PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "2015-04-29" RECORD_TYPE = STREAM OBJECT = DATA_SET DATA_SET_ID = "RO-SS-RPCMAG-4-PRL-RESAMPLED-V5.0" OBJECT = DATA_SET_REFERENCE_INFORMATION REFERENCE_KEY_ID = "GLASSMEIERETAL2007B" END_OBJECT = DATA_SET_REFERENCE_INFORMATION OBJECT = DATA_SET_INFORMATION DATA_SET_NAME = "ROSETTA-ORBITER SW RPCMAG 4 PRL RESAMPLED V5.0" DETAILED_CATALOG_FLAG = "N" DATA_OBJECT_TYPE = TABLE START_TIME = 2014-03-23T22:02:19 STOP_TIME = 2014-11-21T23:58:47 DATA_SET_RELEASE_DATE = 2015-05-20 PRODUCER_FULL_NAME = "INGO RICHTER" ABSTRACT_DESC = "This dataset contains RESAMPLED DATA of the PRELANDING Phase from March 23 until November 21, 2014 of the ROSETTA orbiter magnetometer RPCMAG. Data are averaged to 60s means. Observations are done in the vicinity of comet 67P/CHURYUMOV-GERASIMENKO 1 (1969 R1). Version V5.0 is the first version being archived." DATA_SET_DESC = " Data Set Overview ================= The data from the ROSETTA PLASMA CONSORTIUM (RPC) Fluxgate Magnetometer(MAG)was submitted by Ingo Richter (TM) for the RPCMAG team. The PI of the team is Karl-Heinz Glassmeier. The data have been measured during the PRELANDING Phase of ROSETTA. Included are the following sub-phases: -the Rendezvous Manoeuvre 2 (RVM2) between January and September 2014 -the Post Hibernation Commissioning in March/April 2014 -the Near Comet Drift Phase (NCD) between March and July 2014 -the Far Approach Trajectory (FAT)between July and August 2014 -the Comet Characterization Phase (CC) between August and September -the Global Mapping Phase/Close Observation Phase (GMP/COP) between September and October 2014 -the Landing and First Science Sequence (LD/FSS) between October and November 2014 The several Landings of PHILAE happened on November 12, 2014. All magnetic field data are calibrated, resampled data. That means the data represent the 3 components of the magnetic field measured in physical units (nT). Calibration has been applied according to the Ground calibration results which means: - temperature dependent offset calibration - temperature dependent sensitivity calibration - temperature dependent misalignment calibration Data are given in different coordinates, dependent on the calibration LEVEL. LEVEL_F : averaged data in s/c-coordinates Source of these data are LEVEL_B data. Bad vectors have been removed. Any s/c caused residual magnetic fields are not eliminated. The ground temperature model for the sensor calibration has been improved (expanded for a wider temperature range down to - 130 deg C) using long term temperature model obtained from flight data. The data are sorted by the sensor (OB: outboard sensor, IB: inboard sensor)and the measurement mode (M1..M6) and average interval (A, where n denotes the average interval in seconds). Data can uniquely be identified by their file names. Averaging means calculating a mean value of of the specified interval in time domain. It does not mean any mixing of data from the OB and IB sensor. Normally the OB is the Primary (Pri) and the IB is the Secondary (Sec) sensor. However, this order can be toggled by TCs. This feature has been tested especially during the commissioning phases. In cases were the PRIMARY and SECONDARY sensor were toggled the individual data files (OB/IB) will contain data measured with different sampling rates according to the actual sampling rates of the PRIMARY and SECONDARY sensors. Refer to the MODE DESCRIPTION table below. The actual sampling rate is the only indicator showing which sensor is the primary and which is the secondary one. REMARK: ======= Due to strong magnetic disturbance by the ORBITER and by the LANDER Philae, the magnetic field data are influenced by s/c generated magnetic fields. The source of these disturbance is manifold: - transient currents flowing on the spacecraft - Heater pulses - Thruster related magnetic field - Reaction wheel signatures - etc. Due to the complexity of these circumstances a proper data cleaning is an