UcteConverterHelper (powsybl 3.3.1 API)

java.lang.Object
- com.powsybl.ucte.converter.util.UcteConverterHelper

```
public final class UcteConverterHelper
extends Object
```
Author:

Abdelsalem HEDHILI <abdelsalem.hedhili at rte-france.com>

Method Summary

All Methods Static Methods Concrete Methods
Modifier and Type	Method and Description
`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)
`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
`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))

Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

- Method Detail
  - calculatePhaseDu
```
public 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).
    
    Parameters:
    
    twoWindingsTransformer - The TwoWindingsTransformers containing the RatioTapChanger we want to convert
    
    Returns:
    
    the δu needed to create a UctePhaseRegulation
  - calculateSymmAngleDu
```
public 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))
    
    Parameters:
    
    twoWindingsTransformer - The twoWindingsTransformer containing the PhaseTapChanger we want to convert
    
    Returns:
    
    the δu needed to create a UcteAngleRegulation
  - calculateAsymmAngleDu
```
public 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)
    
    Parameters:
    
    twoWindingsTransformer - The twoWindingsTransformer containing the PhaseTapChanger we want to convert
    
    Returns:
    
    the δu needed to create a UcteAngleRegulation
  - calculateAsymmAngleTheta
```
public 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
    
    Parameters:
    
    twoWindingsTransformer - The twoWindingsTransformer containing the PhaseTapChanger we want to convert
    
    Returns:
    
    the Θ needed to create a UcteAngleRegulation

Class UcteConverterHelper

Method Summary

Methods inherited from class java.lang.Object

Method Detail

calculatePhaseDu

calculateSymmAngleDu

calculateAsymmAngleDu

calculateAsymmAngleTheta