Control, e.g.
      • CIM14.IEC61970.Core.Curve'.Curve: A multi-purpose curve or functional relationship between an independent variable (X-axis) and dependent (Y-axis) variables.
        • CIM14.IEC61970.Generation.GenerationDynamics.CTTempActivePowerCurve'.CTTempActivePowerCurve: Relationship between the combustion turbine's power output rating in gross active power (X-axis) and the ambient air temperature (Y-axis)
        • CIM14.IEC61970.Generation.Production.EmissionAccount'.EmissionAccount: Accounts for tracking emissions usage and credits for thermal generating units.
        • CIM14.IEC61970.Generation.Production.EmissionCurve'.EmissionCurve: Relationship between the unit's emission rate in units of mass per hour (Y-axis) and output active power (X-axis) for a given type of emission.
        • CIM14.IEC61970.Generation.Production.FuelAllocationSchedule'.FuelAllocationSchedule: The amount of fuel of a given type which is allocated for consumption over a specified period of time
        • CIM14.IEC61970.Generation.Production.GenUnitOpCostCurve'.GenUnitOpCostCurve: Relationship between unit operating cost (Y-axis) and unit output active power (X-axis).
        • CIM14.IEC61970.Generation.Production.GrossToNetActivePowerCurve'.GrossToNetActivePowerCurve: Relationship between the generating unit's gross active power output on the X-axis (measured at the terminals of the machine(s)) and the generating unit's net active power output on the Y-axis (based on utility-defined measurements at the power station).
        • CIM14.IEC61970.Generation.Production.HeatInputCurve'.HeatInputCurve: Relationship between unit heat input in energy per time for main fuel (Y1-axis) and supplemental fuel (Y2-axis) versus unit output in active power (X-axis).
        • CIM14.IEC61970.Generation.Production.HeatRateCurve'.HeatRateCurve: Relationship between unit heat rate per active power (Y-axis) and unit output (X-axis).
        • CIM14.IEC61970.Generation.Production.HydroGeneratingEfficiencyCurve'.HydroGeneratingEfficiencyCurve: Relationship between unit efficiency in percent and unit output active power for a given net head in meters.
        • CIM14.IEC61970.Wires.ImpedanceVariationCurve'.ImpedanceVariationCurve: An Impedance Variation Curve describes the change in Transformer Winding impedance values in relationship to tap step changes.
        • CIM14.IEC61970.Generation.Production.IncrementalHeatRateCurve'.IncrementalHeatRateCurve: Relationship between unit incremental heat rate in (delta energy/time) per (delta active power) and unit output in active power.
        • CIM14.IEC61970.Generation.Production.LevelVsVolumeCurve'.LevelVsVolumeCurve: Relationship between reservoir volume and reservoir level.
        • CIM14.IEC61970.Generation.Production.PenstockLossCurve'.PenstockLossCurve: Relationship between penstock head loss (in meters) and total discharge through the penstock (in cubic meters per second).
        • CIM14.IEC61970.Wires.PhaseVariationCurve'.PhaseVariationCurve: A Phase Variation Curve describes the phase shift in relationship to tap step changes.
        • CIM14.IEC61970.Wires.RatioVariationCurve'.RatioVariationCurve: A Ratio Variation Curve describes the change in tap ratio in relationship to tap step changes.
        • CIM14.IEC61970.Wires.ReactiveCapabilityCurve'.ReactiveCapabilityCurve: Reactive power rating envelope versus the synchronous machine's active power, in both the generating and motoring modes.
        • CIM14.IEC61970.Generation.Production.ShutdownCurve'.ShutdownCurve: Relationship between the rate in gross active power/minute (Y-axis) at which a unit should be shutdown and its present gross MW output (X-axis)
        • CIM14.IEC61970.Generation.Production.StartIgnFuelCurve'.StartIgnFuelCurve: The quantity of ignition fuel (Y-axis) used to restart and repay the auxiliary power consumed versus the number of hours (X-axis) the unit was off line
        • CIM14.IEC61970.Generation.Production.StartMainFuelCurve'.StartMainFuelCurve: The quantity of main fuel (Y-axis) used to restart and repay the auxiliary power consumed versus the number of hours (X-axis) the unit was off line
        • CIM14.IEC61970.Generation.Production.StartRampCurve'.StartRampCurve: Rate in gross active power/minute (Y-axis) at which a unit can be loaded versus the number of hours (X-axis) the unit was off line
        • CIM14.IEC61970.Generation.Production.TailbayLossCurve'.TailbayLossCurve: Relationship between tailbay head loss hight (y-axis) and the total discharge into the power station's tailbay volume per time unit (x-axis) .
        • CIM14.IEC61970.Generation.Production.TargetLevelSchedule'.TargetLevelSchedule: Reservoir water level targets from advanced studies or 'rule curves'.
      • CIM14.IEC61970.LoadModel.DayType'.DayType: Group of similar days, e.g., Mon/Tue/Wed, Thu/Fri, Sat/Sun, Holiday1, Holiday2
      • CIM14.IEC61968.Metering.DemandResponseProgram'.DemandResponseProgram: Demand response program.
      • CIM14.IEC61968.AssetModels.DistributionWindingTest'.DistributionWindingTest: Test results for one or more transformer windings.
        • CIM14.IEC61968.AssetModels.OpenCircuitTest'.OpenCircuitTest: Open-circuit test results may include no-load losses, exciting current, phase shifts, and induced voltage.
        • CIM14.IEC61968.AssetModels.ShortCircuitTest'.ShortCircuitTest: Short-circuit test results include load losses and leakage impedances.
      • CIM14.IEC61968.Common.Document'.Document: Parent class for different groupings of information collected and managed as a part of a business process.
        • CIM14.IEC61968.Common.Agreement'.Agreement: Formal agreement between two parties defining the terms and conditions for a set of services.
          • CIM14.IEC61968.PaymentMetering.AuxiliaryAgreement'.AuxiliaryAgreement: An ad-hoc auxiliary account agreement associated with a customer agreement, not part of the customer's account, but typically subject to formal agreement between customer and supplier (utility).
          • CIM14.IEC61968.Customers.CustomerAgreement'.CustomerAgreement: Agreement between the Customer and the ServiceSupplier to pay for service at a specific ServiceLocation.
          • CIM14.IEC61968.PaymentMetering.MerchantAgreement'.MerchantAgreement: A formal controlling contractual agreement between Supplier and Merchant, in terms of which Merchant is authorised to vend tokens and receipt payments on behalf of Supplier.
        • CIM14.IEC61968.PaymentMetering.AuxiliaryAccount'.AuxiliaryAccount: Variable and dynamic part of AuxiliaryAgreement, generally representing the current state of the account related to the outstanding balance defined in AuxiliaryAgreement.
        • CIM14.IEC61968.Customers.CustomerAccount'.CustomerAccount: Assignment of a group of products and services purchased by the Customer through a CustomerAgreement, used as a mechanism for customer billing and payment.
        • CIM14.IEC61968.PaymentMetering.MerchantAccount'.MerchantAccount: The operating account controlled by MerchantAgreement, against which Vendor may vend tokens or receipt payments.
        • CIM14.IEC61968.Customers.PricingStructure'.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.
        • CIM14.IEC61968.Customers.Tariff'.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.
