public void Get_s_SignalType(string strWaveform, string strWaveformName, out s_SignalType value) { //Get the all value from 'struct s_SignalType' NoiseFloorWaveformMode ModulationType; ModulationType = (NoiseFloorWaveformMode)Enum.Parse(typeof(NoiseFloorWaveformMode), strWaveformName.ToUpper()); int arrayNo = (int)Enum.Parse(ModulationType.GetType(), ModulationType.ToString()); //to get the int value from System.Enum value = NF_VSTDriver.SignalType[arrayNo]; }
public static string ModulationTypeName(ModulationType modulation_type) { return(modulation_type.ToString().Substring(8)); // skip the BDA_MOD_ part. }
public void Mod_FormatCheck(string strWaveform, string strWaveformName, string strmutateCond, bool WaveformInitalLoad) { #region Variable double papr_dB; ComplexDouble[] iqDataArr; string org_SG_IPath = NF_VSTDriver.SG_Path + strWaveform + @"\I_" + strWaveformName + ".txt"; string org_SG_QPath = NF_VSTDriver.SG_Path + strWaveform + @"\Q_" + strWaveformName + ".txt"; string mut_SG_IPath = NF_VSTDriver.SG_Path + strWaveform + @"\MUTSIG\I_" + strWaveformName + ".txt"; string mut_SG_QPath = NF_VSTDriver.SG_Path + strWaveform + @"\MUTSIG\Q_" + strWaveformName + ".txt"; //check mutate signal folder if (!Directory.Exists(NF_VSTDriver.SG_Path + strWaveform + @"\MUTSIG\")) { Directory.CreateDirectory(NF_VSTDriver.SG_Path + strWaveform + @"\MUTSIG\"); } #endregion #region set IQ Rate and status NoiseFloorWaveformMode ModulationType; ModulationType = (NoiseFloorWaveformMode)Enum.Parse(typeof(NoiseFloorWaveformMode), strWaveform.ToUpper()); int arrayNo = (int)Enum.Parse(ModulationType.GetType(), ModulationType.ToString()); //to get the int value from System.Enum NF_VSTDriver.SignalType[arrayNo].signalMode = ModulationType.ToString(); switch (ModulationType) { case NoiseFloorWaveformMode.CW: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 1e6; //set to default CW Rate break; case NoiseFloorWaveformMode.CDMA2K: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 4.9152e6; break; case NoiseFloorWaveformMode.CDMA2KRC1: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 4.9152e6; break; case NoiseFloorWaveformMode.GSM850: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM900: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM1800: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM1900: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM850A: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM900A: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM1800A: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.GSM1900A: NF_VSTDriver.SignalType[arrayNo].status = true; break; case NoiseFloorWaveformMode.IS95A: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 4.9152e6; break; case NoiseFloorWaveformMode.WCDMA: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.WCDMAUL: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.WCDMAGTC1: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.LTE10M1RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE10M12RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE10M20RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE10M48RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE10M50RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE15M75RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 23.04e6; break; case NoiseFloorWaveformMode.LTE5M25RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.LTE5M8RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.LTE20M100RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 30.72e6; break; case NoiseFloorWaveformMode.LTE20M18RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 30.72e6; break; case NoiseFloorWaveformMode.LTE20M48RB: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 30.72e6; break; case NoiseFloorWaveformMode.LTE5MCUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; case NoiseFloorWaveformMode.LTE10MCUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 15.36e6; break; case NoiseFloorWaveformMode.LTE15MCUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 23.04e6; break; case NoiseFloorWaveformMode.LTE20MCUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 30.72e6; break; case NoiseFloorWaveformMode.CDMA2KCUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 4.9152e6; break; case NoiseFloorWaveformMode.WCDMACUSTOM: NF_VSTDriver.SignalType[arrayNo].status = true; NF_VSTDriver.SignalType[arrayNo].SG_IQRate = 7.68e6; break; default: throw new Exception("Not such a waveform!"); } #endregion #region Normal or Mutate Modulation Signal Generation if (NF_VSTDriver.SignalType[arrayNo].status) { if (NF_VSTDriver.SignalType[arrayNo].signalMode == "CW") { NF_VSTDriver.SignalType[arrayNo].SG_papr_dB = 0; } else { // Read IQ data and calculate PAPR offset for given modulation //Read original waveform iqData_Array(org_SG_IPath, org_SG_IPath, out iqDataArr); papr_dB = SignalAnalysis.PAPR(iqDataArr); NF_VSTDriver.SignalType[arrayNo].SG_papr_dB = Math.Round(papr_dB, 3); // Read IQ data and calculate PAPR offset for given modulation //double[] SG_Idata, SG_Qdata; //ComplexDouble.DecomposeArray(iqDataArr, out SG_Idata, out SG_Qdata); //Filters.PAPR(SG_Idata, SG_Qdata, out papr_dB); //NF_VSTDriver.SignalType[arrayNo].SG_papr_dB = papr_dB; if (MutSignal_Setting.enable) { //NF_VSTDriver.SignalType[arrayNo].SG_IPath = mut_SG_IPath; //NF_VSTDriver.SignalType[arrayNo].SG_QPath = mut_SG_QPath; //var mutSG_Idata = new double[iqDataArr.Length]; //var mutSG_Qdata = new double[iqDataArr.Length]; //Filters.MutateWaveform(SG_Idata.ToArray(), SG_Qdata.ToArray(), NF_VSTDriver.SignalType[arrayNo].SG_IQRate, total_time_sec, mod_time_sec, mod_offset_sec, freq_offset_hz, f_off_delay_sec, out mutSG_Idata, out mutSG_Qdata); //string[] tempIdata = Array.ConvertAll(mutSG_Idata, Convert.ToString); //System.IO.File.WriteAllLines(mut_SG_IPath, tempIdata); //string[] tempQdata = Array.ConvertAll(mutSG_Qdata, Convert.ToString); //System.IO.File.WriteAllLines(mut_SG_QPath, tempQdata); } else { // Set the modulation file path to default if mutate signal no required NF_VSTDriver.SignalType[arrayNo].SG_IPath = org_SG_IPath; NF_VSTDriver.SignalType[arrayNo].SG_QPath = org_SG_QPath; } } } #endregion }