NN13 ROSE OP ME 20160108.185253.000 20160108.205350.000 20160108.215350.000 STC 1 Max_Size_Reached 60 60. No Yes 3067774697. 0 - No No 2 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 = 963 ; // Hz FreqSpecInv = No ; // FreqUplkConv = 6937905000 ; // Hz FreqCoherTrs = Yes ; // FreqTR1 = 240 ; // FreqTR2 = 749 ; // FreqDnlkCF = 2296850919 ; // Hz FreqDnlkConv = 2226709000 ; // 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 = 0.013 ; // 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 = 0.2 ; // rad RgToneInteg = 99.1 ; // s RgToneSettl = 99.1 ; // s RgCodeModInd = "High&Low" ; // RgCodeMax = 14 ; // RgCodeInteg = 43.7 ; // 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 122 20160108.205350.000 63.2 982.8 21.8 123 20160108.205450.000 63.0 982.8 21.9 124 20160108.205550.000 63.1 982.8 21.9 125 20160108.205650.000 63.3 982.8 21.8 126 20160108.205750.000 63.2 982.8 21.8 127 20160108.205850.000 62.6 982.8 21.9 128 20160108.205950.000 62.0 982.8 21.9 129 20160108.210050.000 61.9 982.8 22.0 130 20160108.210150.000 61.7 982.8 22.0 131 20160108.210250.000 61.8 982.8 22.1 132 20160108.210350.000 61.8 982.8 22.1 133 20160108.210450.000 61.9 982.8 22.1 134 20160108.210550.000 62.1 982.8 22.0 135 20160108.210650.000 62.3 982.8 22.0 136 20160108.210750.000 62.8 982.9 21.9 137 20160108.210850.000 63.4 982.8 21.8 138 20160108.210950.000 64.9 983.0 21.6 139 20160108.211050.000 67.1 982.9 21.3 140 20160108.211150.000 67.8 982.9 21.1 141 20160108.211250.000 67.2 982.9 21.1 142 20160108.211350.000 66.9 982.9 21.1 143 20160108.211450.000 67.8 983.0 21.0 144 20160108.211550.000 67.4 983.0 21.0 145 20160108.211650.000 68.5 983.0 20.9 146 20160108.211750.000 69.9 983.1 20.7 147 20160108.211850.000 70.0 983.1 20.7 148 20160108.211950.000 71.4 983.1 20.5 149 20160108.212050.000 72.7 983.0 20.4 150 20160108.212150.000 73.5 983.0 20.2 151 20160108.212250.000 71.6 983.0 20.2 152 20160108.212350.000 69.7 982.9 20.4 153 20160108.212450.000 68.5 983.0 20.6 154 20160108.212550.000 67.9 983.0 20.8 155 20160108.212650.000 67.7 982.9 20.8 156 20160108.212750.000 67.3 982.9 20.9 157 20160108.212850.000 67.0 983.1 21.0 158 20160108.212950.000 66.9 983.1 21.0 159 20160108.213050.000 66.7 983.0 21.1 160 20160108.213150.000 66.9 983.0 21.1 161 20160108.213250.000 67.4 983.0 21.0 162 20160108.213350.000 67.9 983.0 20.9 163 20160108.213450.000 68.1 983.1 20.9 164 20160108.213550.000 68.6 983.1 20.8 165 20160108.213650.000 68.8 983.1 20.8 166 20160108.213750.000 68.7 983.1 20.8 167 20160108.213850.000 68.7 983.1 20.8 168 20160108.213950.000 67.3 983.0 20.9 169 20160108.214050.000 65.8 983.0 21.1 170 20160108.214150.000 66.1 983.1 21.2 171 20160108.214250.000 66.3 983.1 21.2 172 20160108.214350.000 66.6 983.1 21.1 173 20160108.214450.000 69.3 983.1 20.9 174 20160108.214550.000 68.6 983.1 20.9 175 20160108.214650.000 68.0 983.1 20.9 176 20160108.214750.000 67.6 983.1 20.9 177 20160108.214850.000 67.7 983.1 21.0 179 20160108.215050.000 68.7 983.2 20.9 180 20160108.215150.000 68.7 983.1 20.9 181 20160108.215250.000 68.8 983.2 20.8 182 20160108.215350.000 69.4 983.2 20.8