using System; using System.Collections; using System.Collections.Generic; using System.Diagnostics; using System.Runtime.InteropServices; using System.Threading; using Aitex.Core.RT.DataCenter; using Aitex.Core.RT.IOCore; using Aitex.Core.RT.Log; using Aitex.Core.Util; using Aitex.Core.WCF; using FurnaceSimulator.Views; using MECF.Framework.Simulator.Core.Commons; namespace FurnaceSimulator.Instances { public class SimulatorSystem : Singleton { private PeriodicJob _thread; private int _shuttleServoStation; private int _robotServoStation; Random _rd = new Random(); private List motionStationList; private Dictionary currentStationDic = new Dictionary(); private Dictionary currentPosDic = new Dictionary(); private Dictionary targetStationPosDic = new Dictionary(); private Dictionary isAutoMoveDic = new Dictionary(); private Dictionary logDic = new Dictionary(); private Dictionary timerDic = new Dictionary(); private RD_TRIG _smif1LoadTrig = new RD_TRIG(); private RD_TRIG _smif2LoadTrig = new RD_TRIG(); private RD_TRIG _smif1UnloadTrig = new RD_TRIG(); private RD_TRIG _smif2UnloadTrig = new RD_TRIG(); private RD_TRIG _smif1HomeTrig = new RD_TRIG(); private RD_TRIG _smif2HomeTrig = new RD_TRIG(); private Stopwatch _rAxisHomeTimer = new Stopwatch(); public SimulatorSystem() { } public void Initialize() { motionStationList = new List(); for (int i = 0; i < 100; i++) { if (motionStationList.Count == 0) { motionStationList.Add(0); } else { motionStationList.Add(motionStationList[motionStationList.Count - 1] + 10000); } } Singleton.Instance.Initialize(false); WcfServiceManager.Instance.Initialize(new Type[] { typeof(SimulatorPlc1), typeof(SimulatorPlc2), typeof(SimulatorPlc3), typeof(SimulatorPlc4), typeof(SimulatorPlc5), typeof(SimulatorPlc6), typeof(SimulatorPlc7), typeof(SimulatorPlc8), //typeof(SimulatorPlc9), }); SetDefaultValue(); _thread = new PeriodicJob(200, OnMonitor, nameof(SimulatorSystem), true); } public static Int16 Pres2Phy901P(double pressure) { var voltage = Math.Log10(pressure) + 6; var raw = voltage / 10.0 * 0x7fff; if (raw < 0) raw = 0; else if (raw > 0x7fff) raw = 0x7fff; return Convert.ToInt16(raw); } public double Phy2Pres901P(byte low, byte high) { Int16 rawValue = BitConverter.ToInt16(new byte[] { low, high }, 0); var voltage = Converter.Phy2Logic(rawValue, 1, 9, 3276.7, 29490.3); return Math.Pow(10.0, voltage - 6.0); } public static Int16 Pres2Phy974B(double pressure) { var voltage = (Math.Log10(pressure) + 11) / 2; var raw = voltage / 10.0 * 0x7fff; if (raw < 0) raw = 0; else if (raw > 0x7fff) raw = 0x7fff; return Convert.ToInt16(raw); } public double Phy2Pres974B(byte low, byte high) { Int16 rawValue = BitConverter.ToInt16(new byte[] { low, high }, 0); var voltage = Converter.Phy2Logic(rawValue, 1.5, 7, 4915.05, 22936.9); return Math.Pow(10.0, 2 * voltage - 11.0); } private SimpleSocketDeviceSimulator _SimpleSocketDeviceSimulator; private void SetDefaultValue() { IO.DI[$"PM1.DI_LP1FOUPInPosition1"].Value = true; IO.DI[$"PM1.DI_LP1FOUPInPosition2"].Value = true; IO.DI[$"PM1.DI_LP1FOUPInPosition3"].Value = true; IO.DI[$"PM1.DI_LP1FOUPDetect"].Value = true; IO.DI[$"PM1.DI_LP2FOUPInPosition1"].Value = true; IO.DI[$"PM1.DI_LP2FOUPInPosition2"].Value = true; IO.DI[$"PM1.DI_LP2FOUPInPosition3"].Value = true; IO.DI[$"PM1.DI_LP2FOUPDetect"].Value = true; IO.DI[$"PM1.DI_LP3FOUPInPosition1"].Value = true; IO.DI[$"PM1.DI_LP3FOUPInPosition2"].Value = true; IO.DI[$"PM1.DI_LP3FOUPInPosition3"].Value = true; IO.DI[$"PM1.DI_LP3FOUPDetect"].Value = true; IO.DI[$"PM1.DI_LP4FOUPInPosition1"].Value = true; IO.DI[$"PM1.DI_LP4FOUPInPosition2"].Value = true; IO.DI[$"PM1.DI_LP4FOUPInPosition3"].Value = true; IO.DI[$"PM1.DI_LP4FOUPDetect"].Value = true; IO.DI[$"PM1.DI_WaferRobotEX1AxisHomePosition"].Value = true; IO.DI[$"PM1.DI_WaferRobotEX2AxisHomePosition"].Value = true; IO.DI[$"PM1.DI_FBLightCurtainFault"].Value = false; IO.DI[$"PM1.DI_FBLightCurtainOSSD1"].Value = false; IO.DI[$"PM1.DI_FBLightCurtainOSSD2"].Value = false; IO.DI[$"PM1.DI_BoatRAxisAlarm"].Value = false; IO.DI[$"PM1.DI_LP1FOUPLeftClamp"].Value = false; IO.DI[$"PM1.DI_LP1FOUPRightClamp"].Value = false; IO.DI[$"PM1.DI_LP1FOUPLeftRelease"].Value = true; IO.DI[$"PM1.DI_LP1FOUPRightRelease"].Value = true; IO.DI[$"PM1.DI_LP2FOUPLeftClamp"].Value = false; IO.DI[$"PM1.DI_LP2FOUPRightClamp"].Value = false; IO.DI[$"PM1.DI_LP2FOUPLeftRelease"].Value = true; IO.DI[$"PM1.DI_LP2FOUPRightRelease"].Value = true; IO.DI[$"PM1.DI_BufferInPositionA1"].Value = true; IO.DI[$"PM1.DI_BufferInPositionB1"].Value = true; IO.DI[$"PM1.DI_BufferInPositionC1"].Value = true; IO.DI[$"PM1.DI_BufferInPositionD1"].Value = true; IO.DI[$"PM1.DI_BufferInPositionA2"].Value = true; IO.DI[$"PM1.DI_BufferInPositionB2"].Value = true; IO.DI[$"PM1.DI_BufferInPositionC2"].Value = true; IO.DI[$"PM1.DI_BufferInPositionD2"].Value = true; IO.DI[$"PM1.DI_BufferInPositionA3"].Value = true; IO.DI[$"PM1.DI_BufferInPositionB3"].Value = true; IO.DI[$"PM1.DI_BufferInPositionC3"].Value = true; IO.DI[$"PM1.DI_BufferInPositionD3"].Value = true; IO.DI[$"PM1.DI_BufferInPositionA4"].Value = true; IO.DI[$"PM1.DI_BufferInPositionB4"].Value = true; IO.DI[$"PM1.DI_BufferInPositionC4"].Value = true; IO.DI[$"PM1.DI_BufferInPositionD4"].Value = true; IO.AI[$"PM1.AI_APCHomeStatus"].FloatValue = 2; for (int i = 1; i < 10; i++) { if (IO.DI[$"PM1.DI_VAC{i}"] != null) { IO.DI[$"PM1.DI_VAC{i}"].Value = true; } } IO.DI[$"PM1.DI_BoatUnloadInterlock"].Value = true; IO.DI[$"PM1.DI_PS13LStatus"].Value = false; IO.DI[$"PM1.DI_FurnaceShutterOpened"].Value = true; IO.DI[$"PM1.DI_MiddlePos1BoatZAxis"].Value = true; IO.DI[$"PM1.DI_MiddlePos2BoatZAxis"].Value = true; IO.DI[$"PM1.DI_MiddlePos3BoatZAxis"].Value = true; IO.AI[$"PM1.AI_N26PurgePressure"].FloatValue = 2; for (int i = 1; i < 200; i++) { if (IO.DI[$"PM1.DI_AV{i}ILK"] != null) { IO.DI[$"PM1.DI_AV{i}ILK"].Value = true; } } //_SimpleSocketDeviceSimulator = new SimpleSocketDeviceSimulator(12000, -1, "\r", ' ', false); } private bool OnMonitor() { try { //return true; //MonitorValve(); MonitorLP("PM1", "LP1"); MonitorLP("PM1", "LP2"); MonitorFIMS("PM1", "FIMS1"); MonitorFIMS("PM1", "FIMS2"); MonitorBuffer(); MonitorMFC(); MonitorDoor(); MonitorRAxis("PM1"); MonitorZAxis("PM1"); MonitorHeater(); MonitorAPC(); // MonitorHeaterBand(); if (IO.DO[$"PM1.DO_ShutterOpen"].Value) { IO.DI[$"PM1.DI_FurnaceShutterOpened"].Value = IO.DO[$"PM1.DO_ShutterOpen"].Value; IO.DI[$"PM1.DI_FurnaceShutterClosed"].Value = IO.DO[$"PM1.DO_ShutterClose"].Value; } if (IO.DO[$"PM1.DO_ShutterClose"].Value) { IO.DI[$"PM1.DI_FurnaceShutterOpened"].Value = IO.DO[$"PM1.DO_ShutterOpen"].Value; IO.DI[$"PM1.DI_FurnaceShutterClosed"].Value = IO.DO[$"PM1.DO_ShutterClose"].Value; } IO.AI[$"PM1.AI_BufferTargetPosFb"].FloatValue = IO.AO[$"PM1.AO_TargetPositionBufferAxis"].FloatValue; IO.AI[$"PM1.AI_BoatTargetPosFb"].FloatValue = IO.AO[$"PM1.AO_BoatPosition"].FloatValue; IO.DI[$"PM1.DI_VaccumPumpBothOn"].Value = true; if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_1RHCAirInOpened"] != null) { IO.DI[$"PM1.DI_AV91_1RHCAirInOpened"].Value = IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_2RHCAirInOpened"] != null) { IO.DI[$"PM1.DI_AV91_2RHCAirInOpened"].Value = IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_3RHCAirOutOpened"] != null) { IO.DI[$"PM1.DI_AV91_3RHCAirOutOpened"].Value = IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_4RHCAirOutOpened"] != null) { IO.DI[$"PM1.DI_AV91_4RHCAirOutOpened"].Value = IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_1RHCAirInClosed"] != null) { IO.DI[$"PM1.DI_AV91_1RHCAirInClosed"].Value = !IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_2RHCAirInClosed"] != null) { IO.DI[$"PM1.DI_AV91_2RHCAirInClosed"].Value = !IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_3RHCAirOutClosed"] != null) { IO.DI[$"PM1.DI_AV91_3RHCAirOutClosed"].Value = !IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_ValveAV91"] != null && IO.DI[$"PM1.DI_AV91_4RHCAirOutClosed"] != null) { IO.DI[$"PM1.DI_AV91_4RHCAirOutClosed"].Value = !IO.DO[$"PM1.DO_ValveAV91"].Value; } if (IO.DO[$"PM1.DO_LAExhaustValveOpen"] != null && IO.DO[$"PM1.DO_LAExhaustValveClose"] != null && (IO.DO[$"PM1.DO_LAExhaustValveOpen"].Value || IO.DO[$"PM1.DO_LAExhaustValveClose"].Value)) { IO.DI[$"PM1.DI_AV66CommonExhaustOpened"].Value = IO.DO[$"PM1.DO_LAExhaustValveOpen"].Value; IO.DI[$"PM1.DI_AV66CommonExhaustClosed"].Value = IO.DO[$"PM1.DO_LAExhaustValveClose"].Value; } if (IO.DO[$"PM1.DO_FFUAirInValveOpen"] != null && IO.DO[$"PM1.DO_FFUAirInValveClose"] != null && (IO.DO[$"PM1.DO_FFUAirInValveOpen"].Value || IO.DO[$"PM1.DO_FFUAirInValveClose"].Value)) { // IO.DI[$"PM1.DI_AV65FFUAirInOpened"].Value = IO.DO[$"PM1.DO_FFUAirInValveOpen"].Value; //IO.DI[$"PM1.DI_AV65FFUAirInClosed"].Value = IO.DO[$"PM1.DO_FFUAirInValveClose"].Value; } if (IO.AI[$"PM1.AI_FOUPRobotActionCommand"] != null && IO.AO[$"PM1.AO_FOUPRobotActionCommand"] != null) { IO.AI[$"PM1.AI_FOUPRobotActionCommand"].FloatValue = IO.AO[$"PM1.AO_FOUPRobotActionCommand"].FloatValue; } if (IO.AI[$"PM1.AI_WaferRobotActionCommand"] != null && IO.AO[$"PM1.AO_WaferRobotActionCommand"] != null) { IO.AI[$"PM1.AI_WaferRobotActionCommand"].FloatValue = IO.AO[$"PM1.AO_WaferRobotActionCommand"].FloatValue; } return true; } catch (Exception e) { LOG.Write(e); } return true; } public void Terminate() { _thread.Stop(); } private void MonitorHeaterBand() { for (int i = 1; i < 20; i++) { if (IO.AI[$"PM1.AI_ForelineHeater{i}TempPV"] != null) { IO.DI[$"PM1.DI_ForelineHeater{i}ControlDoing"].Value = IO.DO[$"PM1.DO_ForelineHeater{i}Enable"].Value; IO.AI[$"PM1.AI_ForelineHeater{i}TempPV"].FloatValue = IO.AO[$"PM1.AO_ForelineHeater{i}TempSV"].FloatValue; IO.AI[$"PM1.AI_ForelineHeater{i}PBFeedback"].FloatValue = IO.AO[$"PM1.AO_ForelineHeater{i}PBSV"].FloatValue; IO.AI[$"PM1.AI_ForelineHeater{i}TIFeedback"].FloatValue = IO.AO[$"PM1.AO_ForelineHeater{i}TISV"].FloatValue; IO.AI[$"PM1.AI_ForelineHeater{i}TDFeedback"].FloatValue = IO.AO[$"PM1.AO_ForelineHeater{i}TDSV"].FloatValue; IO.AI[$"PM1.AI_ForelineHeater{i}ManualMVFeedback"].FloatValue = IO.AO[$"PM1.AO_ForelineHeater{i}TempSV"].FloatValue > 0 ? 100 : 0; } } if (IO.AI[$"PM1.AI_CapHeaterTempPV"] != null) { IO.DI[$"PM1.DI_CapHeaterControlDoing"].Value = IO.DO[$"PM1.DO_CapHeaterEnable"].Value; IO.AI[$"PM1.AI_CapHeaterTempPV"].FloatValue = IO.AO[$"PM1.AO_CapHeaterTempSV"].FloatValue; IO.AI[$"PM1.AI_CapHeaterPBFeedback"].FloatValue = IO.AO[$"PM1.AO_CapHeaterPBSV"].FloatValue; IO.AI[$"PM1.AI_CapHeaterTIFeedback"].FloatValue = IO.AO[$"PM1.AO_CapHeaterTISV"].FloatValue; IO.AI[$"PM1.AI_CapHeaterTDFeedback"].FloatValue = IO.AO[$"PM1.AO_CapHeaterTDSV"].FloatValue; IO.AI[$"PM1.AI_CapHeaterControlOutput"].FloatValue = IO.AO[$"PM1.AO_CapHeaterTempSV"].FloatValue > 0 ? 