use of io.openems.impl.protocol.modbus.internal.UnsignedDoublewordElement in project openems by OpenEMS.
the class Bem125ktla01Ess method defineModbusProtocol.
/*
* Methods
*/
@Override
protected ModbusProtocol defineModbusProtocol() throws ConfigException {
ModbusProtocol protocol = new //
ModbusProtocol(new //
ModbusRegisterRange(//
0x0100, new //
UnsignedWordElement(//
0x100, //
new ModbusBitWrappingChannel("SysAlarmInfo", this, this.thingState).warningBit(0, //
WarningEss.WarningState).warningBit(1, //
WarningEss.ProtectionState).warningBit(2, //
WarningEss.DeratingState).warningBit(3, //
WarningEss.ChargeForbidden).warningBit(4, //
WarningEss.DischargeForbidden)), new //
UnsignedWordElement(//
0x101, sysWorkStatus = //
new ModbusReadLongChannel("SysWorkStatus", this).label(1, //
"Initial").label(2, //
"Fault").label(4, //
"Stop").label(8, //
"Hot Standby").label(16, //
"Monitoring").label(32, //
"Standby").label(64, //
"Operation").label(128, //
"Debug")), new //
UnsignedWordElement(//
0x102, sysControlMode = //
new ModbusReadLongChannel("SysControlMode", this).label(1, //
"Remote").label(2, //
"Local")), new DummyElement(0x103)), new //
ModbusRegisterRange(//
0x0110, new //
UnsignedWordElement(//
0x110, //
new ModbusBitWrappingChannel("SysAlarmInfo", this, thingState).warningBit(1, // Status abnormal of AC surge protector
WarningEss.StatusAbnormalOfACSurgeProtector).warningBit(2, // Close of control switch
WarningEss.CloseOfControlSwitch).warningBit(3, // Emergency stop
WarningEss.EmergencyStop).warningBit(5, // Status_abnormal_of_frog_detector
WarningEss.StatusAbnormalOfFrogDetector).warningBit(6, // Serious_leakage
WarningEss.SeriousLeakage).warningBit(7, // Normal_leakage
WarningEss.NormalLeakage)), new //
UnsignedWordElement(//
0x111, //
new ModbusBitWrappingChannel("SysAlarmInfo2", this, thingState).warningBit(0, // Failure of temperature sensor in control cabinet
WarningEss.FailureOfTemperatureSensorInControlCabinet).warningBit(9, // Failure_of_humidity_sensor_in_control_cabinet
WarningEss.FailureOfHumiditySensorInControlCabinet).warningBit(12, // Failure_of_storage_device
WarningEss.FailureOfStorageDevice).warningBit(13, // Exceeding_of_humidity_in_control_cabinet
WarningEss.ExceedingOfHumidityInControlCabinet))), new ModbusRegisterRange(0x1300, new //
UnsignedWordElement(//
0x1300, batteryStackVoltage = new ModbusReadLongChannel("BatteryStackVoltage", this).multiplier(2).unit("mV")), new //
UnsignedWordElement(//
0x1301, batteryStackCurrent = new ModbusReadLongChannel("BatteryStackCurrent", this).multiplier(2).unit("mA")), new //
UnsignedWordElement(//
0x1302, batteryStackPower = new ModbusReadLongChannel("BatteryStackPower", this).multiplier(2).unit("W")), new //
UnsignedWordElement(//
0x1303, batteryStackSoc = soc = new ModbusReadLongChannel("BatteryStackSoc", this).unit("%")), new //
UnsignedWordElement(//
0x1304, batteryStackSoh = new ModbusReadLongChannel("BatteryStackSoh", this).unit("%")), new //
UnsignedWordElement(//
0x1305, batteryStackMaxChargeCurrent = new ModbusReadLongChannel("BatteryStackMaxChargeCurrent", this).multiplier(2).unit("mA")), new //
UnsignedWordElement(//
0x1306, batteryStackMaxDischargeCurrent = new ModbusReadLongChannel("BatteryStackMaxDischargeCurrent", this).multiplier(2).unit("mA")), new //
UnsignedWordElement(//
0x1307, batteryStackMaxChargePower = new ModbusReadLongChannel("BatteryStackMaxChargePower", this).multiplier(2).unit("W")), new //
UnsignedWordElement(//
0x1308, batteryStackMaxDischargePower = new ModbusReadLongChannel("BatteryStackMaxDischargePower", this).multiplier(2).unit("W")), new //
UnsignedWordElement(//
0x1309, batteryStackTotalCapacity = new ModbusReadLongChannel("BatteryStackTotalCapacity", this).unit("Wh")), new //
UnsignedDoublewordElement(//
0x130A, batteryStackTotalCharge = new ModbusReadLongChannel("BatteryStackTotalCharge", this).unit("kWh")), new //
UnsignedDoublewordElement(//
0x130C, batteryStackTotalDischarge = new ModbusReadLongChannel("BatteryStackTotalDischarge", this).unit("kWh"))));
this.power = new SymmetricPowerImpl(125000, setActivePower, setReactivePower, getParent().getBridge());
return protocol;
}
use of io.openems.impl.protocol.modbus.internal.UnsignedDoublewordElement in project openems by OpenEMS.
the class FeneconCommercialCharger method defineModbusProtocol.
/*
* Methods
*/
@Override
protected ModbusProtocol defineModbusProtocol() throws ConfigException {
ModbusProtocol protocol = new //
ModbusProtocol(new WriteableModbusRegisterRange(0x0503, new UnsignedWordElement(0x0503, pvPowerLimitCommand = new ModbusWriteLongChannel("PvPowerLimitCommand", this).multiplier(2).unit("W"))), new //
ModbusRegisterRange(//
0xA000, new UnsignedWordElement(0xA000, bmsDCDCWorkState = //
new ModbusReadLongChannel("BmsDCDCWorkState", this).label(2, //
"Initial").label(4, //
"Stop").label(8, //
"Ready").label(16, //
"Running").label(32, //
"Fault").label(64, //
"Debug").label(128, "Locked")), new UnsignedWordElement(0xA001, bmsDCDCWorkMode = //
new ModbusReadLongChannel("BmsDCDCWorkMode", this).label(128, //
"Constant Current").label(256, //
"Constant Voltage").label(512, "Boost MPPT"))), new //
ModbusRegisterRange(//
0xA100, new //
UnsignedWordElement(//
0xA100, //
new ModbusBitWrappingChannel("BmsDCDCSuggestiveInformation1", this, this.thingState).warningBit(0, //
WarningCharger.CurrentSamplingChannelAbnormityOnHighVoltageSide).warningBit(1, //
WarningCharger.CurrentSamplingChannelAbnormityOnLowVoltageSide).warningBit(6, //
WarningCharger.EEPROMParametersOverRange).warningBit(7, //
WarningCharger.UpdateEEPROMFailed).warningBit(8, //
WarningCharger.ReadEEPROMFailed).warningBit(9, //
WarningCharger.CurrentSamplingChannelAbnormityBeforeInductance)), new //
UnsignedWordElement(//
0xA101, //
new ModbusBitWrappingChannel("BmsDCDCSuggestiveInformation2", this, this.thingState).warningBit(0, //
WarningCharger.ReactorPowerDecreaseCausedByOvertemperature).warningBit(1, //
WarningCharger.IGBTPowerDecreaseCausedByOvertemperature).warningBit(2, //
WarningCharger.TemperatureChanel3PowerDecreaseCausedByOvertemperature).warningBit(3, //
WarningCharger.TemperatureChanel4PowerDecreaseCausedByOvertemperature).warningBit(4, //
WarningCharger.TemperatureChanel5PowerDecreaseCausedByOvertemperature).warningBit(5, //
WarningCharger.TemperatureChanel6PowerDecreaseCausedByOvertemperature).warningBit(6, //
WarningCharger.TemperatureChanel7PowerDecreaseCausedByOvertemperature).warningBit(7, //
WarningCharger.TemperatureChanel8PowerDecreaseCausedByOvertemperature).warningBit(8, //
WarningCharger.Fan1StopFailed).warningBit(9, //
WarningCharger.Fan2StopFailed).warningBit(10, //
WarningCharger.Fan3StopFailed).warningBit(11, //
WarningCharger.Fan4StopFailed).warningBit(12, //
WarningCharger.Fan1StartupFailed).warningBit(13, //
WarningCharger.Fan2StartupFailed).warningBit(14, //
WarningCharger.Fan3StartupFailed).warningBit(15, //
WarningCharger.Fan4StartupFailed)), new //
UnsignedWordElement(//
0xA102, //
new ModbusBitWrappingChannel("BmsDCDCSuggestiveInformation3", this, this.thingState).warningBit(0, //
WarningCharger.HighVoltageSideOvervoltage).warningBit(1, //
WarningCharger.HighVoltageSideUndervoltage).warningBit(2, //
WarningCharger.HighVoltageSideVoltageChangeUnconventionally)), new //
UnsignedWordElement(//
0xA103, //
new ModbusBitWrappingChannel("BmsDCDCSuggestiveInformation4", this, this.thingState).warningBit(0, WarningCharger.CurrentAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(1, WarningCharger.CurrentAbnormityBeforeDCConverterWorkOnLowVoltageSXide).warningBit(2, WarningCharger.InitialDutyRatioAbnormityBeforeDCConverterWork).warningBit(3, WarningCharger.VoltageAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(4, WarningCharger.VoltageAbnormityBeforeDCConverterWorkOnLowVoltageSide)), new UnsignedWordElement(0xA104, //
new ModbusBitWrappingChannel("BmsDCDCSuggestiveInformation5", this, this.thingState).warningBit(0, //
WarningCharger.HighVoltageBreakerInspectionAbnormity).warningBit(1, //
WarningCharger.LowVoltageBreakerInspectionAbnormity).warningBit(2, //
WarningCharger.BsmDCDC5DCPrechargeContactorInspectionAbnormity).warningBit(3, //
WarningCharger.DCPrechargeContactorOpenUnsuccessfully).warningBit(4, //
WarningCharger.DCMainContactorInspectionAbnormity).warningBit(5, //
WarningCharger.DCMainContactorOpenUnsuccessfully).warningBit(6, //
WarningCharger.OutputContactorCloseUnsuccessfully).warningBit(7, //
WarningCharger.OutputContactorOpenUnsuccessfully).warningBit(8, //
WarningCharger.ACMainContactorCloseUnsuccessfully).warningBit(9, //
WarningCharger.ACMainContactorOpenUnsuccessfully).warningBit(10, //
WarningCharger.NegContactorOpenUnsuccessfully).warningBit(11, //
WarningCharger.NegContactorCloseUnsuccessfully).warningBit(12, //
WarningCharger.NegContactorStateAbnormal)), new DummyElement(0xA105, 0xA10F), new //
UnsignedWordElement(//
0xA110, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity1", this, this.thingState).faultBit(0, //
FaultCharger.HighVoltageSideOfDCConverterUndervoltage).faultBit(1, //
FaultCharger.HighVoltageSideOfDCConverterOvervoltage).faultBit(2, //
FaultCharger.LowVoltageSideOfDCConverterUndervoltage).faultBit(3, //
FaultCharger.LowVoltageSideOfDCConverterOvervoltage).faultBit(4, //
FaultCharger.HighVoltageSideOfDCConverterOvercurrentFault).faultBit(5, //
FaultCharger.LowVoltageSideOfDCConverterOvercurrentFault).faultBit(6, //
FaultCharger.DCConverterIGBTFault).faultBit(7, //
FaultCharger.DCConverterPrechargeUnmet)), new UnsignedWordElement(0xA111, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity2", this, this.thingState).faultBit(0, //
FaultCharger.BECUCommunicationDisconnected).faultBit(1, //
FaultCharger.DCConverterCommunicationDisconnected).faultBit(2, //
FaultCharger.CurrentConfigurationOverRange).faultBit(3, //
FaultCharger.TheBatteryRequestStop).faultBit(5, //
FaultCharger.OvercurrentRelayFault).faultBit(6, //
FaultCharger.LightningProtectionDeviceFault).faultBit(7, //
FaultCharger.DCConverterPriamaryContactorDisconnectedAbnormally).faultBit(9, //
FaultCharger.DCDisconnectedAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(12, //
FaultCharger.DCConvetorEEPROMAbnormity1).faultBit(13, //
FaultCharger.DCConvetorEEPROMAbnormity1Second).faultBit(14, //
FaultCharger.EDCConvetorEEPROMAbnormity1)), new //
UnsignedWordElement(//
0xA112, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity3", this, this.thingState).faultBit(0, //
FaultCharger.DCConvertorGeneralOverload).faultBit(1, //
FaultCharger.DCShortCircuit).faultBit(2, //
FaultCharger.PeakPulseCurrentProtection).faultBit(3, //
FaultCharger.DCDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(4, //
FaultCharger.EffectivePulseValueOverhigh).faultBit(5, //
FaultCharger.DCConverteSevereOverload).faultBit(6, //
FaultCharger.DCBreakerDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(7, //
FaultCharger.DCBreakerDisconnectAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(8, //
FaultCharger.DCConvetorPrechargeContactorCloseFailed).faultBit(9, //
FaultCharger.DCConvetorMainContactorCloseFailed).faultBit(10, //
FaultCharger.ACContactorStateAbnormityOfDCConvetor).faultBit(11, //
FaultCharger.DCConvetorEmergencyStop).faultBit(12, //
FaultCharger.DCConverterChargingGunDisconnected).faultBit(13, //
FaultCharger.DCCurrentAbnormityBeforeDCConvetorWork).faultBit(14, //
FaultCharger.FuSeDisconnected).faultBit(15, //
FaultCharger.DCConverterHardwareCurrentOrVoltageFault)), new //
UnsignedWordElement(//
0xA113, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity4", this, this.thingState).faultBit(0, //
FaultCharger.DCConverterCrystalOscillatorCircuitInvalidation).faultBit(1, //
FaultCharger.DCConverterResetCircuitInvalidation).faultBit(2, //
FaultCharger.DCConverterSamplingCircuitInvalidation).faultBit(3, //
FaultCharger.DCConverterDigitalIOCircuitInvalidation).faultBit(4, //
FaultCharger.DCConverterPWMCircuitInvalidation).faultBit(5, //
FaultCharger.DCConverterX5045CircuitInvalidation).faultBit(6, //
FaultCharger.DCConverterCANCircuitInvalidation).faultBit(7, //
FaultCharger.DCConverterSoftwareANDHardwareProtectionCircuitInvalidation).faultBit(8, //
FaultCharger.DCConverterPowerCircuitInvalidation).faultBit(9, //
