PDS_VERSION_ID = PDS3
LABEL_REVISION_NOTE = "
For New Horizons, this LABEL_REVISION_NOTE is used to keep track of
when the template is used to generate a DATASET.CAT file for a
data set.
- Publication date: 2017-04-30
- NH-internal archive software version: V2.0
2017-12-01: The dataset delivered in 2017 includes updates to TARGET_NAME
values as well as updated calibrations based on a spacecraft
Calibration Campaign conducted in 2016.
"
RECORD_TYPE = STREAM
INSTRUMENT_HOST_NAME = "NEW HORIZONS"
OBJECT = DATA_SET
DATA_SET_ID = "NH-P-PEPSSI-3-PLUTO-V3.0"
OBJECT = DATA_SET_INFORMATION
START_TIME = 2015-01-14T23:59:59.691
STOP_TIME = 2016-10-29T23:59:59.357
DATA_SET_DESC = "
Data Set Overview
=================
This data set contains Calibrated data taken by New Horizons
Pluto Energetic Particle Spectrometer Science Investigation
instrument during the PLUTO mission phase.
PEPSSI (Pluto Energetic Particles Spectrometer Science Investigation)
is a particle telescope and a time-of-flight (TOF) spectrometer that
measures ions and electrons over a broad range of energies and
angles. Particle composition and energy spectra are measured for H to
Fe from ~ 30 keV to ~1 MeV (but not all species are uniquely separated)
and for electrons from ~30 keV to 700 keV. PEPSSI comprises a
time-of-flight (TOF) section and a solid-state detector (SSD) array
that measures particle energy. The combination of measured energy and
TOF provides unique particle identification by mass and particle energy
depending on the range: for protons from ~30 keV to ~1 MeV; for heavy
(CNO) ions from ~80 keV to ~1 MeV. Lower-energy (❯3 keV) ion fluxes are
measured by TOF only, but without the SSD signal, providing velocity
spectra at these energies as well. Due to storage and bandwidth
limitations, all event data cannot be stored or telemetered to the
ground. Instead, a round-robin algorithm is used to save Energy, TOF,
and timing data for select events. The common data products contain
these event and summary measurements, accumulated over fixed periods of
86,400 seconds, with each period in a single file comprising multiple
binary tables. The documentation provided with this data set describes
the data format.
Encounter PEPSSI data
---------------------
A subset of the closest approach flyby data is located in directory
DATA/20150714_029913/
of this data set. That includes high-time resolution data over two
periods with durations of forty minutes and fifteen minutes.
Overview of PEPSSI data in this V3.0 data set
---------------------------------------------
The first-delivered data set included low-time resolution data from
Approach, CORE and Departure subphases through the end of July, 2015.
It also included two selected periods of high-resolution data from the
CORE subphase on the day of Pluto flyby (14 Jul 2015): the first period
starts ninety minutes after Pluto closest approach and lasts about forty
minutes; the second starts nine hours after closest approach and lasts
about fifteen minutes. Early downlink of these two periods of PEPSSI
data ensured the instrument satisfied its mission requirements.
The second-delivered data set fills in the periods of high-resolution
data at flyby, it also provides ongoing departure observations through
the end of January, 2016.
This third- and final-delivered data set fills in the rest of the
sequenced high-time resolution encounter data, plus the departure data
taken in the months after encounter.
Overview of PEPSSI data taken during the Pluto Encounter mission phase
----------------------------------------------------------------------
During the Pluto Charon Encounter mission phase starting in
January, 2015, there were several sub-phases: three Approach
sub-phases, (AP1, AP2 and AP3); a CORE sequence for the Pluto
flyby on 14 July, 2015 (Day Of Year 195), sometimes also referred
to as NEP (Near-Encounter Phase); three Departure sub-phases
(DP1, DP2, DP3); a Transition sub-phase ending in late October, 2016,
closing out the Pluto Encounter mission phase. For this final PEPSSI
delivery for the Pluto mission phase, this data set includes the
Approach data plus the CORE and Departure sequences' data, as well as
normal operation and Calibration Campaign data during Transition, and
has all data downlinked through the end of October, 2016.
During the Approach phase, PEPSSI performed functional tests including
a memory refresh, and otherwise operated as normal, turning off and on
around spacecraft trajectory correction maneuvers, and taking data
during a series of plasma rolls, on DOY 107, 115, 121, 128, 148, 156,
and 176. There were two other dedicated SWAP and PEPSSI rolls on DOY
163 and 171. PEPSSI was powered on and collecting data throughout the
encounter time frame.
PEPSSI was generally turned on and taking data for the Departure and
Transition sub-phases, the exceptions being when PEPSSI was turned off
during spacecraft events such as 3-axis operations and trajectory
correction maneuvers.
