IscTransformer

The IscTransformer class provides access to an IPSA transformer, to set and get data values and to retrieve load flow and fault level results. Note that in IPSA a transformer is modelled as a combination of a branch and a tap changer. Therefore the transformer impedance data is stored in a branch instance and functions such as GetLineDValue() are used to access branch type data.

Field Values

IscTransformer Field Values

Type

Field Name

Description

Integer

FromUID

Gets the unique ID of the sending busbar.

Integer

ToUID

Gets the unique ID of the receiving busbar.

String

FromBusName

Gets the sending busbar name.

String

ToBusName

Gets the receiving busbar name.

String

Name

Gets the transformer name.

Integer

Type

Specifies the transformer type as follows:

  • 0 = Unknown

  • 1 = Ground Mounted

  • 2 = Pole Mounted

  • 3 = Bulk Supply

  • 4 = Grid Supply

  • 5 = Super Grid

  • 6 = Primary Distribution

  • 7 = Secondary Distribution

Integer

Winding

Transformer winding type connection as follows:

  • 1 = none

  • 2 = Xx0

  • 3 = Yy0

  • 4 = Dd0

  • 5 = Xy0

  • 6 = Yx0

  • 7 = Dx11

  • 8 = Dy11

  • 9 = Xd11

  • 10 = Yd11

  • 11 = Dx1

  • 12 = Dy1

  • 13 = Xd1

  • 14 = Yd1

  • 15 = Xy0, zero sequence current passing

  • 16 = Yx0, zero sequence current passing

  • 17 = Dz0

  • 18 = Zd0

where:

  • X = Earthed star

  • Y = Unearthed star

  • D = Delta

  • Z = Zig-zag

Float

NEResistanceW1PU

Winding 1 neutral earth resistance in per unit.

Float

NEReactanceW1PU

Winding 1 neutral earth reactance in per unit.

Float

NEResistanceW2PU

Winding 2 neutral earth resistance in per unit.

Float

NEReactanceW2PU

Winding 2 neutral earth reactance in per unit.

Float

TapNominalPC

Nominal tap position, optionally used in a flat start.

Float

TapStartPC

Present tap position, used as a starting point for the next load flow.

Float

MinTapPC

Minimum tap position, normally negative or zero.

Float

TapStepPC

Tap increment. This defaults to 0.01 if left blank.

Float

MaxTapPC

Maximum tap position, normally positive or zero.

Float

DxDTap

Changes in reactance with tap change. This value is used in compounding only.

Boolean

LockTap

Sets the flag to lock the transformer tap changer. Use True to lock, False to unlock.

Float

SpecVPU

Target voltage in per unit. Positive means control ‘to’ busbar, negative means control ‘from’ busbar. Magnitudes of less than 0.5 pu mean fixed tap operation.

Float

RBWidthPC

Full bandwidth of the voltage sensing relay. This should be larger than tap step size.

Float

CompRPC

Line drop compensation resistance in percentage on the compensation rating base.

Float

CompXPC

Line drop compensation reactance in percentage on the compensation rating base.

Float

RatingMVA

Rating used for line drop compensation impedances. This can be a different value from the branch rating used for overloads.

Float

PhShiftDeg

Phase shift angle. A positive value makes the receiving end voltage lead the sending end voltage.

Float

SpecPowerMW

Quad Booster target power in MW - can be specified as zero.

Boolean

SpecPowerAtSend

Control the power at the “from” side of the transformer.

Float

MinPhShiftDeg

Min phase shift angle - both angle limits are required for Power control.

Float

MaxPhShiftDeg

Max phase shift angle - both angle limits are required for Power control.

Float

PhShiftStepDeg

Phase shift step - default value is 0.01 degrees.

String

DbType

Gets the transformer database type including both tap and impedance information.

Integer

DbParallel

Gets the number of transformers in parallel. This is only used for database transformers.

String

PluginID

Gets and sets the plugin name associated with this transformer.

Float

VoltFactorPt

Sets the voltage factor for use in IEC60909 fault calculations.

Integer

RemoteCtlBusbarUID

Specifies the UID of the remote busbar which is used as the basis for the transformer voltage control.