FaultCharger.DCConverterCPUInvalidation).faultBit(10, //
FaultCharger.DCConverterTINT0InterruptInvalidation).faultBit(11, //
FaultCharger.DCConverterADCInterruptInvalidation).faultBit(12, //
FaultCharger.DCConverterCAPITN4InterruptInvalidation).faultBit(13, //
FaultCharger.DCConverterCAPINT6InterruptInvalidation).faultBit(14, //
FaultCharger.DCConverterT3PINTinterruptInvalidation).faultBit(15, //
FaultCharger.DCConverterT4PINTinterruptInvalidation)), new //
UnsignedWordElement(//
0xA114, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity5", this, this.thingState).faultBit(0, //
FaultCharger.DCConverterPDPINTAInterruptInvalidation).faultBit(1, //
FaultCharger.DCConverterT1PINTInterruptInvalidation).faultBit(2, //
FaultCharger.DCConverterRESVInterruptInvalidation).faultBit(3, //
FaultCharger.DCConverter100usTaskInvalidation).faultBit(4, //
FaultCharger.DCConverterClockInvalidation).faultBit(5, //
FaultCharger.DCConverterEMSMemoryInvalidation).faultBit(6, //
FaultCharger.DCConverterExteriorCommunicationInvalidation).faultBit(7, //
FaultCharger.DCConverterIOInterfaceInvalidation).faultBit(8, //
FaultCharger.DCConverterInputVoltageBoundFault).faultBit(9, //
FaultCharger.DCConverterOutterVoltageBoundFault).faultBit(10, //
FaultCharger.DCConverterOutputVoltageBoundFault).faultBit(11, //
FaultCharger.DCConverterInductCurrentBoundFault).faultBit(12, //
FaultCharger.DCConverterInputCurrentBoundFault).faultBit(13, //
FaultCharger.DCConverterOutputCurrentBoundFault)), new //
UnsignedWordElement(//
0xA115, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity6", this, this.thingState).faultBit(0, //
FaultCharger.DCReactorOverTemperature).faultBit(1, //
FaultCharger.DCIGBTOverTemperature).faultBit(2, //
FaultCharger.DCConverterChanel3OverTemperature).faultBit(3, //
FaultCharger.DCConverterChanel4OverTemperature).faultBit(4, //
FaultCharger.DCConverterChanel5OverTemperature).faultBit(5, //
FaultCharger.DCConverterChanel6OverTemperature).faultBit(6, //
FaultCharger.DCConverterChanel7OverTemperature).faultBit(7, //
FaultCharger.DCConverterChanel8OverTemperature).faultBit(8, //
FaultCharger.DCReactorTemperatureSamplingInvalidation).faultBit(9, //
FaultCharger.DCIGBTTemperatureSamplingInvalidation).faultBit(10, //
FaultCharger.DCConverterChanel3TemperatureSamplingInvalidation).faultBit(11, //
FaultCharger.DCConverterChanel4TemperatureSamplingInvalidation).faultBit(12, //
FaultCharger.DCConverterChanel5TemperatureSamplingInvalidation).faultBit(13, //
FaultCharger.DCConverterChanel6TemperatureSamplingInvalidation).faultBit(14, //
FaultCharger.DCConverterChanel7TemperatureSamplingInvalidation).faultBit(15, //
FaultCharger.DCConverterChanel8TemperatureSamplingInvalidation)), new UnsignedWordElement(0xA116, //
new ModbusBitWrappingChannel("BmsDCDCAbnormity7", this, this.thingState).faultBit(4, //
FaultCharger.DCConverterInductanceCurrentSamplingInvalidation).faultBit(5, //
FaultCharger.CurrentSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(6, //
FaultCharger.VoltageSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(7, //
FaultCharger.InsulationInspectionFault).faultBit(8, //
FaultCharger.NegContactorCloseUnsuccessly).faultBit(9, //
FaultCharger.NegContactorCutWhenRunning)), new DummyElement(0xA117, 0xA11F), new UnsignedWordElement(0xA120, bmsDCDCSwitchState = //
new StatusBitChannel("BmsDCDCSwitchState", this).label(1, //
"DC precharge contactor").label(2, //
"DC main contactor").label(4, //
"Output contactor").label(8, //
"Output breaker").label(16, //
"Input breaker").label(32, //
"AC contactor").label(64, //
"Emergency stop button").label(128, "NegContactor"))), new //
ModbusRegisterRange(//
0xA130, new SignedWordElement(0xA130, bmsDCDCOutputVoltage = new ModbusReadLongChannel("BmsDCDCOutputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA131, bmsDCDCOutputCurrent = new ModbusReadLongChannel("BmsDCDCOutputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA132, bmsDCDCOutputPower = new ModbusReadLongChannel("BmsDCDCOutputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA133, bmsDCDCInputVoltage = new ModbusReadLongChannel("BmsDCDCInputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA134, bmsDCDCInputCurrent = new ModbusReadLongChannel("BmsDCDCInputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA135, bmsDCDCInputPower = new ModbusReadLongChannel("BmsDCDCInputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA136, bmsDCDCInputEnergy = new ModbusReadLongChannel("BmsDCDCInputEnergy", this).unit("Wh").multiplier(2)), new SignedWordElement(0xA137, bmsDCDCOutputEnergy = new ModbusReadLongChannel("BmsDCDCOutputEnergy", this).unit("Wh").multiplier(2)), new DummyElement(0xA138, 0xA13F), new SignedWordElement(0xA140, bmsDCDCReactorTemperature = new ModbusReadLongChannel("BmsDCDCReactorTemperature", this).unit("°C")), new SignedWordElement(0xA141, bmsDCDCIgbtTemperature = new ModbusReadLongChannel("BmsDCDCIgbtTemperature", this).unit("°C")), new DummyElement(0xA142, 0xA14F), new UnsignedDoublewordElement(0xA150, bmsDCDCInputTotalChargeEnergy = new ModbusReadLongChannel("BmsDCDCInputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA152, bmsDCDCInputTotalDischargeEnergy = new ModbusReadLongChannel("BmsDCDCInputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA154, bmsDCDCOutputTotalChargeEnergy = new ModbusReadLongChannel("BmsDCDCOutputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA156, bmsDCDCOutputTotalDischargeEnergy = new ModbusReadLongChannel("BmsDCDCOutputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW)), new //
ModbusRegisterRange(//
0xA300, new UnsignedWordElement(0xA300, bmsDCDC1WorkState = //
new ModbusReadLongChannel("BmsDCDC1WorkState", this).label(2, //
"Initial").label(4, //
"Stop").label(8, //
"Ready").label(16, //
"Running").label(32, //
"Fault").label(64, //
"Debug").label(128, "Locked")), new UnsignedWordElement(0xA301, bmsDCDC1WorkMode = //
new ModbusReadLongChannel("BmsDCDC1WorkMode", this).label(128, //
"Constant Current").label(256, //
"Constant Voltage").label(512, "Boost MPPT"))), new //
ModbusRegisterRange(//
0xA400, new //
UnsignedWordElement(//
0xA400, // used BsmDCDC1 as prefix on each one if it is used before
//
new ModbusBitWrappingChannel("BmsDCDC1SuggestiveInformation1", this, this.thingState).warningBit(0, //
WarningCharger.BsmDCDC1CurrentSamplingChannelAbnormityOnHighVoltageSide).warningBit(1, //
WarningCharger.BsmDCDC1CurrentSamplingChannelAbnormityOnLowVoltageSide).warningBit(6, //
WarningCharger.BmsDCDC1EEPROMParametersOverRange).warningBit(7, //
WarningCharger.BsmDCDC1UpdateEEPROMFailed).warningBit(8, //
WarningCharger.BsmDCDC1ReadEEPROMFailed).warningBit(9, //
WarningCharger.BsmDCDC1CurrentSamplingChannelAbnormityBeforeInductance)), new //
UnsignedWordElement(//
0xA401, // Prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1SuggestiveInformation2", this, this.thingState).warningBit(0, //
WarningCharger.BsmDCDC1ReactorPowerDecreaseCausedByOvertemperature).warningBit(1, //
WarningCharger.BsmDCDC1IGBTPowerDecreaseCausedByOvertemperature).warningBit(2, //
WarningCharger.BsmDCDC1TemperatureChanel3PowerDecreaseCausedByOvertemperature).warningBit(3, //
WarningCharger.BsmDCDC1TemperatureChanel4PowerDecreaseCausedByOvertemperature).warningBit(4, //
WarningCharger.BsmDCDC1TemperatureChanel5PowerDecreaseCausedByOvertemperature).warningBit(5, //
WarningCharger.BsmDCDC1TemperatureChanel6PowerDecreaseCausedByOvertemperature).warningBit(6, //
WarningCharger.BsmDCDC1TemperatureChanel7PowerDecreaseCausedByOvertemperature).warningBit(7, //
WarningCharger.BsmDCDC1TemperatureChanel8PowerDecreaseCausedByOvertemperature).warningBit(8, //
WarningCharger.BsmDCDC1Fan1StopFailed).warningBit(9, //
WarningCharger.BsmDCDC1Fan2StopFailed).warningBit(10, //
WarningCharger.BsmDCDC1Fan3StopFailed).warningBit(11, //
WarningCharger.BsmDCDC1Fan4StopFailed).warningBit(12, //
WarningCharger.BsmDCDC1Fan1StartupFailed).warningBit(13, //
WarningCharger.BsmDCDC1Fan2StartupFailed).warningBit(14, //
WarningCharger.BsmDCDC1Fan3StartupFailed).warningBit(15, //
WarningCharger.BsmDCDC1Fan4StartupFailed)), //
new //
UnsignedWordElement(//
0xA402, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1SuggestiveInformation3", this, this.thingState).warningBit(0, //
WarningCharger.BsmDCDC1HighVoltageSideOvervoltage).warningBit(1, //
WarningCharger.BsmDCDC1HighVoltageSideUndervoltage).warningBit(2, //
WarningCharger.BsmDCDC1HighVoltageSideVoltageChangeUnconventionally)), new //
UnsignedWordElement(//
0xA403, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1SuggestiveInformation4", this, this.thingState).warningBit(0, WarningCharger.BmsDCDC1CurrentAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(1, WarningCharger.BmsDCDC1CurrentAbnormityBeforeDCConverterWorkOnLowVoltageSXide).warningBit(2, WarningCharger.BmsDCDC1InitialDutyRatioAbnormityBeforeDCConverterWork).warningBit(3, WarningCharger.BmsDCDC1VoltageAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(4, WarningCharger.BmsDCDC1VoltageAbnormityBeforeDCConverterWorkOnLowVoltageSide)), new //
UnsignedWordElement(//
0xA404, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1SuggestiveInformation5", this, this.thingState).warningBit(0, //
WarningCharger.BmsDCDC1HighVoltageBreakerInspectionAbnormity).warningBit(1, //
WarningCharger.BmsDCDC1LowVoltageBreakerInspectionAbnormity).warningBit(2, //
WarningCharger.BmsDCDC1BsmDCDC5DCPrechargeContactorInspectionAbnormity).warningBit(3, //
WarningCharger.BmsDCDC1DCPrechargeContactorOpenUnsuccessfully).warningBit(4, //
WarningCharger.BmsDCDC1DCMainContactorInspectionAbnormity).warningBit(5, //
WarningCharger.BmsDCDC1DCMainContactorOpenUnsuccessfully).warningBit(6, //
WarningCharger.BmsDCDC1OutputContactorCloseUnsuccessfully).warningBit(7, //
WarningCharger.BmsDCDC1OutputContactorOpenUnsuccessfully).warningBit(8, //
WarningCharger.BmsDCDC1ACMainContactorCloseUnsuccessfully).warningBit(9, //
WarningCharger.BmsDCDC1ACMainContactorOpenUnsuccessfully).warningBit(10, //
WarningCharger.BmsDCDC1NegContactorOpenUnsuccessfully).warningBit(11, //
WarningCharger.BmsDCDC1NegContactorCloseUnsuccessfully).warningBit(12, //
WarningCharger.BmsDCDC1NegContactorStateAbnormal)), new DummyElement(0xA405, 0xA40F), new UnsignedWordElement(0xA410, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity1", this, this.thingState).faultBit(0, //
FaultCharger.BmsDCDC1HighVoltageSideOfDCConverterUndervoltage).faultBit(1, //
FaultCharger.BmsDCDC1HighVoltageSideOfDCConverterOvervoltage).faultBit(2, //
FaultCharger.BmsDCDC1LowVoltageSideOfDCConverterUndervoltage).faultBit(3, //
FaultCharger.BmsDCDC1LowVoltageSideOfDCConverterOvervoltage).faultBit(4, //
FaultCharger.BmsDCDC1HighVoltageSideOfDCConverterOvercurrentFault).faultBit(5, //
FaultCharger.BmsDCDC1LowVoltageSideOfDCConverterOvercurrentFault).faultBit(6, //
FaultCharger.BmsDCDC1DCConverterIGBTFault).faultBit(7, //
FaultCharger.BmsDCDC1DCConverterPrechargeUnmet)), new UnsignedWordElement(0xA411, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity2", this, this.thingState).faultBit(0, //
FaultCharger.BmsDCDC1BECUCommunicationDisconnected).faultBit(1, //
FaultCharger.BmsDCDC1DCConverterCommunicationDisconnected).faultBit(2, //
FaultCharger.BmsDCDC1CurrentConfigurationOverRange).faultBit(3, //
FaultCharger.BmsDCDC1TheBatteryRequestStop).faultBit(5, //
FaultCharger.BmsDCDC1OvercurrentRelayFault).faultBit(6, //
FaultCharger.BmsDCDC1LightningProtectionDeviceFault).faultBit(7, //
FaultCharger.BmsDCDC1DCConverterPriamaryContactorDisconnectedAbnormally).faultBit(9, //
FaultCharger.BmsDCDC1DCDisconnectedAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(12, //
FaultCharger.BmsDCDC1DCConvetorEEPROMAbnormity1).faultBit(13, //
FaultCharger.BmsDCDC1DCConvetorEEPROMAbnormity1Second).faultBit(14, //
FaultCharger.BmsDCDC1EDCConvetorEEPROMAbnormity1)), new //
UnsignedWordElement(//
0xA412, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity3", this, this.thingState).faultBit(0, //
FaultCharger.BsmDCDC1DCConvertorGeneralOverload).faultBit(1, //
FaultCharger.BsmDCDC1DCShortCircuit).faultBit(2, //
FaultCharger.BsmDCDC1PeakPulseCurrentProtection).faultBit(3, //