Due to a spacecraft safing event on 04 July, 2015 (DOY 185), the
balance of the science load from then-executing 15184 sequence
(nominal start time on DOY 184 in 2015) was sacrificed to ensure the
15188 CORE load with the flyby sequence could be loaded onto the
spacecraft and started on time. As a result, there is a gap in the
PEPSSI data from approximately DOY 186 to DOY 188.
Every observation provided in this data set was taken as a part of a
particular sequence. A list of these sequences has been provided in
file DOCUMENT/SEQ_PEPSSI_PLUTO.TAB.
N.B. Some sequences provided may have no corresponding observations.
For a list of observations, refer to the data set index table. This
is typically INDEX.TAB initially in the INDEX/ area of the data set.
There is also a file SLIMINDX.TAB in INDEX/ that summarizes key
information relevant to each observation, including which sequence
was in effect and what target was likely intended for the
observation.
Version
=======
This is VERSION 3.0 of this data set.
General statement about data set versions after V1.0
----------------------------------------------------
The pipeline (see Processing below) was re-run on these data for each
version since the first (V1.0). That will typically change only the
FITS headers but not the FITS data of raw data sets. In some cases
this may change the calibration because the calculated geometry of an
observation has changed. See data set version-specific sections below
for significant exceptions to this general statement, i.e. changes to
pipeline processing, calibration processing, and data delivered.
An all-instrument Calibration Campaign occurred in July 2016. For all
instruments, calibrations were updated as of April 2017 which changed
the data in the calibrated data sets. Calibration changes are described
in the data set version-specific sections.
Note that even if this is not a calibrated data set, calibration
changes are listed as the data will have been re-run and there will be
updates to the calibration files, to the documentation (Science
Operations Center - Instrument Interface Control Document:
SOC_INST_ICD) and to the steps required to calibrate the data.
PEPSSI updates for Pluto Encounter
Data Sets V3.0
==============
This P3 Pluto Encounter dataset release includes all data from the
previous two Pluto deliveries and adds data that was downlinked from
1/31/2016 through 10/31/2016. This dataset completes delivery of all
data covering the Pluto Encounter and subsequent Calibration Campaign.
For PEPSSI, most of the Pluto Encounter data was downlinked in the
15229 load in August 2015. Since then, PEPSSI has stayed on and taken
data continuously, other than a few power cycles around spacecraft
events such as 3-Axis operations and trajectory correction
maneuvers.
Also, updates were made to the calibration files, documentation, and
catalog files.
Significant changes were made to the PEPSSI packet processing and
calibration, too extensive to go into here. Data from all previous
data sets should be discarded. Refer to the data set documentation
for details about processing of PEPSSI data.
PEPSSI updates for Pluto Encounter
Data Sets V2.0
==============
This P2 Pluto Encounter dataset release provides updates to the
Pluto dataset between P1 (data on the ground by 7/31/2015) and P2
(data on the ground by 1/31/2016). All liens from the initial
Pluto delivery have also now been resolved. For PEPSSI, most of
the Pluto Encounter data was downlinked in the 15229 load in
August 2015. Since then, PEPSSI has stayed on and taken data
continuously, other than a few power cycles around spacecraft
events such as 3-Axis operations and trajectory correction
maneuvers.
Processing
==========
The data in this data set were created by a software data
processing pipeline on the Science Operations Center (SOC) at
the Southwest Research Institute (SwRI), Department of Space Operations.
This SOC pipeline assembled data as FITS files from raw telemetry
packets sent down by the spacecraft and populated the data labels
with housekeeping and engineering values, and computed geometry
parameters using SPICE kernels. The pipeline did not resample
the data.
Data
====
The observations in this data set are stored in data files using
standard Flexible Image Transport System (FITS) format. Each FITS
file has a corresponding detached PDS label file, named according
to a common convention. The FITS files may have image and/or table
extensions. See the PDS label plus the DOCUMENT files for a
description of these extensions and their contents.
This Data section comprises the following sub-topics:
- Filename/Product IDs
- Instrument description
- Other sources of information useful in interpreting these Data
- Visit Description, Visit Number, and Target in the Data Labels
Filename/Product IDs
--------------------
The filenames and product IDs of observations adhere to a
common convention e.g.
