CsConverter
DC side of the current source converter (CSC). The firing angle controls the dc voltage at the converter, both for rectifier and inverter. The difference between the dc voltages of the rectifier and inverter determines the dc current. The extinction angle is used to limit the dc voltage at the inverter, if needed, and is not used in active power control. The firing angle, transformer tap position and number of connected filters are the primary means to control a current source dc line. Higher level controls are built on top, e.g. dc voltage, dc current and active power. From a steady state perspective it is sufficient to specify the wanted active power transfer (ACDCConverter.targetPpcc) and the control functions will set the dc voltage, dc current, firing angle, transformer tap position and number of connected filters to meet this. Therefore attributes targetAlpha and targetGamma are not applicable in this case. The reactive power consumed by the converter is a function of the firing angle, transformer tap position and number of connected filter, which can be approximated with half of the active power. The losses is a function of the dc voltage and dc current. The attributes minAlpha and maxAlpha define the range of firing angles for rectifier operation between which no discrete tap changer action takes place. The range is typically 10-18 degrees. The attributes minGamma and maxGamma define the range of extinction angles for inverter operation between which no discrete tap changer action takes place. The range is typically 17-20 degrees.
Type |
Class |
|---|---|
URI |
|
CIM standard (perspective) |
IEC61970 (Grid) |
Slots
| Name | Cardinality | Type | Description |
|---|---|---|---|
1 |
Dataset containing the data objects. |
||
0..1 |
Current source converter dynamics model used to describe dynamic behaviour of this converter. |
||
0..1 |
Firing angle that determines the dc voltage at the converter dc terminal. Typical value between 10 degrees and 18 degrees for a rectifier. It is converter’s state variable, result from power flow. The attribute shall be a positive value. |
||
0..1 |
Extinction angle. It is used to limit the dc voltage at the inverter if needed. Typical value between 17 degrees and 20 degrees for an inverter. It is converter’s state variable, result from power flow. The attribute shall be a positive value. |
||
0..1 |
Maximum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
Maximum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
The maximum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data use in power flow. The attribute shall be a positive value. |
||
0..1 |
Minimum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
Minimum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
The minimum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
Indicates whether the DC pole is operating as an inverter or as a rectifier. It is converter’s control variable used in power flow. |
||
0..1 |
Kind of active power control. |
||
0..1 |
Rated converter DC current, also called IdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow. |
||
0..1 |
Target firing angle. It is converter’s control variable used in power flow. It is only applicable for rectifier if continuous tap changer control is used. Allowed values are within the range minAlpha<=targetAlpha<=maxAlpha. The attribute shall be a positive value. |
||
0..1 |
Target extinction angle. It is converter’s control variable used in power flow. It is only applicable for inverter if continuous tap changer control is used. Allowed values are within the range minGamma<=targetGamma<=maxGamma. The attribute shall be a positive value. |
||
0..1 |
DC current target value. It is converter’s control variable used in power flow. The attribute shall be a positive value. |
||
0..1 |
Datasheet information for this power system resource. |
||
0..1 |
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. |
||
0..1 |
Container of this equipment. |
||
0..1 |
Action involving grounding operation on this conducting equipment. |
||
0..1 |
Jumper action involving jumping operation on this conducting equipment. |
||
0..1 |
Location of this power system resource. |
||
0..1 |
The outage that is isolated by the outage isolation equipment. |
||
0..1 |
Custom classification for this power system resource. |
||
0..1 |
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. |
||
0..1 |
The single CIM data object in the appropriate dataset context. |
||
0..1 |
The aggregate flag provides an alternative way of representing an aggregated (equivalent) element. It is applicable in cases when the dedicated classes for equivalent equipment do not have all of the attributes necessary to represent the required level of detail. In case the flag is set to “true” the single instance of equipment represents multiple pieces of equipment that have been modelled together as an aggregate equivalent obtained by a network reduction procedure. Examples would be power transformers or synchronous machines operating in parallel modelled as a single aggregate power transformer or aggregate synchronous machine. The attribute is not used for EquivalentBranch, EquivalentShunt and EquivalentInjection. |
||
0..1 |
The aliasName is free text human readable name of the object alternative to IdentifiedObject.name. It may be non unique and may not correlate to a naming hierarchy. The attribute aliasName is retained because of backwards compatibility between CIM relases. It is however recommended to replace aliasName with the Name class as aliasName is planned for retirement at a future time. |
