/// <summary> /// Updates the Properties used in InternalData. /// </summary> /// <param name="data">The BControl data.</param> public void Refresh(BControlData data) { if (data != null) { ActiveEnergyPlus = data.ActiveEnergyPlus; ActiveEnergyMinus = data.ActiveEnergyMinus; ReactiveEnergyPlus = data.ReactiveEnergyPlus; ReactiveEnergyMinus = data.ReactiveEnergyMinus; ApparentEnergyPlus = data.ApparentEnergyPlus; ApparentEnergyMinus = data.ApparentEnergyMinus; ActiveEnergyPlusL1 = data.ActiveEnergyPlusL1; ActiveEnergyMinusL1 = data.ActiveEnergyMinusL1; ReactiveEnergyPlusL1 = data.ReactiveEnergyPlusL1; ReactiveEnergyMinusL1 = data.ReactiveEnergyMinusL1; ApparentEnergyPlusL1 = data.ApparentEnergyPlusL1; ApparentEnergyMinusL1 = data.ApparentEnergyMinusL1; ActiveEnergyPlusL2 = data.ActiveEnergyPlusL2; ActiveEnergyMinusL2 = data.ActiveEnergyMinusL2; ReactiveEnergyPlusL2 = data.ReactiveEnergyPlusL2; ReactiveEnergyMinusL2 = data.ReactiveEnergyMinusL2; ApparentEnergyPlusL2 = data.ApparentEnergyPlusL2; ApparentEnergyMinusL2 = data.ApparentEnergyMinusL2; ActiveEnergyPlusL3 = data.ActiveEnergyPlusL3; ActiveEnergyMinusL3 = data.ActiveEnergyMinusL3; ReactiveEnergyPlusL3 = data.ReactiveEnergyPlusL3; ReactiveEnergyMinusL3 = data.ReactiveEnergyMinusL3; ApparentEnergyPlusL3 = data.ApparentEnergyPlusL3; ApparentEnergyMinusL3 = data.ApparentEnergyMinusL3; } Status = data?.Status ?? Uncertain; }
/// <summary> /// Updates the Properties used in InternalData. /// </summary> /// <param name="data">The BControl data.</param> public void Refresh(BControlData data) { if (data != null) { ManufacturerID = data.ManufacturerID; ProductID = data.ProductID; ProductVersion = data.ProductVersion; FirmwareVersion = data.FirmwareVersion; VendorName = data.VendorName; ProductName = data.ProductName; SerialNumber = data.SerialNumber; } Status = data?.Status ?? Uncertain; }
/// <summary> /// Updates the Properties used in InternalData. /// </summary> /// <param name="data">The BControl data.</param> public void Refresh(BControlData data) { if (data != null) { ActivePowerPlus = data.ActivePowerPlus; ActivePowerMinus = data.ActivePowerMinus; ReactivePowerPlus = data.ReactivePowerPlus; ReactivePowerMinus = data.ReactivePowerMinus; ApparentPowerPlus = data.ApparentPowerPlus; ApparentPowerMinus = data.ApparentPowerMinus; PowerFactor = data.PowerFactor; LineFrequency = data.LineFrequency; ActivePowerPlusL1 = data.ActivePowerPlusL1; ActivePowerMinusL1 = data.ActivePowerMinusL1; ReactivePowerPlusL1 = data.ReactivePowerPlusL1; ReactivePowerMinusL1 = data.ReactivePowerMinusL1; ApparentPowerPlusL1 = data.ApparentPowerPlusL1; ApparentPowerMinusL1 = data.ApparentPowerMinusL1; CurrentL1 = data.CurrentL1; VoltageL1 = data.VoltageL1; PowerFactorL1 = data.PowerFactorL1; ActivePowerPlusL2 = data.ActivePowerPlusL2; ActivePowerMinusL2 = data.ActivePowerMinusL2; ReactivePowerPlusL2 = data.ReactivePowerPlusL2; ReactivePowerMinusL2 = data.ReactivePowerMinusL2; ApparentPowerPlusL2 = data.ApparentPowerPlusL2; ApparentPowerMinusL2 = data.ApparentPowerMinusL2; CurrentL2 = data.CurrentL2; VoltageL2 = data.VoltageL2; PowerFactorL2 = data.PowerFactorL2; ActivePowerPlusL3 = data.ActivePowerPlusL3; ActivePowerMinusL3 = data.ActivePowerMinusL3; ReactivePowerPlusL3 = data.ReactivePowerPlusL3; ReactivePowerMinusL3 = data.ReactivePowerMinusL3; ApparentPowerPlusL3 = data.ApparentPowerPlusL3; ApparentPowerMinusL3 = data.ApparentPowerMinusL3; CurrentL3 = data.CurrentL3; VoltageL3 = data.VoltageL3; PowerFactorL3 = data.PowerFactorL3; } Status = data?.Status ?? Uncertain; }
/// <summary> /// Updates the Properties used in InternalData. /// </summary> /// <param name="data">The BControl data.</param> public void Refresh(BControlData data) { if (data != null) { C_SunSpec_ID = data.C_SunSpec_ID; C_SunSpec_DID1 = data.C_SunSpec_DID1; C_SunSpec_Length1 = data.C_SunSpec_Length1; C_Manufacturer = data.C_Manufacturer; C_Model = data.C_Model; C_Options = data.C_Options; C_Version = data.C_Version; C_SerialNumber = data.C_SerialNumber; C_DeviceAddress = data.C_DeviceAddress; C_SunSpec_DID2 = data.C_SunSpec_DID2; C_SunSpec_Length2 = data.C_SunSpec_Length2; M_AC_Current = data.M_AC_Current; M_AC_Current_A = data.M_AC_Current_A; M_AC_Current_B = data.M_AC_Current_B; M_AC_Current_C = data.M_AC_Current_C; M_AC_Current_SF = data.M_AC_Current_SF; M_AC_Voltage_LN = data.M_AC_Voltage_LN; M_AC_Voltage_AN = data.M_AC_Voltage_AN; M_AC_Voltage_BN = data.M_AC_Voltage_BN; M_AC_Voltage_CN = data.M_AC_Voltage_CN; M_AC_Voltage_LL = data.M_AC_Voltage_LL; M_AC_Voltage_AB = data.M_AC_Voltage_AB; M_AC_Voltage_BC = data.M_AC_Voltage_BC; M_AC_Voltage_CA = data.M_AC_Voltage_CA; M_AC_Voltage_SF = data.M_AC_Voltage_SF; M_AC_Freq = data.M_AC_Freq; M_AC_Freq_SF = data.M_AC_Freq_SF; M_AC_Power = data.M_AC_Power; M_AC_Power_A = data.M_AC_Power_A; M_AC_Power_B = data.M_AC_Power_B; M_AC_Power_C = data.M_AC_Power_C; M_AC_Power_SF = data.M_AC_Power_SF; M_AC_VA = data.M_AC_VA; M_AC_VA_A = data.M_AC_VA_A; M_AC_VA_B = data.M_AC_VA_B; M_AC_VA_C = data.M_AC_VA_C; M_AC_VA_SF = data.M_AC_VA_SF; M_AC_VAR = data.M_AC_VAR; M_AC_VAR_A = data.M_AC_VAR_A; M_AC_VAR_B = data.M_AC_VAR_B; M_AC_VAR_C = data.M_AC_VAR_C; M_AC_VAR_SF = data.M_AC_VAR_SF; M_AC_PF = data.M_AC_PF; M_AC_PF_A = data.M_AC_PF_A; M_AC_PF_B = data.M_AC_PF_B; M_AC_PF_C = data.M_AC_PF_C; M_AC_PF_SF = data.M_AC_PF_SF; M_Exported = data.M_Exported; M_Exported_A = data.M_Exported_A; M_Exported_B = data.M_Exported_B; M_Exported_C = data.M_Exported_C; M_Imported = data.M_Imported; M_Imported_A = data.M_Imported_A; M_Imported_B = data.M_Imported_B; M_Imported_C = data.M_Imported_C; M_Energy_W_SF = data.M_Energy_W_SF; M_Exported_VA = data.M_Exported_VA; M_Exported_VA_A = data.M_Exported_VA_A; M_Exported_VA_B = data.M_Exported_VA_B; M_Exported_VA_C = data.M_Exported_VA_C; M_Imported_VA = data.M_Imported_VA; M_Imported_VA_A = data.M_Imported_VA_A; M_Imported_VA_B = data.M_Imported_VA_B; M_Imported_VA_C = data.M_Imported_VA_C; M_Energy_VA_SF = data.M_Energy_VA_SF; M_Import_VARh_Q1 = data.M_Import_VARh_Q1; M_Import_VARh_Q1A = data.M_Import_VARh_Q1A; M_Import_VARh_Q1B = data.M_Import_VARh_Q1B; M_Import_VARh_Q1C = data.M_Import_VARh_Q1C; M_Import_VARh_Q2 = data.M_Import_VARh_Q2; M_Import_VARh_Q2A = data.M_Import_VARh_Q2A; M_Import_VARh_Q2B = data.M_Import_VARh_Q2B; M_Import_VARh_Q2C = data.M_Import_VARh_Q2C; M_Import_VARh_Q3 = data.M_Import_VARh_Q3; M_Import_VARh_Q3A = data.M_Import_VARh_Q3A; M_Import_VARh_Q3B = data.M_Import_VARh_Q3B; M_Import_VARh_Q3C = data.M_Import_VARh_Q3C; M_Import_VARh_Q4 = data.M_Import_VARh_Q4; M_Import_VARh_Q4A = data.M_Import_VARh_Q4A; M_Import_VARh_Q4B = data.M_Import_VARh_Q4B; M_Import_VARh_Q4C = data.M_Import_VARh_Q4C; M_Energy_VAR_SF = data.M_Energy_VAR_SF; M_Events = data.M_Events; C_SunSpec_DID3 = data.C_SunSpec_DID3; C_SunSpec_Length3 = data.C_SunSpec_Length3; } Status = data?.Status ?? Uncertain; }
/// <summary> /// Updates all the Properties. /// </summary> /// <param name="data">The BControl data.</param> public void Refresh(BControlData data) { if (data != null) { // Internal immediate registers ActivePowerPlus = data.ActivePowerPlus; ActivePowerMinus = data.ActivePowerMinus; ReactivePowerPlus = data.ReactivePowerPlus; ReactivePowerMinus = data.ReactivePowerMinus; ApparentPowerPlus = data.ApparentPowerPlus; ApparentPowerMinus = data.ApparentPowerMinus; PowerFactor = data.PowerFactor; LineFrequency = data.LineFrequency; ActivePowerPlusL1 = data.ActivePowerPlusL1; ActivePowerMinusL1 = data.ActivePowerMinusL1; ReactivePowerPlusL1 = data.ReactivePowerPlusL1; ReactivePowerMinusL1 = data.ReactivePowerMinusL1; ApparentPowerPlusL1 = data.ApparentPowerPlusL1; ApparentPowerMinusL1 = data.ApparentPowerMinusL1; CurrentL1 = data.CurrentL1; VoltageL1 = data.VoltageL1; PowerFactorL1 = data.PowerFactorL1; ActivePowerPlusL2 = data.ActivePowerPlusL2; ActivePowerMinusL2 = data.ActivePowerMinusL2; ReactivePowerPlusL2 = data.ReactivePowerPlusL2; ReactivePowerMinusL2 = data.ReactivePowerMinusL2; ApparentPowerPlusL2 = data.ApparentPowerPlusL2; ApparentPowerMinusL2 = data.ApparentPowerMinusL2; CurrentL2 = data.CurrentL2; VoltageL2 = data.VoltageL2; PowerFactorL2 = data.PowerFactorL2; ActivePowerPlusL3 = data.ActivePowerPlusL3; ActivePowerMinusL3 = data.ActivePowerMinusL3; ReactivePowerPlusL3 = data.ReactivePowerPlusL3; ReactivePowerMinusL3 = data.ReactivePowerMinusL3; ApparentPowerPlusL3 = data.ApparentPowerPlusL3; ApparentPowerMinusL3 = data.ApparentPowerMinusL3; CurrentL3 = data.CurrentL3; VoltageL3 = data.VoltageL3; PowerFactorL3 = data.PowerFactorL3; //Internal energy registers(meters) ActiveEnergyPlus = data.ActiveEnergyPlus; ActiveEnergyMinus = data.ActiveEnergyMinus; ReactiveEnergyPlus = data.ReactiveEnergyPlus; ReactiveEnergyMinus = data.ReactiveEnergyMinus; ApparentEnergyPlus = data.ApparentEnergyPlus; ApparentEnergyMinus = data.ApparentEnergyMinus; ActiveEnergyPlusL1 = data.ActiveEnergyPlusL1; ActiveEnergyMinusL1 = data.ActiveEnergyMinusL1; ReactiveEnergyPlusL1 = data.ReactiveEnergyPlusL1; ReactiveEnergyMinusL1 = data.ReactiveEnergyMinusL1; ApparentEnergyPlusL1 = data.ApparentEnergyPlusL1; ApparentEnergyMinusL1 = data.ApparentEnergyMinusL1; ActiveEnergyPlusL2 = data.ActiveEnergyPlusL2; ActiveEnergyMinusL2 = data.ActiveEnergyMinusL2; ReactiveEnergyPlusL2 = data.ReactiveEnergyPlusL2; ReactiveEnergyMinusL2 = data.ReactiveEnergyMinusL2; ApparentEnergyPlusL2 = data.ApparentEnergyPlusL2; ApparentEnergyMinusL2 = data.ApparentEnergyMinusL2; ActiveEnergyPlusL3 = data.ActiveEnergyPlusL3; ActiveEnergyMinusL3 = data.ActiveEnergyMinusL3; ReactiveEnergyPlusL3 = data.ReactiveEnergyPlusL3; ReactiveEnergyMinusL3 = data.ReactiveEnergyMinusL3; ApparentEnergyPlusL3 = data.ApparentEnergyPlusL3; ApparentEnergyMinusL3 = data.ApparentEnergyMinusL3; // PnP registers ManufacturerID = data.ManufacturerID; ProductID = data.ProductID; ProductVersion = data.ProductVersion; FirmwareVersion = data.FirmwareVersion; VendorName = data.VendorName; ProductName = data.ProductName; SerialNumber = data.SerialNumber; // SunSpec registers C_SunSpec_ID = data.C_SunSpec_ID; C_SunSpec_DID1 = data.C_SunSpec_DID1; C_SunSpec_Length1 = data.C_SunSpec_Length1; C_Manufacturer = data.C_Manufacturer; C_Model = data.C_Model; C_Options = data.C_Options; C_Version = data.C_Version; C_SerialNumber = data.C_SerialNumber; C_DeviceAddress = data.C_DeviceAddress; C_SunSpec_DID2 = data.C_SunSpec_DID2; C_SunSpec_Length2 = data.C_SunSpec_Length2; M_AC_Current = data.M_AC_Current; M_AC_Current_A = data.M_AC_Current_A; M_AC_Current_B = data.M_AC_Current_B; M_AC_Current_C = data.M_AC_Current_C; M_AC_Current_SF = data.M_AC_Current_SF; M_AC_Voltage_LN = data.M_AC_Voltage_LN; M_AC_Voltage_AN = data.M_AC_Voltage_AN; M_AC_Voltage_BN = data.M_AC_Voltage_BN; M_AC_Voltage_CN = data.M_AC_Voltage_CN; M_AC_Voltage_LL = data.M_AC_Voltage_LL; M_AC_Voltage_AB = data.M_AC_Voltage_AB; M_AC_Voltage_BC = data.M_AC_Voltage_BC; M_AC_Voltage_CA = data.M_AC_Voltage_CA; M_AC_Voltage_SF = data.M_AC_Voltage_SF; M_AC_Freq = data.M_AC_Freq; M_AC_Freq_SF = data.M_AC_Freq_SF; M_AC_Power = data.M_AC_Power; M_AC_Power_A = data.M_AC_Power_A; M_AC_Power_B = data.M_AC_Power_B; M_AC_Power_C = data.M_AC_Power_C; M_AC_Power_SF = data.M_AC_Power_SF; M_AC_VA = data.M_AC_VA; M_AC_VA_A = data.M_AC_VA_A; M_AC_VA_B = data.M_AC_VA_B; M_AC_VA_C = data.M_AC_VA_C; M_AC_VA_SF = data.M_AC_VA_SF; M_AC_VAR = data.M_AC_VAR; M_AC_VAR_A = data.M_AC_VAR_A; M_AC_VAR_B = data.M_AC_VAR_B; M_AC_VAR_C = data.M_AC_VAR_C; M_AC_VAR_SF = data.M_AC_VAR_SF; M_AC_PF = data.M_AC_PF; M_AC_PF_A = data.M_AC_PF_A; M_AC_PF_B = data.M_AC_PF_B; M_AC_PF_C = data.M_AC_PF_C; M_AC_PF_SF = data.M_AC_PF_SF; M_Exported = data.M_Exported; M_Exported_A = data.M_Exported_A; M_Exported_B = data.M_Exported_B; M_Exported_C = data.M_Exported_C; M_Imported = data.M_Imported; M_Imported_A = data.M_Imported_A; M_Imported_B = data.M_Imported_B; M_Imported_C = data.M_Imported_C; M_Energy_W_SF = data.M_Energy_W_SF; M_Exported_VA = data.M_Exported_VA; M_Exported_VA_A = data.M_Exported_VA_A; M_Exported_VA_B = data.M_Exported_VA_B; M_Exported_VA_C = data.M_Exported_VA_C; M_Imported_VA = data.M_Imported_VA; M_Imported_VA_A = data.M_Imported_VA_A; M_Imported_VA_B = data.M_Imported_VA_B; M_Imported_VA_C = data.M_Imported_VA_C; M_Energy_VA_SF = data.M_Energy_VA_SF; M_Import_VARh_Q1 = data.M_Import_VARh_Q1; M_Import_VARh_Q1A = data.M_Import_VARh_Q1A; M_Import_VARh_Q1B = data.M_Import_VARh_Q1B; M_Import_VARh_Q1C = data.M_Import_VARh_Q1C; M_Import_VARh_Q2 = data.M_Import_VARh_Q2; M_Import_VARh_Q2A = data.M_Import_VARh_Q2A; M_Import_VARh_Q2B = data.M_Import_VARh_Q2B; M_Import_VARh_Q2C = data.M_Import_VARh_Q2C; M_Import_VARh_Q3 = data.M_Import_VARh_Q3; M_Import_VARh_Q3A = data.M_Import_VARh_Q3A; M_Import_VARh_Q3B = data.M_Import_VARh_Q3B; M_Import_VARh_Q3C = data.M_Import_VARh_Q3C; M_Import_VARh_Q4 = data.M_Import_VARh_Q4; M_Import_VARh_Q4A = data.M_Import_VARh_Q4A; M_Import_VARh_Q4B = data.M_Import_VARh_Q4B; M_Import_VARh_Q4C = data.M_Import_VARh_Q4C; M_Energy_VAR_SF = data.M_Energy_VAR_SF; M_Events = data.M_Events; C_SunSpec_DID3 = data.C_SunSpec_DID3; C_SunSpec_Length3 = data.C_SunSpec_Length3; } Status = data?.Status ?? Uncertain; }