        • CIM14.IEC61968.PaymentMetering.TariffProfile'.TariffProfile: A schedule of charges; structure associated with Tariff that allows the definition of complex tarif structures such as step and time of use when used in conjunction with TimeTariffInterval and Charge.
        • CIM14.IEC61968.Common.TimeSchedule'.TimeSchedule: Description of anything that changes through time.
        • CIM14.IEC61968.Work.Work'.Work: Document used to request, initiate, track and record work.
          • CIM14.IEC61968.Metering.MeterServiceWork'.MeterServiceWork: Work involving meters.
      • CIM14.IEC61968.Metering.EndDeviceControl'.EndDeviceControl: Instructs an EndDeviceAsset (or EndDeviceGroup) to perform a specified action.
      • CIM14.IEC61968.Metering.EndDeviceGroup'.EndDeviceGroup: Abstraction for management of group communications within a two-way AMR system or the data for a group of related meters.
      • CIM14.IEC61970.LoadModel.EnergyArea'.EnergyArea: The class describes an area having energy production or consumption.
        • CIM14.IEC61970.LoadModel.LoadArea'.LoadArea: The class is the root or first level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling.
        • CIM14.IEC61970.LoadModel.SubLoadArea'.SubLoadArea: The class is the second level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling.
      • CIM14.IEC61970.Generation.Production.FossilFuel'.FossilFuel: The fossil fuel consumed by the non-nuclear thermal generating units, e.g., coal, oil, gas
      • CIM14.IEC61970.Core.GeographicalRegion'.GeographicalRegion: A geographical region of a power system network model.
      • CIM14.IEC61970.Meas.Limit'.Limit: Specifies one limit value for a Measurement.
        • CIM14.IEC61970.Meas.AccumulatorLimit'.AccumulatorLimit: Limit values for Accumulator measurements
        • CIM14.IEC61970.Meas.AnalogLimit'.AnalogLimit: Limit values for Analog measurements
      • CIM14.IEC61970.Meas.LimitSet'.LimitSet: Specifies a set of Limits that are associated with a Measurement.
        • CIM14.IEC61970.Meas.AccumulatorLimitSet'.AccumulatorLimitSet: An AccumulatorLimitSet specifies a set of Limits that are associated with an Accumulator measurement.
        • CIM14.IEC61970.Meas.AnalogLimitSet'.AnalogLimitSet: An AnalogLimitSet specifies a set of Limits that are associated with an Analog measurement.
      • CIM14.IEC61970.LoadModel.LoadGroup'.LoadGroup: The class is the third level in a hierarchical structure for grouping of loads for the purpose of load flow load scaling.
        • CIM14.IEC61970.LoadModel.ConformLoadGroup'.ConformLoadGroup: A group of loads conforming to an allocation pattern.
        • CIM14.IEC61970.LoadModel.NonConformLoadGroup'.NonConformLoadGroup: Loads that do not follow a daily and seasonal load variation pattern.
      • CIM14.IEC61970.LoadModel.LoadResponseCharacteristic'.LoadResponseCharacteristic: Models the characteristic response of the load demand due to to changes in system conditions such as voltage and frequency.
      • CIM14.IEC61968.Common.Location'.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.
        • CIM14.IEC61968.Metering.SDPLocation'.SDPLocation: Location of an individual service delivery point.
        • CIM14.IEC61968.Customers.ServiceLocation'.ServiceLocation: A customer ServiceLocation has one or more ServiceDeliveryPoint(s), which in turn relate to Meters.
      • CIM14.IEC61970.Meas.Measurement'.Measurement: A Measurement represents any measured, calculated or non-measured non-calculated quantity.
        • CIM14.IEC61970.Meas.Accumulator'.Accumulator: Accumulator represents a accumulated (counted) Measurement, e.g.
        • CIM14.IEC61970.Meas.Analog'.Analog: Analog represents an analog Measurement.
        • CIM14.IEC61970.Meas.Discrete'.Discrete: Discrete represents a discrete Measurement, i.e.
        • CIM14.IEC61970.Meas.StringMeasurement'.StringMeasurement: StringMeasurement represents a measurement with values of type string.
      • CIM14.IEC61970.Meas.MeasurementValue'.MeasurementValue: The current state for a measurement.
        • CIM14.IEC61970.Meas.AccumulatorValue'.AccumulatorValue: AccumulatorValue represents a accumulated (counted) MeasurementValue.
        • CIM14.IEC61970.Meas.AnalogValue'.AnalogValue: AnalogValue represents an analog MeasurementValue.
        • CIM14.IEC61970.Meas.DiscreteValue'.DiscreteValue: DiscreteValue represents a discrete MeasurementValue.
        • CIM14.IEC61968.Metering.IntervalReading'.IntervalReading: Data captured at regular intervals of time.
        • CIM14.IEC61968.Metering.Reading'.Reading: Specific value measured by a meter or other asset.
        • CIM14.IEC61970.Meas.StringMeasurementValue'.StringMeasurementValue: StringMeasurementValue represents a measurement value of type string.
      • CIM14.IEC61970.Meas.MeasurementValueSource'.MeasurementValueSource: MeasurementValueSource describes the alternative sources updating a MeasurementValue.
      • CIM14.Dynamics.MetaBlock'.MetaBlock: A block is a meta-data representation of a control block.
      • CIM14.Dynamics.MetaBlockConInput'.MetaBlockConInput: If model the association to MeasurementType, the it means take the input from the associated PSR or Terminal in the static model.
      • CIM14.Dynamics.MetaBlockConOutput'.MetaBlockConOutput: If model uses MeasurementType association, it means the output is pushed back to the steady state model (if reasonable).
      • CIM14.Dynamics.MetaBlockConSignal'.MetaBlockConSignal
      • CIM14.Dynamics.MetaBlockConnectable'.MetaBlockConnectable: This is a source connection for a block input at the dynamics meta-data level.
        • CIM14.Dynamics.BlockConstant'.BlockConstant: Used as a constant in the internal definition of a block.
        • CIM14.Dynamics.BlockOutputReference'.BlockOutputReference: References output from another block at the meta dynamics level.
        • CIM14.Dynamics.MetaBlockInput'.MetaBlockInput: Linkage at the dynanics meta model level.
        • CIM14.Dynamics.MetaBlockOutput'.MetaBlockOutput: Output state of a block.
        • CIM14.Dynamics.MetaBlockParameter'.MetaBlockParameter: An identified parameter of a block.
          • CIM14.Dynamics.AttributeBlockParameter'.AttributeBlockParameter: An attribute from the associated PowerSystemResource is used.
          • CIM14.Dynamics.UserBlockParameter'.UserBlockParameter: Concrete class intended to obtain a parameter value from a user of the block in the parameter list at the instance level.
        • CIM14.Dynamics.MetaBlockState'.MetaBlockState
      • CIM14.Dynamics.MetaBlockConnection'.MetaBlockConnection
      • CIM14.Dynamics.MetaBlockConnectivity'.MetaBlockConnectivity
      • CIM14.Dynamics.MetaBlockInputReference'.MetaBlockInputReference
      • CIM14.Dynamics.MetaBlockOutputReference'.MetaBlockOutputReference
      • CIM14.Dynamics.MetaBlockParameterReference'.MetaBlockParameterReference: References a parameter of a block used in the internal representation of a block.