IscTransformer Class

class ipsa.IscTransformer

Provides access to an IPSA transformer.

SetName(strName: str) bool

Sets the name as a string.

Parameters:

strName (str) – The selected string name.

Returns:

True if successful.

Return type:

bool

GetIValue(nFieldIndex: int) int

Returns an integer value for the enumerated field.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The integer value.

Return type:

int

GetDValue(nFieldIndex: int) float

Returns a double value for the enumerated field.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The double value.

Return type:

float

GetSValue(nFieldIndex: int) str

Returns a string value for the enumerated field.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The string value.

Return type:

str

GetBValue(nFieldIndex: int) bool

Returns a boolean value for the enumerated field.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The boolean value.

Return type:

bool

SetIValue(nFieldIndex: int, nValue: int) bool

Sets the value for the enumerated field from an integer.

Parameters:

  • nFieldIndex (int) – The field index.

  • nValue (int) – The given integer value.

Returns:

True if successful.

Return type:

bool

SetDValue(nFieldIndex: int, dValue: float) bool

Sets the value for the enumerated field from a double.

Parameters:

  • nFieldIndex (int) – The field index.

  • dValue (float) – The given double value.

Returns:

True if successful.

Return type:

bool

SetSValue(nFieldIndex: int, strValue: int) bool

Sets the value for the enumerated field from a string.

Parameters:

  • nFieldIndex (int) – The field index.

  • strValue (str) – The given string value.

Returns:

True if successful.

Return type:

bool

SetBValue(nFieldIndex: int, bValue: bool) bool

Sets the value for the enumerated field from boolean.

Parameters:

  • nFieldIndex (int) – The field index.

  • bValue (bool) – The given boolean value.

Returns:

True if successful.

Return type:

bool

GetLineIValue(nFieldIndex: int) int

Returns an integer value for the field index for the line associated with this transformer.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The integer value for the field index for the line associated with this transformer.

Return type:

int

GetLineDValue(nFieldIndex: int) float

Returns a double value for the field index for the line associated with this transformer.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The double value for the field index for the line associated with this transformer.

Return type:

float

GetLineSValue(nFieldIndex: int) str

Returns a string value for the field index for the line associated with this transformer.

Parameters:

nFieldIndex (int) – The field index.

Returns:

The string value for the field index for the line associated with this transformer.

Return type:

str

SetLineIValue(nFieldIndex: int, nValue: int) bool

Sets the value for the field index from an integer for the line associated with this transformer.

Parameters:

  • nFieldIndex (int) – The field index.

  • nValue (int) – The given integer value.

Returns:

True if successful.

Return type:

bool

SetLineDValue(nFieldIndex: int, dValue: float) bool

Sets the value for the field index from a double for the line associated with this transformer.

Parameters:

  • nFieldIndex (int) – The field index.

  • dValue (float) – The given double value.

Returns:

True if successful.

Return type:

bool

SetLineSValue(nFieldIndex: int, strValue: int) bool

Sets the value for the field index from a string for the line associated with this transformer.

Parameters:

  • nFieldIndex (int) – The field index.

  • strValue (str) – The given string value.

Returns:

True if successful.

Return type:

bool

SetRatingskA(nRatingIndex: int, dSendRatingkA: float, dRecieveRatingkA: float) None

Sets the sending and receiving end current ratings in kA for the transformer.

Parameters:

  • nRatingIndex (int) – Specifies which rating set the data is applied to.

  • dSendRatingkA (float) – The sending end current rating in kA for the transformer.

  • dRecieveRatingkA (float) – The receiving end current rating in kA for the transformer.

SetRatingMVA(nRatingIndex: int, dRatingMVA: float) None

Sets the MVA rating for the transformer.

Parameters:

  • nRatingIndex (int) – Specifies which rating set the data is applied to.

  • dRatingMVA (float) – The MVA rating for the transformer.

GetRatingSendkA(nRatingIndex: int) float

Returns the sending end current ratings in kA for the transformer.

Parameters:

nRatingIndex (int) – Specifies which rating set the data is applied to.

Returns:

The sending end current ratings in kA for the transformer.

Return type:

float

GetRatingReceivekA(nRatingIndex: int) float

Returns the receiving end current ratings in kA for the transformer.

