PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "15-05-2004: First Draft" RECORD_TYPE = STREAM OBJECT = DATA_SET DATA_SET_ID = "MEX-M-PFS-2-EDR-NOMINAL-V1.0" OBJECT = DATA_SET_HOST INSTRUMENT_HOST_ID = MEX INSTRUMENT_ID = PFS END_OBJECT = DATA_SET_HOST OBJECT = DATA_SET_INFORMATION DATA_SET_NAME = "Mars Express Mars PFS EDR Nominal Mission Data V1.0" DATA_SET_COLLECTION_MEMBER_FLG = "Y" DATA_OBJECT_TYPE = "RAW INTERFEROGRAM" ABSTRACT_DESC = "The Mars Express PFS data set contains raw (CODMAC Level 2) measurements from the Planetary Fourier Spectrometer collected during the first extension Mars orbit phases." CITATION_DESC = "V. Formisano, F. Angrilli, G. Arnold, S. Atreya, G. Bianchini, D. Biondi,A.,Blanco, M. I. Blecka, A. Coradini, L. Colangeli, A. Ekonomov, F. Esposito, S.,Fonti, M.Giuranna, D. Grassi, V. Gnedykh, A. Grigoriev, G.Hansen, H. Hirsh, I. Khatuntsev, A. Kiselev, N. Ignatiev,, A. Jurewicz, E. Lellouch, J. LopezMoreno, A. Marten, A. Mattana, A. Maturilli, E. Mencarelli, M. Michalska, V.Moroz, B.Moshkin, F. Nespoli, Y. Nikolsky, R. Orfei, P. Orleanski, V.Orofino,E. Palomba, D. Patsaev, G. Piccioni, M. Rataj, R. Rodrigo, J.Rodriguez, M.Rossi, B.Saggin, D. Titov, L. Zasova MEX-PFS-PSA-ICD-24.PDF, NASA Planetary Data System, 2005." ARCHIVE_STATUS = "IN PEER REVIEW" CONFIDENCE_LEVEL_NOTE = " ========================= Review: ========================= These data have been reviewed by the instrument team and are of the highest quality that can be generated at this time. Science results based on these data have been published in several journals (JGR,PSS, EGU, etc.). Data Coverage/Quality: ========================= There are several known problems throughout the dataset (microvibrations, contamination, etc.) that are still under study. The quality of data is therefore not fixed, as these problems will be detected and corrected over time. For details of the known problems to date, please refer to the following documentation: GIURANNAETAL2005a and GIURANNAETAL2005b." START_TIME = 2003-06-23T22:48:25.009 STOP_TIME = 2005-12-31T20:45:10.309 DATA_SET_RELEASE_DATE = 2010-07-28 PRODUCER_FULL_NAME = "PFS SCIENCE TEAM" DETAILED_CATALOG_FLAG = "N" DATA_SET_TERSE_DESC = "This dataset contains the CODMAC Level 2 PFS data for the Mars Express Mission" DATA_SET_DESC = "Data Set Overview ================ The Mars Express (MEX) Planetary Fourier Spectrometer (PFS) Data Archive is a collection of raw data collected during the MEX Mission to Mars. For more information on the investigations proposed see the PFS documentations in the DOCUMENT/ folder. This data set was collected during the MEX Mission phases: - First Extension Mission Phase Mission Phase Definition ======================== It should be noted that the Mars Express (MEX) Planetary Fourier Spectrometer (PFS) group uses mission phases which deviate from the ones defined in the MISSION.CAT files given by ESA in order to keep the keywords and abbreviations consistent for Mars Express, Venus Express and Rosetta. Those mission phase abbreviations are also used in the data description field of the dataset_id. MaRS mission name | abbreviation | time span ================================================================ Near Earth Verification | NEV | 2003-06-02 - 2003-07-31 ---------------------------------------------------------------- Interplanetary Cruise | IC | 2003-08-01 - 2003-12-25 ---------------------------------------------------------------- Nominal Mission | Nominal | 2003-12-26 - 2005-11-30 ---------------------------------------------------------------- First Extension Mission | EXT1 | 2006-01-01 - 2007-09-30 ---------------------------------------------------------------- Second Extension Mission| EXT2 | 2007-10-01 - 2009-12-31 ---------------------------------------------------------------- Data files ---------- Data files are: The tracking files from Deep Space