NN13 ROSE OP ME 20160428.080928.000 20160428.091020.000 20160428.100920.000 STC 1 Max_Size_Reached 60 60. No Yes 3067792674. 0 - No No 1 UlmMode = "Normal" ; // UlmCarNomLvl = 4 ; // dBm UlmCarTstLvl = 0.0 ; // dB UlmCarSpecInv = No ; // UlmPrior = No ; // UlmTcSrc = "IP1 TC1" ; // UlmTcDataCoding = "NRZ-L" ; // UlmTcTceMode = "Normal" ; // UlmTcModIdx_Ana = 0.0000 ; // rad/V UlmTcModIdx_Dig = 1.000 ; // rad UlmTcMod = "PM on sub-carrier" ; // UlmTcRCBRateN = 1 ; // UlmTcRCBRateD = 8 ; // UlmTcSCBRateP = 100.00 ; // bit/s UlmTcSCBRateQ = 100.00 ; // bit/s UlmTcUnbalRatio = -15.0 ; // dB UlmTcSqWavSubc = No ; // UlmTcRCBRateSel = No ; // UlmTcRCIrrBRate = 2000.0000 ; // bit/s UlmTcSubF = 16000.000 ; // Hz UlmRampTime = 0.00 ; // s UlSweep_AllowTC = No ; // UlSweep_AllowRG = No ; // UlSweep_StartOffset = -10000 ; // Hz UlSweep_3LegRange = 10000 ; // Hz UlSweep_3LegRate = 500 ; // Hz/s UlSweep_3LegInitRate = 1000000 ; // Hz/s UlSweep_3LegDpPred = No ; // UlSweep_NumberOfLegs = 7 ; // UlSweep_Leg01EndFrq = -15000 ; // Hz UlSweep_Leg01Rate = 1000000 ; // Hz/s UlSweep_Leg01HoldDur = 0 ; // s UlSweep_Leg02EndFrq = 15000 ; // Hz UlSweep_Leg02Rate = 1000 ; // Hz/s UlSweep_Leg02HoldDur = 0 ; // s UlSweep_Leg03EndFrq = -15000 ; // Hz UlSweep_Leg03Rate = 1000 ; // Hz/s UlSweep_Leg03HoldDur = 0 ; // s UlSweep_Leg04EndFrq = 0 ; // Hz UlSweep_Leg04Rate = 1000 ; // Hz/s UlSweep_Leg04HoldDur = 180 ; // s UlSweep_Leg05EndFrq = 15000 ; // Hz UlSweep_Leg05Rate = 1000 ; // Hz/s UlSweep_Leg05HoldDur = 0 ; // s UlSweep_Leg06EndFrq = -15000 ; // Hz UlSweep_Leg06Rate = 1000 ; // Hz/s UlSweep_Leg06HoldDur = 0 ; // s UlSweep_Leg07EndFrq = 0 ; // Hz UlSweep_Leg07Rate = 1000 ; // Hz/s UlSweep_Leg07HoldDur = 0 ; // s UlSweep_Leg08EndFrq = -1500000 ; // Hz UlSweep_Leg08Rate = 1 ; // Hz/s UlSweep_Leg08HoldDur = 0 ; // s UlSweep_Leg09EndFrq = -1500000 ; // Hz UlSweep_Leg09Rate = 1 ; // Hz/s UlSweep_Leg09HoldDur = 0 ; // s UlSweep_Leg10EndFrq = -1500000 ; // Hz UlSweep_Leg10Rate = 1 ; // Hz/s UlSweep_Leg10HoldDur = 0 ; // s UlSweep_MulStopRate = 1000000 ; // Hz/s FreqUlmCarFrSel = "230MHz" ; // FreqUlmCarFrOffs = 670 ; // Hz FreqSpecInv = No ; // FreqUplkConv = 6938816000 ; // Hz FreqCoherTrs = Yes ; // FreqTR1 = 240 ; // FreqTR2 = 749 ; // FreqDnlkCF = 2296850919 ; // Hz FreqDnlkConv = 2226418000 ; // Hz FreqPnSatTrsType = "Regenerative" ; // RgdPolarisation = "X" ; // RgdPhEst = 0.00 ; // T RgdPostProc = 1 ; // RgdExpCN0Avail = Yes ; // RgdExpCN0 = 34 ; // dBHz RgdCFrUnc = 10000 ; // Hz RgdCFrRateUnc = 1000 ; // Hz/s RgdCAcqMode = "FFT2" ; // RgdUseAcq = Yes ; // RgdCLpNoBw = 30.0 ; // Hz RgdCLpOrder = 2 ; // RgdCLp_ChgDel = "STEP" ; // RgdTLpBw = 0.040 ; // Hz RgdTLPreSt = Yes ; // RgdTLp_ChgDel = "STEP" ; // D1Dur = 72000 ; // s D1SplPer = "1" ; // s D1MaxDs = 3600 ; // D1DSetKind = "OP" ; // D1Source = "RCD" ; // D2Dur = 72000 ; // s D2SplPer = "10" ; // s D2MaxDs = 360 ; // D2DSetKind = "OP" ; // D2Source = "RGD" ; // G1Dur = 72000 ; // s G1SplPer = 1.0 ; // s G1MaxDs = 3600 ; // G1DSetKind = "OP" ; // G1Source = "RCD" ; // G2Dur = 72000 ; // s G2SplPer = 10.0 ; // s G2MaxDs = 360 ; // G2DSetKind = "OP" ; // G2Source = "RGD" ; // MeDur = 72000 ; // s MeSplPer = 60 ; // s MeMaxDs = 60 ; // MeDSetKind = "OP" ; // OLDSetKind = "RS" ; // RgDur = 72000 ; // s RgSplPer = 1 ; // s RgMaxDs = 3600 ; // RgDSetKind = "OP" ; // RgToneF = 1061683.200 ; // Hz RgToneTxModInd = 0.700 ; // rad RgToneRxModInd = 0.5 ; // rad RgToneInteg = 31.3 ; // s RgToneSettl = 31.3 ; // s RgCodeModInd = "High&Low" ; // RgCodeMax = 14 ; // RgCodeInteg = 13.8 ; // s RgCodeRestart = Yes ; // RgCodeRepet = No ; // RgCodeChgTonePeak = No ; // RgDualRanging = "slave" ; // RgDualSlaveIfms = "None" ; // Epd = 0.00 ; // s EpdDer = 0.000000000 ; // s/s EpdTime = "19700101.000000.000" ; // RgPnSignalType = "PN-T2B-Sine" ; // RgPnExtendedHarm = No ; // RgPnUpLkChipRate = No ; // RgPnUpLkRate_L = 1 ; // RgPnUpLkRate_K = 6 ; // RgPnExplChipRate = 10000.000 ; // Hz RgPnAcqDurT4b = 1.0 ; // s RgPnAcqDurT2b = 1.0 ; // s RgPnRxInvertedCode = No ; // UCDur = 10 ; // s UCMaxDs = 10 ; // UCDSetKind = "Frequency" ; // StationId = "NN13" ; // MissionId = "ROSETTA" ; // SpacecraftId = "ROSE" ; // RcdPolarisation = "X" ; // RcdPhEst = 0.00 ; // T RcdPostProc = 1 ; // RcdExpCN0Avail = Yes ; // RcdExpCN0 = 34 ; // dBHz RcdCFrUnc = 10000 ; // Hz RcdCFrRateUnc = 1000 ; // Hz/s RcdCAcqMode = "FFT2" ; // RcdUseAcq = Yes ; // RcdCLpNoBw = 30.0 ; // Hz RcdCLpOrder = 2 ; // RcdCLp_ChgDel = "STEP" ; // RcdEnableLowSnrExt = No ; // RcdTLpBw = 0.01000 ; // fsr RcdTLpOrder = 2 ; // RcdTLpPhEst = "DD" ; // RcdTLp_ChgDel = "STEP" ; // RcdSCLpFreq = 8192.00 ; // Hz RcdSCLpPreSt = Yes ; // RcdSCLpBw = 0.01000 ; // fsr RcdSCLpModInd = 0.50 ; // rad RcdSCLpPhEst = "Decision directed" ; // RcdSCLpAcq = "None" ; // RcdSCLpBitNum = 1 ; // RcdSCLpBitDen = 192 ; // RcdSCLpSqWavSc = Yes ; // RcdSCLpSRateUsed = No ; // RcdSCLpSRate = 42.67 ; // sps RcdSCLpDecodMode = "NRZ-L" ; // RcdSCLp_ChgDel = "STEP" ; // ScdPolarisation = "X" ; // ScdPhEst = 0.00 ; // T ScdPostProc = 1 ; // ScdExpCN0Avail = No ; // ScdExpCN0 = 67 ; // dBHz ScdCFrUnc = 30000 ; // Hz ScdCFrRateUnc = 0 ; // Hz/s ScdCAcqMode = "Sweep" ; // ScdUseAcq = No ; // ScdCLpNoBw = 1000.0 ; // Hz ScdCLpOrder = 2 ; // ScdCLpPhEst = "DD" ; // ScdCLp_ChgDel = "STEP" ; // ScdEnableLowSnrExt = No ; // ScdTLpBw = 0.00010 ; // fsr ScdTLpOrder = 2 ; // ScdTLpPhEst = "DD" ; // ScdTLp_ChgDel = "STEP" ; // ScdModFormat = "BPSK" ; // ScdModPRate = 2500000 ; // sps ScdModQRate = 100 ; // sps ScdModExpBalAv = No ; // ScdModExpBal = 0.0 ; // dB ScdModIChCoding = "NRZ-L swap'd" ; // ScdModQChCoding = "NRZ-L" ; // ScdMchPulse = Yes ; // ScdMchCosine = No ; // ScdMchExcBw = 50 ; // % GmdPolarisation = "X" ; // GmdPhEst = 0.00 ; // T GmdPostProc = 1 ; // GmdExpCN0Avail = Yes ; // GmdExpCN0 = 75 ; // dBHz GmdCFrUnc = 30000 ; // Hz GmdCFrRateUnc = 1000 ; // Hz/s GmdCAcqMode = "Sweep" ; // GmdUseAcq = Yes ; // GmdCLpNoBw = 1000.0 ; // Hz GmdCLpOrder = 2 ; // GmdCLp_ChgDel = "STEP" ; // GmdEnableLowSnrExt = No ; // GmdTLpBw = 0.00001 ; // fsr GmdTLpOrder = 2 ; // GmdTLpPhEst = "DD" ; // GmdTLp_ChgDel = "STEP" ; // GmdBitRate = 10000000 ; // bit/s GmdModCoding = "NRZ-L swap'd" ; // GmdBTbSelection = "0.25" ; //

// Number SampleTime Humidity Pressure Temperature 62 20160428.091020.000 92.7 985.0 15.3 63 20160428.091120.000 93.8 985.1 15.2 64 20160428.091220.000 95.0 985.0 15.1 65 20160428.091320.000 95.9 985.0 15.1 66 20160428.091420.000 96.5 985.0 15.0 67 20160428.091520.000 97.1 985.0 15.0 68 20160428.091620.000 97.6 985.1 14.9 69 20160428.091720.000 97.9 985.2 14.9 70 20160428.091820.000 98.4 985.1 14.9 71 20160428.091920.000 98.6 985.2 14.8 72 20160428.092020.000 98.7 985.1 14.8 73 20160428.092120.000 98.9 985.2 14.8 74 20160428.092220.000 99.1 985.2 14.8 75 20160428.092320.000 99.2 985.2 14.8 76 20160428.092420.000 99.4 985.2 14.8 77 20160428.092520.000 99.6 985.2 14.8 78 20160428.092620.000 99.8 985.2 14.7 79 20160428.092720.000 100.0 985.2 14.8 80 20160428.092820.000 100.0 985.2 14.7 81 20160428.092920.000 100.0 985.2 14.7 82 20160428.093020.000 100.0 985.2 14.7 83 20160428.093120.000 99.1 985.2 14.7 84 20160428.093220.000 99.1 985.2 14.7 85 20160428.093320.000 99.3 985.2 14.7 86 20160428.093420.000 99.4 985.2 14.7 87 20160428.093520.000 99.4 985.2 14.7 88 20160428.093620.000 99.5 985.2 14.6 89 20160428.093720.000 99.6 985.2 14.7 90 20160428.093820.000 99.6 985.2 14.7 91 20160428.093920.000 99.7 985.2 14.7 92 20160428.094020.000 99.7 985.2 14.7 93 20160428.094120.000 99.8 985.2 14.7 94 20160428.094220.000 99.9 985.2 14.7 95 20160428.094320.000 99.8 985.2 14.7 96 20160428.094420.000 99.9 985.2 14.7 97 20160428.094520.000 99.9 985.2 14.7 98 20160428.094620.000 100.0 985.3 14.7 99 20160428.094720.000 100.0 985.3 14.7 100 20160428.094820.000 100.0 985.3 14.7 101 20160428.094920.000 100.0 985.3 14.7 102 20160428.095020.000 100.0 985.4 14.7 103 20160428.095120.000 100.0 985.4 14.7 104 20160428.095220.000 100.0 985.4 14.8 105 20160428.095320.000 100.0 985.4 14.8 106 20160428.095420.000 100.0 985.4 14.8 107 20160428.095520.000 100.0 985.4 14.8 108 20160428.095620.000 100.0 985.4 14.8 109 20160428.095720.000 100.0 985.4 14.8 110 20160428.095820.000 100.0 985.4 14.8 111 20160428.095920.000 100.0 985.4 14.8 112 20160428.100020.000 100.0 985.5 14.8 113 20160428.100120.000 100.0 985.5 14.8 114 20160428.100220.000 100.0 985.5 14.9 115 20160428.100320.000 100.0 985.6 14.9 116 20160428.100420.000 100.0 985.6 14.9 117 20160428.100520.000 100.0 985.6 14.9 118 20160428.100620.000 100.0 985.6 14.9 119 20160428.100720.000 100.0 985.6 14.9 120 20160428.100820.000 100.0 985.6 14.9 121 20160428.100920.000 100.0 985.6 14.9