Parameters:

nRatingIndex (int) – Specifies which rating set the data is applied to.

Returns:

The receiving end current ratings in kA for the transformer.

Return type:

float

GetRatingMVA(nRatingIndex: int) float

Returns the MVA rating for the transformer.

Parameters:

nRatingIndex (int) – Specifies which rating set the data is applied to.

Returns:

The MVA rating for the transformer.

Return type:

float

GetControlledBusbarName() str

Returns the name of the busbar whose voltage is controlled by the transformer.

Returns:

The name of the busbar whose voltage is controlled by the transformer.

Return type:

str

PopulateByDBEntry(strTransformerDataName: str, strLine1DataName: str, strLine2DataName: str, nParallel: int, nParallelFrom: int, nParallelTo: int, dlengthFrom: float, dLengthTo: float) bool

Populates the object data with database information from the first database that was loaded.

Parameters:

  • strTransformerDataName (str) – The name of the transformer.

  • strLine1DataName (str) – The name of the From branch.

  • strLine2DataName (str) – The name of the To branch.

  • nParallel (int) – The number of parallel components.

  • nParallelFrom (int) – The number of parallel components for the From branch.

  • nParallelTo (int) – The number of parallel components for the To branch.

  • dlengthFrom (float) – The length of the From branch.

  • dLengthTo (float) – The length of the To branch.

Returns:

True if successful.

Return type:

bool

GetSendPowerMagnitudeMVA() float

Returns the transformer sending end power in MVA.

Returns:

The transformer sending end power in MVA.

Return type:

float

GetSendPowerMagnitudekVA() float

Returns the transformer sending end power in kVA.

Returns:

The transformer sending end power in kVA.

Return type:

float

GetSendRealPowerMW() float

Returns the transformer sending end power in MW.

Returns:

The transformer sending end power in MW.

Return type:

float

GetSendReactivePowerMVAr() float

Returns the transformer sending end power in MVAr.

Returns:

The transformer sending end power in MVAr.

Return type:

float

GetSendRealPowerkW() float

Returns the transformer sending end power in kW.

Returns:

The transformer sending end power in kW.

Return type:

float

GetSendReactivePowerkVAr() float

Returns the transformer sending end power in kVAr.

Returns:

The transformer sending end power in kVAr.

Return type:

float

GetReceivePowerMagnitudeMVA() float

Returns the transformer receiving end power in MVA.

Returns:

The transformer receiving end power in MVA.

Return type:

float

GetReceivePowerMagnitudekVA() float

Returns the transformer receiving end power in kVA.

Returns:

The transformer receiving end power in kVA.

Return type:

float

GetReceiveRealPowerMW() float

Returns the transformer receiving end power in MW.

Returns:

The transformer receiving end power in MW.

Return type:

float

GetReceiveReactivePowerMVAr() float

Returns the transformer receiving end power in MVAr.

Returns:

The transformer receiving end power in MVAr.

Return type:

float

GetReceiveRealPowerkW() float

Returns the transformer receiving end power in kW.

Returns:

The transformer receiving end power in kW.

Return type:

float

GetReceiveReactivePowerkVAr() float

Returns the transformer receiving end power in kVAr.

Returns:

The transformer receiving end power in kVAr.

Return type:

float

GetLargestPowerMagnitudeMVA() float
GetLargestPowerMagnitudeMVA(nStudyUID: int) float

Returns the highest transformer power in MVA.

Parameters:

nStudyUID (int) – If supplied, the automation or contingency study UID which the results belong to.

Returns:

The highest transformer power in MVA.

Return type:

float

GetLargestPowerMagnitudekVA() float

Returns the highest transformer power in kVA.

Returns:

The highest transformer power in kVA.

Return type:

float

GetLargestRealPowerMW() float

Returns the highest transformer power in MW.

Returns:

The highest transformer power in MW.

Return type:

float

GetLargestReactivePowerMVAr() float

Returns the highest transformer power in MVAr.

Returns:

The highest transformer power in MVAr.

Return type:

float

GetLargestRealPowerkW() float

Returns the highest transformer power in kW.

Returns:

The highest transformer power in kW.

