public void getVoltage_Vph_n(byte[] voltage_Vph_n) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(voltage_Vph_n); smartMeterData.Voltage_Va_n_1 = temp[3]; smartMeterData.Voltage_Vb_n_3 = temp[2]; smartMeterData.Voltage_Vc_n_5 = temp[1]; smartMeterData.Average_Voltage_Vph_n_57 = temp[0]; }
public void getPower_Factor(byte[] power_Factor) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(power_Factor); smartMeterData.Power_Factor_a_37 = temp[3]; smartMeterData.Power_Factor_b_39 = temp[2]; smartMeterData.Power_Factor_c_41 = temp[1]; smartMeterData.Power_Factor_Total_69 = temp[0]; }
public void getActive_Energy(byte[] active_Energy) { CTConver conver = new CTConver(); double[] tempD = new double[4]; tempD = conver.ConvertToDoubleArray(active_Energy); smartMeterData.Active_Energy_Import_Tariff_1_801 = tempD[3]; smartMeterData.Active_Energy_Import_Tariff_2_805 = tempD[2]; smartMeterData.Active_Energy_Export_Tariff_1_809 = tempD[1]; smartMeterData.Active_Energy_Export_Tariff_2_813 = tempD[0]; }
public void getReactive_Power(byte[] reactive_Power) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(reactive_Power); smartMeterData.Reactive_Power_a_31 = temp[3]; smartMeterData.Reactive_Power_b_33 = temp[2]; smartMeterData.Reactive_Power_c_35 = temp[1]; smartMeterData.Reactive_Power_Total_67 = temp[0]; }
public void getActive_Power(byte[] active_Power) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(active_Power); smartMeterData.Active_Power_a_25 = temp[3]; smartMeterData.Active_Power_b_27 = temp[2]; smartMeterData.Active_Power_c_29 = temp[1]; smartMeterData.Total_Active_Power_65 = temp[0]; }
public void getApparent_Power(byte[] apparent_Power) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(apparent_Power); smartMeterData.Apparent_Power_a_19 = temp[3]; smartMeterData.Apparent_Power_b_21 = temp[2]; smartMeterData.Apparent_Power_c_23 = temp[1]; smartMeterData.Apparent_Power_Total_63 = temp[0]; }
public void getCurrent(byte[] current) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(current); smartMeterData.Current_a_13 = temp[3]; smartMeterData.Current_b_15 = temp[2]; smartMeterData.Current_c_17 = temp[1]; smartMeterData.Average_current_295 = temp[0]; }
public void getVoltage_Vph_ph(byte[] voltage_Vph_ph) { CTConver conver = new CTConver(); float[] temp = new float[4]; temp = conver.ConvertToFloatArray(voltage_Vph_ph); smartMeterData.Voltage_Va_b_7 = temp[3]; smartMeterData.Voltage_Vb_c_9 = temp[2]; smartMeterData.Voltage_Vc_a_11 = temp[1]; smartMeterData.Average_Voltage_Vph_ph_59 = temp[0]; }
/// <summary> /// 读取四组寄存器值其中前三个是连续的寄存器值 /// </summary> /// <param name="startAddress1">三组连续寄存器的首地址,每组两个寄存器,值类型为float</param> /// <param name="startAddress2">一组不连续寄存器的首地址,读两个寄存器,值类型为float</param> /// <returns>读到的四组寄存器值</returns> public byte[] read_floatRegisters(ushort startAddress1, ushort startAddress2) { byte[] bholdregs1 = new byte[12]; bholdregs1 = sg.ReadHoldingRegisters(startAddress1, 6, bholdregs1).Result; byte[] bholdregs2 = new byte[4]; bholdregs2 = sg.ReadHoldingRegisters(startAddress2, 2, bholdregs2).Result; CTConver conver = new CTConver(); byte[] bholdregs = new byte[16]; bholdregs = conver.addByte(bholdregs1, bholdregs2); return(bholdregs); }