FaultCharger.BsmDCDC1DCDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(4, //
FaultCharger.BsmDCDC1EffectivePulseValueOverhigh).faultBit(5, //
FaultCharger.BsmDCDC1DCConverteSevereOverload).faultBit(6, //
FaultCharger.BsmDCDC1DCBreakerDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(7, //
FaultCharger.BsmDCDC1DCBreakerDisconnectAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(8, //
FaultCharger.BsmDCDC1DCConvetorPrechargeContactorCloseFailed).faultBit(9, //
FaultCharger.BsmDCDC1DCConvetorMainContactorCloseFailed).faultBit(10, //
FaultCharger.BsmDCDC1ACContactorStateAbnormityOfDCConvetor).faultBit(11, //
FaultCharger.BsmDCDC1DCConvetorEmergencyStop).faultBit(12, //
FaultCharger.BsmDCDC1DCConverterChargingGunDisconnected).faultBit(13, //
FaultCharger.BsmDCDC1DCCurrentAbnormityBeforeDCConvetorWork).faultBit(14, //
FaultCharger.BsmDCDC1FuSeDisconnected).faultBit(15, //
FaultCharger.BsmDCDC1DCConverterHardwareCurrentOrVoltageFault)), new UnsignedWordElement(0xA413, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity4", this, this.thingState).faultBit(0, //
FaultCharger.BmsDCDC1DCConverterCrystalOscillatorCircuitInvalidation).faultBit(1, //
FaultCharger.BmsDCDC1DCConverterResetCircuitInvalidation).faultBit(2, //
FaultCharger.BmsDCDC1DCConverterSamplingCircuitInvalidation).faultBit(3, //
FaultCharger.BmsDCDC1DCConverterDigitalIOCircuitInvalidation).faultBit(4, //
FaultCharger.BmsDCDC1DCConverterPWMCircuitInvalidation).faultBit(5, //
FaultCharger.BmsDCDC1DCConverterX5045CircuitInvalidation).faultBit(6, //
FaultCharger.BmsDCDC1DCConverterCANCircuitInvalidation).faultBit(7, //
FaultCharger.BmsDCDC1DCConverterSoftwareANDHardwareProtectionCircuitInvalidation).faultBit(8, //
FaultCharger.BmsDCDC1DCConverterPowerCircuitInvalidation).faultBit(9, //
FaultCharger.BmsDCDC1DCConverterCPUInvalidation).faultBit(10, //
FaultCharger.BmsDCDC1DCConverterTINT0InterruptInvalidation).faultBit(11, //
FaultCharger.BmsDCDC1DCConverterADCInterruptInvalidation).faultBit(12, //
FaultCharger.BmsDCDC1DCConverterCAPITN4InterruptInvalidation).faultBit(13, //
FaultCharger.BmsDCDC1DCConverterCAPINT6InterruptInvalidation).faultBit(14, //
FaultCharger.BmsDCDC1DCConverterT3PINTinterruptInvalidation).faultBit(15, //
FaultCharger.BmsDCDC1DCConverterT4PINTinterruptInvalidation)), //
new UnsignedWordElement(0xA414, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity5", this, this.thingState).faultBit(0, //
FaultCharger.BmsDCDC1DCConverterPDPINTAInterruptInvalidation).faultBit(1, //
FaultCharger.BmsDCDC1DCConverterT1PINTInterruptInvalidationSecond).faultBit(2, //
FaultCharger.BmsDCDC1DCConverterRESVInterruptInvalidation).faultBit(3, //
FaultCharger.BmsDCDC1DCConverter100usTaskInvalidation).faultBit(4, //
FaultCharger.BmsDCDC1DCConverterClockInvalidation).faultBit(5, //
FaultCharger.BmsDCDC1DCConverterEMSMemoryInvalidation).faultBit(6, //
FaultCharger.BmsDCDC1DCConverterExteriorCommunicationInvalidation).faultBit(7, //
FaultCharger.BmsDCDC1DCConverterIOInterfaceInvalidation).faultBit(8, //
FaultCharger.BmsDCDC1DCConverterInputVoltageBoundFault).faultBit(9, //
FaultCharger.BmsDCDC1DCConverterOutterVoltageBoundFault).faultBit(10, //
FaultCharger.BmsDCDC1DCConverterOutputVoltageBoundFault).faultBit(11, //
FaultCharger.BmsDCDC1DCConverterInductCurrentBoundFault).faultBit(12, //
FaultCharger.BmsDCDC1DCConverterInputCurrentBoundFault).faultBit(13, //
FaultCharger.BmsDCDC1DCConverterOutputCurrentBoundFault)), //
new UnsignedWordElement(0xA415, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity6", this, this.thingState).faultBit(0, //
FaultCharger.BmsDCDC1DCReactorOverTemperature).faultBit(1, //
FaultCharger.BmsDCDC1DCIGBTOverTemperature).faultBit(2, //
FaultCharger.BmsDCDC1DCConverterChanel3OverTemperature).faultBit(3, //
FaultCharger.BmsDCDC1DCConverterChanel4OverTemperature).faultBit(4, //
FaultCharger.BmsDCDC1DCConverterChanel5OverTemperature).faultBit(5, //
FaultCharger.BmsDCDC1DCConverterChanel6OverTemperature).faultBit(6, //
FaultCharger.BmsDCDC1DCConverterChanel7OverTemperature).faultBit(7, //
FaultCharger.BmsDCDC1DCConverterChanel8OverTemperature).faultBit(8, //
FaultCharger.BmsDCDC1DCReactorTemperatureSamplingInvalidation).faultBit(9, //
FaultCharger.BmsDCDC1DCIGBTTemperatureSamplingInvalidation).faultBit(10, //
FaultCharger.BmsDCDC1DCConverterChanel3TemperatureSamplingInvalidation).faultBit(11, //
FaultCharger.BmsDCDC1DCConverterChanel4TemperatureSamplingInvalidation).faultBit(12, //
FaultCharger.BmsDCDC1DCConverterChanel5TemperatureSamplingInvalidation).faultBit(13, //
FaultCharger.BmsDCDC1DCConverterChanel6TemperatureSamplingInvalidation).faultBit(14, //
FaultCharger.BmsDCDC1DCConverterChanel7TemperatureSamplingInvalidation).faultBit(15, //
FaultCharger.BmsDCDC1DCConverterChanel8TemperatureSamplingInvalidation)), //
new UnsignedWordElement(0xA416, // prefix = "BsmDCDC1"
//
new ModbusBitWrappingChannel("BmsDCDC1Abnormity7", this, this.thingState).faultBit(4, //
FaultCharger.BmsDCDC1DCConverterInductanceCurrentSamplingInvalidation).faultBit(5, //
FaultCharger.BmsDCDC1CurrentSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(6, //
FaultCharger.BmsDCDC1VoltageSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(7, //
FaultCharger.BmsDCDC1InsulationInspectionFault).faultBit(8, //
FaultCharger.BmsDCDC1NegContactorCloseUnsuccessly).faultBit(9, //
FaultCharger.BmsDCDC1NegContactorCutWhenRunning)), //
new DummyElement(0xA417, 0xA41F), new UnsignedWordElement(0xA420, bmsDCDC1SwitchState = //
new StatusBitChannel("BmsDCDC1SwitchState", this).label(1, //
"DC precharge contactor").label(2, //
"DC main contactor").label(4, //
"Output contactor").label(8, //
"Output breaker").label(16, //
"Input breaker").label(32, //
"AC contactor").label(64, //
"Emergency stop button").label(128, "NegContactor"))), new //
ModbusRegisterRange(//
0xA430, new SignedWordElement(0xA430, bmsDCDC1OutputVoltage = new ModbusReadLongChannel("BmsDCDC1OutputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA431, bmsDCDC1OutputCurrent = new ModbusReadLongChannel("BmsDCDC1OutputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA432, bmsDCDC1OutputPower = new ModbusReadLongChannel("BmsDCDC1OutputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA433, bmsDCDC1InputVoltage = new ModbusReadLongChannel("BmsDCDC1InputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA434, bmsDCDC1InputCurrent = new ModbusReadLongChannel("BmsDCDC1InputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA435, bmsDCDC1InputPower = new ModbusReadLongChannel("BmsDCDC1InputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA436, bmsDCDC1InputEnergy = new ModbusReadLongChannel("BmsDCDC1InputEnergy", this).unit("Wh").multiplier(2)), new SignedWordElement(0xA437, bmsDCDC1OutputEnergy = new ModbusReadLongChannel("BmsDCDC1OutputEnergy", this).unit("Wh").multiplier(2)), new DummyElement(0xA438, 0xA43F), new SignedWordElement(0xA440, bmsDCDC1ReactorTemperature = new ModbusReadLongChannel("BmsDCDC1ReactorTemperature", this).unit("°C")), new SignedWordElement(0xA441, bmsDCDC1IgbtTemperature = new ModbusReadLongChannel("BmsDCDC1IgbtTemperature", this).unit("°C")), new DummyElement(0xA442, 0xA44F), new UnsignedDoublewordElement(0xA450, bmsDCDC1InputTotalChargeEnergy = new ModbusReadLongChannel("BmsDCDC1InputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA452, bmsDCDC1InputTotalDischargeEnergy = new ModbusReadLongChannel("BmsDCDC1InputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA454, bmsDCDC1OutputTotalChargeEnergy = new ModbusReadLongChannel("BmsDCDC1OutputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA456, bmsDCDC1OutputTotalDischargeEnergy = new ModbusReadLongChannel("BmsDCDC1OutputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW)), new //
ModbusRegisterRange(//
0xA600, new UnsignedWordElement(0xA600, pvDCDCWorkState = //
new ModbusReadLongChannel("PvDCDCWorkState", this).label(2, //
"Initial").label(4, //
"Stop").label(8, //
"Ready").label(16, //
"Running").label(32, //
"Fault").label(64, //
"Debug").label(128, "Locked")), new UnsignedWordElement(0xA601, pvDCDCWorkMode = //
new ModbusReadLongChannel("PvDCDCWorkMode", this).label(128, //
"Constant Current").label(256, //
"Constant Voltage").label(512, "Boost MPPT"))), new //
ModbusRegisterRange(//
0xA700, new //
UnsignedWordElement(//
0xA700, // prefix = "PvDCDC "
//
new ModbusBitWrappingChannel("PvDCDCSuggestiveInformation1", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDCCurrentSamplingChannelAbnormityOnHighVoltageSide).warningBit(1, //
WarningCharger.PvDCDCCurrentSamplingChannelAbnormityOnLowVoltageSide).warningBit(6, //
WarningCharger.PvDCDCEEPROMParametersOverRange).warningBit(7, //
WarningCharger.PvDCDCUpdateEEPROMFailed).warningBit(8, //
WarningCharger.PvDCDCReadEEPROMFailed).warningBit(9, //
WarningCharger.PvDCDCCurrentSamplingChannelAbnormityBeforeInductance)), new //
UnsignedWordElement(//
0xA701, // prefix = "PvDCDC "
//
new ModbusBitWrappingChannel("PvDCDCSuggestiveInformation2", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDCReactorPowerDecreaseCausedByOvertemperature).warningBit(1, //
WarningCharger.PvDCDCIGBTPowerDecreaseCausedByOvertemperature).warningBit(2, //
WarningCharger.PvDCDCTemperatureChanel3PowerDecreaseCausedByOvertemperature).warningBit(3, //
WarningCharger.PvDCDCTemperatureChanel4PowerDecreaseCausedByOvertemperature).warningBit(4, //
WarningCharger.PvDCDCTemperatureChanel5PowerDecreaseCausedByOvertemperature).warningBit(5, //
WarningCharger.PvDCDCTemperatureChanel6PowerDecreaseCausedByOvertemperature).warningBit(6, //
WarningCharger.PvDCDCTemperatureChanel7PowerDecreaseCausedByOvertemperature).warningBit(7, //
WarningCharger.PvDCDCTemperatureChanel8PowerDecreaseCausedByOvertemperature).warningBit(8, //
WarningCharger.PvDCDCFan1StopFailed).warningBit(9, //
WarningCharger.PvDCDCFan2StopFailed).warningBit(10, //
WarningCharger.PvDCDCFan3StopFailed).warningBit(11, //
WarningCharger.PvDCDCFan4StopFailed).warningBit(12, //
WarningCharger.PvDCDCFan1StartupFailed).warningBit(13, //
WarningCharger.PvDCDCFan2StartupFailed).warningBit(14, //
WarningCharger.PvDCDCFan3StartupFailed).warningBit(15, //
WarningCharger.PvDCDCFan4StartupFailed)), new //
UnsignedWordElement(//
0xA702, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCSuggestiveInformation3", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDCHighVoltageSideOvervoltage).warningBit(1, //
WarningCharger.PvDCDCHighVoltageSideUndervoltage).warningBit(2, //
WarningCharger.PvDCDCHighVoltageSideVoltageChangeUnconventionally)), new UnsignedWordElement(0xA703, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCSuggestiveInformation4", this, this.thingState).warningBit(0, WarningCharger.PvDCDCCurrentAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(1, WarningCharger.PvDCDCCurrentAbnormityBeforeDCConverterWorkOnLowVoltageSXide).warningBit(2, WarningCharger.PvDCDCInitialDutyRatioAbnormityBeforeDCConverterWork).warningBit(3, WarningCharger.PvDCDCVoltageAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(4, WarningCharger.PvDCDCVoltageAbnormityBeforeDCConverterWorkOnLowVoltageSide)), new //
UnsignedWordElement(//
0xA704, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCSuggestiveInformation5", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDCHighVoltageBreakerInspectionAbnormity).warningBit(1, //
WarningCharger.PvDCDCLowVoltageBreakerInspectionAbnormity).warningBit(2, //
WarningCharger.PvDCDCBsmDCDC5DCPrechargeContactorInspectionAbnormity).warningBit(3, //
WarningCharger.PvDCDCDCPrechargeContactorOpenUnsuccessfully).warningBit(4, //
WarningCharger.PvDCDCDCMainContactorInspectionAbnormity).warningBit(5, //
WarningCharger.PvDCDCDCMainContactorOpenUnsuccessfully).warningBit(6, //
WarningCharger.PvDCDCOutputContactorCloseUnsuccessfully).warningBit(7, //
WarningCharger.PvDCDCOutputContactorOpenUnsuccessfully).warningBit(8, //
WarningCharger.PvDCDCACMainContactorCloseUnsuccessfully).warningBit(9, //
WarningCharger.PvDCDCACMainContactorOpenUnsuccessfully).warningBit(10, //
WarningCharger.PvDCDCNegContactorOpenUnsuccessfully).warningBit(11, //
WarningCharger.PvDCDCNegContactorCloseUnsuccessfully).warningBit(12, //
WarningCharger.PvDCDCNegContactorStateAbnormal)), new DummyElement(0xA705, 0xA70F), new //
