public final class UcteConverterHelper extends Object
Modifier and Type | Method and Description |
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static double |
calculateAsymmAngleDu(TwoWindingsTransformer twoWindingsTransformer)
Calculate the δu(%) for the angle regulation of the two windings transformer
This computation only work for an angle regulation with the type asymmetrical
dU = 100 * (distance between the 2 most distant taps) / (number of taps - 1)
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static double |
calculateAsymmAngleTheta(TwoWindingsTransformer twoWindingsTransformer)
Calculate the Θ for the angle regulation of the two windings transformer
Theta is the angle between the line (created by the 2 points Alpha and rho) and the abscissa line
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static double |
calculatePhaseDu(TwoWindingsTransformer twoWindingsTransformer)
calculate the δu(%) for the phase regulation of the two windings transformer
du = 100 * (1 / ρmin – 1/ ρmax) / (number of taps - 1).
|
static double |
calculateSymmAngleDu(TwoWindingsTransformer twoWindingsTransformer)
Calculate the δu(%) for the angle regulation of the two windings transformer
This computation only work for an angle regulation with the type symmetrical
dU = 100 * (2*(tan(αmax/2) – tan(αmin/2))/(number of taps -1))
|
public static double calculatePhaseDu(TwoWindingsTransformer twoWindingsTransformer)
twoWindingsTransformer
- The TwoWindingsTransformers containing the RatioTapChanger we want to convertUctePhaseRegulation
public static double calculateSymmAngleDu(TwoWindingsTransformer twoWindingsTransformer)
twoWindingsTransformer
- The twoWindingsTransformer containing the PhaseTapChanger we want to convertUcteAngleRegulation
public static double calculateAsymmAngleDu(TwoWindingsTransformer twoWindingsTransformer)
twoWindingsTransformer
- The twoWindingsTransformer containing the PhaseTapChanger we want to convertUcteAngleRegulation
public static double calculateAsymmAngleTheta(TwoWindingsTransformer twoWindingsTransformer)
twoWindingsTransformer
- The twoWindingsTransformer containing the PhaseTapChanger we want to convertUcteAngleRegulation
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