PEP_0123456789_0X691_ENG.FIT
^^^ ^^^^^^^^^^ ^^^^^ ^^^\__/
| | | | ^^
| | | | |
| | | | +--File type (includes dot)
| | | | - .FIT for FITS file
| | | | - .LBL for PDS label
| | | | - not part of product ID
| | | |
| | | +--ENG for CODMAC Level 2 data
| | | SCI for CODMAC Level 3 data
| | |
| | +--Application ID (ApID) of the telemetry data
| | packet from which the data come
| | N.B. ApIDs are case-insensitive
| |
| +--MET (Mission Event Time) i.e. Spacecraft Clock
|
+--Instrument designator
Note that, depending on the observation, the MET in the data filename
and in the Product ID may be similar to the Mission Event Time (MET)
of the actual observation acquisition, but should not be used as an
analog for the acquisition time. The MET is the time that the data are
transferred from the instrument to spacecraft memory and is therefore
not a reliable indicator of the actual observation time. The PDS label
and the index tables are better sources to use for the actual timing of
any observation. The specific keywords and index table column names for
which to look are
* START_TIME
* STOP_TIME
* SPACECRAFT_CLOCK_START_COUNT
* SPACECRAFT_CLOCK_STOP_COUNT
Instrument Instrument designators ApIDs **
=========== ================================== =============
PEPSSI PEP 0X691 - 0X698 *
* Not all values in this range are in this data set
** ApIDs are case insensitive
There are other ApIDs that contain housekeeping values and
other values. See SOC Instrument ICD (/DOCUMENT/SOC_INST_ICD.*)
for more details.
Here is a summary of the types of files generated by each ApID
(N.B. ApIDs are case-insensitive) along with the instrument
designator that go with each ApID:
ApIDs Data product description/Prefix(es)
===== ===================================
0x691 - PEPSSI High Priority Science (long integration)
0x692 - PEPSSI Medium Priority Science (short integration)
0x693 - PEPSSI Low Priority Science (Up to 500 PHA events)
0x694 - PEPSSI Low Priority Science (Up to 500 PHA events)
0x695 - PEPSSI High Priority Science Diagnostic Mode data
0x696 - PEPSSI Medium Priority Science Diagnostic Mode data
0x697 - PEPSSI Diagnostic Mode Event data
0x698 - PEPSSI Diagnostic Mode Event data
For historical reasons, PEPSSI products always use an ApID of '0x691'
in the filename. Each product actually contains all the data types
(ApIDs) available for that day.
ApIDs '0x693' and '0x694' are combined during ground processing.
So are ApIDs '0x697' and '0x698'.
Instrument description
----------------------
Refer to the following files for a description of this instrument.
CATALOG
PEPSSI.CAT
DOCUMENTS
PEPSSI_SSR.*
SOC_INST_ICD.*
NH_PEPSSI_V###_TI.TXT (### is a version number)
Other sources of information useful in interpreting these Data
--------------------------------------------------------------
Refer to the following files for more information about these data
NH Trajectory tables:
/DOCUMENT/NH_MISSION_TRAJECTORY.* - Heliocentric
PEPSSI Field Of View definitions:
/DOCUMENT/NH_FOV.*
/DOCUMENT/NH_PEPSSI_V###_TI.TXT
Visit Description, Visit Number, and Target in the Data Labels
---------------------------------------------------------------
The observation sequences were defined in Science Activity Planning
(SAP) documents, and grouped by Visit Description and Visit Number.
The SAPs are spreadsheets with one Visit Description & Number per row.
A nominal target is also included on each row and included in the data
labels, but does not always match with the TARGET_NAME field's value in
the data labels. In some cases, the target was designated as RA,DEC
pointing values in the form ``RADEC=123.45,-12.34'' indicating Right
Ascension and Declination, in degrees, of the target from the
spacecraft in the Earth Equatorial J2000 inertial reference frame.
This indicates either that the target was either a star, or that the
target's ephemeris was not loaded into the spacecraft's attitude and
control system which in turn meant the spacecraft could not be pointed
at the target by a body identifier and an inertial pointing value had
to be specified as Right Ascension and Declination values. PDS-SBN
practices do not allow putting a value like RADEC=... in the PDS
TARGET_NAME keyword's value. In those cases the PDS TARGET_NAME value
is set to CALIBRATION. TARGET_NAME may be N/A (Not Available or Not
Applicable) for a few observations in this data set; typically that
means the observation is a functional test so N/A is an appropriate
entry for those targets, but the PDS user should also check the
NEWHORIZONS:OBSERVATION_DESC and NEWHORIZONS:SEQUENCE_ID keywords in
the PDS label, plus the provided sequence list (see Ancillary Data
below) to assess the possibility that there was an intended target.
These two keywords are especially useful for STAR targets as often
stars are used as part of instrument calibrations, and are
included as part of the sequencing description which is captured
in these keywords.
