2005 Cassini/MIMI
Magnetospheric Imaging Instrument

MIMI STANDARD DATA PRODUCTS AND ARCHIVE VOLUME SOFTWARE INTERFACE SPECIFICATION

(MIMI Archive Volumes SIS)
SIS ID: IO-AR-006

Version 2.2
rev. May 4, 2005

Jerry W. Manweiler, Ph.D.
W. Rasmuss
Fundamental Technologies, Lawrence
Lawrence, KS 66046
and
S. Joy
University of California, Los Angeles
Los Angeles, CA 90095-1567

2004 Cassini/MIMI
Magnetospheric Imaging Instrument

MIMI STANDARD DATA PRODUCTS ARCHIVE VOLUMES SOFTWARE INTERFACE SPECIFICATION
(MIMI Archive Volumes SIS)

Version 2.2
rev. May 4, 2005

Approved:

1. Preface This document describes the contents and types of volumes belonging to all of the three MIMI data sets.

1.1. Distribution List

Table 1: Distribution List
Name	Email
S. Joy	sjoy@igpp.ucla.edu
Tom Armstrong	armstrong@ftecs.com
Jerry W. Manweiler	Manweiler@ftecs.com
Don Mitchell	Don.Mitchell@jhuapl.edu
S.M. Krimigis	Tom.Krimigis@jhuapl.edu
Stefano Livi	Stefano.Livi@jhuapl.edu
Norbert Krupp	Krupp@linmpi.mpg.de
Doug Hamilton	Douglas.c.hamilton@umail.umd.edu
Iannis Dandouras	Iannis.Dandouras@cesr.fr
Scott Bolton	Scott.J.Bolton@jpl.nasa.gov
Diane Conner	Diane.Conner@jpl.nasa.gov
Robert Mitchell	Robert.Mitchell@jpl.nasa.gov
Ray Walker	rwalker@igpp.ucla.edu
Tom Yunck	Tom.Yunck@jpl.nasa.gov

1.2. Document Change Log

1.3. TBD Items

Items that are currently TBD or not finalized, but need to be defined in the next few months:

Table 3: TBD Items
Item	Section	Pages

1.4. Acronyms and Abbreviations

Table 4: Acronyms and Abbreviations
Acronym	Definition
ASCII	American Standard Code for Information Interchange
CD-R	Compact Disc - Recordable Media
CD-ROM	Compact Disc - Read-Only Memory
DVD	Digital Versatile Disc
GB	Gigabyte(s)
GSFC	Goddard Space Flight Center
ISO	International Standards Organization
JHU/APL	Johns Hopkins University / Applied Physics Laboratory
JPL	Jet Propulsion Laboratory
MB	Megabyte(s)
MIMI	Magnetospheric Imaging Instrument
NSSDC	National Space Science Data Center
PDB	Project Database
PDS	Planetary Data System
PHS	Product Handling Software
PPI	Planetary Data System, Planetary Plasma Interactions Node
SDVT	Science Data Validation Team
SIS	Software Interface Specification
TBD	To Be Determined
PHA	Pulse Height Analysis
UCLA	University of California, Los Angeles

1.5. Glossary

Archive - An archive consists of one or more Data Sets along with all the documentation and ancillary information needed to understand and use the data. An archive is a logical construct independent of the medium on which it is stored.

Archive Volume - An Archive Volume is a single physical media (CDROM, DVD, 9-track tape, etc.) used to permanently store files within the PDS archive. Archive Volumes may only be created on media approved by the PDS as meeting archive quality standards.

Archive Volume Set - A collection of one or more Archive Volumes used to store a single Data Set or collection of related Data Sets.

Catalog Information - High-level descriptive information about a Data Set (e.g., mission description, spacecraft description, instrument description), expressed in Object Description Language (ODL), which is suitable for loading into a PDS catalog.

Data Product - A labeled grouping of data resulting from a scientific observation, usually stored in one file. A product label identifies, describes, and defines the structure of the data. An example of a Data Product is a planetary image, a spectral table, or a time series table.

Data Set - A Data Set is a collection of Data Products from a single instrument that have a common data processing level, together with supporting documentation and ancillary files.

Standard Data Product - A Data Product generated in a predefined way using well-understood procedures, processed in "pipeline" fashion. Data Products that are generated in a nonstandard way are sometimes called special Data Products.

1.6. Content Overview

The Magnetospheric Imaging Instrument (MIMI) aboard the Cassini spacecraft is an instrument comprised of three different sensors: the Low Energy Magnetospheric Measurement System (LEMMS), the Charge/Energy Mass Spectrometer (CHEMS), and the Imaging Neutral Camera (INCA). The primary focus of MIMI's mission is to study Saturn's magnetosphere, but measurements will also be taken at Earth, Jupiter, and Titan.

MIMI is a complex instrument that produces comparatively large amounts of data. The combination of these factors presents many challenges in distributing, archiving and using the data. Because of the complexity of the instrument, calibration data and calibration techniques will be highly dynamic. Together these factors make it impractical to distribute new data when calibration improves. The solution to this problem is to provide tables of decommutated data in the instrument's units as spacecraft science data products and calibration data and algorithms as ancillary data products. Thus, as the calibration improves only the calibration needs to be redistributed. This methodology holds true for all data products except for the images produced by the INCA instrument. The calculation of flux from the raw counts contained in the image is a highly complex problem requiring knowledge of instrument characteristics, geometry, and spacecraft orientation that prevents the general use of the above outlined methodology for the distribution of data. Instead for the INCA images, there are two sets of data products produced: the raw counts contained within the images and the fluxes generated from the images. No specific calibration data is provided except that calibration data which is wholly independent of geometry and spacecraft orientation and is fairly static in nature. In addition, programs that work with the raw counts in the INCA images will be archived to allow the final users an understanding of the algorithms used in the production of the final flux matrices.

The complexity of MIMI also means that a large body of documentation including detailed diagrams and other non-text elements is required to understand and use the spacecraft science data products. Once again, redistributing all of this documentation with each volume is impractical, so this body of documentation is available on a single volume, called a reference volume, and only redistributed when documents are updated, added or removed. However, each volume contains metadata to locate and utilize the data products in the volume and pointers to other resources that are helpful but not required.

Each one of the three sensors produces two types of data, accumulator rates (RATE) and pulse height analysis (PHA) data. The LEMMS sensor produces two types of RATE data, low time resolution data for all detectors and high time resolution data for a set of priority counters. The low time resolution data is accumulated over subsectors and the high time resolution data is accumulated over microsectors. These two time resolutions of LEMMS data are contained in separate data products. The low time resolution data is referred to simply as rate data while the high time resolution data is referred to as fine rate data. CHEMS also produces two different types of rate data, accumulator rates and science rates. Accumulator rates differ from science rates in that the accumulator rates are an indicator for the overall health of the instrument allowing for specific time ordered, mass ordered, and other instrument specific studies to be undertaken. The science rates are generated from calculations from the onboard MIMI DPU. The science rates are already categorized in terms of mass and level of coincidence. The science rates provide the most direct measurement of the chemical composition and energy spectra measured by the CHEMS instrument.. In addition to RATE and PHA data, INCA also produces images. The INCA images are represented as two dimensional arrays of values. Thus, there are nine easily identified data products grouped into PDS data sets by sensor. Table 5 shows the maximum amount of data per day per data product. Table 5 also shows the total maximum size of data products per day for each data set.

Table 5: Spacecraft Science Data Products in MIMI Data Sets
Sensor	Data Type	Maximum (MB / Day)	Sensor Total (MB / Day)
LEMMS	Accumulator Rates	15	70
	Fine Accumulator Rates	25
	PHA	30
CHEMS	Accumulator Rates	7	459
	Science Rates	2
	PHA	450
INCA	Accumulator Rates	4	414
	PHA	300
	Images	110

1.7. Scope

This specification applies to all archive volumes containing MIMI data products for the duration of its mission.

1.8. Applicable Documents

Planetary Science Data Dictionary Document, August 28, 2002, Planetary Data System, JPL D-7116, Rev. E

Planetary Data System Standards Reference, August 1, 2003, Version 3.6. JPL D-7669, Part 2.

Cassini/MIMI Data Analysis Center, Level 1A File Layouts, December 2, 2003, Revision 18, SRS-98-203.

Magnetosphere Imaging Instrument (MIMI) on the Cassini Mission to Saturn/Titan, In press Space Science Review, S.M Krimigis et al.

Cassini/Huygens Program Archive Plan for Science Data, PD 699-068, JPL D-159576

Planetary Data Systems Archive Preparation Guide, January 20, 2005, JPL D-31225, Version 0.05012

1.9. Audience

This specification is useful to those who wish to understand the format and content of the MIMI PDS data product archive collection. Typically, these individuals would be scientists, data analysts, or software engineers.

2. Volume Generation

2.1. Data Production and Transfer Methods

The MIMI standard product archive collection is produced by the MIMI instrument team in cooperation with the PDS Planetary Plasma Interactions (PPI) Node at the University of California, Los Angeles (UCLA). The MIMI team is funded by NASA through the Cassini Project office and the PPI activities are funded by the NASA Planetary Data System.

The MIMI team produces the individual data files and the associated detached PDS labels for each of the standard data products defined in section 1.6 above. Data files are all comma-separated variable, ASCII files containing all data of the appropriate type for the time interval contained in the data product. Data products are individually compressed (gzipped) and placed on an FTP server at Fundamental Technologies, LLC. Fundamental Technologies, LLC, will at regular intervals:

1.) Submit the gzipped version of the PDS data to the PDS data reception site via FTP protocols.

2.) Checks the size of the gzipped version of the data product against the size of the gzipped product on the Fundamental Technologies FTP site

3.) Sends a notification to at least one person at the PPI node and at least one person at Fundamental Technologies that includes the name and version of the file, when it was downloaded and its unzipped size.

4.) Fundamental Technologies creates an entry into the Cassini Archive and Tracking System (CATS) based upon the completion of a submission which might contain multiple transfers of products.

2.2. Volume Creation

PPI collects the data files and labels provided by the MIMI team onto archive volumes. Each archive volume contains all MIMI data available for the time interval covered by the archive volume. Once all of the data files, labels, and ancillary data files are organized onto an archive volume, PPI adds all of the PDS required files (AAREADME, INDEX, ERRATA, etc.) and produces the physical media. The MIMI team maintains an internet accessible version of the reference volume which is cloned automatically at the PPI node and burned to media when needed.

2.3. Volume Validation

The MIMI team and PPI node validate volumes in two ways. Before any volumes are produced a peer review panel validates the structure and content of the archive and reference volumes. Once volume production begins, automated software validates each volume and the peer review panel spot checks volumes as desired.

The peer review panel consists of members of the instrument team, the PPI and Central Nodes of the PDS, and at least two outside scientists actively working in the field of energetic particles research. The PDS personnel are responsible for validating that the volume(s) are fully compliant with PDS standards. The instrument team and outside science reviewers are responsible for verifying the content of the data set, the completeness of the documentation, and the usability of the data in its archive format. The peer review process is a two part process. First, the panel reviews this document and verifies that a volume produced to this specification will be useful. Next, the panel reviews a specimen volume to verify that the volume meets this specification and is indeed acceptable.

Once automated production begins, software provided by the MIMI team produces a summary of each data product and software provided by the PPI node verifies that the all files required by PDS are present and that the files themselves conform to PDS standards. If an error is detected by either of the above programs, the error is corrected, if possible, before the volume is produced. If an error in a data file is uncorrectable, (i.e., an error in the downlink data file) the error is described in the cumulative errata file that is included on each volume in the volume set.

2.4. Labeling and Identification

Each MIMI standard data product archive volume bears a unique volume identifier (volume_id) of the form COMIMI_nnnn where CO identifies the spacecraft (Cassini Orbiter), MIMI identifies the instrument, and nnnn is a sequential number assigned to each volume. The volume_id is used as the label for the physical medium on which the data are stored.

PDS data set names conform to the following format: CASSINI E/J/S/SW MIMI SENSOR UNCALIBRATED DATA V.. For example, version one of the LEMMS data set is named CASSINI E/J/S/SW MIMI LEMMS SENSOR UNCALIBRATED DATA V1.0.

PDS data set identifiers (dsid) are abbreviated versions of the data set names formed according to the PDS formation rule for the DATA_SET_ID keyword (Section 6.4, PDS Standards Reference Version 3.6, dated August 1, 2003, http://pds.jpl.nasa.gov/stdrefnew/). For example, the dsid for the data set above is CO-E/J/S/SW-MIMI-2-LEMMS-UNCALIB-V1.0.

Table 6: Relationship Between Data Sets, Standard Data Product Types, and Archive Volumes
Data Set ID	Product Type	Single Product Volume Files	Multi-Product Volume Files
CO-E/J/S/SW-MIMI-2-LEMMS-UNCALIB-V1.0	LEMMS Pulse Height Analysis data	LPHA0_199925300_199925323_1.CSV	LPHA0_199925300_199925323_1.CSV LPHA0_199925400_199925423_1.CSV LPHA0_199925500_199925523_1.CSV LPHA0_199925600_199925623_1.CSV LPHA0_199925700_199925723_1.CSV
	LEMMS accumulation rate data	LACC0_199925300_199925323_1.CSV	LACC0_199925300_199925323_1.CSV LACC0_199925400_199925423_1.CSV LACC0_199925500_199925523_1.CSV LACC0_199925600_199925623_1.CSV LACC0_199925700_199925723_1.CSV
	LEMMS fine accumulation rate data	LFRT0_199925300_199925323_1.CSV	LFRT0_199925300_199925323_1.CSV LFRT0_199925400_199925423_1.CSV LFRT0_199925500_199925523_1.CSV LFRT0_199925600_199925623_1.CSV LFRT0_199925700_199925723_1.CSV
CO-E/J/S/SW-MIMI-2-CHEMS-UNCALIB-V1.0	CHEMS Pulse Height Analysis data	CPHA0_199925300_199925323_1.CSV	CPHA0_199925300_199925323_1.CSV CPHA0_199925400_199925423_1.CSV CPHA0_199925500_199925523_1.CSV CPHA0_199925600_199925623_1.CSV CPHA0_199925700_199925723_1.CSV
	CHEMS accumulation rate data	CACC0_199925300_199925323_1.CSV	CACC0_199925300_199925323_1.CSV CACC0_199925400_199925423_1.CSV CACC0_199925500_199925523_1.CSV CACC0_199925600_199925623_1.CSV CACC0_199925700_199925723_1.CSV
	CHEMS science rate data	CSCI0_199925300_199925323_1.CSV	CSCI0_199925300_199925323_1.CSV CSCI0_199925400_199925423_1.CSV CSCI0_199925500_199925523_1.CSV CSCI0_199925600_199925623_1.CSV CSCI0_199925700_199925723_1.CSV
CO-E/J/S/SW-MIMI-2-INCA-UNCALIB-V1.0	INCA Pulse Height Analysis data	IPHA0_199925300_199925323_1.CSV	IPHA0_199925300_199925323_1.CSV IPHA0_199925400_199925423_1.CSV IPHA0_199925500_199925523_1.CSV IPHA0_199925600_199925623_1.CSV IPHA0_199925700_199925723_1.CSV
	INCA accumulation rate data	IACC0_199925300_199925323_1.CSV	IACC0_199925300_199925323_1.CSV IACC0_199925400_199925423_1.CSV IACC0_199925500_199925523_1.CSV IACC0_199925600_199925623_1.CSV IACC0_199925700_199925723_1.CSV
	INCA image data	IIMG0_199925300_199925323_1.CSV	IIMG0_199925300_199925323_1.CSV IIMG0_199925400_199925423_1.CSV IIMG0_199925500_199925523_1.CSV IIMG0_199925600_199925623_1.CSV IIMG0_199925700_199925723_1.CSV

3. Archive Volume Contents

This section describes the contents of the MIMI standard product archive collection volumes, including the file names, file contents, file types, and organizations responsible for providing the files. The complete directory structure is shown in Appendix A. All the ancillary files described herein appear on each MIMI archive volume, except where noted.