      • CIM14.Dynamics.MetaBlockReference'.MetaBlockReference: References a control block at the internal meta dynamics model level.
      • CIM14.Dynamics.MetaBlockSignal'.MetaBlockSignal
      • CIM14.Dynamics.MetaBlockStateReference'.MetaBlockStateReference
      • CIM14.IEC61968.Metering.MeterReading'.MeterReading: Set of values obtained from the meter.
      • CIM14.IEC61970.Informative.InfCore.ModelingAuthority'.ModelingAuthority: A Modeling Authority is an entity responsible for supplying and maintaining the data defining a specific set of objects in a network model.
      • CIM14.IEC61970.Informative.InfCore.ModelingAuthoritySet'.ModelingAuthoritySet: A Modeling Authority Set is a group of objects in a network model where the data is supplied and maintained by the same Modeling Authority.
      • CIM14.IEC61970.Wires.MutualCoupling'.MutualCoupling: This class represents the zero sequence line mutual coupling.
      • CIM14.IEC61970.Core.OperatingParticipant'.OperatingParticipant: An operator of multiple PowerSystemResource objects.
      • CIM14.IEC61970.OperationalLimits.OperationalLimit'.OperationalLimit: A value associated with a specific kind of limit.
        • CIM14.IEC61970.OperationalLimits.ActivePowerLimit'.ActivePowerLimit: Limit on active power flow.
        • CIM14.IEC61970.OperationalLimits.ApparentPowerLimit'.ApparentPowerLimit: Apparent power limit.
        • CIM14.IEC61970.OperationalLimits.CurrentLimit'.CurrentLimit: Operational limit on current.
        • CIM14.IEC61970.OperationalLimits.VoltageLimit'.VoltageLimit: Operational limit applied to voltage.
      • CIM14.IEC61970.OperationalLimits.OperationalLimitSet'.OperationalLimitSet: A set of limits associated with equipmnet.
      • CIM14.IEC61970.OperationalLimits.OperationalLimitType'.OperationalLimitType: A type of limit.
      • CIM14.IEC61968.Common.Organisation'.Organisation: Organisation that might have roles as utility, contractor, supplier, manufacturer, customer, etc.
        • CIM14.IEC61968.Customers.Customer'.Customer: Organisation receiving services from ServiceSupplier.
        • CIM14.IEC61968.PaymentMetering.ServiceSupplier'.ServiceSupplier: Organisation that provides services to Customers.
      • CIM14.IEC61970.Core.PSRType'.PSRType: Classifying instances of the same class, e.g.
      • CIM14.IEC61968.WiresExt.PerLengthPhaseImpedance'.PerLengthPhaseImpedance: Impedance and admittance parameters per unit length for n-wire unbalanced lines, in matrix form.
      • CIM14.IEC61968.WiresExt.PerLengthSequenceImpedance'.PerLengthSequenceImpedance: Sequence impedance and admittance parameters per unit length, for transposed lines of 1, 2, or 3 phases.
      • CIM14.IEC61968.PaymentMetering.PointOfSale'.PointOfSale: Logical point where transactions take place with operational interaction between Cashier and the payment system; in certain cases PointOfSale interacts directly with the end customer, in which case Cashier might not be a real person: for example a self-service kiosk or over the internet.
      • CIM14.IEC61970.Core.PowerSystemResource'.PowerSystemResource: A power system resource can be an item of equipment such as a Switch, an EquipmentContainer containing many individual items of equipment such as a Substation, or an organisational entity such as Company or SubControlArea.
        • CIM14.Dynamics.Loads.AggregateLoad'.AggregateLoad: Aggregate loads are used to represent all or part of the real and reactive load from a load in the static (power flow) data.
          • CIM14.Dynamics.Loads.LoadMotor'.LoadMotor: Aggregate induction motor load.
          • CIM14.Dynamics.Loads.LoadStatic'.LoadStatic: General Static Load Model.
            • CIM14.Dynamics.Loads.LoadStaticArea'.LoadStaticArea: Static load associated with an Area.
            • CIM14.Dynamics.Loads.LoadStaticBus'.LoadStaticBus: Static load model associated with a single bus.
            • CIM14.Dynamics.Loads.LoadStaticOwner'.LoadStaticOwner: Static load associated with a single owner.
            • CIM14.Dynamics.Loads.LoadStaticSystem'.LoadStaticSystem: Static load associated with a specific system.
            • CIM14.Dynamics.Loads.LoadStaticZone'.LoadStaticZone: Static load associated with a zone.
        • CIM14.IEC61970.Generation.Production.AirCompressor'.AirCompressor: Combustion turbine air compressor which is an integral part of a compressed air energy storage (CAES) plant
        • CIM14.Dynamics.Block'.Block: A specific usage of a dynamics block, supplied with parameters and any linkages to the power system static model that are required.
        • CIM14.IEC61970.Generation.Production.CAESPlant'.CAESPlant: Compressed air energy storage plant
        • CIM14.IEC61970.Generation.Production.CogenerationPlant'.CogenerationPlant: A set of thermal generating units for the production of electrical energy and process steam (usually from the output of the steam turbines).
        • CIM14.IEC61970.Generation.Production.CombinedCyclePlant'.CombinedCyclePlant: A set of combustion turbines and steam turbines where the exhaust heat from the combustion turbines is recovered to make steam for the steam turbines, resulting in greater overall plant efficiency
        • CIM14.IEC61970.SCADA.CommunicationLink'.CommunicationLink: The connection to remote units is through one or more communication links.
        • CIM14.IEC61970.Core.ConnectivityNodeContainer'.ConnectivityNodeContainer: A base class for all objects that may contain ConnectivityNodes or TopologicalNodes.
          • CIM14.IEC61970.Core.EquipmentContainer'.EquipmentContainer: A modeling construct to provide a root class for containing equipment.
            • CIM14.IEC61970.Core.Bay'.Bay: A collection of power system resources (within a given substation) including conducting equipment, protection relays, measurements, and telemetry.
            • CIM14.IEC61970.Wires.Line'.Line: Contains equipment beyond a substation belonging to a power transmission line.
            • CIM14.IEC61970.Wires.Plant'.Plant: A Plant is a collection of equipment for purposes of generation.
            • CIM14.IEC61970.Core.Substation'.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.
            • CIM14.IEC61970.Core.VoltageLevel'.VoltageLevel: A collection of equipment at one common system voltage forming a switchgear.
          • CIM14.IEC61970.Equivalents.EquivalentNetwork'.EquivalentNetwork: A class that represents an external meshed network that has been reduced to an electrically equivalent model.
        • CIM14.IEC61970.ControlArea.ControlArea'.ControlArea: A <b>control area </b>is a grouping of <b>generating units</b> and/or loads and a cutset of tie lines (as <b>terminals</b>) which may be used for a variety of purposes including automatic generation control, powerflow solution area interchange control specification, and input to load forecasting.
        • CIM14.IEC61970.Core.Equipment'.Equipment: The parts of a power system that are physical devices, electronic or mechanical
          • CIM14.IEC61970.Wires.CompositeSwitch'.CompositeSwitch: A model of a set of individual Switches normally enclosed within the same cabinet and possibly with interlocks that restrict the combination of switch positions.
