Innovenergy_trunk/csharp/Lib/Devices/Trumpf/TruConvertAc/Control/AcPowerControl.cs

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using InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.DataTypes;
using InnovEnergy.Lib.Units.Composite;
using InnovEnergy.Lib.Utils;
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using static System.Math;
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namespace InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.Control;
public class AcPowerControl
{
public AcPower L1
{
get
{
var s = _Self.PowerSetpointL1;
var cosPhi = _Self.CosPhiSetpointL1.Clamp(-1, 1);
var rpk = _Self.ReactivePowerKindL1;
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var phi = Acos(cosPhi) * (rpk == ReactivePowerKind.Inductive ? 1 : -1);
var sinPhi = Sin(phi);
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return new AcPower { Active = s * cosPhi, Reactive = s * sinPhi };
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}
set
{
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var s = value.Apparent;
var p = value.Active;
var q = value.Reactive;
_Self.PowerSetpointL1 = s;
_Self.CosPhiSetpointL1 = s == 0 ? 1 : p / s;
_Self.SinPhiSetpointL1 = s == 0 ? 0 : q / s;
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_Self.ReactivePowerKindL1 = value.Reactive >= 0
? ReactivePowerKind.Inductive
: ReactivePowerKind.Capacitive;
}
}
public AcPower L2
{
get
{
var s = _Self.PowerSetpointL2;
var cosPhi = _Self.CosPhiSetpointL2.Clamp(-1, 1);
var rpk = _Self.ReactivePowerKindL2;
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var phi = Acos(cosPhi) * (rpk == ReactivePowerKind.Inductive ? 1 : -1);
var sinPhi = Sin(phi);
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return new AcPower { Active = s * cosPhi, Reactive = s * sinPhi };
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}
set
{
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var s = value.Apparent;
var p = value.Active;
var q = value.Reactive;
_Self.PowerSetpointL2 = s;
_Self.CosPhiSetpointL2 = s == 0 ? 1 : p / s;
_Self.SinPhiSetpointL2 = s == 0 ? 0 : q / s;
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_Self.ReactivePowerKindL2 = value.Reactive >= 0
? ReactivePowerKind.Inductive
: ReactivePowerKind.Capacitive;
}
}
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public AcPower L3
{
get
{
var s = _Self.PowerSetpointL3;
var cosPhi = _Self.CosPhiSetpointL3.Clamp(-1, 1);
var rpk = _Self.ReactivePowerKindL3;
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var phi = Acos(cosPhi) * (rpk == ReactivePowerKind.Inductive ? 1 : -1);
var sinPhi = Sin(phi);
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return new AcPower { Active = s * cosPhi, Reactive = s * sinPhi };
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}
set
{
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var s = value.Apparent;
var p = value.Active;
var q = value.Reactive;
_Self.PowerSetpointL3 = s;
_Self.CosPhiSetpointL3 = s == 0 ? 1 : p / s;
_Self.SinPhiSetpointL3 = s == 0 ? 0 : q / s;
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_Self.ReactivePowerKindL3 = value.Reactive >= 0
? ReactivePowerKind.Inductive
: ReactivePowerKind.Capacitive;
}
}
internal AcPowerControl(AcDcRecord self) => _Self = self;
private readonly AcDcRecord _Self;
// public IEnumerator<AcPower> GetEnumerator()
// {
// yield return L1;
// yield return L2;
// yield return L3;
// }
//
// IEnumerator IEnumerable.GetEnumerator()
// {
// return GetEnumerator();
// }
}