3.1. Root Directory Contents

The following files are contained in the root directory, and are produced by the PPI Node at UCLA. With the exception of the hypertext file and its label, all of these files are required by the PDS Archive Volume organization standards.

Table 7: Root Directory Contents
File Name	File Contents	File Provided By
AAREADME.TXT	This file completely describes the Volume organization and contents (PDS label attached).	PPI Node
AAREADME.HTM	Hypertext version of AAREADME.TXT (top level of HTML interface to the Archive Volume).	PPI Node
AAREADME.LBL	A PDS detached label that describes AAREADME.HTM.	PPI Node
ERRATA.TXT	A cumulative listing of comments and updates concerning all MIMI Standard Data Products on all MIMI Volumes in the Volume set published to date.	PPI Node
VOLDESC.CAT	A description of the contents of this Volume in a PDS format readable by both humans and computers.	PPI Node

3.2. INDEX Directory Contents

The following files are contained in the INDEX directory and are produced by the PDS PPI Node. The INDEX.TAB file contains a listing of all data products on the archive volume. In addition, there is a cumulative index file (CUMINDEX.TAB) file that lists all data products in the MIMI archive volume set to date. The index and index information (INDXINFO.TXT) files are required by the PDS volume standards. The index tables include both required and optional columns. The cumulative index file is also a PDS requirement; however, this file is not reproduced on each data volume. An online and web accessible cumulative index file is maintained at the PPI Node while archive volumes are being produced. Only the last archive volume in the volume series will contain a cumulative index file.

Table 8: Index Directory Contents
File Name	File Contents	File Provided By
CUMINDEX.TAB	A table listing all MIMI Data Products in the MIMI Archive volume	PPI Node
CUMINDEX.LBL	A PDS detached label that describes CUMINDEX.TAB	PPI Node
INDXINFO.TXT	A description of the contents of this directory	PPI Node
INDEX.TAB	A table listing all MIMI Data Products on this Volume	PPI Node
INDEX.LBL	A PDS detached label that describes INDEX.TAB	PPI Node

3.3. CATALOG Directory Contents

The completed PDS templates in the CATALOG directory provide a top-level understanding of the Cassini/MIMI mission and its data products. The information necessary to create the files is provided by the MIMI team and formatted into standard template formats by the PPI Node. The files in this directory are coordinated with PDS data engineers at both the PPI and the PDS Central Nodes.

Table 9: Catalog Directory Contents
File Name	File Contents	File Provided By
CATINFO.TXT	A description of the contents of this directory	PPI Node
CO_MIMI_CHEMS_ DS.CAT	PDS Data Set catalog description of the data for the CHEMS sensor	MIMI Team
CO_MIMI_INCA_ DS.CAT	PDS Data Set catalog description of the data for the INCA sensor	MIMI Team
CO_MIMI_LEMMS_ DS.CAT	PDS Data Set catalog description of the data for the LEMMS sensor	MIMI Team
CO_MIMI_REF.CAT	MIMI-related references mentioned in other *.CAT files	MIMI Team
INST.CAT	PDS instrument catalog description of the MIMI instrument	MIMI Team
INSTHOST.CAT	PDS instrument host (spacecraft) catalog description of the Cassini spacecraft	Cassini Project
MISSION.CAT	PDS mission catalog description of the Cassini mission	Cassini Project
PERSON.CAT	PDS personnel catalog description of MIMI Team members and other persons involved with generation of MIMI Data Products	MIMI Team
PROJREF.CAT	Cassini Project related references	Project/PPI Node

3.4. DATA (Standard Products) Directory Contents and Naming Conventions

The DATA directory contains the actual Data Products produced by the MIMI team. All Archive Volumes will have the following subdirectories:
LEMMS_ACCUMULATION_RATES,
LEMMS_FINE_ACCUMULATION_RATES,
LEMMS_PULSE_HEIGHT_ANALYSIS,
CHEMS_ACCUMULATION_RATES,
CHEMS_PULSE_HEIGHT_ANALYSIS,
CHEMS_SCIENCE_RATES,
INCA_ACCUMULATION_RATES,
INCA_PULSE_HEIGHT_ANALYSIS
INCA_IMAGES.

3.4.1. Required Files

In the top level of the DATA directory there is a file called DATAINFO.TXT that describes the data organization. In most subdirectories beneath the DATA directory there is a file named INFO.TXT that is an ASCII text description of the directory contents. Every file in the DATA path of an Archive Volume is described by a PDS label. Text documentation files have internal (attached) PDS labels and data files have external (detached) labels. Detached PDS label files have the same root name as the file they describe but have the suffix ".LBL".

The file SPICE_FURNISH.TXT is included at the top level of the DATA directory to provide the user a SPICE Furnish Kernel file that can be loaded. This file identifies the best understood list of those SPICE kernels that should be loaded as of the submission of the volume in order to fully process and understand the data received from the instrument.

3.4.2. DATA / LEMMS_ACCUMULATION RATES Directory Contents

LEMMS Accumulation Rates data contains the counts of the particles measured by the detector broken into channels. Channels are defined based upon the underlying detectors and logic as described in Krimigis, et al, 2004. The highest time resolution of this data is based upon the definition of a spin whether an actual spacecraft spin or a virtualized spacecraft spin. The highest time resolution of the data is then derived by the total amount of time of a spin dived by 256. Each spin is comprised of 16 sectors and each sector is comprised of 16 subsectors. The highest time resolution of LEMMS Accumulation Rates data products then is the total time allocated to a single subsector.

Table 10: LEMMS_ACCUMULATION_RATES Data Directory Contents
File Name	File Contents	File(s) Provided By
LACC*.CSV	LEMMS accumulation rate data file.	MIMI
LACC*.LBL	PDS label for rate data file of same base name.	MIMI

3.4.3. DATA / LEMMS_FINE_ACCUMULATION_RATES Directory Contents

LEMMS Fine Accumulation Rates data contains the counts of the particles measured by a subset of channels. The list of channels included in the Fine Accumluation Rates data product is programmable and does vary over the life of the mission. The highest time resolution of the fine rate data is based upon dividing a subsector into 16 additional bins called microsectors. Hence for any of these channels the highest accumulation time resolution is 1/4096 of a spacecraft spin. In general, the accumulation time resolution for fine rates is 1/2048 of a spacecraft spin - collecting data over two microsectors.

Table 11: LEMMS_FINE_ACCUMULATION_RATES Data Directory Contents
File Name	File Contents	File(s) Provided By
LFRT*.CSV	LEMMS fine accumulation rate data file.	MIMI
LFRT*.LBL	PDS label for fine rate data file of same base name.	MIMI

3.4.4. DATA / LEMMS_PULSE_HEIGHT_ANALYSIS Directory Contents

LEMMS Pulse Height Analysis data contains a subset of the total data set describing the particles observed for each of the A, E1, and F1 detectors. The counts for each detector are broken into 256 bins. The bins are then combined into a subset of 128 channels where the logarithmic energy passbands are evenly divided.

Table 12: LEMMS_PULSE_HEIGHT_ANALYSIS Data Directory Contents
File Name	File Contents	File(s) Provided By
LPHA*.CSV	LEMMS pulse height analysis data file.	MIMI
LPHA*.LBL	PDS label for PHA data file of same base name.	MIMI

3.4.5. DATA / CHEMS_ACCUMULATION_RATES Directory Contents

CHEMS Accumulation Rates data contains the counts detected by the CHEMS telescopes. The counts are divided into DPPS steps which are energy dependent. The CHEMS Accumulation Rates data is to be used for the purposes of calibration and to determine the health of the CHEMS instrument.

Table 13: CHEMS_ACCUMULATION_RATES Data Directory Contents
File Name	File Contents	File Provided By
CACC*.CSV	CHEMS accumulation rate data file.	MIMI
CACC*.LBL	PDS label for accumulator rate data file of same base name.	MIMI

3.4.6. DATA / CHEMS_PULSE_HEIGHT_ANALYSIS Directory Contents

CHEMS Pulse Height Analysis data contains the counts of the particles measured over a subset of the total data collected by the CHEMS instrument. This data set is used primarily for calibration and to determine the health of the instrument.

Table 14: CHEMS_PULSE_HEIGHT_ANALYSIS Data Directory Contents
File Name	File Contents	File(s) Provided By
CPHA*.CSV	CHEMS pulse height analysis data file.	MIMI
CPHA*.LBL	PDS label for PHA data file of same base name.	MIMI

3.4.7. DATA / CHEMS_SCIENCE_RATES Directory Contents

CHEMS Science Rates data is the main data product of the CHEMS instrument. This data product characterizes the mass and mass/charge of the species counted based upon a predefined range value and whether a measurement has single, double, or triple coincidence. All calculations are performed in real time by the MIMI DPU aboard the spacecraft. The maximum time resolution of this data is a subsector per DPPS step with all 16 DPPS steps occurring over a single sector.

Table 15: CHEMS_SCIENCE_RATES Data Directory Contents
File Name	File Contents	File(s) Provided By
CSCI*.CSV	CHEMS science rate data file.	MIMI
CSCI*.LBL	PDS label for science rate data file of same base name.	MIMI

3.4.8. DATA / INCA_ACCUMULATION_RATES Directory Contents

INCA Accumulation Rates data contains the counts of particles measured by the detector. The instrument can either be used to count all particles (charged or neutral) or else the detectors plates can have a potential applied and count neutral particles or else highly energetic charged particles. The maximum time resolution of accumulation of counts is a sector. In general this data is used to determine the health of the instrument.

Table 16: INCA_ACCUMULATION_RATES Data Directory Contents
File Name	File Contents	File(s) Provided By
IACC*.CSV	INCA accumulation rate data file.	MIMI
IACC*.LBL	PDS label for rate data file of same base name.	MIMI

3.4.9. DATA / INCA_IMAGES Directory Contents

INCA Images are the main data product of the instrument showing the flux of particles either charged and neutral or just neutral. The images are presented as a table of counts which are multiplied by the appropriate flux factor matrix taken from the calibration volume to produce the flux of particles seen by the instrument during the observation time.

Table 17: INCA_IMAGES Data Directory Contents
File Name	File Contents	File(s) Provided By
IIMG*.CSV	INCA image data file.	MIMI
IIMG*.LBL	PDS label for the image data file of same base name.	MIMI

3.4.10. DATA / INCA_PULSE_HEIGHT_ANALYSIS Directory Contents

INCA Pulse Height Analysis data contains the counts of the particles measured over a subset of the total data collected by the INCA instrument. This data set is used primarily for calibration and to determine the health of the instrument.

Table 18: INCA_PULSE_HEIGHT_ANALYSIS Data Directory Contents
File Name	File Contents	File(s) Provided By
IPHA*.CSV	INCA pulse height analysis data file.	MIMI
IPHA*.LBL	PDS label for PHA data file of same base name.	MIMI

3.4.11. File Naming Conventions

Data products have names of the following form:

STTTF_YYYYDDD_VVVV.CSV

where

S is for sensor (L for LEMMS, C for CHEMS, or I for INCA),

TTT is for data type (ACC or SCI for rates, FRT for fine rates, PHA for pulse height analysis, or IMG for images),

F is an index, starting with 0-9 and continuing to A-Z, that represents the format version of the file.

YYYYDDDHH is the start year and day of the data product,

VVVV is a numerical index, starting with 0000, that represents the data version of the file. Data used for testing purposes will set VVVV = 'TEST'.

The format and data versions of the file name allow for data formats to change with different phases of the mission and for data to be changed within a specific format. For example the LEMMS instrument has different numbers of priority counters during different phases of the mission. When this type of change is made the format version number will be incremented and the data version index will be reset to zero. When data is updated within a specific LEMMS format the data version number will be incremented. TEST data versions are used to represent test data. Therefore, files with TEST for the data version should not be used except in testing.

3.5. BROWSE Directory Contents and Naming Conventions

The BROWSE directory contains daily summary of the data in the form of Key Parameter data stored as a table file and daily browse plots of the Key Parameter summary data. The BROWSE plots are in the JPG format. Each plot shows sensor specific data derived from the Key Parameter summary data tables. The plots are stored in the subdirectories labeled with the sensors name. The BROWSE directory contains the following instrument data product subdirectories: LEMMS_PLOT, CHEMS_PLOT, and INCA_PLOT.

3.5.1. Required Files

In the top level of the BROWSE directory there is a file called BRWSINFO.TXT that is an ASCII text description describing BROWSE directory files and subdirectory structure. In the subdirectories beneath the BROWSE directory there is a file named INFO.TXT that is an ASCII text description of the directory contents. Every file in the BROWSE path of an Archive Volume is described by a PDS label. Text documentation files have internal (attached) PDS labels and data files have external (detached) labels. Detached PDS label files have the same root name as the file they describe but have the suffix ".LBL".

3.5.2. BROWSE Directory Contents

The BROWSE directory contains the summary Key Parameter (KP) data for the MIMI instrument. The KP data is an interpolated data set calculated at a 60 second cadence (at each minute boundary). The data is calculated from the PDS volume data products and converted into flux with units of 1/(cm^2*sr*sec*KeV). This data provides a basic measurement of the overall inputs received from each sensor on the instrument. The channels included in the data set are based upon those channels which are expected to provide useful and comparative measurements within the overall channel sets for each sensor and between each sensor.

The KP data generated is calculated as a "first look" data product that does not include significant reduction of the data for effects such as instrument efficiencies, background elimination, high data rates due to non particle related effects (such as glint off of the antenna boom), obscuration, etc. This data is not considered to be at a high enough quality to be archived as it's own data product nor is acceptable to be used in publications. Instead, the KP data is there to guide the researcher into particular areas of the observations that are of interest.

Table 19: BROWSE Directory Contents
File Name	File Contents	File Provided By
MIMI_KP_*.TAB	MIMI Key Parameter data	MIMI
MIMI_KP_*.LBL	PDS label for KP data file of same base name.	MIMI

3.5.2.1. CHEMS Browse Plots Directory Contents

Four daily browse plots are provided for the CHEMS sensor showing the detection of specific ions for specified ionization states. Each plot has four curves representing the observed flux groups by Data Processing Steps: Curve 1 - DPPS 0-7, Curve 2 - DPPS 8-15, Curve 3 - DPPS 15-23, Curve 4 - DPPS 24-31.

Table 20: CHEMS Browse Plots Contents
File Name	File Contents	File Provided By
CHEMS_KP_HEP *.JPG	Daily plot of Singly Ionized Helium flux	MIMI
CHEMS_KP_HEPP *.JPG	Daily plot of Doubly Ionized Helium flux	MIMI
CHEMS_KP_HP *.JPG	Daily plot of Singly Ionized Hydrogen flux	MIMI
CHEMS_KP_OP *.JPG	Daily plot of Singly Ionized Oxygen flux	MIMI
CHEMS_KP_HEP *.LBL	PDS Label for CHEMS flux plot	MIMI
CHEMS_KP_HEPP *.LBL	PDS Label for CHEMS flux plot	MIMI
CHEMS_KP_HP *.LBL	PDS Label for CHEMS flux plot	MIMI
CHEMS_KP_OP *.LBL	PDS Label for CHEMS flux plot	MIMI

3.5.2.2. INCA Browse Plots Directory Contents

A single daily browse plot is provided for the INCA sensor showing the summation of the Hydrogen flux observed by all pixels of the sensor for specific Time Of Flight (TOF) values.Each plot has eight curves one for each TOF value. A secondary curve is provided at the lower portion of the plot identifying whether the INCA instrument is in ION or NEUTRAL mode.

Table 21: INCA Browse Plots Contents
File Name	File Contents	File Provided By
INCA_KP_ *.JPG	Daily plot of Hydrogen flux	MIMI
INCA_KP_ *.LBL	PDS Label for INCA flux plot	MIMI

3.5.2.3. LEMMS Browse Plots Directory Contents

Two daily browse plots are provided for the LEMMS sensor showing the detection of electrons and ions. The electron plots show thirteen curves of various energy measurements for both types of electron detection methods: eight C channels representing magnetically deflected electrons and five E channels measuring electron flux into the sensor. A secondary set of curves is provided in the lower portion of the graph plotting the anisotropy measurement of the C5 channel (1.0 - C5_Min/C5_Max) and a plot of the scanning mode of the LEMMS table (either scanning (1) or not scanning (0)). The ion plots show fourteen curves of various energy measurements ions detected from the low energy and high energy telescopes: nine A channels and five P channels. A secondary set of curves is provided in the lower portion of the graph plotting the anisotropy measurement of the A5 channel (1.0 - A5_Min/A5_Max) and a plot of the scanning mode of the LEMMS table (either scanning (1) or not scanning (0)).