          • CIM14.IEC61970.Core.ConductingEquipment'.ConductingEquipment: The parts of the power system that are designed to carry current or that are conductively connected therewith.
            • CIM14.IEC61970.Wires.Conductor'.Conductor: Combination of conducting material with consistent electrical characteristics, building a single electrical system, used to carry current between points in the power system.
              • CIM14.IEC61970.Wires.ACLineSegment'.ACLineSegment: A wire or combination of wires, with consistent electrical characteristics, building a single electrical system, used to carry alternating current between points in the power system.
                • CIM14.IEC61968.WiresExt.DistributionLineSegment'.DistributionLineSegment: Extends ACLineSegment with references to a library of standard types from which electrical parameters can be calculated, as follows: - calculate electrical parameters from asset data, using associated ConductorInfo, with values then multiplied by Conductor.length to produce a matrix model.
              • CIM14.IEC61970.Wires.DCLineSegment'.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.
            • CIM14.IEC61970.Wires.Connector'.Connector: A conductor, or group of conductors, with negligible impedance, that serve to connect other conducting equipment within a single substation and are modelled with a single logical terminal.
              • CIM14.IEC61970.Wires.BusbarSection'.BusbarSection: A conductor, or group of conductors, with negligible impedance, that serve to connect other conducting equipment within a single substation.
              • CIM14.IEC61970.Wires.Junction'.Junction: A point where one or more conducting equipments are connected with zero resistance.
            • CIM14.IEC61968.WiresExt.DistributionTransformerWinding'.DistributionTransformerWinding: Conducting connection point of a distribution / unbalanced transformer winding instance.
            • CIM14.IEC61970.Wires.EnergyConsumer'.EnergyConsumer: Generic user of energy - a point of consumption on the power system model
              • CIM14.IEC61970.LoadModel.ConformLoad'.ConformLoad: ConformLoad represent loads that follow a daily load change pattern where the pattern can be used to scale the load with a system load.
              • CIM14.IEC61970.LoadModel.NonConformLoad'.NonConformLoad: NonConformLoad represent loads that do not follow a daily load change pattern and changes are not correlated with the daily load change pattern.
              • CIM14.IEC61970.LoadModel.StationSupply'.StationSupply: Station supply with load derived from the station output.
            • CIM14.IEC61970.Wires.EnergySource'.EnergySource: A generic equivalent for an energy supplier on a transmission or distribution voltage level.
            • CIM14.IEC61970.Equivalents.EquivalentEquipment'.EquivalentEquipment: The class represents equivalent objects that are the result of a network reduction.
              • CIM14.IEC61970.Equivalents.EquivalentBranch'.EquivalentBranch: The class represents equivalent branches.
              • CIM14.IEC61970.Equivalents.EquivalentInjection'.EquivalentInjection: This class represents equivalent injections (generation or load).
              • CIM14.IEC61970.Equivalents.EquivalentShunt'.EquivalentShunt: The class represents equivalent shunts.
            • CIM14.IEC61970.Wires.Ground'.Ground: A common point for connecting grounded conducting equipment such as shunt capacitors.
            • CIM14.IEC61970.Wires.RectifierInverter'.RectifierInverter: Bi-directional AC-DC conversion equipment that can be used to control DC current, DC voltage, DC power flow, or firing angle.
            • CIM14.IEC61970.Wires.RegulatingCondEq'.RegulatingCondEq: A type of conducting equipment that can regulate a quanity (i.e.
              • CIM14.IEC61970.Wires.FrequencyConverter'.FrequencyConverter: A device to convert from one frequency to another (e.g., frequency F1 to F2) comprises a pair of FrequencyConverter instances.
              • CIM14.Dynamics.Generators.GenLoad'.GenLoad: Representation of a small generator as a negative load rather than a dynamic generator model.
              • CIM14.Dynamics.RotatingMachine'.RotatingMachine: A rotating machine which may be used as a generator or motor.
                • CIM14.Dynamics.AsynchronousMachine'.AsynchronousMachine: An asynchronous (induction) machine with no external connection to the rotor windings, e.g squirel-cage induction machine.
                  • CIM14.Dynamics.Generators.GenAsync'.GenAsync: An asynchronous (induction) generator with no external connection to the rotor windings, e.g., squirrel-cage induction machine.
                  • CIM14.Dynamics.Motors.MotorAsync'.MotorAsync: An asynchronous (induction) motor with no external connection to the rotor windings, e.g., a squirrel-cage induction motor.
                • CIM14.Dynamics.Generators.GenEquiv'.GenEquiv: An equivalent representation of a synchronous generator as a constant internal voltage behind an impedance Ra plus Xp.
                • CIM14.IEC61970.Wires.SynchronousMachine'.SynchronousMachine: An electromechanical device that operates synchronously with the network.
                  • CIM14.Dynamics.Motors.MotorSync'.MotorSync: A large industrial motor or group of similar motors.
              • CIM14.IEC61970.Wires.ShuntCompensator'.ShuntCompensator: A shunt capacitor or reactor or switchable bank of shunt capacitors or reactors.
              • CIM14.IEC61970.Wires.StaticVarCompensator'.StaticVarCompensator: A facility for providing variable and controllable shunt reactive power.
            • CIM14.IEC61970.Wires.Resistor'.Resistor: Resistor, typically used in filter configurations or as earthing resistor for transformers.
            • CIM14.IEC61970.Wires.SeriesCompensator'.SeriesCompensator: A Series Compensator is a series capacitor or reactor or an AC transmission line without charging susceptance.
            • CIM14.IEC61970.Wires.Switch'.Switch: A generic device designed to close, or open, or both, one or more electric circuits.
              • CIM14.IEC61970.Wires.Disconnector'.Disconnector: A manually operated or motor operated mechanical switching device used for changing the connections in a circuit, or for isolating a circuit or equipment from a source of power.
              • CIM14.IEC61970.Wires.Fuse'.Fuse: An overcurrent protective device with a circuit opening fusible part that is heated and severed by the passage of overcurrent through it.
              • CIM14.IEC61970.Wires.GroundDisconnector'.GroundDisconnector: A manually operated or motor operated mechanical switching device used for isolating a circuit or equipment from Ground.
              • CIM14.IEC61970.Wires.Jumper'.Jumper: A short section of conductor with negligible impedance which can be manually removed and replaced if the circuit is de-energized.
              • CIM14.IEC61970.Wires.ProtectedSwitch'.ProtectedSwitch: A ProtectedSwitch is a switching device that can be operated by ProtectionEquipment.
                • CIM14.IEC61970.Wires.Breaker'.Breaker: A mechanical switching device capable of making, carrying, and breaking currents under normal circuit conditions and also making, carrying for a specified time, and breaking currents under specified abnormal circuit conditions e.g.
                • CIM14.IEC61970.Wires.LoadBreakSwitch'.LoadBreakSwitch: A mechanical switching device capable of making, carrying, and breaking currents under normal operating conditions.
            • CIM14.IEC61970.Wires.TransformerWinding'.TransformerWinding: A winding is associated with each defined terminal of a transformer (or phase shifter).
          • CIM14.IEC61970.Meas.CurrentTransformer'.CurrentTransformer: Instrument transformer used to measure electrical qualities of the circuit that is being protected and/or monitored.
