NN13
ROSE
OP
ME
20160124.185948.000
20160124.210040.000
20160124.214240.000
STC
1
Max_Size_Reached
43
60.
No
Yes
3067806050.
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 = 452 ; // Hz
FreqSpecInv = No ; //
FreqUplkConv = 6937947000 ; // Hz
FreqCoherTrs = Yes ; //
FreqTR1 = 240 ; //
FreqTR2 = 749 ; //
FreqDnlkCF = 2296850919 ; // Hz
FreqDnlkConv = 2226696000 ; // 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 = 46 ; // dBHz
GmdCFrUnc = 10000 ; // Hz
GmdCFrRateUnc = 1000 ; // Hz/s
GmdCAcqMode = "Sweep" ; //
GmdUseAcq = Yes ; //
GmdCLpNoBw = 150.0 ; // Hz
GmdCLpOrder = 2 ; //
GmdCLp_ChgDel = "STEP" ; //
GmdEnableLowSnrExt = Yes ; //
GmdTLpBw = 0.00050 ; // fsr
GmdTLpOrder = 2 ; //
GmdTLpPhEst = "NDA" ; //
GmdTLp_ChgDel = "STEP" ; //
GmdBitRate = 138461 ; // bit/s
GmdModCoding = "NRZ-L swap'd" ; //
GmdBTbSelection = "0.5" ; //
// Number SampleTime Humidity Pressure Temperature
122 20160124.210040.000 80.7 980.7 22.3
123 20160124.210140.000 80.8 980.7 22.3
124 20160124.210240.000 80.9 980.7 22.3
125 20160124.210340.000 81.0 980.7 22.3
126 20160124.210440.000 81.1 980.7 22.3
127 20160124.210540.000 81.0 980.7 22.3
128 20160124.210640.000 81.1 980.7 22.3
129 20160124.210740.000 81.2 980.7 22.3
130 20160124.210840.000 81.2 980.7 22.3
131 20160124.210940.000 81.1 980.9 22.2
132 20160124.211040.000 81.0 980.8 22.3
133 20160124.211140.000 81.2 980.8 22.2
134 20160124.211240.000 81.3 980.7 22.2
135 20160124.211340.000 81.4 980.8 22.2
136 20160124.211440.000 81.5 980.9 22.2
137 20160124.211540.000 81.7 981.0 22.2
138 20160124.211640.000 81.7 980.9 22.1
139 20160124.211740.000 81.9 980.9 22.1
140 20160124.211840.000 81.8 980.9 22.1
141 20160124.211940.000 82.0 981.0 22.1
142 20160124.212040.000 82.3 981.1 22.1
143 20160124.212140.000 82.3 981.1 22.1
144 20160124.212240.000 82.3 980.9 22.0
145 20160124.212340.000 82.6 981.1 22.0
146 20160124.212440.000 82.6 981.1 22.0
147 20160124.212540.000 82.6 981.1 22.0
148 20160124.212640.000 82.6 981.1 21.9
149 20160124.212740.000 82.5 981.1 21.9
150 20160124.212840.000 82.6 981.1 21.9
151 20160124.212940.000 82.8 981.1 21.9
152 20160124.213040.000 82.9 981.1 21.9
153 20160124.213140.000 82.9 981.2 21.9
154 20160124.213240.000 82.9 981.3 21.8
155 20160124.213340.000 83.0 981.3 21.8
156 20160124.213440.000 83.0 981.4 21.8
157 20160124.213540.000 83.0 981.5 21.8
158 20160124.213640.000 83.1 981.6 21.8
159 20160124.213740.000 83.0 981.6 21.8
160 20160124.213840.000 83.1 981.6 21.8
161 20160124.213940.000 83.3 981.6 21.8
162 20160124.214040.000 83.2 981.6 21.7
163 20160124.214140.000 83.3 981.6 21.7
164 20160124.214240.000 83.4 981.7 21.7