public void ClearALLDigitalPort() { for (int i = 0; i != 8; i++) { DaqBoard.DBitOut(BitPort, i, DigitalLogicState.Low); } }
public void TurnOn(int index) { relaybox.DBitOut(MccDaq.DigitalPortType.FirstPortA, index - 1, MccDaq.DigitalLogicState.High); Thread.Sleep(10); relaybox.DBitOut(MccDaq.DigitalPortType.FirstPortA, index - 1, MccDaq.DigitalLogicState.High); currentPumpState[index] = true; }
private void chkSetBit_CheckStateChanged(object eventSender, System.EventArgs eventArgs) { string PortName; int BitNum = Array.IndexOf(chkSetBit, eventSender); MccDaq.DigitalPortType BitPort; MccDaq.DigitalLogicState BitValue = MccDaq.DigitalLogicState.Low; if (chkSetBit[BitNum].Checked) { BitValue = MccDaq.DigitalLogicState.High; } //the port must be AuxPort or FirstPortA for bit output BitPort = MccDaq.DigitalPortType.AuxPort; if (PortNum > MccDaq.DigitalPortType.AuxPort) { BitPort = MccDaq.DigitalPortType.FirstPortA; } MccDaq.ErrorInfo ULStat = DaqBoard.DBitOut(BitPort, FirstBit + BitNum, BitValue); PortName = BitPort.ToString(); int BitSet = FirstBit + BitNum; lblValueSet.Text = PortName + ", bit " + BitSet.ToString() + " value set to " + BitValue.ToString(); }
private void chkSetBit_CheckStateChanged(object eventSender, System.EventArgs eventArgs) { MccDaq.DigitalPortType PortType; int BitNum = Array.IndexOf(chkSetBit, eventSender); // For boards whose first port is not FIRSTPORTA (such as the USB-ERB08 // and the USB-SSR08) offset the BitNum by FirstBit if (PortNum == MccDaq.DigitalPortType.AuxPort) { PortType = MccDaq.DigitalPortType.AuxPort; } else { PortType = MccDaq.DigitalPortType.FirstPortA; } MccDaq.DigitalLogicState BitValue = MccDaq.DigitalLogicState.Low; if (chkSetBit[BitNum].Checked) { BitValue = MccDaq.DigitalLogicState.High; } MccDaq.ErrorInfo ULStat = DaqBoard.DBitOut(PortType, FirstBit + BitNum, BitValue); }
private void chkSetBit_CheckStateChanged(object eventSender, System.EventArgs eventArgs) { int BitNum = Array.IndexOf(chkSetBit, eventSender); MccDaq.DigitalLogicState BitValue = MccDaq.DigitalLogicState.Low; if (chkSetBit[BitNum].Checked) { BitValue = MccDaq.DigitalLogicState.High; } MccDaq.DigitalPortType PortType = PortNum; MccDaq.ErrorInfo ULStat = DaqBoard.DBitOut(PortType, BitNum, BitValue); if (ULStat.Value == MccDaq.ErrorInfo.ErrorCode.BadBitNumber) { MessageBox.Show("Boards only supports bit numbers less than " + BitNum.ToString("0"), "Bit value too high", 0); } }
public ErrorInfo.ErrorCode Set(DigitalPortType port, int outputID, DigitalLogicState state) { lock (this) { Console.WriteLine(String.Format("port: {0}, outputID: {1}, state: {2}", port, outputID, state)); if (!BoardFound) { return(ErrorInfo.ErrorCode.BoardNotExist); } if (port == DigitalPortType.FirstPortA && outputID >= 0 && outputID <= 7) { MccDaq.ErrorInfo ULStat; ULStat = DaqBoard.DBitOut(port, outputID, state); return(PrintError(ULStat)); } else { SimpleLogger.Logger.Log("Port Not supported"); Environment.Exit(1); return(ErrorInfo.ErrorCode.InvalidNetPort); } } }
private void switch_relay(object sender, EventArgs e) { if (relayBoard == null) { MessageBox.Show("Initialize a device first", "Error"); return; } Button b = (Button)sender; int relayNumber = Convert.ToInt32(b.Tag); if (relayStatus[relayNumber - 1] == false) { relayStatus[relayNumber - 1] = true; relayBoard.DBitOut(DigitalPortType.FirstPortA, relayNumber + 15, DigitalLogicState.High); } else { relayStatus[relayNumber - 1] = false; relayBoard.DBitOut(DigitalPortType.FirstPortA, relayNumber + 15, DigitalLogicState.Low); } }
// This function turns on the heater coils according to the string // parameter passed to it. Usable string parameters are: "all", "0", // "1", "2", and "none"; "all" and "none" turn on/off all the coils, // while "0", "1", "2" turns on the coil corresponding to that channel // output from the USB-TC device. private void TC_channel_out(str channel) { MccBoard daq = new MccDaq.MccBoard(BoardNum); MccDaq.ErrorInfo RetVal; for (int i = 0; i < 6; i++) { RetVal = daq.DConfigBit(DigitalPortType.AuxPort, i, DigitalPortDirection.DigitalOut); IsError(this,RetVal,true); } switch (channel) { case "all_coils": for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.High); IsError(this,RetVal, true); } break; case "no_coils": for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(this,RetVal, true); } break; case "no_air": for (int i = 3; i < 6; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(this,RetVal, true); } break; case "inner": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 0, DigitalLogicState.High); IsError(this,RetVal, true); break; case "sample_zone": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 1, DigitalLogicState.High); IsError(this,RetVal, true); break; case "outer": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 2, DigitalLogicState.High); IsError(this,RetVal, true); break; case "high_n2": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 3, DigitalLogicState.High); IsError(this, RetVal, true); break; case "air": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 4, DigitalLogicState.High); IsError(this, RetVal, true); break; case "low_n2": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 5, DigitalLogicState.High); IsError(this, RetVal, true); break; default: RetVal = new ErrorInfo(1); MessageBox.Show("TC_channel_out() called with invalid parameter!", " " + "ERROR!"); break; } RetVal = daq.DConfigBit(DigitalPortType.AuxPort, 0, DigitalPortDirection.DigitalOut); if (IsError(this, RetVal, true) == 0) { MessageBox.Show("TC_out function error!"); return; } }