          • CIM14.IEC61968.WiresExt.DistributionTransformer'.DistributionTransformer: An assembly of two or more coupled windings that transform electrical power between voltage levels.
          • CIM14.IEC61970.Protection.FaultIndicator'.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.
          • CIM14.IEC61970.Generation.Production.GeneratingUnit'.GeneratingUnit: A single or set of synchronous machines for converting mechanical power into alternating-current power.
            • CIM14.IEC61970.Generation.Production.HydroGeneratingUnit'.HydroGeneratingUnit: A generating unit whose prime mover is a hydraulic turbine (e.g., Francis, Pelton, Kaplan)
            • CIM14.IEC61970.Generation.Production.NuclearGeneratingUnit'.NuclearGeneratingUnit: A nuclear generating unit.
            • CIM14.IEC61970.Generation.Production.ThermalGeneratingUnit'.ThermalGeneratingUnit: A generating unit whose prime mover could be a steam turbine, combustion turbine, or diesel engine.
            • CIM14.IEC61970.Generation.Production.WindGeneratingUnit'.WindGeneratingUnit: A wind driven generating unit.
          • CIM14.IEC61970.Wires.HeatExchanger'.HeatExchanger: Equipment for the cooling of electrical equipment and the extraction of heat
          • CIM14.IEC61970.Meas.PotentialTransformer'.PotentialTransformer: Instrument transformer (also known as Voltage Transformer) used to measure electrical qualities of the circuit that is being protected and/or monitored.
          • CIM14.IEC61970.Wires.PowerTransformer'.PowerTransformer: An electrical device consisting of two or more coupled windings, with or without a magnetic core, for introducing mutual coupling between electric circuits.
          • CIM14.IEC61970.Protection.ProtectionEquipment'.ProtectionEquipment: An electrical device designed to respond to input conditions in a prescribed manner and after specified conditions are met to cause contact operation or similar abrupt change in associated electric control circuits, or simply to display the detected condition.
            • CIM14.IEC61970.Protection.CurrentRelay'.CurrentRelay: A device that checks current flow values in any direction or designated direction
            • CIM14.IEC61970.Protection.SynchrocheckRelay'.SynchrocheckRelay: A device that operates when two AC circuits are within the desired limits of frequency, phase angle, and voltage, to permit or to cause the paralleling of these two circuits.
          • CIM14.IEC61970.Protection.SurgeProtector'.SurgeProtector: Shunt device, installed on the network, usually in the proximity of electrical equipment in order to protect the said equipment against transient voltage spikes caused by lightning or switching activity.
          • CIM14.IEC61968.WiresExt.TransformerBank'.TransformerBank: An assembly of transformers that are connected together.
        • CIM14.Dynamics.ExcitationSystems.ExcitationSystem'.ExcitationSystem: An excitation system provides the field voltage (Efd) for a synchronous machine model.
          • CIM14.Dynamics.ExcitationSystems.ExcAC1A'.ExcAC1A: IEEE (1992/2005) AC1A Model The model represents the field-controlled alternator-rectifier excitation systems designated Type AC1A.
          • CIM14.Dynamics.ExcitationSystems.ExcAC2A'.ExcAC2A: IEEE (1992/2005) AC2A Model The model designated as Type AC2A, represents a high initial response fieldcontrolled alternator-rectifier excitation system.
          • CIM14.Dynamics.ExcitationSystems.ExcAC3A'.ExcAC3A: IEEE (1992/2005) AC3A Model The model represents the field-controlled alternator-rectifier excitation systems designated Type AC3A.
          • CIM14.Dynamics.ExcitationSystems.ExcAC4A'.ExcAC4A: IEEE (1992/2005) AC4A Model The Type AC4A alternator-supplied controlled-rectifier excitation system is quite different from the other type ac systems.
          • CIM14.Dynamics.ExcitationSystems.ExcAC5A'.ExcAC5A: IEEE (1992/2005) AC5A Model The model designated as Type AC5A, is a simplified model for brushless excitation systems.
          • CIM14.Dynamics.ExcitationSystems.ExcAC6A'.ExcAC6A: IEEE (1992/2005) AC6A Model The model is used to represent field-controlled alternator-rectifier excitation systems with system-supplied electronic voltage regulators.
          • CIM14.Dynamics.ExcitationSystems.ExcAC7B'.ExcAC7B: IEEE (2005) AC7B Model These excitation systems consist of an ac alternator with either stationary or rotating rectifiers to produce the dc field requirements.
          • CIM14.Dynamics.ExcitationSystems.ExcAC8B'.ExcAC8B: IEEE (2005) AC8B Model The AVR in this model consists of PID control, with separate constants for the proportional (<i>KPR</i>), integral (<i>KIR</i>), and derivative (<i>KDR</i>) gains.
          • CIM14.Dynamics.ExcitationSystems.ExcBAS'.ExcBAS: Basler static voltage regulator feeding dc or ac rotating exciter model
          • CIM14.Dynamics.ExcitationSystems.ExcBBC'.ExcBBC: Static Excitation System Model with ABB regulator
          • CIM14.Dynamics.ExcitationSystems.ExcCZ'.ExcCZ: Czech proportional/integral excitation system model.
          • CIM14.Dynamics.ExcitationSystems.ExcDC1A'.ExcDC1A: IEEE (1992/2005) DC1A Model This model is used to represent field-controlled dc commutator exciters with continuously acting voltage regulators (especially the direct-acting rheostatic, rotating amplifier, and magnetic amplifier types).
          • CIM14.Dynamics.ExcitationSystems.ExcDC2A'.ExcDC2A: IEEE (1992/2005) DC2A Model The model is used to represent field-controlled dc commutator exciters with continuously acting voltage regulators having supplies obtained from the generator or auxiliary bus.
          • CIM14.Dynamics.ExcitationSystems.ExcDC3A'.ExcDC3A: IEEE (1992/2005) DC3A Model The Type DC3A model is used to 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.
          • CIM14.Dynamics.ExcitationSystems.ExcDC4B'.ExcDC4B: IEEE (2005) 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.
          • CIM14.Dynamics.ExcitationSystems.ExcELIN1'.ExcELIN1: Simplified Excitation System Model - ELIN (VATECH)
          • CIM14.Dynamics.ExcitationSystems.ExcELIN2'.ExcELIN2: Detailed Excitation System Model - ELIN (VATECH)
          • CIM14.Dynamics.ExcitationSystems.ExcHU'.ExcHU: Hungarian Excitation System Model
          • CIM14.Dynamics.ExcitationSystems.ExcPIC'.ExcPIC: Excitation System Model with PI voltage regulator
          • CIM14.Dynamics.ExcitationSystems.ExcREXS'.ExcREXS: General Purpose Rotating Excitation System Model
          • CIM14.Dynamics.ExcitationSystems.ExcSCRX'.ExcSCRX: Simple excitation system model representing generic characteristics of many excitation systems; intended for use where negative field current may be a problem
          • CIM14.Dynamics.ExcitationSystems.ExcSEXS'.ExcSEXS: Simplified Excitation System Model
          • CIM14.Dynamics.ExcitationSystems.ExcSK'.ExcSK: Slovakian Excitation System Model (UEL, secondary voltage control)
          • CIM14.Dynamics.ExcitationSystems.ExcSK2'.ExcSK2: Slovakian alternator-rectifier Excitation System Model (UEL, secondary voltage control)
          • CIM14.Dynamics.ExcitationSystems.ExcST1A'.ExcST1A: IEEE (1992/2005) ST1A Model The computer model of the Type ST1A potential-source controlled-rectifier excitation system 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.