Return type:

float

GetLargestReactivePowerkVAr() float

Returns the highest transformer power in kVAr.

Returns:

The highest transformer power in kVAr.

Return type:

float

GetLossesMW() float

Returns the transformer losses in MW.

Returns:

The transformer losses in MW.

Return type:

float

GetLossesMVAr() float

Returns the transformer losses in MVAr.

Returns:

The transformer losses in MVAr.

Return type:

float

GetLosseskW() float

Returns the transformer losses in kW.

Returns:

The transformer losses in kW.

Return type:

float

GetLosseskVAr() float

Returns the transformer losses in kVAr.

Returns:

The transformer losses in kVAr.

Return type:

float

GetSpecVoltagePU() float

Returns the target busbar voltage in per unit.

Returns:

The target busbar voltage in per unit.

Return type:

float

GetActualVoltagePU() float

Returns the actual busbar voltage in per unit.

Returns:

The actual busbar voltage in per unit.

Return type:

float

GetTapPC() float

Returns the current tap position in percentage.

Returns:

The current tap position in percentage.

Return type:

float

GetMinTapPC() float

Returns the minimum tap position in percentage.

Returns:

The minimum tap position in percentage.

Return type:

float

GetMaxTapPC() float

Returns the maximum tap position in percentage.

Returns:

The maximum tap position in percentage.

Return type:

float

GetPhShiftDeg() float

Returns the current phase shift in degrees.

Returns:

The current phase shift in degrees.

Return type:

float

GetPhShiftRad() float

Returns the current phase shift in radians.

Returns:

The current phase shift in radians.

Return type:

float

GetHasCompounding() bool

Returns True if the transformer has compounding, False otherwise.

Returns:

True if the transformer has compounding, False otherwise.

Return type:

bool

GetFaultRedComponentFromMVA() float

Returns the red phase fault level component in MVA at the “From” end of the transformer.

Returns:

The red phase fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultRedComponentToMVA() float

Returns the red phase fault level component in MVA at the “To” end of the transformer.

Returns:

The red phase fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultYellowComponentFromMVA() float

Returns the yellow phase fault level component in MVA at the “From” end of the transformer.

Returns:

The yellow phase fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultYellowComponentToMVA() float

Returns the yellow phase fault level component in MVA at the “To” end of the transformer.

Returns:

The yellow phase fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultBlueComponentFromMVA() float

Returns the blue phase fault level component in MVA at the “From” end of the transformer.

Returns:

The blue phase fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultBlueComponentToMVA() float

Returns the blue phase fault level component in MVA at the “To” end of the transformer.

Returns:

The blue phase fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultRedComponentFromkA() float

Returns the red phase fault level component in kA at the “From” end of the transformer.

Returns:

The red phase fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultRedComponentTokA() float

Returns the red phase fault level component in kA at the “To” end of the transformer.

Returns:

The red phase fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultYellowComponentFromkA() float

Returns the yellow phase fault level component in kA at the “From” end of the transformer.

Returns:

The yellow phase fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultYellowComponentTokA() float

Returns the yellow phase fault level component in kA at the “To” end of the transformer.

Returns:

The yellow phase fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultBlueComponentFromkA() float

Returns the blue phase fault level component in kA at the “From” end of the transformer.

Returns:

The blue phase fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultBlueComponentTokA() float

Returns the blue phase fault level component in kA at the “To” end of the transformer.

Returns:

The blue phase fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultPositiveComponentFromMVA() float

Returns the positive sequence fault level component in MVA at the “From” end of the transformer.

Returns:

The positive sequence fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultPositiveComponentToMVA() float

Returns the positive sequence fault level component in MVA at the “To” end of the transformer.

Returns:

The positive sequence fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultNegativeComponentFromMVA() float

Returns the negative sequence fault level component in MVA at the “From” end of the transformer.

Returns:

The negative sequence fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultNegativeComponentToMVA() float

Returns the negative sequence fault level component in MVA at the “To” end of the transformer.

Returns:

The negative sequence fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultZeroComponentFromMVA() float

Returns the zero sequence fault level component in MVA at the “From” end of the transformer.

Returns:

The zero sequence fault level component in MVA at the “From” end of the transformer.