Table 22: LEMMS Browse Plots Contents
File Name	File Contents	File Provided By
LEMMS_KP_ELEC *.JPG	Daily plot of electron flux	MIMI
LEMMS_KP_ION *.JPG	Daily plot of ion flux	MIMI
LEMMS_KP_ELEC *.LBL	PDS Label for LEMMS flux plot	MIMI
LEMMS_KP_ION *.LBL	PDS Label for LEMMS flux plot	MIMI

3.5.3. File Naming Conventions

Browse Key Parameter data products names have the following form:

MIMI_KP_YYYYDDD_VVVV.TAB

where

YYYYDDD is the start year and day of the data product,

VVVV is a numerical index, starting with 0000, that represents the data version of the file. Data used for testing purposes will set VVVV = 'TEST'.

The data versions of the file name allow for data to be reprocessed during the mission. When data is updated the data version number will be incremented. TEST data versions are used to represent test data. Therefore, files with TEST for the data version should not be used except in testing.

The BROWSE data plots of the Key Parameter data are stored in the subdirectories for each instrument. Graphical files stored within these subdirectories have the following file name convention:

CHEMS_PLOT:	CHEMS_KP_HEP_YYYYDDD_VVVV.JPG CHEMS_KP_HEPP_YYYYDDD_VVVV.JPG CHEMS_KP_HP_YYYYDDD_VVVV.JPG CHEMS_KP_OP_YYYYDDD_VVVV.JPG
INCA_PLOT:	INCA_KP_YYYYDDD_VVVV.JPG
LEMMS_PLOT:	LEMMS_KP_ION_YYYYDDD_VVVV.JPG LEMMS_KP_ELEC_YYYYDDD_VVVV.JPG

3.6. EXTRAS Directory Contents and Naming Conventions

The EXTRAS directory contains useful files that are helpful in using the Archive volume but they are not specifically required for use with the Archive volume.

4. Reference Volume

The reference volume contains documents and data used to interpret the data products on the archive volumes. Fundamental Technologies, LLC maintains an online, FTP accessible, master version of the reference volume which is mirrored by the PPI node of PDS. Fundamental Technologies, LLC updates the master version as needed and software at the PPI node automatically updates the mirror at the PPI node within one week of changes to the master. The following sections describe the contents of each of the top level directories of the reference volume.

4.1. Root Directory Contents

The following files are contained in the root directory, and are produced by the PPI Node at UCLA. With the exception of the hypertext file and its label, all of these files are required by the PDS Archive Volume organization standards.

Table 23: Root Directory Contents
File Name	File Contents	File Provided By
AAREADME.TXT	This file completely describes the Volume organization and contents (PDS label attached).	PPI Node
AAREADME.HTM	Hypertext version of AAREADME.TXT (top level of HTML interface to the Archive Volume).	PPI Node
AAREADME.LBL	A PDS detached label that describes AAREADME.HTM.	PPI Node
ERRATA.TXT	A cumulative listing of comments and updates concerning all MIMI Standard Data Products on all MIMI Volumes in the Volume set published to date.	PPI Node
VOLDESC.CAT	A description of the contents of this Volume in a PDS format readable by both humans and computers.	PPI Node

4.2. CATALOG Directory Contents

The completed PDS templates in the CATALOG directory provide a top-level understanding of the Cassini/MIMI mission and its data products. The information necessary to create the files is provided by the MIMI team and formatted into standard template formats by the PPI Node. The files in this directory are coordinated with PDS data engineers at both the PPI and the PDS Central Nodes.

Table 24: Catalog Directory Contents
File Name	File Contents	File Provided By
CATINFO.TXT	A description of the contents of this directory	PPI Node
CO_MIMI_CHEMS _DS.CAT	PDS Data Set catalog description of the data for the CHEMS sensor	MIMI Team
CO_MIMI_INCA_ DS.CAT	PDS Data Set catalog description of the data for the INCA sensor	MIMI Team
CO_MIMI_LEMMS _DS.CAT	PDS Data Set catalog description of the data for the LEMMS sensor	MIMI Team
CO_MIMI_REF .CAT	MIMI-related references mentioned in other *.CAT files	MIMI Team
INST.CAT	PDS instrument catalog description of the MIMI instrument	MIMI Team
INSTHOST.CAT	PDS instrument host (spacecraft) catalog description of the Cassini spacecraft	Cassini Project
MISSION.CAT	PDS mission catalog description of the Cassini mission	Cassini Project
PERSON.CAT	PDS personnel catalog description of MIMI Team members and other persons involved with generation of MIMI Data Products	MIMI Team
PROJREF.CAT	Cassini Project related references	Project/PPI Node

4.3. DOCUMENT Directory Contents

The document directory contains documentation that is considered to be either necessary or simply useful for users to understand the archive data set. These documents are not necessarily appropriate for inclusion in the PDS catalog. Documents may be included in multiple forms (ASCII, PDF, MS Word, HTML with image file pointers, etc.). PDS standards require that any documentation deemed required for use of the data be available in some ASCII format. HTML and PostScript are acceptable as ASCII formats in addition to plain text. The following files are contained in the DOCUMENT directory and are produced or collected by the PPI Node.

Table 25: Document Directory Contents
File Name	File Contents	File Provided By
DOCINFO.TXT	A description of the contents of this directory	PPI
INSTRUMENT_PAPER	A directory containing a copy of KRIMIGISETAL2004 (To be included upon receipt of permission from the publisher)	MIMI Team
MIMI_VOLUME_ DESCRIPTION	A directory containing this document.	MIMI Team
Other Document Directories	Any additional documents that are deemed useful in understanding the MIMI instrument.	MIMI Team, PPI

4.3.1. INSTRUMENT_PAPER subdirectory

This directory contains multiple copies of the Instrument paper (KRIMIGISETAL2004) in a variety of formats: Microsoft Word (.doc extension), Adobe Acrobat Reader (.pdf extention), HyperText Layout (.html extension). (This document is to be included upon receipt of permission from the publisher)

4.3.2. MIMI_VOLUME_DESCRIPTION subdirectory

This directory contains multiple copies of the MIMI volume description (this file) in a variety of formats: Microsoft Word (.doc extension), Adobe Acrobat Reader (.pdf extention), HyperText Layout (.html extension).

Table 26: MIMI_VOLUME_DESCRIPTION_FILES Subdirectory Contents
File Name	File Contents	File Provided By
MIMI_VOLUME_ DESCRIPTION .DOC	MIMI Volume Description (MIMI SIS MS Word format)	MIMI Team
MIMI_VOLUME_ DESCRIPTION .HTM	MIMI Volume Description (MIMI SIS HTML format)	MIMI Team
MIMI_VOLUME_ DESCRIPTION .PDF	MIMI Volume Description (MIMI SIS ADOBE Acrobat Reader PDS format)	MIMI Team
HEADER.HTM	MIMI_VOLUME_DESCRIPTION.HTM header and style definition file	MIMI Team
DIRSTRUCT.JPG	Graphical representation of Reference and Data directories in alternative image format	MIMI Team
LEMMSLOOK.JPG	Graphical representation of LEMMS look direction geometry	MIMI Team
Other Document labels	Detached PDS labels for any additional documents/files	PPI

4.4. GEOMETRY Directory Contents

This directory contains three ancillary data products, one for each sensor. These ancillary data products are CSV files with one line containing column headers. Each CSV file contains one or more vector (Cartesian spacecraft coordinates) and scalar values. The vectors represent things like the center of the field of view of the sensor. The scalars represent things like the half angle of the conical aperture of the low energy end of the LEMMS sensor. Each vector or scalar value has its own line in the CSV file. The first column in the line is a description of the value. In the case of vectors, the next three columns are the X, Y and Z values respectively. In the case of a scalar values the second column is simply the value. For the sake of easy parsing lines containing scalar values are padded to four columns. The geometry data for CHEMS and INCA are constant, but, the geometry data for LEMMS contains a variable representing the turn table position.

Table 27: Geometry Directory Contents
File Name	File Contents	File Provided By
GEOINFO.TXT	A description of the contents of this directory	PPI
CHEMS_GEOMETRY .CSV	CHEMS Instrument geometry description	MIMI Team, PPI
INCA_GEOMETRY .CSV	INCA Instrument geometry description	MIMI Team, PPI
LEMMS_GEOMETRY .CSV	LEMMS Instrument geometry description	MIMI Team, PPI
CHEMS_GEOMETRY .LBL	PDS Label for CHEMS instrument geometry description	MIMI Team, PPI
INCA_GEOMETRY .LBL	PDS Label for INCA instrument geometry description	MIMI Team, PPI
LEMMS_GEOMETRY .LBL	PDS Labor for LEMMS instrument geometry description	MIMI Team, PPI

4.5. Calibration Directory Contents

The calibration directory has two types of files Algorithms (*.ALG) and Calibration Data (*.CSV). Algorithm files contain brief descriptions of how to obtain useful, physical quantities from the data products. Calibration Data files are formatted as CSV files with the quantities required to execute the algorithms in the Algorithms subdirectory. Included with each text file are attached PDS labels.

Table 28: Calibration Directory Contents
File Name	File Contents	File Provided By
CALINFO.TXT	A description of the contents of this directory	PPI Node
CACC*_ALGO_*.TXT	CHEMS accumulation algorithm file	MIMI
CPHA*_ ALGO _*. TXT	CHEMS pulse height analysis algorithm file	MIMI
CSCI*_ ALGO _*. TXT	CHEMS science rates algorithm file	MIMI
IACC*_ ALGO _*. TXT	INCA accumulation algorithm file	MIMI
IIMG*_ ALGO _*. TXT	INCA image rates algorithm file	MIMI
IPHA*_ ALGO _*. TXT	INCA pulse height analysis algorithm file	MIMI
LACC*_ ALGO _*. TXT	LEMMS Accumulation algorithm file	MIMI
LFRT*_ ALGO _*. TXT	LEMMS fine rates accumulation algorithm file	MIMI
LPHA*_ ALGO _*. TXT	LEMMS pulse height analysis algorithm file	MIMI
MIMI_CALIBRATION_VVVV .CSV	Calibration data for all instruments	MIMI
MIMI_CALIBRATION_VVVV .LBL	PDS Label for MIMI calibration file	MIMI
IIMG_FACTOR_SEGMENTS_ VVVV.CSV	Time segment information for INCA image calibration files	MIMI
IIMG_FACTOR_SEGMENTS_ VVVV.LBL	PDS Label for INCA segment file	MIMI

4.5.1. Algorithm File

A single algorithm file is provided to enable the conversion of the Level 1A data products into Level 2 data products. In general, the highest version numbered file should be used. Older versions are present for completeness and validation. The algorithm file contains an ASCII text only description of how to calculate useful, physical values from each column of a data product type. The algorithm file contains brief descriptions with step by step instructions on how to produce higher level data products. The algorithms are not intended to fully explain the physical meaning of the calibration, but, to provide a handy reference for people who already have a working understanding of the science and the instrument. Algorithm file names obey the following format:

MIMI_ALGO_VVVV.TXT

where

VVVV is a numerical index, starting with 0000, that represents the data version of the file. Data used for testing will have VVVV = 'TEST'.

The algorithm file contains references into the both the data calibration file and instrument data files to specific fields using a shorthand notation. The shorthand notation is:

<purpose>:<data_type>:<sensor>:<channel:channelID>:<mpv> or

<purpose>:<data_type>:<sensor>:<channel:channelID>:<delta>

where:

<purpose> is given by the type of calculation

<data_type> is based upon the original source of data

<Sensor> identifies the sensor whose data we are working with

<channel:channelID> identifies the specific or general set of channels

<mpv> is the Midpoint Value

<delta> is the Passband delta value.

An example algorithm for the calculation of flux using the LEMMS accumulation rates:

FLUX EQUATION:

flux = (count-background)/(duration*geom_fact*passband *factor)

RESULT VARIABLES:

flux: the result of the calibration in nucleon/(cm^2*sec*sr*KeV)

INPUT VARIABLES FROM A DATA PRODUCT:

Count = LACC:dp:sci:(detector_channel), a count from a LEMMS accumulation data product

duration = Endtime - Starttime, Duration is a calculated value from two data product columns

Endtime = LACC:dp:sci:End_Ephemeris_s, the ending time of the measurement in seconds

Starttime = LACC:dp:sci:Start_Ephemeris_s, the starting time of the measurement in seconds

INPUT VARIABLES FROM A CALIBRATION FILE:

Passband = Energy: ACC:LEMMS:(Channel:ID):(Particle):Delta, Passband is the derived energy passband delta for the specific channel of the LEMMS sensor in KeV

geom_fact = GEOM_FACTOR:ACC:LEMMS:(Channel:ID):(Particle):Midpoint_Value, the geometrical factor is in cm^2*sr

VARIBLES TO BE PROVIDED BY DATA USERS:

factor: a catch all scaling factor used to account for obscuration by parts of the spacecraft and other phenomenon that cause count rates to be lower than they should be based on geometrical factors and pass bands. Factor will vary with turntable position and with spacecraft position/attitude. Using a factor of 1.0 will produces fluxes not corrected for obscuration and other factors of this nature.

background: a catch all offset used to account for glint off the magnetometer boom, background and other sources of events that should not be considered. Using a background of 0.0 will produce fluxes not corrected for this phenomenon.

4.5.2. Data Calibration File

The calibration data for each sensor of the MIMI instrument have been compiled into a single file. Each calibration data file for the instrument represents a revision. In general, the highest version numbered file should be used. Older versions are present for completeness and validation. The calibration data file is a CSV file, see section 6 for details.

MIMI_CALIBRATION_VVVV.CSV

where

VVVV is an index, starting with 0000, that represents the data version of the file. Data used for testing will have VVVV = 'TEST'.

4.5.3. INCA_IMAGES subdirectory

The calibration data for the conversion of the INCA image count rate data into flux images is contained with in the INCA_IMAGES subdirectories. For each segment of operations a subdirectory is created that contains the INCA_IMAGES flux conversion matrices. As of this writing there are three operations segments of the INCA mission: postFlightv34, postJupiter, and preJupiter. The REAME.TXT file contains the current list of segments along with the starting and ending times of each segment in the form of a standard ASCII date/time string, e.g. 1997-244T00:00:00.000. This file also contains the revision history of the flux factor matrix subdirectories and associated data values.

4.5.3.4. INCA_IMAGES_(SEGMENT) subdirectory structure and files

The various subdirectories for each segment contain two subdirectories of flux factor matrices for when the spacecraft is in spinning mode and when the spacecraft is in staring mode. The files contained within these subdirectories are the flux factor matrices that are used to convert the raw image data contained in the INCA_IMAGES data product into fluxes. The file naming convention used for these files is as follows:

XXxXX_tofY.csv where XX is the matrix size (8, 16, 32, or 64) and Y is the time of flight (0-7).

5. Archive Volume Format

This section describes the format of MIMI standard product archive volumes. Data that comprise the MIMI standard product archives will be formatted in accordance with Planetary Data System specifications [Planetary Science Data Dictionary, 2002; PDS Archive Preparation Guide, 2005; PDS Standards Reference, 2005].

5.1. Disk Format

Disk formats for the archive volumes will conform to the PDS standard for the applicable media. At present, the plan is to archive MIMI data on DVD-R media. The PDS standard for DVD-R media disk format is ISO-UDF Bridge.

5.2. File Formats

The following section describes file formats for the kinds of files contained on Archive Volumes.

