Update Program file with Control PV and Control Constant
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d32ffc9696
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@ -229,11 +229,11 @@ internal static class Program
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SendSalimaxStateAlarm(currentSalimaxState, record);
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//record.ControlPvPower(record.Config.CurtailP);
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record.ControlConstants();
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record.ControlSystemState();
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record.ControlPvPower(record.Config.CurtailP);
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var essControl = record.ControlEss().WriteLine();
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record.EssControl = essControl;
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@ -477,6 +477,7 @@ internal static class Program
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var dcDevices = r.DcDc.Devices;
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var configFile = r.Config;
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var maxBatteryDischargingCurrentLive = 0.0;
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var devicesConfig = r.AcDc.Devices.All(d => d.Control.Ac.GridType == GridType.GridTied400V50Hz) ? configFile.GridTie : configFile.IslandMode; // TODO if any of the grid tie mode
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// This adapting the max discharging current to the current Active Strings
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if (r.Battery != null)
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@ -484,7 +485,7 @@ internal static class Program
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const Int32 stringsByBattery = 5;
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var numberOfBatteriesConfigured = r.Config.Devices.BatteryNodes.Length;
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var numberOfTotalStrings = stringsByBattery * numberOfBatteriesConfigured;
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var dischargingCurrentByString = configFile.MaxBatteryDischargingCurrent / numberOfTotalStrings;
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var dischargingCurrentByString = devicesConfig.DcDc.MaxBatteryDischargingCurrent / numberOfTotalStrings;
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var boolList = new List<Boolean>();
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@ -507,7 +508,6 @@ internal static class Program
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// TODO The discharging current is well calculated but not communicated to live. But Written in S3
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var devicesConfig = r.AcDc.Devices.All(d => d.Control.Ac.GridType == GridType.GridTied400V50Hz) ? configFile.GridTie : configFile.IslandMode; // TODO if any of the grid tie mode
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inverters.ForEach(d => d.Control.Dc.MaxVoltage = devicesConfig.AcDc.MaxDcLinkVoltage);
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inverters.ForEach(d => d.Control.Dc.MinVoltage = devicesConfig.AcDc.MinDcLinkVoltage);
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@ -519,12 +519,12 @@ internal static class Program
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dcDevices.ForEach(d => d.Control.DroopControl.LowerVoltage = devicesConfig.DcDc.LowerDcLinkVoltage);
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dcDevices.ForEach(d => d.Control.DroopControl.ReferenceVoltage = devicesConfig.DcDc.ReferenceDcLinkVoltage);
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dcDevices.ForEach(d => d.Control.CurrentControl.MaxBatteryChargingCurrent = configFile.MaxBatteryChargingCurrent);
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dcDevices.ForEach(d => d.Control.CurrentControl.MaxBatteryChargingCurrent = devicesConfig.DcDc.MaxBatteryChargingCurrent);
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dcDevices.ForEach(d => d.Control.CurrentControl.MaxBatteryDischargingCurrent = maxBatteryDischargingCurrentLive);
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dcDevices.ForEach(d => d.Control.MaxDcPower = configFile.MaxDcPower);
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dcDevices.ForEach(d => d.Control.MaxDcPower = devicesConfig.DcDc.MaxDcPower);
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dcDevices.ForEach(d => d.Control.VoltageLimits.MaxBatteryVoltage = configFile.MaxChargeBatteryVoltage);
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dcDevices.ForEach(d => d.Control.VoltageLimits.MinBatteryVoltage = configFile.MinDischargeBatteryVoltage);
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dcDevices.ForEach(d => d.Control.VoltageLimits.MaxBatteryVoltage = devicesConfig.DcDc.MaxChargeBatteryVoltage);
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dcDevices.ForEach(d => d.Control.VoltageLimits.MinBatteryVoltage = devicesConfig.DcDc.MinDischargeBatteryVoltage);
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dcDevices.ForEach(d => d.Control.ControlMode = DcControlMode.VoltageDroop);
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r.DcDc.ResetAlarms();
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@ -532,13 +532,12 @@ internal static class Program
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}
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// This will be used for provider throttling, this example is only for either 100% or 0 %
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private static void ControlPvPower(this StatusRecord r, Int16 exportLimit = 100)
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private static void ControlPvPower(this StatusRecord r, UInt16 exportLimit = 100)
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{
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UInt16 stableFactor = 500;
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const UInt16 stableFactor = 500;
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var inverters = r.AcDc.Devices;
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var dcDevices = r.DcDc.Devices;
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var configFile = r.Config;
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var systemProduction = inverters.Count * 25000;
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var systemProduction = inverters.Count * 25000; // this should be from to the PV
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var limitSystemProduction = systemProduction * exportLimit / 100;
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var devicesConfig = r.AcDc.Devices.All(d => d.Control.Ac.GridType == GridType.GridTied400V50Hz) ? configFile.GridTie : configFile.IslandMode; // TODO if any of the grid tie mode
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var targetReferenceVoltage = devicesConfig.AcDc.ReferenceDcLinkVoltage;