Network (DSN) and from the Intermediate Frequency Modulation System (IFMS) used by the ESA ground station New Norcia. Level 1b data are archived. The Geometry files All Level binary data files will have the file name extension eee = .DAT Data levels ---------- It should be noted that these data levels which are also used in the file names and data directories are PSA data levels whereas in the PDS label files CODMAC levels are used. PSA data level | CODMAC level ----------------------------- 1a | 1 1b | 2 2 | 3 Data Set Identifier ------------------- The 'DATA_SET_ID' is a unique alphanumeric identifier for the data sets. The PFS data set ID is generated using the follow syntax: ---- ---V Acronym | Description --------------------------------------------------------------------- | MEX this is fixed, and is the mission ID for | Mars Express. --------------------------------------------------------------------- | M this is fixed, and refers to the target of Mars --------------------------------------------------------------------- | PFS this is fixed and identifies the instrument | as PFS (Planetary Fourier Spectrometer) --------------------------------------------------------------------- | 2 this number indicates the level of processing | the data has undergone on the CODMAC scale --------------------------------------------------------------------- | EDR this represents the type of data in the data | set. For the standard PFS deliveries, this will | always be set to 'EDR' meaning 'Experimental Data | Record' --------------------------------------------------------------------- | this is a descriptive secion of the ID and will | typically refer to the mission phase ID or an | orbital range for the nominal mission. Values are: | | NOMINAL nominal mission phase. | EXT1 first extended mission phase. | EXT2 second extended mission phase. --------------------------------------------------------------------- | <1.0> this is the version of the data set, | starting at 1.0 and increasing incrementally if | changes are made to the products or the dataset | itself. --------------------------------------------------------------------- When all of this is put together, it provides a data set ID of the form MEX-M-PFS-2-EDR-NOMINAL-V1.0 or MEX-M-PFS-2-EDR- EXT1-V1.0 VOLUME ------ The VOLUME_SET_ID follows a strict formation rule defined in [1], section 19.5.1, with the Country > IT for Italy Government Branch > CNR Discipline within government branch > IFSI mission and instrument ID > MEXPFS and a 4-digit sequence number > 1001 For the number, the first digit represents the VOLUME_SET and the last number the VOLUME within the VOLUME_SET. Descriptive files ----------------- Descriptive files contain information in order to support the processing and analysis of data files. The following file types are defined as descriptive files with extension eee = .LBL PDS label files .TXT Information (text) files Data Directory Naming Convention and Structure =============================================== Inside the DATA directory, the data products are organized into several subdirectories. The structure of the directories will depend upon the phase of the mission in the dataset. IC and NEV ========== During the Near Earth Verification (NEV) and Interplanetary Cruise (IC) phases of the mission, PFS only took measurements of the internal calibration source (Internal Black Body and Lamp) and of deep space. The limited number of observations are simply divided by sensor into the following directory structure: DATA | |-NEV | |- LWC [Long Wave detector] | |- SWC [Short Wave detector] Nominal and Extended Mission ============================ For the nominal and extended mission phases at Mars, data will be split into groups of 10 orbits, whith the following syntax: The base directory will be MARS as all products from these phases will be from the