5.2.1. Delimited Field File Formats

Delimited field, ASCII data files (.CSV suffix) exist in the DATA and INDEX directories. These files are formatted for direct reading into many database management systems on various computers. In the MIMI application of the delimited field format, fields are separated by commas. Records vary in length in bytes but will have a fixed number of fields. Missing data are represented by empty fields. All delimited field files are described by detached PDS labels

All data files in the MIMI Standard Product Archive Collection have PDS labels [Planetary Science Data Dictionary, 2002; PDS Standards Reference, 2005. These labels are all detached from the data files (same file name prefix, .LBL suffix).

A PDS label, whether embedded or detached from its associated file, provides descriptive information about the associated file. The PDS label is an object-oriented structure consisting of sets of 'keyword = value' declarations. The object that the label refers to (e.g., IMAGE, TABLE, etc.) is denoted by a statement of the form:

^object = location

in which the carat character (^, also called a pointer in this context) indicates where to find the object. In a PDS label, the location denotes the name of the file containing the object, along with the starting record or byte number, if there is more than one object in the file. For example:

^HEADER = ("98118.TAB",1)

^TABLE = ("98118.TAB",1025 <BYTES>)

indicates that the HEADER object begins at record 1 and that the TABLE object begins at byte 1025 of the file 98118.TAB. The file 98118.TAB must be located in the same directory as the detached label file.

Below is a list of the possible formats for the ^object definition in labels in this product.

^object = n

^object = n <BYTES>

^object = "filename.ext"

^object = ("filename.ext", n)

^object = ("filename.ext", n <BYTES>)

where

n is the starting record or byte offset of the object, counting from the beginning of the file (record 1,byte 1),

<BYTES> indicates that the number given is in units of bytes (the default is records),

filename is the up-to-27-character, alphanumeric upper-case file name,

ext is the up-to-3-character upper-case file extension.

All detached labels contain 80-byte fixed-length records, with a carriage return character (ASCII 13) in the 79th byte and a line feed character (ASCII 10) in the 80th byte. This allows the files to be read by the MacOS, DOS, Windows, UNIX, OS2, and VMS operating systems.

5.2.2. General Data Product Format

All MIMI data products are CSV files that contain a series of homogenous records. Records consist of a record header followed by data. Each file contains one line of column headers. Column headers apply to the first line in a record and are the same as the field name in the tables below. Blank fields indicate that the field is not applicable in the context of the record, the data is not available, is out of tolerance, or is otherwise not suitable for archiving. The record header format is as follows. The Purpose field usually contains SCI, meaning the record contains data intended for use as science data. For a partial list of possible values for the Purpose field, see Appendix B. It should be noted that purpose codes can be added as specific needs are identified without fully reprocessing earlier data files.

Table 29: MIMI Data Product Record Header Format
Field Name	Type	Units	Range
PURPOSE	string	n/a	[scivalid, minvalid, max, min, mean,]
START_EPHEMERIS_S	float	seconds	[-7.0E7-1.5E9]
END_EPHEMERIS_S	float	seconds	[-7.0E7-1.5E9]
SPIN_COUNTER	integer	n/a	[0-16383]
SECTOR	integer	n/a	[0-15]
START_SECTOR_ SCLOCK_MAJOR	integer	n/a	[0- 4000000000]
SUBSECTOR	Integer	n/a	[0-15]
MICROSECTORS_ COVERED	integer	n/a	[0-1024]
SPIN_PERIOD_S	float	seconds	[680-3072]
STARING	integer	n/a	[0-1]

5.2.3. MIMI LEMMS Data Product Formats

There are three data products covering any given time in the LEMMS data set: One contains subsector accumulations for all of the LEMMS detectors, one contains microsector accumulations for the LEMMS priority detectors and one contains PHA data. The microsector accumulations are referred to as fine rates to indicate their high time resolution. The three tables below show the formats of the records for each of the three data products. The number of priority counters in the rates and fine rates data products and which channels are used as priority counters can vary based upon the mission needs. Each set of priority counters is reflected in a new format version of the data product.

Table 30: LEMMS Rates Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Channel_A0	integer	n/a	[0-4E5]
Channel_A1	integer	n/a	[0-4.E5]
Channel_A2	integer	n/a	[0-4.E5]
Channel_A3	integer	n/a	[0-4.E5]
Channel_A4	integer	n/a	[0-4.E5]
Channel_A5	integer	n/a	[0-4.E5]
Channel_A6	integer	n/a	[0-4.E5]
Channel_A7	integer	n/a	[0-4.E5]
Channel_A8	integer	n/a	[0-4.E5]
Channel_B0	integer	n/a	[0-4.E5]
Channel_B1	integer	n/a	[0-4.E5]
Channel_B2	integer	n/a	[0-4.E5]
Channel_B3	integer	n/a	[0-4.E5]
Channel_BE	integer	n/a	[0-4.E5]
Channel_C0	integer	n/a	[0-4.E5]
Channel_C1	integer	n/a	[0-4.E5]
Channel_C2	integer	n/a	[0-4.E5]
Channel_C3	integer	n/a	[0-4.E5]
Channel_C4	integer	n/a	[0-4.E5]
Channel_C5	integer	n/a	[0-4.E5]
Channel_C6	integer	n/a	[0-4.E5]
Channel_C7	integer	n/a	[0-4.E5]
Channel_AS	integer	n/a	[0-4.E5]
Channel_BS	integer	n/a	[0-4.E5]
Channel_ES	integer	n/a	[0-4.E5]
Channel_E2_F2S	integer	n/a	[0-4.E5]
Channel_FS	integer	n/a	[0-4.E5]
Channel_E0	integer	n/a	[0-4.E5]
Channel_E1	integer	n/a	[0-4.E5]
Channel_E2	integer	n/a	[0-4.E5]
Channel_E3	integer	n/a	[0-4.E5]
Channel_E4	integer	n/a	[0-4.E5]
Channel_E5	integer	n/a	[0-4.E5]
Channel_E6	integer	n/a	[0-4.E5]
Channel_E7	integer	n/a	[0-4.E5]
Channel_G1	integer	n/a	[0-4.E5]
Channel_P1	integer	n/a	[0-4.E5]
Channel_P2	integer	n/a	[0-4.E5]
Channel_P3	integer	n/a	[0-4.E5]
Channel_P4	integer	n/a	[0-4.E5]
Channel_P5	integer	n/a	[0-4.E5]
Channel_P6	integer	n/a	[0-4.E5]
Channel_P7	integer	n/a	[0-4.E5]
Channel_P8	integer	n/a	[0-4.E5]
Channel_P9	integer	n/a	[0-4.E5]
Channel_H1	integer	n/a	[0-4.E5]
Channel_H2	integer	n/a	[0-4.E5]
Channel_H3	integer	n/a	[0-4.E5]
Channel_H4	integer	n/a	[0-4.E5]
Channel_H5	integer	n/a	[0-4.E5]
Channel_Z1	integer	n/a	[0-4.E5]
Channel_Z2	integer	n/a	[0-4.E5]
Channel_Z3	integer	n/a	[0-4.E5]
Channel_D1	integer	n/a	[0-4.E5]
Channel_D2	integer	n/a	[0-4.E5]
Channel_D3	integer	n/a	[0-4.E5]
Channel_D41	integer	n/a	[0-4.E5]
Priority_Counter_ 0_XX_Sum	integer	n/a	[0-4.E5]
Priority_Counter_ 1_YY_Sum	integer	n/a	[0-4.E5]
Priority_Counter_ ..._... _Sum	integer	n/a	[0-4.E5]
Priority_Counter_ N_ZZ_Sum	integer	n/a	[0-4.E5]
Center_Look_Angle_ degrees	float	degrees	[0.000000-360.000000]

Table 31: LEMMS Fine Rate Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Microsector	integer	n/a	[0-15]
XX	integer	n/a	[0-40000]
YY	integer	n/a	[0-40000]
...	integer	n/a	[0-40000]
ZZ (nth priority counter)	integer	n/a	[0-40000]
Center_Look_Angle_ degrees	float	degrees	[0.000000-360.000000]

Table 32: LEMMS PHA Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Detector_A_Bin_0	integer	n/a	[0-65534]
...	...	...	...
Detector_A_Bin_63	integer	n/a	[0-65534]
Detector_E_Bin_0	integer	n/a	[0-65534]
...	...	...	...
Detector_E_Bin_63	integer	n/a	[0-65534]
Detector_F1_Bin_0	integer	n/a	[0-65534]
...	...	...	...
Detector_F1_Bin_63	integer	n/a	[0-65534]
Center_Look_Angle_ degrees	float	degrees	[0.000000-360.000000]

5.2.4. MIMI CHEMS Data Product Formats

There are three data products covering any given time in the CHEMS data set: two containing RATE data for the CHEMS detectors and one containing PHA data. Each of these files is homogeneous with respect to record format. The three tables below show the formats of the records for each of the data products.

Table 33: CHEMS Accumulator Rates Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
DPPS_Level	integer	n/a	[0-2147483646]
Start_Head_1	integer	n/a	[0-2147483646]
Start_Head_2	integer	n/a	[0-2147483646]
Start_Head_3	integer	n/a	[0-2147483646]
Start_Sum	integer	n/a	[0-2147483646]
Stop_Head_1	integer	n/a	[0-2147483646]
Stop_Head_2	integer	n/a	[0-2147483646]
Stop_Head_3	integer	n/a	[0-2147483646]
Stop_Sum	integer	n/a	[0-2147483646]
Energy_Head_1	integer	n/a	[0-2147483646]
Energy_Head_2	integer	n/a	[0-2147483646]
Energy_Head_3	integer	n/a	[0-2147483646]
Energy_Sum	integer	n/a	[0-2147483646]
DCR_Head_1	integer	n/a	[0-2147483646]
DCR_Head_2	integer	n/a	[0-2147483646]
DCR_Head_3	integer	n/a	[0-2147483646]
DCR_Sum	integer	n/a	[0-2147483646]
TCR_Head_1	integer	n/a	[0-2147483646]
TCR_Head_2	integer	n/a	[0-2147483646]
TCR_Head_3	integer	n/a	[0-2147483646]
TCR_Sum	integer	n/a	[0-2147483646]
UFSR	integer	n/a	[0-2147483646]
URSR	integer	n/a	[0-2147483646]

Table 34: CHEMS Science Rates Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
DPPS_Level	integer	n/a	[0-31]
Range_0_Tele_1	integer	n/a	[0-65534]
Range_0_Tele_2	integer	n/a	[0-65534]
Range_0_Tele_3	integer	n/a	[0-65534]
Range_0_Sum	integer	n/a	[0-196602]
Range_1_Tele_1	integer	n/a	[0-65534]
Range_1_Tele_2	integer	n/a	[0-65534]
Range_1_Tele_3	integer	n/a	[0-65534]
Range_1_Sum	integer	n/a	[0-196602]
Range_2_Tele_1	integer	n/a	[0-65534]
Range_2_Tele_2	integer	n/a	[0-65534]
Range_2_Tele_3	integer	n/a	[0-65534]
Range_2_Sum	integer	n/a	[0-196602]
Range_3_Tele_1	integer	n/a	[0-65534]
Range_3_Tele_2	integer	n/a	[0-65534]
Range_3_Tele_3	integer	n/a	[0-65534]
Range_3_Sum	integer	n/a	[0-196602]
Range_4_Tele_1	integer	n/a	[0-65534]
Range_4_Tele_2	integer	n/a	[0-65534]
Range_4_Tele_3	integer	n/a	[0-65534]
Range_4_Sum	integer	n/a	[0-196602]
Range_5_Tele_1	integer	n/a	[0-65534]
Range_5_Tele_2	integer	n/a	[0-65534]
Range_5_Tele_3	integer	n/a	[0-65534]
Range_5_Sum	integer	n/a	[0-196602]
Range_6_Tele_1	integer	n/a	[0-65534]
Range_6_Tele_2	integer	n/a	[0-65534]
Range_6_Tele_3	integer	n/a	[0-65534]
Range_6_Sum	integer	n/a	[0-196602]
He_Plus_Doubles	integer	n/a	[0-65534]
He_Plus_Triples	integer	n/a	[0-65534]
He_Plus_2_Doubles	integer	n/a	[0-65534]
He_Plus_2_Triples	integer	n/a	[0-65534]
O_Plus_Doubles_Tele _1	integer	n/a	[0-65534]
O_Plus_Doubles_Tele _2	integer	n/a	[0-65534]
O_Plus_Doubles_Tele _3	integer	n/a	[0-65534]
O_Plus_Triples_Tele _1	integer	n/a	[0-65534]
O_Plus_Triples_Tele _2	integer	n/a	[0-65534]
O_Plus_Triples_Tele _3	integer	n/a	[0-65534]
O_Plus_2_Doubles	integer	n/a	[0-65534]
O_Plus_2_Triples	integer	n/a	[0-65534]
CNO_over_4_and_T	integer	n/a	[0-65534]
Energy_Underflow	integer	n/a	[0-65534]
Energy_Overflow	integer	n/a	[0-65534]
TOF_Underflow	integer	n/a	[0-65534]
TOF_Overflow	integer	n/a	[0-65534]
Mass_Overflow	integer	n/a	[0-65534]
M_Over_Q_Underflow	integer	n/a	[0-65534]
M_Over_Q_Overflow	integer	n/a	[0-65534]
O_Plus_Doubles_Sum	integer	n/a	[0-196602]
O_Plus_Triples_Sum	integer	n/a	[0-196602]

Table 35: CHEMS PHA Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Index_in_Sector	integer	n/a	[0-30000]
DPPS_Level	integer	n/a	[0-31]
Energy	integer	n/a	[0-1023]
Time_of_Flight	integer	n/a	[0-1023]
Solid_State_Detector	integer	n/a	[0-3]
Start_Micro_Channel _Plate	integer	n/a	[0-3]
Range	integer	n/a	[0-6]

5.2.5. MIMI INCA Data Product Formats

There are three data product types for the INCA sensor. Two of these types, the RATE and PHA data have records on one line but the format of IMAGE data products is more complicated. The three tables below show the format of the records for the RATE, PHA and IMAGE data products respectively.

Table 36: INCA Rates Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Start_Fast	integer	n/a	[0-1E7]
Start_Pulse	integer	n/a	[0-1E7]
Start_Coincidence	integer	n/a	[0-1E7]
Stop_Fast	integer	n/a	[0-1E7]
Stop_Pulse	integer	n/a	[0-1E7]
Full	integer	n/a	[0-1E7]
Coincidence	integer	n/a	[0-1E7]
Time	integer	n/a	[0-1E7]
Stop_Coincidence	integer	n/a	[0-1E7]
Events_Received	integer	n/a	[0-1E7]
Events_Processed	integer	n/a	[0-1E7]

Table 37: INCA PHA Data File Contents and Structure
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Index_in_Four_ Subsectors	Integer	n/a	[0-500]
Coincidence	integer	n/a	[0-1]
Start_Stop	integer	n/a	[0-1]
Pulse_Height_Front	integer	n/a	[0-255]
Pulse_Height_Rear	integer	n/a	[0-255]
Time_of_Flight	integer	n/a	[0-65535]
Azimuth	integer	n/a	[0-63]
Elevation	integer	n/a	[0-47]
Mass_Range	integer	n/a	[0-31]

The INCA image files consist of a line of column headers then alternating image descriptions and image data. One line of image data consists of 64 counts followed by 64 exposure factors. The data for one image consists of 64 lines. Thus when, viewed in a spreadsheet, there will be a 64 by 64 region representing the counts next to a 64 by 64 region representing exposure factors. If images are smaller than 64 by 64 the right most columns are padded with empty fields and only those rows that apply are included within the file.

