Introduce VoltageRms and CurrentRms and use them where appropriate
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@ -1,7 +1,7 @@
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using InnovEnergy.Lib.Devices.Battery48TL;
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using InnovEnergy.Lib.Devices.Battery48TL.DataTypes;
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using InnovEnergy.Lib.Devices.Trumpf.TruConvertAc;
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using InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.DataTypes;
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using InnovEnergy.Lib.Time.Unix;
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using InnovEnergy.Lib.Units;
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using InnovEnergy.Lib.Utils;
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@ -9,7 +9,6 @@ namespace InnovEnergy.App.SaliMax.Ess;
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public static class Controller
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{
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private static readonly UnixTimeSpan MaxTimeWithoutEoc = UnixTimeSpan.FromDays(7); // TODO: move to config
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private static readonly Double BatteryHeatingPower = 200.0; // TODO: move to config
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public static EssMode SelectControlMode(this StatusRecord s)
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@ -105,12 +104,10 @@ public static class Controller
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private static EssControl LimitDischargePower(this EssControl control, StatusRecord s)
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{
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//var maxInverterDischargeDelta = s.ControlInverterPower(-s.Config.MaxInverterPower);
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var maxBatteryDischargeDelta = s.Battery.Devices.Sum(b => b.MaxDischargePower);
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var maxBatteryDischargeDelta = s.Battery?.Devices.Sum(b => b.MaxDischargePower) ?? 0;
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var keepMinSocLimitDelta = s.ControlBatteryPower(s.HoldMinSocPower());
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return control
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// .LimitDischargePower(maxInverterDischargeDelta, EssLimit.DischargeLimitedByInverterPower)
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.LimitDischargePower(maxBatteryDischargeDelta , EssLimit.DischargeLimitedByBatteryPower)
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.LimitDischargePower(keepMinSocLimitDelta , EssLimit.DischargeLimitedByMinSoc);
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}
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@ -133,15 +130,9 @@ public static class Controller
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};
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}
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private static Boolean HasPreChargeAlarm(this StatusRecord statusRecord)
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{
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return statusRecord.DcDc.Alarms.Contains(Lib.Devices.Trumpf.TruConvertDc.Status.AlarmMessage.DcDcPrecharge);
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}
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private static Boolean MustHeatBatteries(this StatusRecord s)
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{
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var batteries = s.Battery.Devices;
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var batteries = s.GetBatteries();
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if (batteries.Count <= 0)
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return true; // batteries might be there but BMS is without power
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@ -156,12 +147,11 @@ public static class Controller
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// This introduce a limit when we don't have communication with batteries
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// Otherwise the limit will be 0 and the batteries will be not heated
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var maxChargePower = s.Config.Devices.BatteryNodes.Length * BatteryHeatingPower;
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var batteries = s.GetBatteries();
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if (s.Battery.Devices.Count != 0)
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{
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maxChargePower = s.Battery.Devices.Sum(b => b.MaxChargePower);
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}
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var maxChargePower = batteries.Count == 0
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? s.Config.Devices.BatteryNodes.Length * BatteryHeatingPower
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: batteries.Sum(b => b.MaxChargePower);
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maxChargePower.W().ToDisplayString().WriteLine(" Max Charge Power");
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@ -186,12 +176,17 @@ public static class Controller
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private static Boolean MustReachMinSoc(this StatusRecord s)
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{
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var batteries = s.Battery.Devices;
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var batteries = s.GetBatteries();
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return batteries.Count > 0
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&& batteries.Any(b => b.Soc < s.Config.MinSoc);
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}
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private static IReadOnlyList<Battery48TlRecord> GetBatteries(this StatusRecord s)
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{
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return s.Battery?.Devices ?? Array.Empty<Battery48TlRecord>();
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}
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private static Boolean MustDoCalibrationCharge(this StatusRecord statusRecord)
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{
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@ -209,7 +204,7 @@ public static class Controller
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// no need to return false in case of EOC reached
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// because the BMS will set the Time Since TOC to 0 as soon a battery reach EOC
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// then Calibration Charge flag will be set false by the software
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return statusRecord.Battery.CalibrationChargeRequested;
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return statusRecord.Battery?.CalibrationChargeRequested ?? false;
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}
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@ -237,7 +232,7 @@ public static class Controller
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{
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return ControlPower
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(
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measurement: status.Battery.Devices.Sum(b => b.Dc.Power),
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measurement: status.GetBatteries().Sum(b => b.Dc.Power),
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target: targetBatteryPower,
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pConstant: status.Config.PConstant
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);
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@ -247,7 +242,7 @@ public static class Controller
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{
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// TODO: explain LowSOC curve
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var batteries = s.Battery.Devices;
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var batteries = s.GetBatteries();
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if (batteries.Count == 0)
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return Double.NegativeInfinity;
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@ -264,6 +259,7 @@ public static class Controller
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return error * pConstant;
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}
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// ReSharper disable once UnusedMember.Local, TODO
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private static Double ControlPowerWithIntegral(Double measurement, Double target, Double p, Double i)
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{
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var errorSum = 0; // this is must be sum of error
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@ -273,11 +269,4 @@ public static class Controller
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return ki + kp;
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}
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private static IEnumerable<InverterState> InverterStates(this AcDcDevicesRecord acDcStatus)
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{
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return acDcStatus
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.Devices
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.Select(d => d.Status.InverterState.Current);
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}
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}
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@ -388,8 +388,11 @@ public static class Topology
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);
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}
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private static TextBlock CreateAveragedBatteryBox(Battery48TlRecords bat)
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private static TextBlock CreateAveragedBatteryBox(Battery48TlRecords? bat)