planet. Beneath this, data will be separated into observations from the long-wave (LWC) and short-wave (SWC) sensors. Finally, data will be divided into blocks of 10 orbits using the following taxonomy: ORBX Acronym | Description --------------------------------------------------------------------- ORB | This is fixed and means ORBIT --------------------------------------------------------------------- | This will be the first 3 digits of all orbits contained | in this directory --------------------------------------------------------------------- X | This is fixed and means that inside this directory are data | from orbits YYY0 to YYY9. --------------------------------------------------------------------- For example, the directory ORB000X will contain all products from orbit 0001 to 0009. The DATA subdirectory structure for the nominal mission data will therefore follow the scheme: DATA | |-NEV | | | |-LWC | |-SWC | |- IC | |-LWC | |-SWC | |-MARS | | | |-LWC | | |-ORB001X | | |-ORB002X | | | |-SWC | | |-ORB001X | | |-ORB002X File naming Convention ====================== The data products are identified principally by orbit numer and detector type, following the scheme: PFS____. Orbit number. For the Near Earth Verification and Interplanetary Cruise Phase the field is substituted with the name of the Phase and Sub-phase as : = . For the files in the CALIB/ directory the field is substitute with the field, Responsivity or Deep Space observation, and the field, Forward or Reverse pendulum motion, as: = _ --------------------------------------------------------------------- | IC for Interplanetary Cruise Phase | NEV for Near Earth Verification Phase --------------------------------------------------------------------- | C Check Out Sub-phase | D Dry Earth Sub-phase | E Earth Moon Sub-phase (Observation to Earth and Moon) | 1 PS001 Sub-phase (First Switch ON) | 2 PS002 Sub-phase (Calibration) | 3 PS003 Sub-phase (DTM, Pericenter Pass Simulation , | Calibration) | 4 PS004 Sub-phase (FOV, Calibration) | 5 PS005 Sub-phase (Calibration, heating of SW detector) | S Star Calibration Sub-phase | M Mars Crossing Sub-phase | | all the sub-phases reffer to specific PFS test | operation performed during the NEV phases. --------------------------------------------------------------------- | Defines if the instrument is in calibration mode or | in measurement mode: | | CAL Calibration | MEAS Measurement | | For the HK file field is referred to the | corrisponding RAW file field. --------------------------------------------------------------------- | indicates the type of data provided: RAW-HK-RAD | | RAW contains interferogram | HK contains the HK information about PFS during the | acquisition | RAD contains radiance spectra (calibrated data only) --------------------------------------------------------------------- | defines the type of the detector used for the | interferogram acquisition: Short wavelength (SW) or Long | wavelength (LW). --------------------------------------------------------------------- | the extension depends on the type of file (LBL for a | label file, DAT for the data product associated with | the label) --------------------------------------------------------------------- For Mars: PFS_0010_ MEAS_HK_SW.LBL PFS_0010_ MEAS_HK_SW.DAT would be a PFS product from Mars orbit 0010. It would be a raw calibration data product from the short wavelength sensor with its associated label. For the Near Earth Verification and Interplanetary Cruise Phase: PFS_NEV1_MEAS_HK_SW.DAT PFS_NEV1_MEAS_HK_SW.LBL would be a PFS product from the PS001 Sub-phase of the Near Earth Verification phase. It would be a raw calibration product from the short wavelength sensor with its associated label. PFS_IC_CAL_HK_SW.DAT PFS_IC_CAL_HK_SW.LBL would a PFS product from the Check Out sub-phase of the Interplanetary Cruise. It would be a raw calibration product