Table 38: MIMI/INCA Image Description Format
Field Name	Type	Units	Range
Header	See Table 29: MIMI Data Product Record Header Format
Type_ID	integer	n/a	[0-65535]
Row_ID	integer	n/a	[0-63]
Num_Rows	integer	n/a	[8-64]
Num_Cols	integer	n/a	[8-64]
Compression_Bits	integer	n/a	[0-65535]
Compression_Method	string	n/a	[None, Fast, Rice]
Log_Compressed	integer	n/a	[0-1]
Theta_Offset	integer	n/a	[0-31]
Phi_Offset	integer	n/a	[0-61]
High_Resolution	string	n/a	[Spatial, Time, m-TOF]
Charged	integer	n/a	[0-1]
Species	string	n/a	[H, He, CNO, Heavy, Other, All]
TOF	integer	n/a	[0-7]
Col_0	integer	n/a	[0-65535]
Col_1	integer	n/a	[0-65535]
Col_2	integer	n/a	[0-65535]
Col_3	integer	n/a	[0-65535]
Col_4	integer	n/a	[0-65535]
Col_5	integer	n/a	[0-65535]
Col_6	integer	n/a	[0-65535]
Col_7	integer	n/a	[0-65535]
Col_8	integer	n/a	[0-65535]
Col_9	integer	n/a	[0-65535]
Col_10	integer	n/a	[0-65535]
Col_11	integer	n/a	[0-65535]
Col_12	integer	n/a	[0-65535]
Col_13	integer	n/a	[0-65535]
Col_14	integer	n/a	[0-65535]
Col_15	integer	n/a	[0-65535]
Col_16	integer	n/a	[0-65535]
Col_17	integer	n/a	[0-65535]
Col_18	integer	n/a	[0-65535]
Col_19	integer	n/a	[0-65535]
Col_20	integer	n/a	[0-65535]
Col_21	integer	n/a	[0-65535]
Col_22	integer	n/a	[0-65535]
Col_23	integer	n/a	[0-65535]
Col_24	integer	n/a	[0-65535]
Col_25	integer	n/a	[0-65535]
Col_26	integer	n/a	[0-65535]
Col_27	integer	n/a	[0-65535]
Col_28	integer	n/a	[0-65535]
Col_29	integer	n/a	[0-65535]
Col_30	integer	n/a	[0-65535]
Col_31	integer	n/a	[0-65535]
Col_32	integer	n/a	[0-65535]
Col_33	integer	n/a	[0-65535]
Col_34	integer	n/a	[0-65535]
Col_35	integer	n/a	[0-65535]
Col_36	integer	n/a	[0-65535]
Col_37	integer	n/a	[0-65535]
Col_38	integer	n/a	[0-65535]
Col_39	integer	n/a	[0-65535]
Col_40	integer	n/a	[0-65535]
Col_41	integer	n/a	[0-65535]
Col_42	integer	n/a	[0-65535]
Col_43	integer	n/a	[0-65535]
Col_44	integer	n/a	[0-65535]
Col_45	integer	n/a	[0-65535]
Col_46	integer	n/a	[0-65535]
Col_47	integer	n/a	[0-65535]
Col_48	integer	n/a	[0-65535]
Col_49	integer	n/a	[0-65535]
Col_50	integer	n/a	[0-65535]
Col_51	integer	n/a	[0-65535]
Col_52	integer	n/a	[0-65535]
Col_53	integer	n/a	[0-65535]
Col_54	integer	n/a	[0-65535]
Col_55	integer	n/a	[0-65535]
Col_56	integer	n/a	[0-65535]
Col_57	integer	n/a	[0-65535]
Col_58	integer	n/a	[0-65535]
Col_59	integer	n/a	[0-65535]
Col_60	integer	n/a	[0-65535]
Col_61	integer	n/a	[0-65535]
Col_62	integer	n/a	[0-65535]
Col_63	integer	n/a	[0-65535]

5.2.6. MIMI BROWSE Data Product Formats

There is a single data product covering any given time in the BROWSE data set. The product contains the values of each channel interpolated to the sixty second cadence of the KP data. The channel sets included within the KP data set are provided to show as best a relative comparison between the products produced by each sensor as possible. The data set identifies fill or missing data by the value of -9999. The following table identifies the characteristics of each included channel within the KP data.

Table 39: BROWSE Data File Contents and Structure
Field Name	Type	Units	Range
UTC	character	time	n/a
LEMMS_A0	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A1	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A2	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A3	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A4	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A5	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A6	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_A8	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C0	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C1	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C2	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C3	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C4	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C5	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C6	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_P1	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_P2	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_P3	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_P4	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_P5	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_E0	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_E1	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_E2	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_E3	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_E4	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
LEMMS_C5_Anisotropy	real	n/a	[-9999, 0.0-1.0]
LEMMS_A5_Anisotropy	real	n/a	[-9999, 0.0-1.0]
LEMMS_Scanning	character	n/a	[yes, no]
CHEMS_H_Plus_DPPS_ 0_7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_H_Plus_DPPS_ 8_15	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_H_Plus_DPPS_ 16_23	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_H_Plus_DPPS_ 24_31	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_DPPS_ 0_7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_DPPS_ 8_15	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_DPPS_ 16_23	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_DPPS_ 24_31	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_2_DPPS _0_7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_2_DPPS _8_15	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_2_DPPS _16_23	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_He_Plus_2_DPPS _24_31	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_O_Plus_DPPS_0_ 7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_O_Plus_DPPS_8_ 15	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_O_Plus_DPPS_16 _23	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
CHEMS_O_Plus_DPPS_24 _31	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_0	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_1	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_2	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_3	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_4	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_5	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_6	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_H_TOF_7	real	1/(cm^2*sr*sec *KeV)	[-9999, 0.0-1.0e8]
INCA_Mode	character	n/a	[neutral, ion]

5.2.6.5. CHEMS/INCA/LEMMS Daily BROWSE Plots format

All CHEMS/INCA/LEMMS daily plots are stored in the JPEG bit-mapped graphics format as specified in the JPEG specifications and W3C white papers at the following locations: www.jpeg.org/ and www.w3.org/Graphics/JPEG/jfif.txt.

6. Reference Volume Format

This section describes the format of MIMI standard product archive volumes. Data that comprise the MIMI standard product archives will be formatted in accordance with Planetary Data System specifications [Planetary Science Data Dictionary, 2002; PDS Standards Reference,2003].

6.1. Disk Format

Disk formats for the archive volumes will conform to the PDS standard for the applicable media. At present, the plan is to archive MIMI data on DVD-R media. The PDS standard for DVD-R media disk format is ISO-UDF Bridge.

6.2. File Formats

The following section describes file formats for the kinds of files contained on reference Volume.

6.2.1. Document File Formats

Document files with the .TXT suffix exist throughout the archive volume. These files are ASCII files with embedded PDS labels. All document files contain variable-length, 80-byte maximum records; with a carriage return character (ASCII 13) in the 79th byte and a line feed character (ASCII 10) in the 80th byte. This allows the files to be read by the MacOS, DOS, Windows, UNIX, OS2, and VMS operating systems. All documents that do not include the .TXT extension are described by detached PDS labels.

However, the documents in the reference volume contain formatting and figures that cannot be rendered as pure ASCII text. These documents will be provided in formats that support graphics, such as HTML, MS Word, PDF, etc. The PDS requirement that all documentation critical to the understanding of the data set be provided in ASCII text form will be met by the inclusion of HTML formatted documents.

6.2.2. Catalog File Formats

Catalog files (suffix .CAT) exist in the Root and Catalog directories. They are formatted in an object-oriented structure consisting of sets of 'keyword = value' declarations. All files are ASCII and conform to the same structure standards (line length, line terminator) as the PDS label files described in the previous section.

6.2.3. Delimited Field File Formats

Delimited field, ASCII data files (.CSV suffix) exist in the CALIBRATION directory. These files are formatted for direct reading into many database management systems on various computers. In the MIMI application of the delimited field format, fields are separated by commas. Records vary in length in bytes but will have a fixed number of fields. Missing data are represented by empty fields. All delimited field files are described by detached PDS labels

All data files in the MIMI Standard Product Archive Collection have PDS labels [Planetary Science Data Dictionary, 2002; PDS Archive Preparation Guide, 2005; PDS Standards Reference, 2005]. These labels are all detached from the data files (same file name prefix, .LBL suffix).

A PDS label, whether embedded or detached from its associated file, provides descriptive information about the associated file. The PDS label is an object-oriented structure consisting of sets of 'keyword = value' declarations. The object that the label refers to (e.g., IMAGE, TABLE, etc.) is denoted by a statement of the form:

^object = location

in which the carat character (^, also called a pointer in this context) indicates where to find the object. In a PDS label, the location denotes the name of the file containing the object, along with the starting record or byte number, if there is more than one object in the file. For example:

^HEADER = ("98118.TAB",1)

^TABLE = ("98118.TAB",1025 <BYTES>)

indicates that the HEADER object begins at record 1 and that the TABLE object begins at byte 1025 of the file 98118.TAB. The file 98118.TAB must be located in the same directory as the detached label file.

Below is a list of the possible formats for the ^object definition in labels in this product.

^object = n

^object = n <BYTES>

^object = "filename.ext"

^object = ("filename.ext", n)

^object = ("filename.ext", n <BYTES>)

where

n is the starting record or byte offset of the object, counting from the beginning of the file (record 1,byte 1),

<BYTES> indicates that the number given is in units of bytes (the default is records),

filename is the up-to-8-character, alphanumeric upper-case file name,

ext is the up-to-3-character upper-case file extension.

All detached labels contain 80-byte fixed-length records, with a carriage return character (ASCII 13) in the 79th byte and a line feed character (ASCII 10) in the 80th byte. This allows the files to be read by the MacOS, DOS, Windows, UNIX, OS2, and VMS operating systems.

6.2.4. General Calibration Product Format

All MIMI calibration products are either text files with embedded PDS labels that contain algorithms or else CSV files with detached PDS labels that contain a series of homogenous records. CSV Records consist of one line of column headers. Column headers apply to the first line in a record and are the same as the field name in the tables below. Blank fields indicate that the field is not applicable in the context of the record, the data is not available, is out of tolerance, or is otherwise not suitable for archiving. The record header format is as follows. The Purpose field identifies the type of calibration data. For a partial list of possible values for the Purpose field, see Appendix B. It should be noted that purpose codes can be added as specific needs are identified without fully reprocessing earlier data files. The Start Ephemeris Time and Duration identify the starting and ending times that this calibration file is applicable. The main calibration file (MIMI_ CALIBRATION_XXXX.CSV) is used to contain all the calibration information represented by the three MIMI detectors and are collected within a single file for ease of understanding the various dynamics ranges available from the instrument.

Table 40: MIMI Calibration Product Record Format
Field Name	Type	Units	Range
Purpose	String	n/a	[ENERGY, ENERGY/CHARGE, MASS, MASS/CHARGE, GEOM_FACTOR, EFFICIENCY, FOV, E/NUC_A, E/NUC_B]
Data_Type	String	n/a	[ACC, FRT, PHA, IMG, SCI]
Sensor	String	n/a	[LEMMS, CHEMS, INCA]
Channel	String	n/a	Alphabetical values
Channel_Index	Integer	n/a	[0-63]
Particle	String	n/a	[e,P,He,C,O,Fe,Xray,ALL, He+, He++, O+, O++, H, O]
Start_Year	Integer	n/a	[1997-2030]
Start_DDOY	Integer	n/a	[0.000 - 365.99999999]
Stop_Year	Integer	n/a	[1997-2030]
Stop_DDOY	Integer	n/a	[0.000 - 365.99999999]
Units	String	n/a	[KeV, KeV/e, amu, amu/e, cm^2*sr, NA, degrees]
Low	Float	n/varied	[0-1E5]
Hi	Float	varied	[0-1E5]
Delta	Float	varied	[0-1E5]
Midpoint_Value	Float	varied	[0-1E3]

6.2.5. INCA Image Segment Calibration File

The INCA image segment calibration file identifies the time segments for which the INCA flux factor matrices cover.

Table 41: INCA Image Segment File Record Format
Field Name	Type	Units	Range
Start_Year	Integer	n/a	[1997 - 2030]
Start_DDOY	Float	n/a	[0.000 - 365.99999999]
End_Year	Integer	n/a	[1997 - 2030]
End_DDOY	Float	n/a	[0.000 - 365.99999999]
Segment_Name	String	n/a	[postFlightv34, postJupiter]

6.2.6. INCA Flux Factor Matrix Calibration Files

There are three flux factor calibration files for the INCA Images. Each of the files is based upon the spatial resolution used at the time of observation as well as the programmed TOF (time of flight) value used during the observation. The flux factor calibration files do not contain headers.

Table 42: INCA 8x8 Flux Factor Matrix File Field Descriptions
Field Name	Type	Units	Range
col 0	Integer	NA	[0 - 1E8]
col_1	Integer	NA	[0 - 1E8]
...	Integer	NA	[0 - 1E8]
col_7	Integer	NA	[0 - 1E8]

Table 43: INCA 16x16 Flux Factor Matrix File Field Descriptions
Field Name	Type	Units	Range
col 0	Integer	NA	[0 - 1E8]
col_1	Integer	NA	[0 - 1E8]
...	Integer	NA	[0 - 1E8]
col_15	Integer	NA	[0 - 1E8]

Table 44: INCA 32x32 Flux Factor Matrix File Field Descriptions
Field Name	Type	Units	Range
col 0	Integer	NA	[0 - 1E8]
col_1	Integer	NA	[0 - 1E8]
...	Integer	NA	[0 - 1E8]
col_31	Integer	NA	[0 - 1E8]

Table 45: INCA 64x64 Flux Factor Matrix File Field Descriptions
Field Name	Type	Units	Range
col 0	Integer	NA	[0 - 1E8]
col_1	Integer	NA	[0 - 1E8]
...	Integer	NA	[0 - 1E8]
col_63	Integer	NA	[0 - 1E8]