100 : 0; } if (IO.AI[$"PM1.AI_APCExternalHeaterTempPV"] != null) { IO.DI[$"PM1.DI_APCExternalHeaterControlDoing"].Value = IO.DO[$"PM1.DO_APCExternalHeaterEnable"].Value; IO.AI[$"PM1.AI_APCExternalHeaterTempPV"].FloatValue = IO.AO[$"PM1.AO_APCExternalHeaterTempSV"].FloatValue; IO.AI[$"PM1.AI_APCExternalHeaterPBFeedback"].FloatValue = IO.AO[$"PM1.AO_APCExternalHeaterPBSV"].FloatValue; IO.AI[$"PM1.AI_APCExternalHeaterTIFeedback"].FloatValue = IO.AO[$"PM1.AO_APCExternalHeaterTISV"].FloatValue; IO.AI[$"PM1.AI_APCExternalHeaterTDFeedback"].FloatValue = IO.AO[$"PM1.AO_APCExternalHeaterTDSV"].FloatValue; IO.AI[$"PM1.AI_APCExternalHeaterControlOutput"].FloatValue = IO.AO[$"PM1.AO_APCExternalHeaterTempSV"].FloatValue > 0 ? 100 : 0; } if (IO.AI[$"PM1.AI_APCRingHeaterTempPV"] != null) { IO.DI[$"PM1.DI_APCRingHeaterControlDoing"].Value = IO.DO[$"PM1.DO_APCRingHeaterEnable"].Value; IO.AI[$"PM1.AI_APCRingHeaterTempPV"].FloatValue = IO.AO[$"PM1.AO_APCRingHeaterTempSV"].FloatValue; IO.AI[$"PM1.AI_APCRingHeaterPBFeedback"].FloatValue = IO.AO[$"PM1.AO_APCRingHeaterPBSV"].FloatValue; IO.AI[$"PM1.AI_APCRingHeaterTIFeedback"].FloatValue = IO.AO[$"PM1.AO_APCRingHeaterTISV"].FloatValue; IO.AI[$"PM1.AI_APCRingHeaterTDFeedback"].FloatValue = IO.AO[$"PM1.AO_APCRingHeaterTDSV"].FloatValue; IO.AI[$"PM1.AI_APCRingHeaterControlOutput"].FloatValue = IO.AO[$"PM1.AO_APCRingHeaterTempSV"].FloatValue > 0 ? 100 : 0; } for (int i = 1; i < 80; i++) { for (int ch = 1; ch < 40; ch++) { if (IO.AO[$"PM1.AO_Unit{i}CH{ch}SV"] != null && IO.AI[$"PM1.AI_Unit{i}CH{ch}SV"] != null) { IO.AI[$"PM1.AI_Unit{i}CH{ch}EnableIn"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}EnableIn"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}SV"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}SV"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}PV"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}SV"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}PID_P"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}PID_P"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}PID_I"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}PID_I"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}PID_D"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}PID_D"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}UpRate"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}UpRate"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}DownRate"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}DownRate"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}AutotuneActivate"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}AutotuneActivate"].FloatValue; //IO.AI[$"PM1.AI_Unit{i}CH{ch}AlarmHigher"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}AlarmHigher"].FloatValue; //IO.AI[$"PM1.AI_Unit{i}CH{ch}AlarmLower"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}AlarmLower"].FloatValue; IO.AI[$"PM1.AI_Unit{i}CH{ch}WorkingOutput"].FloatValue = IO.AO[$"PM1.AO_Unit{i}CH{ch}SV"].FloatValue > 0 ? 100 : 0; } } } } private void MonitorAPC() { IO.AI[$"PM1.AI_APCSelectController"].FloatValue = IO.AO[$"PM1.AO_APCControllerModeSelect"].FloatValue; IO.AI[$"PM1.AI_APCControlModeStatus"].FloatValue = IO.AO[$"PM1.AO_APCSpecifyControlMode"].FloatValue; IO.AI[$"PM1.AI_APCPositionActualValue"].FloatValue = IO.AO[$"PM1.AO_APCSpecifyTargetOpeningForValveOpeningControl"].FloatValue; if (IO.AO[$"PM1.AO_APCSlowVacuumTargetPressure"].FloatValue > 0) { IO.AI[$"PM1.AI_APCValueSensorInput1"].FloatValue = IO.AO[$"PM1.AO_APCSlowVacuumTargetPressure"].FloatValue; IO.AI[$"PM1.AI_APCValueSensorInput2"].FloatValue = IO.AO[$"PM1.AO_APCSlowVacuumTargetPressure"].FloatValue; } else if (IO.AO[$"PM1.AO_APCSpecifyTargetVacuumPressureControl"].FloatValue > 0) { IO.AI[$"PM1.AI_APCValueSensorInput1"].FloatValue = IO.AO[$"PM1.AO_APCSpecifyTargetVacuumPressureControl"].FloatValue; IO.AI[$"PM1.AI_APCValueSensorInput2"].FloatValue = IO.AO[$"PM1.AO_APCSpecifyTargetVacuumPressureControl"].FloatValue; } } private void MonitorHeater() { IO.AI[$"Heater.AI_HeaterUCascadePV"].FloatValue = IO.AO[$"Heater.AO_HeaterUCascadeControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterUHeaterPV"].FloatValue = IO.AO[$"Heater.AO_HeaterUHeaterControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterUWorkingOutput"].FloatValue = IO.AO[$"Heater.AO_HeaterUCascadeControlModeSV"].FloatValue > 0 || IO.AO[$"Heater.AO_HeaterUHeaterControlModeSV"].FloatValue > 0 ? 100 : 0; IO.DI[$"Heater.DI_HeaterUEnableOutput"].Value = IO.DO[$"Heater.DO_HeaterUEnableIn"].Value; IO.AI[$"Heater.AI_HeaterCUCascadePV"].FloatValue = IO.AO[$"Heater.AO_HeaterCUCascadeControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCUHeaterPV"].FloatValue = IO.AO[$"Heater.AO_HeaterCUHeaterControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCUWorkingOutput"].FloatValue = IO.AO[$"Heater.AO_HeaterCUCascadeControlModeSV"].FloatValue > 0 || IO.AO[$"Heater.AO_HeaterCUHeaterControlModeSV"].FloatValue > 0 ? 100 : 0; IO.DI[$"Heater.DI_HeaterCUEnableOutput"].Value = IO.DO[$"Heater.DO_HeaterCUEnableIn"].Value; IO.AI[$"Heater.AI_HeaterCCascadePV"].FloatValue = IO.AO[$"Heater.AO_HeaterCCascadeControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCHeaterPV"].FloatValue = IO.AO[$"Heater.AO_HeaterCHeaterControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCWorkingOutput"].FloatValue = IO.AO[$"Heater.AO_HeaterCCascadeControlModeSV"].FloatValue > 0 || IO.AO[$"Heater.AO_HeaterCHeaterControlModeSV"].FloatValue > 0 ? 