============================================================================== National Aeronautics and Space Administration Goddard Space Flight Center Code 699 - Atmospheric Experiments Laboratory ============================================================================== ============================================================================== ============================================================================== Huygens-Gas Chromatograph Mass Spectrometer To NASA Planetary Data System and ESA Planetary Science Archive Interface Control Document HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0 [HP-SSA-GCMS-3-FCO/DESCENT-V1.0] Final 2006-06-19 ============================================================================== ______________________________ Prepared by: John A. Haberman ______________________________ Approved by: Hasso B. Niemann ============================================================================== Distribution List Date Organization Recipient ---------- ------------------------------------- --------- 2006-03-24 PDS/PSA notified of the availability PDS & PSA of this dataset and documentation. 2006-06-22 PDS/PSA notified of the availability PDS & PSA of this dataset and documentation. ============================================================================== Change Log Date Sections Changed Reasons for Change --------------- ------------------------ -------------------- Beginning Massive Edits & Changes Edits for Submission 3/1/2006 to earlier versions June 7, 2006 Multiple Incorporating dataset - June 19, 2006 reviewer suggestions ============================================================================== Table Of Contents 1 INTRODUCTION 1.1 PURPOSE AND SCOPE 1.2 CONTENTS 1.3 INTENDED READERSHIP 1.4 APPLICABLE DOCUMENTS 1.5 RELATIONSHIPS TO OTHER INTERFACES 1.6 ACRONYMS AND ABBREVIATIONS 1.7 CONTACT NAMES AND ADDRESSES 2 OVERVIEW OF PROCESS AND PRODUCT GENERATION 2.1 PRE-FLIGHT DATA PRODUCTS 2.2 SUB-SYSTEM TESTS 2.3 INSTRUMENT CALIBRATIONS 2.4 IN-FLIGHT DATA PRODUCTS 2.5 SOFTWARE 2.6 DOCUMENTATION 2.7 DERIVED AND OTHER DATA PRODUCTS 3 ARCHIVE FORMAT AND CONTENT 3.1 FORMAT AND CONVENTIONS 3.1.1 DELIVERIES AND ARCHIVE VOLUME FORMAT 3.1.2 DATA SET ID FORMATION 3.1.3 DATA DIRECTORY NAMING CONVENTION 3.1.4 FILE NAMING CONVENTION 3.2 STANDARDS USED IN DATA PRODUCT GENERATION 3.2.1 PDS STANDARDS 3.2.2 TIME STANDARDS 3.2.3 REFERENCE SYSTEMS 3.2.4 OTHER APPLICABLE STANDARDS 3.3 DATA VALIDATION 3.4 CONTENT 3.4.1 VOLUME SET 3.4.2 DATA SET 3.4.3 DIRECTORIES 3.4.3.1 ROOT DIRECTORY 3.4.3.2 CALIBRATION DIRECTORY 3.4.3.3 CATALOG DIRECTORY 3.4.3.4 INDEX DIRECTORY 3.4.3.5 BROWSE DIRECTORY AND BROWSE FILES 3.4.3.6 GEOMETRY DIRECTORY 3.4.3.7 SOFTWARE DIRECTORY 3.4.3.8 GAZETTER DIRECTORY 3.4.3.9 LABEL DIRECTORY 3.4.3.10 DOCUMENT DIRECTORY 3.4.3.11 EXTRAS DIRECTORY 3.4.3.12 DATA DIRECTORY 4. DETAILED INTERFACE SPECIFICATIONS 4.1 SAMPLE LABELS 4.1.1 DATA LABEL - STAGE 2 PROCESSED SWEEP FILES File GCMS_1US_STG2.LBL File GCMS_1U_STG2.FMT 4.1.2 DATA LABEL - STAGE 1 RAW DATA SWEEP FILES File GCMS_1US_STG1.LBL GCMS_ISALL_STG1.FMT 4.1.3 DATA LABEL - TOTAL ION COUNTS, STAGE 2 PROCESSING File GCMS_TOTALS_STG2.LBL 4.1.4 DATA LABEL - MEDIUM SPEED HOUSEKEEPING DATA, STAGE 2 File GCMS_HK_MS_STG2.LBL 4.1.5 DATA LABEL - HIGH SPEED HOUSEKEEPING DATA, STAGE 2 File GCMS_HK_HS_STG2.LBL 4.1.6 DATA LABEL - HOUSEKEEPING TYPE 2 DATA, STAGE 2 File GCMS_HK_TYPE2_STG2.LBL 4.1.7 DATA LABEL - IDLE PACKET HOUSEKEEPING DATA, STAGE 2 File GCMS_HK_IDLE_STG2.LBL 4.1.8 DATA LABEL - RAW TELEMETRY FILE File: GCMS_TELEMETRY_STG1.LBL 4.1.9 DATA LABEL - STAGE 1 PROCESSED DATA Data Label - All Raw Data, Stage 1 Data Label - HK Acknowledge and Not-Acknowledge Raw Data, Stage 1 Data Label - Housekeeping Type 1 Raw Data, Stage 1 Data Label - Housekeeping Type 2 Raw Data, Stage 1 Data Label - Housekeeping Idle Packet Raw Data, Stage 1 Data Label - Housekeeping High Speed Raw Data, Stage 1 Data Label - Housekeeping Medium Speed Raw Data, Stage 1 Data Label - Housekeeping Instrument Software Status Raw Data, Stage 1 File GCMS_HK_B_TYPE2_STG1.LBL 4.1.10 DATA LABEL - MOLE FRACTION DATA, STAGE 2 File GCMS_MOLE_FRACTION_STG2.LBL 1. APPENDIX: AVAILABLE SOFTWARE TO READ PDS FILES (N/A) 2. APPENDIX: AUXILIARY DATA USAGE (N/A) 3. APPENDIX: EXAMPLE OF DIRECTORY LISTING OF THE DATA SET The 19970506_DESCENT_BENCH folder (DESCENT Sequence) contains these files. The 19971023_F01 folder (FCO1) will contain these files. The 20000202_F05 folder (FCO2) will contain these files. The 20040714_F14 folder (FCO2) will contain the files shown. The 20041123_F16 folder (FCO1B) will contain these files. The 2005\0114_DESCENT folder (Titan DESCENT) will contain these files. The DTWG_MOLE_FRACTION folder will contain these files. ============================================================================== 1 INTRODUCTION 1.1 PURPOSE AND SCOPE The purpose of this EAICD (Experimenter to (Science) Archive Interface Control Document) is two fold. First it provides users of the Gas Chromatograph Mass Spectrometer (GCMS) instrument with a detailed description of the product and a description of how it was generated, including data sources and destinations. Secondly, it is the official interface between the GCMS team, the NASA Planetary Data System (PDS), and the ESA Planetary Science Archive (PSA) archiving authorities. 1.2 CONTENTS This document describes the data flow of the GCMS instrument on the Cassini- Huygens Probe from the spacecraft (s/c) until insertion into the PSA and PDS. It includes information on how data were processed, formatted, labeled and uniquely identified. The document discusses naming schemes for data volumes, sets and label files. Standards used to generate the product are explained. Software that may be used to access the products are explained. The goal is to archive all of the data, including all ground and flight testing, from the GCMS instrument flown to Titan. The design of the data set structure and the data product is given. Examples of these are given in Appendix 3. 1.3 INTENDED READERSHIP The staff of Planetary Data System and Planetary Science Archive archiving authority design teams and any potential user of the GCMS data. 1.4 APPLICABLE DOCUMENTS * Planetary Data System Preparation Workbook, February 1, 1995, Version 3.1, JPL, D-7669, Part 1 * Planetary Data System Standards Reference, August 1, 2003, Version 3.6, JPL, D-7669, Part 2 * Huygens Data Archive Generation, Validation and Transfer Plan, September 1, 2004, Version 1.0, HUY-RSSD-PL-001 1.5 RELATIONSHIPS TO OTHER INTERFACES This EAICD will be affected by changes to the archiving structure of GCMS results. Likewise, changes to this EAICD could affect the internal processes necessary to archive this data. 1.6 ACRONYMS AND ABBREVIATIONS A_Stream Data telemetry channel "A" yielded this data ACK GCMS "Acknowledge" data packet (confirmation of receipt of an instrument command) ACP Aerosol Collector Pyrolyzer Instrument ASCII A(merican) S(tandard) C(ode for) I(nformation) I(nterchange) B_Stream Data telemetry channel "B" yielded this data c/ip Counts per integration period (counts per sample) c/s Counts per second DAWG Data Archiving Working Group DESCENT Nominal Mission Titan Encounter (Atmosphere Entry on 14 January 2005) DDB Descent Data Broadcast (probe "master" clock data broadcast to the instruments) *.DOC Microsoft Word Document EAICD Experimenter to (Science) Archive Interface Control Document EM GCMS Engineering Model (Darmstadt, Germany) ESA European Space Agency ESW Experiment Status Word ESOC European Space Operations Centre (Darmstadt, Germany) ESTEC European Space Research and Technology Centre (Noordwijk, The Netherlands) eV electron Volt (mass spectrometer's ionization energy) F1,... ,F16 In-Flight Checkout Number (1, 2, ..., 16) FCO In-Flight Checkout Test (any type) FCO1 In-Flight Checkout Test, Type 1 FCO1B In-Flight Checkout Test, Type 1 B FCO2 In-Flight Checkout Test, Type 2 FM GCMS Flight Model Unit (original definition.) This is the unit now at GSFC with which instrument performance "calibration" will be done. FS GCMS Flight Spare Unit (original definition.) This is the unit actually flown to Titan. Now referred to as the "Flown Sensor" FU FCMS Flown Unit (as of 14 January 2005 - on surface of Titan) GC Gas Chromatograph GC1 Gas Chromatograph Column #1 (interfaced with Ion Source #3) GC2 Gas Chromatograph Column #2 (interfaced with Ion Source #4) GC3 Gas Chromatograph Column #3 (interfaced with Ion Source #5) GCMS Gas Chromatograph Mass Spectrometer GCMS GMT UTC time stamp when a GCMS packet was handed to the probe's data handling system GCO Ground Check Out Test (Lab versions of the Flight Check Outs) *.GIF Image file in GIF format (Graphics Interchange Format) GSE Ground Support Equipment GSFC NASA Goddard Space Flight Center (Greenbelt, MD USA) HK House Keeping Data HPOC Huygens Probe Operations Centre (at ESOC in Darmstadt, Germany) _HS_ GCMS "High Speed" data packet IDLE GCMS "Idle" data packet ip Integration Period (Sampling time or counter window) KSC Kennedy Space Center mergem.dat file containing 'raw' MS sweeps data from the SUN (Unix) workstation's initial processing of the raw GCMS telemetry data file MET Mission Elapsed Time MS Mass Spectrometer _MS_ GCMS "medium speed" data packet m/z mass per unit charge NACK GCMS "Not-Acknowledge" data packet (see ACK) NASA National Aeronautics and Space Administration *.PDF Document in (Portable Document Format) PHD Pulse Height Distribution *.PNG Portable Network Graphics formatted file PDS Planetary Data System (NASA) PSA Planetary Science Archive (ESA) s/c Spacecraft Spare GCMS Flight Spare Sensor, GSFC, Greenbelt, MD STG1 Stage 1 Processed Data File STG2 Stage 2 Processed Data File STG3 Stage 3 Processed Data File T0 (T0) Gravity or Software switch activated Start Time of Huygens Descent Phase Mission TYPE1 GCMS "Type 1" housekeeping data packet TYPE2 GCMS "Type 2" housekeeping data packet UTC Coordinated Universal Time 1.7 CONTACT NAMES AND ADDRESSES Hasso Niemann GCMS Principal Investigator NASA Goddard Space Flight Center, Code 699 Greenbelt, MD 20771 emailto: Hasso.B.Niemann@nasa.gov Tel.: 301.614.6381 FAX: 301.614.6406 John Haberman NASA Goddard Space Flight Center, Code 699 Greenbelt, MD 20771 emailto: john.a.haberman@nasa.gov Tel.: 301.614.6381 FAX: 301.614.6406 Jaime Demick NASA Goddard Space Flight Center, Code 699 Greenbelt, MD 20771 emailto: Jaime.E.Demick.1@gsfc.nasa.gov Tel.: 301.614.6381 FAX: 301.614.6406 2 OVERVIEW OF PROCESS AND PRODUCT GENERATION GCMS Instrument Description The GCMS Instrument is described in detail in the INSTRUMENT.CAT file and in the published papers. Additional information about the instrument and about the resulting data is contained in the DATASET.CAT file. GCMS Instrument Data The GCMS data is relayed from the Huygens Probe to the Cassini Spacecraft, and then down linked to the European Space Agency (ESA) European Space Operations Centre (ESOC) in Darmstadt, Germany. The GCMS Team at NASA/GSFC then retrieves the data from the ESOC server. The data is then played back into the GCMS GSE (workstation) located at NASA/GSFC, and "archive" files are created. This Sun workstation and the associated software have been the primary method for data processing. These archive files are processed by subprograms called in scripts to create pre-defined data files in text format. Diagram 1 illustrates this procedure. The GCMS Team members then analyze these text files and the associated graphic representations. The data processing team members are all located at the NASA/GSFC, and all data processing occurs on site. Near the end of the mission's cruise phase powerful personal computers and software became available that allow supplemental (and secondary) methods for data processing and evaluation. Diagram 1. GCMS Data Flow Path Diagram 1 illustrates the data flow and data levels. ============================================================================== +-----------------------+ | GCMS relays | | data to Probe | +-----------+-----------+ | | +-----------+-----------+ | Data relayed | | to Earth | +-----------+-----------+ | | +-----------+-----------+ | Data placed on | | ESOC server | +-----+-----------+-----+ | | ===================== | ========= | ========================================== PRE-PROCESSED DATA | | | | +-------------+---+ +--+--------------+ | Data downloaded | | Data downloaded | | from ESOC to | | from ESOC to | | GCMS GSE at | | User PCs at | | NASA/GSFC | | NASA/GSFC | +--------+--------+ +---------+-------+ | | ================ | ===================== | =================================== RAW DATA | | | +-+------------------------+ | | User created PC software | | | decodes telemetry and | +------------+---------+ | creates temporary files | | Data played back | +------------------------+-+ | into GSE & *.archive | | | files created +------------------------+ | +--------------------+-+ | | | | | ======================== | ======================== | ========= | ============ STAGE 1 PROCESSED DATA | | | | +---+-----------+-----------+ ******************** | | User created PC software | * Output plots of * +-+------------------+ | creates ASCII text tables | * interest on pre- * | Scripts that call | | and small files with | * heating/descent *<--| programs convert | | housekeeping and mass | * timeline during * | *.archive to *.dat | | sweep data | * processing * | files; sort data | +-------------+-------------+ * (real time) * | into smaller files | | ******************** +-+------------------+ | | | ======================== | ================================== | ============== STAGE 2 PROCESSED DATA | | | | +------------+------------+ +------------+------------+ | Break into smaller | | Break into smaller | | files, convert units, | | files, convert units, | | add headers, filter bad | | add headers, filter bad | | data and add comments | | data and add comments | +------------+------------+ +------------+------------+ | | ======================== | ================================== | ============== STAGE 3 PROCESSED DATA | | | | +------------+----------+ +-----------+-----------+ | Lengthy processing, | | Lengthy processing, | | plotting, comparing | | plotting, comparing | | to calibration (pre & | | to calibration (pre & | | post encounter) | | post encounter) | +-----------------------+ +-----------------------+ ============================================================================== The chief team members responsible for processing the data are: -John Haberman Scientist NASA Goddard Space Flight Center, Code 699 -Michael Paulkovich Software Engineer Jackson & Tull NASA Goddard Space Flight Center, Code 699 -Eric Raaen Software Engineer Science Systems and Applications, Inc. NASA Goddard Space Flight Center, Code 699 -Jaime Demick-Montelara Scientist/Engineer Science Systems and Applications, Inc. NASA Goddard Space Flight Center, Code 699 The data levels for GCMS data are defined as: Pre-processed data: Data directly relayed from Cassini to ESOC that have not been processed at all by the GCMS GSE. The original file for each GCMS instrument operation is named oNNNsg__.1h_ where NNN is a number. Raw data: Data that have been processed through the GCMS-GSE (workstation), to the extent that archive files are produced. These files use the extension ".archive" with the base names: gcmsack?, gcmsbin?, gcmsdump?, gcmshkhs?, gcmshkI?, gcmshkII?, gcmshkms?, gcmshks?, gcmsidle?, gcmsnack? and gcmsswp? where "?" is either A or B, to indicate the file 'source' as either the A or B data channel. Refer to Table 7 in section 4.1.9 for additional information. Stage 1 Processed Data: Raw Data *.archive files are further processed in the GCMS-GSE by scripts that call subprograms that convert the *.archive files into text files named *.dat or *.tab. These programs can also break the large data set into separate files for housekeeping data, or a group of files for the science data. These *.archive files are also converted to comma-delimited integer (*.CSV) or integer table (*.TAB) files for archiving with only the decoded GCMS_GMT and instrument 'Absolute' times added. Refer to section 4.1.9 (Stage 1 Processed Data) of this document for a table (Table 7) correlating the original *.archive file name with the archived GCMS_*_STG1.TAB file name. The text files produced in this process are manipulated by a series of IDL batch files that then plot selected Stage 2 data on a pre-T0/ post-T0 timeline. This will output plots for analysis as soon as the data are available. A' book' of these plots for each of the FU instrument operations is available in the /EXTRAS/ folder of this archive as a PDF document. The archived Stage 1 Processed (raw) Data on the PSA/PDS can be difficult to use because of the lack of units and comments. This Stage 1 data is archived to allow users to reprocess the telemetry and raw data if they so wish. All data is archived internally for all tests at GSFC. Stage 2 Processed Data: These files include the UTC time corresponding to the initiation of each mass sweep or housekeeping record, a mission time (seconds referenced to T0) plus the MET, counts per integration period converted to counts per second, selected instrumental parameters extracted from the instrument's housekeeping data and comments and column headers. Identified data 'noise', originating from the instrument's operation, has been removed from the dataset. In addition, the science data has been evaluated and adjusted to account for digital bit-counter over flow where this overflow is obvious. For reference purposes, Table 1 has been included to indicate the documented counter behavior. Table 1. Sample Conversions Made to convert Stage 1 to Stage 2 Processed Data Science Data Reported in "mergem.dat" -------------------------------------------------------------------------------- Science Data Reported Conversion to counts/second in "mergem.dat" file Actual counts/ip [Valid Counts Range] -------------------------------------------------------------------------------- 0 - 127 Number reported (Actual counts/ip)/(.004592 s/ip) [0 - 27,656] -------------------------------------------------------------------------------- 139 - 255 (Number - 128)^2 (Actual counts/ip)/(.004592 s/ip) [27,657 - 3,549,651] -------------------------------------------------------------------------------- (Number)^2 (Actual counts/ip)/(.004592 s/ip) (1st Counter Overflow) [3,549,652 - 14,263,937] 128 - 255 ------------------------------------------------------- (Number + 128)^2 (Actual counts/ip)/(.004592 s/ip) (2nd Counter Overflow) [14,263,938 - 56,620,209] -------------------------------------------------------------------------------- In addition, there is a settling time inherent in the instrument's electronics of 0.416 ms, making the total individual operation window 5.008 ms. The Stage 2 Processed Data will be available in the GCMS Database and submitted to the PDS/PSA for archiving as text files in comma delimited table format. This format can be imported into spreadsheet and graphic software for manipulation. The first row of all of the Stage 2 files will contain column labels making these files more user-friendly. End users will be able to quickly identify data of interest by the column headers, and will be able to plot specific data of interest during specific time intervals. Where used, the comment column will explain abnormalities, highlight items of interest, and explain how the data was handled to that point. The purpose of Stage 2 Processed Data is to have data available for the end users that they may readily analyze and manipulate according to their interest, without having to convert raw data from unsuitable units. Stage 3 Processed Data: This will consist of Stage 2 Processed Data that has been corrected, analyzed, compared to calibration data, plotted, and verified by GCMS personnel. Data correction will include all counter over-flow corrections as well as counting system 'dead time' and 'pulse pile-up' corrections. The files processed to the Stage 2 level will also be processed to the Stage 3 level. The Stage 3 Processed Data will represent the most processed level of data for the GCMS. Stage 3 Processing will take a long period of time, and will include correlation with the post-encounter calibration test results. Stage 3 Processed Data will be submitted to the PSA/PDS for archiving. The file /EXTRAS/DATASET_RELATED/DATA_PROCESSING.PDF contains additional details relative to the data and how it is processed from Stages 0 to 1 to 2 to 3. Table 2. GCMS Data Processing and Programs Used Table 2 lists the data process, level, the programs used to process the data at that level, the person(s) responsible for the software, and the institution the person is located at. --------------------+----------------------------------------------------------- Data Process Data Level Program(s) Utilized Software Author/Institution -------------------------------------------------------------------------------- --------------------+-----------+--------------------+--------------------------- Data downloaded via Web Server or from ESOC to GCMS Pre- Secure Shell-FTP GSE at NASA/GSFC processed or Darmstadt --------------------+-----------+--------------------+--------------------------- Data played back Chex-gse software Ryan Miller & *.archive Raw Univ. Michigan files created --------------------+-----------+--------------------+--------------------------- Scripts that call mergem1, gcms-dap, Ryan Miller - UMI programs convert Stage 1 gcmshkII, custom Eric Raaen - NASA/GSFC *.archive to processed programs John Haberman - GSFC *.dat, *.tab and *.txt files --------------------+-----------+--------------------+--------------------------- Break the large Batch file calling John Haberman - GSFC *.archive and small subprograms Eric Raaen - NASA/GSFC *.dat files into Stage 1 written in-house Jaime Demick - NASA/GSFC smaller files, processed at NASA GSFC grouped by ion source, type of spectra, etc. --------------------+-----------+--------------------+--------------------------- Convert MET to Excel or similar In-house software entry time line, program; save as and convert raw c/ip Stage 2 *.xls, *.csv, Microsoft or others to c/s, add processed *.txt or *.tab comments & titles; *.xls or *.txt --------------------+-----------+--------------------+--------------------------- Detailed data Excel or similar In-house software adjustments program and including counter AND/OR Microsoft or others overflow and dead Stage 3 Import Stage 2 to time corrections. processed Graphing program Analysis and and use column plotting by titles and time GSFC Team tags to plot automatically -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- 2.1 PRE-FLIGHT DATA PRODUCTS All data from the ground testing conducted with the flown GCMS is archived. These tests include, but are not limited to, the simulation of the entry mission and the 5 integeration verification GCO testing done at KSC after the delivery of the instrument and during the Huygens spacecraft integraton. The GCMS Team may elect to add pre-heating validation tests on the EM and/or Flight Spare as additional post-launch data products. For the first data submission, no data products from the engineering unit and backup (spare) sensors are being submitted. 2.2 SUB-SYSTEM TESTS The GCMS Team tested many flight components before installing them into the Flight Unit. These components are listed in Table 3. Table 3. GCMS Flight Components Tested Before Installation into the Flight Unit -------------------------------------------------------------------------------- ----------------------------------------+--------------------------------------- Break-off cap GC columns ----------------------------------------+--------------------------------------- Hydrogen reservoir Calillary Leaks ----------------------------------------+--------------------------------------- Hydrogen regulator Heaters ----------------------------------------+--------------------------------------- Burst diaghragm Ion Sources ----------------------------------------+--------------------------------------- Valves Multipliers ----------------------------------------+--------------------------------------- Pressure Transducers Getter Pumps ----------------------------------------+--------------------------------------- Flow Restrictors Ion Pumps -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- It is conceivable that should anomalous data occur, GCMS Team members might consult sub-system test data to back out a solution. This data is archived on GCMS Lab Computers at NASA/GSFC. Certain sub-system data may be archived on the PSA/PDS as reference material in the /EXTRAS/ directory, such as the hydrogen reservoir metal hydride vapor pressure curve, capillary leak response data, and GC column data. However, the more recent calibration data would be of most use, and that data will all be archived. 2.3 INSTRUMENT CALIBRATIONS The GCMS was calibrated at NASA/GSFC prior to delivery. GCMS calibration data consists of spectra taken in the various ion sources with calibration gases or gas mixtures at various instrument settings. In addition, lens voltage scan data, filament and valve lifetime data, tuning data, and gas chromatograph data are included for reference as to the condition of the instrument during calibration. These files are archived in the GCMS database at GSFC, and selected calibration runs, reference data, and documentation, useful as comparison material for analysis of GCMS encounter data, will be archived in the PDS. There are various internal documents describing the pre-launch calibration phase and results for the GCMS. These mainly consist of presentation text given at various Huygens meetings. Table 4 lists these documents, their content, and authors. These documents are available in the /DOCUMENT/PRELAUNCH_CALIBRATION/ folder of this archive. The GCMS Team plans to conduct post-launch calibration activities prior to the nominal mission entry at Titan. These data will be archived. Table 4. GCMS Calibration Documents. See also Section 3.4.3.10 for the availability of these files in other formats. ---------------+-----------------------------------------------+---------------- Document Name Content Author -------------------------------------------------------------------------------- ---------------+-----------------------------------------------+---------------- CALPRES.doc Ion source, multiplier, leak, enrichment cell, Christina Carlson descent sequence, and GC column characterization; gas mixturees used in calibration descriptions ---------------+-----------------------------------------------+---------------- CALPRES2.doc Ion source, multiplier, switching lens, and GC Christina Carlson column characterization' gas mixtures used in calibration, sub-systems tested descriptions ---------------+-----------------------------------------------+---------------- CALPRES3.doc Ion source, multiplier, switching lens, and GC Christina Carlson column characterization; gas mixtures used in calibration, sub-systems tested descriptions ---------------+-----------------------------------------------+---------------- CALPRNT2.doc Sample calibration mass scan and GC trace Christina Carlson descriptions ---------------+-----------------------------------------------+---------------- CALPRNTS.doc Sample calibration mass scan, PHD, and GC Christina Carlson traces descriptions -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- 2.4 IN-FLIGHT DATA PRODUCTS Between the launch of Cassini-Huygens on October 15, 1997 and the orbiter- probe separation on December 25, 2004, sixteen (F1-F16) in-flight tests were conducted, called Flight Check Out (FCO) Tests. These consisted of either a type 1 test (FCO1 or FCO1B) or a type 2 test (FCO2). Several other tests were also performed with the spacecraft. A data set is available for every test. Most importantly, there is the Titan encounter data set (data referenced as DESCENT) from the Flight Unit. All of this data will be handled in the same manner, so as to be able to compare the data sets. The data flow path is shown in Diagram 1, the data processing levels are shown in Table 2 and the Data Products are shown in Table 5. For each data set, the data products produced will include Stage 1 and 2 Processed data. All files processed to the Stage 2 level will later be processed to the Stage 3 level. These will be archived in separate folders in the GCMS Database: refer to Table 8 for a listing of the folders (subdirectories). Table 5 lists all possible data products, gives a description, and the file name indicates the data level for each product. All of the files listed in Table 5 are not produced during every instrument operation. All of the Data Products from a given test will be included in one folder, and the headers in the Data Product files will describe the Data Source by date, time and name. All data files, with only the exception of the 'raw telemetry' file, are in comma delimited ASCII text 'TABLE' format: i.e., spaces are used to force the column alignments of data thus allowing users on any system to review the data. Table 5. Data Products for the GCMS Titan Data - Ground Check-Out (GCO), Flight Check-Out (FCO) and Encounter (Descent). Refer to Section 3.1.4 for a description of the file naming conventions. ------------------------------------------------------------------------------ -----------------------------+--------+--------------------------------------- Data DATA PRODUCT AND TYPE Source Description -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 1 - Telemetry File -----------------------------+--------+--------------------------------------- GCMS_TELEMETRY_STG1 DESCENT The GCMS telemetry data file FCO GCO (o###sg__.1h_) converted to 8-bit ASCII text and formatted as a comma delimited (CSV) file. Because of size this file is in SPREADSHEET format. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 1 - Data from Telemetry Stream -----------------------------+--------+--------------------------------------- GCMS_ALL_A _STG1 DESCENT All GCMS A Stream data as 8-bit ASCII FCO GCO text. -----------------------------+--------+--------------------------------------- GCMS_ALL_B _STG1 DESCENT All GCMS B Stream data as 8-bit ASCII FCO GCO text. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 1 - Mass Sweeps Files from Telemetry Stream -----------------------------+--------+--------------------------------------- GCMS_SWEEPS_A _STG1 DESCENT All GCMS A Stream sweep data in 8-bit FCO GCO ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_SWEEPS_B _STG1 DESCENT All GCMS B Stream sweep data in 8-bit FCO GCO ASCII text format. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 1 - Mass Sweeps Files sorted by Ion Source -----------------------------+--------+--------------------------------------- GCMS_1FA_STG1 DESCENT All ion source 1 (MS) - 25 eV FCO GCO ionization energy and fractional mass resolution in ASCII text data format. -----------------------------+--------+--------------------------------------- GCMS_1FA_X_STG1 FCO GCO All ion source 1 (MS) - 25 eV ionization energy and fractional mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_1FS_STG1 DESCENT All ion source 1 (MS) - 75 eV FCO GCO ionization energy and fractional mass resolution in ASCII text data format. -----------------------------+--------+--------------------------------------- GCMS_1FS_X_STG1 FCO GCO All ion source 1 (MS) - 75 eV ionization energy and fractional mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_1UA_STG1 DESCENT All ion source 1 (MS) - 25 eV FCO GCO ionization energy and unit mass resolution in ASCII text data format. -----------------------------+--------+--------------------------------------- GCMS_1UA_X_STG1 FCO GCO All ion source 1 (MS) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_1US_STG1 DESCENT All ion source 1 (MS) - 75 eV FCO GCO ionization energy and unit mass resolution in ASCII text data format. -----------------------------+--------+--------------------------------------- GCMS_1US_X_STG1 FCO GCO All ion source 1 (MS) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_2UA_STG1 DESCENT All ion source 2 (ACP) - 25 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_2UA_X_STG1 FCO GCO All ion source 2 (ACP) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_2US_STG1 DESCENT All ion source 2 (ACP) - 75 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_2US_X_STG1 FCO GCO All ion source 2 (ACP) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_3UA_STG1 DESCENT All ion source 3 (GC1) - 25 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_3UA_X_STG1 FCO GCO All ion source 3 (GC1) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_3US_STG1 DESCENT All ion source 3 (GC1) - 75 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_3US_X_STG1 FCO GCO All ion source 3 (GC1) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_4UA_STG1 DESCENT All ion source 4 (GC2) - 25 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_4UA_X_STG1 FCO GCO All ion source 4 (GC2) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_4US_STG1 DESCENT All ion source 4 (GC2) - 75 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_4US_X_STG1 FCO GCO All ion source 4 (GC2) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5UA_STG1 DESCENT All ion source 5 (GC3) - 25 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5UA_X_STG1 FCO GCO All ion source 5 (GC3) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5UA_Z_STG1 FCO GCO All ion source 5 (GC3) - 25 eV ionization energy and low power mode done only during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5US_STG1 DESCENT All ion source 5 (GC3) - 75 eV FCO GCO ionization energy and unit mass resolution in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5US_X_STG1 FCO GCO All ion source 5 (GC3) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_5US_Z_STG1 FCO GCO All ion source 5 (GC3) - 75 eV ionization energy and low power mode done only during GCMS instrument testing. These data are in ASCII text format. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 1 - Housekeeping Data Files from Telemetry Stream -----------------------------+--------+--------------------------------------- GCMS_HK_A_ACK_STG1 DESCENT GCMS HouseKeeping ACKnowledge data from FCO GCO the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_HS_STG1 DESCENT GCMS HouseKeeping High Speed data from FCO GCO the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_IDLE_STG1 DESCENT GCMS HouseKeeping IDLE packet data from FCO GCO the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_MS_STG1 DESCENT GCMS HouseKeeping Medium Speed status FCO GCO data from the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_NACK_STG1 DESCENT GCMS HouseKeeping Not ACKnowledge data FCO GCO from the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_SOFTWARE_STG1 DESCENT GCMS HouseKeeping SOFTWARE status data FCO GCO from the A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_TYPE1_STG1 DESCENT GCMS HouseKeeping TYPE 1 data from the FCO GCO A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_A_TYPE2_STG1 DESCENT GCMS HouseKeeping TYPE 2 data from the FCO GCO A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_ACK_STG1 DESCENT GCMS HouseKeeping ACKnowledge data from FCO GCO the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_HS_STG1 DESCENT GCMS HouseKeeping High Speed data from FCO GCO the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_IDLE_STG1 DESCENT GCMS HouseKeeping IDLE packet data from FCO GCO the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_MS_STG1 DESCENT GCMS HouseKeeping Medium Speed status FCO GCO data from the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_NACK_STG1 DESCENT GCMS HouseKeeping Not ACKnowledge data FCO GCO from the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_SOFTWARE_STG1 DESCENT GCMS HouseKeeping SOFTWARE status data FCO GCO from the B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_TYPE1_STG1 DESCENT GCMS HouseKeeping TYPE 1 data from the FCO GCO A data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- GCMS_HK_B_TYPE2_STG1 DESCENT GCMS HouseKeeping TYPE 2 data from the FCO GCO B data stream in 8-bit ASCII text format. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 1 (MS) -----------------------------+--------+--------------------------------------- GCMS_1FA_STG2 DESCENT All Ion Source 1 - 25 eV ionization FCO GCO energy and fractional mass resolution converted to counts per second format. Voyager Model Entry timeline data is included for user convenience. -----------------------------+--------+--------------------------------------- GCMS_1FA_X_STG2 FCO GCO All Ion Source 1 - 25 eV ionization energy and fractional mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_STG2 DESCENT All Ion Source 1 - 75 eV ionization FCO GCO energy and fractional mass resolution converted to counts per second format. Voyager Model Entry timeline data is included for user convenience. -----------------------------+--------+--------------------------------------- GCMS_1FS_X_STG2 FCO GCO All Ion Source 1 - 75 eV ionization energy and fractional mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_STG2 DESCENT All Ion Source 1 - 25 eV ionization FCO GCO energy and unit mass resolution converted to counts per second format. Voyager Model Entry timeline data is included for user convenience. -----------------------------+--------+--------------------------------------- GCMS_1UA_X_STG2 FCO GCO All Ion Source 1 - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_STG2 DESCENT All Ion Source 1 - 75 eV ionization FCO GCO energy and unit mass resolution converted to counts per second format. Voyager Model Entry timeline data is included for user convenience. -----------------------------+--------+--------------------------------------- GCMS_1US_X_STG2 FCO GCO All Ion Source 1 - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 1 (MS) Direct Atmosphere & Enrichment Cell Samples -----------------------------+--------+--------------------------------------- GCMS_1FA_B1_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO fractional mass resolution residual background data done prior to direct atmosphere sampling. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FA_B2_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO fractional mass resolution instrument background data obtained after closing inlet 1 and before the rare gas cell analysis. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FA_B3_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO fractional mass resolution instrument background data obtained after closing inlet 3 and before opening inlet 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FA_L1_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO fractional mass resolution direct atmosphere sampling data via Leak 1. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FA_L2_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO fractional mass resolution direct atmosphere sampling data via Leak 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_B1_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO fractional mass resolution residual background data done prior to direct atmosphere sampling. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_B2_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO fractional mass resolution instrument background data obtained after closing inlet 1 and before the rare gas cell analysis. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_B3_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO fractional mass resolution instrument background data obtained after closing inlet 3 and before opening inlet 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_L1_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO fractional mass resolution direct atmosphere sampling data via Leak 1. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1FS_L2_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO fractional mass resolution direct atmosphere sampling data via Leak 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_B1_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution residual background data done prior to direct atmosphere sampling. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_B2_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution instrument background data obtained after closing inlet 1 and before the rare gas cell analysis. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_B3_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution instrument background data obtained after closing inlet 3 and before opening inlet 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L1_GRABEC_STG2 DESCENT Ion Source 1 - L1 25eV MS data between FCO GCO UTC times 9:35:22-9:36:06 during the Rare Gas Enrichment Cell Sample collection. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L1_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution direct atmosphere sampling data via Leak 1. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L2_GRABGC1_STG2 DESCENT Ion Source 1 - L2 25eV MS data when the FCO GCO ‘grab sample’ collection for GC analysis #1 was collected. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L2_GRABGC2_STG2 DESCENT Ion Source 1 - L2 25eV MS data between FCO GCO UTC times 10:02:54-10:03:18 when the ‘grab sample’ collection for GC analysis #2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L2_GRABGC4_STG2 DESCENT Ion Source 1 - L2 25eV MS data between FCO GCO UTC times 10:35:58-10:36:14 when the ‘grab sample’ collection for GC analysis #3. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L2_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution direct atmosphere sampling data via Leak 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1UA_L3_RG_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution Rare Gas Cell sampling data via Leak 3. Data as counts per second. UTC times 9:41:51-9:43:20. -----------------------------+--------+--------------------------------------- GCMS_1UA_L3_RGEC_STG2 DESCENT Ion Source 1 - 25 eV ionization energy FCO GCO unit mass resolution Rare Gas plus Enrichment Cell sampling data via Leak 3. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_B1_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution residual background data done prior to direct atmosphere sampling. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_B2_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution instrument background data obtained after closing inlet 1 and before the rare gas cell analysis. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_B3_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution instrument background data obtained after closing inlet 3 and before opening inlet 2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_L1_GRABEC_STG2 DESCENT Ion Source 1 - L1 75eV MS data between FCO GCO UTC times 9:35:22-9:36:06 during the Rare Gas Enrichment Cell Sample collection. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_L1_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution direct atmosphere sampling data via Leak 1. Data as counts per second. UTC times 9:11:17–9:39:28. -----------------------------+--------+--------------------------------------- GCMS_1US_L2_GRABGC1_STG2 DESCENT Ion Source 1 - L2 75eV MS data between FCO GCO UTC times 9:49:22-9:49:49 when the ‘grab sample’ collection for GC analysis #1. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_L2_GRABGC2_STG2 DESCENT Ion Source 1 - L2 75eV MS data between FCO GCO UTC times 10:02:54-10:03:18 when the ‘grab sample’ collection for GC analysis #2. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_L2_GRABGC4_STG2 DESCENT Ion Source 1 - L2 75eV MS data between FCO GCO UTC times 10:35:58-10:36:14 when the ‘grab sample’ collection for GC analysis #3. Data as counts per second. -----------------------------+--------+--------------------------------------- GCMS_1US_L2_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution direct atmosphere sampling data via Leak 2. Data as counts per second. UTC times 9:46:22-12:47:27.. -----------------------------+--------+--------------------------------------- GCMS_1US_L3_RG_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution Rare Gas Cell sampling data via Leak 3. Data as counts per second. UTC times 9:41:51-9:43:20. -----------------------------+--------+--------------------------------------- GCMS_1US_L3_RGEC_STG2 DESCENT Ion Source 1 - 75 eV ionization energy FCO GCO unit mass resolution Rare Gas plus Enrichment Cell sampling data via Leak 3. Data as counts per second. UTC times 9:43:21-9:44:51. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 2 (ACP) -----------------------------+--------+--------------------------------------- GCMS_2UA_STG2 DESCENT All ion source 2 (ACP) - 25 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_2UA_X_STG2 FCO GCO All ion source 2 (ACP) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_2US_STG2 DESCENT All ion source 2 (ACP) - 75 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_2US_X_STG2 FCO GCO All ion source 2 (ACP) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 2 (ACP) Individual Samples -----------------------------+--------+--------------------------------------- GCMS_2UA_S1_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #1 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2UA_S2_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #2 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2UA_S3_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #3 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2UA_S4_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #4 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2UA_S5_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #5 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2UA_S6_STG2 DESCENT Ion source 2 (ACP) - 25 eV ionization FCO GCO energy and unit mass resolution for ACP sample #6 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2US_S1_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #1 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2US_S2_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #2 in counts per second. Note –Programmed low IE data is present in this block of data and not marked between times 10:18:49 – 10:19:01. -----------------------------+--------+--------------------------------------- GCMS_2US_S3_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #3 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2US_S4_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #4 in counts per second. -----------------------------+--------+--------------------------------------- GCMS_2US_S5_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #5 in counts per second. Note – Programmed low IE data is present in this block of data and not marked between times 10:52:48 – 10:52:55. -----------------------------+--------+--------------------------------------- GCMS_2US_S6_STG2 DESCENT Ion source 2 (ACP) - 75 eV ionization FCO GCO energy and unit mass resolution for ACP sample #6 in counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 3 (GC1) -----------------------------+--------+--------------------------------------- GCMS_3UA_STG2 DESCENT All ion Source 3 (GC1) - 75 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_3UA_X_STG2 FCO GCO All ion Source 3 - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_3US_STG2 DESCENT All ion Source 3 (GC1) - 75 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_3US_X_STG2 FCO GCO All ion Source 3 - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 3 (GC1) Individual Samples -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S1_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S2_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S3_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S4_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S5_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S6_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S7_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S8_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S9_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3UA_GC1_S10_STG2 DESCENT Ion Source 3 (Column 1) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S1_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S2_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S3_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S4_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S5_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S6_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S7_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S8_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S9_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_3US_GC1_S10_STG2 DESCENT Ion Source 3 (Column 1) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 4 (GC2) -----------------------------+--------+--------------------------------------- GCMS_4UA_STG2 DESCENT All ion Source 4 (GC2) - 75 eV ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_4UA_X_STG2 FCO GCO All ion Source 4 (GC2) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_4US_STG2 DESCENT All ion Source 4 (GC2) - 75 eV ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_4US_X_STG2 FCO GCO All ion Source 4 (GC2) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 4 (GC2) Individual Samples -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S1_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S2_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S3_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S4_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S5_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S6_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S7_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S8_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S9_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4UA_GC2_S10_STG2 DESCENT Ion Source 4 (Column 2) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S1_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S2_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S3_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S4_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S5_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S6_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S7_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S8_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S9_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_4US_GC2_S10_STG2 DESCENT Ion Source 4 (Column 2) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion Source 5 (GC3) -----------------------------+--------+--------------------------------------- GCMS_5UA_STG2 DESCENT All ion source 5 (GC3) - 75 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_5US_STG2 DESCENT All ion source 5 (GC3) - 75 eV FCO GCO ionization energy and unit mass resolution converted to counts per second format. -----------------------------+--------+--------------------------------------- GCMS_5UA_X_STG2 FCO GCO All ion source 5 (GC3) - 25 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_5UA_Z_STG2 FCO GCO Unit mass resolution 25 eV ionization energy for Ion Source 5 data during checkout testing only when the GCMS is operating in low power mode where selected electronics are powered down to preserve instrument life. This data has been converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_5US_X_STG2 FCO GCO All ion source 5 (GC3) - 75 eV ionization energy and unit mass resolution covering a non-standard mass range done during GCMS instrument testing. These data are converted to counts per second. -----------------------------+--------+--------------------------------------- GCMS_5US_Z_STG2 FCO GCO Unit mass resolution 75 eV ionization energy for Ion Source 5 data during checkout testing only when the GCMS is operating in low power mode where selected electronics are powered down to preserve instrument life. This data has been converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mass Sweeps - Ion source 5 (GC3) Individual Samples -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S1_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S2_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S3_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S4_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S5_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S6_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S7_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S8_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S9_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5UA_GC3_S10_STG2 DESCENT Ion Source 5 (Column 3) data at 25 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S1_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S2_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S3_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for ACP Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S4_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for GC ‘Grab’ Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S5_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #1 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S6_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #2 as counts per second. Time relative to the injection has been determined and added to the file. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S7_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #3 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S8_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #4 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S9_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #5 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- GCMS_5US_GC3_S10_STG2 DESCENT Ion Source 5 (Column 3) data at 75 eV FCO GCO ionization energy and unit mass resolution for direct atmosphere Sample #6 as counts per second. Time relative to the injection has been determined and added to the file. Post-landing measurement. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - HouseKeeping Data -----------------------------+--------+--------------------------------------- GCMS_HK_HS_STG2 DESCENT Time tagged high speed housekeeping FCO GCO parameters -----------------------------+--------+--------------------------------------- GCMS_HK_IDLE_STG2 DESCENT Time tagged idle data packet FCO GCO housekeeping parameters -----------------------------+--------+--------------------------------------- GCMS_HK_MS_STG2 DESCENT Time tagged medium speed housekeeping FCO GCO parameters -----------------------------+--------+--------------------------------------- GCMS_HK_TYPE2_STG2 DESCENT Time tagged housekeeping type 2 FCO GCO parameters -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Ion Source TOTALS Extracted Data -----------------------------+--------+--------------------------------------- GCMS_SWEEPS_ALL_TOTALS_STG2 DESCENT Each scan monitors the total signal for FCO GCO all enabled ion source. This file contains these totals converted to counts per second. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- Stage 2 - Mole Fraction Data derived from Entry Data -----------------------------+--------+--------------------------------------- GCMS_MOLE_FRACTION_STG2 DESCENT MS IS1 Direct Atmosphere Mixing Ratio results for the two (three) most abundant species from the Direct Leak analysis. Time Tagged. -----------------------------+--------+--------------------------------------- -----------------------------+--------+--------------------------------------- The GCMS works with and analyzes samples from the ACP. The ACP Data Products are forwarded to the ACP Science team, and will be analyzed by them. The ACP analysts may use certain GCMS Data Products in conjunction with the GCMS team to post- calibrate and to analyze their scientific results. Other instruments to which atmospheric composition may be relevant may also utilize GCMS Data Products in the analysis of their data, or to make comparisons in data, as per guidelines in the Descent Trajectory Working Group EAICD. The ACP data will consist of one GC data product, 2 stage 1 mass scan products, and 6 stage 2 & 3 mass scan products. These data products were selected because they represent an efficient method of archivally organizing the GCMS data. The data from GCMS are complex and voluminous, and will undergo several iterations of analysis. These data products accurately describe results of these iterations, and the breakdown of the data into manageable sets. 2.5 SOFTWARE The GCMS software includes the instrument software, the GSE software, and the data processing software. The instrument software was developed at GSFC and is onboard the GCMS flight unit, on the flight spare unit at NASA/GSFC, the Engineering Model (EM), and all simulator test beds at NASA/GSFC. The GSE software is the interface to the instrument as well as the processing software for the real-time data from the flight unit, flight spare, EM, and test beds. The original hardware and software limitations meant that the only way to process the telemetry data downloaded from ESA and to replay (and reprocess) archived data was to feed these data files through the interface hardware system. Near the end of the cruise mission, personal computers became powerful enough to allow the development of software at GSFC to process raw GCMS data without using the GSE workstations and software. These software programs allow the GCMS Team to parse files and retrieve data of interest. The (workstation) GSE processing software uses IDL subroutines to plot GCMS data for specified timelines. If these timelines are not sufficient, the newly developed software is used to parse the data and then commercial plotting routines or spreadsheet software can be used to plot the data. To calibrate or post-calibrate, instrument software is used if flight-like electronics are operating the sensor, or specially written laboratory software is used if laboratory electronics are operating the sensor. There is no specialized software required to view the GCMS data products, and no software will be provided or archived to do so. 2.6 DOCUMENTATION The GCMS Team will provide documents describing the operational timeline of the GCMS instrument during the descent into Titan's atmosphere. Selected instrument housekeeping parameters corresponding to the start time of each mass scan have been added to the table containing the mass scan data. We had hoped to integrate the mission descent profile information (altitude, pressure, temperature) with the GCMS dataset. This dataset is not yet available for distribution. Users must look elsewhere in the data archives to determine the availability of the atmosphere entry (descent trajectory) parameters. The data TABLE file columns intended for this use have been assigned the value zero (0.) Documents relative to the interpretation of the calibration data are provided. An overview of the GCMS instrument is also provided. These documents and any associated image files will be provided as ASCII (ASC) and Portable Network Graphics (PNG) files and may also be included in additional formats: e.g., DOC, PDF, HTML, GIF. These documents are archived in the /DOCUMENT/ and the /EXTRAS/ folders. Refer to Section 3.4.3.10 for a listing of archived documents and images. 2.7 DERIVED AND OTHER DATA PRODUCTS The dataset user must refer to the Descent Trajectory Working Group and to the Huygens Atmospheric Structure Instrument data, elsewhere in the archive, to obtain the actual descent trajectory entry parameters. Data related to the composition of the atmosphere was provided to the Descent Trajectory Working Group and these files are archived. 3 ARCHIVE FORMAT AND CONTENT 3.1 FORMAT AND CONVENTIONS 3.1.1 DELIVERIES AND ARCHIVE VOLUME FORMAT The GCMS Team will deliver the data set(s) to the PSA and PDS archives by electronic methods or CD or DVD. The data set will contain the relevent files for a specific test sequence or calibration activity and associated documents. Each data set will contain a subset of the data products listed in Sections 2.4, Table 5. Each data volume will be named according to the requirements of the PDS/PSA systems: only capital letters, numbers and the underscore character. A copy of all data including each CD or DVD will remain at NASA GSFC. The name of the GCMS Data Set is: "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0. 3.1.2 DATA SET ID FORMATION The data set ID for GCMS will be: "HP-SSA-GCMS-3-FCO/DESCENT-V1.0". Refer to Appendix 3 and Table 5 and Table 8 for additional information about the content of the GCMS Data Set. 3.1.3 DATA DIRECTORY NAMING CONVENTION The directories below the root are /CATALOG/, /DATA/, /DOCUMENT/, /INDEX/ and /EXTRAS/. The /DATA/ directory consists of one volume, with subdirectories named by data content: refer to Table 8. Each subdirectory will contain the GCMS data products for that data set. Certain calibration data, in-flight, EM or Flight Spare data may not be available in all processing stages. 3.1.4 FILE NAMING CONVENTION File Names will be composed of only UPPER CASE letters, numbers, and the characters "." and "_". File names for data products are constructed as follows: ___. The field will always be "GCMS". The field refers to the source of the data or the scan type plus the instrument's operating mode and the field name will contain "#FA","#FS", "#UA", "#US", "ALL", "ALL_?", "HK", "HK_?", "MOLE_FRACTION", "SWEEPS", "SWEEPS_?", "SWEEPS_ALL", "TELEMETRY" or "TOTALS" where "#" refers to the Ion Source Number (1 - 5) and "?" refers to the data source telemetry channel (A or B). For MS data sweep files, the field will contain "B?" (1 - 3), "GC#" (1 - 3), "GRABEC", "GRABGC?" (1 - 3), "L#" (1 - 4), "RG", "RGEC", "S?" (1 - 10), "X" or "Z" where "?" refers to a sample number and "#" refers to a GC-column or leak number. For housekeeping data files, the field will contain "ACK", "HS", "IDLE", "MS", "NACK", "SOFTWARE", "TYPE1" or "TYPE2". The (translation) details for the and fields can be seen in the information in Table 5. The field refers to the level of data processing, as described in Table 2, and will be "STG1", "STG2" or "STG3". 3.2 STANDARDS USED IN DATA PRODUCT GENERATION 3.2.1 PDS STANDARDS The PDS reference standards v3.6 will be used. 3.2.2 TIME STANDARDS The Huygens Probe provides a timing signal to the instruments, referred to as the DDB pulse, every 2 seconds. This DDB signal is set to 0 (zero) twice: when the probe is initially powered on and again when T0 is declared. The mission later provided the teams with the UTC time of the T0 event (2005-01-14T09:10:20.760). Elsewhere in the instrument's housekeeping data is the information whether the probe operating phase is pre-T0 or post-T0. Many of the data files contain a time identified as MET (Mission Elapsed Time). The MET is related to the DDB time and is expressed in seconds. The T0 event is assigned a 'MET time' of 86400 seconds so when you see a MET time less than this value it referrs to a pre-T0 time and times greater than this value refer to post-T0 times. The GCMS instrument contains an independent clock that runs with a temporal resolution of 15.625 milliseconds and is synchronized with the DDB pulses. We refer to this combined DDB plus GCMS clock value as the "Absolute Time". Each GCMS housekeeping and science data packet contains information referencing the instrument "Absolute Time." This Absolute Time value is combined with the defined UTC at T0 time value to yield the UTC time of each GCMS science and housekeeping data packet. Users will also find a time referenced as the "GCMS GMT Time" and will note that this time lags the "Absolute Time" from the GCMS Instrument. The GCMS GMT Time is the time stamp from the probe data system's acceptance of the data packet from the GCMS data buffer. This time is added to the GCMS data packet, along with other probe generated data, to create the probe data packet for transmission to the orbiter. 3.2.3 REFERENCE SYSTEMS N/A 3.2.4 OTHER APPLICABLE STANDARDS N/A 3.3 DATA VALIDATION All data that is processed by the GCMS Team is reviewed before release to ensure that the content is complete and that no errors occurred in the processing of the data. Data volumes produced for PSA/PDS will be verified before they are sent. As mentioned above, there are multiple and independent processing software schemes available, and these have been used to process GCMS data to ensure that the processing is done correctly. After the data is processed, it is analyzed from test specific and trend history perspectives, and reviewed by the GCMS PI and Team. Only then will the data be released for public usage. 3.4 CONTENT 3.4.1 VOLUME SET The GCMS Team will deliver one data "volume", electronically or on CD or DVD, containing the data. All the data will also be archived at GSFC. 3.4.2 DATA SET See Appendix 3. 3.4.3 DIRECTORIES 3.4.3.1 ROOT DIRECTORY The root directory will contain the following subdirectories (folders) and files: /CATALOG/ /DATA/ /DOCUMENT/ /EXTRAS/ /INDEX/ AAREADME.TXT ERRATA.TXT VOLDESC.CAT 3.4.3.2 CALIBRATION DIRECTORY N/A 3.4.3.3 CATALOG DIRECTORY The catalog directory will contain the files: DATASET.CAT INSTRUMENT.CAT INSTRUMENT_HOST.CAT MISSION.CAT PERSONNEL.CAT REFERENCE.CAT SOFTWARE.CAT TARGET.CAT 3.4.3.4 INDEX DIRECTORY The index directory will contain the files: INDEX.LBL INDEX.TAB INDEXINFO.TXT 3.4.3.5 BROWSE DIRECTORY AND BROWSE FILES N/A 3.4.3.6 GEOMETRY DIRECTORY N/A 3.4.3.7 SOFTWARE DIRECTORY N/A 3.4.3.8 GAZETTER DIRECTORY N/A 3.4.3.9 LABEL DIRECTORY N/A 3.4.3.10 DOCUMENT DIRECTORY All documents will be included as ASCII TEXT (*.ASC) files. Additional formats, such as (DOC) MS Word, PDF (Acrobat) and (TXT) Text formats may be included. All images will be included as Portable Network Graphics (PNG) files. These images may also be included using other formats. DOCINFO.TXT BLOCK_DIAGRAM.PNG Simple diagram of GCMS components DESC_FM_08F.ASC File used to program GCMS sampling sequence EAICD_GCMS.ASC This document HUYGENS_GCMS.ASC Space Science Reviews Article (2002) HUYGENS_GCMS_SP1177.ASC GCMS Article from ESA Special Publication 1177 HUYGENS_GCMS_NATURE.ASC GCMS Results published in Nature (December 8, 2005) WORKING_SEQUENCE.ASC File used to develop GCMS sampling sequence WORKING_TIMELINE.PNG Graphic of GCMS operation timeline /PRELAUNCH_CALIBRATION/ CALPRES.ASC See Table 4 for a description of this file's content CALPRES2.ASC See Table 4 for a description of this file's content CALPRES3.ASC See Table 4 for a description of this file's content CALPRNT2.ASC See Table 4 for a description of this file's content CALPRNTS.ASC See Table 4 for a description of this file's content 3.4.3.11 EXTRAS DIRECTORY EXTRASINFO.TXT /ANIMATED_GIF/ GCMS_A2.GIF Cartoon showing gas flow, valve and heater operations. GCMS_P2.GIF Cartoon showing gas flow, valve and heater operations. /DATASET_RELATED/ DATA_PROCESSING.PDF Details of data processing, Stage 0 to Stage 3 (and beyond.) GCMS_OVERFLOW_EXAMPLE_STG1.PNG Stage 1 example of identifying GCMS counter overflow GCMS_OVERFLOW_EXAMPLE_STG2.PNG Stage 2 example of identifying GCMS counter overflow SAMPLE_TABLE_FILES_STG1.PNG Stage 1 processing example of selected data files SAMPLE_TABLE_FILES_STG2.PNG Stage 2 processing example of selected data files. /DOCUMENTS/ EIDB_A1.PDF EIDB_A2.PDF FS_CRUISE_OPS.PDF GCMS_FS_USER_MANUAL.PDF /FLIGHT_CHECKOUT/ F01-CO2.PDF In-flight Checkout 1 F02_CO1.PDF In-flight Checkout 2 F03_CO2.PDF In-flight Checkout 3 F04_CO1.PDF In-flight Checkout 4 F05_CO2.PDF In-flight Checkout 5 F06_CO1.PDF In-flight Checkout 6 F07_CO2.PDF In-flight Checkout 7 F08_CO1.PDF In-flight Checkout 8 F09_CO2.PDF In-flight Checkout 9 F10_CO1.PDF In-flight Checkout 10 F11_CO2.PDF In-flight Checkout 11 F12_CO1.PDF In-flight Checkout 12 NO_PRE-HEATING.PDF In-flight No pre-heating Checkout PRE-HEATING.PDF In-flight pre-heating Checkout F13_CO1B.PDF In-flight Checkout 13 F14_CO2.PDF In-flight Checkout 14 F15_CO1B.PDF In-flight Checkout 15 BATTERY_DEPASSIVATION_1.PDF In-flight Battery DePassivation #1 F16_CO1B.PDF In-flight Checkout 16 BATTERY_DEPASSIVATION_2.PDF In-flight Battery DePassivation #2 DESCENT_AS_CO1.PDF Atmospheric Entry (plotted as FCO1) ENTRY_PLOT_DESCENT.PDF Atmospheric Entry (plotted as DESCENT Mission) 3.4.3.12 DATA DIRECTORY All file folders below this initial directory will be given a name related to their content as a way to group the data sets. All of the data products for that data set will be located in the associated folder. Refer to Table 8 for a listing of the GCMS Flight Data Product Folders. Certain calibration data, in-flight, EM or Flight Spare data may not be available in all processing stages. 4. DETAILED INTERFACE SPECIFICATIONS 4.1 SAMPLE LABELS 4.1.1 DATA LABEL - STAGE 2 PROCESSED SWEEP FILES All Stage 2 processed GCMS Mass Sweep data files share the same file format. Every file is n rows by 177 columns: where n indicates the number of MS scans in the file and each column represents one parameter. Columns 1 - 3 indicate the starting time for each scan, each column using a differing time scale. The parameters recorded in columns 4 - 10 will vary dependant on the data (ion) source: refer to Table 6. Columns 13 - 154 contain the 142 measurements, converted to counts per second, acquired during each mass sweep. This information applies to the files with names such as: GCMS_1FS_STG2.TAB, GCMS_1FA_STG2.TAB, GCMS_#US[_X_Z]_STG2.TAB and GCMS_#UA[_X_Z]_STG2.TAB where # identifies the data (ion) source (1 to 5), F or U indicate a Fractional or Unit mass scan, S or A indicate a Standard (75) or Alternate (25) ionization energy scan and the [optional] X and Z parameters indicate scans other than 2 - 141 and low power instrument operations mode respectively. The label file for the data table GCMS_1US_STG2.TAB is presented as an example. In the label file, we reference a format file containing the data table's formatting details. The format files utilize names structured as: GCMS_#U_STG2.FMT and GCMS_1F_STG2.FMT. The example included here is GCMS_1U_STG2.FMT. The data in columns 4 - 10 is chosen for its relationship to the ion source that generated the data and is extracted from the instrument's housekeeping data and an entry profile. As a convenience to the dataset user, we had planned to integrate the information related to the descent profile (altitude, pressure and temperature) with our GCMS data. At the time of the GCMS dataset release, these data are not available for public release. We have chosen to retain these columns in the data table and set all values to zero (0.). This table presents the column labels being used. The data labels are fully defined in the format file associated with the individual ion source's data table. Table 6. Identification of the Supplemental Data Added to the Archived Stage 2 & 3 Mass Sweeps Data Files for the Convenience of the User. ------------------------------------------------------------- ------------------------------------------------------------- -------| <-- Column Label Relationship to Ion Source --> ------------------------------------------------------------- Column | IS1 IS2 IS3 IS4 IS5 ------------------------------------------------------------- 4 MDL_ALT UNK1 GC_TIME GC_TIME GC_TIME ATM_ALT ------------------------------------------------------------- 5 MDL_PRSR UNK2 UNK2 UNK2 UNK2 ATM_PRSR ------------------------------------------------------------- 6 MDL_TMPR UNK3 UNK3 UNK3 UNK3 ATM_TMPR ------------------------------------------------------------- 7 INLETT ACPT GC1_TMPR GC2_TMPR GC3_TMPR ------------------------------------------------------------- 8 LINEP ACPP H2RESP H2RESP H2RESP ------------------------------------------------------------- 9 SHELLP UN1 H2COLP H2COLP H2COLP ------------------------------------------------------------- 10 EC1T UN2 H2TMPR H2TMPR H2TMPR ------------------------------------------------------------- ------------------------------------------------------------- Notes: MDL_* indicates value is extracted from a MODEL entry profile. ATM_* indicates value is extracted from the TITAN entry profile. UN? and UNK? indicates UNKnown/UNdefined. INLETT indicates the Inlet Line Temperature LINEP indicates the Inlet Line Pressure SHELLP indicates Instrument Shell Pressure EC1T indicates Enrichment Cell Temperature ACPT indicates the ACP Transfer Line Temperature ACPP indicates the ACP Transfer Line Pressure GC_TIME indicates the GC Sample Injection Time GC?_TMPR indicates the specific GC Column Temperature H2RESP indicates the H2 reservoir Pressure H2COLP indicates the H2 pressure in the GC Columns H2TMPR indicates the H2 reservoir Temperature ------------------------------------------------------------- ------------------------------------------------------------- A normal scan uses a mass resolution of 1 per step. Periodically the scans using ion source 1 (IS1) are done at fractional resolution (0.125 per step). The quadrupole mass filter used in this instrument uses 2 RF sources: a 'high-frequency' oscillator for masses less than 20 and a 'low-frequency' oscillator for those masses 20 and above. When the oscillator's frequency is set for each scan and when it is changed, one sample period is necessary before the circuitry stabilizes. Thus the first sample of each scan and the first sample following a frequency change are not considered to be valid and mass stepping is momentarily halted permitting a valid measurement is obtained. For all unit resolution full scan (mass range 2 - 141) files (GCMS_#U_*), columns 13 - 154 are labeled (in row 1) with X1, M2, M3, ... M19, X20, M20, M21, ... M141) where the label X# is used to indicate a column containing questionable/invalid data and M# indicates a column containing unit mass resolution data for mass '#'. For the fractional resolution files (GCMS_1F_*), columns 13 - 154 are labeled (row 1) with X1, FR2, FR3, ... FR141, FR142 where the label X# is used to indicate a column containing invalid data and FR# indicates a column containing fractional resolution data for integration period '#'. The mass scan range for each sample (row) is obtained from columns 11 and 12. The mass resolution (increment) is 0.125 per sample. As noted, previously, care must be observed for the scan where mass 20 is sampled since the first sample at mass 20 is considered to be invalid and is repeated. File GCMS_1US_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 2100 FILE_RECORDS = 1251 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_1US_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_1US_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F11_GCMS_1US_STG2" PRODUCT_NAME = "F11_GCMS_IS1_UNIT_STDIE_STG2" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU_FCO2 */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2003-05-03T17:17:33.722 STOP_TIME = 2003-05-03T20:05:02.282 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument absolute times */ /* or */ /* when these data are not available */ /* the GCMS_GMT (telemetry packet) */ /* time is used. */ SPACECRAFT_CLOCK_START_COUNT = 32355 SPACECRAFT_CLOCK_STOP_COUNT = 8925985 /* (DDB + GCMS) clock time */ /* 1/64 second resolution. */ /* DDB clock is set to 0 at power on */ /* and reset to 0 at T0 (begin entry */ /* sequence). Post-T0 is indicated */ /* by adding 2^23 to the DDB clock value. */ NATIVE_START_TIME = -1646.312 NATIVE_STOP_TIME = 8396.516 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so pre-T0 times may */ /* be in error by 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-16T12:47:43 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick-Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 /* DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_FCO2" /* F11 */ /* FU = Flown Unit, EU = Engineering Unit */ /* FS = Flight Spare (Lab, Backup) Unit */ /* SU = Spare Unit (Lab, Backup) */ /* DESCENT indicates Entry Mission */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 1251 COLUMNS = 177 ROW_BYTES = 2100 DESCRIPTION = "Ion source 1 (MS) full scans (mass range: 2 - 141 (MS)) at unit resolution and 75 eV ionization energy." ^STRUCTURE = "GCMS_1U_STG2.FMT" END_OBJECT = TABLE END File GCMS_1U_STG2.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time or GCMS_GMT time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_TIME" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 25 BYTES = 10 FORMAT = "I10" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time. Value set to zero at power on and at sequence start (T0). 2^23 is added to the value to indicate post T0 times. Each 'tic' represents 1/64 second." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "ABS_SEC" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 36 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Time relative to spacecraft T0 event. Negative times indicate pre-T0. (aka MET)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "ATM_ALT" UNIT = "KILOMETERS" DATA_TYPE = ASCII_INTEGER START_BYTE = 46 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Ambient Altitude from the mission planning model. Refer to the DTWG & HASI data sets for the correct value." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "ATM_PRSR" UNIT = "MILLIBARS" DATA_TYPE = ASCII_INTEGER START_BYTE = 56 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Ambient Pressure from the mission planning model. Refer to the DTWG & HASI data sets for the correct value." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "ATM_TMPR" UNIT = "KELVIN" DATA_TYPE = ASCII_INTEGER START_BYTE = 67 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Ambient Temperature from the mission planning model. Refer to the DTWG & HASI data sets for the correct value." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "INLETT" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 78 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "GCMS sample inlet line temperature from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "LINEP" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 87 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "GCMS sample inlet line pressure from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "SHELLP" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 95 BYTES = 8 FORMAT = "F8.4" DESCRIPTION = "GCMS shell pressure from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "EC1T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 104 BYTES = 6 FORMAT = "F6.1" DESCRIPTION = "GCMS enrichment cell 1 temperature from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "START" UNIT = "DALTONS" DATA_TYPE = ASCII_INTEGER START_BYTE = 111 BYTES = 7 FORMAT = "I7" DESCRIPTION = "MS scan start mass, typ. 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "END" UNIT = "DALTONS" DATA_TYPE = ASCII_INTEGER START_BYTE = 119 BYTES = 5 FORMAT = "I5" DESCRIPTION = "MS scan end mass, typ. 141" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "X1" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 125 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Initial MS sample at Start mass noted in column 11 (START). ALWAYS INVALID!" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "SH2" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 137 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Repeat sample at Start mass noted in column 11: typ. mass 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "SH3" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 149 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "SH4" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 161 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "SH5" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 173 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "SH6" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 185 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "SH7" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 197 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 7" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "SH8" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 209 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 8" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "SH9" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 221 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 9" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "SH10" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 233 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 10" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "SH11" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 245 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 11" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "SH12" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 257 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 12" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "SH13" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 269 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 13" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "SH14" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 281 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 14" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "SH15" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 293 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 15" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "SH16" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 16" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "SH17" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 317 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 17" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "SH18" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 329 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 18" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "SH19" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 341 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 19" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "SH20" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 353 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 20 - The first measurement at mass 2 or 20 is ALWAYS INVALID." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "SH21" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 365 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "If previous sample mass was 20, repeat the measurement elxe sample at previous mass plus 1: typ. mass 20" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "SH22" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 377 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 21" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "SH23" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 389 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 22" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "SH24" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 401 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 23" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "SH25" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 413 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 24" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "SH26" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 425 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 25" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "SH27" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 437 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 26" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "SH28" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 449 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 27" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "SH29" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 461 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 28" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "SH30" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 473 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 29" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "SH31" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 485 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 30" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "SH32" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 497 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 31" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "SH33" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 509 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 32" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "SH34" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 521 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 33" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "SH35" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 533 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 34" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "SH36" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 545 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 35" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "SH37" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 557 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 36" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "SH38" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 569 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 37" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "SH39" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 581 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 38" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "SH40" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 593 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 39" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "SH41" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 605 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 40" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "SH42" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 617 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 41" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "SH43" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 629 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 42" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "SH44" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 641 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 43" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "SH45" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 653 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 44" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "SH46" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 665 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 45" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "SH47" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 677 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 46" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "SH48" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 689 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 47" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "SH49" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 701 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 48" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "SH50" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 713 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 49" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "SH51" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 725 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 50" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "SH52" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 737 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 51" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "SH53" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 749 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 52" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "SH54" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 761 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 53" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "SH55" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 773 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 54" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "SH56" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 785 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 55" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "SH57" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 797 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 56" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "SH58" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 809 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 57" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "SH59" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 821 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 58" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "SH60" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 833 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 59" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "SH61" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 845 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 60" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "SH62" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 857 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 61" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "SH63" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 869 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 62" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "SH64" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 881 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 63" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "SH65" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 893 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 64" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "SH66" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 905 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 65" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "SH67" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 917 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 66" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "SH68" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 929 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 67" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "SH69" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 941 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 68" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "SH70" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 953 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 69" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "SH71" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 965 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 70" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "SH72" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 977 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 71" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "SH73" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 989 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 72" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "SH74" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1001 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 73" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "SH75" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1013 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 74" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "SH76" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1025 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 75" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "SH77" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1037 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 76" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "SH78" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1049 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 77" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "SH79" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1061 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 78" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "SH80" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1073 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 79" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "SH81" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1085 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 80" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "SH82" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1097 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 81" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "SH83" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1109 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 82" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "SH84" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1121 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 83" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "SH85" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1133 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 84" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "SH86" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1145 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 85" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "SH87" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1157 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 86" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "SH88" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1169 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 87" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "SH89" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1181 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 88" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "SH90" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1193 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 89" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "SH91" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1205 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 90" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "SH92" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1217 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 91" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "SH93" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1229 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 92" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "SH94" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1241 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 93" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "SH95" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1253 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 94" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "SH96" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1265 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 95" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "SH97" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1277 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 96" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "SH98" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1289 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 97" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "SH99" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1301 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 98" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "SH100" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1313 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 99" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "SH101" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1325 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 100" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "SH102" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1337 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 101" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "SH103" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1349 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 102" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "SH104" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1361 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 103" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "SH105" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1373 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 104" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "SH106" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1385 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 105" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "SH107" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1397 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 106" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "SH108" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1409 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 107" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 121 NAME = "SH109" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1421 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 108" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 122 NAME = "SH110" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1433 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 109" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 123 NAME = "SH111" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1445 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 110" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 124 NAME = "SH112" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1457 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 111" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 125 NAME = "SH113" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1469 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 112" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 126 NAME = "SH114" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1481 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 113" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 127 NAME = "SH115" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1493 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 114" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 128 NAME = "SH116" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1505 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 115" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 129 NAME = "SH117" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1517 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 116" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 130 NAME = "SH118" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1529 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 117" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 131 NAME = "SH119" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1541 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 118" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 132 NAME = "SH120" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1553 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 119" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 133 NAME = "SH121" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1565 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 120" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 134 NAME = "SH122" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1577 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 121" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 135 NAME = "SH123" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1589 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 122" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 136 NAME = "SH124" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1601 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 123" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 137 NAME = "SH125" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1613 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 124" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 138 NAME = "SH126" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1625 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 125" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 139 NAME = "SH127" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1637 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 126" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 140 NAME = "SH128" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1649 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 127" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 141 NAME = "SH129" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1661 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 128" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 142 NAME = "SH130" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1673 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 129" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 143 NAME = "SH131" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1685 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 130" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 144 NAME = "SH132" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1697 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 131" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 145 NAME = "SH133" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1709 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 132" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 146 NAME = "SH134" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1721 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 133" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 147 NAME = "SH135" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1733 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 134" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 148 NAME = "SH136" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1745 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 135" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 149 NAME = "SH137" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1757 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 136" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 150 NAME = "SH138" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1769 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 137" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 151 NAME = "SH139" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1781 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 138" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 152 NAME = "SH140" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1793 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 139" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 153 NAME = "SH141" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1805 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 140" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 154 NAME = "SH142" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1817 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Sample at previous mass plus 1: typ. mass 141. Last sample (END) as noted in column 12." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 155 NAME = "T1A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1829 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 156 NAME = "T1B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1841 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 157 NAME = "T1C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1853 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 158 NAME = "T2A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1865 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 159 NAME = "T2B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1877 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 160 NAME = "T2C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1889 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 161 NAME = "T3A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1901 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 162 NAME = "T3B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1913 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 163 NAME = "T3C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1925 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 164 NAME = "T4A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1937 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 165 NAME = "T4B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1949 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 166 NAME = "T4C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1961 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 167 NAME = "T5A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1973 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 168 NAME = "T5B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1985 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 169 NAME = "T5C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 1997 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 170 NAME = "SEQ_CNTR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 2009 BYTES = 10 FORMAT = "I10" DESCRIPTION = "GCMS counter. Refer to the GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 171 NAME = "GCMS_GMT" UNIT = "TIME" DATA_TYPE = ASCII_REAL START_BYTE = 2020 BYTES = 13 FORMAT = "F13.3" DESCRIPTION = "Spacecraft Event Time (SCET) corresponding with this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 172 NAME = "GCMS_DATE" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 2034 BYTES = 11 FORMAT = "A11" DESCRIPTION = "SCET Date (2005-01-14)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 173 NAME = "GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 2046 BYTES = 14 FORMAT = "A14" DESCRIPTION = "SCET Time (hh:mm:ss.000)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 174 NAME = "AB" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 2061 BYTES = 4 FORMAT = "A4" DESCRIPTION = "Telemetry stream for this data record. Always B." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 175 NAME = "SUBSWP" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 2066 BYTES = 8 FORMAT = "I8" DESCRIPTION = "GCMS subsweep. Indicates instrument's operating mode. Refer to GCMS Software User's Manual for bit definitions." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 176 NAME = "SCN_CNT" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 2075 BYTES = 9 FORMAT = "I9" DESCRIPTION = "GCMS scan counter. Refer to the GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 177 NAME = "MET_TIME" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 2085 BYTES = 13 FORMAT = "F13.6" DESCRIPTION = "Mission Elapsed Time. 86400 is added to the real time to indicate post-T0 data." END_OBJECT = COLUMN 4.1.2 DATA LABEL - STAGE 1 RAW DATA SWEEP FILES One format has been used for all of the Stage 1 processed GCMS mass sweep data files. Each file is n rows by 235 columns: where n indicates the number of MS scans in the file and each column represents one parameter. The entries in columns 1 - 20 and 235 contain information extracted from the original "raw" data stream and converted to meaningful values. Columns 1 - 3 indicate the starting time for a scan, using different time scales. Columns 4 - 20 contain date, time and scan mode information extracted from this telemetry or the selected values extracted from the housekeeping telemetry relevant to the specific scan (row). The values in columns 21 - 234 are the 'raw' values extracted from the original telemetry and converted from binary to their corresponding 8-bit numbers. The label file for the data table GCMS_1US_STG1.TAB is presented below. All of these data tables use the same format and the format file GCMS_ISALL_STG1.FMT is also included. File GCMS_1US_STG1.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1656 FILE_RECORDS = 2394 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_1US_STG1.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_1US_STG1.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F12_GCMS_1US_STG1" PRODUCT_NAME = "F12_GCMS_IS1_UNIT_STDIE_STG1" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU_FCO1 */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2003-09-18T02:55:45.595 STOP_TIME = 2003-09-18T05:41:12.154 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument absolute times */ /* or */ /* when these data are not available */ /* the GCMS_GMT (telemetry packet) */ /* time is used. */ SPACECRAFT_CLOCK_START_COUNT = 34941 SPACECRAFT_CLOCK_STOP_COUNT = 8925889 /* (DDB + GCMS) clock time */ /* 1/64 second resolution. */ /* DDB clock is set to 0 at power on */ /* and reset to 0 at T0 (begin entry */ /* sequence). Post-T0 is indicated */ /* by adding 2^23 to the DDB clock value. */ NATIVE_START_TIME = -1525.906 NATIVE_STOP_TIME = 8395.016 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so pre-T0 times may */ /* be in error by 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-15T16:53:22 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick-Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 /* DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_FCO1" /* F12 */ /* FU = Flown Unit, EU = Engineering Unit */ /* FS = Flight Spare (Lab, Backup) Unit */ /* SU = Spare Unit (Lab, Backup) */ /* DESCENT indicates Entry Mission */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 2394 COLUMNS = 235 ROW_BYTES = 1656 DESCRIPTION = "Ion source 1 (MS) full scans (mass range: 2 - 141 (MS)) at unit resolution and 75 eV ionization energy." ^STRUCTURE = "GCMS_ISALL_STG1.FMT" END_OBJECT = TABLE END GCMS_ISALL_STG1.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time or GCMS_GMT time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_T" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 25 BYTES = 7 FORMAT = "I7" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time. Value starts at zero at power on and is reset to zero at sequence start (T0). 2^23 is added to the value to indicate post T0 times. Each 'tic' represents 1/64 second." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "SCNDS" UNIT = "SECONDS" DATA_TYPE = CHARACTER START_BYTE = 33 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Time relative to spacecraft T0 event. Negative times indicate pre-T0." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "GCMS_GMT" UNIT = "TIME" DATA_TYPE = ASCII_REAL START_BYTE = 43 BYTES = 13 FORMAT = "F13.3" DESCRIPTION = "Spacecraft Event Time (SCET) corresponding with this data record (calculated from columns 21 - 28.)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "DATE" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 57 BYTES = 11 FORMAT = "A11" DESCRIPTION = "SCET Date (2005-01-14)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 69 BYTES = 14 FORMAT = "A14" DESCRIPTION = "SCET Time (hh:mm:ss.000)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "STREAM" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 84 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Telemetry stream for this data record. A or B." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "SEQ_CNTR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 93 BYTES = 10 FORMAT = "I10" DESCRIPTION = "GCMS counter. Refer to the GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "TYPE" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 104 BYTES = 6 FORMAT = "A6" DESCRIPTION = "Processing program index identifying data stream type: swp, hk, idle, ... (Refer to GCMS Software User's Manual)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "SHELL_P" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 111 BYTES = 9 FORMAT = "F9.4" DESCRIPTION = "GCMS shell pressure from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "INLET_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 121 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "GCMS sample inlet line temperature from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "H2COL_P" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 131 BYTES = 9 FORMAT = "F9.4" DESCRIPTION = "GCMS hydrogen column pressure from instrument housekeeping" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "H2RES_P" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 141 BYTES = 9 FORMAT = "F9.4" DESCRIPTION = "GCMS hydrogen storage reservoir pressure from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "H2_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 151 BYTES = 6 FORMAT = "F6.2" DESCRIPTION = "GCMS hydrogen storage reservoir temperature from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "GC1_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 158 BYTES = 7 FORMAT = "F7.2" DESCRIPTION = "GC column 1 temperature from GCMS instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "GC2_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 166 BYTES = 7 FORMAT = "F7.2" DESCRIPTION = "GC column 2 temperature from GCMS instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "GC3_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 174 BYTES = 7 FORMAT = "F7.2" DESCRIPTION = "GC column 3 temperature from GCMS instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "EC1_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 182 BYTES = 7 FORMAT = "F7.2" DESCRIPTION = "GCMS enrichment cell 1 temperature from instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "ACP_P" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 190 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "ACP sample transfer line pressure from GCMS instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "ACP_T" UNIT = "DEG. C" DATA_TYPE = ASCII_REAL START_BYTE = 198 BYTES = 7 FORMAT = "F7.2" DESCRIPTION = "ACP sample transfer line temperature from GCMS instrument housekeeping." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "GMT_S" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 206 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (seconds), MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "GMT2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 214 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (seconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "GMT3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 221 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (seconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "GMT4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 228 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (seconds), LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "GMT_US" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 235 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (microseconds), MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "GMT5" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 244 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (microseconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "GMT6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 251 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (microseconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "GMT7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 258 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Huygens spacecraft event time (SCET) for this record, (microseconds), LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "VALID1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 265 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Valid data byte: 0 if valid, refer to GCMS Software User's Manual" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "VALID2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 274 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Valid data byte: 1 if valid, refer to GCMS Software User's Manual" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "TYPE" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 283 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Data source for this measurement: typ. 16 * (ion source number)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "SUBSWP" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 290 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Instrument operating mode indicator. Refer to the GCMS Software User's Manual for details." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "ABS_TIM2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 299 BYTES = 10 FORMAT = "I10" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time - byte 2." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "ABS_TIM3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 310 BYTES = 10 FORMAT = "I10" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time - byte 3." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "ABS_TIM1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 321 BYTES = 10 FORMAT = "I10" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time - byte 1." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "SCN_CNT" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 332 BYTES = 9 FORMAT = "I9" DESCRIPTION = "GCMS scan counter. Refer to the GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "START" UNIT = "DALTONS" DATA_TYPE = ASCII_INTEGER START_BYTE = 342 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Sweep START mass for this scan." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "END" UNIT = "DALTONS" DATA_TYPE = ASCII_INTEGER START_BYTE = 350 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sweep END mass for this scan." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "S1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 356 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 1. Raw count at (START) mass noted in column 37. ALWAYS INVALID." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "S2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 361 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 2. Repeat of sample 1 measurement at START mass." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "S3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 366 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 3. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "S4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 371 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 4. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "S5" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 376 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 5. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "S6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 381 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 6. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "S7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 386 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 7. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "S8" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 391 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 8. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "S9" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 396 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Sample 9. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "S10" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 401 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 10. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "S11" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 407 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 11. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "S12" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 413 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 12. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "S13" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 419 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 13. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "S14" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 425 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 14. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "S15" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 431 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 15. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "S16" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 437 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 16. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "S17" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 443 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 17. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "S18" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 449 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 18. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "S19" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 455 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 19. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "S20" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 461 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 20. