private void TurnOffClose(List <TDK> tdk, bool overvolt = false,
bool oversmoke = false, bool overtemp = false)
{
foreach (var t in tdk)
{
_serTDK.Write("ADR " + t.Address + "\r\n");
_serTDK.Write("OUT OFF\r\n");
if (_serTDK.ReadLine() == "OK")
{
U.Logger.WriteLine($"Port #{t.Port} OFF: OKAY");
}
_serTDK.DiscardOutBuffer();
_serTDK.DiscardInBuffer();
}
StartTimer();
// wait and get updated measured value from TDKs for the GUI
Wait(500);
foreach (var tt in tdk)
{
string volt = MeasureVoltage();
string current = MeasureCurrent();
_args = new GUIArgs(volt, current, tt.CycleCount, tt.Port, _cycleTimer,
closing: true, overvolt: overvolt, oversmoke: oversmoke, overtemp: overtemp);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
}
_serTDK.Close();
}
private void TurnOffClose(List <TDK> tdk)
{
foreach (var t in tdk)
{
_serTDK.Write("ADR " + t.Address + "\r\n");
_serTDK.Write("OUT OFF\r\n");
if (_serTDK.ReadLine() == "OK")
{
Console.WriteLine($"Port #{t.Port} OFF: OKAY");
}
_serTDK.DiscardOutBuffer();
_serTDK.DiscardInBuffer();
}
StartTimer();
Wait(500);
foreach (var tt in tdk)
{
_serTDK.Write("MV?\r\n");
Wait(50); // lag in measured value
string volt = _serTDK.ReadLine();
_serTDK.Write("MC?\r\n");
Wait(50);
string current = _serTDK.ReadLine();
_args = new GUIArgs(volt, current, tt.CycleCount, tt.Port, _cycleTimer);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
}
_serTDK.Close();
}
public void StartCycling(StartCyclingArgs args)
{
_serTDK = new SerialPort();
var tdk = args.TDK;
if (tdk.Count < 1)
{
return;
}
U.Logger.WriteLine("Waiting for HW interlock");
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateHeartBeatPacket
});
Thread.Sleep(2000); // wait for HW interlock to disengage
OpenPorts();
try {
foreach (var t in tdk)
{
try {
SetAddress(t);
SetCurrentVoltage(t);
t.Connected = true;
}
catch (TimeoutException exc) {
U.Logger.WriteLine($"TIMEOUT ON PORT #{t.Port}");
throw new Exception(exc.Message);
}
}
// start bias cycle
foreach (var t in tdk)
{
t.CycleCount++;
t.PastVoltages = new List <string>();
}
// save at a slower interval for China
var saveTimeON = Environment.MachineName.ToUpper() == "CH-J7TMTZ1" ? 5000 : U.ResultsSaveTimeON;
var saveTimeOFF = Environment.MachineName.ToUpper() == "CH-J7TMTZ1" ? 60000 : U.ResultsSaveTimeOFF;
_TDK = tdk;
_totalTimer = new Stopwatch();
_totalTimer.Start();
_voltageTimer = new Stopwatch();
_voltageTimer.Start();
DataError = false; // assume connection is good at start
// Loop forever until we get a stop command from main thread
while (true)
{
_intoCycleTimer = new Stopwatch();
_intoCycleTimer.Start();
// BIAS ON
foreach (var t in tdk)
{
TurnON(t);
}
BIASON = true;
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateHeartBeatPacket
});
StartTimer();
StartResultsTimer();
_cycleTimer = DateTime.Now.AddMilliseconds(args.BiasOnTime);
while (_biasTimer.ElapsedMilliseconds < args.BiasOnTime &&
!STOP && !TEMPALARM && !SMOKEALARM)
{
if (_resultsTimer.ElapsedMilliseconds > saveTimeON)
{
SAVE = true;
}
foreach (var tt in tdk)
{
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
SetAddress(tt);
_serTDK.DiscardInBuffer();
tt.Voltage = MeasureVoltage();
tt.Current = MeasureCurrent();
_args = new GUIArgs(tt.Voltage, tt.Current, tt.CycleCount, tt.Port, _cycleTimer);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
if (SAVE)
{
SaveResultsBQ(tt);
}
if (double.Parse(tt.Voltage) > args.MaxOverVoltage)
{
STOP = true;
OVERMAXVOLTAGE = true;
U.Logger.WriteLine($"{tt.SampleName} Overvoltaged!!");
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// if we have saved then restart timer
if (SAVE)
{
SAVE = false;
_resultsTimer.Restart();
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// BIAS OFF
TurnOff(tdk);
BIASON = false;
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateHeartBeatPacket
});
StartTimer();
StartResultsTimer();
_cycleTimer = DateTime.Now.AddMilliseconds(args.BiasOffTime);
while (_biasTimer.ElapsedMilliseconds < args.BiasOffTime &&
!STOP && !TEMPALARM && !SMOKEALARM)