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@ -548,7 +547,7 @@ internal static class Program
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{
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exportLimit.WriteLine(" exportLimit");
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systemProduction.WriteLine(" systemProduction");
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limitSystemProduction.WriteLine(" limitSystemexport");
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limitSystemProduction.WriteLine(" limit System export");
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targetReferenceVoltage.WriteLine("targetReferenceVoltage");
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if (r.GridMeter?.Ac.Power.Active != null)
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@ -557,45 +556,26 @@ internal static class Program
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{
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"We are openning the window".WriteLine();
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r.Config.GridSetPoint = -limitSystemProduction + stableFactor;
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r.Config.GridSetPoint.WriteLine(" Grid set point");
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//r.Config.GridSetPoint = -limitSystemProduction + stableFactor;
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//r.Config.GridSetPoint.WriteLine(" Grid set point");
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var maxDcLinkVoltage = (UInt16)(r.Config.GridTie.AcDc.MaxDcLinkVoltage + 10);
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var minDcLinkVoltage = (UInt16)(r.Config.GridTie.AcDc.MinDcLinkVoltage - 10);
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var maxDcDcLinkVoltage = (UInt16)(r.Config.GridTie.DcDc.UpperDcLinkVoltage + 10);
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var minDcDcLinkVoltage = (UInt16)(r.Config.GridTie.DcDc.LowerDcLinkVoltage + 10);
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r.Config.GridTie.AcDc.MaxDcLinkVoltage = maxDcLinkVoltage;
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r.Config.GridTie.AcDc.MinDcLinkVoltage = minDcLinkVoltage;
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r.Config.GridTie.DcDc.UpperDcLinkVoltage = maxDcDcLinkVoltage;
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r.Config.GridTie.DcDc.LowerDcLinkVoltage = minDcDcLinkVoltage;
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maxDcLinkVoltage.WriteLine("maxDcLinkVoltage");
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minDcLinkVoltage.WriteLine("minxDcLinkVoltage");
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maxDcDcLinkVoltage.WriteLine("maxDcDcLinkVoltage");
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minDcDcLinkVoltage.WriteLine("minDcDcLinkVoltage");
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}
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else if (r.GridMeter.Ac.Power.Active > -limitSystemProduction + stableFactor * 2)
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else if (r.GridMeter.Ac.Power.Active > -limitSystemProduction + stableFactor * 4)
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{
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"We are closing the window".WriteLine();
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r.Config.GridSetPoint = -limitSystemProduction + stableFactor;
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r.Config.GridSetPoint.WriteLine(" Grid set point");
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//r.Config.GridSetPoint = -limitSystemProduction + stableFactor;
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//r.Config.GridSetPoint.WriteLine(" Grid set point");
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if ((r.Config.GridTie.AcDc.MaxDcLinkVoltage - r.Config.GridTie.AcDc.MinDcLinkVoltage) > 60)
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{
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var maxDcLinkVoltage = (UInt16)(r.Config.GridTie.AcDc.MaxDcLinkVoltage - 10);
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var minDcLinkVoltage = (UInt16)(r.Config.GridTie.AcDc.MinDcLinkVoltage + 10);
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var maxDcDcLinkVoltage = (UInt16)(r.Config.GridTie.DcDc.UpperDcLinkVoltage - 10);
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var minDcDcLinkVoltage = (UInt16)(r.Config.GridTie.DcDc.LowerDcLinkVoltage - 10);
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r.Config.GridTie.AcDc.MaxDcLinkVoltage = maxDcLinkVoltage;
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r.Config.GridTie.AcDc.MinDcLinkVoltage = minDcLinkVoltage;
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r.Config.GridTie.DcDc.UpperDcLinkVoltage = maxDcDcLinkVoltage;
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r.Config.GridTie.DcDc.LowerDcLinkVoltage = minDcDcLinkVoltage;
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maxDcLinkVoltage.WriteLine("maxDcLinkVoltage");
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minDcLinkVoltage.WriteLine("minxDcLinkVoltage");
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maxDcDcLinkVoltage.WriteLine("maxDcDcLinkVoltage");
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minDcDcLinkVoltage.WriteLine("minDcDcLinkVoltage");
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}
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else
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{
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@ -606,16 +586,14 @@ internal static class Program
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else
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{
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r.Config.GridTie.AcDc.MaxDcLinkVoltage.WriteLine("maxDcLinkVoltage");
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r.Config.GridTie.AcDc.MinDcLinkVoltage.WriteLine("minxDcLinkVoltage");
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r.Config.GridTie.DcDc.UpperDcLinkVoltage.WriteLine("maxDcDcLinkVoltage");
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r.Config.GridTie.DcDc.LowerDcLinkVoltage.WriteLine("minDcDcLinkVoltage");
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}
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}
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if (exportLimit == 100)
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{
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r.Config.GridSetPoint = 0;
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}
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//if (exportLimit == 100)
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//{
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// r.Config.GridSetPoint = 0;
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//}
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}
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}
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