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "S21" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 467 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 21. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "S22" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 473 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 22. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "S23" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 479 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 23. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "S24" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 485 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 24. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "S25" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 491 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 25. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "S26" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 497 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 26. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "S27" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 503 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 27. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "S28" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 509 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 28. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "S29" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 515 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 29. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "S30" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 521 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 30. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "S31" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 527 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 31. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "S32" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 533 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 32. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "S33" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 539 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 33. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "S34" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 545 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 34. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "S35" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 551 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 35. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "S36" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 557 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 36. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "S37" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 563 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 37. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "S38" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 569 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 38. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "S39" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 575 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 39. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "S40" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 581 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 40. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "S41" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 587 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 41. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "S42" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 593 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 42. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "S43" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 599 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 43. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "S44" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 605 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 44. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "S45" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 611 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 45. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "S46" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 617 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 46. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "S47" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 623 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 47. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "S48" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 629 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 48. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "S49" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 635 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 49. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "S50" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 641 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 50. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "S51" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 647 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 51. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "S52" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 653 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 52. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "S53" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 659 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 53. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "S54" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 665 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 54. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "S55" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 671 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 55. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "S56" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 677 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 56. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "S57" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 683 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 57. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "S58" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 689 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 58. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "S59" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 695 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 59. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "S60" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 701 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 60. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "S61" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 707 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 61. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "S62" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 713 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 62. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "S63" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 719 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 63. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "S64" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 725 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 64. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "S65" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 731 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 65. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "S66" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 737 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 66. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "S67" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 743 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 67. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "S68" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 749 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 68. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "S69" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 755 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 69. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "S70" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 761 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 70. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "S71" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 767 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 71. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "S72" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 773 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 72. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "S73" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 779 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 73. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "S74" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 785 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 74. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "S75" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 791 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 75. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "S76" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 797 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 76. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "S77" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 803 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 77. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "S78" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 809 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 78. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "S79" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 815 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 79. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "S80" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 821 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 80. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "S81" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 827 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 81. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "S82" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 833 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 82. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 121 NAME = "S83" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 839 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 83. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 122 NAME = "S84" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 845 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 84. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 123 NAME = "S85" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 851 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 85. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 124 NAME = "S86" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 857 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 86. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 125 NAME = "S87" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 863 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 87. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 126 NAME = "S88" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 869 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 88. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 127 NAME = "S89" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 875 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 89. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 128 NAME = "S90" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 881 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 90. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 129 NAME = "S91" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 887 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 91. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 130 NAME = "S92" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 893 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 92. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 131 NAME = "S93" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 899 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 93. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 132 NAME = "S94" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 905 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 94. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 133 NAME = "S95" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 911 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 95. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 134 NAME = "S96" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 917 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 96. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 135 NAME = "S97" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 923 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 97. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 136 NAME = "S98" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 929 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 98. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 137 NAME = "S99" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 935 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Sample 99. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 138 NAME = "S100" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 941 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 100. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 139 NAME = "S101" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 948 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 101. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 140 NAME = "S102" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 955 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 102. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 141 NAME = "S103" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 962 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 103. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 142 NAME = "S104" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 969 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 104. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 143 NAME = "S105" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 976 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 105. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 144 NAME = "S106" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 983 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 106. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 145 NAME = "S107" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 990 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 107. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 146 NAME = "S108" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 997 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 108. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 147 NAME = "S109" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1004 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 109. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 148 NAME = "S110" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1011 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 110. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 149 NAME = "S111" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1018 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 111. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 150 NAME = "S112" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1025 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 112. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 151 NAME = "S113" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1032 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 113. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 152 NAME = "S114" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1039 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 114. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 153 NAME = "S115" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1046 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 115. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 154 NAME = "S116" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1053 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 116. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 155 NAME = "S117" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1060 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 117. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 156 NAME = "S118" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1067 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 118. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 157 NAME = "S119" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1074 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 119. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 158 NAME = "S120" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1081 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 120. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 159 NAME = "S121" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1088 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 121. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 160 NAME = "S122" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1095 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 122. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 161 NAME = "S123" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1102 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 123. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 162 NAME = "S124" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1109 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 124. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 163 NAME = "S125" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1116 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 125. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 164 NAME = "S126" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1123 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 126. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 165 NAME = "S127" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1130 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 127. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 166 NAME = "S128" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1137 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 128. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 167 NAME = "S129" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1144 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 129. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 168 NAME = "S130" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1151 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 130. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 169 NAME = "S131" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1158 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 131. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 170 NAME = "S132" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1165 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 132. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 171 NAME = "S133" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1172 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 133. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 172 NAME = "S134" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1179 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 134. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 173 NAME = "S135" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1186 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 135. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 174 NAME = "S136" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1193 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 136. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 175 NAME = "S137" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1200 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 137. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 176 NAME = "S138" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1207 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 138. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 177 NAME = "S139" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1214 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 139. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 178 NAME = "S140" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1221 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 140. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 179 NAME = "S141" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1228 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 141. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 180 NAME = "S142" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1235 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Sample 142. Raw count at previous mass +1 (or +.125). Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 181 NAME = "T1A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1242 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 1, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 182 NAME = "T1B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1248 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 1, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 183 NAME = "T1C" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1254 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 1, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 184 NAME = "T2A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1260 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 2, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 185 NAME = "T2B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1266 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 2, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 186 NAME = "T2C" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1272 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 2, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 187 NAME = "T3A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1278 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 3, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 188 NAME = "T3B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1284 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 3, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 189 NAME = "T3C" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1290 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 3, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 190 NAME = "T4A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1296 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 4, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 191 NAME = "T4B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1302 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 4, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 192 NAME = "T4C" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1308 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 4, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 193 NAME = "T5A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1314 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 5, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 194 NAME = "T5B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1320 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 5, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 195 NAME = "T5C" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1326 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Total count, ion source 5, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 196 NAME = "SP1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1332 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 197 NAME = "SENS0A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1338 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 198 NAME = "SENS0B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1347 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 199 NAME = "SENS1A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1356 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 200 NAME = "SENS1B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1365 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 201 NAME = "SENS2A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1374 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 202 NAME = "SENS2B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1383 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 203 NAME = "SENS3A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1392 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 204 NAME = "SENS3B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1401 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 205 NAME = "SENS4A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1410 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 206 NAME = "SENS4B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1419 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 207 NAME = "SENS5A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1428 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 208 NAME = "SENS5B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1437 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 209 NAME = "SENS6A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1446 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 210 NAME = "SENS6B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1455 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 211 NAME = "SENS7A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1464 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 212 NAME = "SENS7B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1473 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 213 NAME = "SENS8A" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1482 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 214 NAME = "SENS8B" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1491 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Sample Sensitivity bits. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 215 NAME = "SENSTTL1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1500 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Sample Sensitivity bits for totals. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 216 NAME = "SENSTTL2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1511 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Sample Sensitivity bits for totals. Refer to GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 217 NAME = "METS" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1522 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (seconds) MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 218 NAME = "MET2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1529 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (seconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 219 NAME = "MET3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1536 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (seconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 220 NAME = "MET4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1543 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (seconds) LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 221 NAME = "METUS" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1550 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Mission Elapsed Time (microseconds) MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 222 NAME = "MET6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1558 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (microseconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 223 NAME = "MET7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1565 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (microseconds)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 224 NAME = "MET8" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1572 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Mission Elapsed Time (microseconds) LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 225 NAME = "SEQCNTR1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1579 BYTES = 10 FORMAT = "I10" DESCRIPTION = "GCMS instrument sequence counter MSB. Refer to GCMS Software User's Manual." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 226 NAME = "SEQCNTR2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1590 BYTES = 10 FORMAT = "I10" DESCRIPTION = "GCMS instrument sequence counter LSB. Refer to GCMS Software User's Manual." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 227 NAME = "SP2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1601 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 228 NAME = "SP3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1607 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 229 NAME = "SP4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1613 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 230 NAME = "SP5" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1619 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 231 NAME = "SP6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1625 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 232 NAME = "SP7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1631 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 233 NAME = "SP8" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1637 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 234 NAME = "SP9" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1643 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Unused" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 235 NAME = "ID" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1649 BYTES = 4 FORMAT = "I4" DESCRIPTION = "Processing program index indicating data type and stream." END_OBJECT = COLUMN 4.1.3 DATA LABEL - TOTAL ION COUNTS, STAGE 2 PROCESSING Each scan by the GCMS includes 3 measurements for each ion source (for a total of 15 samples) that represent the total signal for all masses. These totals have been extracted from the data stream, converted to counts/second and organized in this file. The data table GCMS_TOTALS_STG2.TAB contains n rows by 24 columns where n represents the number of scans and the 24 columns contain the data. The entries in columns 1 - 9 contain information extracted from the original "raw" data stream and converted to meaningful values. Columns 1 - 3 indicate the starting time for a scan, using different time scales. Columns 10 - 24 contain the total counts data converted to counts per second. File GCMS_TOTALS_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 293 FILE_RECORDS = 6806 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_TOTALS_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_TOTALS_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "DESCENT_GCMS_TOTALS_STG2" PRODUCT_NAME = "DESCENT_GCMS_ALL_SWEEP_TOTALS_STG2" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "DESCENT" /* FU_DESCENT */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2005-01-14T09:10:58.572 STOP_TIME = 2005-01-14T12:47:47.884 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument's absolute times */ SPACECRAFT_CLOCK_START_COUNT = 8391028 SPACECRAFT_CLOCK_STOP_COUNT = 9223624 /* (DDB + GCMS) clock time */ /* 1/64 second resolution. */ /* DDB clock is set to 0 at power on */ /* and reset to 0 at T0 (begin entry */ /* sequence). Post-T0 is indicated */ /* by adding 2^23 to the DDB clock value. */ NATIVE_START_TIME = 37.813 NATIVE_STOP_TIME = 13047.130 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so pre-T0 times may */ /* be in error by 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-15T14:14:40 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick-Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_DESCENT" /* DESCENT */ /* FU = Flown Unit, EU = Engineering Unit */ /* FS or SU = Spare (Lab, Backup) Unit */ /* DESCENT indicates Entry Condition */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 6806 COLUMNS = 24 ROW_BYTES = 293 DESCRIPTION = "Total counts monitored during mass sweeps for each active ion sources." OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_ABS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time or GCMS_GMT time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_TIME" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 25 BYTES = 10 FORMAT = "I10" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time. Value starts at zero at power on and is reset to zero at sequence start (T0). 2^23 is added to the value to indicate post T0 times. Each 'tic' represents 1/64 second." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "ABS_SEC" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 36 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Time relative to spacecraft T0 event. Negative times indicate pre-T0." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "GCMS_GMT" UNIT = "TIME" DATA_TYPE = ASCII_REAL START_BYTE = 46 BYTES = 12 FORMAT = "F12.3" DESCRIPTION = "Spacecraft Event Time (SCET) corresponding with this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "DATE" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 59 BYTES = 11 FORMAT = "A11" DESCRIPTION = "SCET Date (2005-01-14)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 71 BYTES = 14 FORMAT = "A14" DESCRIPTION = "SCET Time (hh:mm:ss.000)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "STREAM" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 86 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Indicates the telemetry stream (A or B) for this scan. ALWAYS B during descent." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "SEQ_CNTR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 95 BYTES = 10 FORMAT = "I10" DESCRIPTION = "GCMS counter. Refer to the GCMS Software User's Manual for information." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "TYPE" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 106 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Identifies GCMS sweep conditions for each sweep. Refer to the GCMS Software User's Manual." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "T1A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 113 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "T1B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 125 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "T1C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 137 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 1, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "T2A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 149 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "T2B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 161 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "T2C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 173 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 2, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "T3A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 185 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "T3B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 197 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "T3C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 209 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 3, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "T4A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 221 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "T4B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 233 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "T4C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 245 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 4, sample 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "T5A" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 257 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "T5B" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 269 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "T5C" UNIT = "COUNTS PER SECOND" DATA_TYPE = ASCII_REAL START_BYTE = 281 BYTES = 11 FORMAT = "F11.1" DESCRIPTION = "Total ion count, ion source 5, sample 3" END_OBJECT = COLUMN END_OBJECT = TABLE END 4.1.4 DATA LABEL - MEDIUM SPEED HOUSEKEEPING DATA, STAGE 2 The GCMS instrument's data system periodically updates and sends a "Medium Speed Housekeeping" data packet to the spacecraft's telemetry system. This data table, GCMS_HK_MS_STG2.TAB, consists of n rows by 39 columns. Where relevant the values are converted to 'real' measurement units in this file. Column 1 contains the time of the packet measurements in the standard 'UTC format'. File GCMS_HK_MS_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 397 FILE_RECORDS = 680 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_HK_MS_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_HK_MS_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "GCMS_HK_MS_STG2.TAB" PRODUCT_NAME = "GCMS_HK_MS_STG2.TAB" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "DESCENT" /* DESCENT */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2005-01-14T09:11:08.125 STOP_TIME = 2005-01-14T12:46:48.203 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument's absolute times */ SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "N/A" NATIVE_START_TIME = "N/A" NATIVE_STOP_TIME = "N/A" PRODUCT_CREATION_TIME = 2006-01-31T15:26:20 PRODUCER_ID ="GCMS_TEAM" PRODUCER_FULL_NAME = "ERIC RAAEN" /* & Jaime Demick-Montelara */ /* & John Haberman */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" INSTRUMENT_MODE_ID = "FU-DESCENT" /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 680 COLUMNS = 39 ROW_BYTES = 397 DESCRIPTION = "Medium Speed Stage 2 processed Housekeeping extracted from the Data Stream" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_STD" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_TIME" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 25 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "UTC_DATE" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 35 BYTES = 11 FORMAT = "A11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "UTC_TIME" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 47 BYTES = 9 FORMAT = "A9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "UTC_EPH_T" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 57 BYTES = 12 FORMAT = "F12.1" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "UTC_HOUR" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 70 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "UTC_MIN" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 80 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "UTC_SEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 89 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "UTC_MSEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 98 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "RECORD_SIZE" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 108 BYTES = 12 FORMAT = "I12" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "PKT_VALID" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 121 BYTES = 10 FORMAT = "I10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "SEQCNT" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 132 BYTES = 7 FORMAT = "I7" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "TIME_SECS" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 140 BYTES = 11 FORMAT = "I11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "TIME_USECS" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 152 BYTES = 11 FORMAT = "I11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "BEST_SECS" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 164 BYTES = 11 FORMAT = "I11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "BEST_MSEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 176 BYTES = 10 FORMAT = "I10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "APID" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 187 BYTES = 5 FORMAT = "I5" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "DESC_STAT" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 193 BYTES = 10 FORMAT = "I10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "ACTIVE_ICC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 204 BYTES = 11 FORMAT = "I11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "ICC_IDX" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 216 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "SUB_SYS" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 225 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "TYPE_HEADER" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 234 BYTES = 12 FORMAT = "I12" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "INDEX" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 247 BYTES = 6 FORMAT = "I6" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "IPMON6" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 254 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "IPMON5" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 262 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "IPMON2" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 270 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "IPMON1" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 278 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "IPMON3" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 286 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "IPMON4" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 294 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "BAMON" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 302 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "BAM_I" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 310 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "IPXLOSENS" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 318 BYTES = 10 FORMAT = "A10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "SQ_IPXHI" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 329 BYTES = 9 FORMAT = "A9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "IPYLOSENS" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 339 BYTES = 10 FORMAT = "A10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "SQ_IPYHI" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 350 BYTES = 9 FORMAT = "A9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "OVLPLO" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 360 BYTES = 7 FORMAT = "A7" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "SQ_OVLPHI" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 368 BYTES = 10 FORMAT = "F10.