7. Sample Data Product Labels

7.1. MIMI LEMMS

7.1.1. MIMI LEMMS Rates

Sample File 1: LACC0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 14992 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " 1-2 subsector accumulations for the LEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("LACC0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("LACC0_2000340_0000.CSV", 1049 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 1048 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 14997 FIELDS = 72 ROW_BYTES = 857 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A0" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A1" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A2" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A3" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A4" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A5" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A6" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A7" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_A8" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_B0" FIELD_NUMBER = 20 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_B1" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_B2" FIELD_NUMBER = 22 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_B3" FIELD_NUMBER = 23 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_BE" FIELD_NUMBER = 24 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C0" FIELD_NUMBER = 25 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C1" FIELD_NUMBER = 26 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C2" FIELD_NUMBER = 27 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C3" FIELD_NUMBER = 28 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C4" FIELD_NUMBER = 29 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C5" FIELD_NUMBER = 30 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C6" FIELD_NUMBER = 31 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_C7" FIELD_NUMBER = 32 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_AS" FIELD_NUMBER = 33 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_BS" FIELD_NUMBER = 34 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_ES" FIELD_NUMBER = 35 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E2_F2S" FIELD_NUMBER = 36 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_FS" FIELD_NUMBER = 37 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E0" FIELD_NUMBER = 38 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E1" FIELD_NUMBER = 39 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E2" FIELD_NUMBER = 40 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E3" FIELD_NUMBER = 41 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E4" FIELD_NUMBER = 42 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E5" FIELD_NUMBER = 43 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E6" FIELD_NUMBER = 44 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_E7" FIELD_NUMBER = 45 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_G1" FIELD_NUMBER = 46 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P1" FIELD_NUMBER = 47 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P2" FIELD_NUMBER = 48 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P3" FIELD_NUMBER = 49 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P4" FIELD_NUMBER = 50 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P5" FIELD_NUMBER = 51 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P6" FIELD_NUMBER = 52 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P7" FIELD_NUMBER = 53 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P8" FIELD_NUMBER = 54 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_P9" FIELD_NUMBER = 55 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_H1" FIELD_NUMBER = 56 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_H2" FIELD_NUMBER = 57 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_H3" FIELD_NUMBER = 58 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_H4" FIELD_NUMBER = 59 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_H5" FIELD_NUMBER = 60 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_Z1" FIELD_NUMBER = 61 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_Z2" FIELD_NUMBER = 62 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_Z3" FIELD_NUMBER = 63 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_D1" FIELD_NUMBER = 64 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_D2" FIELD_NUMBER = 65 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_D3" FIELD_NUMBER = 66 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHANNEL_D41" FIELD_NUMBER = 67 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "PRIORITY_COUNTER_0_A0_SUM" FIELD_NUMBER = 68 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains a summation of the counts sampled by the indicated LEMMS channel over the duration indicated by the DURATION column." END_OBJECT = FIELD OBJECT = FIELD NAME = "PRIORITY_COUNTER_1_A1_SUM" FIELD_NUMBER = 69 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains a summation of the counts sampled by the indicated LEMMS channel over the duration indicated by the DURATION column." END_OBJECT = FIELD OBJECT = FIELD NAME = "PRIORITY_COUNTER_2_C0_SUM" FIELD_NUMBER = 70 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains a summation of the counts sampled by the indicated LEMMS channel over the duration indicated by the DURATION column." END_OBJECT = FIELD OBJECT = FIELD NAME = "PRIORITY_COUNTER_3_C1_SUM" FIELD_NUMBER = 71 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4E5 DESCRIPTION = " This field contains a summation of the counts sampled by the indicated LEMMS channel over the duration indicated by the DURATION column." END_OBJECT = FIELD OBJECT = FIELD NAME = "CENTER_LOOK_ANGLE_DEGREES" FIELD_NUMBER = 72 UNIT = DEGREE DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 0 VALID_MAXIMUM = 360 DESCRIPTION = " The angle in degrees of the LEMMS detector with the -z axis of the spacecraft, measured counter-clockwise about the y axis of the spacecraft." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 2: LFRT0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 119929 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " Microsector accumulations for the LEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("LFRT0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("LFRT0_2000340_0000.CSV", 225 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 224 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 119934 FIELDS = 16 ROW_BYTES = 241 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTOR" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each subsector is divided into 16 microsectors. microsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "A0" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 40000 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "A1" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 40000 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "C0" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 40000 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "C1" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 40000 DESCRIPTION = " This field contains the counts sampled by the indicated LEMMS channel over the duration derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record)." END_OBJECT = FIELD OBJECT = FIELD NAME = "CENTER_LOOK_ANGLE_DEGREES" FIELD_NUMBER = 16 UNIT = DEGREE DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 0 VALID_MAXIMUM = 360 DESCRIPTION = " The angle in degrees of the LEMMS detector with the -z axis of the spacecraft, measured counter-clockwise about the y axis of the spacecraft." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 3: LPHA0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 7045 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " (P)ulse (H)eight (A)nalysis data for the LEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("LPHA0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("LPHA0_2000340_0000.CSV", 4065 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 4064 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 7050 FIELDS = 203 ROW_BYTES = 2298 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_0" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_1" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_2" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_3" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_4" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_5" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_6" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_7" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_8" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_9" FIELD_NUMBER = 20 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_10" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_11" FIELD_NUMBER = 22 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_12" FIELD_NUMBER = 23 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_13" FIELD_NUMBER = 24 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_14" FIELD_NUMBER = 25 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_15" FIELD_NUMBER = 26 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_16" FIELD_NUMBER = 27 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_17" FIELD_NUMBER = 28 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_18" FIELD_NUMBER = 29 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_19" FIELD_NUMBER = 30 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_20" FIELD_NUMBER = 31 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_21" FIELD_NUMBER = 32 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_22" FIELD_NUMBER = 33 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_23" FIELD_NUMBER = 34 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_24" FIELD_NUMBER = 35 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_25" FIELD_NUMBER = 36 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_26" FIELD_NUMBER = 37 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_27" FIELD_NUMBER = 38 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_28" FIELD_NUMBER = 39 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_29" FIELD_NUMBER = 40 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_30" FIELD_NUMBER = 41 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_31" FIELD_NUMBER = 42 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_32" FIELD_NUMBER = 43 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_33" FIELD_NUMBER = 44 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_34" FIELD_NUMBER = 45 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_35" FIELD_NUMBER = 46 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_36" FIELD_NUMBER = 47 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_37" FIELD_NUMBER = 48 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_38" FIELD_NUMBER = 49 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_39" FIELD_NUMBER = 50 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_40" FIELD_NUMBER = 51 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_41" FIELD_NUMBER = 52 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_42" FIELD_NUMBER = 53 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_43" FIELD_NUMBER = 54 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_44" FIELD_NUMBER = 55 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_45" FIELD_NUMBER = 56 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_46" FIELD_NUMBER = 57 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_47" FIELD_NUMBER = 58 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_48" FIELD_NUMBER = 59 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_49" FIELD_NUMBER = 60 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_50" FIELD_NUMBER = 61 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_51" FIELD_NUMBER = 62 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_52" FIELD_NUMBER = 63 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_53" FIELD_NUMBER = 64 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_54" FIELD_NUMBER = 65 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_55" FIELD_NUMBER = 66 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_56" FIELD_NUMBER = 67 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_57" FIELD_NUMBER = 68 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_58" FIELD_NUMBER = 69 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_59" FIELD_NUMBER = 70 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_60" FIELD_NUMBER = 71 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_61" FIELD_NUMBER = 72 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_62" FIELD_NUMBER = 73 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_A_BIN_63" FIELD_NUMBER = 74 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector A, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector A energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_0" FIELD_NUMBER = 75 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_1" FIELD_NUMBER = 76 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_2" FIELD_NUMBER = 77 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_3" FIELD_NUMBER = 78 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_4" FIELD_NUMBER = 79 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_5" FIELD_NUMBER = 80 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_6" FIELD_NUMBER = 81 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_7" FIELD_NUMBER = 82 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_8" FIELD_NUMBER = 83 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_9" FIELD_NUMBER = 84 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_10" FIELD_NUMBER = 85 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_11" FIELD_NUMBER = 86 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_12" FIELD_NUMBER = 87 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_13" FIELD_NUMBER = 88 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_14" FIELD_NUMBER = 89 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_15" FIELD_NUMBER = 90 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_16" FIELD_NUMBER = 91 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_17" FIELD_NUMBER = 92 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_18" FIELD_NUMBER = 93 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_19" FIELD_NUMBER = 94 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_20" FIELD_NUMBER = 95 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_21" FIELD_NUMBER = 96 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_22" FIELD_NUMBER = 97 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_23" FIELD_NUMBER = 98 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_24" FIELD_NUMBER = 99 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_25" FIELD_NUMBER = 100 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_26" FIELD_NUMBER = 101 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_27" FIELD_NUMBER = 102 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_28" FIELD_NUMBER = 103 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_29" FIELD_NUMBER = 104 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_30" FIELD_NUMBER = 105 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_31" FIELD_NUMBER = 106 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_32" FIELD_NUMBER = 107 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_33" FIELD_NUMBER = 108 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_34" FIELD_NUMBER = 109 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_35" FIELD_NUMBER = 110 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_36" FIELD_NUMBER = 111 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_37" FIELD_NUMBER = 112 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_38" FIELD_NUMBER = 113 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_39" FIELD_NUMBER = 114 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_40" FIELD_NUMBER = 115 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_41" FIELD_NUMBER = 116 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_42" FIELD_NUMBER = 117 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_43" FIELD_NUMBER = 118 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_44" FIELD_NUMBER = 119 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_45" FIELD_NUMBER = 120 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_46" FIELD_NUMBER = 121 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_47" FIELD_NUMBER = 122 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_48" FIELD_NUMBER = 123 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_49" FIELD_NUMBER = 124 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_50" FIELD_NUMBER = 125 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_51" FIELD_NUMBER = 126 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_52" FIELD_NUMBER = 127 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_53" FIELD_NUMBER = 128 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_54" FIELD_NUMBER = 129 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_55" FIELD_NUMBER = 130 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_56" FIELD_NUMBER = 131 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_57" FIELD_NUMBER = 132 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_58" FIELD_NUMBER = 133 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_59" FIELD_NUMBER = 134 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_60" FIELD_NUMBER = 135 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_61" FIELD_NUMBER = 136 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_62" FIELD_NUMBER = 137 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_E_BIN_63" FIELD_NUMBER = 138 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_0" FIELD_NUMBER = 139 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector E, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector E energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_1" FIELD_NUMBER = 140 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_2" FIELD_NUMBER = 141 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_3" FIELD_NUMBER = 142 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_4" FIELD_NUMBER = 143 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_5" FIELD_NUMBER = 144 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_6" FIELD_NUMBER = 145 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_7" FIELD_NUMBER = 146 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_8" FIELD_NUMBER = 147 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_9" FIELD_NUMBER = 148 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_10" FIELD_NUMBER = 149 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_11" FIELD_NUMBER = 150 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_12" FIELD_NUMBER = 151 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_13" FIELD_NUMBER = 152 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_14" FIELD_NUMBER = 153 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_15" FIELD_NUMBER = 154 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_16" FIELD_NUMBER = 155 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_17" FIELD_NUMBER = 156 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_18" FIELD_NUMBER = 157 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_19" FIELD_NUMBER = 158 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_20" FIELD_NUMBER = 159 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_21" FIELD_NUMBER = 160 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_22" FIELD_NUMBER = 161 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_23" FIELD_NUMBER = 162 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_24" FIELD_NUMBER = 163 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_25" FIELD_NUMBER = 164 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_26" FIELD_NUMBER = 165 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_27" FIELD_NUMBER = 166 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_28" FIELD_NUMBER = 167 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_29" FIELD_NUMBER = 168 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_30" FIELD_NUMBER = 169 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_31" FIELD_NUMBER = 170 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_32" FIELD_NUMBER = 171 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_33" FIELD_NUMBER = 172 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_34" FIELD_NUMBER = 173 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_35" FIELD_NUMBER = 174 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_36" FIELD_NUMBER = 175 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_37" FIELD_NUMBER = 176 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_38" FIELD_NUMBER = 177 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_39" FIELD_NUMBER = 178 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_40" FIELD_NUMBER = 179 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_41" FIELD_NUMBER = 180 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_42" FIELD_NUMBER = 181 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_43" FIELD_NUMBER = 182 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_44" FIELD_NUMBER = 183 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_45" FIELD_NUMBER = 184 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_46" FIELD_NUMBER = 185 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_47" FIELD_NUMBER = 186 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_48" FIELD_NUMBER = 187 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_49" FIELD_NUMBER = 188 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_50" FIELD_NUMBER = 189 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_51" FIELD_NUMBER = 190 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_52" FIELD_NUMBER = 191 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_53" FIELD_NUMBER = 192 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_54" FIELD_NUMBER = 193 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_55" FIELD_NUMBER = 194 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_56" FIELD_NUMBER = 195 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_57" FIELD_NUMBER = 196 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_58" FIELD_NUMBER = 197 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_59" FIELD_NUMBER = 198 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_60" FIELD_NUMBER = 199 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_61" FIELD_NUMBER = 200 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_62" FIELD_NUMBER = 201 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "DETECTOR_F1_BIN_63" FIELD_NUMBER = 202 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field contains an array of counts observed within each of the 64 energy bins for detector F, accumulated over the time interval derived from either the END_EPHEMERIS_S - START_EPHEMERIS_S or else START_EPHEMERIS_S (of the next contiguous record) - START_EPHEMERIS_S (of this record). Detector F energy bins are logarithmically spaced. See the MIMI_PASSBANDS calibration file for spacing deltas and min and max energies" END_OBJECT = FIELD OBJECT = FIELD NAME = "CENTER_LOOK_ANGLE_DEGREES" FIELD_NUMBER = 203 UNIT = DEGREE DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 0 VALID_MAXIMUM = 360 DESCRIPTION = " The angle in degrees of the LEMMS detector with the -z axis of the spacecraft, measured counter-clockwise about the y axis of the spacecraft." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

7.1.2. MIMI CHEMS

Sample File 4: CPHA0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 1905 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " (P)ulse (H)eight (A)nalysis data for the CHEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("CPHA0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("CPHA0_2000340_0000.CSV", 279 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 278 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 1910 FIELDS = 17 ROW_BYTES = 242 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "INDEX_IN_SECTOR" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 30000 DESCRIPTION = " Automatically generated number to guarantee uniqueness in conjunction with SCLOCK_S." END_OBJECT = FIELD OBJECT = FIELD NAME = "DPPS_LEVEL" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 31 DESCRIPTION = " This field represents the step level for the calculation of E/Q for the given duration." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1023 DESCRIPTION = " This field represents an integerized or calibrated measurement of the energy deposited into the SSD during the measurement of the current PHA event." END_OBJECT = FIELD OBJECT = FIELD NAME = "TIME_OF_FLIGHT" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1023 DESCRIPTION = " This field represents an integerized or calibrated measurement of the time of flight for the particle between the microplates for the current PHA event." END_OBJECT = FIELD OBJECT = FIELD NAME = "SOLID_STATE_DETECTOR" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 3 DESCRIPTION = " This field indicates which of the three SSD were used in the identification of the energy for this particular PHA event. A value of zero indicates that none of the SSD's where triggered in this event." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_MICRO_CHANNEL_PLATE" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 3 DESCRIPTION = " This field indicates which of the three microchannel plates were used in the identification of the time of flight for this particular PHA event." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 6 DESCRIPTION = " This field indicates which PHA range was identified by the CHEMS DPU for this PHA event. See the Calibration data for interpretation of the values of this field." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 5: CACC0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 14993 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " Subsector accumulations for the CHEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("CACC0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("CACC0_2000340_0000.CSV", 459 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 458 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 14998 FIELDS = 33 ROW_BYTES = 418 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "DPPS_LEVEL" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the step level for the calculation of E/Q for the given duration." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_HEAD_1" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 1 start microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_HEAD_2" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 2 start microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_HEAD_3" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 3 start microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SUM" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered any of the start microplates." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_HEAD_1" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 1 stop microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_HEAD_2" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 2 stop microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_HEAD_3" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered the head 3 stop microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_SUM" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered any of the stop microplates." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_HEAD_1" FIELD_NUMBER = 20 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that deposited energy in telescope 1 SSD." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_HEAD_2" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that deposited energy in telescope 2 SSD." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_HEAD_3" FIELD_NUMBER = 22 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that deposited energy in telescope 3 SSD." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_SUM" FIELD_NUMBER = 23 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that deposited energy all three telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "DCR_HEAD_1" FIELD_NUMBER = 24 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered two of the start microplates for telescope 1. Double Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "DCR_HEAD_2" FIELD_NUMBER = 25 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered two of the start microplates for telescope 2. Double Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "DCR_HEAD_3" FIELD_NUMBER = 26 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered two of the start microplates for telescope 3. Double Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "DCR_SUM" FIELD_NUMBER = 27 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered two of the start microplates for all of the telescopes. Double Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "TCR_HEAD_1" FIELD_NUMBER = 28 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered all three of the start microplates for telescope 1. Triple Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "TCR_HEAD_2" FIELD_NUMBER = 29 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered all three of the start microplates for telescope 2. Triple Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "TCR_HEAD_3" FIELD_NUMBER = 30 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered all three of the start microplates for telescope 3. Triple Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "TCR_SUM" FIELD_NUMBER = 31 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that triggered all three of the start microplates for all telescopes. Triple Coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "UFSR" FIELD_NUMBER = 32 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that any of the start microplates triggered for any telescope. (U)niversal (F)ront (S)EDA (R)ate. (S)econdary (E)lectron (D)etector (A)ssembly." END_OBJECT = FIELD OBJECT = FIELD NAME = "URSR" FIELD_NUMBER = 33 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 2147483646 DESCRIPTION = " This field represents the total number of PHA events that any of the stop microplates triggered for any telescope. (U)niversal (R)ear (S)EDA (R)ate. (S)econdary (E)lectron (D)etector (A)ssembly." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 6: CSCI0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 14993 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " Simplified subsector accumulations for the CHEMMS sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("CSCI0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("CSCI0_2000340_0000.CSV", 1075 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 1074 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 14998 FIELDS = 61 ROW_BYTES = 726 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "DPPS_LEVEL" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 31 DESCRIPTION = " This field represents the step level for the calculation of E/Q for the given duration." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_0_TELE_1" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 0 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_0_TELE_2" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 0 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_0_TELE_3" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 0 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_0_SUM" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 0 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_1_TELE_1" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 1 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_1_TELE_2" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 1 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_1_TELE_3" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 1 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_1_SUM" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 1 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_2_TELE_1" FIELD_NUMBER = 20 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 2 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_2_TELE_2" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 2 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_2_TELE_3" FIELD_NUMBER = 22 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 2 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_2_SUM" FIELD_NUMBER = 23 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 2 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_3_TELE_1" FIELD_NUMBER = 24 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 3 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_3_TELE_2" FIELD_NUMBER = 25 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 3 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_3_TELE_3" FIELD_NUMBER = 26 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 3 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_3_SUM" FIELD_NUMBER = 27 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 3 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_4_TELE_1" FIELD_NUMBER = 28 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 4 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_4_TELE_2" FIELD_NUMBER = 29 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 4 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_4_TELE_3" FIELD_NUMBER = 30 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 4 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_4_SUM" FIELD_NUMBER = 31 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 4 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_5_TELE_1" FIELD_NUMBER = 32 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 5 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_5_TELE_2" FIELD_NUMBER = 33 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 5 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_5_TELE_3" FIELD_NUMBER = 34 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 5 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_5_SUM" FIELD_NUMBER = 35 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 5 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_6_TELE_1" FIELD_NUMBER = 36 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 6 for telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_6_TELE_2" FIELD_NUMBER = 37 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 6 for telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_6_TELE_3" FIELD_NUMBER = 38 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 6 for telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "RANGE_6_SUM" FIELD_NUMBER = 39 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts received that fit into the definition of range 6 for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "HE_PLUS_DOUBLES" FIELD_NUMBER = 40 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a HE+ using double coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "HE_PLUS_TRIPLES" FIELD_NUMBER = 41 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a HE+ using triple coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "HE_PLUS_2_DOUBLES" FIELD_NUMBER = 42 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a HE++ using double coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "HE_PLUS_2_TRIPLES" FIELD_NUMBER = 43 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a HE++ using triple coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_DOUBLES_TELE_1" FIELD_NUMBER = 44 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using double coincidence and telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_DOUBLES_TELE_2" FIELD_NUMBER = 45 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using double coincidence and telescope ." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_DOUBLES_TELE_3" FIELD_NUMBER = 46 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using double coincidence and telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_TRIPLES_TELE_1" FIELD_NUMBER = 47 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " field represents the total number of counts with mass and charge that best is fitted as a O+ using triple coincidence and telescope 1." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_TRIPLES_TELE_2" FIELD_NUMBER = 48 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using triple coincidence and telescope 2." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_TRIPLES_TELE_3" FIELD_NUMBER = 49 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using triple coincidence and telescope 3." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_2_DOUBLES" FIELD_NUMBER = 50 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O++ using double coincidence for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_2_TRIPLES" FIELD_NUMBER = 51 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O++ using triple coincidence for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "CNO_OVER_4_AND_T" FIELD_NUMBER = 52 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " field represents the total number of counts with mass and charge that best is fitted a heavy (CNO>4) and triple coincidence." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_UNDERFLOW" FIELD_NUMBER = 53 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was an energy underflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "ENERGY_OVERFLOW" FIELD_NUMBER = 54 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was an energy overflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "TOF_UNDERFLOW" FIELD_NUMBER = 55 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was a time of flight underflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "TOF_OVERFLOW" FIELD_NUMBER = 56 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was a time of flight overflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "MASS_OVERFLOW" FIELD_NUMBER = 57 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was a mass calculation overflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "M_OVER_Q_UNDERFLOW" FIELD_NUMBER = 58 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was a mass/charge calculation underflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "M_OVER_Q_OVERFLOW" FIELD_NUMBER = 59 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with where there was a mass/charge calculation overflow condition." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_DOUBLES_SUM" FIELD_NUMBER = 60 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using double coincidence for all telescopes." END_OBJECT = FIELD OBJECT = FIELD NAME = "O_PLUS_TRIPLES_SUM" FIELD_NUMBER = 61 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65534 DESCRIPTION = " This field represents the total number of counts with mass and charge that best is fitted as a O+ using triple coincidence for all telescopes." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

