namespace InnovEnergy.Lib.Devices.Trumpf.TruConvertAc; public static class AcControlRegisters { public const UInt16 Date = 1001; public const UInt16 Time = 1003; public const UInt16 IpAddress = 1005; public const UInt16 Subnet = 1007; public const UInt16 Gateway = 1009; public const UInt16 ResetParamToDefault = 1011; public const UInt16 CommunicationTimeout = 1017; public const UInt16 RestartFlag = 1018; public const UInt16 ConnectedSystemConfig = 1019; public const UInt16 UpdateSwTrigger = 1027; public const UInt16 AutomaticSwUpdate = 1028; public const UInt16 CustomerValuesSaveReset = 1029; public const UInt16 SerialNumberSystemControl = 2001; public const UInt16 SerialNumberAcDc = 2009; public const UInt16 IntegrationLevel = 2051; public const UInt16 IlBuildnumber = 2052; public const UInt16 PowerStageConfig = 4001; public const UInt16 SetValueConfig = 4002; public const UInt16 ResetsAlarmAndWarning = 4003; public const UInt16 PreChargeDcLinkConfigR = 4006; public const UInt16 ReferenceFrameConvention = 4007; public const UInt16 SlaveAddress = 4008; public const UInt16 ErrorHandlingPolicy = 4009; public const UInt16 GridType = 4010; public const UInt16 SubSlaveAddress = 4011; public const UInt16 ModbusSlaveId = 4012; public const UInt16 SubSlaveErrorPolicy = 4013; public const UInt16 SignedPowerNominalValue = 4196; public const UInt16 SignedPowerSetValueL1 = 4197; public const UInt16 SignedPowerSetValueL2 = 4198; public const UInt16 SignedPowerSetValueL3 = 4199; public const UInt16 PowerSetValue = 4200; public const UInt16 PowerSetValueL1 = 4201; public const UInt16 PowerSetValueL2 = 4202; public const UInt16 PowerSetValueL3 = 4203; public const UInt16 MaximumGridCurrentRmsL1 = 4204; public const UInt16 MaximumGridCurrentRmsL2 = 4205; public const UInt16 MaximumGridCurrentRmsL3 = 4206; public const UInt16 CosPhiSetValueL1 = 4207; public const UInt16 CosPhiSetValueL2 = 4208; public const UInt16 CosPhiSetValueL3 = 4209; public const UInt16 PhaseL1IsCapacitive = 4214; // True = Capacitive, false = Inductive public const UInt16 PhaseL2IsCapacitive = 4215; // True = Capacitive, false = Inductive public const UInt16 PhaseL3IsCapacitive = 4216; // True = Capacitive, false = Inductive public const UInt16 PhasesAreCapacitive = 4217; // True = Capacitive, false = Inductive public const UInt16 SetPointCosPhi = 4218; public const UInt16 SetPointSinPhi = 4219; public const UInt16 SetPointSinPhiL1 = 4220; public const UInt16 SetPointSinPhiL2 = 4221; public const UInt16 SetPointSinPhiL3 = 4222; public const UInt16 FrequencyOffsetIm = 4223; //Im: Island mode public const UInt16 VoltageAdjustmentFactorIm = 4224; //Im: Island mode public const UInt16 PreChargeDcLinkVoltage = 4226; public const UInt16 MaxPeakCurrentVoltageControlL1 = 4227; public const UInt16 MaxPeakCurrentVoltageControlL2 = 4228; public const UInt16 MaxPeakCurrentVoltageControlL3 = 4229; public const UInt16 GridFormingMode = 4230; public const UInt16 DcLinkReferenceVoltage = 4231; public const UInt16 DcLinkMinVoltage = 4232; public const UInt16 DcLinkMaxVoltage = 4233; public const UInt16 AcDcDcVoltageRefUs = 4234; public const UInt16 AcDcMinDcLinkVoltageUs = 4235; public const UInt16 AcDcMaxDcLinkVoltageUs = 4236; // public const UInt16 FrequencySlopeIslandMode = 4237, // Function fN = f(active grid-power) of droop control // public const UInt16 VoltageSlopeIslandMode = 4238, // VN = f(reactive grid power) of droop control in island operation. public const UInt16 AcDcGcBypassMode = 4281; public const UInt16 AcDcGcPMaxThresholdPercent = 4282; // res public const UInt16 AcDcGcStartupRampEnable = 4283; public const UInt16 DcConfigModule = 4301; // 0 = DC module is off, battery voltage can be measured // 1 = DC module is active (DC link voltage control) // 2 = DC module is active(current source mode orin DC droop mode) public const UInt16 DcDcPowerDistribution = 4304; public const UInt16 AcDcDistributionMode = 4307; }