NN13
ROSE
OP
ME
20160211.140458.000
20160211.180550.000
20160211.190450.000
STC
1
Max_Size_Reached
60
60.
No
Yes
3067809363.
0
-
No
No
4
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 = 398 ; // Hz
FreqSpecInv = No ; //
FreqUplkConv = 6938061000 ; // Hz
FreqCoherTrs = Yes ; //
FreqTR1 = 240 ; //
FreqTR2 = 749 ; //
FreqDnlkCF = 2296850919 ; // Hz
FreqDnlkConv = 2226660000 ; // 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
242 20160211.180550.000 99.7 984.1 19.3
243 20160211.180650.000 99.8 984.1 19.3
244 20160211.180750.000 99.8 984.1 19.3
245 20160211.180850.000 99.8 984.1 19.3
246 20160211.180950.000 99.9 984.1 19.3
247 20160211.181050.000 99.9 983.9 19.3
248 20160211.181150.000 99.9 984.1 19.3
249 20160211.181250.000 99.9 984.1 19.3
250 20160211.181350.000 99.9 984.1 19.3
251 20160211.181450.000 99.9 984.1 19.3
252 20160211.181550.000 99.9 984.2 19.3
253 20160211.181650.000 99.9 984.2 19.2
254 20160211.181750.000 99.9 984.3 19.2
255 20160211.181850.000 99.9 984.3 19.2
256 20160211.181950.000 100.0 984.3 19.2
257 20160211.182050.000 99.9 984.3 19.2
258 20160211.182150.000 99.9 984.3 19.1
259 20160211.182250.000 100.0 984.3 19.1
260 20160211.182350.000 100.0 984.3 19.1
261 20160211.182450.000 100.0 984.3 19.1
262 20160211.182550.000 100.0 984.2 19.2
263 20160211.182650.000 100.0 984.2 19.2
264 20160211.182750.000 100.0 984.1 19.2
265 20160211.182850.000 100.0 984.1 19.2
266 20160211.182950.000 100.0 984.1 19.2
267 20160211.183050.000 100.0 984.1 19.2
268 20160211.183150.000 100.0 984.1 19.2
269 20160211.183250.000 100.0 984.1 19.2
270 20160211.183350.000 100.0 984.0 19.2
271 20160211.183450.000 100.0 983.9 19.2
272 20160211.183550.000 100.0 983.9 19.3
273 20160211.183650.000 100.0 983.9 19.3
274 20160211.183750.000 100.0 983.9 19.3
275 20160211.183850.000 100.0 983.9 19.3
276 20160211.183950.000 100.0 983.9 19.3
277 20160211.184050.000 100.0 983.9 19.3
278 20160211.184150.000 100.0 983.9 19.3
279 20160211.184250.000 100.0 983.9 19.3
280 20160211.184350.000 100.0 983.9 19.3
281 20160211.184450.000 100.0 983.9 19.3
282 20160211.184550.000 100.0 983.9 19.3
283 20160211.184650.000 100.0 983.9 19.3
284 20160211.184750.000 100.0 983.9 19.3
285 20160211.184850.000 100.0 984.0 19.3
286 20160211.184950.000 100.0 983.9 19.3
287 20160211.185050.000 100.0 983.9 19.3
288 20160211.185150.000 100.0 983.9 19.3
289 20160211.185250.000 99.9 983.9 19.3
290 20160211.185350.000 99.9 984.0 19.3
291 20160211.185450.000 99.9 984.1 19.3
292 20160211.185550.000 99.9 984.1 19.3
293 20160211.185650.000 99.9 984.1 19.3
294 20160211.185750.000 100.0 984.1 19.3
295 20160211.185850.000 100.0 984.1 19.2
296 20160211.185950.000 100.0 983.9 19.2
297 20160211.190050.000 100.0 983.9 19.2
298 20160211.190150.000 100.0 983.9 19.2
299 20160211.190250.000 100.0 983.9 19.2
300 20160211.190350.000 100.0 983.9 19.2
301 20160211.190450.000 100.0 983.9 19.2