ongoing task. Thus the data of the present dataset still contain the mentioned disturbance signatures. Therefore, any use of the data for scientific research has to be done under consideration of these disturbances. Mode description: ================= MODE SAMPLE RATE PACKET PERIOD PACKET LENGTH VECTOR RATE Minimum Mode M1 1/32 Hz 1024 s 32 Pri Vec 0.03125 vec/s 1 Sec Vec 0.000976 vec/s Normal Mode M2 1 Hz 32 s 32 Pri Vec 1 vec/s 1 Sec Vec 0.03125 vec/s Burst Mode M3 20 Hz 16 s 320 Pri Vec 20 vec/s 16 Sec Vec 1 vec/s Medium Mode M4 5 Hz 32 s 160 Pri Vec 5 vec/s 1 Sec Vec 0.03125 vec/s Low Mode M5 0.25 Hz 128 s 32 Pri Vec 0.25 vec/s 1 Sec Vec 0.007812 vec/s Test Mode M6 20 Hz 16 s 320 Pri Vec 20 vec/s 1 Sec Vec 0.0625 vec/s HK Mode 32 s 8 words 0.03125 vec/s FILENAME CONVENTION & Mode Coding =================================== Due to operational constraints it might happen that the instrument mode or the primary sensor has to be switched during a specific observation. The actual mode and the primary sensor of the instrument can easily be identified by analyzing the filename of the actual data files. The complete filename convention is listed in the EAICD, chapter 3.1.4. The filenames for RESAMPLED averaged data (CLF,CLG) are coded as follows: ___A. RPCMAG yymmdd CLF IB A60 LBL CLG OB TAB Example: RPCMAG040528_CLG_OB_A20.LBL RPCMAG040528_CLG_OB_A20.TAB Average denotes the time interval for one average period in seconds. The filenames for RESAMPLED Heater or Reaction Wheel influenced data (CLH) are coded as follows: ___. RPCMAG yymmddThhmm CLH IB M1..M6 LBL OB TAB Example: RPCMAG040528T1230_CLH_OB_M3.LBL RPCMAG040528T1230_CLH_OB_M3.TAB Geometry Information - Coordinate System ======================================== The geometry items SC_SUN_POSITION_VECTOR SC_TARGET_POSITION_VECTOR SC_TARGET_VELOCITY_VECTOR provided in the label of the data product are relative to the ECLIPJ2000 frame. This reference frame is built up by Ecliptic Coordinates related to Equinox of Epoch J2000. Orientation: X: Pointing from SUN to Vernal Equinoxe, Y: perpendicular to X in Ecliptic Plane, Z: Perpendicular to Ecliptic plane, pointing up The items SUB_SPACECRAFT_LATITUDE SUB_SPACECRAFT_LONGITUDE are given in the PLANETOCENTRIC coordinate system. All these geometry parameters are computed at time t=START_TIME. Distances are given in km, angles in degrees. " CONFIDENCE_LEVEL_NOTE = "This data set has the same structure as the former RPCMAG datasets obtained between 2004 and 2011. Those datasets have been reviewed by two independent teams in Spring 2012. After these reviews the datasets had been accepted by the Planetary Science Archive(PSA)of the ESA and by the Planetary Data System(PDS) of NASA for long-term archiving. The data have been processed on best effort basis according to the procedures described in RO-IGEP-TR0028: Step by Step Calibration Procedure. Quality flags are attached for CALIBRATED and RESAMPLED data as described in the EAICD RO-IGEP-TR0009. Both of these are available in the DOCUMENT directory." ARCHIVE_STATUS = "ARCHIVED" CITATION_DESC = "Glassmeier K.-H., Richter I., Koenders C., Goetz C., Eichelberger. H, Cupido E., ROSETTA RPCMAG PRELANDING PHASE (PRL) RESAMPLED DATA RECORD V5.0, RO-SS-RPCMAG-4-PRL-RESAMPLED-V5.0,ESA Planetary Science Archive and NASA Planetary Data System, 2015" DATA_SET_COLLECTION_MEMBER_FLG = "N" DATA_SET_TERSE_DESC = "This dataset contains RPCMAG RESMPLED DATA of the PRELANDING Phase. Included are data 23.3.2014 - 21.11.2014." END_OBJECT = DATA_SET_INFORMATION OBJECT = DATA_SET_TARGET TARGET_NAME = "CHECKOUT" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "SOLAR WIND" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "67P/CHURYUMOV-GERASIMENKO 1 (1969 R1)" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_MISSION MISSION_NAME = "INTERNATIONAL ROSETTA MISSION" END_OBJECT = DATA_SET_MISSION OBJECT = DATA_SET_HOST INSTRUMENT_HOST_ID = RO INSTRUMENT_ID = RPCMAG END_OBJECT = DATA_SET_HOST END_OBJECT = DATA_SET END