UnsignedWordElement(//
0xA710, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity1", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCHighVoltageSideOfDCConverterUndervoltage).faultBit(1, //
FaultCharger.PvDCDCHighVoltageSideOfDCConverterOvervoltage).faultBit(2, //
FaultCharger.PvDCDCLowVoltageSideOfDCConverterUndervoltage).faultBit(3, //
FaultCharger.PvDCDCLowVoltageSideOfDCConverterOvervoltage).faultBit(4, //
FaultCharger.PvDCDCHighVoltageSideOfDCConverterOvercurrentFault).faultBit(5, //
FaultCharger.PvDCDCLowVoltageSideOfDCConverterOvercurrentFault).faultBit(6, //
FaultCharger.PvDCDCDCConverterIGBTFault).faultBit(7, //
FaultCharger.PvDCDCDCConverterPrechargeUnmet)), new UnsignedWordElement(0xA711, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity2", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCBECUCommunicationDisconnected).faultBit(1, //
FaultCharger.PvDCDCDCConverterCommunicationDisconnected).faultBit(2, //
FaultCharger.PvDCDCCurrentConfigurationOverRange).faultBit(3, //
FaultCharger.PvDCDCTheBatteryRequestStop).faultBit(5, //
FaultCharger.PvDCDCOvercurrentRelayFault).faultBit(6, //
FaultCharger.PvDCDCLightningProtectionDeviceFault).faultBit(7, //
FaultCharger.PvDCDCDCConverterPriamaryContactorDisconnectedAbnormally).faultBit(9, //
FaultCharger.PvDCDCDCDisconnectedAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(12, //
FaultCharger.PvDCDCDCConvetorEEPROMAbnormity1).faultBit(13, //
FaultCharger.PvDCDCDCConvetorEEPROMAbnormity1Second).faultBit(14, //
FaultCharger.PvDCDCEDCConvetorEEPROMAbnormity1)), new //
UnsignedWordElement(//
0xA712, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity3", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCDCConvertorGeneralOverload).faultBit(1, //
FaultCharger.PvDCDCDCShortCircuit).faultBit(2, //
FaultCharger.PvDCDCPeakPulseCurrentProtection).faultBit(3, //
FaultCharger.PvDCDCDCDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(4, //
FaultCharger.PvDCDCEffectivePulseValueOverhigh).faultBit(5, //
FaultCharger.PvDCDCDCConverteSevereOverload).faultBit(6, //
FaultCharger.PvDCDCDCBreakerDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(7, //
FaultCharger.PvDCDCDCBreakerDisconnectAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(8, //
FaultCharger.PvDCDCDCConvetorPrechargeContactorCloseFailed).faultBit(9, //
FaultCharger.PvDCDCDCConvetorMainContactorCloseFailed).faultBit(10, //
FaultCharger.PvDCDCACContactorStateAbnormityOfDCConvetor).faultBit(11, //
FaultCharger.PvDCDCDCConvetorEmergencyStop).faultBit(12, //
FaultCharger.PvDCDCDCConverterChargingGunDisconnected).faultBit(13, //
FaultCharger.PvDCDCDCCurrentAbnormityBeforeDCConvetorWork).faultBit(14, //
FaultCharger.PvDCDCFuSeDisconnected).faultBit(15, //
FaultCharger.PvDCDCDCConverterHardwareCurrentOrVoltageFault)), new //
UnsignedWordElement(//
0xA713, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity4", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCDCConverterCrystalOscillatorCircuitInvalidation).faultBit(1, //
FaultCharger.PvDCDCDCConverterResetCircuitInvalidation).faultBit(2, //
FaultCharger.PvDCDCDCConverterSamplingCircuitInvalidation).faultBit(3, //
FaultCharger.PvDCDCDCConverterDigitalIOCircuitInvalidation).faultBit(4, //
FaultCharger.PvDCDCDCConverterPWMCircuitInvalidation).faultBit(5, //
FaultCharger.PvDCDCDCConverterX5045CircuitInvalidation).faultBit(6, //
FaultCharger.PvDCDCDCConverterCANCircuitInvalidation).faultBit(7, //
FaultCharger.PvDCDCDCConverterSoftwareANDHardwareProtectionCircuitInvalidation).faultBit(8, //
FaultCharger.PvDCDCDCConverterPowerCircuitInvalidation).faultBit(9, //
FaultCharger.PvDCDCDCConverterCPUInvalidation).faultBit(10, //
FaultCharger.PvDCDCDCConverterTINT0InterruptInvalidation).faultBit(11, //
FaultCharger.PvDCDCDCConverterADCInterruptInvalidation).faultBit(12, //
FaultCharger.PvDCDCDCConverterCAPITN4InterruptInvalidation).faultBit(13, //
FaultCharger.PvDCDCDCConverterCAPINT6InterruptInvalidation).faultBit(14, //
FaultCharger.PvDCDCDCConverterT3PINTinterruptInvalidation).faultBit(15, //
FaultCharger.PvDCDCDCConverterT4PINTinterruptInvalidation)), new UnsignedWordElement(0xA714, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity5", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCConverterPDPINTAInterruptInvalidation).faultBit(1, //
FaultCharger.PvDCDCConverterT1PINTInterruptInvalidationSecond).faultBit(2, //
FaultCharger.PvDCDCConverterRESVInterruptInvalidation).faultBit(3, //
FaultCharger.PvDCDCConverter100usTaskInvalidation).faultBit(4, //
FaultCharger.PvDCDCConverterClockInvalidation).faultBit(5, //
FaultCharger.PvDCDCConverterEMSMemoryInvalidation).faultBit(6, //
FaultCharger.PvDCDCConverterExteriorCommunicationInvalidation).faultBit(7, //
FaultCharger.PvDCDCConverterIOInterfaceInvalidation).faultBit(8, //
FaultCharger.PvDCDCConverterInputVoltageBoundFault).faultBit(9, //
FaultCharger.PvDCDCConverterOutterVoltageBoundFault).faultBit(10, //
FaultCharger.PvDCDCConverterOutputVoltageBoundFault).faultBit(11, //
FaultCharger.PvDCDCConverterInductCurrentBoundFault).faultBit(12, //
FaultCharger.PvDCDCConverterInputCurrentBoundFault).faultBit(13, //
FaultCharger.PvDCDCConverterOutputCurrentBoundFault)), new //
UnsignedWordElement(//
0xA715, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity6", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDCDCReactorOverTemperature).faultBit(1, //
FaultCharger.PvDCDCDCIGBTOverTemperature).faultBit(2, //
FaultCharger.PvDCDCDCConverterChanel3OverTemperature).faultBit(3, //
FaultCharger.PvDCDCDCConverterChanel4OverTemperature).faultBit(4, //
FaultCharger.PvDCDCDCConverterChanel5OverTemperature).faultBit(5, //
FaultCharger.PvDCDCDCConverterChanel6OverTemperature).faultBit(6, //
FaultCharger.PvDCDCDCConverterChanel7OverTemperature).faultBit(7, //
FaultCharger.PvDCDCDCConverterChanel8OverTemperature).faultBit(8, //
FaultCharger.PvDCDCDCReactorTemperatureSamplingInvalidation).faultBit(9, //
FaultCharger.PvDCDCDCIGBTTemperatureSamplingInvalidation).faultBit(10, //
FaultCharger.PvDCDCDCConverterChanel3TemperatureSamplingInvalidation).faultBit(11, //
FaultCharger.PvDCDCDCConverterChanel4TemperatureSamplingInvalidation).faultBit(12, //
FaultCharger.PvDCDCDCConverterChanel5TemperatureSamplingInvalidation).faultBit(13, //
FaultCharger.PvDCDCDCConverterChanel6TemperatureSamplingInvalidation).faultBit(14, //
FaultCharger.PvDCDCDCConverterChanel7TemperatureSamplingInvalidation).faultBit(15, //
FaultCharger.PvDCDCDCConverterChanel8TemperatureSamplingInvalidation)), new //
UnsignedWordElement(//
0xA716, // prefix = "PvDCDC"
//
new ModbusBitWrappingChannel("PvDCDCAbnormity7", this, this.thingState).faultBit(4, //
FaultCharger.PvDCDCDCConverterInductanceCurrentSamplingInvalidation).faultBit(5, //
FaultCharger.PvDCDCCurrentSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(6, //
FaultCharger.PvDCDCVoltageSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(7, //
FaultCharger.PvDCDCInsulationInspectionFault).faultBit(8, //
FaultCharger.PvDCDCNegContactorCloseUnsuccessly).faultBit(9, //
FaultCharger.PvDCDCNegContactorCutWhenRunning)), new DummyElement(0xA717, 0xA71F), new UnsignedWordElement(0xA720, pvDCDCSwitchState = //
new StatusBitChannel("PvDCDCSwitchState", this).label(1, //
"DC precharge contactor").label(2, //
"DC main contactor").label(4, //
"Output contactor").label(8, //
"Output breaker").label(16, //
"Input breaker").label(32, //
"AC contactor").label(64, //
"Emergency stop button").label(128, "NegContactor"))), new //
ModbusRegisterRange(//
0xA730, new SignedWordElement(0xA730, pvDCDCOutputVoltage = new ModbusReadLongChannel("PvDCDCOutputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA731, pvDCDCOutputCurrent = new ModbusReadLongChannel("PvDCDCOutputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA732, pvDCDCOutputPower = new ModbusReadLongChannel("PvDCDCOutputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA733, pvDCDCInputVoltage = new ModbusReadLongChannel("PvDCDCInputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xA734, pvDCDCInputCurrent = new ModbusReadLongChannel("PvDCDCInputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xA735, pvDCDCInputPower = new ModbusReadLongChannel("PvDCDCInputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xA736, pvDCDCInputEnergy = new ModbusReadLongChannel("PvDCDCInputEnergy", this).unit("Wh").multiplier(2)), new SignedWordElement(0xA737, pvDCDCOutputEnergy = new ModbusReadLongChannel("PvDCDCOutputEnergy", this).unit("Wh").multiplier(2)), new DummyElement(0xA738, 0xA73F), new SignedWordElement(0xA740, pvDCDCReactorTemperature = new ModbusReadLongChannel("PvDCDCReactorTemperature", this).unit("°C")), new SignedWordElement(0xA741, pvDCDCIgbtTemperature = new ModbusReadLongChannel("PvDCDCIgbtTemperature", this).unit("°C")), new DummyElement(0xA742, 0xA74F), new UnsignedDoublewordElement(0xA750, pvDCDCInputTotalChargeEnergy = new ModbusReadLongChannel("PvDCDCInputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA752, pvDCDCInputTotalDischargeEnergy = new ModbusReadLongChannel("PvDCDCInputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA754, pvDCDCOutputTotalChargeEnergy = new ModbusReadLongChannel("PvDCDCOutputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xA756, pvDCDCOutputTotalDischargeEnergy = new ModbusReadLongChannel("PvDCDCOutputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW)), new //
ModbusRegisterRange(//
0xA900, new UnsignedWordElement(0xA900, pvDCDC1WorkState = //
new ModbusReadLongChannel("PvDCDC1WorkState", this).label(2, //
"Initial").label(4, //
"Stop").label(8, //
"Ready").label(16, //
"Running").label(32, //
"Fault").label(64, //
"Debug").label(128, "Locked")), new UnsignedWordElement(0xA901, pvDCDC1WorkMode = //
new ModbusReadLongChannel("PvDCDC1WorkMode", this).label(128, //
"Constant Current").label(256, //
"Constant Voltage").label(512, "Boost MPPT"))), new //
ModbusRegisterRange(//
0xAA00, new //
UnsignedWordElement(//
0xAA00, // Prefix = "PvDCDC1 "
//
new ModbusBitWrappingChannel("PvDCDC1SuggestiveInformation1", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDC1CurrentSamplingChannelAbnormityOnHighVoltageSide).warningBit(1, //
WarningCharger.PvDCDC1CurrentSamplingChannelAbnormityOnLowVoltageSide).warningBit(6, //
WarningCharger.PvDCDC1EEPROMParametersOverRange).warningBit(7, //
WarningCharger.PvDCDC1UpdateEEPROMFailed).warningBit(8, //
WarningCharger.PvDCDC1ReadEEPROMFailed).warningBit(9, //
WarningCharger.PvDCDC1CurrentSamplingChannelAbnormityBeforeInductance)), new //
UnsignedWordElement(//
0xAA01, // Prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1SuggestiveInformation2", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDC1ReactorPowerDecreaseCausedByOvertemperature).warningBit(1, //
WarningCharger.PvDCDC1IGBTPowerDecreaseCausedByOvertemperature).warningBit(2, //
WarningCharger.PvDCDC1TemperatureChanel3PowerDecreaseCausedByOvertemperature).warningBit(3, //
WarningCharger.PvDCDC1TemperatureChanel4PowerDecreaseCausedByOvertemperature).warningBit(4, //
WarningCharger.PvDCDC1TemperatureChanel5PowerDecreaseCausedByOvertemperature).warningBit(5, //
WarningCharger.PvDCDC1TemperatureChanel6PowerDecreaseCausedByOvertemperature).warningBit(6, //
WarningCharger.PvDCDC1TemperatureChanel7PowerDecreaseCausedByOvertemperature).warningBit(7, //
WarningCharger.PvDCDC1TemperatureChanel8PowerDecreaseCausedByOvertemperature).warningBit(8, //
WarningCharger.PvDCDC1Fan1StopFailed).warningBit(9, //
WarningCharger.PvDCDC1Fan2StopFailed).warningBit(10, //
WarningCharger.PvDCDC1Fan3StopFailed).warningBit(11, //
WarningCharger.PvDCDC1Fan4StopFailed).warningBit(12, //
WarningCharger.PvDCDC1Fan1StartupFailed).warningBit(13, //
WarningCharger.PvDCDC1Fan2StartupFailed).warningBit(14, //
WarningCharger.PvDCDC1Fan3StartupFailed).warningBit(15, //
WarningCharger.PvDCDC1Fan4StartupFailed)), new //
UnsignedWordElement(//
0xAA02, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1SuggestiveInformation3", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDC1HighVoltageSideOvervoltage).warningBit(1, //
WarningCharger.PvDCDC1HighVoltageSideUndervoltage).warningBit(2, //