7.1.3. MIMI INCA

Sample File 7: IACC0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 14994 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " Subsector accumulations for the INCA sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("IACC0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("IACC0_2000340_0000.CSV", 319 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 318 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 14999 FIELDS = 21 ROW_BYTES = 286 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_FAST" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of start events identified as fast." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_PULSE" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of start events identified as pulse." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_COINCIDENCE" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of start events that are coincident." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_FAST" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of stop events identified as fast." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_PULSE" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of stop events identified as pulse." END_OBJECT = FIELD OBJECT = FIELD NAME = "FULL" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of events identified as full." END_OBJECT = FIELD OBJECT = FIELD NAME = "COINCIDENCE" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of events identified that are coincident." END_OBJECT = FIELD OBJECT = FIELD NAME = "TIME" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of acceptable events." END_OBJECT = FIELD OBJECT = FIELD NAME = "STOP_COINCIDENCE" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of stop events that are coincident." END_OBJECT = FIELD OBJECT = FIELD NAME = "EVENTS_RECEIVED" FIELD_NUMBER = 20 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of acceptable events." END_OBJECT = FIELD OBJECT = FIELD NAME = "EVENTS_PROCESSED" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1E7 DESCRIPTION = " This field contains the total number of acceptable events." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 8: IPHA0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 157280 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " (P)ulse (H)eight (A)nalysis for the INCA sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("IPHA0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("IPHA0_2000340_0000.CSV", 310 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 309 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 157285 FIELDS = 19 ROW_BYTES = 264 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "INDEX_IN_FOUR_SUBSECTORS" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 500 DESCRIPTION = " An id number that represents the zero based index of this record within a certain sclock value. This along with sclock is unique." END_OBJECT = FIELD OBJECT = FIELD NAME = "COINCIDENCE" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " This field identifies whether the PHA event is coincident (1) or not (0)." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_STOP" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " This field identifies whether the PHA event included both start and stop (1) or only one of the two (0)." END_OBJECT = FIELD OBJECT = FIELD NAME = "PULSE_HEIGHT_FRONT" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 255 DESCRIPTION = " This field contains the encoded pulse height data for the front microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "PULSE_HEIGHT_REAR" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 255 DESCRIPTION = " This field contains the encoded pulse height data for the rear microplate." END_OBJECT = FIELD OBJECT = FIELD NAME = "TIME_OF_FLIGHT" FIELD_NUMBER = 16 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " This field contains the PHA event time of flight in microseconds." END_OBJECT = FIELD OBJECT = FIELD NAME = "AZIMUTH" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 63 DESCRIPTION = " This field contains the encoded value of the calculated azimuth for the PHA event." END_OBJECT = FIELD OBJECT = FIELD NAME = "ELEVATION" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 47 DESCRIPTION = " This field contains the encoded value of the calculated elevation for the PHA event." END_OBJECT = FIELD OBJECT = FIELD NAME = "MASS_RANGE" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 31 DESCRIPTION = " This field contains the encoded value of the calculated mass." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

Sample File 9: IIMG0_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 194145 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "$PHASE_NAME" ORBIT_NUMBER = $ORBIT_NUM TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " 1-4 Sector images from the INCA sensor of the MIMI instrument on the Cassini spacecraft" ^HEADER = ("IIMG0_2000340_0000.CSV", 1 <BYTES>) ^SPREADSHEET = ("IIMG0_2000340_0000.CSV", 899 <BYTES>) OBJECT = HEADER RECORDS = 1 BYTES = 898 HEADER_TYPE = SPREADSHEET DESCRIPTION = " This file contains a single row of column headings (text strings enclosed within double quotes) separated by commas." END_OBJECT = HEADER OBJECT = SPREADSHEET ROWS = 194150 FIELDS = 87 ROW_BYTES = 1084 FIELD_DELIMITER = COMMA OBJECT = FIELD NAME = "PURPOSE" FIELD_NUMBER = 1 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " The PURPOSE field identifies the purpose or function of the data contained in current row. Valid entries include: SCI - normal science data values VALID_MIN - the inclusive or exclusive minimum value allowed for this column VALID_MAX - the inclusive or exclusive maximum value allowed for this column MIN - the minimum value for this column present in this product MAX - the maximum value for this column present in this product MEAN - the mean of the values in this column in this product, this value will be rounded for integer columns STDEV - the standard deviation of the values in this column in this product, this value will be rounded for integer columns" END_OBJECT = FIELD OBJECT = FIELD NAME = "START_EPHEMERIS_S" FIELD_NUMBER = 2 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the beginning of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "END_EPHEMERIS_S" FIELD_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = -71063936 VALID_MAXIMUM = 757339265 DESCRIPTION = " The J2000 ephemeris time in seconds at the end of the time period for this record." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_COUNTER" FIELD_NUMBER = 4 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " MIMI always organizes time by Spins, when Cassini is not in spin mode, MIMI uses a commanded virtual spin period. This column is a counter that increments with each spin or virtual spin. This counter resets when MIMI undergoes certain operations like shutdown, and is not sufficiently large that it will not roll over." END_OBJECT = FIELD OBJECT = FIELD NAME = "SECTOR" FIELD_NUMBER = 5 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each spin is divided into 16 sectors. Sectors have no meaning with regard to pointing. They are nothing more or less than segments of time. This column contains the zero based index of the sector. Sectors have special significance in that the beginning of a sector is the only time that MIMI records the SCLOCK. All other times must be calculated based on the subsector, and, where appropriate, microsector values provided below. Times in this product were calculated in this manner." END_OBJECT = FIELD OBJECT = FIELD NAME = "START_SECTOR_SCLOCK_MAJOR" FIELD_NUMBER = 6 UNIT = COUNT DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " The value of the Spacecraft clock at the beginning of Sector during which this record occurred. This, combined with subsector, and microsector where appropriate, is the monotonic timestamp for the each record. All other times are calculated from this time representation." END_OBJECT = FIELD OBJECT = FIELD NAME = "SUBSECTOR" FIELD_NUMBER = 7 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " Each sector is divided into 16 subsectors. Subsectors have no meaning as far as pointing. They are nothing more or less than segments of time." END_OBJECT = FIELD OBJECT = FIELD NAME = "MICROSECTORS_COVERED" FIELD_NUMBER = 8 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 2 VALID_MAXIMUM = 1024 DESCRIPTION = " Each subsector is divided into 16 microsectors. Microsectors have no meaning as far as pointing. They are nothing more or less than segments of time. This column is the number of microsectors over which this record was recorded, i.e. 16 for one subsector, 32 for two subsectors, 256 for one sector, etc." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPIN_PERIOD_S" FIELD_NUMBER = 9 UNIT = SECOND DATA_TYPE = ASCII_REAL BYTES = 20 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " The spacecraft spin period in seconds. If the spacecraft is not in spin mode, this is the virtual spin period used by the MIMI sensor to determine the timing of data colection. This value is not very reliable. It represents the 'nominal' spin period. When the spin period is changing, it will not be very accurate." END_OBJECT = FIELD OBJECT = FIELD NAME = "STARING" FIELD_NUMBER = 10 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " 0 if the spacecraft is in spin mode, 1 if the not in spin mode." END_OBJECT = FIELD OBJECT = FIELD NAME = "TYPE_ID" FIELD_NUMBER = 11 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " 4 byte word describing the type of image collected. Byte 0 - Type: 0 = High Spatial, 1 = High Time, 2 = High m-TOF Byte 1 - Charge: 0 = Neutral, 1 = Ion Byte 2 - Species: 0 = H, 1 = He, 2 = CNO, 3 = Heavy, 4 = Other, 5 = All Byte 3 - TOF: 0 = Low, 1-6 = Medium, 7 = High" END_OBJECT = FIELD OBJECT = FIELD NAME = "ROW_ID" FIELD_NUMBER = 12 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 63 DESCRIPTION = " This field identifies the row number of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "NUM_ROWS" FIELD_NUMBER = 13 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 8 VALID_MAXIMUM = 64 DESCRIPTION = " This field identifies the number of rows in the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "NUM_COLS" FIELD_NUMBER = 14 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 8 VALID_MAXIMUM = 64 DESCRIPTION = " This field identifies the number of columns in the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COMPRESSION_BITS" FIELD_NUMBER = 15 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " This field the number of compression bits used for the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COMPRESSION_METHOD" FIELD_NUMBER = 16 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " Identifies the compression algorithm used for the image. Options are None, Fast, or Rice." END_OBJECT = FIELD OBJECT = FIELD NAME = "LOG_COMPRESSED" FIELD_NUMBER = 17 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " This field identifies whether the field is log compressed (1) or not (0)." END_OBJECT = FIELD OBJECT = FIELD NAME = "THETA_OFFSET" FIELD_NUMBER = 18 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 31 DESCRIPTION = " Offset in number of pixels of the transmitted image with respect to the DPU image memory. Image theta is parallel to the spacecraft -Z axis." END_OBJECT = FIELD OBJECT = FIELD NAME = "PHI_OFFSET" FIELD_NUMBER = 19 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 61 DESCRIPTION = " Offset in number of pixels of the transmitted image with respect to the DPU image memory. Image phi is parallel to the spacecraft X axis." END_OBJECT = FIELD OBJECT = FIELD NAME = "HIGH_RESOLUTION" FIELD_NUMBER = 20 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " This field identifies the resolution means as Spatial, Time, or m-TOF." END_OBJECT = FIELD OBJECT = FIELD NAME = "CHARGED" FIELD_NUMBER = 21 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " This field identifies whether the image was taken of neutrals (0) or charged particles and neutrals (1)." END_OBJECT = FIELD OBJECT = FIELD NAME = "SPECIES" FIELD_NUMBER = 22 DATA_TYPE = CHARACTER BYTES = 32 DESCRIPTION = " This field identifies the type of particle imaged as H - hydrogen, He - Helium, CNO - Carbon, Nitrogen, Oxygen, Heavy - others, All - all particles." END_OBJECT = FIELD OBJECT = FIELD NAME = "TOF" FIELD_NUMBER = 23 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 7 DESCRIPTION = " This field contains the encoded TOF measurement duration." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_0" FIELD_NUMBER = 24 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_1" FIELD_NUMBER = 25 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_2" FIELD_NUMBER = 26 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_3" FIELD_NUMBER = 27 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_4" FIELD_NUMBER = 28 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_5" FIELD_NUMBER = 29 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_6" FIELD_NUMBER = 30 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_7" FIELD_NUMBER = 31 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_8" FIELD_NUMBER = 32 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_9" FIELD_NUMBER = 33 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_10" FIELD_NUMBER = 34 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_11" FIELD_NUMBER = 35 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_12" FIELD_NUMBER = 36 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_13" FIELD_NUMBER = 37 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_14" FIELD_NUMBER = 38 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_15" FIELD_NUMBER = 39 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_16" FIELD_NUMBER = 40 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_17" FIELD_NUMBER = 41 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_18" FIELD_NUMBER = 42 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_19" FIELD_NUMBER = 43 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_20" FIELD_NUMBER = 44 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_21" FIELD_NUMBER = 45 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_22" FIELD_NUMBER = 46 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_23" FIELD_NUMBER = 47 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_24" FIELD_NUMBER = 48 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_25" FIELD_NUMBER = 49 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_26" FIELD_NUMBER = 50 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_27" FIELD_NUMBER = 51 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_28" FIELD_NUMBER = 52 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_29" FIELD_NUMBER = 53 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_30" FIELD_NUMBER = 54 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_31" FIELD_NUMBER = 55 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_32" FIELD_NUMBER = 56 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_33" FIELD_NUMBER = 57 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_34" FIELD_NUMBER = 58 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_35" FIELD_NUMBER = 59 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_36" FIELD_NUMBER = 60 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_37" FIELD_NUMBER = 61 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_38" FIELD_NUMBER = 62 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_39" FIELD_NUMBER = 63 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_40" FIELD_NUMBER = 64 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_41" FIELD_NUMBER = 65 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_42" FIELD_NUMBER = 66 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_43" FIELD_NUMBER = 67 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_44" FIELD_NUMBER = 68 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_45" FIELD_NUMBER = 69 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_46" FIELD_NUMBER = 70 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_47" FIELD_NUMBER = 71 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_48" FIELD_NUMBER = 72 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_49" FIELD_NUMBER = 73 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_50" FIELD_NUMBER = 74 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_51" FIELD_NUMBER = 75 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_52" FIELD_NUMBER = 76 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_53" FIELD_NUMBER = 77 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_54" FIELD_NUMBER = 78 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_55" FIELD_NUMBER = 79 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_56" FIELD_NUMBER = 80 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_57" FIELD_NUMBER = 81 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_58" FIELD_NUMBER = 82 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_59" FIELD_NUMBER = 83 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_60" FIELD_NUMBER = 84 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_61" FIELD_NUMBER = 85 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_62" FIELD_NUMBER = 86 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD OBJECT = FIELD NAME = "COL_63" FIELD_NUMBER = 87 DATA_TYPE = ASCII_INTEGER BYTES = 10 VALID_MINIMUM = 0 VALID_MAXIMUM = 65535 DESCRIPTION = " The particle count for this row and column of the image." END_OBJECT = FIELD END_OBJECT = SPREADSHEET END

