public bool GetMarkerCount(CHANNEL channel, MEASUREMENT measurement, out int markerCount) { markerCount = -1; try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } markerCount = chMeasurement.Markers.Count; return(true); } catch (Exception) { return(false); } }
public void CreateChannel(SPARAMS sp, CHANNEL channel, WINDOW window, MEASUREMENT measurement) { Tuple <CHANNEL, MEASUREMENT> t = new Tuple <CHANNEL, MEASUREMENT>(channel, measurement); if (m_measureChannelDic.ContainsKey(t) == true) { return; } driver.Channels.AddMeasurement("Standard", SparamName[(int)sp], (int)channel, (int)window); // Setup convineient pointers to Channels and Measurements agNAChannel[(int)channel - 1] = driver.Channels.get_Item(GetChannelName(channel)); IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); m_measureChannelDic.Add(new Tuple <CHANNEL, MEASUREMENT>(channel, measurement), sp); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); m_measureChannelDic.Add(new Tuple <CHANNEL, MEASUREMENT>(channel, (MEASUREMENT)channel), sp); } }
public void MeasureSparam(CHANNEL channel, out float[] data, out double[] freq, out int points, MEASUREMENT measurement, bool autoScale = true) { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } agNAChannel[(int)channel - 1].TriggerSweep(2000); // Take sweep and wait up to 2 seconds for sweep to complete if (autoScale) { chMeasurement.Trace.AutoScale(); } // Read and output data data = chMeasurement.FetchFormatted(); freq = chMeasurement.FetchX(); points = data.Length; }
public bool GetMarkerTargetValue(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, out double targetValue, out string outMessage) { targetValue = 0; outMessage = string.Empty; try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } targetValue = chMeasurement.Markers.Item[getMarker(marker)].TargetValue; return(true); } catch (Exception err) { outMessage = err.Message; return(false); } }
public bool MarkerQueryBandwidth(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, ref double pBandWidthVal, ref double pCenterFreqVal, ref double pQVal, ref double pLossVal) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Markers.Item[getMarker(marker)].QueryBandwidth(ref pBandWidthVal, ref pCenterFreqVal, ref pQVal, ref pLossVal); return(true); } catch (Exception) { return(false); } }
public bool GetMarkerStimulus(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, out double stimulus) { stimulus = 0; try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } stimulus = chMeasurement.Markers.Item[getMarker(marker)].Stimulus; return(true); } catch (Exception) { return(false); } }
public bool GetMarkerNames(CHANNEL channel, MEASUREMENT measurement, out string [] names, out string outMessage) { names = null; outMessage = string.Empty; try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } int markerCount = chMeasurement.Markers.Count; names = new string[markerCount]; for (int i = 0; i < markerCount; i++) { names[i] = chMeasurement.Markers.Name[i]; } return(true); } catch (Exception err) { outMessage = err.Message; return(false); } }
public AgNAMeasurementFormatEnum GetMeasureFormat(CHANNEL channel, MEASUREMENT measurement) { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } return(chMeasurement.Format); }
public void AutoScale(CHANNEL channel, MEASUREMENT measurement) { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Trace.AutoScale(); }
public bool SetMarkerTrackEnabled(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, bool te) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Markers.Item[getMarker(marker)].MarkerTrackEnabled = te; return(true); } catch (Exception) { return(false); } }
public bool MarkerSearch(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, AgNAMarkerSearchTypeEnum s) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Markers.Item[getMarker(marker)].Search(s); return(true); } catch (Exception) { return(false); } }
public bool SetMarkerBandwidthThreshold(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, double t) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Markers.Item[getMarker(marker)].BandwidthThreshold = t; return(true); } catch (Exception) { return(false); } }
public bool FastCalibrate(CHANNEL channel, MEASUREMENT measurement) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.DataToMemory(); chMeasurement.TraceMath = AgNAMeasurementTraceMathEnum.AgNAMeasurementTraceMathDivided; return(true); } catch (Exception) { return(false); } }
public bool GetMarkerPeakExcursion(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, out double targetValue) { targetValue = 0; try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } targetValue = chMeasurement.Markers.Item[getMarker(marker)].PeakExcursion; return(true); } catch (Exception) { return(false); } }
public bool MarkerQueryValue(CHANNEL channel, MEASUREMENT measurement, MARKERS marker, ref double pRealVal, ref double pImagVal) { try { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Markers.Item[getMarker(marker)].QueryValue(ref pRealVal, ref pImagVal); return(true); } catch (Exception) { return(false); } }
public void SetMeasureFormat(AgNAMeasurementFormatEnum measureFormat, CHANNEL channel, MEASUREMENT measurement) { IAgNAMeasurement chMeasurement; if (measurement != MEASUREMENT.LIKE_CHANNEL) { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)measurement); } else { chMeasurement = agNAChannel[(int)channel - 1].Measurements.get_Item("Measurement" + (int)channel); } chMeasurement.Format = measureFormat; }
public SPARAMS GetMeasureSparams(CHANNEL channel, MEASUREMENT measurement) { Tuple <CHANNEL, MEASUREMENT> t = new Tuple <CHANNEL, MEASUREMENT>(channel, measurement); return(m_measureChannelDic[t]); }