          • CIM14.Dynamics.ExcitationSystems.ExcST2A'.ExcST2A: IEEE (1992/2005) ST2A Model Some static systems utilize both current and voltage sources (generator terminal quantities) to comprise the power source.
          • CIM14.Dynamics.ExcitationSystems.ExcST3A'.ExcST3A: IEEE (1992/2005) ST3A Model Some static systems utilize a field voltage control loop to linearize the exciter control characteristic.
          • CIM14.Dynamics.ExcitationSystems.ExcST4B'.ExcST4B: IEEE (2005) 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 was in the ST3A model.
          • CIM14.Dynamics.ExcitationSystems.ExcST5B'.ExcST5B: IEEE (2005) ST5B Model The Type ST5B excitation system is a variation of the Type ST1A model, with alternative overexcitation and underexcitation inputs and additional limits.
          • CIM14.Dynamics.ExcitationSystems.ExcST6B'.ExcST6B: IEEE (2005) ST6B Model The AVR consists of a PI voltage regulator with an inner loop field voltage regulator and pre-control.
          • CIM14.Dynamics.ExcitationSystems.ExcST7B'.ExcST7B: IEEE (2005) ST7B Model The model ST7B is representative of static potential-source excitation systems.
          • CIM14.Dynamics.ExcitationSystems.ExcWT2E'.ExcWT2E: Type 2 standard wind turbine field resistance control model
          • CIM14.Dynamics.ExcitationSystems.ExcWT3E'.ExcWT3E: Type 3 standard wind turbine converter control model
          • CIM14.Dynamics.ExcitationSystems.ExcWT4E'.ExcWT4E: Type 4 standard wind turbine convertor control model
        • CIM14.IEC61970.Generation.Production.HydroPowerPlant'.HydroPowerPlant: A hydro power station which can generate or pump.
        • CIM14.IEC61970.Generation.Production.HydroPump'.HydroPump: A synchronous motor-driven pump, typically associated with a pumped storage plant
        • CIM14.Dynamics.Motors.MechanicalLoad'.MechanicalLoad: A mechanical load represents the variation in a motor's shaft torque or power as a function of shaft speed.
          • CIM14.Dynamics.Motors.MechLoad1'.MechLoad1: Mechanical load model 1
        • CIM14.IEC61970.LoadModel.PowerCutZone'.PowerCutZone: An area or zone of the power system which is used for load shedding purposes.
        • CIM14.Dynamics.PowerSystemStabilizers.PowerSystemStabilizer'.PowerSystemStabilizer: A PSS provides an input (Vs) to the excitation system model to improve damping of system oscillations.
          • CIM14.Dynamics.PowerSystemStabilizers.PssIEEE1A'.PssIEEE1A: PSS type IEEE PSS1A
          • CIM14.Dynamics.PowerSystemStabilizers.PssIEEE2B'.PssIEEE2B: IEEE (2005) PSS2B Model This stabilizer model is designed to represent a variety of dual-input stabilizers, which normally use combinations of power and speed or frequency to derive the stabilizing signal.
          • CIM14.Dynamics.PowerSystemStabilizers.PssIEEE3B'.PssIEEE3B: PSS type IEEE PSS3B
          • CIM14.Dynamics.PowerSystemStabilizers.PssIEEE4B'.PssIEEE4B: PSS type IEEE PSS4B
          • CIM14.Dynamics.PowerSystemStabilizers.PssPTIST1'.PssPTIST1: PTI microprocessor-based stabilizer model type 1
          • CIM14.Dynamics.PowerSystemStabilizers.PssPTIST3'.PssPTIST3: PTI microprocessor-based stabilizer model type 3
          • CIM14.Dynamics.PowerSystemStabilizers.PssSB'.PssSB: Dual input PSS, pss2a and transient stabilizer
          • CIM14.Dynamics.PowerSystemStabilizers.PssSB4'.PssSB4: Power sensitive stabilizer model
          • CIM14.Dynamics.PowerSystemStabilizers.PssSH'.PssSH: Siemens H infinity PSS
          • CIM14.Dynamics.PowerSystemStabilizers.PssSK'.PssSK: PSS Slovakian type &ndash; three inputs
          • CIM14.Dynamics.PowerSystemStabilizers.PssWSCC'.PssWSCC: Dual input PSS
        • CIM14.IEC61970.Generation.GenerationDynamics.PrimeMover'.PrimeMover: The machine used to develop mechanical energy used to drive a generator.
          • CIM14.IEC61970.Generation.GenerationDynamics.CombustionTurbine'.CombustionTurbine: A prime mover that is typically fueled by gas or light oil
          • CIM14.IEC61970.Generation.GenerationDynamics.HydroTurbine'.HydroTurbine: A water driven prime mover.
          • CIM14.IEC61970.Generation.GenerationDynamics.SteamTurbine'.SteamTurbine: Steam turbine
        • CIM14.IEC61970.Wires.RegulatingControl'.RegulatingControl: Specifies a set of equipment that works together to control a power system quantity such as voltage or flow.
        • CIM14.IEC61970.SCADA.RemoteUnit'.RemoteUnit: A remote unit can be a RTU, IED, substation control system, control center etc.
        • CIM14.IEC61970.Generation.Production.Reservoir'.Reservoir: A water storage facility within a hydro system, including: ponds, lakes, lagoons, and rivers.
        • CIM14.IEC61970.Generation.GenerationDynamics.SteamSupply'.SteamSupply: Steam supply for steam turbine
          • CIM14.IEC61970.Generation.GenerationDynamics.BWRSteamSupply'.BWRSteamSupply: Boiling water reactor used as a steam supply to a steam turbine
          • CIM14.IEC61970.Generation.GenerationDynamics.FossilSteamSupply'.FossilSteamSupply: Fossil fueled boiler (e.g., coal, oil, gas)
            • CIM14.IEC61970.Generation.GenerationDynamics.DrumBoiler'.DrumBoiler: Drum boiler
            • CIM14.IEC61970.Generation.GenerationDynamics.HeatRecoveryBoiler'.HeatRecoveryBoiler: The heat recovery system associated with combustion turbines in order to produce steam for combined cycle plants
            • CIM14.IEC61970.Generation.GenerationDynamics.Subcritical'.Subcritical: Once-through subcritical boiler
            • CIM14.IEC61970.Generation.GenerationDynamics.Supercritical'.Supercritical: Once-through supercritical boiler
          • CIM14.IEC61970.Generation.GenerationDynamics.PWRSteamSupply'.PWRSteamSupply: Pressurized water reactor used as a steam supply to a steam turbine
        • CIM14.IEC61970.Wires.TapChanger'.TapChanger: Mechanism for changing transformer winding tap positions.
          • CIM14.IEC61970.Wires.PhaseTapChanger'.PhaseTapChanger: A specialization of a voltage tap changer that has detailed modeling for phase shifting capabilities.