{
if (_resultsTimer.ElapsedMilliseconds > saveTimeOFF)
{
SAVE = true;
}
foreach (var tt in tdk)
{
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
tt.Voltage = MeasureVoltage();
tt.Current = MeasureCurrent();
_args = new GUIArgs(tt.Voltage, tt.Current, tt.CycleCount, tt.Port, _cycleTimer);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
if (SAVE)
{
SaveResultsBQ(tt);
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// if we have saved then restart timer
if (SAVE)
{
SAVE = false;
_resultsTimer.Restart();
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// completed a bias on/off cycle
foreach (var ttt in tdk)
{
ttt.CycleCount++;
}
}
}
catch (Exception exc) {
U.Logger.WriteLine($"{exc}");
BIASON = false;
STOP = false;
SMOKEALARM = false;
TEMPALARM = false;
GUISTOP = false;
EMSSTOP = false;
OVERMAXVOLTAGE = false;
TurnOffClose(tdk);
U.Logger.WriteLine($"TDK closing with exception");
}
var cmd = EMSSTOP ? "EMSSTOP" : SMOKEALARM ? "SMOKEALARM" : GUISTOP ? "GUI Stop" : OVERMAXVOLTAGE ? "Over Max Voltage" : "TEMPALARM";
U.Logger.WriteLine($"Encountered {cmd} while Cycling!");
BIASON = false;
STOP = false;
EMSSTOP = false;
GUISTOP = false;
TurnOffClose(tdk, OVERMAXVOLTAGE, SMOKEALARM, TEMPALARM);
OVERMAXVOLTAGE = false;
SMOKEALARM = false;
TEMPALARM = false;
U.Logger.WriteLine($"TDK Closing Normally");
}
public void StartCycling(StartCyclingArgs args)
{
_serTDK = new SerialPort();
OpenPorts();
var tdk = args.TDK;
try {
foreach (var t in tdk)
{
try {
SetAddress(t);
SetCurrentVoltage(t);
t.Connected = true;
}
catch (TimeoutException exc) {
Console.WriteLine($"TIMEOUT ON PORT #{t.Port}");
throw new Exception(exc.Message);
}
}
_TDK = tdk;
_resultsDir = args.ResultsDirectory;
_totalTimer = new Stopwatch();
_totalTimer.Start();
// Loop forever until we get a stop command from main thread
while (true)
{
_intoCycleTimer = new Stopwatch();
_intoCycleTimer.Start();
// BIAS ON
foreach (var t in tdk)
{
TurnON(t);
}
BIASON = true;
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateHeartBeatPacket
});
StartTimer();
StartResultsTimer();
_cycleTimer = DateTime.Now.AddMilliseconds(args.BiasOnTime);
while (_timer.ElapsedMilliseconds < args.BiasOnTime &&
!STOP && !TEMPALARM && !SMOKEALARM)
{
if (_resultsTimer.ElapsedMilliseconds > 1000)
{
SAVE = true;
}
foreach (var tt in tdk)
{
SetAddress(tt);
_serTDK.Write("MV?\r\n");
Wait(50); // lag in measured value
tt.Voltage = _serTDK.ReadLine();
_serTDK.Write("MC?\r\n");
Wait(50);
tt.Current = _serTDK.ReadLine();
_args = new GUIArgs(tt.Voltage, tt.Current, tt.CycleCount, tt.Port, _cycleTimer);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
if (SAVE)
{
SaveResults(tt);
}
}
// if we have saved then restart timer
if (SAVE)
{
SAVE = false;
_resultsTimer.Restart();
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// BIAS OFF
TurnOff(tdk);
BIASON = false;
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateHeartBeatPacket
});
StartTimer();
StartResultsTimer();
_cycleTimer = DateTime.Now.AddMilliseconds(args.BiasOffTime);
while (_timer.ElapsedMilliseconds < args.BiasOffTime &&
!STOP && !TEMPALARM && !SMOKEALARM)
{
if (_resultsTimer.ElapsedMilliseconds > 1000)
{
SAVE = true;
}
foreach (var tt in tdk)
{
_serTDK.Write("MV?\r\n");
Wait(50); // lag in measured value
tt.Voltage = _serTDK.ReadLine();
_serTDK.Write("MC?\r\n");
Wait(50);
tt.Current = _serTDK.ReadLine();
_args = new GUIArgs(tt.Voltage, tt.Current, tt.CycleCount, tt.Port, _cycleTimer);
NewCoreCommand?.Invoke(this, new CoreCommand()
{
Type = U.CmdType.UpdateUI
});
if (SAVE)
{
SaveResults(tt);
}
}
// if we have saved then restart timer
if (SAVE)
{
SAVE = false;
_resultsTimer.Restart();
}
}
if (STOP || SMOKEALARM || TEMPALARM)
{
break;
}
// completed a bias on/off cycle
foreach (var ttt in tdk)
{
ttt.CycleCount++;
}
}
}
catch (Exception exc) {
Console.WriteLine($"{exc}");
TurnOffClose(tdk);
STOP = false;
SMOKEALARM = false;
TEMPALARM = false;
}
STOP = false;
SMOKEALARM = false;
TEMPALARM = false;
TurnOffClose(tdk);
}