||
0..1 |
Base apparent power of the converter pole. The attribute shall be a positive value. |
||
0..1 |
The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy. |
||
0..1 |
Converter DC current, also called Id. It is converter’s state variable, result from power flow. |
||
0..1 |
Active power loss in pole at no power transfer. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
Specifies the availability of the equipment. True means the equipment is available for topology processing, which determines if the equipment is energized or not. False means that the equipment is treated by network applications as if it is not in the model. |
||
0..1 |
Master resource identifier issued by a model authority. The mRID is unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended. For CIMXML data files in RDF syntax conforming to IEC 61970-552, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements. |
||
0..1 |
Maximum active power limit. The value is overwritten by values of VsCapabilityCurve, if present. |
||
0..1 |
The maximum voltage on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
Minimum active power limit. The value is overwritten by values of VsCapabilityCurve, if present. |
||
0..1 |
The minimum voltage on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value. |
||
0..1 |
The name is any free human readable and possibly non unique text naming the object. |
||
0..1 |
The equipment is enabled to participate in network analysis. If unspecified, the value is assumed to be true. |
||
0..1 |
Specifies the availability of the equipment under normal operating conditions. True means the equipment is available for topology processing, which determines if the equipment is energized or not. False means that the equipment is treated by network applications as if it is not in the model. |
||
0..1 |
Number of valves in the converter. Used in loss calculations. |
||
0..1 |
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. |
||
0..1 |
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. It is converter’s state variable used in power flow. The attribute shall be a positive value. |
||
0..1 |
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. |
||
0..1 |
Rated converter DC voltage, also called UdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow. For instance a bipolar HVDC link with value 200 kV has a 400kV difference between the dc lines. |
||
0..1 |
It is converter’s configuration data used in power flow. Refer to poleLossP. The attribute shall be a positive value. |
||
0..1 |
Switching losses, relative to the base apparent power 'baseS'. Refer to poleLossP. The attribute shall be a positive value. |
||
0..1 |
Real power injection target in AC grid, at point of common coupling. Load sign convention is used, i.e. positive sign means flow out from a node. |
||
0..1 |
Target value for DC voltage magnitude. The attribute shall be a positive value. |
||
0..1 |
Line-to-line converter voltage, the voltage at the AC side of the valve. It is converter’s state variable, result from power flow. The attribute shall be a positive value. |
||
0..1 |
Converter voltage at the DC side, also called Ud. It is converter’s state variable, result from power flow. The attribute shall be a positive value. |
||
0..1 |
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. |
||
0..* |
Additional equipment container beyond the primary equipment container. The equipment is contained in another equipment container, but also grouped with this equipment container. |
||
0..* |
All assets represented by this power system resource. For example, multiple conductor assets are electrically modelled as a single AC line segment. |
||
0..* |
All clearances applicable to this power system resource. |
||
0..* |
All configuration events created for this Power System resource. |
||
0..* |
The contingency equipments in which this equipment participates. |
||
0..* |
The controller outputs used to actually govern a regulating device, e.g. the magnetization of a synchronous machine or capacitor bank breaker actuator. |
||
0..* |
A DC converter have DC converter terminals. A converter has two DC converter terminals. |
||
0..* |
The diagram objects that are associated with the domain object. |
||
0..* |
Equipment limit series calculation component to which this equipment contributes. |
||
0..* |
n/a |
||
0..* |
All faults on this equipment. |
||
0..* |
The generic action that is performed on the power system resource |
||
0..* |
Limit dependencymodels organized under this equipment as a means for organizing the model in a tree view. |
||
0..* |
The measurements associated with this power system resource. |
||
0..* |
All names of this identified object. |
||
0..* |
The operating shares of this power system resource. |
||
0..* |
The operational limit sets associated with this equipment. |
||
0..* |
All operational restrictions for this equipment. |
||
0..* |
All operational tags placed on this power system resource. |
||
0..* |
All outages in which this equipment is involved. |
||
0..* |
All events associated with this power system resource. |
||
0..* |
n/a |
||
0..* |
Protection equipment used to protect specific conducting equipment. |
||
0..* |
The operating condition to the Conducting Equipment is changed when protective action adjustment is activated. For ShuntCompensator or other conducting equipment that operates on discrete values (integer), the values given in float will be rounded. |