Return type:

float

GetFaultZeroComponentToMVA() float

Returns the zero sequence fault level component in MVA at the “To” end of the transformer.

Returns:

The zero sequence fault level component in MVA at the “To” end of the transformer.

Return type:

float

GetFaultPositiveComponentFromkA() float

Returns the positive sequence fault level component in kA at the “From” end of the transformer.

Returns:

The positive sequence fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultPositiveComponentTokA() float

Returns the positive sequence fault level component in kA at the “To” end of the transformer.

Returns:

The positive sequence fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultNegativeComponentFromkA() float

Returns the negative sequence fault level component in kA at the “From” end of the transformer.

Returns:

The negative sequence fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultNegativeComponentTokA() float

Returns the negative sequence fault level component in kA at the “To” end of the transformer.

Returns:

The negative sequence fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultZeroComponentFromkA() float

Returns the zero sequence fault level component in kA at the “From” end of the transformer.

Returns:

The zero sequence fault level component in kA at the “From” end of the transformer.

Return type:

float

GetFaultZeroComponentTokA() float

Returns the zero sequence fault level component in kA at the “To” end of the transformer.

Returns:

The zero sequence fault level component in kA at the “To” end of the transformer.

Return type:

float

GetFaultRedComponentFromAngleDeg() float

Returns the red phase component of fault angle in degrees at the “From” end of the transformer.

Returns:

The red phase component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultRedComponentToAngleDeg() float

Returns the red phase component of fault angle in degrees at the “To” end of the transformer.

Returns:

The red phase component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetFaultYellowComponentFromAngleDeg() float

Returns the yellow phase component of fault angle in degrees at the “From” end of the transformer.

Returns:

The yellow phase component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultYellowComponentToAngleDeg() float

Returns the yellow phase component of fault angle in degrees at the “To” end of the transformer.

Returns:

The yellow phase component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetFaultBlueComponentFromAngleDeg() float

Returns the blue phase component of fault angle in degrees at the “From” end of the transformer.

Returns:

The blue phase component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultBlueComponentToAngleDeg() float

Returns the blue phase component of fault angle in degrees at the “To” end of the transformer.

Returns:

The blue phase component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetFaultPositiveComponentFromAngleDeg() float

Returns the positive sequence component of fault angle in degrees at the “From” end of the transformer.

Returns:

The positive sequence component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultPositiveComponentToAngleDeg() float

Returns the positive sequence component of fault angle in degrees at the “To” end of the transformer.

Returns:

The positive sequence component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetFaultNegativeComponentFromAngleDeg() float

Returns the negative sequence component of fault angle in degrees at the “From” end of the transformer.

Returns:

The negative sequence component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultNegativeComponentToAngleDeg() float

Returns the negative sequence component of fault angle in degrees at the “To” end of the transformer.

Returns:

The negative sequence component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetFaultZeroComponentFromAngleDeg() float

Returns the zero sequence component of fault angle in degrees at the “From” end of the transformer.

Returns:

The zero sequence component of fault angle in degrees at the “From” end of the transformer.

Return type:

float

GetFaultZeroComponentToAngleDeg() float

Returns the zero sequence component of fault angle in degrees at the “To” end of the transformer.

Returns:

The zero sequence component of fault angle in degrees at the “To” end of the transformer.

Return type:

float

GetCurrentMagnitude(dOrder: float) float

Returns the current magnitude in per unit on the network base for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The current magnitude in per unit.

Return type:

float

GetCurrentAngle(dOrder: float) float

Returns the current angle in radians for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The current angle in radians.

Return type:

float

GetResistance(dOrder: float) float

Returns the transformer harmonic resistance in per unit on the network base for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The transformer harmonic resistance in per unit.

Return type:

float

GetReactance(dOrder: float) float

Returns the transformer harmonic reactance in per unit on the network base for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The transformer harmonic reactance in per unit.

Return type:

float

GetShuntResistance(dOrder: float) float

Returns the transformer harmonic shunt resistance in per unit on the network base for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The transformer shunt resistance in per unit.

Return type:

float

GetShuntReactance(dOrder: float) float

Returns the transformer harmonic shunt reactance in per unit on the network base for the harmonic order.