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "SPARE" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 379 BYTES = 8 FORMAT = "F8.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "OVLPIP" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 388 BYTES = 8 FORMAT = "F8.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN END_OBJECT = TABLE END 4.1.5 DATA LABEL - HIGH SPEED HOUSEKEEPING DATA, STAGE 2 The GCMS instrument's data system periodically updates and sends a "High Speed Housekeeping" data packet to the spacecraft's telemetry system. This data table, GCMS_HK_HS_STG2.TAB, consists of n rows by 103 columns. Where relevant the values are converted to 'real' measurement units in this file. Column 1 contains the time of the packet measurements in the standard 'UTC format'. File GCMS_HK_HS_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1129 FILE_RECORDS = 683 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_HK_HS_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_HK_HS_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "GCMS_HK_HS_STG2.TAB" PRODUCT_NAME = "GCMS_HK_HS_STG2.TAB" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "DESCENT" /* DESCENT */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2005-01-14T04:41:33.000 STOP_TIME = 2005-01-14T12:46:48.203 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument's absolute times */ SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "N/A" NATIVE_START_TIME = "N/A" NATIVE_STOP_TIME = "N/A" PRODUCT_CREATION_TIME = 2006-01-31T15:26:20 PRODUCER_ID ="GCMS_TEAM" PRODUCER_FULL_NAME = "ERIC RAAEN" /* & Jaime Demick-Montelara */ /* & John Haberman */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" INSTRUMENT_MODE_ID = "FU-DESCENT" /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 683 COLUMNS = 103 ROW_BYTES = 1129 DESCRIPTION = "High Speed Stage 2 processed Housekeeping extracted from the Data Stream" OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_STD" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_TIME" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 25 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "UTC_DATE" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 35 BYTES = 11 FORMAT = "A11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "UTC_TIME" UNIT = "UNK" DATA_TYPE = "CHARACTER" START_BYTE = 47 BYTES = 9 FORMAT = "A9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "UTC_EPH_T" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 57 BYTES = 12 FORMAT = "F12.1" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "BEST_SECS" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 70 BYTES = 11 FORMAT = "I11" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "BEST_MSEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 82 BYTES = 10 FORMAT = "I10" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "APID" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 93 BYTES = 5 FORMAT = "I5" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "INDEX" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 99 BYTES = 6 FORMAT = "I6" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "UTC_HOUR" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 106 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "UTC_MIN" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 116 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "UTC_SEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 125 BYTES = 8 FORMAT = "I8" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "UTC_MSEC" UNIT = "UNK" DATA_TYPE = "ASCII_INTEGER" START_BYTE = 134 BYTES = 9 FORMAT = "I9" DESCRIPTION = "UNK" 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"UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 1071 BYTES = 9 FORMAT = "F9.6" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "MULTANA1_10" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 1081 BYTES = 12 FORMAT = "F12.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "MULT1_10A" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 1094 BYTES = 10 FORMAT = "F10.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "MULTANA2_10" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 1105 BYTES = 12 FORMAT = "F12.4" DESCRIPTION = "UNK" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "MULT2_10A" UNIT = "UNK" DATA_TYPE = "ASCII_REAL" START_BYTE = 1118 BYTES = 10 FORMAT = "F10.5" DESCRIPTION = "UNK" END_OBJECT = COLUMN END_OBJECT = TABLE END 4.1.6 DATA LABEL - HOUSEKEEPING TYPE 2 DATA, STAGE 2 The GCMS instrument's data system periodically updates and sends, nominally every ~42 seconds, a "Housekeeping Type 2" data packet to the spacecraft's telemetry system. This data table, GCMS_HK_TYPE2_STG2.TAB, consists of n rows by 149 columns where columns 4 - 149 contain the data from the telemetry data packet. Where relevant the values are converted to 'real' measurement units in this file. Columns 1 - 3 contain the time of the packet measurements where each column expresses that time in a differing format. File GCMS_HK_TYPE2_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1407 FILE_RECORDS = 820 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_HK_TYPE2_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_HK_TYPE2_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F13_GCMS_HK_TYPE2_STG2" PRODUCT_NAME = "F13_GCMS_HK_TYPE2_STG2" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU_FCO1B */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2004-03-20T19:26:02.125 STOP_TIME = 2004-03-20T22:20:02.433 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument absolute times */ /* or */ /* when these data are not available */ /* the GCMS_GMT (telemetry packet) */ /* time is used. */ SPACECRAFT_CLOCK_START_COUNT = 0 SPACECRAFT_CLOCK_STOP_COUNT = 8925646 /* (DDB + GCMS) clock time */ /* 1/64 second resolution. */ /* DDB clock is set to 0 at power on */ /* and reset to 0 at T0 (begin entry */ /* sequence). Post-T0 is indicated */ /* by adding 2^23 to the DDB clock value. */ NATIVE_START_TIME = -2071.859 NATIVE_STOP_TIME = 8391.219 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so pre-T0 times may */ /* be in error by 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-15T16:23:03 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick-Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 /* DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_FCO1B" /* F13 */ /* FU = Flown Unit, EU = Engineering Unit */ /* FS = Flight Spare (Lab, Backup) Unit */ /* SU = Spare Unit (Lab, Backup) */ /* DESCENT indicates Entry Mission */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 820 COLUMNS = 156 ROW_BYTES = 1407 DESCRIPTION = "GCMS housekeeping type 2 values extracted from the data stream." OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time or GCMS_GMT time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_T" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 25 BYTES = 8 FORMAT = "I8" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time. Value starts at zero at power on and is reset to zero at sequence start (T0). 2^23 is added to the value to indicate post T0 times. Each 'tic' represents 1/64 second." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "SCNDS" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 34 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Time relative to spacecraft T0 event. Negative times indicate pre-T0." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "GCMS_GMT" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 45 BYTES = 12 FORMAT = "F12.3" DESCRIPTION = "Time stamp added when data packet is processed by spacecraft" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "DATE" UNIT = "DATE" DATA_TYPE = CHARACTER START_BYTE = 58 BYTES = 11 FORMAT = "A11" DESCRIPTION = "Data (yyyy-doy) part of GCMS_GMT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 70 BYTES = 14 FORMAT = "A14" DESCRIPTION = "Time (hh:mm:ss.000) part of GCMS_GMT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "STREAM" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 85 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Data Stream ID (A or B) extracted from telemetry data" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "SEQ_CNTR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 94 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Sequence Counter Value extracted from telemetry data" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "TYPE" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 105 BYTES = 6 FORMAT = "A6" DESCRIPTION = "Data Packet type (added by processing software)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "GMT_S" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 112 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 0 - GCMS GMT Seconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "GMT2" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 120 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 1 - GCMS GMT Seconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "GMT3" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 127 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 2 - GCMS GMT Seconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "GMT4" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 134 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 3 - GCMS GMT Seconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "GMT_US" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 141 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 4 - GCMS GMT microseconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "GMT5" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 150 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 5 - GCMS GMT microseconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "GMT6" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 157 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 6 - GCMS GMT microseconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "GMT7" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 164 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 7 - GCMS GMT microseconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "VALID1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 171 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 008 - Packet Valid MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "VALID2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 180 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 009 - Packet Valid LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "INDEX" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 189 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 010 - Commutator Index" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "SP1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 197 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 011 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "LOCALTIM1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 203 BYTES = 11 FORMAT = "I11" DESCRIPTION = "Telemetry Byte 012 - Local Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "LOCALTIM2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 215 BYTES = 11 FORMAT = "I11" DESCRIPTION = "Telemetry Byte 013 - Local Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "ANODE1A" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 227 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Telemetry Byte 014 - Anode 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "ANODE2A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 237 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 015 - Anode 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "EB4_2" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 247 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 016 - EB4_2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "EB4_1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 255 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 017 - EB4_1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "FILI1A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 263 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 018 - Filament 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "FILI2A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 272 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 019 - Filament 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "EMIS2A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 281 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 020 - Filament 2 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "EMIS1A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 290 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 021 - Filament 1 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "BIAS_A" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 299 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 022 - BIAS_A" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "BIAS1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 308 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 023 - BIAS1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "BIAS2" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 316 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 024 - BIAS2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "H2CYPPRS" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 324 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 025 - Hydrogen head pressure at GC columns" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "BIASM3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 335 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 026 - BIASM3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "FBSTRING" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 344 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 027 - BIASM2 (FB String Voltage)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "SP2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 355 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 028 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "BIASM1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 361 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 029 - BIASM1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "ANODE3A" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 370 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Telemetry Byte 030 - Anode 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "ANODE4A" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 380 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Telemetry Byte 031 - Anode 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "EB4_4" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 390 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 032 - EB4_4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "EB4_3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 398 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 033 - EB4_3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "FILI3A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 406 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 034 - Filament 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "FILI4A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 415 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 035 - Filament 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "EMIS4A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 424 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 036 - Filament 4 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "EMIS3A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 433 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 037 - Filament 3 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "BIAS_B" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 442 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 038 - BIAS_B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "BIAS3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 451 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 039 - BIAS3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "BIAS4" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 459 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 040 - BIAS4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "H2RESPRS" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 467 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 041 - Hydrogen storage reservoir pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "EMTEMP" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 478 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 042 - Electron Multiplier temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "BIAST" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 487 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 043 - BIAST" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "RFTMPR" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 496 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 044 - RF Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "REFV" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 505 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 045 - Reference Voltage" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "ANODE5A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 513 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 046 - Anode 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "ANODE6A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 523 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 047 - Anode 6 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "EB4_6" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 533 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 048 - EB4_6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "EB4_5" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 541 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 049 - EB4_5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "FILI5A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 549 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 050 - Filament 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "BACURNT" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 558 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 051 - Filament 6 (BA Gauge) current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "BAEMIS" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 568 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Telemetry Byte 052 - BA gauge emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "EMIS5A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 577 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 053 - Filament 5 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "BIAS_C" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 586 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 054 - BIAS_C" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "BIAS5" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 595 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 055 - BIAS5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "BIAS6" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 603 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 056 - BIAS6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "SHELLP" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 611 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 057 - GCMS Instrument Shell Pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "DDBT1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 620 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 058 - DDB Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "DDBT2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 628 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 059 - DDB Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "DDBA1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 636 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 060 - DDB Altitude MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "DDBA2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 644 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 061 - DDB Altitude LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "DECKT" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 652 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 062 - Instrument Deck Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "TRANST" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 661 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 063 - Transistor Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "THERMP" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 670 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 064 - THERMP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "THREFP" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 679 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 065 - THREFP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "TIS3INT" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 688 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 066 - TIS3INT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "TEMPH2" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 698 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 067 - Hydrogen reservoir temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "TSMPL" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 707 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 068 - Tsample" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "T_LVPS1" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 716 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 069 - T_LVPS1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "T_LVPS2" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 726 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 070 - T_LVPS2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "T_LVPS3" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 736 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 071 - T_LVPS3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "POS13_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 746 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 072 - Positive 13 volt monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "5R_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 758 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 073 - 5R_Mon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "5REF" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 767 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 074 - 5Ref" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "NEG5_7MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 775 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 075 - Negative 57 volt monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "CALMON" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 787 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 076 - CALMON" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "VH_INH" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 796 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 077 - Valves Inhibit (high = inhibit)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "T_GC1" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 805 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 078 - GC column 1 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "T_EC1" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 814 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 079 - Enrichment cell temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "T_EC2" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 823 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 080 - T_EC2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "T_ACP" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 832 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 081 - ACP sample transfer line tempreature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "T_GC2" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 841 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 082 - GC column 2 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "T_GC3" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 850 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 083 - GC column 3 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "T_INLT" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 859 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 084 - Atmosphere sample inlet line temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "ACP_PRS1" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 868 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 085 - ACP sample transfer line pressure monitor 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "ACP_PRS2" UNIT = "BARS" DATA_TYPE = CHARACTER START_BYTE = 879 BYTES = 10 FORMAT = "A10" DESCRIPTION = "Telemetry Byte 086 - ACP Pressure Monitor 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "TEMP_FC" UNIT = "DEGREE C" DATA_TYPE = ASCII_REAL START_BYTE = 890 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 087 - Flight Computer Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "5R_FC_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 900 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 088 - 5R_FC_MON" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "RF_MON" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 912 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 089 - RF Monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "EM1HV" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 921 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 090 - Electron Multiplier 1 high voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "EM2HV" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 929 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 091 - Electron Multiplier 2 high voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "VLVWD1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 937 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 092 - Valve Status MSB - (N/A, N/A, VL1, VD1, VAA, VS6, IVA, IV): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "VLVWD2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 946 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 093 - Valve Status byte 2 (VC3, VS3, VE, VS2, VS7, VD2, VL3, VS1): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "VLVWD3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 955 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 094 - Valve Status Byte 3 (VAB, VG3, VL2, VD4, VZ, VD3, VL4, VS5): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "VLVWD4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 964 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 095 - Valve Status LSB (VG, N/A, VC1, VD6, VC2, VG1, VV, VG2): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "VLVSST1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 973 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 096 - Valve Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "VLVSST2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 983 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 097 - Valve Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "VLVSST3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 993 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 098 - Valve Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "VLVSST4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1003 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 099 - Valve Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "FILIPS" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1013 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 100 - Filament and Ion Pump Status Word (IS1, IS2, IS3, IS4, IS5, BA, IP1, IP2): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "HTRS" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1022 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 101 - Heater Status Word (INLET, EC1, EC2, ACP, N/A, GC1, GC2, GC3): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "STATUS1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1029 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 102 - General Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "STATUS2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1039 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 103 - General Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "ERR_STAT1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1049 BYTES = 11 FORMAT = "I11" DESCRIPTION = "Telemetry Byte 104 - General Error Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "ERR_STAT2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1061 BYTES = 11 FORMAT = "I11" DESCRIPTION = "Telemetry Byte 105 - General Error Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "SUBMODE" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1073 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 106 - Latched Submode" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "ABS_TIM1" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 1083 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 107 - Absolute Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "ABS_TIM2" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 1094 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 108 - Absolute Time (mid byte)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "ABS_TIM3" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 1105 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 109 - Absolute Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "BA_EMIS1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1116 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 110 - BA Filament Emission MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 121 NAME = "BA_EMIS2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1127 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 111 - BA Filament Emission LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 122 NAME = "RF_MON1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1138 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 112 - RF Frequency Monitor MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 123 NAME = "RF_MON2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1148 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 113 - RF Frequency Monitor LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 124 NAME = "U_SEQ1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1158 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 114 - Microsequencer Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 125 NAME = "U_SEQ2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1167 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 115 - Microsequencer Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 126 NAME = "SP3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1176 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 116 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 127 NAME = "SP4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1182 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 117 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 128 NAME = "U_SEQC1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1188 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 118 - Microsequencer Scan Counter MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 129 NAME = "U_SEQC2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1198 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 119 - Microsequencer Scan Counter LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 130 NAME = "SP5" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1208 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 120 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 131 NAME = "SP6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1214 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 121 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 132 NAME = "MPHASE" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1220 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 122 - Mission Phase: 03=GCO, F3=FCO, 00=Descent" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 133 NAME = "MPHASEL" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1229 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 123 - Latched Mission Phase: F=Deactivate, C=Suspend" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 134 NAME = "ESW1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1239 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 124 - Experiment Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 135 NAME = "ESW2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1246 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 125 - Experiment Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 136 NAME = "SP7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1253 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 126 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 137 NAME = "SP8" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1259 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 127 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 138 NAME = "MET_S" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1265 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 128 - GCMS MET Seconds MSB ( MET = Mission Elapsed Time)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 139 NAME = "MET2" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1273 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 129 - GCMS MET Seconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 140 NAME = "MET3" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1280 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 130 - GCMS MET Seconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 141 NAME = "MET4" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1287 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 131 - GCMS MET Seconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 142 NAME = "MET_US" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1294 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 132 - GCMS MET microSeconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 143 NAME = "MET6" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1303 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 133 - GCMS MET microSeconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 144 NAME = "MET7" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1310 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 134 - GCMS MET microSeconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 145 NAME = "MET8" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1317 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 135 - GCMS MET microSeconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 146 NAME = "SEQCNTR1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1324 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 136 - Packet Sequence Count MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 147 NAME = "SEQCNTR2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1335 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 137 - Packet Sequence Count LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 148 NAME = "SP9" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1346 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 138 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 149 NAME = "SP10" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1352 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 139 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 150 NAME = "SP11" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1359 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 140 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 151 NAME = "SP12" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1366 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 141 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 152 NAME = "SP13" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1373 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 142 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 153 NAME = "SP14" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1380 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 143 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 154 NAME = "SP15" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1387 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 144 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 155 NAME = "SP16" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1394 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 145 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 156 NAME = "HK2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1401 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Channel Tracking Index (added by the processing software.)" END_OBJECT = COLUMN END_OBJECT = TABLE END 4.1.7 DATA LABEL - IDLE PACKET HOUSEKEEPING DATA, STAGE 2 The GCMS instrument's data system updates and maintains a special high speed housekeeping data, referred to as an "idle packet" that it inserts into the data system each time the spacecraft checks for data and none of the instrument's standard data packets (Type 1, Type 2, High Speed, Medium Speed, ... data packets) are available. This data table, GCMS_HK_IDLE_STG2.TAB, consists of n rows by 157 columns where columns 4 - 157 contain the data from the telemetry idle data packet. Where relevant the values are converted to 'real' measurement units in this file. Columns 1 - 3 contain the time of the idle packet measurements where each column expresses that time in a differing format. File GCMS_HK_IDLE_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1502 FILE_RECORDS = 29175 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_HK_IDLE_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_HK_IDLE_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F14_GCMS_HK_IDLE_STG2" PRODUCT_NAME = "F14_GCMS_HK_IDLE_STG2" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU_FCO2 */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2004-07-14T15:44:42.222 STOP_TIME = 2004-07-14T18:40:14.529 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* Derived by combining the T0 and */ /* the instrument absolute times */ /* or */ /* when these data are not available */ /* the GCMS_GMT (telemetry packet) */ /* time is used. */ SPACECRAFT_CLOCK_START_COUNT = 1159 SPACECRAFT_CLOCK_STOP_COUNT = 8926239 /* (DDB + GCMS) clock time */ /* 1/64 second resolution. */ /* DDB clock is set to 0 at power on */ /* and reset to 0 at T0 (begin entry */ /* sequence). Post-T0 is indicated */ /* by adding 2^23 to the DDB clock value. */ NATIVE_START_TIME = -2133.641 NATIVE_STOP_TIME = 8400.484 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so pre-T0 times may */ /* be in error by 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-15T16:05:54 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick-Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 /* DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_FCO2" /* F14 */ /* FU = Flown Unit, EU = Engineering Unit */ /* FS = Flight Spare (Lab, Backup) Unit */ /* SU = Spare Unit (Lab, Backup) */ /* DESCENT indicates Entry Mission */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 29175 COLUMNS = 164 ROW_BYTES = 1502 DESCRIPTION = "GCMS idle packet housekeeping values extracted from the data stream." OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time or GCMS_GMT time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_T" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 25 BYTES = 8 FORMAT = "I8" DESCRIPTION = "(Spacecraft DDB + GCMS clock) time. Value starts at zero at power on and is reset to zero at sequence start (T0). 