WarningCharger.PvDCDC1HighVoltageSideVoltageChangeUnconventionally)), new //
UnsignedWordElement(//
0xAA03, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1SuggestiveInformation4", this, this.thingState).warningBit(0, WarningCharger.PvDCDC1CurrentAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(1, WarningCharger.PvDCDC1CurrentAbnormityBeforeDCConverterWorkOnLowVoltageSXide).warningBit(2, WarningCharger.PvDCDC1InitialDutyRatioAbnormityBeforeDCConverterWork).warningBit(3, WarningCharger.PvDCDC1VoltageAbnormityBeforeDCConverterWorkOnHighVoltageSide).warningBit(4, WarningCharger.PvDCDC1VoltageAbnormityBeforeDCConverterWorkOnLowVoltageSide)), new UnsignedWordElement(0xAA04, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1SuggestiveInformation5", this, this.thingState).warningBit(0, //
WarningCharger.PvDCDC1HighVoltageBreakerInspectionAbnormity).warningBit(1, //
WarningCharger.PvDCDC1LowVoltageBreakerInspectionAbnormity).warningBit(2, //
WarningCharger.PvDCDC1BsmDCDC5DCPrechargeContactorInspectionAbnormity).warningBit(3, //
WarningCharger.PvDCDC1DCPrechargeContactorOpenUnsuccessfully).warningBit(4, //
WarningCharger.PvDCDC1DCMainContactorInspectionAbnormity).warningBit(5, //
WarningCharger.PvDCDC1DCMainContactorOpenUnsuccessfully).warningBit(6, //
WarningCharger.PvDCDC1OutputContactorCloseUnsuccessfully).warningBit(7, //
WarningCharger.PvDCDC1OutputContactorOpenUnsuccessfully).warningBit(8, //
WarningCharger.PvDCDC1ACMainContactorCloseUnsuccessfully).warningBit(9, //
WarningCharger.PvDCDC1ACMainContactorOpenUnsuccessfully).warningBit(10, //
WarningCharger.PvDCDC1NegContactorOpenUnsuccessfully).warningBit(11, //
WarningCharger.PvDCDC1NegContactorCloseUnsuccessfully).warningBit(12, //
WarningCharger.PvDCDC1NegContactorStateAbnormal)), new DummyElement(0xAA05, 0xAA0F), new //
UnsignedWordElement(//
0xAA10, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity1", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1HighVoltageSideOfDCConverterUndervoltage).faultBit(1, //
FaultCharger.PvDCDC1HighVoltageSideOfDCConverterOvervoltage).faultBit(2, //
FaultCharger.PvDCDC1LowVoltageSideOfDCConverterUndervoltage).faultBit(3, //
FaultCharger.PvDCDC1LowVoltageSideOfDCConverterOvervoltage).faultBit(4, //
FaultCharger.PvDCDC1HighVoltageSideOfDCConverterOvercurrentFault).faultBit(5, //
FaultCharger.PvDCDC1LowVoltageSideOfDCConverterOvercurrentFault).faultBit(6, //
FaultCharger.PvDCDC1DCConverterIGBTFault).faultBit(7, //
FaultCharger.PvDCDC1DCConverterPrechargeUnmet)), new //
UnsignedWordElement(//
0xAA11, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity2", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1BECUCommunicationDisconnected).faultBit(1, //
FaultCharger.PvDCDC1DCConverterCommunicationDisconnected).faultBit(2, //
FaultCharger.PvDCDC1CurrentConfigurationOverRange).faultBit(3, //
FaultCharger.PvDCDC1TheBatteryRequestStop).faultBit(5, //
FaultCharger.PvDCDC1OvercurrentRelayFault).faultBit(6, //
FaultCharger.PvDCDC1LightningProtectionDeviceFault).faultBit(7, //
FaultCharger.PvDCDC1DCConverterPriamaryContactorDisconnectedAbnormally).faultBit(9, //
FaultCharger.PvDCDC1DCDisconnectedAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(12, //
FaultCharger.PvDCDC1DCConvetorEEPROMAbnormity1).faultBit(13, //
FaultCharger.PvDCDC1DCConvetorEEPROMAbnormity1Second).faultBit(14, //
FaultCharger.PvDCDC1EDCConvetorEEPROMAbnormity1)), new UnsignedWordElement(0xAA12, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity3", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1DCConvertorGeneralOverload).faultBit(1, //
FaultCharger.PvDCDC1DCShortCircuit).faultBit(2, //
FaultCharger.PvDCDC1PeakPulseCurrentProtection).faultBit(3, //
FaultCharger.PvDCDC1DCDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(4, //
FaultCharger.PvDCDC1EffectivePulseValueOverhigh).faultBit(5, //
FaultCharger.PvDCDC1DCConverteSevereOverload).faultBit(6, //
FaultCharger.PvDCDC1DCBreakerDisconnectAbnormallyOnHighVoltageSideOfDCConvetor).faultBit(7, //
FaultCharger.PvDCDC1DCBreakerDisconnectAbnormallyOnLowVoltageSideOfDCConvetor).faultBit(8, //
FaultCharger.PvDCDC1DCConvetorPrechargeContactorCloseFailed).faultBit(9, //
FaultCharger.PvDCDC1DCConvetorMainContactorCloseFailed).faultBit(10, //
FaultCharger.PvDCDC1ACContactorStateAbnormityOfDCConvetor).faultBit(11, //
FaultCharger.PvDCDC1DCConvetorEmergencyStop).faultBit(12, //
FaultCharger.PvDCDC1DCConverterChargingGunDisconnected).faultBit(13, //
FaultCharger.PvDCDC1DCCurrentAbnormityBeforeDCConvetorWork).faultBit(14, //
FaultCharger.PvDCDC1FuSeDisconnected).faultBit(15, //
FaultCharger.PvDCDC1DCConverterHardwareCurrentOrVoltageFault)), //
new UnsignedWordElement(0xAA13, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity4", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1DCConverterCrystalOscillatorCircuitInvalidation).faultBit(1, //
FaultCharger.PvDCDC1DCConverterResetCircuitInvalidation).faultBit(2, //
FaultCharger.PvDCDC1DCConverterSamplingCircuitInvalidation).faultBit(3, //
FaultCharger.PvDCDC1DCConverterDigitalIOCircuitInvalidation).faultBit(4, //
FaultCharger.PvDCDC1DCConverterPWMCircuitInvalidation).faultBit(5, //
FaultCharger.PvDCDC1DCConverterX5045CircuitInvalidation).faultBit(6, //
FaultCharger.PvDCDC1DCConverterCANCircuitInvalidation).faultBit(7, //
FaultCharger.PvDCDC1DCConverterSoftwareANDHardwareProtectionCircuitInvalidation).faultBit(8, //
FaultCharger.PvDCDC1DCConverterPowerCircuitInvalidation).faultBit(9, //
FaultCharger.PvDCDC1DCConverterCPUInvalidation).faultBit(10, //
FaultCharger.PvDCDC1DCConverterTINT0InterruptInvalidation).faultBit(11, //
FaultCharger.PvDCDC1DCConverterADCInterruptInvalidation).faultBit(12, //
FaultCharger.PvDCDC1DCConverterCAPITN4InterruptInvalidation).faultBit(13, //
FaultCharger.PvDCDC1DCConverterCAPINT6InterruptInvalidation).faultBit(14, //
FaultCharger.PvDCDC1DCConverterT3PINTinterruptInvalidation).faultBit(15, //
FaultCharger.PvDCDC1DCConverterT4PINTinterruptInvalidation)), //
new UnsignedWordElement(0xAA14, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity5", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1DCConverterPDPINTAInterruptInvalidation).faultBit(1, //
FaultCharger.PvDCDC1DCConverterT1PINTInterruptInvalidationSecond).faultBit(2, //
FaultCharger.PvDCDC1DCConverterRESVInterruptInvalidation).faultBit(3, //
FaultCharger.PvDCDC1DCConverter100usTaskInvalidation).faultBit(4, //
FaultCharger.PvDCDC1DCConverterClockInvalidation).faultBit(5, //
FaultCharger.PvDCDC1DCConverterEMSMemoryInvalidation).faultBit(6, //
FaultCharger.PvDCDC1DCConverterExteriorCommunicationInvalidation).faultBit(7, //
FaultCharger.PvDCDC1DCConverterIOInterfaceInvalidation).faultBit(8, //
FaultCharger.PvDCDC1DCConverterInputVoltageBoundFault).faultBit(9, //
FaultCharger.PvDCDC1DCConverterOutterVoltageBoundFault).faultBit(10, //
FaultCharger.PvDCDC1DCConverterOutputVoltageBoundFault).faultBit(11, //
FaultCharger.PvDCDC1DCConverterInductCurrentBoundFault).faultBit(12, //
FaultCharger.PvDCDC1DCConverterInputCurrentBoundFault).faultBit(13, //
FaultCharger.PvDCDC1DCConverterOutputCurrentBoundFault)), //
new UnsignedWordElement(0xAA15, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity6", this, this.thingState).faultBit(0, //
FaultCharger.PvDCDC1DCReactorOverTemperature).faultBit(1, //
FaultCharger.PvDCDC1DCIGBTOverTemperature).faultBit(2, //
FaultCharger.PvDCDC1DCConverterChanel3OverTemperature).faultBit(3, //
FaultCharger.PvDCDC1DCConverterChanel4OverTemperature).faultBit(4, //
FaultCharger.PvDCDC1DCConverterChanel5OverTemperature).faultBit(5, //
FaultCharger.PvDCDC1DCConverterChanel6OverTemperature).faultBit(6, //
FaultCharger.PvDCDC1DCConverterChanel7OverTemperature).faultBit(7, //
FaultCharger.PvDCDC1DCConverterChanel8OverTemperature).faultBit(8, //
FaultCharger.PvDCDC1DCReactorTemperatureSamplingInvalidation).faultBit(9, //
FaultCharger.PvDCDC1DCIGBTTemperatureSamplingInvalidation).faultBit(10, //
FaultCharger.PvDCDC1DCConverterChanel3TemperatureSamplingInvalidation).faultBit(11, //
FaultCharger.PvDCDC1DCConverterChanel4TemperatureSamplingInvalidation).faultBit(12, //
FaultCharger.PvDCDC1DCConverterChanel5TemperatureSamplingInvalidation).faultBit(13, //
FaultCharger.PvDCDC1DCConverterChanel6TemperatureSamplingInvalidation).faultBit(14, //
FaultCharger.PvDCDC1DCConverterChanel7TemperatureSamplingInvalidation).faultBit(15, //
FaultCharger.PvDCDC1DCConverterChanel8TemperatureSamplingInvalidation)), //
new UnsignedWordElement(0xAA16, // prefix = "PvDCDC1"
//
new ModbusBitWrappingChannel("PvDCDC1Abnormity7", this, this.thingState).faultBit(4, //
FaultCharger.PvDCDC1DCConverterInductanceCurrentSamplingInvalidation).faultBit(5, //
FaultCharger.PvDCDC1CurrentSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(6, //
FaultCharger.PvDCDC1VoltageSamplingInvalidationOnTheLowVoltageSideOfDCConverter).faultBit(7, //
FaultCharger.PvDCDC1InsulationInspectionFault).faultBit(8, //
FaultCharger.PvDCDC1NegContactorCloseUnsuccessly).faultBit(9, //
FaultCharger.PvDCDC1NegContactorCutWhenRunning)), //
new DummyElement(0xAA17, 0xAA1F), new UnsignedWordElement(0xAA20, pvDCDC1SwitchState = //
new StatusBitChannel("PvDCDC1SwitchState", this).label(1, //
"DC precharge contactor").label(2, //
"DC main contactor").label(4, //
"Output contactor").label(8, //
"Output breaker").label(16, //
"Input breaker").label(32, //
"AC contactor").label(64, //
"Emergency stop button").label(128, "NegContactor"))), new //
ModbusRegisterRange(//
0xAA30, new SignedWordElement(0xAA30, pvDCDC1OutputVoltage = new ModbusReadLongChannel("PvDCDC1OutputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xAA31, pvDCDC1OutputCurrent = new ModbusReadLongChannel("PvDCDC1OutputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xAA32, pvDCDC1OutputPower = new ModbusReadLongChannel("PvDCDC1OutputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xAA33, pvDCDC1InputVoltage = new ModbusReadLongChannel("PvDCDC1InputVoltage", this).unit("mV").multiplier(2)), new SignedWordElement(0xAA34, pvDCDC1InputCurrent = new ModbusReadLongChannel("PvDCDC1InputCurrent", this).unit("mA").multiplier(2)), new SignedWordElement(0xAA35, pvDCDC1InputPower = new ModbusReadLongChannel("PvDCDC1InputPower", this).unit("W").multiplier(2)), new SignedWordElement(0xAA36, pvDCDC1InputEnergy = new ModbusReadLongChannel("PvDCDC1InputEnergy", this).unit("Wh").multiplier(2)), new SignedWordElement(0xAA37, pvDCDC1OutputEnergy = new ModbusReadLongChannel("PvDCDC1OutputEnergy", this).unit("Wh").multiplier(2)), new DummyElement(0xAA38, 0xAA3F), new SignedWordElement(0xAA40, pvDCDC1ReactorTemperature = new ModbusReadLongChannel("PvDCDC1ReactorTemperature", this).unit("°C")), new SignedWordElement(0xAA41, pvDCDC1IgbtTemperature = new ModbusReadLongChannel("PvDCDC1IgbtTemperature", this).unit("°C")), new DummyElement(0xAA42, 0xAA4F), new UnsignedDoublewordElement(0xAA50, pvDCDC1InputTotalChargeEnergy = new ModbusReadLongChannel("PvDCDC1InputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xAA52, pvDCDC1InputTotalDischargeEnergy = new ModbusReadLongChannel("PvDCDC1InputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xAA54, pvDCDC1OutputTotalChargeEnergy = new ModbusReadLongChannel("PvDCDC1OutputTotalChargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW), new UnsignedDoublewordElement(0xAA56, pvDCDC1OutputTotalDischargeEnergy = new ModbusReadLongChannel("PvDCDC1OutputTotalDischargeEnergy", this).unit("Wh").multiplier(2)).wordOrder(WordOrder.LSWMSW)));
actualPower = new FunctionalReadChannel<Long>("ActualPower", this, (channels) -> {
long erg = 0;
try {
for (ReadChannel<Long> ch : channels) {
erg += ch.value();
}
return erg;
} catch (InvalidValueException e) {
return null;
}
}, pvDCDCInputPower, pvDCDC1InputPower);
inputVoltage = new FunctionalReadChannel<Long>("InputVoltage", this, (channels) -> {
long erg = 0;
try {
for (ReadChannel<Long> ch : channels) {
if (erg < ch.value()) {
erg = ch.value();
}
}
return erg;
} catch (InvalidValueException e) {
return null;
}
}, pvDCDCInputVoltage, pvDCDC1InputVoltage);
return protocol;
}
use of io.openems.impl.protocol.modbus.internal.UnsignedDoublewordElement in project openems by OpenEMS.
the class FeneconProEss method defineModbusProtocol.
