public double MeasureResistance() { if (_currentMeasureFunction != Keithley26xxBMeasureFunctions.MEASURE_OHMS) { _currentMeasureFunction = Keithley26xxBMeasureFunctions.MEASURE_OHMS; _display.smuX.measure.func = Keithley26xxBMeasureFunctions.MEASURE_OHMS; } var response = _driver.RequestQuery(string.Format("MeasureResistance_smu{0}({1}, {2}, {3})", ChannelIdentifier, _currentAveraging, _currentNPLC.ToString(CultureInfo.InvariantCulture), _currentDelay.ToString(CultureInfo.InvariantCulture))); var result = 0.0; var success = double.TryParse(response, NumberStyles.Float, CultureInfo.InvariantCulture, out result); if (success) { return(result); } else { throw new Exception("Can't read resistance!"); } }
public double MeasureVoltage() { if (_currentMeasureFunction != Keithley26xxBMeasureFunctions.MEASURE_DCVOLTS) { _currentMeasureFunction = Keithley26xxBMeasureFunctions.MEASURE_DCVOLTS; _display.smuX.measure.func = Keithley26xxBMeasureFunctions.MEASURE_DCVOLTS; } var responce = _driver.RequestQuery(string.Format("MeasureVoltage_smu{0}({1}, {2}, {3})", ChannelIdentifier, _currentAveraging, _currentNPLC.ToString(CultureInfo.InvariantCulture), _currentDelay.ToString(CultureInfo.InvariantCulture))); var result = 0.0; var success = double.TryParse(responce, NumberStyles.Float, CultureInfo.InvariantCulture, out result); if (success) return result; else throw new Exception("Can't read voltage!"); }
public void Initialize(IDeviceIO Driver, string channelID) { _driver = Driver; ChannelIdentifier = channelID; _display = new Keithley26xxB_Display(ref Driver, ChannelIdentifier); _SetBeeperEnabled(true); _currentMeasureFunction = Keithley26xxBMeasureFunctions.MEASURE_DCAMPS; _display.smuX.measure.func = Keithley26xxBMeasureFunctions.MEASURE_DCAMPS; _LoadDeviceFunctions(); _stopWatch = new Stopwatch(); }