2^23 is added to the value to indicate post T0 times. Each 'tic' represents 1/64 second." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "SCNDS" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 34 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Time relative to spacecraft T0 event. Negative times indicate pre-T0." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "GCMS_GMT" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 45 BYTES = 13 FORMAT = "F13.3" DESCRIPTION = "Time stamp added when data packet is processed by spacecraft" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "DATE" UNIT = "SECONDS" DATA_TYPE = CHARACTER START_BYTE = 59 BYTES = 11 FORMAT = "A11" DESCRIPTION = "Data (yyyy-doy) part of GCMS_GMT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "TIME" UNIT = "DATE" DATA_TYPE = CHARACTER START_BYTE = 71 BYTES = 14 FORMAT = "A14" DESCRIPTION = "Time (hh:mm:ss.000) part of GCMS_GMT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "STREAM" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 86 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Data Stream ID (A or B) extracted from telemetry data" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "SEQ_CNTR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 95 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Sequence Counter Value extracted from telemetry data" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "TYPE" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 106 BYTES = 6 FORMAT = "A6" DESCRIPTION = "Data Packet type (added by processing software)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "GMT_S" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 113 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 0 - GCMS GMT Seconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "GMT2" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 121 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 1 - GCMS GMT Seconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "GMT3" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 128 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 2 - GCMS GMT Seconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "GMT4" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 135 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 3 - GCMS GMT Seconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "GMT_US" UNIT = "MICORSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 142 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 4 - GCMS GMT microseconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "GMT5" UNIT = "MICORSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 151 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 5 - GCMS GMT microseconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "GMT6" UNIT = "MICORSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 158 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 6 - GCMS GMT microseconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "GMT7" UNIT = "MICORSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 165 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 7 - GCMS GMT microseconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "VALID1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 172 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 008 - Packet Valid MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "VALID2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 181 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 009 - Packet Valid LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "HDR" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 190 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 010 - Idle Packet Header" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "SP1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 196 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 011 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "LNGTH1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 202 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 012 - Idle Packet Length MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "LNGTH2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 211 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 013 - Idle Packet Length LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "SP2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 220 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 014 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "ABS_TIM1" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 226 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 015 - Absolute Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "ABS_TIM2" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 237 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 016 - Absolute Time (mid byte)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "ABS_TIM3" UNIT = "TIME" DATA_TYPE = ASCII_INTEGER START_BYTE = 248 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 017 - Absolute Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "ANODE1A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 259 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 018 - Anode 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "ANODE2A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 269 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 019 - Anode 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "EB4_2" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 279 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 020 - EB4_2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "EB4_1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 287 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 021 - EB4_1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "FILI1A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 295 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 022 - Filament 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "FILI2A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 304 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 023 - Filament 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "EMIS2A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 313 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 024 - Filament 2 Emission" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "EMIS1A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 322 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 025 - Filament 1 Emission" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "BIAS_A" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 331 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 026 - Bias_A" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "BIAS1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 340 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 027 - Bias1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "BIAS2" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 348 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 028 - Bias2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "H2CYPPRS" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 356 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 029 - Hydrogen 'head pressure' at GC columns" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "BIASM3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 367 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 030 - BiasM3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "FBSTRING" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 376 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 031 - BiasM2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "SP3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 387 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 032 - SpareMon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "BIASM1" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 393 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 033 - BiasM1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "ANODE3A" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 402 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Telemetry Byte 034 - Anode 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "ANODE4A" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 412 BYTES = 9 FORMAT = "A9" DESCRIPTION = "Telemetry Byte 035 - Anode 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "EB4_4" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 422 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 036 - EB4_4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "EB4_3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 430 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 037 - EB4_3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "FILI3A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 438 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 038 - Filament 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "FILI4A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 447 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 039 - Filament 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "EMIS4A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 456 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 040 - Emission 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "EMIS3A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 465 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 041 - Emission 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "BIAS_B" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 474 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 042 - Bias_B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "BIAS3" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 483 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 043 - Bias3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "BIAS4" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 491 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 044 - Bias4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "H2RESPRS" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 499 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 045 - Hydrogen Storage Reservoir Pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "EMTEMP" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 510 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 046 - Electron Multiplier Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "BIAST" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 519 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 047 - BiasT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "RFTMPR" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 528 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 048 - Temperature at RF circuit" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "REFV" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 537 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 049 - Reference Voltage" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "ANODE5A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 545 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 050 - Anode 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "ANODE6A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 555 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 051 - Anode 6 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "EB4_6" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 565 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 052 - EB4_6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "EB4_5" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 573 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 053 - EB4_5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "FILI5A" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 581 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 054 - Filament 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "BACURNT" UNIT = "AMP" DATA_TYPE = ASCII_REAL START_BYTE = 590 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 055 - BA Gauge current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "BAEMIS" UNIT = "MICROAMP" DATA_TYPE = CHARACTER START_BYTE = 600 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Telemetry Byte 056 - BA gauge emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "EMIS5A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 609 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 057 - Emission 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "BIAS_C" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 618 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 058 - Bias_C" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "BIAS5" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 627 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 059 - Bias_5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "BIAS6" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 635 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 060 - Bias_6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "SHELLP" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 643 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 061 - Shell Pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "UNUSED1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 652 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 062 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "UNUSED2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 662 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 063 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "UNUSED3" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 672 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 064 - Unused3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "UNUSED4" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 682 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 065 - Unused4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "NEG_30VL" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 692 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 066 - Negative 30 voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "POS_30VL" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 703 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 067 - Positive 30 voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "PMP6SWL" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 714 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 068 - Ion Pump 6 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "PMP5IS5" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 724 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 069 - Ion Pump 5 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "PMP2IS4" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 734 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 070 - Ion Pump 2 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "PMP1IS3" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 744 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 071 - Ion Pump 1 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "PMP3IS1" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 754 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 072 - Ion Pump 3 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "PMP4IS2" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 764 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 073 - Ion Pump 4 monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "BAMON" UNIT = "N/A" DATA_TYPE = CHARACTER START_BYTE = 774 BYTES = 8 FORMAT = "A8" DESCRIPTION = "Telemetry Byte 074 - BA gauge monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "DECKT" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 783 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 075 - Instrument deck temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "TRANST" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 792 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 076 - TransT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "THERMP" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 801 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 077 - ThermP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "THREFP" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 810 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 078 - ThrefP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "TIS3INT" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 819 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 079 - Tis3Int" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "TEMPH2" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 829 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 080 - Hydrogen storage reservoir temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "TSMPL" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 838 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 081 - Tsample" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "T_LVPS1" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 847 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 082 - T_LVPS1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "T_LVPS2" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 857 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 083 - T_LVPS2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "T_LVPS3" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 867 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 084 - T_LVPS3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "POS13_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 877 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 085 - Positive 13 voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "5R_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 889 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 086 - 5R_Mon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "5REF" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 898 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 087 - 5Ref" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "NEG5_7MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 906 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 088 - Negative 57 volt monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "CALMON" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 918 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 089 - CalMon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "VH_INH" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 927 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 090 - Valves inhibit (if voltage is high)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "T_GC1" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 936 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 091 - GC column 1 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "T_EC1" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 945 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 092 - Enrichment Cell temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "T_EC2" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 954 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 093 - T_EC2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "T_ACP" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 963 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 094 - ACP sample transfer line temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "T_GC2" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 972 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 095 - GC column 2 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "T_GC3" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 981 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 096 - GC column 3 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "T_INLT" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 990 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 097 - Sample Inlet Line Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "ACP_PRS1" UNIT = "BARS" DATA_TYPE = ASCII_REAL START_BYTE = 999 BYTES = 10 FORMAT = "F10.3" DESCRIPTION = "Telemetry Byte 098 - ACP sample transfer line pressure gauge 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "ACP_PRS2" UNIT = "BARS" DATA_TYPE = CHARACTER START_BYTE = 1010 BYTES = 10 FORMAT = "A10" DESCRIPTION = "Telemetry Byte 099 - ACP sample transfer line pressure gauge 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "TEMP_FC" UNIT = "DEG C" DATA_TYPE = ASCII_REAL START_BYTE = 1021 BYTES = 9 FORMAT = "F9.3" DESCRIPTION = "Telemetry Byte 100 - Flight Computer temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "IMON1" UNIT = "AMP" DATA_TYPE = CHARACTER START_BYTE = 1031 BYTES = 7 FORMAT = "A7" DESCRIPTION = "Telemetry Byte 101 - IMON1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "IMON2" UNIT = "AMP" DATA_TYPE = CHARACTER START_BYTE = 1039 BYTES = 7 FORMAT = "A7" DESCRIPTION = "Telemetry Byte 102 - IMON2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "MULTANA1A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 1047 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 103 - Multana1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "MULTANA2A" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 1059 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 104 - Multana2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "5R_FC_MON" UNIT = "VOLT" DATA_TYPE = ASCII_REAL START_BYTE = 1071 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 105 - 5R_FC_Mon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "RF_MON" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1083 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 106 - RF_Mon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "EM1HV" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 1092 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 107 - EM1_Mon (Multiplier 1 high voltage)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "EM2HV" UNIT = "MICROAMP" DATA_TYPE = ASCII_REAL START_BYTE = 1100 BYTES = 7 FORMAT = "F7.3" DESCRIPTION = "Telemetry Byte 108 - EM2_Mon (Multiplier 2 high voltage)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "SP4" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1108 BYTES = 8 FORMAT = "F8.3" DESCRIPTION = "Telemetry Byte 109 - ?" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "PRSR1_103" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1117 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 110 - Pres1_103" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 121 NAME = "PRSR2_119" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1129 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 111 - Pres2_119" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 122 NAME = "FILSTAT" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1141 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 112 - Filaments Status (IS1, IS2, IS3, IS4,IS5, BA, IP1, IP2): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 123 NAME = "HTRSTAT" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1151 BYTES = 9 FORMAT = "I9" DESCRIPTION = "Telemetry Byte 113 - Heaters Status (INLET, EC1, EC2, ACP, N/A, GC1, GC2, GC3): Bit assignments indicated (MSB, ..., LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 124 NAME = "LATCHSM1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1161 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 114 - LATSUBM (Latched Submodes MSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 125 NAME = "LATCHSM2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1172 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 115 - LATSUBM (Latched Submodes LSB)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 126 NAME = "ESW1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1183 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 116 - ESW MSB (Experiment Status Word)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 127 NAME = "ESW2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1190 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 117 - ESW LSB (Experiment Status Word)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 128 NAME = "COMINDX1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1197 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 118 - Index MSB (Commutator Index)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 129 NAME = "COMINDX2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1208 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 119 - Index LSB (Commutator Index)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 130 NAME = "DAC07" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1219 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 120 - DAC07" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 131 NAME = "DAC08" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1227 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 121 - DAC08" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 132 NAME = "DAC15" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1235 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 122 - DAC15" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 133 NAME = "DAC16" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1243 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 123 - DAC16" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 134 NAME = "EM1DAC" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1251 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 124 - DAC17 (EM1DAC)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 135 NAME = "EM2DAC" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1260 BYTES = 8 FORMAT = "I8" DESCRIPTION = "Telemetry Byte 125 - DAC18 (EM2DAC)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 136 NAME = "DAC19" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1269 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 126 - DAC19" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 137 NAME = "DAC20" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1277 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 127 - DAC20" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 138 NAME = "DAC21" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1285 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 128 - DAC21" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 139 NAME = "DAC22" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1293 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 129 - DAC22" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 140 NAME = "DAC23" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1301 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 130 - DAC23" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 141 NAME = "DAC24" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1309 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 131 - DAC24" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 142 NAME = "TGC1_10-2" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1317 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 132 - TGC1_10 (10-bit GC1 Temperature)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 143 NAME = "TGC1_10-2" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1329 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 133 - TGC1_10 (10-bit GC1 Temperature)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 144 NAME = "TGC2_10-1" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1341 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 134 - TGC2 _10(10-bit GC2 Temperature)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 145 NAME = "TGC2_10-2" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 1353 BYTES = 11 FORMAT = "F11.3" DESCRIPTION = "Telemetry Byte 135 - TGC2 _10(10-bit GC2 Temperature)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 146 NAME = "METS" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1365 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 136 - GCMS MET Seconds MSB (MET is Mission Elapsed Time)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 147 NAME = "MET2" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1372 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 137 - GCMS MET Seconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 148 NAME = "MET3" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1379 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 138 - GCMS MET Seconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 149 NAME = "MET4" UNIT = "SECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1386 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 139 - GCMS MET Seconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 150 NAME = "METUS" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1393 BYTES = 7 FORMAT = "I7" DESCRIPTION = "Telemetry Byte 140 - GCMS MET microSeconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 151 NAME = "MET6" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1401 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 141 - GCMS MET microSeconds - byte 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 152 NAME = "MET7" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1408 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 142 - GCMS MET microSeconds - byte 3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 153 NAME = "MET8" UNIT = "MICROSECONDS" DATA_TYPE = ASCII_INTEGER START_BYTE = 1415 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 143 - GCMS MET microSeconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 154 NAME = "SEQCNTR1" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1422 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 144 - Sequence Counter MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 155 NAME = "SEQCNTR2" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1433 BYTES = 10 FORMAT = "I10" DESCRIPTION = "Telemetry Byte 145 - Sequence Counter LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 156 NAME = "SP5" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1444 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 146 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 157 NAME = "SP6" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1450 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 147 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 158 NAME = "SP7" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1456 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 148 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 159 NAME = "SP8" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1462 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 149 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 160 NAME = "SP9" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1468 BYTES = 5 FORMAT = "I5" DESCRIPTION = "Telemetry Byte 150 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 161 NAME = "SP10" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1474 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 151 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 162 NAME = "SP11" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1481 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 152 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 163 NAME = "SP12" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1488 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 153 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 164 NAME = "LDLE" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1495 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Idle Packet Flag added by processing software" END_OBJECT = COLUMN END_OBJECT = TABLE END 4.1.8 DATA LABEL - RAW TELEMETRY FILE Each time the GCMS instrument is used with flight electronics a data file named o###sg__.1h_is created, where ### indicates a 3-digit number. The file available to us contains data relevant only to our (GCMS) instrument. The original files are in 'binary' (spacecraft telemetry) format using 138 (8-bit) byte records. The GCMS instrument's housekeeping and data records are of differing sizes and frequently span multiple spacecraft data records. This telemetry file has been converted to a comma delimited ASCII text file and renamed GCMS_TELEMETRY_STG1.CSV. The time recorded in telemetry bytes 1 - 6 has been converted to UTC format and added as column 1. The file is 139 columns by n rows. Row 1 contains the column labels (B0, B1, B2,...) where the numerical part of the label refers to the byte offset value within the data record for each of the 8-bit data bytes. With the information available from the Huygens Mission Interface Control Documentation and the GCMS Instrument Software User's Manual the user can use this file and reprocess the data as desired. File: GCMS_TELEMETRY_STG1.