/*
* Methods
*/
@Override
protected ModbusProtocol defineModbusProtocol() throws ConfigException {
ModbusProtocol protokol = new ModbusProtocol(new //
ModbusRegisterRange(//
100, new //
UnsignedWordElement(//
100, systemState = //
new ModbusReadLongChannel("SystemState", this).label(0, //
STANDBY).label(1, //
"Start Off-Grid").label(2, //
START).label(3, //
FAULT).label(4, "Off-grid PV")), new //
UnsignedWordElement(//
101, controlMode = //
new ModbusReadLongChannel("ControlMode", this).label(1, //
"Remote").label(2, //
"Local")), new //
UnsignedWordElement(//
102, workMode = //
new ModbusReadLongChannel("WorkMode", this).label(2, //
"Economy").label(6, //
"Remote").label(8, //
"Timing")), //
new DummyElement(103), new //
UnsignedDoublewordElement(//
104, totalBatteryChargeEnergy = new ModbusReadLongChannel("TotalBatteryChargeEnergy", this).unit(//
"Wh")), new //
UnsignedDoublewordElement(//
106, totalBatteryDischargeEnergy = new ModbusReadLongChannel("TotalBatteryDischargeEnergy", this).unit(//
"Wh")), new //
UnsignedWordElement(//
108, batteryGroupState = //
new ModbusReadLongChannel("BatteryGroupState", this).label(0, //
"Initial").label(1, //
"Stop").label(2, //
"Starting").label(3, //
"Running").label(4, //
"Stopping").label(5, "Fail")), new //
UnsignedWordElement(//
109, soc = new ModbusReadLongChannel("Soc", this).unit("%").interval(0, 100)), new //
UnsignedWordElement(//
110, batteryVoltage = new ModbusReadLongChannel("BatteryVoltage", this).unit("mV").multiplier(2)), new //
SignedWordElement(//
111, batteryCurrent = new ModbusReadLongChannel("BatteryCurrent", this).unit("mA").multiplier(2)), new //
SignedWordElement(//
112, batteryPower = new ModbusReadLongChannel("BatteryPower", this).unit("W")), new UnsignedWordElement(113, //
new ModbusBitWrappingChannel("BatteryGroupAlarm", this, state).warningBit(0, // Fail, The system should be stopped
WarningEss.FailTheSystemShouldBeStopped).warningBit(1, // Common low voltage alarm
WarningEss.CommonLowVoltageAlarm).warningBit(2, // Common high voltage alarm
WarningEss.CommonHighVoltageAlarm).warningBit(3, // Charging over current alarm
WarningEss.ChargingOverCurrentAlarm).warningBit(4, // Discharging over current alarm
WarningEss.DischargingOverCurrentAlarm).warningBit(5, // Over temperature alarm
WarningEss.OverTemperatureAlarm).warningBit(6, // Interal communication abnormal
WarningEss.InteralCommunicationAbnormal)), new //
UnsignedWordElement(//
114, pcsOperationState = new ModbusReadLongChannel("PcsOperationState", this).label(0, //
"Self-checking").label(1, //
"Standby").label(2, //
"Off grid PV").label(3, //
"Off grid").label(4, //
ON_GRID).label(5, //
"Fail").label(6, //
"bypass 1").label(7, "bypass 2")), //
new DummyElement(115, 117), new //
SignedWordElement(//
118, currentL1 = new ModbusReadLongChannel("CurrentL1", this).unit("mA").multiplier(2)), new //
SignedWordElement(//
119, currentL2 = new ModbusReadLongChannel("CurrentL2", this).unit("mA").multiplier(2)), new //
SignedWordElement(//
120, currentL3 = new ModbusReadLongChannel("CurrentL3", this).unit("mA").multiplier(2)), new //
UnsignedWordElement(//
121, voltageL1 = new ModbusReadLongChannel("VoltageL1", this).unit("mV").multiplier(2)), new //
UnsignedWordElement(//
122, voltageL2 = new ModbusReadLongChannel("VoltageL2", this).unit("mV").multiplier(2)), new //
UnsignedWordElement(//
123, voltageL3 = new ModbusReadLongChannel("VoltageL3", this).unit("mV").multiplier(2)), new //
SignedWordElement(//
124, activePowerL1 = new ModbusReadLongChannel("ActivePowerL1", this).unit("W")), new //
SignedWordElement(//
125, activePowerL2 = new ModbusReadLongChannel("ActivePowerL2", this).unit("W")), new //
SignedWordElement(//
126, activePowerL3 = new ModbusReadLongChannel("ActivePowerL3", this).unit("W")), new //
SignedWordElement(//
127, reactivePowerL1 = new ModbusReadLongChannel("ReactivePowerL1", this).unit("var")), new //
SignedWordElement(//
128, reactivePowerL2 = new ModbusReadLongChannel("ReactivePowerL2", this).unit("var")), new //
SignedWordElement(//
129, reactivePowerL3 = new ModbusReadLongChannel("ReactivePowerL3", this).unit("var")), new DummyElement(130), new //
UnsignedWordElement(//
131, frequencyL1 = new ModbusReadLongChannel("FrequencyL1", this).unit("mHz").multiplier(1)), new //
UnsignedWordElement(//
132, frequencyL2 = new ModbusReadLongChannel("FrequencyL2", this).unit("mHz").multiplier(1)), new //
UnsignedWordElement(//
133, frequencyL3 = new ModbusReadLongChannel("FrequencyL3", this).unit("mHz").multiplier(1)), new //
UnsignedWordElement(//
134, phaseAllowedApparent = new ModbusReadLongChannel("PhaseAllowedApparentPower", this).unit("VA")), new DummyElement(135, 140), new //
UnsignedWordElement(//
141, allowedCharge = new ModbusReadLongChannel("AllowedCharge", this).negate().unit("W")), new //
UnsignedWordElement(//
142, allowedDischarge = new ModbusReadLongChannel("AllowedDischarge", this).unit("W"))), new ModbusRegisterRange(150, new UnsignedWordElement(150, //
new ModbusBitWrappingChannel("PcsAlarm1L1", this, state).warningBit(0, // Grid undervoltage
WarningEss.GridUndervoltageL1).warningBit(1, // Grid overvoltage
WarningEss.GridOvervoltageL1).warningBit(2, // Grid under frequency
WarningEss.GridUnderFrequencyL1).warningBit(3, // Grid over frequency
WarningEss.GridOverFrequencyL1).warningBit(4, // Grid power supply off
WarningEss.GridPowerSupplyOffL1).warningBit(5, // Grid condition unmeet
WarningEss.GridConditionUnmeetL1).warningBit(6, // DC under voltage
WarningEss.DCUnderVoltageL1).warningBit(7, // Input over resistance
WarningEss.InputOverResistanceL1).warningBit(8, // Combination error
WarningEss.CombinationErrorL1).warningBit(9, // Comm with inverter error
WarningEss.CommWithInverterErrorL1).warningBit(10, // Tme error
WarningEss.TmeErrorL1)), new UnsignedWordElement(151, new ModbusBitWrappingChannel("PcsAlarm2L1", this, state)), new UnsignedWordElement(152, //
new ModbusBitWrappingChannel("PcsFault1L1", this, state).faultBit(0, // Control current overload
FaultEss.ControlCurrentOverload100PercentL1).faultBit(1, // Control current overload
FaultEss.ControlCurrentOverload110PercentL1).faultBit(2, // Control current overload
FaultEss.ControlCurrentOverload150PercentL1).faultBit(3, // Control current overload
FaultEss.ControlCurrentOverload200PercentL1).faultBit(4, // Control current overload
FaultEss.ControlCurrentOverload120PercentL1).faultBit(5, // Control current overload
FaultEss.ControlCurrentOverload300PercentL1).faultBit(6, // Control transient load 300%
FaultEss.ControlTransientLoad300PercentL1).faultBit(7, // Grid over current
FaultEss.GridOverCurrentL1).faultBit(8, // Locking waveform too many times
FaultEss.LockingWaveformTooManyTimesL1).faultBit(9, // Inverter voltage zero drift
FaultEss.InverterVoltageZeroDriftErrorL1).faultBit(10, // Grid voltage zero drift error
FaultEss.GridVoltageZeroDriftErrorL1).faultBit(11, // Control current zero drift
FaultEss.ControlCurrentZeroDriftErrorL1).faultBit(12, // Inverter current zero drift
FaultEss.InverterCurrentZeroDriftErrorL1).faultBit(13, // Grid current zero drift error
FaultEss.GridCurrentZeroDriftErrorL1).faultBit(14, // PDP protection
FaultEss.PDPProtectionL1).faultBit(15, // Hardware control current
FaultEss.HardwareControlCurrentProtectionL1)), // protection
new UnsignedWordElement(153, //
new ModbusBitWrappingChannel("PcsFault2L1", this, state).faultBit(0, // Hardware AC volt. protection
FaultEss.HardwareACVoltageProtectionL1).faultBit(1, // Hardware DC curr. protection
FaultEss.HardwareDCCurrentProtectionL1).faultBit(2, // Hardware temperature
FaultEss.HardwareTemperatureProtectionL1).faultBit(3, // No capturing signal
FaultEss.NoCapturingSignalL1).faultBit(4, // DC overvoltage
FaultEss.DCOvervoltageL1).faultBit(5, // DC disconnected
FaultEss.DCDisconnectedL1).faultBit(6, // Inverter undervoltage
FaultEss.InverterUndervoltageL1).faultBit(7, // Inverter overvoltage
FaultEss.InverterOvervoltageL1).faultBit(8, // Current sensor fail
FaultEss.CurrentSensorFailL1).faultBit(9, // Voltage sensor fail
FaultEss.VoltageSensorFailL1).faultBit(10, // Power uncontrollable
FaultEss.PowerUncontrollableL1).faultBit(11, // Current uncontrollable
FaultEss.CurrentUncontrollableL1).faultBit(12, // Fan error
FaultEss.FanErrorL1).faultBit(13, // Phase lack
FaultEss.PhaseLackL1).faultBit(14, // Inverter relay fault
FaultEss.InverterRelayFaultL1).faultBit(15, // Grid relay fault
FaultEss.GridRealyFaultL1)), new UnsignedWordElement(154, //
new ModbusBitWrappingChannel("PcsFault3L1", this, state).faultBit(0, // Control panel overtemp
FaultEss.ControlPanelOvertempL1).faultBit(1, // Power panel overtemp
FaultEss.PowerPanelOvertempL1).faultBit(2, // DC input overcurrent
FaultEss.DCInputOvercurrentL1).faultBit(3, // Capacitor overtemp
FaultEss.CapacitorOvertempL1).faultBit(4, // Radiator overtemp
FaultEss.RadiatorOvertempL1).faultBit(5, // Transformer overtemp
FaultEss.TransformerOvertempL1).faultBit(6, // Combination comm error
FaultEss.CombinationCommErrorL1).faultBit(7, // EEPROM error
FaultEss.EEPROMErrorL1).faultBit(8, // Load current zero drift error
FaultEss.LoadCurrentZeroDriftErrorL1).faultBit(9, // Current limit-R error
FaultEss.CurrentLimitRErrorL1).faultBit(10, // Phase sync error
FaultEss.PhaseSyncErrorL1).faultBit(11, // External PV current zero
FaultEss.ExternalPVCurrentZeroDriftErrorL1).faultBit(12, // External grid current
FaultEss.ExternalGridCurrentZeroDriftErrorL1)), // zero drift error
new UnsignedWordElement(155, //
new ModbusBitWrappingChannel("PcsAlarm1L2", this, state).warningBit(0, // Grid undervoltage
WarningEss.GridUndervoltageL2).warningBit(1, // Grid overvoltage
WarningEss.GridOvervoltageL2).warningBit(2, // Grid under frequency
WarningEss.GridUnderFrequencyL2).warningBit(3, // Grid over frequency
WarningEss.GridOverFrequencyL2).warningBit(4, // Grid power supply off
WarningEss.GridPowerSupplyOffL2).warningBit(5, // Grid condition unmeet
WarningEss.GridConditionUnmeetL2).warningBit(6, // DC under voltage
WarningEss.DCUnderVoltageL2).warningBit(7, // Input over resistance
WarningEss.InputOverResistanceL2).warningBit(8, // Combination error
WarningEss.CombinationErrorL2).warningBit(9, // Comm with inverter error
WarningEss.CommWithInverterErrorL2).warningBit(10, // Tme error
WarningEss.TmeErrorL2)), new UnsignedWordElement(156, new ModbusBitWrappingChannel("PcsAlarm2L2", this, state)), new UnsignedWordElement(157, //
new ModbusBitWrappingChannel("PcsFault1L2", this, state).faultBit(0, // Control current overload
FaultEss.ControlCurrentOverload100PercentL2).faultBit(1, // Control current overload
FaultEss.ControlCurrentOverload110PercentL2).faultBit(2, // Control current overload
FaultEss.ControlCurrentOverload150PercentL2).faultBit(3, // Control current overload
FaultEss.ControlCurrentOverload200PercentL2).faultBit(4, // Control current overload
FaultEss.ControlCurrentOverload120PercentL2).faultBit(5, // Control current overload
FaultEss.ControlCurrentOverload300PercentL2).faultBit(6, // Control transient load 300%
FaultEss.ControlTransientLoad300PercentL2).faultBit(7, // Grid over current
FaultEss.GridOverCurrentL2).faultBit(8, // Locking waveform too many times
FaultEss.LockingWaveformTooManyTimesL2).faultBit(9, // Inverter voltage zero drift
FaultEss.InverterVoltageZeroDriftErrorL2).faultBit(10, // Grid voltage zero drift error
FaultEss.GridVoltageZeroDriftErrorL2).faultBit(11, // Control current zero drift
FaultEss.ControlCurrentZeroDriftErrorL2).faultBit(12, // Inverter current zero drift
FaultEss.InverterCurrentZeroDriftErrorL2).faultBit(13, // Grid current zero drift error
FaultEss.GridCurrentZeroDriftErrorL2).faultBit(14, // PDP protection