from the long wavelength sensor with its associated label. Ancillary Data - EXTRAS ====================== The EXTRAS directory contains items that may be useful to a user, but are non-essential for the use of the data in the PFS data sets and are not essential for the PSA or compliance to the PDS Standards. The contents of the EXTRAS directory do not need to conform to PDS standards, and all files within this directory are produced and presented by the PFS team. In the PFS EXTRAS directory is a file that describes any special features of a given orbit. For example, any specific scientific objectives targeted, special events that occurred or tests that were completed for a given orbit are listed in this file. The file is presented in ASCII format. Software ======== PFS software (IDL version) febrary 2007 When downloading a ZIP file, the user should put it in a working directory dedicated to PFS software,then unzip it. This will create a two subdirectory : /SOFTWARE/ | |- /CALIB/ | |- /DATA/ | |- /GEOMETRY/ The essential functions to open and read the data are in the FUNCTIONS subdirectory of each directory. The examples programs given in both DATA and GEOMETRY are intended only as reader of the PFS data. The CALIB subdirectory contains both the programs to read calibrated PFS spectra stored in the /CALIB_SAMPLE/ directory at root level and the code to produce that outputs starting from the RAW data and the calibration tables stored in the /CALIB / directory at root level. Essentially the software in the /SOFTWARE/CALIB/CALIBRATOR/ use the same functions stored in the /SOFTWARE/CALIB/DATA/ to read raw data, then read the right calibration tables and apply the calibration operation to obtain the calibrated spectra (further details should be found in the calibration documents PFS_LWC_CALIB.PDF and PFS_SWC_CALIB.PDF as well in the PFS_CAL_LAB_1.PDF , PFS_CAL_LAB_2.PDF and PFS_CAL_NEAREARTH.PDF, in the /DOCUMENT/ directory). To run example code do the following steps: - open a .PRJ file (for DATA or for GEOMETRY) - change the PATH variable to your PFS Data directory - Project > Compile > All Files - Project > Run Only for the software stored in the /CALIBRATOR/ subdirectory, the last step must be substituted with : - Run > Run 'program_name' The LWC_CAL.pro, SWC_CAL_LASER-OFF.pro and SWC_CAL_LASER-ON.pro will give to the user the calibrated spectra calculated directly from the raw data and from the calibration tables. --------- Function and Resulting Variables -------- read_pfs_data(FILE,NUM,RECORDS): return a structured variable array whith the data. Array lenght is NUM. Each array element is defined as : OBT_OBSERVATION_TIME : DOUBLE PRECISION FLOAT SCET_OBSERVATION_TIME : UNSIGNED LONG INTEGER INTERFEROGRAM : INTEGER ARRAY WHITH LENGHT : RECORDS INPUT: FILE : path of the data file to open NUM : total number of the field (: observation) stored in the file RECORDS : length of a single interferogram -------- read_pfs_hk(FILE,NUM): return a structured variable array whith the housekeeping data. Array lenght is NUM. Each array element is defined as : OBT_OBSERVATION_TIME : DOUBLE PRECISION FLOAT SCET_OBSERVATION_TIME : UNSIGNED LONG INTEGER TypeOfMes : UNSIGNED LONG INTEGER SD_Version : UNSIGNED LONG INTEGER ZOPD_SW_FWD : UNSIGNED LONG INTEGER ZOPD_SW_REV : UNSIGNED LONG INTEGER ZOPD_LW_FWD : UNSIGNED LONG INTEGER ZOPD_LW_REV : UNSIGNED LONG INTEGER SCANPOS : UNSIGNED LONG INTEGER SW_ZeroX_Cutoff_Status : DOUBLE PRECISION FLOAT LW_ZeroX_Cutoff_Status : DOUBLE PRECISION FLOAT SPEEDCLOCK_Status : DOUBLE PRECISION FLOAT ADCCLOCK_Status : DOUBLE PRECISION FLOAT SW_Detector_Cutoff_Status : DOUBLE PRECISION FLOAT LW_Detector_Cutoff_Status : DOUBLE PRECISION FLOAT SWGAIN_Status : UNSIGNED LONG INTEGER LWGAIN_Status : UNSIGNED LONG INTEGER First_ADC_1_Status : UNSIGNED LONG INTEGER Second_ADC_1_Status : UNSIGNED LONG INTEGER First_ADC_2_Status : UNSIGNED LONG INTEGER Second_ADC_2_Status : UNSIGNED LONG INTEGER Select_Motor_Coil_Status : UNSIGNED LONG INTEGER DPDIR_Status : UNSIGNED LONG INTEGER SW_ZOPD_Position : UNSIGNED LONG INTEGER LW_ZOPD_Position : UNSIGNED LONG INTEGER Right_Collisions : UNSIGNED LONG INTEGER Left_Collisions : UNSIGNED LONG INTEGER SWLASERPWR_10V : DOUBLE PRECISION FLOAT LWLASERPWR_10V : DOUBLE PRECISION FLOAT SWPHOTODIODEPWR_10V : DOUBLE PRECISION FLOAT LWPHOTODIODEPWR_10V : DOUBLE PRECISION FLOAT T1_10V : DOUBLE PRECISION FLOAT T2_10V : DOUBLE PRECISION FLOAT T3_10V : DOUBLE PRECISION FLOAT T4_10V : DOUBLE PRECISION FLOAT T5_10V : DOUBLE PRECISION FLOAT T6_10V : DOUBLE PRECISION FLOAT T7_10V : DOUBLE PRECISION FLOAT T8_10V : DOUBLE PRECISION FLOAT LDTEMPSW_10V : DOUBLE PRECISION FLOAT LDTEMPLW_10V : DOUBLE PRECISION FLOAT SWTEMP_10V : DOUBLE PRECISION FLOAT LWTEMP_10V : DOUBLE PRECISION FLOAT TEMPA1_10V : DOUBLE PRECISION FLOAT TEMPA2_10V : DOUBLE PRECISION FLOAT SWTRW_10V : DOUBLE PRECISION FLOAT LWTRW_10V : DOUBLE PRECISION FLOAT CLVOLTAGE_10V : DOUBLE PRECISION FLOAT INPUT: FILE : path of the data file to open NUM : total number of the field (: observation) stored in the file -------- read_pfs_label(FILE,NAME): return value stored in a PDS label file in the NAME field INPUT: FILE : path of the label file to open NAME : name if the fiel to search for (i.e. ROWS or FIELDS) -------- reader_geometry(FILE,NUM): return a structured variable array whith all the geometrical information.Array lenght is NUM. Each array element is defined as : SCET : DOUBLE PRECISION FLOAT LONGITUDE : DOUBLE PRECISION FLOAT LATITUDE : DOUBLE PRECISION FLOAT SPACECRAFT_ALTITUDE : DOUBLE PRECISION FLOAT Local_Time : SINGLE PRECISION FLOAT Solar_Longitude : DOUBLE PRECISION FLOAT INCIDENC_EANGLE : SINGLE PRECISION FLOAT EMISSION_ANGLE : SINGLE PRECISION FLOAT PHASE_ANGLE : SINGLE PRECISION FLOAT MOLA_ALTIMETRY : SINGLE PRECISION FLOAT LW_TANGENT_ALTITUDE : SINGLE PRECISION FLOAT LW_TARGET_DISTANCE : SINGLE PRECISION FLOAT SOLAR_DISTANCE : SINGLE PRECISION FLOAT SUBSOLAR_LONGITUDE : DOUBLE PRECISION FLOAT SUBSOLAR_LATITUDE : DOUBLE PRECISION FLOAT PLANETARY_PHASE_ANGLE : SINGLE PRECISION FLOAT SUB_SPACECRAFT_LONGITUDE : DOUBLE PRECISION FLOAT SUB_SPACECRAFT_LATITUDE : DOUBLE PRECISION FLOAT JULIAN_DATE : DOUBLE PRECISION FLOAT AIR_MASS : SINGLE PRECISION FLOAT INPUT: FILE : path of the geometry file to open NUM : total number of the field (: observation) stored in the file Definiton of field in Geometry File: ------------------------------------------------------------------ Label | Description | Range | Units ------------------------------------------------------------------ SCET | Value of the Spacecraft clock | | LONG_LW | Mars Longitude for the LWC | -180/+180 | deg LAT_LW | Mars Latitude for the LWC | - 90/+ 90 | deg LONG_SW | Mars Longitude for the SWC | -180/+180 | deg LAT_SW | Mars Latitude for the SWC | - 90/+ 90 | deg | The Longitudes are expressed | | following the Eastward convention | | SC_ALT | Spacecraft altitude | | km LT | Local Time at the SWC target | |hours LS | Solar Longitude | 0/+360 | deg INC_SW | Incidence angle for the SWC | 0/+180 | deg EM_SW | Emission angle for the SWC | 0/+180 | deg PH_SW | Phase angle for the SWC | 0/+180 | deg ALTM | Mola Altimetry | | m TG_ALT | Limb altitude for the SWC | | km | This parameter is not null only | | | for limb observations | | TG_DIST | Distance from the spacecraft to | | km | the target point (SWC) | | S_DIST | Solar distance | | au SS_LONG | Longitude of the sub-solar point | -180/+180 | deg SS_LAT | Latitude of the sub-solar point | - 90/+ 90 | deg PL_PH | Planetary phase angle | 0/+180 | deg SSC_LONG | Longitude of the sub-spacecraft | -180/+180 | deg SSC_LAT | Latitude of the sub-spacecraft | - 90/+ 90 | deg JD | Julian Date | | Airmass | Secant of the emission angle | | ------------------------------------------------------------------ -------- read_pfs_data_calib(FILE,NUM,RECORDS): return a structured variable array whith the data. Array lenght is NUM. Each array element is defined as : OBT_OBSERVATION_TIME : DOUBLE PRECISION FLOAT SCET_OBSERVATION_TIME : DOUBLE PRECISION FLOAT WAVENUMBER : DOUBLE PRECISION ARRAY WHITH LENGHT : RECORDS RADIANCE : DOUBLE PRECISION ARRAY WHITH LENGHT : RECORDS INPUT: FILE : path of the data file to open NUM : total number of the field (: observation) stored in the file RECORDS : length of a single spectra, the same for the WAVENUMBER and RADIANCE fields. -------- Documents ============ Documents directory contains all of the Flight user manual documents, which have been divided into 9 chapters, describing in detail all of the features of the experiment. In addition, the ICD (this document) is provided also in ASCII format, and papers describing the calibration procedures for PFS are provided. A complete list and a short description: --------------------------------------------------------------------- Name | Description --------------------------------------------------------------------- DOCINFO.TXT | DOCUMENTS directory content list --------------------------------------------------------------------- CALIBR_REPORTS_LONG_TERM.TXT| Calibration Reports, warnings on | Calibration and long term calibration | notes. --------------------------------------------------------------------- CALIBR_REPORTS_LONG_TERM.LBL| Label file for the Calibration Reports --------------------------------------------------------------------- CALIB_SAMPLES_NOTE.TXT | Reports on how to obtain the files in | CALIB_SAMPLES/ from the RAW data. --------------------------------------------------------------------- CALIB_SAMPLES_NOTE.LBL | Label file for the Calibration notes. --------------------------------------------------------------------- MEX-PFS-PSA-ICD-24.ASC | Interface Control Document in ASCII --------------------------------------------------------------------- MEX-PFS-PSA-ICD-24.LBL | Label file for Interface Control Document --------------------------------------------------------------------- MEX-PFS-PSA-ICD-24.PDF | Interface Control Document in Portable | Document Format --------------------------------------------------------------------- MEX-PFS-PSA-ICD_FIG_1.PNG | ICD figure 1 - Pfs optical scheme --------------------------------------------------------------------- MEX-PFS-PSA-ICD_FIG_2.PNG | ICD figure 2 - Data acquisition and | processing scheme --------------------------------------------------------------------- MEX-PFS-PSA-ICD_FIG_3.PNG | ICD figure 3 - High level directory | structure --------------------------------------------------------------------- MEX-PFS-PSA-ICD_FIG_4.PNG | ICD figure 4 -DATA directory structure --------------------------------------------------------------------- MEX_ORIENTATION_DESC.LBL | Label file for Mars express spacecraft | orientation --------------------------------------------------------------------- MEX_ORIENTATION_DESC.TXT | Mars express spacecraft orientation --------------------------------------------------------------------- PFS_CAL_LAB_1.LBL | Label fi le for Internal Note on Pfs | Calibration - Volume I --------------------------------------------------------------------- PFS_CAL_LAB_1.PDF | Internal Note on Pfs Calibration - I --------------------------------------------------------------------- PFS_CAL_LAB_2.LBL | Label file for Internal Note on Pfs | Calibration - Volume I --------------------------------------------------------------------- PFS_CAL_LAB_2.PDF | Internal Note on Pfs Calibration - I --------------------------------------------------------------------- PFS_CAL_NEAREARTH.LBL | Label file for Internal Note on Pfs | Calibration in Space --------------------------------------------------------------------- PFS_CAL_NEAREARTH.PDF | Internal Note on Pfs Calibration in Space --------------------------------------------------------------------- PFS_LWC_CALIB.LBL | Label file for LWC channel Calibration --------------------------------------------------------------------- PFS_LWC_CALIB.PDF | LWC channel Calibration --------------------------------------------------------------------- PFS_MEX_FUM.LBL | Label file for FUMs Index --------------------------------------------------------------------- PFS_MEX_FUM.PDF | FUMs Index --------------------------------------------------------------------- PFS_MEX_FUM1.LBL | Label file for FUM 1 - Instrument | description --------------------------------------------------------------------- PFS_MEX_FUM1.PDF | FUM 1 - Instrument description --------------------------------------------------------------------- PFS_MEX_FUM2.LBL | Label file for FUM 2 - Instrument | performance budgets --------------------------------------------------------------------- PFS_MEX_FUM2.PDF | FUM 2 - Instrument performance budgets --------------------------------------------------------------------- PFS_MEX_FUM3.LBL | Label file for FUM 3 - Instrument | software and memory map --------------------------------------------------------------------- PFS_MEX_FUM3.PDF | FUM 3 - Instrument software and memory | map --------------------------------------------------------------------- PFS_MEX_FUM4.LBL | Label file for FUM 4 - Housekeeping | information --------------------------------------------------------------------- PFS_MEX_FUM4.PDF | FUM 4 - Housekeeping information --------------------------------------------------------------------- PFS_MEX_FUM5.LBL | Label file for FUM 5 - Operating, | non-operating conditions and interfaces --------------------------------------------------------------------- PFS_MEX_FUM5.PDF | FUM 5 - Operating, non-operating conditions | and interfaces --------------------------------------------------------------------- PFS_MEX_FUM7.LBL | Label file for FUM 7 - Instrument operation | manual --------------------------------------------------------------------- PFS_MEX_FUM7.PDF | FUM 7 - Instrument operation manual --------------------------------------------------------------------- PFS_MEX_FUM8.LBL | Label file for FUM 8 - Science operations --------------------------------------------------------------------- PFS_MEX_FUM8.PDF | FUM 8 - Science operations --------------------------------------------------------------------- PFS_MEX_FUM9.LBL | Label file for FUM 9 - Tm_tc interface | data base --------------------------------------------------------------------- PFS_MEX_FUM9.PDF | FUM 9 - Tm_tc interface data base --------------------------------------------------------------------- PFS_ON_MARS_EXPRESS.LBL | Label file for Instruments description --------------------------------------------------------------------- PFS_ON_MARS_EXPRESS.PDF | Instruments description --------------------------------------------------------------------- PFS_SWC_CALIB.LBL | Label file for SWC channel Calibration --------------------------------------------------------------------- PFS_SWC_CALIB.PDF | SWC channel Calibration ---------------------------------------------------------------------" END_OBJECT = DATA_SET_INFORMATION OBJECT = DATA_SET_TARGET TARGET_NAME = "MARS" TARGET_TYPE = "PLANET" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "PHOBOS" TARGET_TYPE = "SATELLITE" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "INTERNAL SOURCE" TARGET_TYPE = "CALIBRATION" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "DEEP SPACE" TARGET_TYPE = "CALIBRATION" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_TARGET TARGET_NAME = "RESPONSIVITY" TARGET_TYPE = "CALIBRATION" END_OBJECT = DATA_SET_TARGET OBJECT = DATA_SET_REFERENCE_INFORMATION REFERENCE_KEY_ID = "N/A" END_OBJECT = DATA_SET_REFERENCE_INFORMATION END_OBJECT = DATA_SET END