100 : 0; IO.DI[$"Heater.DI_HeaterCEnableOutput"].Value = IO.DO[$"Heater.DO_HeaterCEnableIn"].Value; IO.AI[$"Heater.AI_HeaterCLCascadePV"].FloatValue = IO.AO[$"Heater.AO_HeaterCLCascadeControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCLHeaterPV"].FloatValue = IO.AO[$"Heater.AO_HeaterCLHeaterControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterCLWorkingOutput"].FloatValue = IO.AO[$"Heater.AO_HeaterCLCascadeControlModeSV"].FloatValue > 0 || IO.AO[$"Heater.AO_HeaterCLHeaterControlModeSV"].FloatValue > 0 ? 100 : 0; IO.DI[$"Heater.DI_HeaterCLEnableOutput"].Value = IO.DO[$"Heater.DO_HeaterCLEnableIn"].Value; IO.AI[$"Heater.AI_HeaterLCascadePV"].FloatValue = IO.AO[$"Heater.AO_HeaterLCascadeControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterLHeaterPV"].FloatValue = IO.AO[$"Heater.AO_HeaterLHeaterControlModeSV"].FloatValue; IO.AI[$"Heater.AI_HeaterLWorkingOutput"].FloatValue = IO.AO[$"Heater.AO_HeaterLCascadeControlModeSV"].FloatValue > 0 || IO.AO[$"Heater.AO_HeaterLHeaterControlModeSV"].FloatValue > 0 ? 100 : 0; IO.DI[$"Heater.DI_HeaterLEnableOutput"].Value = IO.DO[$"Heater.DO_HeaterLEnableIn"].Value; } public void MonitorCylinder() { //var valveList = new List> // { // new Tuple( // $"PMA.DO_LiftPinUp", // $"PMA.DO_LiftPinDown", // $"PMA.DI_LiftPinUp", // $"PMA.DI_LiftPinDown" // ), // new Tuple( // $"PMB.DO_LiftPinUp", // $"PMB.DO_LiftPinDown", // $"PMB.DI_LiftPinUp", // $"PMB.DI_LiftPinDown" // ), // new Tuple( // $"PMC.DO_LiftPinUp", // $"PMC.DO_LiftPinDown", // $"PMC.DI_LiftPinUp", // $"PMC.DI_LiftPinDown" // ), // new Tuple( // $"MF.DO_SlitDoorPMAOpen", // $"MF.DO_SlitDoorPMAClose", // $"MF.DI_SlitDoorPMAOpen", // $"MF.DI_SlitDoorPMAClose" // ), // new Tuple( // $"MF.DO_SlitDoorPMBOpen", // $"MF.DO_SlitDoorPMBClose", // $"MF.DI_SlitDoorPMBOpen", // $"MF.DI_SlitDoorPMBClose" // ), // new Tuple( // $"MF.DO_SlitDoorPMCOpen", // $"MF.DO_SlitDoorPMCClose", // $"MF.DI_SlitDoorPMCOpen", // $"MF.DI_SlitDoorPMCClose" // ), // new Tuple( // $"MF.DO_CassDoorOpen", // $"MF.DO_CassDoorClose", // $"MF.DI_CassetteDoorOpen", // $"MF.DI_CassetteDoorClose" // ), // }; //foreach (var valve in valveList) //{ // if (IO.DO[valve.Item1].Value != IO.DO[valve.Item2].Value) // { // IO.DI[valve.Item3].Value = IO.DO[valve.Item1].Value; // IO.DI[valve.Item4].Value = IO.DO[valve.Item2].Value; // } //} //if(IO.DO[$"MF.DO_CassSliderOut"].Value) //{ // IO.DI[$"MF.DI_CassSliderCylinderOut"].Value = true; // IO.DI[$"MF.DI_CassSliderCylinderIn"].Value = false; // IO.DI[$"MF.DI_CassetteNestOutSW"].Value = true; //} //if (IO.DO[$"MF.DO_CassSliderIn"].Value) //{ // IO.DI[$"MF.DI_CassSliderCylinderOut"].Value = false; // IO.DI[$"MF.DI_CassSliderCylinderIn"].Value = true; // IO.DI[$"MF.DI_CassetteNestOutSW"].Value = false; //} } private void MonitorSMIF() { _smif1LoadTrig.CLK = IO.DO[$"SMIF.DO_LoadSmif1"].Value; _smif1UnloadTrig.CLK = IO.DO[$"SMIF.DO_UnLoadSmif1"].Value; _smif1HomeTrig.CLK = IO.DO[$"SMIF.DO_InitSmif1"].Value; _smif2LoadTrig.CLK = IO.DO[$"SMIF.DO_LoadSmif2"].Value; _smif2UnloadTrig.CLK = IO.DO[$"SMIF.DO_UnLoadSmif2"].Value; _smif2HomeTrig.CLK = IO.DO[$"SMIF.DO_InitSmif2"].Value; if (_smif1LoadTrig.R) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = false; } if (_smif1LoadTrig.T) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = true; IO.DI[$"SMIF.DI_Smif1ZAxisLoadPositionSensor"].Value = true; IO.DI[$"SMIF.DI_Smif1SlideAxisExtendSensor"].Value = true; IO.DI[$"SMIF.DI_Smif1ZAxisUnloadPositionSensor"].Value = false; IO.DI[$"SMIF.DI_Smif1SlideAxisRetractSensor"].Value = false; } if (_smif1UnloadTrig.R) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = false; } if (_smif1UnloadTrig.T) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = true; IO.DI[$"SMIF.DI_Smif1ZAxisUnloadPositionSensor"].Value = true; IO.DI[$"SMIF.DI_Smif1SlideAxisRetractSensor"].Value = true; IO.DI[$"SMIF.DI_Smif1ZAxisLoadPositionSensor"].Value = false; IO.DI[$"SMIF.DI_Smif1SlideAxisExtendSensor"].Value = false; } if (_smif1HomeTrig.R) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = false; IO.DI[$"SMIF.DI_Smif1Homed"].Value = false; } if (_smif1HomeTrig.T) { IO.DI[$"SMIF.DI_Smif1Ready"].Value = true; IO.DI[$"SMIF.DI_Smif1Homed"].Value = true; } if (_smif2LoadTrig.R) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = false; } if (_smif2LoadTrig.T) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = true; IO.DI[$"SMIF.DI_Smif2ZAxisLoadPositionSensor"].Value = true; IO.DI[$"SMIF.DI_Smif2SlideAxisExtendSensor"].Value = true; IO.DI[$"SMIF.DI_Smif2ZAxisUnloadPositionSensor"].Value = false; IO.DI[$"SMIF.DI_Smif2SlideAxisRetractSensor"].Value = false; } if (_smif2UnloadTrig.R) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = false; } if (_smif2UnloadTrig.T) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = true; IO.DI[$"SMIF.DI_Smif2ZAxisUnloadPositionSensor"].Value = true; IO.DI[$"SMIF.DI_Smif2SlideAxisRetractSensor"].Value = true; IO.DI[$"SMIF.DI_Smif2ZAxisLoadPositionSensor"].Value = false; IO.DI[$"SMIF.DI_Smif2SlideAxisExtendSensor"].Value = false; } if (_smif2HomeTrig.R) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = false; IO.DI[$"SMIF.DI_Smif2Homed"].Value = false; } if (_smif2HomeTrig.T) { IO.DI[$"SMIF.DI_Smif2Ready"].Value = true; IO.DI[$"SMIF.DI_Smif2Homed"].Value = true; } } private void MonitorMotion() { //MonitorModule("Shuttle", "Z"); //MonitorModule("Shuttle", "R"); //MonitorModule("TM", "Z"); //MonitorModule("TM", "E"); //MonitorModule("TM", "R"); //IO.AI[$"Motion.AI_ShuttleRStatus"].Value = IO.AO[$"Motion.AO_ShuttleRMotionStationSet"].Value; //IO.AI[$"Motion.AI_TMEStatus"].Value = IO.AO[$"Motion.AO_TMEMotionStationSet"].Value; //IO.AI[$"Motion.AI_TMRStatus"].Value = IO.AO[$"Motion.AO_TMRMotionStationSet"].Value; //IO.AI[$"Motion.AI_TMEMotionDirection"].Value = IO.AO[$"Motion.AO_TMEMotionDirectionSet"].Value; //IO.AI[$"Motion.AI_TMRMotionDirection"].Value = IO.AO[$"Motion.AO_TMRMotionDirectionSet"].Value; //IO.AI[$"Motion.AI_ShuttleRMotionDirection"].Value = IO.AO[$"Motion.AO_ShuttleRMotionDirectionSet"].Value; MonitorRobot(); MonitorShuttle(); } private void MonitorRobot() { //short valueL = IO.AO[$"MF.AO_RobotServoTargetStationL"].Value; //short valueH = (short)IO.AO[$"MF.AO_RobotServoTargetStationH"].Value; //UInt32 tmp = (ushort)valueL + (UInt32)(((ushort)valueH) << 16); //int station = tmp > Int32.MaxValue ? (int)((~tmp + 1) * -1) : (int)tmp; //IO.AI[$"MF.AI_RobotServoTargetStationL"].Value = IO.AO[$"MF.AO_RobotServoTargetStationL"].Value > 0 ? IO.AO[$"MF.AO_RobotServoTargetStationL"].Value : IO.AI[$"MF.AI_RobotServoTargetStationL"].Value; //IO.AI[$"MF.AI_RobotServoTargetStationH"].Value = IO.AO[$"MF.AO_RobotServoTargetStationH"].Value > 0 ? IO.AO[$"MF.AO_RobotServoTargetStationH"].Value : IO.AI[$"MF.AI_RobotServoTargetStationH"].Value; //IO.AI[$"MF.AI_RobotDCMotor1TargetStationL"].Value = IO.AO[$"MF.AO_RobotDCMotor1TargetStationL"].Value > 0 ? IO.AO[$"MF.AO_RobotDCMotor1TargetStationL"].Value : IO.AI[$"MF.AI_RobotDCMotor1TargetStationL"].Value; //IO.AI[$"MF.AI_RobotDCMotor1TargetStationH"].Value = IO.AO[$"MF.AO_RobotDCMotor1TargetStationH"].Value > 0 ? IO.AO[$"MF.AO_RobotDCMotor1TargetStationH"].Value : IO.AI[$"MF.AI_RobotDCMotor1TargetStationH"].Value; //IO.AI[$"MF.AI_RobotDCMotor2TargetStationL"].Value = IO.AO[$"MF.AO_RobotDCMotor2TargetStationL"].Value > 0 ? IO.AO[$"MF.AO_RobotDCMotor2TargetStationL"].Value : IO.AI[$"MF.AI_RobotDCMotor2TargetStationL"].Value; //IO.AI[$"MF.AI_RobotDCMotor2TargetStationH"].Value = IO.AO[$"MF.AO_RobotDCMotor2TargetStationH"].Value > 0 ? IO.AO[$"MF.AO_RobotDCMotor2TargetStationH"].Value : IO.AI[$"MF.AI_RobotDCMotor2TargetStationH"].Value; //IO.AI[$"MF.AI_RobotStatus"].Value = (short)((IO.DO[$"MF.DO_RobotServoOn"].Value ? 1 : 0) + // ((_robotServoStation == station ? 1 : 0) << 1) + (1 << 10) + ((IO.DO[$"MF.DO_RobotServoPinSearch"].Value ? 1:0) << 11)); //_robotServoStation = station; } private void MonitorShuttle() { //short valueL = IO.AO[$"MF.AO_ShuttleServoTargetStationL"].Value; //short valueH = (short)IO.AO[$"MF.AO_ShuttleServoTargetStationH"].Value; //UInt32 tmp = (ushort)valueL + (UInt32)(((ushort)valueH) << 16); //int station = tmp > Int32.MaxValue ? (int)((~tmp + 1) * -1) : (int)tmp; //if(station == 1) //{ // IO.DI["MF.DI_ShuttleUp"].Value = false; // IO.DI["MF.DI_ShuttleDown"].Value = false; //} //else if(station == 2) //{ // IO.DI["MF.DI_ShuttleUp"].Value = true; // IO.DI["MF.DI_ShuttleDown"].Value = true; //} //else //{ // IO.DI["MF.DI_ShuttleUp"].Value = true; // IO.DI["MF.DI_ShuttleDown"].Value = false; //} //IO.AI[$"MF.AI_ShuttleServoTargetStationL"].Value = IO.AO[$"MF.AO_ShuttleServoTargetStationL"].Value > 0 ? IO.AO[$"MF.AO_ShuttleServoTargetStationL"].Value : IO.AI[$"MF.AI_ShuttleServoTargetStationL"].Value; //IO.AI[$"MF.AI_ShuttleServoTargetStationH"].Value = IO.AO[$"MF.AO_ShuttleServoTargetStationH"].Value > 0 ? IO.AO[$"MF.AO_ShuttleServoTargetStationH"].Value : IO.AI[$"MF.AI_ShuttleServoTargetStationH"].Value; //IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationL"].Value = IO.AO[$"MF.AO_ShuttleDCMotor1TargetStationL"].Value != 0 ? IO.AO[$"MF.AO_ShuttleDCMotor1TargetStationL"].Value : IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationL"].Value; //IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationH"].Value = IO.AO[$"MF.AO_ShuttleDCMotor1TargetStationH"].Value != 0 ? IO.AO[$"MF.AO_ShuttleDCMotor1TargetStationH"].Value : IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationH"].Value; //IO.AI[$"MF.AI_ShuttleStatus"].Value = (short)((IO.DO[$"MF.DO_RobotServoOn"].Value ? 1 : 0) + // ((_shuttleServoStation == station ? 1 : 0) << 1) + (1 << 10)); //_shuttleServoStation = station; //IO.DI["MF.DI_CassNestAIn"].Value = IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationL"].Value == 1; //IO.DI["MF.DI_CassNestBIn"].Value = IO.AI[$"MF.AI_ShuttleDCMotor1TargetStationL"].Value != 1; //IO.DI["MF.DI_ShuttleUp"].Value = IO.AO[$"MF.AO_ShuttleServoTargetStationL"].Value == 2;//opposite //IO.DI["MF.DI_ShuttleDown"].Value = IO.AO[$"MF.AO_ShuttleServoTargetStationL"].Value == 1;//opposite } private void MonitorValve() { IO.DI[$"MF.DI_ASOpenPosition"].Value = IO.DO[$"MF.DO_ASOpenPosition"].Value; IO.DI[$"MF.DI_ASClosePosition"].Value = IO.DO[$"MF.DO_ASClosePosition"].Value; IO.DI[$"MF.DI_ASUpPosition"].Value = IO.DO[$"MF.DO_ASUpPosition"].Value; IO.DI[$"MF.DI_ASDownPosition"].Value = IO.DO[$"MF.DO_ASDownPosition"].Value; if (IO.DO[$"MF.DO_BoatElevatorZAxisStop"].Value) { IO.DI[$"MF.DI_Zone1Sensor"].Value = false; IO.DI[$"MF.DI_Zone2Sensor"].Value = false; IO.DI[$"MF.DI_CapCloseSensor"].Value = false; IO.DI[$"MF.DI_HomePosition"].Value = false; } if (IO.DO[$"MF.DO_MoveToP1Position"].Value) { IO.DI[$"MF.DI_Zone1Sensor"].Value = IO.DO[$"MF.DO_MoveToP1Position"].Value; IO.DI[$"MF.DI_Zone2Sensor"].Value = false; IO.DI[$"MF.DI_CapCloseSensor"].Value = false; IO.DI[$"MF.DI_HomePosition"].Value = false; } if (IO.DO[$"MF.DO_MoveToP2Position"].Value) { IO.DI[$"MF.DI_Zone2Sensor"].Value = IO.DO[$"MF.DO_MoveToP2Position"].Value; IO.DI[$"MF.DI_Zone1Sensor"].Value = false; IO.DI[$"MF.DI_CapCloseSensor"].Value = false; IO.DI[$"MF.DI_HomePosition"].Value = false; } if (IO.DO[$"MF.DO_MoveToPPPosition"].Value) { IO.DI[$"MF.DI_CapCloseSensor"].Value = IO.DO[$"MF.DO_MoveToPPPosition"].Value; IO.DI[$"MF.DI_Zone1Sensor"].Value = false; IO.DI[$"MF.DI_Zone2Sensor"].Value = false; IO.DI[$"MF.DI_HomePosition"].Value = false; } if (IO.DO[$"MF.DO_HomePosition"].Value) { IO.DI[$"MF.DI_HomePosition"].Value = IO.DO[$"MF.DO_HomePosition"].Value; IO.DI[$"MF.DI_Zone1Sensor"].Value = false; IO.DI[$"MF.DI_Zone2Sensor"].Value = false; IO.DI[$"MF.DI_CapCloseSensor"].Value = false; } IO.DI[$"MF.DI_ZAxisMoving"].Value = IO.DO[$"MF.DO_HomePosition"].Value || IO.DO[$"MF.DO_MoveToPPPosition"].Value || IO.DO[$"MF.DO_MoveToP2Position"].Value || IO.DO[$"MF.DO_MoveToP1Position"].Value; if (IO.DO[$"MF.DO_BoatElevatorRotateStop"].Value) { IO.DI[$"MF.DI_RotationAxisHomed"].Value = false; } if (IO.DO[$"MF.DO_BoatElevatorRotateHome"].Value) { IO.DI[$"MF.DI_RotationAxisHomed"].Value = IO.DO[$"MF.DO_BoatElevatorRotateHome"].Value; } if (IO.DO[$"MF.DO_BoatElevatorRotateContinuous"].Value || IO.DO[$"MF.DO_BoatElevatorRotateInterval"].Value) { IO.DI[$"MF.DI_RotationAxisHomed"].Value = false; } IO.DI[$"MF.DI_RotationAxisMoving"].Value = IO.DO[$"MF.DO_BoatElevatorRotateHome"].Value || IO.DO[$"MF.DO_BoatElevatorRotateContinuous"].Value || IO.DO[$"MF.DO_BoatElevatorRotateInterval"].Value; IO.DI[$"EFEM.DI_Valve1EX"].Value = IO.DO[$"EFEM.DO_Valve1EX"].Value; IO.DI[$"EFEM.DI_Valve1RE"].Value = IO.DO[$"EFEM.DO_Valve1RE"].Value; IO.DI[$"EFEM.DI_Valve2EX"].Value = IO.DO[$"EFEM.DO_Valve2EX"].Value; IO.DI[$"EFEM.DI_Valve2RE"].Value = IO.DO[$"EFEM.DO_Valve2RE"].Value; //IO.DI[$"PM1.DI_M21REALOUT"].Value = IO.DO[$"PM1.DO_M21ValveOpen"].Value; //IO.DI[$"PM1.DI_D11REALOUT"].Value = IO.DO[$"PM1.DO_D11ValveOpen"].Value; //IO.DI[$"PM1.DI_M11REALOUT"].Value = IO.DO[$"PM1.DO_M11ValveOpen"].Value; //IO.DI[$"PM1.DI_J11REALOUT"].Value = IO.DO[$"PM1.DO_J11ValveOpen"].Value; //IO.DI[$"PM1.DI_VV2REALOUT"].Value = IO.DO[$"PM1.DO_VV2ValveOpen"].Value; //IO.DI[$"PM1.DI_IV2REALOUT"].Value = IO.DO[$"PM1.DO_IV2ValveOpen"].Value; } bool increasing = true; int start = 1; int end = 40; private void MonitorMFC() { for (int i = 1; i < 52; i++) { if (IO.AO[$"PM1.AO_MFC{i}AirFlowSV"] != null) { IO.AI[$"PM1.AI_MFC{i}AirFlowPV"].FloatValue = IO.AO[$"PM1.AO_MFC{i}AirFlowSV"].FloatValue; } } if (IO.AO[$"PM1.AO_MFM57AirFlowSV"] != null && IO.AI[$"PM1.AI_MFM57AirFlowPV"] != null) IO.AI[$"PM1.AI_MFM57AirFlowPV"].FloatValue = IO.AO[$"PM1.AO_MFM57AirFlowSV"].FloatValue; Random random=new Random(); IO.AI[$"PM1.AI_MFM57AirFlowPV"].FloatValue = random.Next(1, 3); if (increasing) { for (int i = start; i <= end; i++) { IO.AI[$"PM1.AI_O2Concentration"].FloatValue = i; // System.Threading.Thread.Sleep(300); // 延迟500毫秒以便观察输出 } increasing = false; // 切换方向 } else { for (int i = end; i >= start; i--) { IO.AI[$"PM1.AI_O2Concentration"].FloatValue = i; // System.Threading.Thread.Sleep(300);// 延迟500毫秒以便观察输出 } increasing = true; // 切换方向 } //IO.AI[$"PM1.AI_APCFeedback"].Value = IO.AO[$"PM1.AO_APCSetpoint"].Value; } private void MonitorModule(string module, string submodule) { //string uniqueModule = module + submodule; //string AO_MotionServoStop = $"Motion.AO_{uniqueModule}MotionServoStop"; //string AO_MotionJogN = $"Motion.AO_{uniqueModule}MotionJogN"; //string AO_MotionJogP = $"Motion.AO_{uniqueModule}MotionJogP"; //string AO_MotionJogSpeedL = $"Motion.AO_{uniqueModule}MotionJogSpeedL"; //string AO_MotionJogSpeedH = $"Motion.AO_{uniqueModule}MotionJogSpeedH"; //string AO_MotionPositionSet = $"Motion.AO_{uniqueModule}MotionPositionSet"; //string AO_MotionAutoSpeedL = $"Motion.AO_{uniqueModule}MotionAutoSpeedL"; //string AO_MotionAutoSpeedH = $"Motion.AO_{uniqueModule}MotionAutoSpeedH"; //string AO_MotionServoOn = $"Motion.AO_{module}MotionServoOn"; //string AO_MotionAutoMove = $"Motion.AO_{module}MotionAutoMove"; //string AO_MotionAbort = $"Motion.AO_{module}MotionAbort"; //string AI_MotionSystemStatus = $"Motion.AI_{uniqueModule}MotionSystemStatus"; //string AI_MotionServoStatus = $"Motion.AI_{uniqueModule}MotionServoStatus"; //string AI_MotionPositionL = $"Motion.AI_{uniqueModule}MotionPositionL"; //string AI_MotionPositionH = $"Motion.AI_{uniqueModule}MotionPositionH"; //string AI_MotionTargetPositionL = $"Motion.AI_{uniqueModule}MotionTargetPositionL"; //string AI_MotionTargetPositionH = $"Motion.AI_{uniqueModule}MotionTargetPositionH"; //string AI_MotionSpeedL = $"Motion.AI_{uniqueModule}MotionSpeedL"; //string AI_MotionSpeedH = $"Motion.AI_{uniqueModule}MotionSpeedH"; //string AI_MotionPositionSet = $"Motion.AI_{uniqueModule}MotionPositionSet"; //if (!currentStationDic.ContainsKey(uniqueModule)) //{ // currentStationDic.Add(uniqueModule, 0); //} //if (!currentPosDic.ContainsKey(uniqueModule)) //{ // currentPosDic.Add(uniqueModule, 0); //} //if (!targetStationPosDic.ContainsKey(uniqueModule)) //{ // targetStationPosDic.Add(uniqueModule, 