FaultEss.PDPProtectionL2).faultBit(15, // Hardware control current
FaultEss.HardwareControlCurrentProtectionL2)), // protection
new UnsignedWordElement(158, //
new ModbusBitWrappingChannel("PcsFault2L2", this, state).faultBit(0, // Hardware AC volt. protection
FaultEss.HardwareACVoltageProtectionL2).faultBit(1, // Hardware DC curr. protection
FaultEss.HardwareDCCurrentProtectionL2).faultBit(2, // Hardware temperature
FaultEss.HardwareTemperatureProtectionL2).faultBit(3, // No capturing signal
FaultEss.NoCapturingSignalL2).faultBit(4, // DC overvoltage
FaultEss.DCOvervoltageL2).faultBit(5, // DC disconnected
FaultEss.DCDisconnectedL2).faultBit(6, // Inverter undervoltage
FaultEss.InverterUndervoltageL2).faultBit(7, // Inverter overvoltage
FaultEss.InverterOvervoltageL2).faultBit(8, // Current sensor fail
FaultEss.CurrentSensorFailL2).faultBit(9, // Voltage sensor fail
FaultEss.VoltageSensorFailL2).faultBit(10, // Power uncontrollable
FaultEss.PowerUncontrollableL2).faultBit(11, // Current uncontrollable
FaultEss.CurrentUncontrollableL2).faultBit(12, // Fan error
FaultEss.FanErrorL2).faultBit(13, // Phase lack
FaultEss.PhaseLackL2).faultBit(14, // Inverter relay fault
FaultEss.InverterRelayFaultL2).faultBit(15, // Grid relay fault
FaultEss.GridRealyFaultL2)), new UnsignedWordElement(159, //
new ModbusBitWrappingChannel("PcsFault3L2", this, state).faultBit(0, // Control panel overtemp
FaultEss.ControlPanelOvertempL2).faultBit(1, // Power panel overtemp
FaultEss.PowerPanelOvertempL2).faultBit(2, // DC input overcurrent
FaultEss.DCInputOvercurrentL2).faultBit(3, // Capacitor overtemp
FaultEss.CapacitorOvertempL2).faultBit(4, // Radiator overtemp
FaultEss.RadiatorOvertempL2).faultBit(5, // Transformer overtemp
FaultEss.TransformerOvertempL2).faultBit(6, // Combination comm error
FaultEss.CombinationCommErrorL2).faultBit(7, // EEPROM error
FaultEss.EEPROMErrorL2).faultBit(8, // Load current zero drift error
FaultEss.LoadCurrentZeroDriftErrorL2).faultBit(9, // Current limit-R error
FaultEss.CurrentLimitRErrorL2).faultBit(10, // Phase sync error
FaultEss.PhaseSyncErrorL2).faultBit(11, // External PV current zero
FaultEss.ExternalPVCurrentZeroDriftErrorL2).faultBit(12, // External grid current
FaultEss.ExternalGridCurrentZeroDriftErrorL2)), // zero drift error
new UnsignedWordElement(160, //
new ModbusBitWrappingChannel("PcsAlarm1L3", this, state).warningBit(0, // Grid undervoltage
WarningEss.GridUndervoltageL3).warningBit(1, // Grid overvoltage
WarningEss.GridOvervoltageL3).warningBit(2, // Grid under frequency
WarningEss.GridUnderFrequencyL3).warningBit(3, // Grid over frequency
WarningEss.GridOverFrequencyL3).warningBit(4, // Grid power supply off
WarningEss.GridPowerSupplyOffL3).warningBit(5, // Grid condition unmeet
WarningEss.GridConditionUnmeetL3).warningBit(6, // DC under voltage
WarningEss.DCUnderVoltageL3).warningBit(7, // Input over resistance
WarningEss.InputOverResistanceL3).warningBit(8, // Combination error
WarningEss.CombinationErrorL3).warningBit(9, // Comm with inverter error
WarningEss.CommWithInverterErrorL3).warningBit(10, // Tme error
WarningEss.TmeErrorL3)), new UnsignedWordElement(161, new ModbusBitWrappingChannel("PcsAlarm2L3", this, state)), new UnsignedWordElement(162, //
new ModbusBitWrappingChannel("PcsFault1L3", this, state).faultBit(0, // Control current overload
FaultEss.ControlCurrentOverload100PercentL3).faultBit(1, // Control current overload
FaultEss.ControlCurrentOverload110PercentL3).faultBit(2, // Control current overload
FaultEss.ControlCurrentOverload150PercentL3).faultBit(3, // Control current overload
FaultEss.ControlCurrentOverload200PercentL3).faultBit(4, // Control current overload
FaultEss.ControlCurrentOverload120PercentL3).faultBit(5, // Control current overload
FaultEss.ControlCurrentOverload300PercentL3).faultBit(6, // Control transient load 300%
FaultEss.ControlTransientLoad300PercentL3).faultBit(7, // Grid over current
FaultEss.GridOverCurrentL3).faultBit(8, // Locking waveform too many times
FaultEss.LockingWaveformTooManyTimesL3).faultBit(9, // Inverter voltage zero drift
FaultEss.InverterVoltageZeroDriftErrorL3).faultBit(10, // Grid voltage zero drift error
FaultEss.GridVoltageZeroDriftErrorL3).faultBit(11, // Control current zero drift
FaultEss.ControlCurrentZeroDriftErrorL3).faultBit(12, // Inverter current zero drift
FaultEss.InverterCurrentZeroDriftErrorL3).faultBit(13, // Grid current zero drift error
FaultEss.GridCurrentZeroDriftErrorL3).faultBit(14, // PDP protection
FaultEss.PDPProtectionL3).faultBit(15, // Hardware control current
FaultEss.HardwareControlCurrentProtectionL3)), // protection
new UnsignedWordElement(163, //
new ModbusBitWrappingChannel("PcsFault2L3", this, state).faultBit(0, // Hardware AC volt. protection
FaultEss.HardwareACVoltageProtectionL3).faultBit(1, // Hardware DC curr. protection
FaultEss.HardwareDCCurrentProtectionL3).faultBit(2, // Hardware temperature
FaultEss.HardwareTemperatureProtectionL3).faultBit(3, // No capturing signal
FaultEss.NoCapturingSignalL3).faultBit(4, // DC overvoltage
FaultEss.DCOvervoltageL3).faultBit(5, // DC disconnected
FaultEss.DCDisconnectedL3).faultBit(6, // Inverter undervoltage
FaultEss.InverterUndervoltageL3).faultBit(7, // Inverter overvoltage
FaultEss.InverterOvervoltageL3).faultBit(8, // Current sensor fail
FaultEss.CurrentSensorFailL3).faultBit(9, // Voltage sensor fail
FaultEss.VoltageSensorFailL3).faultBit(10, // Power uncontrollable
FaultEss.PowerUncontrollableL3).faultBit(11, // Current uncontrollable
FaultEss.CurrentUncontrollableL3).faultBit(12, // Fan error
FaultEss.FanErrorL3).faultBit(13, // Phase lack
FaultEss.PhaseLackL3).faultBit(14, // Inverter relay fault
FaultEss.InverterRelayFaultL3).faultBit(15, // Grid relay fault
FaultEss.GridRealyFaultL3)), new UnsignedWordElement(164, //
new ModbusBitWrappingChannel("PcsFault3L3", this, state).faultBit(0, // Control panel overtemp
FaultEss.ControlPanelOvertempL3).faultBit(1, // Power panel overtemp
FaultEss.PowerPanelOvertempL3).faultBit(2, // DC input overcurrent
FaultEss.DCInputOvercurrentL3).faultBit(3, // Capacitor overtemp
FaultEss.CapacitorOvertempL3).faultBit(4, // Radiator overtemp
FaultEss.RadiatorOvertempL3).faultBit(5, // Transformer overtemp
FaultEss.TransformerOvertempL3).faultBit(6, // Combination comm error
FaultEss.CombinationCommErrorL3).faultBit(7, // EEPROM error
FaultEss.EEPROMErrorL3).faultBit(8, // Load current zero drift error
FaultEss.LoadCurrentZeroDriftErrorL3).faultBit(9, // Current limit-R error
FaultEss.CurrentLimitRErrorL3).faultBit(10, // Phase sync error
FaultEss.PhaseSyncErrorL3).faultBit(11, // External PV current zero
FaultEss.ExternalPVCurrentZeroDriftErrorL3).faultBit(12, // External grid current
FaultEss.ExternalGridCurrentZeroDriftErrorL3))), // zero drift error
new //
WriteableModbusRegisterRange(//
200, new UnsignedWordElement(200, setWorkState = //
new ModbusWriteLongChannel("SetWorkState", this).label(0, //
"Local control").label(1, // "Remote control on grid starting"
START).label(2, //
"Remote control off grid starting").label(3, //
STANDBY).label(4, STOP))), new //
WriteableModbusRegisterRange(//
206, new SignedWordElement(206, //
setActivePowerL1 = new ModbusWriteLongChannel("SetActivePowerL1", this).unit("W")), new SignedWordElement(207, setReactivePowerL1 = new ModbusWriteLongChannel("SetReactivePowerL1", this).unit(//
"Var")), new SignedWordElement(208, //
setActivePowerL2 = new ModbusWriteLongChannel("SetActivePowerL2", this).unit("W")), new SignedWordElement(209, setReactivePowerL2 = new ModbusWriteLongChannel("SetReactivePowerL2", this).unit(//
"Var")), new SignedWordElement(210, //
setActivePowerL3 = new ModbusWriteLongChannel("SetActivePowerL3", this).unit("W")), new SignedWordElement(211, //
setReactivePowerL3 = new ModbusWriteLongChannel("SetReactivePowerL3", this).unit("Var"))), //
new ModbusRegisterRange(3020, new UnsignedWordElement(3020, batteryVoltageSection1 = new ModbusReadLongChannel("BatteryVoltageSection1", this).unit("mV")), new UnsignedWordElement(3021, batteryVoltageSection2 = new ModbusReadLongChannel("BatteryVoltageSection2", this).unit("mV")), new UnsignedWordElement(3022, batteryVoltageSection3 = new ModbusReadLongChannel("BatteryVoltageSection3", this).unit("mV")), new UnsignedWordElement(3023, batteryVoltageSection4 = new ModbusReadLongChannel("BatteryVoltageSection4", this).unit("mV")), new UnsignedWordElement(3024, batteryVoltageSection5 = new ModbusReadLongChannel("BatteryVoltageSection5", this).unit("mV")), new UnsignedWordElement(3025, batteryVoltageSection6 = new ModbusReadLongChannel("BatteryVoltageSection6", this).unit("mV")), new UnsignedWordElement(3026, batteryVoltageSection7 = new ModbusReadLongChannel("BatteryVoltageSection7", this).unit("mV")), new UnsignedWordElement(3027, batteryVoltageSection8 = new ModbusReadLongChannel("BatteryVoltageSection8", this).unit("mV")), new UnsignedWordElement(3028, batteryVoltageSection9 = new ModbusReadLongChannel("BatteryVoltageSection9", this).unit("mV")), new UnsignedWordElement(3029, batteryVoltageSection10 = new ModbusReadLongChannel("BatteryVoltageSection10", this).unit("mV")), new UnsignedWordElement(3030, batteryVoltageSection11 = new ModbusReadLongChannel("BatteryVoltageSection11", this).unit("mV")), new UnsignedWordElement(3031, batteryVoltageSection12 = new ModbusReadLongChannel("BatteryVoltageSection12", this).unit("mV")), new UnsignedWordElement(3032, batteryVoltageSection13 = new ModbusReadLongChannel("BatteryVoltageSection13", this).unit("mV")), new UnsignedWordElement(3033, batteryVoltageSection14 = new ModbusReadLongChannel("BatteryVoltageSection14", this).unit("mV")), new UnsignedWordElement(3034, batteryVoltageSection15 = new ModbusReadLongChannel("BatteryVoltageSection15", this).unit("mV")), new UnsignedWordElement(3035, batteryVoltageSection16 = new ModbusReadLongChannel("BatteryVoltageSection16", this).unit("mV")), new UnsignedWordElement(3036, batteryTemperatureSection1 = new ModbusReadLongChannel("BatteryTemperatureSection1", this).unit("°C").delta(-40L)), new UnsignedWordElement(3037, batteryTemperatureSection2 = new ModbusReadLongChannel("BatteryTemperatureSection2", this).unit("°C").delta(-40L)), new UnsignedWordElement(3038, batteryTemperatureSection3 = new ModbusReadLongChannel("BatteryTemperatureSection3", this).unit("°C").delta(-40L)), new UnsignedWordElement(3039, batteryTemperatureSection4 = new ModbusReadLongChannel("BatteryTemperatureSection4", this).unit("°C").delta(-40L)), new UnsignedWordElement(3040, batteryTemperatureSection5 = new ModbusReadLongChannel("BatteryTemperatureSection5", this).unit("°C").delta(-40L)), new UnsignedWordElement(3041, batteryTemperatureSection6 = new ModbusReadLongChannel("BatteryTemperatureSection6", this).unit("°C").delta(-40L)), new UnsignedWordElement(3042, batteryTemperatureSection7 = new ModbusReadLongChannel("BatteryTemperatureSection7", this).unit("°C").delta(-40L)), new UnsignedWordElement(3043, batteryTemperatureSection8 = new ModbusReadLongChannel("BatteryTemperatureSection8", this).unit("°C").delta(-40L)), new UnsignedWordElement(3044, batteryTemperatureSection9 = new ModbusReadLongChannel("BatteryTemperatureSection9", this).unit("°C").delta(-40L)), new UnsignedWordElement(3045, batteryTemperatureSection10 = new ModbusReadLongChannel("BatteryTemperatureSection10", this).unit("°C").delta(-40L)), new UnsignedWordElement(3046, batteryTemperatureSection11 = new ModbusReadLongChannel("BatteryTemperatureSection11", this).unit("°C").delta(-40L)), new UnsignedWordElement(3047, batteryTemperatureSection12 = new ModbusReadLongChannel("BatteryTemperatureSection12", this).unit("°C").delta(-40L)), new UnsignedWordElement(3048, batteryTemperatureSection13 = new ModbusReadLongChannel("BatteryTemperatureSection13", this).unit("°C").delta(-40L)), new UnsignedWordElement(3049, batteryTemperatureSection14 = new ModbusReadLongChannel("BatteryTemperatureSection14", this).unit("°C").delta(-40L)), new UnsignedWordElement(3050, batteryTemperatureSection15 = new ModbusReadLongChannel("BatteryTemperatureSection15", this).unit("°C").delta(-40L)), new UnsignedWordElement(3051, batteryTemperatureSection16 = new ModbusReadLongChannel("BatteryTemperatureSection16", this).unit("°C").delta(-40L))), new //