          • CIM14.IEC61970.Wires.RatioTapChanger'.RatioTapChanger: A tap changer that changes the voltage ratio impacting the voltage magnitude but not direclty the phase angle across the transformer..
            • CIM14.IEC61968.WiresExt.DistributionTapChanger'.DistributionTapChanger: Additional ratio tap changer parameters common to distribution line regulators.
        • CIM14.Dynamics.TurbineGovernors.TurbineGovernor'.TurbineGovernor: The turbine-governor determines the mechanical power (Pm) supplied to the generator model
          • CIM14.Dynamics.TurbineGovernors.GovCT1'.GovCT1: General model for any prime mover with a PID governor, used primarily for combustion turbine and combined cycle units.
          • CIM14.Dynamics.TurbineGovernors.GovCT2'.GovCT2
          • CIM14.Dynamics.TurbineGovernors.GovDUM'.GovDUM
          • CIM14.Dynamics.TurbineGovernors.GovGASM'.GovGASM
          • CIM14.Dynamics.TurbineGovernors.GovGAST'.GovGAST
          • CIM14.Dynamics.TurbineGovernors.GovGAST2'.GovGAST2
          • CIM14.Dynamics.TurbineGovernors.GovGASTWD'.GovGASTWD
          • CIM14.Dynamics.TurbineGovernors.GovHydro0'.GovHydro0
          • CIM14.Dynamics.TurbineGovernors.GovHydro1'.GovHydro1: Hydro turbine-governor model.
          • CIM14.Dynamics.TurbineGovernors.GovHydro2'.GovHydro2
          • CIM14.Dynamics.TurbineGovernors.GovHydro3'.GovHydro3
          • CIM14.Dynamics.TurbineGovernors.GovHydro4'.GovHydro4
          • CIM14.Dynamics.TurbineGovernors.GovHydroDD'.GovHydroDD
          • CIM14.Dynamics.TurbineGovernors.GovHydroPID'.GovHydroPID
          • CIM14.Dynamics.TurbineGovernors.GovHydroPID2'.GovHydroPID2
          • CIM14.Dynamics.TurbineGovernors.GovHydroR'.GovHydroR
          • CIM14.Dynamics.TurbineGovernors.GovHydroWEH'.GovHydroWEH
          • CIM14.Dynamics.TurbineGovernors.GovHydroWPID'.GovHydroWPID
          • CIM14.Dynamics.TurbineGovernors.GovRAV'.GovRAV
          • CIM14.Dynamics.TurbineGovernors.GovSteam0'.GovSteam0: A simplified steam turbine-governor model.
          • CIM14.Dynamics.TurbineGovernors.GovSteam1'.GovSteam1: IEEE steam turbine/governor model (with optional deadband and nonlinear valve gain added)
          • CIM14.Dynamics.TurbineGovernors.GovSteamCC'.GovSteamCC
          • CIM14.Dynamics.TurbineGovernors.GovSteamEU'.GovSteamEU
          • CIM14.Dynamics.TurbineGovernors.GovSteamFV2'.GovSteamFV2
          • CIM14.Dynamics.TurbineGovernors.GovSteamFV3'.GovSteamFV3
          • CIM14.Dynamics.TurbineGovernors.GovSteamSGO'.GovSteamSGO
          • CIM14.Dynamics.TurbineGovernors.GovWT1P'.GovWT1P
          • CIM14.Dynamics.TurbineGovernors.GovWT1T'.GovWT1T
          • CIM14.Dynamics.TurbineGovernors.GovWT2P'.GovWT2P
          • CIM14.Dynamics.TurbineGovernors.GovWT2T'.GovWT2T
          • CIM14.Dynamics.TurbineGovernors.GovWT3P'.GovWT3P
          • CIM14.Dynamics.TurbineGovernors.GovWT3T'.GovWT3T
          • CIM14.Dynamics.TurbineGovernors.GovWT4P'.GovWT4P
          • CIM14.Dynamics.TurbineGovernors.GovWT4T'.GovWT4T
          • CIM14.Dynamics.TurbineGovernors.TLCFB1'.TLCFB1
        • CIM14.Dynamics.VoltageCompensator.VoltageCompensator'.VoltageCompensator: A voltage compensator adjusts the terminal voltage feedback to the excitation system by adding a quantity that is proportional to the terminal current of the generator.
          • CIM14.Dynamics.VoltageCompensator.VcompCross'.VcompCross: Voltage Compensation Model for Cross-Compound Generating Unit
          • CIM14.Dynamics.VoltageCompensator.VcompIEEE'.VcompIEEE: IEEE Voltage Compensation Model
        • CIM14.IEC61970.Wires.VoltageControlZone'.VoltageControlZone: An area of the power system network which is defined for secondary voltage control purposes.
      • CIM14.IEC61970.Core.PsrList'.PsrList: Arbitrary list of PowerSystemResources.
      • CIM14.IEC61968.Metering.ReadingType'.ReadingType: Type of data conveyed by a specific Reading.
      • CIM14.IEC61968.PaymentMetering.Receipt'.Receipt: Record of total receipted payment from customer.
      • CIM14.IEC61970.Protection.RecloseSequence'.RecloseSequence: A reclose sequence (open and close) is defined for each possible reclosure of a breaker.
      • CIM14.IEC61968.Metering.Register'.Register: Display for quantity that is metered on an end device such as a meter.
      • CIM14.IEC61970.SCADA.RemotePoint'.RemotePoint: For a RTU remote points correspond to telemetered values or control outputs.
        • CIM14.IEC61970.SCADA.RemoteControl'.RemoteControl: Remote controls are ouputs that are sent by the remote unit to actuators in the process.
        • CIM14.IEC61970.SCADA.RemoteSource'.RemoteSource: Remote sources are state variables that are telemetered or calculated within the remote unit.
      • CIM14.IEC61970.Core.ReportingGroup'.ReportingGroup: A reporting group is used for various ad-hoc groupings used for reporting.
      • CIM14.IEC61970.Core.ReportingSuperGroup'.ReportingSuperGroup: A reporting super group, groups reporting groups for a higher level report.
      • CIM14.IEC61968.Assets.Seal'.Seal: Physically controls access to AssetContainers.
      • CIM14.IEC61968.Customers.ServiceCategory'.ServiceCategory: Category of service provided to the customer.
      • CIM14.IEC61968.Metering.ServiceDeliveryPoint'.ServiceDeliveryPoint: Logical point on the network where the ownership of the service changes hands.
      • CIM14.IEC61968.PaymentMetering.Shift'.Shift: Generally referring to a period of operation or work performed.
        • CIM14.IEC61968.PaymentMetering.CashierShift'.CashierShift: The operating shift for a cashier, during which he may transact against the CashierShift, subject to VendorShift being open.
        • CIM14.IEC61968.PaymentMetering.VendorShift'.VendorShift: The operating shift for a vendor during which he may transact against the merchant's account.
      • CIM14.Dynamics.Slot'.Slot
      • CIM14.Dynamics.SlotConnection'.SlotConnection: Standard connectivity if not specified at the instance level..
      • CIM14.Dynamics.SlotInput'.SlotInput
      • CIM14.Dynamics.SlotOutput'.SlotOutput
      • CIM14.Dynamics.SlotReference'.SlotReference: The specific role the block usage is playing in a connection frame.
