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- //using Aitex.Core.RT.Routine;
- //using Aitex.Core.RT.SCCore;
- //using Venus_RT.Devices;
- //using MECF.Framework.Common.Routine;
- //using Venus_Core;
- //namespace Venus_RT.Modules.PMs
- //{
- // class LoadLockLeakCheckRoutine : PMRoutineBase, IRoutine
- // {
- // private enum LeakCheckStep
- // {
- // kCloseValves,
- // kPumpToBasePressure,
- // kPumpingDelay,
- // kLeakCheckDelay,
- // kLeakCheckCalc,
- // kPumpToBasePressure_2,
- // kEnd,
- // }
- // public double LeakRate { get; private set; }
- // private int _basePressureLL = 100;
- // private int _leakcheckPumpTimeLL = 180;
- // private int _leakcheckWaitTimeLL = 300;
- // private double _startPressure = 0;
- // private double _endPressure = 0;
- // private double _leakRate = 30.0;
- // public LoadLockLeakCheckRoutine(JetPMBase chamber) : base(chamber)
- // {
- // Name = "Loadlock Leakcheck";
- // }
- // public RState Start(params object[] objs)
- // {
- // if (CheckLidLoadLock() &&
- // CheckSlitDoor() &&
- // CheckDryPump())
- // {
- // Reset();
- // _chamber.CloseValves();
- // _basePressureLL = SC.GetValue<int>($"{Module}.Pump.LoadLockPumpBasePressure");
- // _leakcheckPumpTimeLL = SC.GetValue<int>($"{Module}.Pump.LoadLockLeakCheckPumpTime");
- // _leakcheckWaitTimeLL = SC.GetValue<int>($"{Module}.Pump.LoadLockLeakCheckWaitTime");
- // _leakRate = SC.GetValue<double>($"{Module}.Pump.LoadLockLeakRate");
- // return Runner.Start(Module, Name);
- // }
- // return RState.Failed;
- // }
- // public RState Monitor()
- // {
- // Runner.Delay(LeakCheckStep.kCloseValves, _delay_1s)
- // .Run(LeakCheckStep.kPumpToBasePressure, HOFs.WrapAction(_chamber.OpenValve, ValveType.LoadlockPumping, true), () => { return _chamber.LoadlockPressure <= _basePressureLL; })
- // .Delay(LeakCheckStep.kPumpingDelay, _leakcheckPumpTimeLL * 1000)
- // .Run(LeakCheckStep.kLeakCheckDelay, StartLeakCheck, _leakcheckWaitTimeLL * 1000)
- // .Run(LeakCheckStep.kLeakCheckCalc, CalcLeakCheckResult, _delay_50ms)
- // .Run(LeakCheckStep.kPumpToBasePressure_2, HOFs.WrapAction(_chamber.OpenValve, ValveType.LoadlockPumping, true), () => { return _chamber.LoadlockPressure <= _basePressureLL; })
- // .End(LeakCheckStep.kEnd, LeakCheckEnd, _delay_50ms);
- // return Runner.Status;
- // }
- // public void Abort()
- // {
- // CloseAllValves();
- // }
- // bool StartLeakCheck()
- // {
- // _chamber.OpenValve(ValveType.LoadlockPumping, false);
- // _startPressure = _chamber.LoadlockPressure;
- // Notify($"LoadLock压力开始值 {_startPressure} mt");
- // return true;
- // }
- // bool CalcLeakCheckResult()
- // {
- // _endPressure = _chamber.LoadlockPressure;
- // LeakRate = (_endPressure - _startPressure) * 60.0 / _leakcheckWaitTimeLL;
- // if(LeakRate < _leakRate)
- // {
- // Notify($"LoadLock Leakcheck完成, 压力结束值: {_startPressure} mt, 漏率:{LeakRate} mt/min");
- // }
- // else
- // {
- // Stop($"LoadLock Leakcheck失败, 腔体漏率 [{LeakRate}] mt/min, 高于 [{_leakRate}] mt/min");
- // }
-
- // return true;
- // }
- // bool LeakCheckEnd()
- // {
- // // 临时版试验机, 关Pumping Valve, 正式版保持 Pumping Valve 打开
- // _chamber.OpenValve(ValveType.LoadlockPumping, false);
- // return true;
- // }
- // }
- //}
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