0); //} //if (!isAutoMoveDic.ContainsKey(module)) //{ // isAutoMoveDic.Add(module, false); //} //if (!logDic.ContainsKey(uniqueModule)) //{ // logDic.Add(uniqueModule, false); //} //if (!timerDic.ContainsKey(uniqueModule)) //{ // timerDic.Add(uniqueModule, new DeviceTimer()); //} //if (IO.AO[AO_MotionJogN].Value > 1 || IO.AO[AO_MotionJogP].Value > 1) //{ // short valueL = (short)IO.AO[AO_MotionJogSpeedL].Value; // short valueH = (short)IO.AO[AO_MotionJogSpeedH].Value; // valueH = valueH > Int16.MaxValue ? (short)((~valueH + 1) * -1) : (short)valueH; // int jogSpeed = valueL + ((valueH + 1) << 16); // currentPosDic[uniqueModule] = IO.AO[AO_MotionJogN].Value > 1 ? motionStationList[currentStationDic[uniqueModule]] - jogSpeed : motionStationList[currentStationDic[uniqueModule]] + jogSpeed; // IO.AI[AI_MotionPositionL].Value = (short)(currentPosDic[uniqueModule] & 0xFFFF); // IO.AI[AI_MotionPositionH].Value = (short)((currentPosDic[uniqueModule] >> 16) & 0xFFFF); //} ////station //targetStationPosDic[uniqueModule] = IO.AO[AO_MotionPositionSet].Value; //var targetPos = motionStationList[targetStationPosDic[uniqueModule]]; //IO.AI[AI_MotionTargetPositionL].Value = (short)(targetPos & 0xFFFF); //IO.AI[AI_MotionTargetPositionH].Value = (short)((targetPos >> 16) & 0xFFFF); //if (!isAutoMoveDic[module] && IO.AO[AO_MotionAutoMove].Value == 1) //{ // currentPosDic[uniqueModule] = motionStationList[currentStationDic[uniqueModule]]; //} //int MotionServoStatusValue = 0; //if (isAutoMoveDic[module]) //{ // IO.AI[AI_MotionTargetPositionL].Value = (short)(targetPos & 0xFFFF); // IO.AI[AI_MotionTargetPositionH].Value = (short)((targetPos >> 16) & 0xFFFF); // IO.AI[AI_MotionSpeedL].Value = IO.AO[AO_MotionAutoSpeedL].Value; // IO.AI[AI_MotionSpeedH].Value = IO.AO[AO_MotionAutoSpeedH].Value; // short valueLow = (short)IO.AO[AO_MotionAutoSpeedL].Value; // short valueHigh = (short)IO.AO[AO_MotionAutoSpeedH].Value; // valueHigh = valueHigh > Int16.MaxValue ? (short)((~valueHigh + 1) * -1) : (short)valueHigh; // int moveSpeed = valueLow + ((valueHigh + 1) << 16); // int status = (IO.AI[AI_MotionServoStatus].Value & 0xBF); // if (targetPos == currentPosDic[uniqueModule]) // { // if (logDic[uniqueModule]) // { // LOG.Write(String.Format("Scheduler axis move stop uniqueModule={0} target={1},time span {2}", uniqueModule, targetStationPosDic[uniqueModule], timerDic[uniqueModule].GetElapseTime())); // logDic[uniqueModule] = false; // timerDic[uniqueModule].Stop(); // } // status += 0x40; // } // else // { // if (timerDic[uniqueModule].IsIdle()) // { // LOG.Write(String.Format("Scheduler axis move start uniqueModule={0} target={1}", uniqueModule, targetStationPosDic[uniqueModule])); // timerDic[uniqueModule].Start(500000); // logDic[uniqueModule] = true; // } // } // if (targetPos > currentPosDic[uniqueModule]) // { // currentPosDic[uniqueModule] += 5000; // if (currentPosDic[uniqueModule] >= targetPos) // { // currentStationDic[uniqueModule] = targetStationPosDic[uniqueModule]; // targetPos = currentPosDic[uniqueModule]; // status += 0x40; // } // } // if (targetPos < currentPosDic[uniqueModule]) // { // currentPosDic[uniqueModule] -= 5000; // if (currentPosDic[uniqueModule] <= targetPos) // { // currentStationDic[uniqueModule] = targetStationPosDic[uniqueModule]; // targetPos = currentPosDic[uniqueModule]; // status += 0x40; // } // } // //position done. bit 6 // MotionServoStatusValue = status | MotionServoStatusValue; // IO.AI[AI_MotionPositionL].Value = (short)(currentPosDic[uniqueModule] & 0xFFFF); // IO.AI[AI_MotionPositionH].Value = (short)((currentPosDic[uniqueModule] >> 16) & 0xFFFF); //} //int systemStatus = 0; //if (IO.AO[AO_MotionServoOn].Value == 1) // systemStatus = 2 + (isAutoMoveDic[module] ? 16 : 32) + (IO.AO[AO_MotionAbort].Value == 1 ? 4 : 0); ; //IO.AI[AI_MotionSystemStatus].Value = (short)systemStatus; //isAutoMoveDic[module] = IO.AO[AO_MotionAutoMove].Value == 1; ////servo on. bit 5 //MotionServoStatusValue = MotionServoStatusValue | (IO.AO[AO_MotionServoOn].Value == 1 ? 0x20 : 0); ////ready. Servo stop. bit 6 //MotionServoStatusValue = MotionServoStatusValue | (IO.AO[AO_MotionServoStop].Value == 0 ? 0x40 : 0); ////servo normal. bit 1 //MotionServoStatusValue = MotionServoStatusValue | 2; //IO.AI[AI_MotionServoStatus].Value = (short)MotionServoStatusValue; //IO.AI[AI_MotionPositionSet].Value = IO.AO[AO_MotionPositionSet].Value; } private void MonitorRAxis(string module) { if (IO.DI[$"{module}.DI_BoatRAxisHomeBusy"].Value != IO.DO[$"{module}.DO_BoatRAxisHomeCmd"].Value && IO.DO[$"{module}.DO_BoatRAxisHomeCmd"].Value) { IO.DI[$"{module}.DI_BoatRAxisHomeDone"].Value = false; if (!