      • CIM14.IEC61970.Generation.Production.StartupModel'.StartupModel: Unit start up characteristics depending on how long the unit has been off line
      • CIM14.IEC61970.Core.SubGeographicalRegion'.SubGeographicalRegion: A subset of a geographical region of a power system network model.
      • CIM14.IEC61970.Outage.SwitchingOperation'.SwitchingOperation: A SwitchingOperation is used to define individual switch operations for an OutageSchedule.
      • CIM14.IEC61968.PaymentMetering.Tender'.Tender: Tender is what is 'offered' by the customer towards making a payment and is often more than the required payment (hence the need for 'change').
      • CIM14.IEC61970.Core.Terminal'.Terminal: An electrical connection point to a piece of conducting equipment.
      • CIM14.Dynamics.TieToMeasurement'.TieToMeasurement: Ties a block input to a specific state variable measurment.
      • CIM14.IEC61968.Common.TimePoint'.TimePoint: A point in time within a sequence of points in time relative to a TimeSchedule.
      • CIM14.IEC61968.AssetModels.ToWindingSpec'.ToWindingSpec: For short-circuit tests, specifies the winding and tap for all short-circuited windings.
      • CIM14.IEC61970.StateVariables.TopologicalIsland'.TopologicalIsland: An electrically connected subset of the network.
      • CIM14.IEC61970.Topology.TopologicalNode'.TopologicalNode: For a detailed substation model a TopologicalNode is a set of connectivity nodes that, in the current network state, are connected together through any type of closed switches, including jumpers.
      • CIM14.IEC61968.PaymentMetering.Transaction'.Transaction: The record of details of payment for service or token sale.
      • CIM14.IEC61968.PaymentMetering.Transactor'.Transactor: The entity that ultimately executes the transaction and who is in control of the process; typically this is embodied in secure software running on a server that may employ secure hardware encryption devices for secure transaction processing.
      • CIM14.IEC61968.AssetModels.TransformerInfo'.TransformerInfo: Set of transformer data, from an equipment library.
      • CIM14.IEC61970.Core.Unit'.Unit: Quantity being measured.
      • CIM14.IEC61970.Meas.ValueAliasSet'.ValueAliasSet: Describes the translation of a set of values into a name and is intendend to facilitate cusom translations.
      • CIM14.IEC61970.Meas.ValueToAlias'.ValueToAlias: Describes the translation of one particular value into a name, e.g.
      • CIM14.IEC61968.PaymentMetering.Vendor'.Vendor: The entity that owns PointOfSale and contracts with Cashier to receipt payments and vend tokens using the payment system.
      • CIM14.IEC61968.AssetModels.WindingInfo'.WindingInfo: Winding data.
      • CIM14.IEC61968.WiresExt.WindingPiImpedance'.WindingPiImpedance: Transformer Pi-model impedance that accurately reflects impedance for transformers with 2 or 3 windings.
      • CIM14.IEC61970.Wires.WindingTest'.WindingTest: Physical winding test data for the winding/tap pairs of a transformer (or phase shifter).
      • CIM14.IEC61968.AssetModels.WireArrangement'.WireArrangement: Identification, spacing and configuration of the wires of a Conductor, with reference to their type.
      • CIM14.IEC61968.AssetModels.WireType'.WireType: Wire conductor (per IEEE specs).
    • CIM14.IEC61968.Metering.IntervalBlock'.IntervalBlock: Time sequence of Readings of the same ReadingType.
    • CIM14.IEC61970.Core.IrregularTimePoint'.IrregularTimePoint: TimePoints for a schedule where the time between the points varies.
    • CIM14.IEC61968.PaymentMetering.LineDetail'.LineDetail: Details on an amount line, with rounding, date and note.
    • CIM14.IEC61970.Core.OperatingShare'.OperatingShare: Specifies the contract relationship between a PowerSystemResource and a contract participant.
    • CIM14.IEC61968.Metering.Pending'.Pending: When present, a scalar conversion that is associated with IntervalBlock and which needs to be applied to every contained IntervalReading value.
    • CIM14.IEC61968.WiresExt.PhaseImpedanceData'.PhaseImpedanceData: Triplet of resistance, reactance, and susceptance matrix element values.
    • CIM14.IEC61968.Common.PositionPoint'.PositionPoint: Set of spatial coordinates that determine a point.
    • CIM14.IEC61968.Common.PostalAddress'.PostalAddress: General purpose postal address information.
    • CIM14.Dynamics.ProtectiveDevice'.ProtectiveDevice
    • CIM14.IEC61970.Meas.Quality61850'.Quality61850: Quality flags in this class are as defined in IEC 61850, except for estimatorReplaced, which has been included in this class for convenience.
      • CIM14.IEC61970.Meas.MeasurementValueQuality'.MeasurementValueQuality: Measurement quality flags.
    • CIM14.IEC61968.Metering.ReadingQuality'.ReadingQuality: Quality of a specific reading value or interval reading value.
    • CIM14.IEC61970.Core.RegularTimePoint'.RegularTimePoint: TimePoints for a schedule where the time between the points is constant.
    • CIM14.IEC61968.LoadControl.RemoteConnectDisconnectInfo'.RemoteConnectDisconnectInfo: Details of remote connect disconnect function.
    • CIM14.IEC61970.LoadModel.Season'.Season: A specified time period of the year, e.g., Spring, Summer, Fall, Winter
    • CIM14.Dynamics.SourceModels'.SourceModels
    • CIM14.IEC61970.StateVariables.StateVariable'.StateVariable: An abstract class for state variables.
      • CIM14.IEC61970.StateVariables.SvInjection'.SvInjection: Injection state variable.
      • CIM14.IEC61970.StateVariables.SvPowerFlow'.SvPowerFlow: State variable for power flow.
      • CIM14.IEC61970.StateVariables.SvShortCircuit'.SvShortCircuit: State variable for short circuit.
      • CIM14.IEC61970.StateVariables.SvShuntCompensatorSections'.SvShuntCompensatorSections: State variable for the number of sections in service for a shunt compensator.
      • CIM14.IEC61970.StateVariables.SvStatus'.SvStatus: State variable for status.
      • CIM14.IEC61970.StateVariables.SvTapStep'.SvTapStep: State variable for transformer tap step.
      • CIM14.IEC61970.StateVariables.SvVoltage'.SvVoltage: State variable for voltage.
    • CIM14.Dynamics.StaticVarDevice'.StaticVarDevice
    • CIM14.IEC61968.Common.Status'.Status: Current status information relevant to an entity.
    • CIM14.IEC61968.Common.StreetAddress'.StreetAddress: General purpose street address information.
    • CIM14.IEC61968.Common.StreetDetail'.StreetDetail: Street details, in the context of address.
    • CIM14.IEC61968.Common.TelephoneNumber'.TelephoneNumber: Telephone number.
    • CIM14.IEC61970.ControlArea.TieFlow'.TieFlow: A flow specification in terms of location and direction for a control area.
    • CIM14.IEC61968.PaymentMetering.TimeTariffInterval'.TimeTariffInterval: One of a sequence of time intervals defined in terms of real time.
    • CIM14.IEC61968.Common.TownDetail'.TownDetail: Town details, in the context of address.
    • CIM14.IEC61968.Common.UserAttribute'.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.