Parameters:

dOrder (float) – The harmonic order.

Returns:

The transformer shunt reactance in per unit.

Return type:

float

GetProfileMinimumFlowMVA() float

Returns the minimum branch flow in MVA from the profile study results.

Returns:

The minimum branch flow in MVA from the profile study results.

Return type:

float

GetProfileMinimumFlowkA() float

Returns the minimum branch flow in kA from the profile study results.

Returns:

The minimum branch flow in kA from the profile study results.

Return type:

float

GetProfileMaximumFlowMVA() float

Returns the maximum branch flow in MVA from the profile study results.

Returns:

The maximum branch flow in MVA from the profile study results.

Return type:

float

GetProfileMaximumFlowkA() float

Returns the maximum branch flow in kA from the profile study results.

Returns:

The maximum branch flow in kA from the profile study results.

Return type:

float

GetProfileMedianFlowMVA() float

Returns the median of the branch flow in MVA from the profile study results.

Returns:

The median of the branch flow in MVA from the profile study results.

Return type:

float

GetProfileMedianFlowkA() float

Returns the median of the branch flow in kA from the profile study results.

Returns:

The median of the branch flow in kA from the profile study results.

Return type:

float

GetMinimumProfileIndex() int

Returns the category index which identifies the minimum branch flow from the profile study results.

Returns:

The minimum category index.

Return type:

int

GetMaximumProfileIndex() int

Returns the category index which identifies the maximum branch flow from the profile study results.

Returns:

The maximum category index.

Return type:

int

GetDCLFSendPowerMagnitudeMVA() float

Returns the transformer sending end power in MVA.

Returns:

The transformer sending end power in MVA.

Return type:

float

GetDCLFSendPowerMagnitudekVA() float

Returns the transformer sending end power in kVA.

Returns:

The transformer sending end power in kVA.

Return type:

float

GetDCLFSendRealPowerMW() float

Returns the transformer sending end power in MW.

Returns:

The transformer sending end power in MW.

Return type:

float

GetDCLFSendRealPowerkW() float

Returns the transformer sending end power in kW.

Returns:

The transformer sending end power in kW.

Return type:

float

GetDCLFReceivePowerMagnitudeMVA() float

Returns the transformer receiving end power in MVA.

Returns:

The transformer receiving end power in MVA.

Return type:

float

GetDCLFReceivePowerMagnitudekVA() float

Returns the transformer receiving end power in kVA.

Returns:

The transformer receiving end power in kVA.

Return type:

float

GetDCLFReceiveRealPowerMW() float

Returns the transformer receiving end power in MW.

Returns:

The transformer receiving end power in MW.

Return type:

float

GetDCLFReceiveRealPowerkW() float

Returns the transformer receiving end power in kW.

Returns:

The transformer receiving end power in kW.

Return type:

float

GetDCLFReceiveReactivePowerkVAr() float

Returns the transformer receiving end power in kVAr.

Returns:

The transformer receiving end power in kVAr.

Return type:

float

GetDCLFLargestPowerMagnitudeMVA() float

Returns the highest transformer end power in MVA.

Returns:

The highest transformer end power in MVA.

Return type:

float

GetDCLFLargestPowerMagnitudekVA() float

Returns the highest transformer end power in kVA.

Returns:

The highest transformer end power in kVA.

Return type:

float

GetDCLFLargestRealPowerMW() float

Returns the highest transformer end power in MW.

Returns:

The highest transformer end power in MW.

Return type:

float

GetDCLFLargestRealPowerkW() float

Returns the highest transformer end power in kW.

Returns:

The highest transformer end power in kW.

Return type:

float

GetDCLFLossesMW() float

Returns the transformer losses in MW.

Returns:

The transformer losses in MW.

Return type:

float

GetDCLFLosseskW() float

Returns the transformer losses in kW.

Returns:

The transformer losses in kW.

Return type:

float

GetDCLFPhShiftDeg() float

Returns the transformer phase shift in degrees.

Returns:

The transformer phase shift in degrees.

Return type:

float

GetDCLFPhShiftRad() float

Returns the transformer phase shift in radians.

Returns:

The transformer phase shift in radians.

Return type:

float