_rAxisHomeTimer.IsRunning) _rAxisHomeTimer.Restart(); } if (_rAxisHomeTimer.IsRunning && _rAxisHomeTimer.ElapsedMilliseconds > 3000) { IO.DI[$"{module}.DI_BoatRAxisHomeDone"].Value = true; _rAxisHomeTimer.Stop(); } IO.DI[$"{module}.DI_BoatRAxisHomeBusy"].Value = IO.DO[$"{module}.DO_BoatRAxisHomeCmd"].Value; IO.DI[$"{module}.DI_BoatRAxisRotationBusy"].Value = IO.DO[$"{module}.DO_BoatRAxisRotationForward"].Value || IO.DO[$"{module}.DO_BoatRAxisRotationReverse"].Value; } private void MonitorZAxis(string module) { if ((int)(IO.AO[$"{module}.AO_BoatPosition"].FloatValue + 0.00001) == 1) { IO.DI[$"{module}.DI_HmPosBoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos1BoatZAxis"].Value = true; IO.DI[$"{module}.DI_MiddlePos2BoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos3BoatZAxis"].Value = false; } if ((int)(IO.AO[$"{module}.AO_BoatPosition"].FloatValue + 0.00001) == 2) { IO.DI[$"{module}.DI_HmPosBoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos1BoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos2BoatZAxis"].Value = true; IO.DI[$"{module}.DI_MiddlePos3BoatZAxis"].Value = false; } if ((int)(IO.AO[$"{module}.AO_BoatPosition"].FloatValue + 0.00001) == 3) { IO.DI[$"{module}.DI_HmPosBoatZAxis"].Value = true; IO.DI[$"{module}.DI_MiddlePos1BoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos2BoatZAxis"].Value = false; IO.DI[$"{module}.DI_MiddlePos3BoatZAxis"].Value = true; } IO.AI[$"{module}.AI_BoatTargetPosFb"].FloatValue = IO.AO[$"{module}.AO_BoatPosition"].FloatValue; } private void MonitorLP(string module, string lp) { if (IO.DO[$"{module}.DO_{lp}FOUPClamp"].Value) { IO.DI[$"{module}.DI_{lp}FOUPLeftClamp"].Value = true; IO.DI[$"{module}.DI_{lp}FOUPRightClamp"].Value = true; IO.DI[$"{module}.DI_{lp}FOUPLeftRelease"].Value = false; IO.DI[$"{module}.DI_{lp}FOUPRightRelease"].Value = false; } if (IO.DO[$"{module}.DO_{lp}FOUPRelease"].Value) { IO.DI[$"{module}.DI_{lp}FOUPLeftClamp"].Value = false; IO.DI[$"{module}.DI_{lp}FOUPRightClamp"].Value = false; IO.DI[$"{module}.DI_{lp}FOUPLeftRelease"].Value = true; IO.DI[$"{module}.DI_{lp}FOUPRightRelease"].Value = true; } } private void MonitorFIMS(string module, string fims) { IO.DI[$"{module}.DI_{fims}LoadComplete"].Value = IO.DO[$"{module}.DO_{fims}LoadCommand"].Value; IO.DI[$"{module}.DI_{fims}UnloadComplete"].Value = IO.DO[$"{module}.DO_{fims}UnloadCommand"].Value; IO.DI[$"{module}.DI_{fims}HomeComplete"].Value = IO.DO[$"{module}.DO_{fims}HomeCommand"].Value; if (IO.DI[$"{module}.DI_{fims}FOUPDock"] != null && IO.DO[$"{module}.DO_{fims}Dock"] != null) IO.DI[$"{module}.DI_{fims}FOUPDock"].Value = IO.DO[$"{module}.DO_{fims}Dock"].Value; if (IO.DI[$"{module}.DI_{fims}FOUPUndock"] != null && IO.DO[$"{module}.DO_{fims}Undock"] != null) IO.DI[$"{module}.DI_{fims}FOUPUndock"].Value = IO.DO[$"{module}.DO_{fims}Undock"].Value; if (IO.DI[$"{module}.DI_{fims}Seal"] != null && IO.DO[$"{module}.DO_{fims}Seal"] != null) IO.DI[$"{module}.DI_{fims}Seal"].Value = IO.DO[$"{module}.DO_{fims}Seal"].Value; if (IO.DI[$"{module}.DI_{fims}Release"] != null && IO.DO[$"{module}.DO_{fims}Release"] != null) IO.DI[$"{module}.DI_{fims}Release"].Value = IO.DO[$"{module}.DO_{fims}Release"].Value; if (IO.DI[$"{module}.DI_{fims}DoorClosed"] != null && IO.DO[$"{module}.DO_{fims}DoorClose"] != null) IO.DI[$"{module}.DI_{fims}DoorClosed"].Value = IO.DO[$"{module}.DO_{fims}DoorClose"].Value; if (IO.DI[$"{module}.DI_{fims}DoorOpened"] != null && IO.DO[$"{module}.DO_{fims}DoorOpen"] != null) IO.DI[$"{module}.DI_{fims}DoorOpened"].Value = IO.DO[$"{module}.DO_{fims}DoorOpen"].Value; if (IO.DI[$"{module}.DI_{fims}LatchOn"] != null && IO.DO[$"{module}.DO_{fims}Latch1On"] != null) IO.DI[$"{module}.DI_{fims}LatchOn"].Value = IO.DO[$"{module}.DO_{fims}Latch1On"].Value || IO.DO[$"{module}.DO_{fims}Latch2On"].Value; if (IO.DI[$"{module}.DI_{fims}LatchOff"] != null && IO.DO[$"{module}.DO_{fims}Latch1Off"] != null) IO.DI[$"{module}.DI_{fims}LatchOff"].Value = IO.DO[$"{module}.DO_{fims}Latch1Off"].Value || IO.DO[$"{module}.DO_{fims}Latch2Off"].Value; if (IO.DI[$"{module}.DI_{fims}CollisionAvoidanceUp"] != null && IO.DO[$"{module}.DO_{fims}CollisionAvoidanceUp"] != null) IO.DI[$"{module}.DI_{fims}CollisionAvoidanceUp"].Value = IO.DO[$"{module}.DO_{fims}CollisionAvoidanceUp"].Value; if (IO.DI[$"{module}.DI_{fims}CollisionAvoidanceDown"] != null && IO.DO[$"{module}.DO_{fims}CollisionAvoidanceDown"] != null) IO.DI[$"{module}.DI_{fims}CollisionAvoidanceDown"].Value = IO.DO[$"{module}.DO_{fims}CollisionAvoidanceDown"].Value; if (IO.DI[$"{module}.DI_{fims}N2PurgeValveOpened"] != null && IO.DO[$"{module}.DO_{fims}N2PurgeValveOpen"] != null) IO.DI[$"{module}.DI_{fims}N2PurgeValveOpened"].Value = IO.DO[$"{module}.DO_{fims}N2PurgeValveOpen"].Value; if (IO.DI[$"{module}.DI_{fims}N2PurgeValveClosed"] != null && IO.DO[$"{module}.DO_{fims}N2PurgeValveClose"] != null) IO.DI[$"{module}.DI_{fims}N2PurgeValveClosed"].Value = IO.DO[$"{module}.DO_{fims}N2PurgeValveClose"].Value; } private void MonitorBuffer() { switch (IO.AO[$"PM1.AO_TargetPositionBufferAxis"].FloatValue) { case 1: case 9: IO.DI[$"PM1.DI_L1Position"].Value = true; break; case 2: case 10: IO.DI[$"PM1.DI_L2Position"].Value = true; break; case 3: case 11: IO.DI[$"PM1.DI_L3Position"].Value = true; break; case 4: case 12: IO.DI[$"PM1.DI_L4Position"].Value = true; break; case 5: case 13: IO.DI[$"PM1.DI_H1Position"].Value = true; break; case 6: case 14: IO.DI[$"PM1.DI_H2Position"].Value = true; break; case 7: case 15: IO.DI[$"PM1.DI_H3Position"].Value = true; break; case 8: case 16: IO.DI[$"PM1.DI_H4Position"].Value = true; break; } IO.AI[$"PM1.AI_BufferTargetPosFb"].FloatValue = IO.AO[$"PM1.AO_TargetPositionBufferAxis"].FloatValue; } private void MonitorDoor() { if (IO.DI[$"PM1.DI_AGVDoorOpened"] != null && IO.DO[$"PM1.DO_AGVDoorSwitchOpen"] != null) IO.DI[$"PM1.DI_AGVDoorOpened"].Value = IO.DO[$"PM1.DO_AGVDoorSwitchOpen"].Value; if (IO.DI[$"PM1.DI_AGVDoorClosed"] != null && IO.DO[$"PM1.DO_AGVDoorSwitchClose"] != null) IO.DI[$"PM1.DI_AGVDoorClosed"].Value = IO.DO[$"PM1.DO_AGVDoorSwitchClose"].Value; } } }