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = STREAM RECORD_BYTES = 863 /* Longest Record in the File */ FILE_RECORDS = 33350 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^SPREADSHEET = ("GCMS_TELEMETRY_STG1.CSV",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_TELEMETRY_STG1.CSV" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F15_GCMS_TELEMETRY_STG1" PRODUCT_NAME = "F15_GCMS_TELEMETRY_STG1" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU-FCO */ PRODUCT_TYPE = EDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2004-09-14T10:55:54.546 STOP_TIME = 2004-09-14T13:50:07.752 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* These values are obtained from the */ /* first six data bytes in this file. */ /* These are the time values associated */ /* with the raw telemetry data packets. */ SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "N/A" NATIVE_START_TIME = "N/A" NATIVE_STOP_TIME = "N/A" PRODUCT_CREATION_TIME = 2006-06-15T15:09:33 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU-FCO" /* F15 */ /* FU-FCO */ /* FU = Flown Unit, EU = Enigneering Unit */ /* FS or SU = Spare (Lab, Backup) Unit */ /* DESCENT indicates Entry Mission */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = SPREADSHEET INTERCHANGE_FORMAT = ASCII ROWS = 33350 ROW_BYTES = 991 /* Size of LONGEST possible row. */ FIELDS = 139 FIELD_DELIMITER = "COMMA" DESCRIPTION = "This file contains the raw telemetry data as delivered to us and before being processed. This data has been converted from binary to 8-bit ASCII TEXT values. The telemetry and GCMS data packet sizes are NOT the same. The time stamp on the telemetry packets is not the same as the time stamp on the GCMS data packets." OBJECT = FIELD NAME = "UTC" FIELD_NUMBER = 1 UNIT = "N/A" DATA_TYPE = TIME BYTES = 23 DESCRIPTION = "Telemetry Packet's UTC Time Stamp calculated from bytes 1 - 6. Refer to data system documentation for details." END_OBJECT = FIELD OBJECT = FIELD NAME = "B0" FIELD_NUMBER = 2 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 1" END_OBJECT = FIELD OBJECT = FIELD NAME = "B1" FIELD_NUMBER = 3 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 2" END_OBJECT = FIELD OBJECT = FIELD NAME = "B2" FIELD_NUMBER = 4 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 3" END_OBJECT = FIELD OBJECT = FIELD NAME = "B3" FIELD_NUMBER = 5 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 4" END_OBJECT = FIELD OBJECT = FIELD NAME = "B4" FIELD_NUMBER = 6 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 5" END_OBJECT = FIELD OBJECT = FIELD NAME = "B5" FIELD_NUMBER = 7 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 6" END_OBJECT = FIELD OBJECT = FIELD NAME = "B6" FIELD_NUMBER = 8 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 7" END_OBJECT = FIELD OBJECT = FIELD NAME = "B7" FIELD_NUMBER = 9 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 8" END_OBJECT = FIELD OBJECT = FIELD NAME = "B8" FIELD_NUMBER = 10 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 9" END_OBJECT = FIELD OBJECT = FIELD NAME = "B9" FIELD_NUMBER = 11 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 10" END_OBJECT = FIELD OBJECT = FIELD NAME = "B10" FIELD_NUMBER = 12 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 11" END_OBJECT = FIELD OBJECT = FIELD NAME = "B11" FIELD_NUMBER = 13 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 12" END_OBJECT = FIELD OBJECT = FIELD NAME = "B12" FIELD_NUMBER = 14 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 13" END_OBJECT = FIELD OBJECT = FIELD NAME = "B13" FIELD_NUMBER = 15 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 14" END_OBJECT = FIELD OBJECT = FIELD NAME = "B14" FIELD_NUMBER = 16 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 15" END_OBJECT = FIELD OBJECT = FIELD NAME = "B15" FIELD_NUMBER = 17 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 16" END_OBJECT = FIELD OBJECT = FIELD NAME = "B16" FIELD_NUMBER = 18 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 17" END_OBJECT = FIELD OBJECT = FIELD NAME = "B17" FIELD_NUMBER = 19 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 18" END_OBJECT = FIELD OBJECT = FIELD NAME = "B18" FIELD_NUMBER = 20 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 19" END_OBJECT = FIELD OBJECT = FIELD NAME = "B19" FIELD_NUMBER = 21 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 20" END_OBJECT = FIELD OBJECT = FIELD NAME = "B20" FIELD_NUMBER = 22 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 21" END_OBJECT = FIELD OBJECT = FIELD NAME = "B21" FIELD_NUMBER = 23 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 22" END_OBJECT = FIELD OBJECT = FIELD NAME = "B22" FIELD_NUMBER = 24 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 23" END_OBJECT = FIELD OBJECT = FIELD NAME = "B23" FIELD_NUMBER = 25 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 24" END_OBJECT = FIELD OBJECT = FIELD NAME = "B24" FIELD_NUMBER = 26 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 25" END_OBJECT = FIELD OBJECT = FIELD NAME = "B25" FIELD_NUMBER = 27 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 26" END_OBJECT = FIELD OBJECT = FIELD NAME = "B26" FIELD_NUMBER = 28 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 27" END_OBJECT = FIELD OBJECT = FIELD NAME = "B27" FIELD_NUMBER = 29 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 28" END_OBJECT = FIELD OBJECT = FIELD NAME = "B28" FIELD_NUMBER = 30 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 29" END_OBJECT = FIELD OBJECT = FIELD NAME = "B29" FIELD_NUMBER = 31 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 30" END_OBJECT = FIELD OBJECT = FIELD NAME = "B30" FIELD_NUMBER = 32 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 31" END_OBJECT = FIELD OBJECT = FIELD NAME = "B31" FIELD_NUMBER = 33 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 32" END_OBJECT = FIELD OBJECT = FIELD NAME = "B32" FIELD_NUMBER = 34 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 33" END_OBJECT = FIELD OBJECT = FIELD NAME = "B33" FIELD_NUMBER = 35 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 34" END_OBJECT = FIELD OBJECT = FIELD NAME = "B34" FIELD_NUMBER = 36 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 35" END_OBJECT = FIELD OBJECT = FIELD NAME = "B35" FIELD_NUMBER = 37 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 36" END_OBJECT = FIELD OBJECT = FIELD NAME = "B36" FIELD_NUMBER = 38 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 37" END_OBJECT = FIELD OBJECT = FIELD NAME = "B37" FIELD_NUMBER = 39 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 38" END_OBJECT = FIELD OBJECT = FIELD NAME = "B38" FIELD_NUMBER = 40 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 39" END_OBJECT = FIELD OBJECT = FIELD NAME = "B39" FIELD_NUMBER = 41 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 40" END_OBJECT = FIELD OBJECT = FIELD NAME = "B40" FIELD_NUMBER = 42 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 41" END_OBJECT = FIELD OBJECT = FIELD NAME = "B41" FIELD_NUMBER = 43 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 42" END_OBJECT = FIELD OBJECT = FIELD NAME = "B42" FIELD_NUMBER = 44 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 43" END_OBJECT = FIELD OBJECT = FIELD NAME = "B43" FIELD_NUMBER = 45 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 44" END_OBJECT = FIELD OBJECT = FIELD NAME = "B44" FIELD_NUMBER = 46 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 45" END_OBJECT = FIELD OBJECT = FIELD NAME = "B45" FIELD_NUMBER = 47 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 46" END_OBJECT = FIELD OBJECT = FIELD NAME = "B46" FIELD_NUMBER = 48 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 47" END_OBJECT = FIELD OBJECT = FIELD NAME = "B47" FIELD_NUMBER = 49 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 48" END_OBJECT = FIELD OBJECT = FIELD NAME = "B48" FIELD_NUMBER = 50 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 49" END_OBJECT = FIELD OBJECT = FIELD NAME = "B49" FIELD_NUMBER = 51 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 50" END_OBJECT = FIELD OBJECT = FIELD NAME = "B50" FIELD_NUMBER = 52 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 51" END_OBJECT = FIELD OBJECT = FIELD NAME = "B51" FIELD_NUMBER = 53 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 52" END_OBJECT = FIELD OBJECT = FIELD NAME = "B52" FIELD_NUMBER = 54 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 53" END_OBJECT = FIELD OBJECT = FIELD NAME = "B53" FIELD_NUMBER = 55 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 54" END_OBJECT = FIELD OBJECT = FIELD NAME = "B54" FIELD_NUMBER = 56 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 55" END_OBJECT = FIELD OBJECT = FIELD NAME = "B55" FIELD_NUMBER = 57 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 56" END_OBJECT = FIELD OBJECT = FIELD NAME = "B56" FIELD_NUMBER = 58 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 57" END_OBJECT = FIELD OBJECT = FIELD NAME = "B57" FIELD_NUMBER = 59 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 58" END_OBJECT = FIELD OBJECT = FIELD NAME = "B58" FIELD_NUMBER = 60 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 59" END_OBJECT = FIELD OBJECT = FIELD NAME = "B59" FIELD_NUMBER = 61 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 60" END_OBJECT = FIELD OBJECT = FIELD NAME = "B60" FIELD_NUMBER = 62 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 61" END_OBJECT = FIELD OBJECT = FIELD NAME = "B61" FIELD_NUMBER = 63 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 62" END_OBJECT = FIELD OBJECT = FIELD NAME = "B62" FIELD_NUMBER = 64 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 63" END_OBJECT = FIELD OBJECT = FIELD NAME = "B63" FIELD_NUMBER = 65 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 64" END_OBJECT = FIELD OBJECT = FIELD NAME = "B64" FIELD_NUMBER = 66 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 65" END_OBJECT = FIELD OBJECT = FIELD NAME = "B65" FIELD_NUMBER = 67 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 66" END_OBJECT = FIELD OBJECT = FIELD NAME = "B66" FIELD_NUMBER = 68 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 67" END_OBJECT = FIELD OBJECT = FIELD NAME = "B67" FIELD_NUMBER = 69 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 68" END_OBJECT = FIELD OBJECT = FIELD NAME = "B68" FIELD_NUMBER = 70 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 69" END_OBJECT = FIELD OBJECT = FIELD NAME = "B69" FIELD_NUMBER = 71 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 70" END_OBJECT = FIELD OBJECT = FIELD NAME = "B70" FIELD_NUMBER = 72 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 71" END_OBJECT = FIELD OBJECT = FIELD NAME = "B71" FIELD_NUMBER = 73 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 72" END_OBJECT = FIELD OBJECT = FIELD NAME = "B72" FIELD_NUMBER = 74 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 73" END_OBJECT = FIELD OBJECT = FIELD NAME = "B73" FIELD_NUMBER = 75 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 74" END_OBJECT = FIELD OBJECT = FIELD NAME = "B74" FIELD_NUMBER = 76 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 75" END_OBJECT = FIELD OBJECT = FIELD NAME = "B75" FIELD_NUMBER = 77 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 76" END_OBJECT = FIELD OBJECT = FIELD NAME = "B76" FIELD_NUMBER = 78 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 77" END_OBJECT = FIELD OBJECT = FIELD NAME = "B77" FIELD_NUMBER = 79 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 78" END_OBJECT = FIELD OBJECT = FIELD NAME = "B78" FIELD_NUMBER = 80 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 79" END_OBJECT = FIELD OBJECT = FIELD NAME = "B79" FIELD_NUMBER = 81 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 80" END_OBJECT = FIELD OBJECT = FIELD NAME = "B80" FIELD_NUMBER = 82 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 81" END_OBJECT = FIELD OBJECT = FIELD NAME = "B81" FIELD_NUMBER = 83 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 82" END_OBJECT = FIELD OBJECT = FIELD NAME = "B82" FIELD_NUMBER = 84 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 83" END_OBJECT = FIELD OBJECT = FIELD NAME = "B83" FIELD_NUMBER = 85 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 84" END_OBJECT = FIELD OBJECT = FIELD NAME = "B84" FIELD_NUMBER = 86 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 85" END_OBJECT = FIELD OBJECT = FIELD NAME = "B85" FIELD_NUMBER = 87 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 86" END_OBJECT = FIELD OBJECT = FIELD NAME = "B86" FIELD_NUMBER = 88 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 87" END_OBJECT = FIELD OBJECT = FIELD NAME = "B87" FIELD_NUMBER = 89 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 88" END_OBJECT = FIELD OBJECT = FIELD NAME = "B88" FIELD_NUMBER = 90 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 89" END_OBJECT = FIELD OBJECT = FIELD NAME = "B89" FIELD_NUMBER = 91 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 90" END_OBJECT = FIELD OBJECT = FIELD NAME = "B90" FIELD_NUMBER = 92 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 91" END_OBJECT = FIELD OBJECT = FIELD NAME = "B91" FIELD_NUMBER = 93 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 92" END_OBJECT = FIELD OBJECT = FIELD NAME = "B92" FIELD_NUMBER = 94 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 93" END_OBJECT = FIELD OBJECT = FIELD NAME = "B93" FIELD_NUMBER = 95 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 94" END_OBJECT = FIELD OBJECT = FIELD NAME = "B94" FIELD_NUMBER = 96 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 95" END_OBJECT = FIELD OBJECT = FIELD NAME = "B95" FIELD_NUMBER = 97 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 96" END_OBJECT = FIELD OBJECT = FIELD NAME = "B96" FIELD_NUMBER = 98 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 97" END_OBJECT = FIELD OBJECT = FIELD NAME = "B97" FIELD_NUMBER = 99 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 98" END_OBJECT = FIELD OBJECT = FIELD NAME = "B98" FIELD_NUMBER = 100 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 99" END_OBJECT = FIELD OBJECT = FIELD NAME = "B99" FIELD_NUMBER = 101 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 100" END_OBJECT = FIELD OBJECT = FIELD NAME = "B100" FIELD_NUMBER = 102 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 101" END_OBJECT = FIELD OBJECT = FIELD NAME = "B101" FIELD_NUMBER = 103 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 102" END_OBJECT = FIELD OBJECT = FIELD NAME = "B102" FIELD_NUMBER = 104 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 103" END_OBJECT = FIELD OBJECT = FIELD NAME = "B103" FIELD_NUMBER = 105 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 104" END_OBJECT = FIELD OBJECT = FIELD NAME = "B104" FIELD_NUMBER = 106 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 105" END_OBJECT = FIELD OBJECT = FIELD NAME = "B105" FIELD_NUMBER = 107 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 106" END_OBJECT = FIELD OBJECT = FIELD NAME = "B106" FIELD_NUMBER = 108 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 107" END_OBJECT = FIELD OBJECT = FIELD NAME = "B107" FIELD_NUMBER = 109 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 108" END_OBJECT = FIELD OBJECT = FIELD NAME = "B108" FIELD_NUMBER = 110 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 109" END_OBJECT = FIELD OBJECT = FIELD NAME = "B109" FIELD_NUMBER = 111 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 110" END_OBJECT = FIELD OBJECT = FIELD NAME = "B110" FIELD_NUMBER = 112 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 111" END_OBJECT = FIELD OBJECT = FIELD NAME = "B111" FIELD_NUMBER = 113 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 112" END_OBJECT = FIELD OBJECT = FIELD NAME = "B112" FIELD_NUMBER = 114 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 113" END_OBJECT = FIELD OBJECT = FIELD NAME = "B113" FIELD_NUMBER = 115 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 114" END_OBJECT = FIELD OBJECT = FIELD NAME = "B114" FIELD_NUMBER = 116 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 115" END_OBJECT = FIELD OBJECT = FIELD NAME = "B115" FIELD_NUMBER = 117 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 116" END_OBJECT = FIELD OBJECT = FIELD NAME = "B116" FIELD_NUMBER = 118 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 117" END_OBJECT = FIELD OBJECT = FIELD NAME = "B117" FIELD_NUMBER = 119 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 118" END_OBJECT = FIELD OBJECT = FIELD NAME = "B118" FIELD_NUMBER = 120 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 119" END_OBJECT = FIELD OBJECT = FIELD NAME = "B119" FIELD_NUMBER = 121 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 120" END_OBJECT = FIELD OBJECT = FIELD NAME = "B120" FIELD_NUMBER = 122 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 121" END_OBJECT = FIELD OBJECT = FIELD NAME = "B121" FIELD_NUMBER = 123 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 122" END_OBJECT = FIELD OBJECT = FIELD NAME = "B122" FIELD_NUMBER = 124 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 123" END_OBJECT = FIELD OBJECT = FIELD NAME = "B123" FIELD_NUMBER = 125 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 124" END_OBJECT = FIELD OBJECT = FIELD NAME = "B124" FIELD_NUMBER = 126 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 125" END_OBJECT = FIELD OBJECT = FIELD NAME = "B125" FIELD_NUMBER = 127 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 126" END_OBJECT = FIELD OBJECT = FIELD NAME = "B126" FIELD_NUMBER = 128 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 127" END_OBJECT = FIELD OBJECT = FIELD NAME = "B127" FIELD_NUMBER = 129 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 128" END_OBJECT = FIELD OBJECT = FIELD NAME = "B128" FIELD_NUMBER = 130 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 129" END_OBJECT = FIELD OBJECT = FIELD NAME = "B129" FIELD_NUMBER = 131 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 130" END_OBJECT = FIELD OBJECT = FIELD NAME = "B130" FIELD_NUMBER = 132 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 131" END_OBJECT = FIELD OBJECT = FIELD NAME = "B131" FIELD_NUMBER = 133 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 132" END_OBJECT = FIELD OBJECT = FIELD NAME = "B132" FIELD_NUMBER = 134 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 133" END_OBJECT = FIELD OBJECT = FIELD NAME = "B133" FIELD_NUMBER = 135 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 134" END_OBJECT = FIELD OBJECT = FIELD NAME = "B134" FIELD_NUMBER = 136 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 135" END_OBJECT = FIELD OBJECT = FIELD NAME = "B135" FIELD_NUMBER = 137 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 136" END_OBJECT = FIELD OBJECT = FIELD NAME = "B136" FIELD_NUMBER = 138 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 137" END_OBJECT = FIELD OBJECT = FIELD NAME = "B137" FIELD_NUMBER = 139 UNIT = "N/A" DATA_TYPE = ASCII_INTEGER BYTES = 5 DESCRIPTION = "Telemetry File Data Byte 138" END_OBJECT = FIELD END_OBJECT = SPREADSHEET END 4.1.9 DATA LABEL - STAGE 1 PROCESSED DATA The telemetry file delivered contains serially packed records with mass sweep data and up to 8 types of instrument housekeeping packets (high, medium, acknowledge, not acknowledge, idle, software, type 1 or type 2.) Each of these packets is sized differently. Note that the GCMS data packet sizes are not the same as the record sizes used with the telemetery data. The software needed to reconstruct the instrument's data records was originally developed on a SUN workstation as that was the only computer powerful enough for this task when this mission started. The workstation created a series of "meta-files" where each of these files contains the data for one type of housekeeping and for one of the data streams (the spacecraft used 2 data systems and sequential GCMS data packet were alternately sent on each telemetry channel.) Table 7 presents a listing of the "meta-files" created on the workstation with comments regarding the content of the file, the name of the data set after it's conversion to ASCII text format and the number of columns in that ASCII data set. All of the files may not be present in or relevant to any single data set. These are the files used to evaluate the GCMS instrument's health during cruise (October 1997 - December 2004). The package of standard data plots, refer to Diagram 1, generated by the workstation software and used to evaluate the GCMS instrument's health are available as PDF files and are located in the /EXTRAS/ subdirectory of this data archive. Table 7. Sun Workstation and Archived Stage 1 File Name Relationship ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ Workstation Comments (*.archive) -------------------------------------------------------- File Name Columns ASCII Text File Name (*.TAB) ------------------------------------------------------------------------------ Binary stream with all channel A data gcmsbinA 181 GCMS_ALL_A_STG1.TAB ------------------------------------------------------------------------------ Binary stream with all channel B data gcmsbinB 181 GCMS_ALL_B_STG1.TAB ------------------------------------------------------------------------------ Command ACKnowledge responses on channel A gcmsackA 36 GCMS_HK_A_ACK_STG1.TAB ------------------------------------------------------------------------------ Command ACKnowledge responses on channel B gcmaackB 36 GCMS_HK_B_ACK_STG1.TAB ------------------------------------------------------------------------------ Command Not-ACKnowledge responses on channel A gcmsnackA 36 Included in GCMS_HK_A_ACK_STG1.TAB ------------------------------------------------------------------------------ Command Not-ACKnowledge responses on channel B gcmsnackB 36 Included in GCMS_HK_B_ACK_STG1.TAB ------------------------------------------------------------------------------ High Speed Housekeeping in channel A gcmshkhsA 94 GCMS_HK_A_HS_STG1.TAB ------------------------------------------------------------------------------ High Speed Housekeeping in channel B gcmshkhsB 94 GCMS_HK_B_HS_STG1.TAB ------------------------------------------------------------------------------ Medium Speed Housekeeping in channel A gcmshkmsA 50 GCMS_HK_A_MS_STG1.TAB ------------------------------------------------------------------------------ Medium Speed Housekeeping in channel B gcmshkmsB 50 GCMS_HK_B_MS_STG1.TAB ------------------------------------------------------------------------------ Software Status data on channel A gcmshksA 64 GCMS_HK_A_SOFTWARE_STG1.TAB ------------------------------------------------------------------------------ Software Status data on channel B gcmshksB 64 GCMS_HK_A_SOFTWARE_STG1.TAB ------------------------------------------------------------------------------ Housekeeping Type 1 on channel A gcmshkIA 34 GCMS_HK_A_TYPE1_STG1.TAB ------------------------------------------------------------------------------ Housekeeping Type 1 on channel B gcmshkIB 34 GCMS_HK_B_TYPE1_STG1.TAB ------------------------------------------------------------------------------ Housekeeping Type 2 on channel A gcmshkIIA 148 GCMS_HK_A_TYPE2_STG1.TAB ------------------------------------------------------------------------------ Housekeeping Type 2 on channel B gcmshkIIB 148 GCMS_HK_B_TYPE2_STG1.TAB ------------------------------------------------------------------------------ IDLE packet Housekeeping on channel A gcmsidleA 156 GCMS_HK_A_IDLE_STG1.TAB ------------------------------------------------------------------------------ IDLE packet Housekeeping on channel B gcmsidleB 156 GCMS_HK_A_IDLE_STG1.TAB ------------------------------------------------------------------------------ Mass Sweep data on channel A gcmsswpA 216 GCMS_SWEEPS_A_STG1.TAB ------------------------------------------------------------------------------ Mass Sweep data on channel B gcmsswpB 216 GCMS_SWEEPS_B_STG1.TAB ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ More information about each data set type follows. Except for the number of columns, all data sets are structured identically. Column 1 contains the TIME in the standard UTC format. Column 2 contains the Mission Elapsed Time. Columns 3 - nnn contain the data from the original "archive" file as 8-bit numbers in ASCII text format. The example presented in this document is the LABEL file and associated FORMAT file for the Housekeeping Type 2 data set. Data Label - All Raw Data, Stage 1 Each table contains all of the telemetry data for the GCMS instrument from one of the (two) channels of the telemetry data system.. Each table is n rows by 181 columns. Columns 1 and 2 contain the time information for each record. These times have been extracted from the 'raw' data. Columns 3 - 181 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Acknowledge and Not-Acknowledge Raw Data, Stage 1 The GCMS instrument's design allowed for the updating of it's operations using command sequences uploaded to the instrument from the Huygens spacecraft. The receipt of each command is acknowledged with either an 'acknowledge' response if the command sequence is recognized or a 'not-acknowledge' response if the command sequence is not understood. The data system allowed for the storage and return of up to 100 of each command. Each table is n rows by 36 columns. Columns 1 and 2 contain the time information for each record. These times have been extracted from the 'raw' data. Columns 3 - 36 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Type 1 Raw Data, Stage 1 Every sample scan also contained selected instrument status (housekeeping) data that we refer to as Housekeeping Type 1 data. This data has been extracted from the telemetry and organized into a table file for each data stream. Each table is n rows by 34 columns. Columns 1 and 2 contain the time information for each record. These times have been extracted from the 'raw' data. Columns 3 - 34 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Type 2 Raw Data, Stage 1 GCMS instrument condition and status data (voltages, currents, temperature, pressure, heater and valve position status data, etc.) is continually collected and updated and periodically, ~40 seconds, inserted into the telemetry stream as a Housekeeping Type 2 data packet. This data is considered to be so important that it is redundantly sent on both the A and B data channels. Each table file consists of n rows by 148 columns of information. Columns 1 and 2 contain the time information extracted from the data packet for the data packet. Columns 3 - 148 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Idle Packet Raw Data, Stage 1 The GCMS instrument's data system updates and maintains a special housekeeping data packet, referred to as an "idle packet" that it inserts into the data system each time the spacecraft checks for data and none of the instrument's standard data packets (Type 1, Type 2, High Speed, Medium Speed, ... data packets) are available. Each table file consists of n rows by 156 columns of information. Columns 1 and 2 contain the time information extracted from the data packet for the data packet. Columns 3 - 156 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping High Speed Raw Data, Stage 1 The GCMS instrument's data system periodically updates and sends a "High Speed Housekeeping" data packet to the spacecraft's telemetry system. Each table file consists of n rows by 94 columns of information. Columns 1 and 2 contain the time information extracted from the data packet for the data packet. Columns 3 - 94 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Medium Speed Raw Data, Stage 1 The GCMS instrument's data system periodically updates and sends a "Medium Speed Housekeeping" data packet to the spacecraft's telemetry system. Each table file consists of n rows by 50 columns of information. Columns 1 and 2 contain the time information extracted from the data packet for the data packet. Columns 3 - 50 contain the 'raw' telemetry converted from binary format to 8-bit numbers. Data Label - Housekeeping Instrument Software Status Raw Data, Stage 1 The first data sent to the telemetry system following the application of power to the GCMS instrument is a single data packet containing the status information of the GMCS microprocessor and associated software. File GCMS_HK_B_TYPE2_STG1.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 1061 FILE_RECORDS = 442 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_HK_B_TYPE2_STG1.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_HK_B_TYPE2_STG1.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "F16_GCMS_HK_B_TYPE2_STG1" PRODUCT_NAME = "F16_GCMS_HK_TYPE2_B-STREAM_STG1" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "CRUISE" /* FU_FCO1B */ PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2004-328T06:25:54.987 STOP_TIME = 2004-328T09:19:59.016 /* UTC e.g. 2005-01-14T00:00:00.000 */ /* or 2005-014T00:00:00.000 */ /* This value is referred to as the */ /* GCMS_GMT time and is the timestamp */ /* added to the spacecraft telemetry */ /* packet */ SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "N/A" /* The DDB clock time is not available */ /* for all data streams extracted from */ /* the raw telemetry. The DDB time can */ /* be calculated by comparing the MET */ /* time with the T0 event time. */ NATIVE_START_TIME = -2078.062500 NATIVE_STOP_TIME = 8391.250000 /* Elapsed Time in seconds. */ /* a.k.a. Mission Elapsed Time (MET) */ /* Negative values indicate pre-T0 */ /* No data is available immediately */ /* prior to T0 so the error in these */ /* times may be 5-7 seconds. */ /* Positive values indicate post-T0 */ PRODUCT_CREATION_TIME = 2006-06-15T14:35:19 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JOHN HABERMAN" /* & Jaime Demick Montelara */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" /* Stage 1 Data must be converted to c/s */ /* Stage 2 Data has been converted to c/s */ /* but MAY NOT be fully corrected for */ /* the counter overflow condition. This */ /* data has NOT yet been fully corrected */ /* for pulse counting system effects */ /* including pulse coincidence effects */ /* and system (electronics) effects. */ /* Stage 3 Data has been converted to c/s */ /* and fully corrected by the team using */ /* pre- and post-launch instrument */ /* calibration data. */ INSTRUMENT_MODE_ID = "FU_FCO1B" /* F16 */ /* Actually: FU_FCO1B */ /* FU = Flown Unit, EU = Enigneering Unit */ /* FS or SU = Spare (Lab, Backup) Unit */ /* DESCENT indicates Entry Condition */ /* FCO indicates Flight Check Out */ /* GCO indicates Ground Check Out */ /* FCO1/GCO1 = Checkout Type 1 */ /* FCO1B/GCO1B = Checkout Type 1B */ /* FCO2/GCO2 = Checkout Type 2 */ /* e.g., FU_DESCENT = 2005-01-14 Mission */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 442 COLUMNS = 148 ROW_BYTES = 1061 DESCRIPTION = "Binary data archive Housekeeping Type 2 files from the SUN workstation converted to ASCII text values. Refer to the GCMS Instrument User's Software Manual for details." ^STRUCTURE = "GCMS_HK_TYPE2_STG1.FMT" END_OBJECT = TABLE END 4.1.10 DATA LABEL - MOLE FRACTION DATA, STAGE 2 Applies to file: GCMS_MOLE_FRACTION_STG2.LBL The numbers in this file have been derived from the mass spec. data for the most common species in Titan's atmosphere. This is the data forwarded to the DTWG (Descent Trajectory Working Group) by the GCMS team. File GCMS_MOLE_FRACTION_STG2.LBL PDS_VERSION_ID = PDS3 /* FILE CHARACTERISTICS DATA ELEMENTS */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 43 FILE_RECORDS = 1303 /* DATA OBJECT POINTER IDENTIFICATION ELEMENTS */ ^TABLE = ("GCMS_MOLE_FRACTION_STG2.TAB",2) /* INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS */ FILE_NAME = "GCMS_MOLE_FRACTION_STG2.TAB" DATA_SET_ID = "HP-SSA-GCMS-3-FCO/DESCENT-V1.0" DATA_SET_NAME = "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" PRODUCT_ID = "DESCENT_GCMS_MOLE_FRACTION_STG2" PRODUCT_NAME = "DESCENT_GCMS_MOLE_FRACTION_STG2" MISSION_NAME = "CASSINI-HUYGENS" INSTRUMENT_HOST_NAME = "HUYGENS PROBE" INSTRUMENT_HOST_ID = HP MISSION_PHASE_NAME = "DESCENT" PRODUCT_TYPE = RDR /* EDR for RAW & RDR for Calibrated Data */ START_TIME = 2005-01-14T09:11:23.312 STOP_TIME = 2005-01-14T11:38:09.953 /* UTC e.g. 2005-01-14T00:00:00.000 */ SPACECRAFT_CLOCK_START_COUNT = "N/A" SPACECRAFT_CLOCK_STOP_COUNT = "N/A" NATIVE_START_TIME = "N/A" NATIVE_STOP_TIME = "N/A" PRODUCT_CREATION_TIME = 2006-06-15T10:00:00 PRODUCER_ID = "GCMS_TEAM" PRODUCER_FULL_NAME = "JAIME DEMICK-MONTELARA" /* & John Haberman */ /* & Eric Raaen */ PRODUCER_INSTITUTION_NAME = "NASA GSFC" TARGET_NAME = "TITAN" /* INSTRUMENT DESCRIPTION */ INSTRUMENT_ID = "GCMS" INSTRUMENT_NAME = "GAS CHROMATOGRAPH MASS SPECTROMETER" INSTRUMENT_TYPE = "MASS SPECTROMETER" DATA_QUALITY_ID = 1 DATA_QUALITY_DESC = "1 = High Quality ... 5 = Low Quality" INSTRUMENT_MODE_ID = "FU_DESCENT" /* FU = Flown Unit */ /* DESCENT indicates Entry Condition */ /* DATA OBJECT DEFINITION */ OBJECT = TABLE INTERCHANGE_FORMAT = ASCII ROWS = 1303 COLUMNS = 4 ROW_BYTES = 43 DESCRIPTION = "Mole Fraction (MF) data for Methane (CH4), Argon (Ar) and Other (XX) species of Titan's atmosphere submitted to the DTWG Team. These data are computed from the direct atmosphere GCMS sample measurement data from Ion Source #1 data. Obviously the mole fraction for Nitrogen (N2) is [1. - SUM(MF(CH4)+MF(Ar)+MF(XX))]." OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_ABS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "UTC Reference time for this data record." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "CH4" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 7 FORMAT = "F7.4" DESCRIPTION = "Mole Fraction for Methane (CH4)." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "AR" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE = 33 BYTES = 4 FORMAT = "F4.1" DESCRIPTION = "Mole Fraction for Argon (Ar)." END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "XX" UNIT = "N/A" DATA_TYPE = ASCII_REAL START_BYTE =38 BYTES = 4 FORMAT = "F4.1" DESCRIPTION = "Mole Fraction for Other (XX) components." END_OBJECT = COLUMN END_OBJECT = TABLE END GCMS_HK_TYPE2_STG1.FMT OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = "UTC_GCMS_TIME" UNIT = "TIME" DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 23 FORMAT = "A23" DESCRIPTION = "Time from GCMS GMT time (Columns 3 - 10). NOT DDB TIME! DDB time is not contained in all telemetry streams. GCMS_GMT time is from SCET." /* Calculated from data in this table */ /* and added during table formatting. */ END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = "ABS_TIME" UNIT = "SECONDS" DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 13 FORMAT = "F13.6" DESCRIPTION = "Time from Mission Elapsed Time (Columns 131 - 138). Negative values indicate pre-T0 (within ~6 seconds). Positive values indicate post-T0." /* Calculated from data in this table */ /* and added during table formatting. */ END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = "B000" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 39 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 0 - GCMS GMT Seconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = "B001" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 46 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 1 - GCMS GMT Seconds" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = "B002" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 53 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 2 - GCMS GMT Seconds" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = "B003" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 60 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 3 - GCMS GMT Seconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = "B004" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 67 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 4 - GCMS GMT microseconds MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = "B005" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 74 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 5 - GCMS GMT microseconds" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = "B006" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 81 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 6 - GCMS GMT microseconds" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = "B007" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 88 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 7 - GCMS GMT microseconds LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = "B008" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 95 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 008 - Packet Valid MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = "B009" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 102 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 009 - Packet Valid LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = "B010" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 109 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 010 - Commutator Index" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = "B011" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 116 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 011 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = "B012" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 123 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 012 - Local Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = "B013" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 130 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 013 - Local Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = "B014" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 137 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 014 - Anode 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = "B015" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 144 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 015 - Anode 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 19 NAME = "B016" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 151 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 016 - EB4_2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 20 NAME = "B017" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 158 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 017 - EB4_1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 21 NAME = "B018" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 165 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 018 - Filament 1 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 22 NAME = "B019" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 172 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 019 - Filament 2 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 23 NAME = "B020" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 179 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 020 - Filament 2 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 24 NAME = "B021" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 186 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 021 - Filament 1 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 25 NAME = "B022" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 193 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 022 - BIAS_A" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 26 NAME = "B023" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 200 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 023 - BIAS1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 27 NAME = "B024" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 207 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 024 - BIAS2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 28 NAME = "B025" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 214 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 025 - Hydrogen head pressure at GC columns" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 29 NAME = "B026" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 221 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 026 - BIASM3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 30 NAME = "B027" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 228 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 027 - BIASM2 (FB String Voltage)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 31 NAME = "B028" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 235 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 028 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 32 NAME = "B029" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 242 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 029 - BIASM1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 33 NAME = "B030" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 249 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 030 - Anode 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 34 NAME = "B031" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 256 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 031 - Anode 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 35 NAME = "B032" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 263 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 032 - EB4_4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 36 NAME = "B033" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 270 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 033 - EB4_3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 37 NAME = "B034" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 277 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 034 - Filament 3 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 38 NAME = "B035" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 284 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 035 - Filament 4 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 39 NAME = "B036" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 291 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 036 - Filament 4 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 40 NAME = "B037" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 298 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 037 - Filament 3 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 41 NAME = "B038" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 305 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 038 - BIAS_B" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 42 NAME = "B039" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 312 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 039 - BIAS3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 43 NAME = "B040" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 319 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 040 - BIAS4" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 44 NAME = "B041" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 326 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 041 - Hydrogen storage reservoir pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 45 NAME = "B042" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 333 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 042 - Electron Multiplier temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 46 NAME = "B043" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 340 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 043 - BIAST" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 47 NAME = "B044" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 347 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 044 - RF Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 48 NAME = "B045" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 354 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 045 - Reference Voltage" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 49 NAME = "B046" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 361 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 046 - Anode 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 50 NAME = "B047" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 368 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 047 - Anode 6 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 51 NAME = "B048" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 375 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 048 - EB4_6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 52 NAME = "B049" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 382 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 049 - EB4_5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 53 NAME = "B050" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 389 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 050 - Filament 5 current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 54 NAME = "B051" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 396 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 051 - Filament 6 (BA Gauge) current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 55 NAME = "B052" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 403 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 052 - BA gauge emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 56 NAME = "B053" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 410 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 053 - Filament 5 emission current" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 57 NAME = "B054" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 417 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 054 - BIAS_C" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 58 NAME = "B055" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 424 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 055 - BIAS5" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 59 NAME = "B056" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 431 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 056 - BIAS6" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 60 NAME = "B057" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 438 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 057 - GCMS Instrument Shell Pressure" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 61 NAME = "B058" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 445 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 058 - DDB Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 62 NAME = "B059" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 452 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 059 - DDB Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 63 NAME = "B060" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 459 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 060 - DDB Altitude MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 64 NAME = "B061" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 466 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 061 - DDB Altitude LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 65 NAME = "B062" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 473 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 062 - Instrument Deck Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 66 NAME = "B063" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 480 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 063 - Transistor Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 67 NAME = "B064" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 487 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 064 - THERMP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 68 NAME = "B065" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 494 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 065 - THREFP" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 69 NAME = "B066" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 501 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 066 - TIS3INT" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 70 NAME = "B067" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 508 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 067 - Hydrogen reservoir temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 71 NAME = "B068" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 515 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 068 - Tsample" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 72 NAME = "B069" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 522 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 069 - T_LVPS1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 73 NAME = "B070" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 529 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 070 - T_LVPS2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 74 NAME = "B071" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 536 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 071 - T_LVPS3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 75 NAME = "B072" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 543 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 072 - Positive 13 volt monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 76 NAME = "B073" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 550 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 073 - 5R_Mon" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 77 NAME = "B074" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 557 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 074 - 5Ref" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 78 NAME = "B075" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 564 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 075 - Negative 57 volt monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 79 NAME = "B076" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 571 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 076 - CALMON" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 80 NAME = "B077" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 578 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 077 - Valves Inhibit (high = inhibit)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 81 NAME = "B078" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 585 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 078 - GC column 1 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 82 NAME = "B079" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 592 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 079 - Enrichment cell temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 83 NAME = "B080" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 599 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 080 - T_EC2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 84 NAME = "B081" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 606 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 081 - ACP sample transfer line tempreature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 85 NAME = "B082" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 613 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 082 - GC column 2 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 86 NAME = "B083" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 620 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 083 - GC column 3 temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 87 NAME = "B084" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 627 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 084 - Atmosphere sample inlet line temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 88 NAME = "B085" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 634 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 085 - ACP sample transfer line pressure monitor 1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 89 NAME = "B086" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 641 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 086 - ACP Pressure Monitor 2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 90 NAME = "B087" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 648 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 087 - Flight Computer Temperature" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 91 NAME = "B088" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 655 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 088 - 5R_FC_MON" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 92 NAME = "B089" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 662 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 089 - RF Monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 93 NAME = "B090" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 669 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 090 - Electron Multiplier 1 high voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 94 NAME = "B091" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 676 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 091 - Electron Multiplier 2 high voltage monitor" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 95 NAME = "B092" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 683 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 092 - Valve Status MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 96 NAME = "B093" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 690 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 093 - Valve Status" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 97 NAME = "B094" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 697 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 094 - Valve Status" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 98 NAME = "B095" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 704 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 095 - Valve Status LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 99 NAME = "B096" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 711 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 096 - Valve Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 100 NAME = "B097" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 718 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 097 - Valve Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 101 NAME = "B098" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 725 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 098 - Valve Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 102 NAME = "B099" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 732 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 099 - Valve Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 103 NAME = "B100" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 739 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 100 - Filament and Ion Pump Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 104 NAME = "B101" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 746 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 101 - Heater Status Word" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 105 NAME = "B102" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 753 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 102 - General Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 106 NAME = "B103" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 760 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 103 - General Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 107 NAME = "B104" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 767 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 104 - General Error Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 108 NAME = "B105" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 774 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 105 - General Error Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 109 NAME = "B106" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 781 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 106 - Latched Submode" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 110 NAME = "B107" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 788 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 107 - Absolute Time MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 111 NAME = "B108" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 795 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 108 - Absolute Time (mid byte)" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 112 NAME = "B109" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 802 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 109 - Absolute Time LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 113 NAME = "B110" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 809 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 110 - BA Filament Emission MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 114 NAME = "B111" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 816 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 111 - BA Filament Emission LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 115 NAME = "B112" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 823 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 112 - RF Frequency Monitor MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 116 NAME = "B113" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 830 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 113 - RF Frequency Monitor LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 117 NAME = "B114" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 837 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 114 - Microsequencer Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 118 NAME = "B115" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 844 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 115 - Microsequencer Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 119 NAME = "B116" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 851 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 116 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 120 NAME = "B117" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 858 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 117 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 121 NAME = "B118" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 865 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 118 - Microsequencer Scan Counter MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 122 NAME = "B119" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 872 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 119 - Microsequencer Scan Counter LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 123 NAME = "B120" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 879 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 120 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 124 NAME = "B121" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 886 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 121 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 125 NAME = "B122" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 893 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 122 - Mission Phase: 03=GCO, F3=FCO, 00=Descent" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 126 NAME = "B123" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 900 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 123 - Latched Mission Phase: F=Deactivate, C=Suspend" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 127 NAME = "B124" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 907 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 124 - Experiment Status Word MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 128 NAME = "B125" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 914 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 125 - Experiment Status Word LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 129 NAME = "B126" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 921 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 126 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 130 NAME = "B127" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 928 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 127 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 131 NAME = "B128" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 935 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time MSB seconds. For pre-T0 measurements the time refers to power on. For post-T0 measurements the time refers to the T0 time. 86400 is added to the MET time to indicate post-T0 measurements. - Telemetry Byte 128" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 132 NAME = "B129" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 942 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time seconds - Telemetry Byte 129" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 133 NAME = "B130" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 949 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time seconds - Telemetry Byte 130" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 134 NAME = "B131" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 956 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time LSB seconds - (MET_Seconds = byte128*256^3 + byte129*256^2 + byte130*256 + byte131) - Telemetry Byte 131" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 135 NAME = "B132" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 963 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time MSB microseconds - Telemetry Byte 132" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 136 NAME = "B133" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 970 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time microseconds - Telemetry Byte 133" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 137 NAME = "B134" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 977 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time microseconds - Telemetry Byte 134" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 138 NAME = "B135" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 984 BYTES = 6 FORMAT = "I6" DESCRIPTION = "MET Time LSB microseconds - (MET_microSeconds = byte132*256^3 + byte133*256^2 + byte134*256 + byte135) - Telemetry Byte 135" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 139 NAME = "B136" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 991 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 136 - Packet Sequence Count MSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 140 NAME = "B137" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 998 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 137 - Packet Sequence Count LSB" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 141 NAME = "B138" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1005 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 138 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 142 NAME = "B139" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1012 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 139 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 143 NAME = "B140" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1019 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 140 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 144 NAME = "B141" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1026 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 141 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 145 NAME = "B142" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1033 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 142 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 146 NAME = "B143" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1040 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 143 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 147 NAME = "B144" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1047 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 144 - Spare" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 148 NAME = "B145" UNIT = "N/A" DATA_TYPE = ASCII_INTEGER START_BYTE = 1054 BYTES = 6 FORMAT = "I6" DESCRIPTION = "Telemetry Byte 145 - Spare" END_OBJECT = COLUMN 1. APPENDIX: AVAILABLE SOFTWARE TO READ PDS FILES (N/A) 2. APPENDIX: AUXILIARY DATA USAGE (N/A) 3. APPENDIX: EXAMPLE OF DIRECTORY LISTING OF THE DATA SET The GCMS data set named "HUYGENS TITAN GAS CHROMATOGRAPH MASS SPEC 3 DESCENT V1.0" (short ID "HP-SSA-GCMS-3-FCO/DESCENT-V1.0") contains the data beginning with the final Earth Descent Simulation, the data from all of the in-flight turn-on activities and the data from the Titan Descent mission. Shown is a summary the processed GCMS data set status as of June 12, 2006. Approximate file size totals are in Megabytes. Table 8. Summary of Structure and Files submitted for Archiving (June 2006) -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Data Set HP-SSA-GCMS-3-FCO/DESCENT-V1.0 -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Instr.Op. Size | Number of File Types Test Sequence PDS/PSA Folder Name MB Files CSV LBL TAB FMT -------------------------------------------------------------------------------- Last Earth DESCENT 19970506_DESCENT_BENCH 166 237 0 111 111 15 -------------------------------------------------------------------------------- Probe Mating GCO1 19970802_MATED_CO1 137 114 0 49 49 16 -------------------------------------------------------------------------------- Probe Mating GCO2 19970805_MATED_CO2 225 158 0 71 71 16 -------------------------------------------------------------------------------- Pre-closure GCO1 19970910_PRECLOSE_CO1 135 114 0 49 49 16 -------------------------------------------------------------------------------- Post-closure GCO1 19970913_POSTCLOSE_CO1 137 114 0 49 49 16 -------------------------------------------------------------------------------- Contingency GCO 19970919_CONTINGENCY 16 98 0 41 41 16 -------------------------------------------------------------------------------- F1 FCO2 19971023_F01 272 160 1 72 71 16 -------------------------------------------------------------------------------- F2 FCO1 19980327_F02 100 114 1 49 48 16 -------------------------------------------------------------------------------- F3 FCO2 19981221_F03 263 160 1 72 71 16 -------------------------------------------------------------------------------- F4 FCO1 19990915_F04 173 112 1 48 47 16 -------------------------------------------------------------------------------- F5 FCO2 20000202_F05 266 160 1 72 71 16 -------------------------------------------------------------------------------- F6 FCO1 20000728_F06 176 112 1 48 47 16 -------------------------------------------------------------------------------- F7 FCO2 20010322_F07 264 160 1 72 71 16 -------------------------------------------------------------------------------- F8 FCO1 20010919_F08 172 112 1 48 47 16 -------------------------------------------------------------------------------- F9 FCO2 20020415_F09 264 160 1 72 71 16 -------------------------------------------------------------------------------- F10 FCO1 20020916_F10 176 112 1 48 47 16 -------------------------------------------------------------------------------- F11 FCO2 20030513_F11 261 160 1 72 71 16 -------------------------------------------------------------------------------- F12 FCO1 20030918_F12 172 112 1 48 47 16 -------------------------------------------------------------------------------- patch N/A 20031206_PATCHING 75 76 1 32 31 16 -------------------------------------------------------------------------------- no-preheating FCO1B 20031209_NO_PREHEATING 109 112 1 48 47 16 -------------------------------------------------------------------------------- pre-heating FCO1B 20031213_PREHEATING 671 124 1 54 53 16 -------------------------------------------------------------------------------- F13 FCO1B 20040320_F13 169 116 1 50 49 16 -------------------------------------------------------------------------------- F14 FCO2 20040714_F14 259 156 1 70 69 16 -------------------------------------------------------------------------------- F15 FCO1B 20040914_F15 172 110 1 47 46 16 -------------------------------------------------------------------------------- battery N/A 20040919_BAT_DEPSV1 26 75 1 32 31 16 depassiv.1 -------------------------------------------------------------------------------- F16 FCO1B 20041123_F16 172 112 1 48 47 16 -------------------------------------------------------------------------------- battery N/A 20041205_BAT_DEPSV2 26 75 1 32 31 16 depassiv.2 -------------------------------------------------------------------------------- Entry DESCENT 20050114_DESCENT 82 183 1 84 83 16 -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- The ROOT directory of the GCMS data set will contain the folders and files shown here. /CATALOG/ /DATA/ /DOCUMENT/ /EXTRAS/ /INDEX/ AAREADME.TXT ERRATA.TXT VOLDESC.CAT The /CATALOG/ directory for the GCMS data set will contain these folders and files. CATINFO.TXT DATASET.CAT INSTRUMENT.CAT INSTRUMENT_HOST.CAT MISSION.CAT PERSONNEL.CAT REFERENCE.CAT SOFTWARE.CAT TARGET.CAT The /DOCUMENT/ directory for the GCMS data set will contain these folders and files. DOCINFO.TXT BLOCK_DIAGRAM.PNG DESC_FM_08F.ASC HUYGENS_GCMS.ASC HUYGENS_GCMS_SP1177.ASC HUYGENS_GCMS_NATURE.ASC WORKING_SEQUENCE.ASC WORKING_TIMELINE.PNG /PRELAUNCH_CALIBRATION/ CALPRES.ASC CALPRES2.ASC CALPRES3.ASC CALPRNT2.ASC CALPRNTS.ASC EAICD_GCMS.ASC The /EXTRAS/ directory for the GCMS data set will contain these folders and files. EXTRASINFO.TXT /ANIMATED_GIF/ ANIMATED_GIF_SCREEN.PDF GCMS_A2.GIF GCMS_P2.GIF /DATASET_RELATED/ DATA_PROCESSING.PDF GCMS_OVERFLOW_EXAMPLE_STG1.PNG GCMS_OVERFLOW_EXAMPLE_STG2.PNG SAMPLE_TABLE_FILES_STG1.PNG SAMPLE_TABLE_FILES_STG2.PNG /DOCUMENTS/ EIDB_A1.PDF EIDB_A2.PDF FS_CRUISE_OPS.PDF GCMS_FS_USER_MANUAL.PDF /FLIGHT_CHECKOUT/ F01-CO2.PDF F02_CO1.PDF F03_CO2.PDF F04_CO1.PDF F05_CO2.PDF F06_CO1.PDF F07_CO2.PDF F08_CO1.PDF F09_CO2.PDF F10_CO1.PDF F11_CO2.PDF F12_CO1.PDF NO_PRE-HEATING.PDF PRE-HEATING.PDF F13_CO1B.PDF F14_CO2.PDF F15_CO1B.PDF BATTERY_DEPASSIVATION_1.PDF F16_CO1B.PDF BATTERY_DEPASSIVATION_2.PDF DESCENT_AS_CO1.PDF ENTRY_PLOT_DESCENT.PDF The /INDEX/ directory for the GCMS data set will contain these folders and files. INDEX.TXT The /DATA/ directory for the GCMS data set will contain these folders and files. /19970506_DESCENT_BENCH/ /19970802_MATED_CO1/ /19970805_MATED_CO2/ /19970910_PRECLOSE_CO1/ /19970913_POSTCLOSE_CO1/ /19970919_CONTINGENCY/ /19971023_F01/ /19980327_F02/ /19981221_F03/ /19990915_F04/ /20000202_F05/ /20000728_F06/ /20010322_F07/ /20010919_F08/ /20020415_F09/ /20020916_F10/ /20030503_F11/ /20030918_F12/ /20031206_PATCHING/ /20031209_NO_PREHEATING/ /20031213_PREHEATING/ /20040320_F13/ /20040714_F14/ /20040914_F15/ /20040919_BAT_DEPSV1/ /20041123_F16/ /20041205_BAT_DEPSV2/ /20050114_DESCENT/ /DTWG_MOLE_FRACTION/ Examples of the files contained in selected DATA subfolders are presented. The other folders will contain similar sets of files. The number of files and the size requirements for each of the folders is highly dependent on the type of the test. Flight Check-out type 2 tests are more complete instrument tests. The pre-heating check-out testing also generates a sizeable dataset. The 19970506_DESCENT_BENCH folder (DESCENT Sequence) will contain these files. GCMS_1FA_STG1.LBL GCMS_1FA_STG1.TAB GCMS_1FA_STG2.LBL GCMS_1FA_STG2.TAB GCMS_1FA_X_STG1.LBL GCMS_1FA_X_STG1.TAB GCMS_1FA_X_STG2.LBL GCMS_1FA_X_STG2.TAB GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1UA_X_STG1.LBL GCMS_1UA_X_STG1.TAB GCMS_1UA_X_STG2.LBL GCMS_1UA_X_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1US_X_STG1.LBL GCMS_1US_X_STG1.TAB GCMS_1US_X_STG2.LBL GCMS_1US_X_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2UA_X_STG1.LBL GCMS_2UA_X_STG1.TAB GCMS_2UA_X_STG2.LBL GCMS_2UA_X_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2US_X_STG1.LBL GCMS_2US_X_STG1.TAB GCMS_2US_X_STG2.LBL GCMS_2US_X_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3UA_X_STG1.LBL GCMS_3UA_X_STG1.TAB GCMS_3UA_X_STG2.LBL GCMS_3UA_X_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3US_X_STG1.LBL GCMS_3US_X_STG1.TAB GCMS_3US_X_STG2.LBL GCMS_3US_X_STG2.TAB GCMS_3U_STG2.FMT GCMS_4UA_STG1.LBL GCMS_4UA_STG1.TAB GCMS_4UA_STG2.LBL GCMS_4UA_STG2.TAB GCMS_4UA_X_STG1.LBL GCMS_4UA_X_STG1.TAB GCMS_4UA_X_STG2.LBL GCMS_4UA_X_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4US_X_STG1.LBL GCMS_4US_X_STG1.TAB GCMS_4US_X_STG2.LBL GCMS_4US_X_STG2.TAB GCMS_4U_STG2.FMT GCMS_5UA_STG1.LBL GCMS_5UA_STG1.TAB GCMS_5UA_STG2.LBL GCMS_5UA_STG2.TAB GCMS_5UA_X_STG1.LBL GCMS_5UA_X_STG1.TAB GCMS_5UA_X_STG2.LBL GCMS_5UA_X_STG2.TAB GCMS_5UA_Z_STG1.LBL GCMS_5UA_Z_STG1.TAB GCMS_5UA_Z_STG2.LBL GCMS_5UA_Z_STG2.TAB GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5US_X_STG1.LBL GCMS_5US_X_STG1.TAB GCMS_5US_X_STG2.LBL GCMS_5US_X_STG2.TAB GCMS_5US_Z_STG1.LBL GCMS_5US_Z_STG1.TAB GCMS_5US_Z_STG2.LBL GCMS_5US_Z_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_A_STG1.LBL GCMS_ALL_A_STG1.TAB GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_A_ACK_STG1.LBL GCMS_HK_A_ACK_STG1.TAB GCMS_HK_A_HS_STG1.LBL GCMS_HK_A_HS_STG1.TAB GCMS_HK_A_IDLE_STG1.LBL GCMS_HK_A_IDLE_STG1.TAB GCMS_HK_A_MS_STG1.LBL GCMS_HK_A_MS_STG1.TAB GCMS_HK_A_SOFTWARE_STG1.LBL GCMS_HK_A_SOFTWARE_STG1.TAB GCMS_HK_A_TYPE1_STG1.LBL GCMS_HK_A_TYPE1_STG1.TAB GCMS_HK_A_TYPE2_STG1.LBL GCMS_HK_A_TYPE2_STG1.TAB GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_SOFTWARE_STG1.LBL GCMS_HK_B_SOFTWARE_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_SOFTWARE_STG1.FMT GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_A_STG1.LBL GCMS_SWEEPS_A_STG1.TAB GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The 19971023_F01 folder (FCO1) will contain these files. GCMS_1FA_STG1.LBL GCMS_1FA_STG1.TAB GCMS_1FA_STG2.LBL GCMS_1FA_STG2.TAB GCMS_1FA_X_STG1.LBL GCMS_1FA_X_STG1.TAB GCMS_1FA_X_STG2.LBL GCMS_1FA_X_STG2.TAB GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1UA_X_STG1.LBL GCMS_1UA_X_STG1.TAB GCMS_1UA_X_STG2.LBL GCMS_1UA_X_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1US_X_STG1.LBL GCMS_1US_X_STG1.TAB GCMS_1US_X_STG2.LBL GCMS_1US_X_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2UA_X_STG1.LBL GCMS_2UA_X_STG1.TAB GCMS_2UA_X_STG2.LBL GCMS_2UA_X_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2US_X_STG1.LBL GCMS_2US_X_STG1.TAB GCMS_2US_X_STG2.LBL GCMS_2US_X_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3UA_X_STG1.LBL GCMS_3UA_X_STG1.TAB GCMS_3UA_X_STG2.LBL GCMS_3UA_X_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3US_X_STG1.LBL GCMS_3US_X_STG1.TAB GCMS_3US_X_STG2.LBL GCMS_3US_X_STG2.TAB GCMS_3U_STG2.FMT GCMS_4UA_STG1.LBL GCMS_4UA_STG1.TAB GCMS_4UA_STG2.LBL GCMS_4UA_STG2.TAB GCMS_4UA_X_STG1.LBL GCMS_4UA_X_STG1.TAB GCMS_4UA_X_STG2.LBL GCMS_4UA_X_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4US_X_STG1.LBL GCMS_4US_X_STG1.TAB GCMS_4US_X_STG2.LBL GCMS_4US_X_STG2.TAB GCMS_4U_STG2.FMT GCMS_5UA_STG1.LBL GCMS_5UA_STG1.TAB GCMS_5UA_STG2.LBL GCMS_5UA_STG2.TAB GCMS_5UA_X_STG1.LBL GCMS_5UA_X_STG1.TAB GCMS_5UA_X_STG2.LBL GCMS_5UA_X_STG2.TAB GCMS_5UA_Z_STG1.LBL GCMS_5UA_Z_STG1.TAB GCMS_5UA_Z_STG2.LBL GCMS_5UA_Z_STG2.TAB GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5US_X_STG1.LBL GCMS_5US_X_STG1.TAB GCMS_5US_X_STG2.LBL GCMS_5US_X_STG2.TAB GCMS_5US_Z_STG1.LBL GCMS_5US_Z_STG1.TAB GCMS_5US_Z_STG2.LBL GCMS_5US_Z_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_A_STG1.LBL GCMS_ALL_A_STG1.TAB GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_A_ACK_STG1.LBL GCMS_HK_A_ACK_STG1.TAB GCMS_HK_A_HS_STG1.LBL GCMS_HK_A_HS_STG1.TAB GCMS_HK_A_IDLE_STG1.LBL GCMS_HK_A_IDLE_STG1.TAB GCMS_HK_A_MS_STG1.LBL GCMS_HK_A_MS_STG1.TAB GCMS_HK_A_SOFTWARE_STG1.LBL GCMS_HK_A_SOFTWARE_STG1.TAB GCMS_HK_A_TYPE1_STG1.LBL GCMS_HK_A_TYPE1_STG1.TAB GCMS_HK_A_TYPE2_STG1.LBL GCMS_HK_A_TYPE2_STG1.TAB GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_SOFTWARE_STG1.LBL GCMS_HK_B_SOFTWARE_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_SOFTWARE_STG1.FMT GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_A_STG1.LBL GCMS_SWEEPS_A_STG1.TAB GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The 20000202_F05 folder (FCO2) will contain these files. GCMS_1FA_STG1.LBL GCMS_1FA_STG1.TAB GCMS_1FA_STG2.LBL GCMS_1FA_STG2.TAB GCMS_1FA_X_STG1.LBL GCMS_1FA_X_STG1.TAB GCMS_1FA_X_STG2.LBL GCMS_1FA_X_STG2.TAB GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1UA_X_STG1.LBL GCMS_1UA_X_STG1.TAB GCMS_1UA_X_STG2.LBL GCMS_1UA_X_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1US_X_STG1.LBL GCMS_1US_X_STG1.TAB GCMS_1US_X_STG2.LBL GCMS_1US_X_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2UA_X_STG1.LBL GCMS_2UA_X_STG1.TAB GCMS_2UA_X_STG2.LBL GCMS_2UA_X_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2US_X_STG1.LBL GCMS_2US_X_STG1.TAB GCMS_2US_X_STG2.LBL GCMS_2US_X_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3UA_X_STG1.LBL GCMS_3UA_X_STG1.TAB GCMS_3UA_X_STG2.LBL GCMS_3UA_X_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3US_X_STG1.LBL GCMS_3US_X_STG1.TAB GCMS_3US_X_STG2.LBL GCMS_3US_X_STG2.TAB GCMS_3U_STG2.FMT GCMS_4UA_STG1.LBL GCMS_4UA_STG1.TAB GCMS_4UA_STG2.LBL GCMS_4UA_STG2.TAB GCMS_4UA_X_STG1.LBL GCMS_4UA_X_STG1.TAB GCMS_4UA_X_STG2.LBL GCMS_4UA_X_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4US_X_STG1.LBL GCMS_4US_X_STG1.TAB GCMS_4US_X_STG2.LBL GCMS_4US_X_STG2.TAB GCMS_4U_STG2.FMT GCMS_5UA_STG1.LBL GCMS_5UA_STG1.TAB GCMS_5UA_STG2.LBL GCMS_5UA_STG2.TAB GCMS_5UA_X_STG1.LBL GCMS_5UA_X_STG1.TAB GCMS_5UA_X_STG2.LBL GCMS_5UA_X_STG2.TAB GCMS_5UA_Z_STG1.LBL GCMS_5UA_Z_STG1.TAB GCMS_5UA_Z_STG2.LBL GCMS_5UA_Z_STG2.TAB GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5US_X_STG1.LBL GCMS_5US_X_STG1.TAB GCMS_5US_X_STG2.LBL GCMS_5US_X_STG2.TAB GCMS_5US_Z_STG1.LBL GCMS_5US_Z_STG1.TAB GCMS_5US_Z_STG2.LBL GCMS_5US_Z_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_A_STG1.LBL GCMS_ALL_A_STG1.TAB GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_A_ACK_STG1.LBL GCMS_HK_A_ACK_STG1.TAB GCMS_HK_A_HS_STG1.LBL GCMS_HK_A_HS_STG1.TAB GCMS_HK_A_IDLE_STG1.LBL GCMS_HK_A_IDLE_STG1.TAB GCMS_HK_A_MS_STG1.LBL GCMS_HK_A_MS_STG1.TAB GCMS_HK_A_SOFTWARE_STG1.LBL GCMS_HK_A_SOFTWARE_STG1.TAB GCMS_HK_A_TYPE1_STG1.LBL GCMS_HK_A_TYPE1_STG1.TAB GCMS_HK_A_TYPE2_STG1.LBL GCMS_HK_A_TYPE2_STG1.TAB GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_SOFTWARE_STG1.LBL GCMS_HK_B_SOFTWARE_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_SOFTWARE_STG1.FMT GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_A_STG1.LBL GCMS_SWEEPS_A_STG1.TAB GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The 20040714_F14 folder (FCO2) will contain the files shown. GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1FS_X_STG1.LBL GCMS_1FS_X_STG1.TAB GCMS_1FS_X_STG2.LBL GCMS_1FS_X_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1UA_X_STG1.LBL GCMS_1UA_X_STG1.TAB GCMS_1UA_X_STG2.LBL GCMS_1UA_X_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1US_X_STG1.LBL GCMS_1US_X_STG1.TAB GCMS_1US_X_STG2.LBL GCMS_1US_X_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2UA_X_STG1.LBL GCMS_2UA_X_STG1.TAB GCMS_2UA_X_STG2.LBL GCMS_2UA_X_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2US_X_STG1.LBL GCMS_2US_X_STG1.TAB GCMS_2US_X_STG2.LBL GCMS_2US_X_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3UA_X_STG1.LBL GCMS_3UA_X_STG1.TAB GCMS_3UA_X_STG2.LBL GCMS_3UA_X_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3US_X_STG1.LBL GCMS_3US_X_STG1.TAB GCMS_3US_X_STG2.LBL GCMS_3US_X_STG2.TAB GCMS_3U_STG2.FMT GCMS_4UA_STG1.LBL GCMS_4UA_STG1.TAB GCMS_4UA_STG2.LBL GCMS_4UA_STG2.TAB GCMS_4UA_X_STG1.LBL GCMS_4UA_X_STG1.TAB GCMS_4UA_X_STG2.LBL GCMS_4UA_X_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4US_X_STG1.LBL GCMS_4US_X_STG1.TAB GCMS_4US_X_STG2.LBL GCMS_4US_X_STG2.TAB GCMS_4U_STG2.FMT GCMS_5UA_STG1.LBL GCMS_5UA_STG1.TAB GCMS_5UA_STG2.LBL GCMS_5UA_STG2.TAB GCMS_5UA_X_STG1.LBL GCMS_5UA_X_STG1.TAB GCMS_5UA_X_STG2.LBL GCMS_5UA_X_STG2.TAB GCMS_5UA_Z_STG1.LBL GCMS_5UA_Z_STG1.TAB GCMS_5UA_Z_STG2.LBL GCMS_5UA_Z_STG2.TAB GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5US_X_STG1.LBL GCMS_5US_X_STG1.TAB GCMS_5US_X_STG2.LBL GCMS_5US_X_STG2.TAB GCMS_5US_Z_STG1.LBL GCMS_5US_Z_STG1.TAB GCMS_5US_Z_STG2.LBL GCMS_5US_Z_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_A_STG1.LBL GCMS_ALL_A_STG1.TAB GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_A_ACK_STG1.LBL GCMS_HK_A_ACK_STG1.TAB GCMS_HK_A_HS_STG1.LBL GCMS_HK_A_HS_STG1.TAB GCMS_HK_A_IDLE_STG1.LBL GCMS_HK_A_IDLE_STG1.TAB GCMS_HK_A_MS_STG1.LBL GCMS_HK_A_MS_STG1.TAB GCMS_HK_A_SOFTWARE_STG1.LBL GCMS_HK_A_SOFTWARE_STG1.TAB GCMS_HK_A_TYPE1_STG1.LBL GCMS_HK_A_TYPE1_STG1.TAB GCMS_HK_A_TYPE2_STG1.LBL GCMS_HK_A_TYPE2_STG1.TAB GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_SOFTWARE_STG1.LBL GCMS_HK_B_SOFTWARE_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_SOFTWARE_STG1.FMT GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_A_STG1.LBL GCMS_SWEEPS_A_STG1.TAB GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The 20041123_F16 folder (FCO1B) will contain these files. GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3U_STG2.FMT GCMS_4UA_STG1.LBL GCMS_4UA_STG1.TAB GCMS_4UA_STG2.LBL GCMS_4UA_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4U_STG2.FMT GCMS_5UA_STG1.LBL GCMS_5UA_STG1.TAB GCMS_5UA_STG2.LBL GCMS_5UA_STG2.TAB GCMS_5UA_Z_STG1.LBL GCMS_5UA_Z_STG1.TAB GCMS_5UA_Z_STG2.LBL GCMS_5UA_Z_STG2.TAB GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5US_Z_STG1.LBL GCMS_5US_Z_STG1.TAB GCMS_5US_Z_STG2.LBL GCMS_5US_Z_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_A_STG1.LBL GCMS_ALL_A_STG1.TAB GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_A_ACK_STG1.LBL GCMS_HK_A_ACK_STG1.TAB GCMS_HK_A_HS_STG1.LBL GCMS_HK_A_HS_STG1.TAB GCMS_HK_A_IDLE_STG1.LBL GCMS_HK_A_IDLE_STG1.TAB GCMS_HK_A_MS_STG1.LBL GCMS_HK_A_MS_STG1.TAB GCMS_HK_A_SOFTWARE_STG1.LBL GCMS_HK_A_SOFTWARE_STG1.TAB GCMS_HK_A_TYPE1_STG1.LBL GCMS_HK_A_TYPE1_STG1.TAB GCMS_HK_A_TYPE2_STG1.LBL GCMS_HK_A_TYPE2_STG1.TAB GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_SOFTWARE_STG1.LBL GCMS_HK_B_SOFTWARE_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_SOFTWARE_STG1.FMT GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_A_STG1.LBL GCMS_SWEEPS_A_STG1.TAB GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The 2005\0114_DESCENT folder (Titan DESCENT) will contain these files. GCMS_1FA_B2_STG2.LBL GCMS_1FA_B2_STG2.TAB GCMS_1FA_L1_STG2.LBL GCMS_1FA_L1_STG2.TAB GCMS_1FA_L2_STG2.LBL GCMS_1FA_L2_STG2.TAB GCMS_1FA_STG1.LBL GCMS_1FA_STG1.TAB GCMS_1FA_STG2.LBL GCMS_1FA_STG2.TAB GCMS_1FS_L1_STG2.LBL GCMS_1FS_L1_STG2.TAB GCMS_1FS_L2_STG2.LBL GCMS_1FS_L2_STG2.TAB GCMS_1FS_STG1.LBL GCMS_1FS_STG1.TAB GCMS_1FS_STG2.LBL GCMS_1FS_STG2.TAB GCMS_1F_STG2.FMT GCMS_1UA_B2_STG2.LBL GCMS_1UA_B2_STG2.TAB GCMS_1UA_B3_STG2.LBL GCMS_1UA_B3_STG2.TAB GCMS_1UA_L1_STG2.LBL GCMS_1UA_L1_STG2.TAB GCMS_1UA_L2_GRABGC1_STG2.LBL GCMS_1UA_L2_GRABGC1_STG2.TAB GCMS_1UA_L2_STG2.LBL GCMS_1UA_L2_STG2.TAB GCMS_1UA_L3_RGEC_STG2.LBL GCMS_1UA_L3_RGEC_STG2.TAB GCMS_1UA_STG1.LBL GCMS_1UA_STG1.TAB GCMS_1UA_STG2.LBL GCMS_1UA_STG2.TAB GCMS_1US_B1_STG2.LBL GCMS_1US_B1_STG2.TAB GCMS_1US_B2_STG2.LBL GCMS_1US_B2_STG2.TAB GCMS_1US_B3_STG2.LBL GCMS_1US_B3_STG2.TAB GCMS_1US_L1_GRABEC_STG2.LBL GCMS_1US_L1_GRABEC_STG2.TAB GCMS_1US_L1_STG2.LBL GCMS_1US_L1_STG2.TAB GCMS_1US_L2_GRABGC1_STG2.LBL GCMS_1US_L2_GRABGC1_STG2.TAB GCMS_1US_L2_GRABGC2_STG2.LBL GCMS_1US_L2_GRABGC2_STG2.TAB GCMS_1US_L2_GRABGC4_STG2.LBL GCMS_1US_L2_GRABGC4_STG2.TAB GCMS_1US_L2_STG2.LBL GCMS_1US_L2_STG2.TAB GCMS_1US_L3_RGEC_STG2.LBL GCMS_1US_L3_RGEC_STG2.TAB GCMS_1US_L3_RG_STG2.LBL GCMS_1US_L3_RG_STG2.TAB GCMS_1US_STG1.LBL GCMS_1US_STG1.TAB GCMS_1US_STG2.LBL GCMS_1US_STG2.TAB GCMS_1U_STG2.FMT GCMS_2UA_S1_STG2.LBL GCMS_2UA_S1_STG2.TAB GCMS_2UA_S2_STG2.LBL GCMS_2UA_S2_STG2.TAB GCMS_2UA_S5_STG2.LBL GCMS_2UA_S5_STG2.TAB GCMS_2UA_STG1.LBL GCMS_2UA_STG1.TAB GCMS_2UA_STG2.LBL GCMS_2UA_STG2.TAB GCMS_2US_S1_STG2.LBL GCMS_2US_S1_STG2.TAB GCMS_2US_S2_STG2.LBL GCMS_2US_S2_STG2.TAB GCMS_2US_S3_STG2.LBL GCMS_2US_S3_STG2.TAB GCMS_2US_S4_STG2.LBL GCMS_2US_S4_STG2.TAB GCMS_2US_S5_STG2.LBL GCMS_2US_S5_STG2.TAB GCMS_2US_S6_STG2.LBL GCMS_2US_S6_STG2.TAB GCMS_2US_STG1.LBL GCMS_2US_STG1.TAB GCMS_2US_STG2.LBL GCMS_2US_STG2.TAB GCMS_2U_STG2.FMT GCMS_3UA_S2_STG2.LBL GCMS_3UA_S2_STG2.TAB GCMS_3UA_STG1.LBL GCMS_3UA_STG1.TAB GCMS_3UA_STG2.LBL GCMS_3UA_STG2.TAB GCMS_3US_S10_STG2.LBL GCMS_3US_S10_STG2.TAB GCMS_3US_S1_STG2.LBL GCMS_3US_S1_STG2.TAB GCMS_3US_S2_STG2.LBL GCMS_3US_S2_STG2.TAB GCMS_3US_S3_STG2.LBL GCMS_3US_S3_STG2.TAB GCMS_3US_S4_STG2.LBL GCMS_3US_S4_STG2.TAB GCMS_3US_S5_STG2.LBL GCMS_3US_S5_STG2.TAB GCMS_3US_S6_STG2.LBL GCMS_3US_S6_STG2.TAB GCMS_3US_S7_STG2.LBL GCMS_3US_S7_STG2.TAB GCMS_3US_S8_STG2.LBL GCMS_3US_S8_STG2.TAB GCMS_3US_S9_STG2.LBL GCMS_3US_S9_STG2.TAB GCMS_3US_STG1.LBL GCMS_3US_STG1.TAB GCMS_3US_STG2.LBL GCMS_3US_STG2.TAB GCMS_3U_STG2.FMT GCMS_4US_S10_STG2.LBL GCMS_4US_S10_STG2.TAB GCMS_4US_S1_STG2.LBL GCMS_4US_S1_STG2.TAB GCMS_4US_S2_STG2.LBL GCMS_4US_S2_STG2.TAB GCMS_4US_S3_STG2.LBL GCMS_4US_S3_STG2.TAB GCMS_4US_S4_STG2.LBL GCMS_4US_S4_STG2.TAB GCMS_4US_S5_STG2.LBL GCMS_4US_S5_STG2.TAB GCMS_4US_S6_STG2.LBL GCMS_4US_S6_STG2.TAB GCMS_4US_S7_STG2.LBL GCMS_4US_S7_STG2.TAB GCMS_4US_S8_STG2.LBL GCMS_4US_S8_STG2.TAB GCMS_4US_S9_STG2.LBL GCMS_4US_S9_STG2.TAB GCMS_4US_STG1.LBL GCMS_4US_STG1.TAB GCMS_4US_STG2.LBL GCMS_4US_STG2.TAB GCMS_4U_STG2.FMT GCMS_5US_STG1.LBL GCMS_5US_STG1.TAB GCMS_5US_STG2.LBL GCMS_5US_STG2.TAB GCMS_5U_STG2.FMT GCMS_ALL_B_STG1.LBL GCMS_ALL_B_STG1.TAB GCMS_ALL_STG1.FMT GCMS_HK_ACK_STG1.FMT GCMS_HK_B_ACK_STG1.LBL GCMS_HK_B_ACK_STG1.TAB GCMS_HK_B_HS_STG1.LBL GCMS_HK_B_HS_STG1.TAB GCMS_HK_B_IDLE_STG1.LBL GCMS_HK_B_IDLE_STG1.TAB GCMS_HK_B_MS_STG1.LBL GCMS_HK_B_MS_STG1.TAB GCMS_HK_B_TYPE1_STG1.LBL GCMS_HK_B_TYPE1_STG1.TAB GCMS_HK_B_TYPE2_STG1.LBL GCMS_HK_B_TYPE2_STG1.TAB GCMS_HK_HS_STG1.FMT GCMS_HK_HS_STG2.LBL GCMS_HK_HS_STG2.TAB GCMS_HK_IDLE_STG1.FMT GCMS_HK_IDLE_STG2.LBL GCMS_HK_IDLE_STG2.TAB GCMS_HK_MS_STG1.FMT GCMS_HK_MS_STG2.LBL GCMS_HK_MS_STG2.TAB GCMS_HK_TYPE1_STG1.FMT GCMS_HK_TYPE2_STG1.FMT GCMS_HK_TYPE2_STG2.LBL GCMS_HK_TYPE2_STG2.TAB GCMS_ISALL_STG1.FMT GCMS_SWEEPS_B_STG1.LBL GCMS_SWEEPS_B_STG1.TAB GCMS_SWEEPS_STG1.FMT GCMS_TELEMETRY_STG1.CSV GCMS_TELEMETRY_STG1.LBL GCMS_TOTALS_STG2.LBL GCMS_TOTALS_STG2.TAB The DTWG_MOLE_FRACTION folder will contain these files. GCMS_MOLE_FRACTION_STG2.LBL GCMS_MOLE_FRACTION_STG2.TAB