/// <summary>Performs actions to initiate acquisition and measurement.<para></para> Enables the specified measurement(s) before optionally /// automatically adjusting the reference level before beginning measurements. Finally, initiates the acquisition and measurement(s).</summary> /// <param name="lte">Specifies the LTE signal to configure.</param> /// <param name="measurements">Specifies one or more previously configured measurements to enable for this acquisition.</param> /// <param name="autoLevelConfig">Specifies the configuration for the optional AutoLevel process which will automatically set the analyzer's reference level.</param> /// <param name="enableTraces">(Optional) Specifies whether traces should be enabled for the measurement(s).</param> /// <param name="selectorString">Pass an empty string. The signal name that is passed when creating the signal configuration is used. See the RFmx help for more documention of this parameter.</param> /// <param name="resultName">(Optional) Specifies the name to be associated with measurement results. Provide a unique name, such as "r1" to enable /// fetching of multiple measurement results and traces. See the RFmx help for more documentation of this parameter.</param> public static void SelectAndInitiateMeasurements(RFmxLteMX lte, RFmxLteMXMeasurementTypes[] measurements, AutoLevelConfiguration autoLevelConfig = default, bool enableTraces = false, string selectorString = "", string resultName = "") { // Aggregate the selected measurements into a single value // OR of 0 and x equals x RFmxLteMXMeasurementTypes selectedMeasurements = 0; foreach (RFmxLteMXMeasurementTypes measurement in measurements) { selectedMeasurements |= measurement; } lte.SelectMeasurements(selectorString, selectedMeasurements, enableTraces); if (autoLevelConfig.Enabled) { lte.AutoLevel(selectorString, autoLevelConfig.MeasurementInterval_s, out double _); } // Initiate acquisition and measurement for the selected measurements lte.Initiate(selectorString, resultName); }
static void LoadAndRunMeasurements(string instrName, string inputPath, string outputPath) { inputPath = Path.GetFullPath(inputPath); RFmxInstrMX instr = null; NIRfsa rfsa = null; IntPtr rfsaHandle; try { Console.WriteLine($"Initializing RFmx session with instrument \"{instrName}\"..."); instr = new RFmxInstrMX(instrName, ""); Console.WriteLine($"Loading configuration from \"{Path.GetFileName(inputPath)}\"..."); instr.LoadAllConfigurations(inputPath, true); instr.DangerousGetNIRfsaHandle(out rfsaHandle); rfsa = new NIRfsa(rfsaHandle); string[] signalNames = new string[0]; RFmxInstrMXPersonalities[] personalities = new RFmxInstrMXPersonalities[0]; Console.WriteLine("Configuration loaded successfully."); instr.GetSignalConfigurationNames("", RFmxInstrMXPersonalities.All, ref signalNames, ref personalities); for (int i = 0; i < signalNames.Length; i++) { Console.WriteLine(""); ConsoleKeyInfo info; switch (personalities[i]) { case RFmxInstrMXPersonalities.BT: RFmxBTMX bt = instr.GetBTSignalConfiguration(signalNames[i]); Console.WriteLine($"Enter 'y' to initiate acquisition for RFmx Bluetooth with signal \"{signalNames[i]}\"; any other key to skip."); info = Console.ReadKey(); Console.WriteLine(); if (info.KeyChar == 'y') { bt.Initiate("", ""); bt.WaitForMeasurementComplete("", 10); FetchAndLog(rfsa, personalities[i], signalNames[i], outputPath); } bt.Dispose(); break; case RFmxInstrMXPersonalities.Wlan: RFmxWlanMX wlan = instr.GetWlanSignalConfiguration(signalNames[i]); Console.WriteLine($"Enter 'y' to initiate acquisition for RFmx WLAN with signal \"{signalNames[i]}\"; any other key to skip."); info = Console.ReadKey(); Console.WriteLine(); if (info.KeyChar == 'y') { wlan.Initiate("", ""); wlan.WaitForMeasurementComplete("", 10); FetchAndLog(rfsa, personalities[i], signalNames[i], outputPath); } wlan.Dispose(); break; case RFmxInstrMXPersonalities.SpecAn: RFmxSpecAnMX specAn = instr.GetSpecAnSignalConfiguration(signalNames[i]); Console.WriteLine($"Enter 'y' to initiate acquisition for RFmx SpecAn with signal \"{signalNames[i]}\"; any other key to skip."); info = Console.ReadKey(); Console.WriteLine(); if (info.KeyChar == 'y') { specAn.Initiate("", ""); specAn.WaitForMeasurementComplete("", 10); FetchAndLog(rfsa, personalities[i], signalNames[i], outputPath); } specAn.Dispose(); break; case RFmxInstrMXPersonalities.NR: RFmxNRMX nr = instr.GetNRSignalConfiguration(signalNames[i]); Console.WriteLine($"Enter 'y' to initiate acquisition for RFmx NR with signal \"{signalNames[i]}\"; any other key to skip."); info = Console.ReadKey(); Console.WriteLine(); if (info.KeyChar == 'y') { nr.Initiate("", ""); nr.WaitForMeasurementComplete("", 10); FetchAndLog(rfsa, personalities[i], signalNames[i], outputPath); } nr.Dispose(); break; case RFmxInstrMXPersonalities.Lte: RFmxLteMX lte = instr.GetLteSignalConfiguration(signalNames[i]); Console.WriteLine($"Enter 'y' to initiate acquisition for RFmx LTE with signal \"{signalNames[i]}\"; any other key to skip."); info = Console.ReadKey(); Console.WriteLine(); if (info.KeyChar == 'y') { lte.Initiate("", ""); lte.WaitForMeasurementComplete("", 10); FetchAndLog(rfsa, personalities[i], signalNames[i], outputPath); } lte.Dispose(); break; default: throw new System.NotImplementedException($"The \"{personalities[i].ToString()}\" personality has not been implemented."); } } Console.WriteLine("All measurements complete."); } catch (Exception ex) { Console.WriteLine("Exception occurred: " + ex.Message); Console.WriteLine("Location: " + ex.StackTrace); } finally { if (instr != null) { instr.Dispose(); } } }