||
0..* |
Protective action is controlling equipment. This can be direct signals from the control center, or emulation of action done by protection equipment. |
||
0..* |
Reporting groups to which this power system resource belongs. |
||
0..* |
The status state variable associated with this conducting equipment. |
||
0..* |
Data objects registered. |
||
0..* |
Conducting equipment have terminals that may be connected to other conducting equipment terminals via connectivity nodes or topological nodes. |
||
0..* |
All usage points connected to the electrical grid through this equipment. |
||
0..* |
The verification action that is performed on the power system resource |
||
0..* |
n/a |
AdditionalEquipmentContainer
Additional equipment container beyond the primary equipment container. The equipment is contained in another equipment container, but also grouped with this equipment container.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
aggregate
The aggregate flag provides an alternative way of representing an aggregated (equivalent) element. It is applicable in cases when the dedicated classes for equivalent equipment do not have all of the attributes necessary to represent the required level of detail. In case the flag is set to “true” the single instance of equipment represents multiple pieces of equipment that have been modelled together as an aggregate equivalent obtained by a network reduction procedure. Examples would be power transformers or synchronous machines operating in parallel modelled as a single aggregate power transformer or aggregate synchronous machine. The attribute is not used for EquivalentBranch, EquivalentShunt and EquivalentInjection.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
aliasName
The aliasName is free text human readable name of the object alternative to IdentifiedObject.name. It may be non unique and may not correlate to a naming hierarchy. The attribute aliasName is retained because of backwards compatibility between CIM relases. It is however recommended to replace aliasName with the Name class as aliasName is planned for retirement at a future time.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
alpha
Firing angle that determines the dc voltage at the converter dc terminal. Typical value between 10 degrees and 18 degrees for a rectifier. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
AssetDatasheet
Datasheet information for this power system resource.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Assets
All assets represented by this power system resource. For example, multiple conductor assets are electrically modelled as a single AC line segment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
baseS
Base apparent power of the converter pole. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
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.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Clearances
All clearances applicable to this power system resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
ConfigurationEvent
All configuration events created for this Power System resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
ContingencyEquipment
The contingency equipments in which this equipment participates.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
Controls
The controller outputs used to actually govern a regulating device, e.g. the magnetization of a synchronous machine or capacitor bank breaker actuator.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
CSCDynamics
Current source converter dynamics model used to describe dynamic behaviour of this converter.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
DCTerminals
A DC converter have DC converter terminals. A converter has two DC converter terminals.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
description
The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
DiagramObjects
The diagram objects that are associated with the domain object.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
EqiupmentLimitSeriesComponent
Equipment limit series calculation component to which this equipment contributes.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
EquipmentContainer
Container of this equipment.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
EquipmentUnavailabilitySchedule
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
gamma
Extinction angle. It is used to limit the dc voltage at the inverter if needed. Typical value between 17 degrees and 20 degrees for an inverter. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
GenericAction
The generic action that is performed on the power system resource
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
GroundingAction
Action involving grounding operation on this conducting equipment.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
idc
Converter DC current, also called Id. It is converter’s state variable, result from power flow.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
idleLoss
Active power loss in pole at no power transfer. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
inService
Specifies the availability of the equipment. True means the equipment is available for topology processing, which determines if the equipment is energized or not. False means that the equipment is treated by network applications as if it is not in the model.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
InstanceSet
Dataset containing the data objects.