7.1.4. MIMI KP BROWSE

Sample File 7: MIMI_KP_2000340_0000.LBL

RECORD_TYPE = STREAM INTERCHANGE_FORMAT = ASCII FILE_RECORDS = 1440 START_TIME = "2000-340T00:00:00" STOP_TIME = "2000-340T23:59:59" NATIVE_START_TIME = "29246464.183189" NATIVE_STOP_TIME = "29332863.183214" SPACECRAFT_CLOCK_START_COUNT = "1/1354666282.146" SPACECRAFT_CLOCK_STOP_COUNT = "1/1354752682.043" INSTRUMENT_HOST_NAME = "CASSINI ORBITER" INSTRUMENT_HOST_ID = "CO" MISSION_PHASE_NAME = "JUPITER CRUISE" ORBIT_NUMBER = "N/A" TARGET_NAME = "SOLAR WIND" INSTRUMENT_NAME = "MAGNETOSPHERIC IMAGING INSTRUMENT" INSTRUMENT_ID = "MIMI" DESCRIPTION = " Key Parameter Browse data for Cassini MIMI LEMMS, CHEMS, and INCA sensors." ^TABLE = "MIMI_KEY__2000340.TAB" OBJECT = TABLE ROWS = 1440 COLUMNS = 56 ROW_BYTES = 906 OBJECT = COLUMN NAME = "UTC" COLUMN_NUMBER = 1 DATA_TYPE = CHARACTER START_BYTE = 1 BYTES = 21 DESCRIPTION = " The UTC field identifies the time of the measurment for the current record in UTC format: YYYY-DOYTHH:MM:SS.SSS where YYYY = year of measurment DOY = day of year of measurement T = separator value between year/day and time HH = hour of measurement MM = minute of measurement SS = second of measurement to milliseconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A0" COLUMN_NUMBER = 2 UNIT = COUNT DATA_TYPE = ASCII_REAL START_BYTE = 23 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4000000000 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A1" COLUMN_NUMBER = 3 UNIT = SECOND DATA_TYPE = ASCII_REAL START_BYTE = 34 BYTES = 14 VALID_MINIMUM = -7.0E7 VALID_MAXIMUM = 1.5E9 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A2" COLUMN_NUMBER = 4 UNIT = SECOND DATA_TYPE = ASCII_REAL START_BYTE = 49 BYTES = 15 VALID_MINIMUM = -7.0E7 VALID_MAXIMUM = 1.5E9 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A3" COLUMN_NUMBER = 5 DATA_TYPE = ASCII_REAL START_BYTE = 65 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 1 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A4" COLUMN_NUMBER = 6 UNIT = SECOND DATA_TYPE = ASCII_REAL START_BYTE = 81 BYTES = 15 VALID_MINIMUM = 680 VALID_MAXIMUM = 3072 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A5" COLUMN_NUMBER = 7 DATA_TYPE = ASCII_REAL START_BYTE = 97 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 16383 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A6" COLUMN_NUMBER = 8 DATA_TYPE = ASCII_REAL START_BYTE = 113 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A7" COLUMN_NUMBER = 9 DATA_TYPE = ASCII_REAL START_BYTE = 129 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 15 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A8" COLUMN_NUMBER = 10 DATA_TYPE = ASCII_REAL START_BYTE = 145 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C0" COLUMN_NUMBER = 11 DATA_TYPE = ASCII_REAL START_BYTE = 161 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C1" COLUMN_NUMBER = 12 DATA_TYPE = ASCII_REAL START_BYTE = 177 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C2" COLUMN_NUMBER = 13 DATA_TYPE = ASCII_REAL START_BYTE = 193 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C3" COLUMN_NUMBER = 14 DATA_TYPE = ASCII_REAL START_BYTE = 209 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C4" COLUMN_NUMBER = 15 DATA_TYPE = ASCII_REAL START_BYTE = 225 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C5" COLUMN_NUMBER = 16 DATA_TYPE = ASCII_REAL START_BYTE = 241 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C6" COLUMN_NUMBER = 17 DATA_TYPE = ASCII_REAL START_BYTE = 257 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C7" COLUMN_NUMBER = 18 DATA_TYPE = ASCII_REAL START_BYTE = 273 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_P1" COLUMN_NUMBER = 19 DATA_TYPE = ASCII_REAL START_BYTE = 289 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_P2" COLUMN_NUMBER = 20 DATA_TYPE = ASCII_REAL START_BYTE = 305 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_P3" COLUMN_NUMBER = 21 DATA_TYPE = ASCII_REAL START_BYTE = 321 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_P4" COLUMN_NUMBER = 22 DATA_TYPE = ASCII_REAL START_BYTE = 337 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_P5" COLUMN_NUMBER = 23 DATA_TYPE = ASCII_REAL START_BYTE = 353 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_E0" COLUMN_NUMBER = 24 DATA_TYPE = ASCII_REAL START_BYTE = 369 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_E1" COLUMN_NUMBER = 25 DATA_TYPE = ASCII_REAL START_BYTE = 385 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_E2" COLUMN_NUMBER = 26 DATA_TYPE = ASCII_REAL START_BYTE = 401 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_E3" COLUMN_NUMBER = 27 DATA_TYPE = ASCII_REAL START_BYTE = 417 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_E4" COLUMN_NUMBER = 28 DATA_TYPE = ASCII_REAL START_BYTE = 433 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " LEMMS Accumulation Rate for the indicated channel. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_C5_Anisotropy" COLUMN_NUMBER = 29 DATA_TYPE = ASCII_REAL START_BYTE = 449 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " This field contains a measure of the anisotropy between the highest microsector and the lowest microsector measured within a sector (1 LEMMS turntable rotation). The anisotropy is calculated to be 1.0 - (sector_minimum / sector_maximum)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_A5_Anisotropy" COLUMN_NUMBER = 30 DATA_TYPE = ASCII_REAL START_BYTE = 465 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " This field contains a measure of the anisotropy between the highest microsector and the lowest microsector measured within a sector (1 LEMMS turntable rotation). The anisotropy is calculated to be 1.0 - (sector_minimum / sector_maximum)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LEMMS_Scanning" COLUMN_NUMBER = 31 DATA_TYPE = CHARACTER START_BYTE = 481 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " This field identifies whether the LEMMS turntable is rotating (in scanning mode) or is fixed. The values are either: yes or no." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_H_Plus_DPPS_0_7" COLUMN_NUMBER = 32 DATA_TYPE = ASCII_REAL START_BYTE = 497 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_H_Plus_DPPS_8_15" COLUMN_NUMBER = 33 DATA_TYPE = ASCII_REAL START_BYTE = 513 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_H_Plus_DPPS_16_23" COLUMN_NUMBER = 34 DATA_TYPE = ASCII_REAL START_BYTE = 529 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_H_Plus_DPPS_24_31" COLUMN_NUMBER = 35 DATA_TYPE = ASCII_REAL START_BYTE = 545 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_DPPS_0_7" COLUMN_NUMBER = 36 DATA_TYPE = ASCII_REAL START_BYTE = 561 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_DPPS_8_15" COLUMN_NUMBER = 37 DATA_TYPE = ASCII_REAL START_BYTE = 577 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_DPPS_16_23" COLUMN_NUMBER = 38 DATA_TYPE = ASCII_REAL START_BYTE = 593 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_DPPS_24_31" COLUMN_NUMBER = 39 DATA_TYPE = ASCII_REAL START_BYTE = 609 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_2_DPPS_0_7" COLUMN_NUMBER = 40 DATA_TYPE = ASCII_REAL START_BYTE = 625 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_2_DPPS_8_15" COLUMN_NUMBER = 41 DATA_TYPE = ASCII_REAL START_BYTE = 641 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_2_DPPS_16_23" COLUMN_NUMBER = 42 DATA_TYPE = ASCII_REAL START_BYTE = 657 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_He_Plus_2_DPPS_24_31" COLUMN_NUMBER = 43 DATA_TYPE = ASCII_REAL START_BYTE = 673 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_O_Plus_DPPS_0_7" COLUMN_NUMBER = 44 DATA_TYPE = ASCII_REAL START_BYTE = 689 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_O_Plus_DPPS_8_15" COLUMN_NUMBER = 45 DATA_TYPE = ASCII_REAL START_BYTE = 705 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_O_Plus_DPPS_16_23" COLUMN_NUMBER = 46 DATA_TYPE = ASCII_REAL START_BYTE = 721 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "CHEMS_O_Plus_DPPS_24_31" COLUMN_NUMBER = 47 DATA_TYPE = ASCII_REAL START_BYTE = 737 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " CHEMS Accumulation Rate for the indicated species and data processing steps. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_0" COLUMN_NUMBER = 48 DATA_TYPE = ASCII_REAL START_BYTE = 753 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_1" COLUMN_NUMBER = 49 DATA_TYPE = ASCII_REAL START_BYTE = 769 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_2" COLUMN_NUMBER = 50 DATA_TYPE = ASCII_REAL START_BYTE = 785 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_3" COLUMN_NUMBER = 51 DATA_TYPE = ASCII_REAL START_BYTE = 801 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_4" COLUMN_NUMBER = 52 DATA_TYPE = ASCII_REAL START_BYTE = 817 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_5" COLUMN_NUMBER = 53 DATA_TYPE = ASCII_REAL START_BYTE = 833 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_6" COLUMN_NUMBER = 54 DATA_TYPE = ASCII_REAL START_BYTE = 849 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_H_TOF_7" COLUMN_NUMBER = 55 DATA_TYPE = ASCII_REAL START_BYTE = 865 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " INCA Accumulation Rate for the indicated species and time of flight. This rate has been interpolated for the 60 second cadence of this data file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INCA_Mode" COLUMN_NUMBER = 56 DATA_TYPE = ASCII_REAL START_BYTE = 881 BYTES = 15 VALID_MINIMUM = 0 VALID_MAXIMUM = 4.E5 DESCRIPTION = " This field identifies whether the INCA sensor is using neutral mode or ion mode. The values are either: neutral or ion ." END_OBJECT = COLUMN END_OBJECT = TABLE END

8. Support Staff and Cognizant Persons

Table 46: MIMI Archive Collection Support Staff
Fundamental Technologies, LLC
Dr. Thomas P. Armstrong Co. I.	Fundamental Technologies 2411 Ponderosa, Suite A Lawrence, KS 66046	785-840-0800	Armstrong@ftecs.com
Dr. Jerry W. Manweiler Assoc. Scientist	Fundamental Technologies 2411 Ponderosa, Suite A Lawrence, KS 66046	785-840-0800	Manweiler@ftecs.com
UCLA
Mr. Steven P. Joy PPI Operations Manager	UCLA-IGPP 405 Hilgard Ave Los Angeles, CA 90095-1567	310-825-3506	sjoy@igpp.ucla.edu
Mr. Joe Mafi PPI Data Engineer	UCLA-IGPP 405 Hilgard Ave Los Angeles, CA 90095-1567	310-206-6073	jmafi@igpp.ucla.edu

Appendix A. Directory Structure for Archive Volumes

Graphical representation of the Directory structure

Textual representation of the Directory structure

        - MIMI SAMPLE REFERENCE VOLUME
                - CALIBRATION
                        - INCA_IMAGES
                                - POSTFLIGHTV34
                                        SPIN
                                        STARE
                                - POSTJUPITER
                                        SPIN
                                        STARE
                                - PREJUPITER
                                        SPIN
                                        STARE
                CATALOG
                - DOCUMENT
                        INSTRUMENT_PAPER
                        MIMI_VOLUME_DESCRIPTION
                GEOMETRY
                INDEX
        - MIMI SAMPLE VOLUME
                - BROWSE
                        CHEMS
                        INCA
                        LEMMS
                CATALOG
                - DATA
                        CHEMS_ACCUMULATION_RATES
                        CHEMS_PULSE_HEIGHT_ANALYSIS
                        CHEMS_SCIENCE_RATES
                        INCA_ACCUMULATION_RATES
                        INCA_IMAGES
                        INCA_PULSE_HEIGHT_ANALYSIS
                        LEMMS_ACCUMULATION_RATES
                        LEMMS_FINE_ACCUMULATION_RATES
                        LEMMS_PULSE_HEIGHT_ANALYSIS
                EXTRAS
                INDEX

Appendix B. Using the Purpose Field in MIMI Data Products

The record header of the MIMI data products starts with a field called Purpose. The Purpose field is used to differentiate records of the same format intended for different purposes. Records with Purpose SCI are intended for use in scientific analysis. There are two other categories of Purposes, calibration and summary. Calibration records are in separate files distributed on the reference volume. Example Purpose fields for calibration include, AREA, EFFICIENCY, etc. Summary records are in the data products along with SCI records. Example values of Purpose fields in summary records include MIN, MAX, MEAN etc. The table below lists Purpose field values that always cover all time in a data product.

Table 47: MIMI Data Product Record Purposes
Purpose	Description
valid_min	The maximum value for each valid field in the record for the time period starting at Start_Ephemeris_s Time and ending at End_Ephemeris_s Time
valid_max	The minimum value for each valid field in the record for the time period starting at Start_Ephemeris_s Time and ending at End_Ephemeris_s Time
max	The maximum value for each field in the record for the time period starting at Start Ephemeris Time and ending at End_Ephemeris_s Time
MEAN	The mean value for each field in the record for the time period starting at Start Ephemeris Time and ending at End_Ephemeris_s Time
MIN	The minimum value for each field in the record for the time period starting at Start Ephemeris Time and ending at End_Ephemeris_s Time
sci	Actual science data for the time period from Start_Ephemeris_s Time to End_Ephemeris_s Time
stdev	The standard deviation for each field in the record for the time period starting at Start_Ephemeris_s Time and ending at End_Ephemeris_s Time

Table 48: MIMI Calibration Data Record Purposes
Purpose	Description
ENERGY	Indicates that the record is describing energy passbands
ENERGY/CHARGE	Indicates that the record is describing energy/charge passbands
MASS	Indicates that the record is describing mass passbands
MASS/CHARGE	Indicates that the record is describing mass/charge passbands
GEOM_FACTOR	Indicates that the record is describing geometrical factors
EFFICIENCY	Indicates that the record is describing channel/detector efficiencies
FOV	Indicates that the record is describing the Field of View (FOV)
E/NUC_A	Identifies the A coefficient for the CHEMS calculation.
E/NUC_B	Identifies the B coefficient for the CHEMS calculation

Table 49: MIMI Calibration Data Record Data_Types
Data_Type	Description
ACC	Accumulation associated calibration record
PHA	Pulse Height Analysis associated calibration record
FRT	Fine Accumulation Rates associated calibration record
IMG	Science Accumulation Rates associated calibration record

Table 50: MIMI Calibration Data Record Sensors
Sensor	Description
LEMMS	MIMI LEMMS associated record
CHEMS	MIMI CHEMS associated record
INCA	MIMI INCA associated record

Table 51: MIMI Calibration Data Record Particles
Particle	Description
P	Proton
He	Helium
e	Electron
Xray	X-ray
C	Carbon
O	Oxygen
Fe	Iron
ALL	Any particle
He+	Singly ionized Helium
He++	Doubly ionized Helium
O+	Singly ionized Oxygen
O++	Doubly ionized Oxygen
H	Hydrogen

Appendix C. LEMMS Look Angle Diagram

Figure 1: LEMMS Look Angle Relative to Space Craft Coordinate System