WriteableModbusRegisterRange(//
9014, new UnsignedWordElement(9014, rtcYear = new ModbusWriteLongChannel("Year", this)), new UnsignedWordElement(9015, rtcMonth = new ModbusWriteLongChannel("Month", this)), new UnsignedWordElement(9016, rtcDay = new ModbusWriteLongChannel("Day", this)), new UnsignedWordElement(9017, rtcHour = new ModbusWriteLongChannel("Hour", this)), new UnsignedWordElement(9018, rtcMinute = new ModbusWriteLongChannel("Minute", this)), new UnsignedWordElement(9019, rtcSecond = new ModbusWriteLongChannel("Second", this))), new WriteableModbusRegisterRange(30558, new UnsignedWordElement(30558, setSetupMode = new ModbusWriteLongChannel("SetSetupMode", this).label(0, EssNature.OFF).label(1, EssNature.ON))), new WriteableModbusRegisterRange(30559, new UnsignedWordElement(30559, setPcsMode = //
new ModbusWriteLongChannel("SetPcsMode", this).label(0, //
"Emergency").label(1, //
"ConsumersPeakPattern").label(2, //
"Economic").label(3, //
"Eco").label(4, //
"Debug").label(5, //
"SmoothPv").label(6, "Remote"))), new ModbusRegisterRange(30157, new UnsignedWordElement(30157, setupMode = //
new ModbusReadLongChannel("SetupMode", this).label(0, //
EssNature.OFF).label(1, EssNature.ON)), new UnsignedWordElement(30158, pcsMode = //
new ModbusReadLongChannel("PcsMode", this).label(0, //
"Emergency").label(1, //
"ConsumersPeakPattern").label(2, //
"Economic").label(3, //
"Eco").label(4, //
"Debug").label(5, //
"SmoothPv").label(6, "Remote"))));
gridMode = new FunctionalReadChannel<Long>("GridMode", this, (channels) -> {
ReadChannel<Long> state = channels[0];
try {
if (state.value() == 1L) {
return 0L;
} else {
return 1L;
}
} catch (InvalidValueException e) {
return null;
}
}, systemState).label(0L, OFF_GRID).label(1L, ON_GRID);
allowedApparent = new FunctionalReadChannel<Long>("AllowedApparent", this, (channels) -> {
ReadChannel<Long> apparent = channels[0];
try {
return apparent.value() * 3;
} catch (InvalidValueException e) {
log.error(e.getMessage());
}
return 0l;
}, phaseAllowedApparent);
// FaultChannels
state.addFaultChannel(new ValueToBooleanThingStateChannel(FaultEss.SystemFault, this, systemState, 3L));
state.addFaultChannel(new ValueToBooleanThingStateChannel(FaultEss.BatteryFault, this, batteryGroupState, 5L));
state.addFaultChannel(new ValueToBooleanThingStateChannel(FaultEss.PCSFault, this, pcsOperationState, 5L));
// WarningChannels
state.addWarningChannel(new ValueToBooleanThingStateChannel(WarningEss.OFFGrid, this, systemState, 1L));
return protokol;
}
use of io.openems.impl.protocol.modbus.internal.UnsignedDoublewordElement in project openems by OpenEMS.
the class BHKWMeter method defineModbusProtocol.
/*
* Methods
*/
@Override
protected ModbusProtocol defineModbusProtocol() throws ConfigException {
ModbusProtocol protocol = new //
ModbusProtocol(new ModbusRegisterRange(370, new //
UnsignedDoublewordElement(//
370, voltageL1 = new ModbusReadLongChannel("VoltageL1", this).unit("mV").multiplier(2))), new ModbusRegisterRange(371, new //
UnsignedDoublewordElement(//
371, voltageL2 = new ModbusReadLongChannel("VoltageL2", this).unit("mV").multiplier(2))), new ModbusRegisterRange(372, new //
UnsignedDoublewordElement(//
372, voltageL3 = new ModbusReadLongChannel("VoltageL3", this).unit("mV").multiplier(2))), new ModbusRegisterRange(373, new //
UnsignedDoublewordElement(//
373, frequencyL1 = new ModbusReadLongChannel("FrequencyL1", this).unit("mHZ").multiplier(1))), new ModbusRegisterRange(374, new //
UnsignedDoublewordElement(//
374, frequencyL1 = new ModbusReadLongChannel("FrequencyL2", this).unit("mHZ").multiplier(1))), new ModbusRegisterRange(375, new //
UnsignedDoublewordElement(//
375, frequencyL1 = new ModbusReadLongChannel("FrequencyL3", this).unit("mHZ").multiplier(1))), new ModbusRegisterRange(376, new //
UnsignedDoublewordElement(//
376, currentL1 = new ModbusReadLongChannel("CurrentL1", this).unit("mA").multiplier(2))), new ModbusRegisterRange(377, new //
UnsignedDoublewordElement(//
377, currentL2 = new ModbusReadLongChannel("CurrentL2", this).unit("mA").multiplier(2))), new ModbusRegisterRange(378, new //
UnsignedDoublewordElement(//
378, currentL3 = new ModbusReadLongChannel("CurrentL3", this).unit("mA").multiplier(2))), new ModbusRegisterRange(379, new //
SignedDoublewordElement(//
379, cosPhiL1 = new ModbusReadLongChannel("CosPhiL1", this))), new ModbusRegisterRange(380, new //
SignedDoublewordElement(//
380, cosPhiL2 = new ModbusReadLongChannel("CosPhiL2", this))), new ModbusRegisterRange(381, new //
SignedDoublewordElement(//
381, cosPhiL3 = new ModbusReadLongChannel("SocPhiL3", this))), new ModbusRegisterRange(382, new //
SignedDoublewordElement(//
382, activePowerL1 = new ModbusReadLongChannel("ActivePowerL1", this).unit("W").multiplier(-2))), new ModbusRegisterRange(383, new //
SignedDoublewordElement(//
383, activePowerL2 = new ModbusReadLongChannel("ActivePowerL2", this).unit("W").multiplier(-2))), new ModbusRegisterRange(384, new //
SignedDoublewordElement(//
384, activePowerL3 = new ModbusReadLongChannel("ActivePowerL3", this).unit("W").multiplier(-2))));
activePower = new FunctionalReadChannel<Long>("ActivePower", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
Long value = 0L;
for (ReadChannel<Long> channel : channels) {
if (channel.valueOptional().isPresent()) {
value += channel.valueOptional().get();
} else {
return null;
}
}
return value;
}
}, activePowerL1, activePowerL2, activePowerL3);
reactivePowerL1 = new FunctionalReadChannel<Long>("ReactivePowerL1", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
if (channels.length == 2 && channels[0].valueOptional().isPresent() && channels[1].valueOptional().isPresent()) {
return ControllerUtils.calculateReactivePower(channels[0].valueOptional().get(), ((double) channels[1].valueOptional().get()) / 100.0, false);
}
return null;
}
}, activePowerL1, cosPhiL1);
reactivePowerL2 = new FunctionalReadChannel<Long>("ReactivePowerL2", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
if (channels.length == 2 && channels[0].valueOptional().isPresent() && channels[1].valueOptional().isPresent()) {
return ControllerUtils.calculateReactivePower(channels[0].valueOptional().get(), ((double) channels[1].valueOptional().get()) / 100.0, false);
}
return null;
}
}, activePowerL2, cosPhiL2);
reactivePowerL3 = new FunctionalReadChannel<Long>("ReactivePowerL3", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
if (channels.length == 2 && channels[0].valueOptional().isPresent() && channels[1].valueOptional().isPresent()) {
return ControllerUtils.calculateReactivePower(channels[0].valueOptional().get(), ((double) channels[1].valueOptional().get()) / 100.0, false);
}
return null;
}
}, activePowerL3, cosPhiL3);
reactivePower = new FunctionalReadChannel<Long>("ReactivePower", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
Long value = 0L;
for (ReadChannel<Long> channel : channels) {
if (channel.valueOptional().isPresent()) {
value += channel.valueOptional().get();
} else {
return null;
}
}
return value;
}
}, reactivePowerL1, reactivePowerL2, reactivePowerL3);
apparentPower = new FunctionalReadChannel<Long>("ApparentPower", this, new FunctionalReadChannelFunction<Long>() {
@Override
public Long handle(@SuppressWarnings("unchecked") ReadChannel<Long>... channels) throws InvalidValueException {
if (channels.length == 2 && channels[0].valueOptional().isPresent() && channels[1].valueOptional().isPresent()) {
return ControllerUtils.calculateApparentPower(channels[0].valueOptional().get(), channels[1].valueOptional().get());
}
return null;
}
}, activePower, reactivePower);
return protocol;
}
use of io.openems.impl.protocol.modbus.internal.UnsignedDoublewordElement in project openems by OpenEMS.
the class FeneconProPvMeter method defineModbusProtocol.
@Override
protected ModbusProtocol defineModbusProtocol() throws ConfigException {
ModbusProtocol protocol = new //
ModbusProtocol(new ModbusRegisterRange(121, new //
UnsignedWordElement(//
121, voltageL1 = new ModbusReadLongChannel("VoltageL1", this).unit("mV").multiplier(2)), new //
UnsignedWordElement(//
122, voltageL2 = new ModbusReadLongChannel("VoltageL2", this).unit("mV").multiplier(2)), new //
UnsignedWordElement(//
123, voltageL3 = new ModbusReadLongChannel("VoltageL3", this).unit("mV").multiplier(2))), new //
ModbusRegisterRange(//
2035, new //
UnsignedDoublewordElement(//
2035, activeEnergyL1 = new ModbusReadLongChannel("ActiveEnergyL1", this).unit("Wh").multiplier(2)), new DummyElement(2037, 2065), new //
UnsignedWordElement(//
2066, orginalActivePowerL1 = new ModbusReadLongChannel("OriginalActivePowerL1", this).unit("W").delta(10000L))), new //
ModbusRegisterRange(//
2135, new //
UnsignedDoublewordElement(//
2135, activeEnergyL2 = new ModbusReadLongChannel("ActiveEnergyL2", this).unit("Wh").multiplier(2)), new DummyElement(2137, 2165), new //
UnsignedWordElement(//
2166, orginalActivePowerL2 = new ModbusReadLongChannel("OriginalActivePowerL2", this).unit("W").delta(10000L))), new //
ModbusRegisterRange(//
2235, new //
UnsignedDoublewordElement(//
2235, activeEnergyL3 = new ModbusReadLongChannel("ActiveEnergyL3", this).unit("Wh").multiplier(2)), new DummyElement(2237, 2265), new //
UnsignedWordElement(//
2266, orginalActivePowerL3 = new ModbusReadLongChannel("OriginalActivePowerL3", this).unit("W").delta(10000L))));
activePowerL1 = new FunctionalReadChannel<Long>("ActivePowerL1", this, (channels) -> {
ReadChannel<Long> power = channels[0];
try {
if (power.value() >= 0) {
this.negativePowerL1.setValue(false);
return power.value();
} else {
this.negativePowerL1.setValue(true);
return 0L;
}
} catch (InvalidValueException e) {
return null;
}
}, orginalActivePowerL1);
activePowerL2 = new FunctionalReadChannel<Long>("ActivePowerL2", this, (channels) -> {
ReadChannel<Long> power = channels[0];
try {
if (power.value() >= 0) {
this.negativePowerL2.setValue(false);
return power.value();
} else {
this.negativePowerL2.setValue(true);
return 0L;
}
} catch (InvalidValueException e) {
return null;
}
}, orginalActivePowerL2);
activePowerL3 = new FunctionalReadChannel<Long>("ActivePowerL3", this, (channels) -> {
ReadChannel<Long> power = channels[0];
try {
if (power.value() >= 0) {
this.negativePowerL3.setValue(false);
return power.value();
} else {
this.negativePowerL3.setValue(true);
return 0L;
}
} catch (InvalidValueException e) {
return null;
}
}, orginalActivePowerL3);
activePower = new FunctionalReadChannel<Long>("ActivePower", this, (channels) -> {
ReadChannel<Long> L1 = channels[0];
ReadChannel<Long> L2 = channels[1];
ReadChannel<Long> L3 = channels[2];
try {
return L1.value() + L2.value() + L3.value();
} catch (InvalidValueException e) {
return null;
}
}, activePowerL1, activePowerL2, activePowerL3);
reactivePower = new FunctionalReadChannel<Long>("ReactivePower", this, (channels) -> {
ReadChannel<Long> L1 = channels[0];
ReadChannel<Long> L2 = channels[1];
ReadChannel<Long> L3 = channels[2];
try {
return L1.value() + L2.value() + L3.value();
} catch (InvalidValueException e) {
return null;
}
}, reactivePowerL1, reactivePowerL2, reactivePowerL3);
return protocol;
}
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