URI |
|
|---|---|
Cardinality |
1 |
Type |
|
Inherited from |
JumpingAction
Jumper action involving jumping operation on this conducting equipment.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
LimitDependencyModel
Limit dependencymodels organized under this equipment as a means for organizing the model in a tree view.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
Location
Location of this power system resource.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
maxAlpha
Maximum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
maxGamma
Maximum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
maxIdc
The maximum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data use in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
maxP
Maximum active power limit. The value is overwritten by values of VsCapabilityCurve, if present.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
maxUdc
The maximum voltage on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Measurements
The measurements associated with this power system resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
minAlpha
Minimum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
minGamma
Minimum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
minIdc
The minimum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
minP
Minimum active power limit. The value is overwritten by values of VsCapabilityCurve, if present.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
minUdc
The minimum voltage on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
mRID
Master resource identifier issued by a model authority. The mRID is unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended. For CIMXML data files in RDF syntax conforming to IEC 61970-552, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
name
The name is any free human readable and possibly non unique text naming the object.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Names
All names of this identified object.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
networkAnalysisEnabled
The equipment is enabled to participate in network analysis. If unspecified, the value is assumed to be true.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
normallyInService
Specifies the availability of the equipment under normal operating conditions. True means the equipment is available for topology processing, which determines if the equipment is energized or not. False means that the equipment is treated by network applications as if it is not in the model.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
numberOfValves
Number of valves in the converter. Used in loss calculations.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
operatingMode
Indicates whether the DC pole is operating as an inverter or as a rectifier. It is converter’s control variable used in power flow.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
OperatingShare
The operating shares of this power system resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
OperationalLimitSet
The operational limit sets associated with this equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
OperationalRestrictions
All operational restrictions for this equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
OperationalTags
All operational tags placed on this power system resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
Outage
The outage that is isolated by the outage isolation equipment.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Outages
All outages in which this equipment is involved.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
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.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
PccTerminal
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.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
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. It is converter’s state variable used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
PropertiesCIMDataObject
The single CIM data object in the appropriate dataset context.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
ProtectionEquipments
Protection equipment used to protect specific conducting equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
ProtectiveActionAdjustment
The operating condition to the Conducting Equipment is changed when protective action adjustment is activated. For ShuntCompensator or other conducting equipment that operates on discrete values (integer), the values given in float will be rounded.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
ProtectiveActionEquipment
Protective action is controlling equipment. This can be direct signals from the control center, or emulation of action done by protection equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
PSREvents
All events associated with this power system resource.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
PSRType
Custom classification for this power system resource.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
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.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
ratedIdc
Rated converter DC current, also called IdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
ratedUdc
Rated converter DC voltage, also called UdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow. For instance a bipolar HVDC link with value 200 kV has a 400kV difference between the dc lines.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
ReportingGroup
Reporting groups to which this power system resource belongs.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
resistiveLoss
It is converter’s configuration data used in power flow. Refer to poleLossP. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
SvStatus
The status state variable associated with this conducting equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
switchingLoss
Switching losses, relative to the base apparent power 'baseS'. Refer to poleLossP. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
targetAlpha
Target firing angle. It is converter’s control variable used in power flow. It is only applicable for rectifier if continuous tap changer control is used. Allowed values are within the range minAlpha<=targetAlpha<=maxAlpha. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
targetGamma
Target extinction angle. It is converter’s control variable used in power flow. It is only applicable for inverter if continuous tap changer control is used. Allowed values are within the range minGamma<=targetGamma<=maxGamma. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
targetIdc
DC current target value. It is converter’s control variable used in power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
TargetingCIMDataObject
Data objects registered.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
targetPpcc
Real power injection target in AC grid, at point of common coupling. Load sign convention is used, i.e. positive sign means flow out from a node.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
targetUdc
Target value for DC voltage magnitude. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
Terminals
Conducting equipment have terminals that may be connected to other conducting equipment terminals via connectivity nodes or topological nodes.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
uc
Line-to-line converter voltage, the voltage at the AC side of the valve. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
udc
Converter voltage at the DC side, also called Ud. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
UsagePoints
All usage points connected to the electrical grid through this equipment.
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |
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.
URI |
|
|---|---|
Cardinality |
0..1 |
Type |
|
Inherited from |
VerificationAction
The verification action that is performed on the power system resource
URI |
|
|---|---|
Cardinality |
0..* |
Type |
|
Inherited from |