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{
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if (bat is null)
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return TextBlock.AlignLeft("no battery").Box();
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var voltage = bat.Dc.Voltage.ToDisplayString();
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var soc = bat.Devices.Any() ? bat.Devices.Average(b => b.Soc).Percent().ToDisplayString() : "0";
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var current = bat.Dc.Current.ToDisplayString();
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@ -2,7 +2,6 @@ using System.Diagnostics.CodeAnalysis;
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using InnovEnergy.Lib.Devices.Battery48TL.DataTypes;
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using InnovEnergy.Lib.Units;
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using InnovEnergy.Lib.Units.Power;
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using InnovEnergy.Lib.Utils;
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using static InnovEnergy.Lib.Devices.Battery48TL.DataTypes.LedState;
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namespace InnovEnergy.Lib.Devices.Battery48TL;
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@ -29,11 +28,8 @@ public partial class Battery48TlRecord
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// Time since TOC is a counter from the last moment when the battery reached EOC
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// When The battery is full charged (reached EOC) the Time Since TOC is set to 0
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public UInt16 TimeSinceTOC => _TimeSinceToc;
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public Current BusCurrent => _BusCurrent;
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public Current HeatingCurrent => _BusCurrent - _CellsCurrent;
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public DcPower HeatingPower => HeatingCurrent * Dc.Voltage;
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public Boolean CalibrationChargeRequested => TimeSinceTOC > OneWeekInMinutes;
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@ -2,9 +2,9 @@
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using InnovEnergy.Lib.Devices.Trumpf.SystemControl.DataTypes;
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using InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.DataTypes;
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using InnovEnergy.Lib.Units.Composite;
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using static System.Math;
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using AlarmMessage = InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.DataTypes.AlarmMessage;
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using WarningMessage = InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.DataTypes.WarningMessage;
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using static System.Math;
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namespace InnovEnergy.Lib.Devices.Trumpf.TruConvertAc.Status;
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@ -77,30 +77,26 @@ public class AcDcStatus
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private AcPhase L1 => new()
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{
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Current = _Self.GridCurrentL1,
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Voltage = _Self.GridVoltageL1,
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Current = Abs(_Self.GridCurrentL1),
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Voltage = Abs(_Self.GridVoltageL1),
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Phi = Atan2(_Self.ReactivePowerL1, _Self.ActivePowerL1)
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};
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private AcPhase L2 => new()
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{
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Current = _Self.GridCurrentL2,
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Voltage = _Self.GridVoltageL2,
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Current = Abs(_Self.GridCurrentL2),
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Voltage = Abs(_Self.GridVoltageL2),
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Phi = Atan2(_Self.ReactivePowerL2, _Self.ActivePowerL2)
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};
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private AcPhase L3 => new()
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{
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Current = _Self.GridCurrentL3,
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Voltage = _Self.GridVoltageL3,
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Current = Abs(_Self.GridCurrentL3),
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Voltage = Abs(_Self.GridVoltageL3),
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Phi = Atan2(_Self.ReactivePowerL3, _Self.ActivePowerL3)
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};
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internal AcDcStatus(AcDcRecord self) => _Self = self;
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private readonly AcDcRecord _Self;
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}
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@ -4,8 +4,8 @@ namespace InnovEnergy.Lib.Units.Composite;
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public record AcPhase
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{
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public required Voltage Voltage { get; init; }
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public required Current Current { get; init; }
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public required VoltageRms Voltage { get; init; }
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public required CurrentRms Current { get; init; }
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public required Angle Phi { get; init; }
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public AcPower Power => new()
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@ -9,5 +9,4 @@ public sealed class Current : Unit
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public static implicit operator Current(Double d) => new Current(d);
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public static implicit operator Double(Current d) => d.Value;
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}
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@ -0,0 +1,15 @@
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namespace InnovEnergy.Lib.Units;
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public sealed class CurrentRms : Unit
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{
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public override String Symbol => "A~";
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public CurrentRms(Double value) : base(value)
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{
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if (value < 0)
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throw new ArgumentException("RMS value cannot be negative", nameof(value));
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}
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public static implicit operator CurrentRms(Double d) => new CurrentRms(d);
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public static implicit operator Double(CurrentRms d) => d.Value;
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}
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@ -6,6 +6,8 @@ public sealed class ApparentPower : Power
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public ApparentPower(Double value) : base(value)
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{
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if (value < 0)
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throw new ArgumentException($"{nameof(ApparentPower)} cannot be negative by definition.", nameof(value));
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}
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public static implicit operator ApparentPower(Double d) => new ApparentPower(d);
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@ -1,12 +1,10 @@
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namespace InnovEnergy.Lib.Units;
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public sealed class Voltage : Unit
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{
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public override String Symbol => "V";
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public Voltage(Double value) : base(value)
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{}
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public Voltage(Double value) : base(value) {}
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public static implicit operator Voltage(Double d) => new Voltage(d);
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public static implicit operator Double(Voltage d) => d.Value;
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@ -0,0 +1,16 @@
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namespace InnovEnergy.Lib.Units;
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public sealed class VoltageRms : Unit
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{
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public override String Symbol => "V~";
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public VoltageRms(Double value) : base(value)
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{
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if (value < 0)
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throw new ArgumentException("RMS value cannot be negative", nameof(value));
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}
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public static implicit operator VoltageRms(Double d) => new VoltageRms(d);
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public static implicit operator Double(VoltageRms d) => d.Value;
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}
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