public IMukFlapWinterSummerReply03Telemetry Build() { var flapPwmSetting = _data[3] * 256 + _data[4]; var temperatureAddress1 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[5], _data[6]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var temperatureAddress2 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[7], _data[8]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var incomingSignals = new IncomingSignalsBuilder(_data[10]).Build(); var outgoingSignals = _data[12]; var analogInput = (_data[14] + _data[13] * 256) * 0.1; // voltage var automaticModeStage = new MukFlapWorkmodeStageBuilder(_data[16] + _data[15] * 256).Build(); var diagnostic1 = new MukFlapDiagnostic1Builder(_data[18] + _data[17] * 256).Build(); var diagnostic2 = new MukFlapDiagnostic2Builder(_data[20] + _data[19] * 256).Build(); var diagnostic3 = new MukFlapDiagnosticOneWireSensorBuilder(_data[22] + _data[21] * 256).Build(); var diagnostic4 = new MukFlapDiagnosticOneWireSensorBuilder(_data[24] + _data[23] * 256).Build(); var reserve11 = _data[26] + _data[25] * 256; var reserve12 = _data[28] + _data[27] * 256; var reserve13 = _data[30] + _data[29] * 256; var reserve14 = _data[32] + _data[31] * 256; var reserve15 = _data[34] + _data[33] * 256; var reserve16 = _data[36] + _data[35] * 256; var reserve17 = _data[38] + _data[37] * 256; var reserve18 = _data[40] + _data[39] * 256; var firmwareBuildNumber = _data[42] + _data[41] * 256; var reserve20 = _data[44] + _data[43] * 256; return(new MukFlapWinterSummerReply03Telemetry(flapPwmSetting, temperatureAddress1, temperatureAddress2, incomingSignals, outgoingSignals, analogInput, automaticModeStage, diagnostic1, diagnostic2, diagnostic3, diagnostic4, reserve11, reserve12, reserve13, reserve14, reserve15, reserve16, reserve17, reserve18, firmwareBuildNumber, reserve20)); }
public IMukFlapReturnAirReply03Telemetry Build() { var flapPwmSetting = _data[3] * 256 + _data[4]; var temperatureAddress1 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[5], _data[6]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var temperatureAddress2 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[7], _data[8]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var incomingSignals = new MukFlapReturnAirIncomingSignalsBuilder(_data[10]).Build(); var outgoingSignals = _data[12]; var outgoingSignalsDescription = new MukFlapReturnAirOutgoingSignalsBuilder(outgoingSignals).Build(); var analogInput = (_data[14] + _data[13] * 256) * 0.1; // voltage var automaticModeStage = new MukFlapWorkmodeStageBuilder(_data[16] + _data[15] * 250).Build(); var diagnostic1 = new MukFlapAirRecycleDiagnostic1Builder(_data[18] + _data[17] * 256).Build(); var diagnostic2 = new MukFlapDiagnostic2Builder(_data[20] + _data[19] * 256).Build(); var diagnostic3 = new MukFlapDiagnosticOneWireSensorBuilder(_data[22] + _data[21] * 256).Build(); var diagnostic4 = new MukFlapDiagnosticOneWireSensorBuilder(_data[24] + _data[23] * 256).Build(); var concentratorState = _data[26] + _data[25] * 256; var concentratorDrivers = _data[28] + _data[27] * 256; var concentratorVoltage = _data[30] + _data[29] * 256; var reserve14 = _data[32] + _data[31] * 256; var reserve15 = _data[34] + _data[33] * 256; var firmwareBuildNumber = _data[36] + _data[35] * 256; var reserve17 = _data[38] + _data[37] * 256; var reserve18 = _data[40] + _data[39] * 256; return(new MukFlapReturnAirReply03Telemetry( flapPwmSetting, temperatureAddress1, temperatureAddress2, incomingSignals, outgoingSignals, outgoingSignalsDescription, analogInput, automaticModeStage, diagnostic1, diagnostic2, diagnostic3, diagnostic4, concentratorState, new MukFlapReturnAirConcentratorStatusBuilderFromByte(_data[26]).Build(), concentratorDrivers, concentratorVoltage, reserve14, reserve15, firmwareBuildNumber, reserve17, reserve18)); }
public IMukFlapAirReply03Telemetry Build() { var flapPosition = _data[3] * 256 + _data[4]; var temperatureAddress1 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[5], _data[6]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var temperatureAddress2 = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[7], _data[8]), 0.01, 0.0, new BytesPair(0x85, 0x00)); var incomingSignals = new IncomingSignalsBuilder(_data[10]).Build(); var outgoingSignals = _data[12]; var analogInput = (_data[14] + _data[13] * 256) * 0.1; // voltage var automaticModeStage = new MukFlapWorkmodeStageBuilder(_data[16] + _data[15] * 250).Build(); var diagnostic1 = new MukFlapDiagnostic1Builder(_data[18] + _data[17] * 256).Build(); var diagnostic2 = new MukFlapDiagnostic2Builder(_data[20] + _data[19] * 256).Build(); var diagnostic3 = new MukFlapDiagnosticOneWireSensorBuilder(_data[22] + _data[21] * 256).Build(); var diagnostic4 = new MukFlapDiagnosticOneWireSensorBuilder(_data[24] + _data[23] * 256).Build(); var emersonDiagnostic = new EmersonDiagnosticBuilder(_data[26] + _data[25] * 256).Build(); var emersonTemperature = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[27], _data[28]), 0.01, 0.0, new BytesPair(0x7F, 0xFF)); var emersonPressure = new SensorIndicationDoubleBasedOnBytesPair(new BytesPair(_data[29], _data[30]), 0.01, 0.0, new BytesPair(0x7F, 0xFF)); var emersonValveSetting = _data[32] + _data[31] * 256; var firmwareBuildNumber = _data[34] + _data[33] * 256; return(new MukFlapReply03Telemetry( flapPosition, temperatureAddress1, temperatureAddress2, incomingSignals, outgoingSignals, analogInput, automaticModeStage, diagnostic1, diagnostic2, diagnostic3, diagnostic4, emersonDiagnostic, emersonTemperature, emersonPressure, emersonValveSetting, firmwareBuildNumber )); }