// This function turns on the heater coils according to the string // parameter passed to it. Usable string parameters are: "all", "0", // "1", "2", and "none"; "all" and "none" turn on/off all the coils, // while "0", "1", "2" turns on the coil corresponding to that channel // output from the USB-TC device. private void coils_on(string state) { MccBoard daq = new MccDaq.MccBoard(BoardNum); MccDaq.ErrorInfo RetVal; for (int i = 0; i < 3; i++) { RetVal = daq.DConfigBit(DigitalPortType.AuxPort, i, DigitalPortDirection.DigitalOut); IsError(RetVal); } switch (state) { case "all": for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.High); IsError(RetVal); } break; case "0": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 0, DigitalLogicState.High); IsError(RetVal); break; case "1": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 1, DigitalLogicState.High); IsError(RetVal); break; case "2": RetVal = daq.DBitOut(DigitalPortType.AuxPort, 2, DigitalLogicState.High); IsError(RetVal); break; case "none": for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(RetVal); } break; default: MessageBox.Show("coils_on() called with invalid parameter!", " " + "ERROR!"); break; } RetVal = daq.DConfigBit(DigitalPortType.AuxPort, 0, DigitalPortDirection.DigitalOut); IsError(RetVal); }
/// <summary> /// portNumber from 8-23 /// </summary> /// <param name="portNumber">Port number</param> /// <param name="BitValue">DigitalLogicState</param> public void DigitOutput(int portNumber, MccDaq.DigitalLogicState BitValue) { DaqBoard.DBitOut(BitPort, portNumber, BitValue); }
private void air_channel_out(AirChanStatusEnum state) { MccBoard daq = new MccDaq.MccBoard(BoardNum); MccDaq.ErrorInfo RetVal; for (int i = 3; i < 6; i++) { RetVal = daq.DConfigBit(DigitalPortType.AuxPort, i, DigitalPortDirection.DigitalOut); IsError(this, RetVal, true); } switch (state) { case AirChanStatusEnum.air_off: for (int i = 3; i < 6; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(this, RetVal, true); } break; case AirChanStatusEnum.low_n2: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 5, DigitalLogicState.High); IsError(this, RetVal, true); break; case AirChanStatusEnum.high_n2: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 3, DigitalLogicState.High); IsError(this, RetVal, true); break; case AirChanStatusEnum.air: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 4, DigitalLogicState.High); IsError(this, RetVal, true); break; default: RetVal = new ErrorInfo(1); MessageBox.Show("air_channel_out() called with invalid parameter!", " " + "ERROR!"); break; } RetVal = daq.DConfigBit(DigitalPortType.AuxPort, 0, DigitalPortDirection.DigitalOut); if (IsError(this, RetVal, true) == 0) { air_status = state; } }
// This function turns on the heater coils according to the string // parameter passed to it. Usable string parameters are: "all", "0", // "1", "2", and "none"; "all" and "none" turn on/off all the coils, // while "0", "1", "2" turns on the coil corresponding to that channel // output from the USB-TC device. private void oven_channel_out(OvenChanStatusEnum state) { MccBoard daq = new MccDaq.MccBoard(BoardNum); MccDaq.ErrorInfo RetVal; for (int i = 0; i < 3; i++) { RetVal = daq.DConfigBit(DigitalPortType.AuxPort, i, DigitalPortDirection.DigitalOut); IsError(this,RetVal,true); } switch (state) { case OvenChanStatusEnum.oven_on: for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.High); IsError(this,RetVal, true); } break; case OvenChanStatusEnum.oven_off: for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(this,RetVal, true); } break; case OvenChanStatusEnum.all_off: for (int i = 0; i < 3; i++) { RetVal = daq.DBitOut(DigitalPortType.AuxPort, i, DigitalLogicState.Low); IsError(this,RetVal, true); } break; case OvenChanStatusEnum.inner: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 0, DigitalLogicState.High); IsError(this,RetVal, true); break; case OvenChanStatusEnum.SZ: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 1, DigitalLogicState.High); IsError(this,RetVal, true); break; case OvenChanStatusEnum.outer: RetVal = daq.DBitOut(DigitalPortType.AuxPort, 2, DigitalLogicState.High); IsError(this,RetVal, true); break; default: RetVal = new ErrorInfo(1); MessageBox.Show("oven_channel_out() called with invalid parameter!", " " + "ERROR!"); break; } RetVal = daq.DConfigBit(DigitalPortType.AuxPort, 0, DigitalPortDirection.DigitalOut); if (IsError(this, RetVal, true) == 0) { oven_status = state; SetHeatingElementStatus(state); } }