Ancillary Data
==============
The geometry items included in the data labels were computed
using the SPICE kernels archived in the New Horizons SPICE
data set, NH-X-SPICE-6-PLUTO-V1.0.
Every observation provided in this data set was taken as a part of a
particular sequence. A list of these sequences has been provided in
file DOCUMENT/SEQ_PEPSSI_PLUTO.TAB. In addition, the
sequence identifier (ID) and description are included in the PDS label
for every observation. N.B. While every observation has an associated
sequence, every sequence may not have associated observations. Some
sequences may have failed to execute due to spacecraft events (e.g.
safing). No attempt has been made during the preparation of this data
set to identify such empty sequences, so it is up to the user to
compare the times of the sequences to the times of the available
observations from INDEX/INDEX.TAB to identify such sequences.
Time
====
There are several time systems, or units, in use in this dataset:
New Horizons spacecraft MET (Mission Event Time or Mission Elapsed
Time), UTC (Coordinated Universal Time), and TDB Barycentric
Dynamical Time.
This section will give a summary description of the relationship
between these time systems. For a complete explanation of these
time systems the reader is referred to the documentation
distributed with the Navigation and Ancillary Information
Facility (NAIF) SPICE toolkit from the PDS NAIF node, (see
http://naif.jpl.nasa.gov/).
The most common time unit associated with the data is the spacecraft
MET. MET is a 32-bit counter on the New Horizons spacecraft that
runs at a rate of about one increment per second starting from a
value of zero at
19.January, 2006 18:08:02 UTC
or
JD2453755.256337 TDB.
The leapsecond adjustment (DELTA_ET = ET - UTC) was 65.184s at
NH launch, and the first three additional leapseconds occurred
in at the ends of December, 2009, June, 2012 and June, 2015.
Refer to the NH SPICE data set, NH-J/P/SS-SPICE-6-V1.0, and the
SPICE toolkit documentation, for more details about leapseconds.
The data labels for any given product in this dataset usually
contain at least one pair of common UTC and MET representations
of the time at the middle of the observation. Other portions
of the products, for example tables of data taken over periods
of up to a day or more, will only have the MET time associated
with a given row of the table.
For the data user's use in interpreting these times, a reasonable
approximation (+/- 1s) of the conversion between Julian Day (TDB)
and MET is as follows:
JD TDB = 2453755.256337 + ( MET / 86399.9998693 )
For more accurate calculations the reader is referred to the
NAIF/SPICE documentation as mentioned above.
Reference Frame
===============
Geometric Parameter Reference Frame
-----------------------------------
Earth Mean Equator and Vernal Equinox of J2000 (EMEJ2000) is the
inertial reference frame used to specify observational geometry items
provided in the data labels. Geometric parameters are based on best
available SPICE data at time of data creation.
Epoch of Geometric Parameters
-----------------------------
All geometric parameters provided in the data labels were computed at
the epoch midway between the START_TIME and STOP_TIME label fields.
Software
========
The observations in this data set are in standard FITS format
with PDS labels, and can be viewed by a number of PDS-provided
and commercial programs. For this reason no special software is
provided with this data set.
Contact Information
===================
For any questions regarding the data format of the archive,
contact
New Horizons PEPSSI Principal Investigator:
Ralph McNutt, Jr., Johns Hopkins Univ., Applied Physics Lab
Ralph McNutt, Jr.
Johns Hopkins University
Applied Physics Laboratory
Space Department
11100 Johns Hopkins Road
Room MP3-E116
Laurel, MD 20723
USA
"
CONFIDENCE_LEVEL_NOTE = "
Confidence Level Overview
=========================
During the processing of the data in preparation for
delivery with this volume, the packet data associated with each
observation were used only if they passed a rigorous verification
process including standard checksums.
In addition, raw (Level 2) observation data for which adequate
contemporary housekeeping and other ancillary data are not available
may not be reduced to calibrated (Level 3) data. This issue is raised
here to explain why some data products in the raw data set,
NH-P-PEPSSI-2-PLUTO-V3.0,
may not have corresponding data products in the calibrated data set,
NH-P-PEPSSI-3-PLUTO-V3.0.
Data coverage and quality
=========================
Every observation provided in this data set was taken as a part of a
particular sequence. A list of these sequences has been provided in
file DOCUMENT/SEQ_PEPSSI_PLUTO.TAB. N.B. Some sequences
provided may have zero corresponding observations.
Refer to the Confidence Level Overview section above for a summary
of steps taken to assure data quality.
For PEPSSI, electron detector channels are dominated by cosmic rays
in post-Jupiter mission phases.
The PEPSSI data are considered suspect for the first forty
minutes after an instrument power-on event, called a Bad Time
Interval (BTI); this file lists those time windows. The entire
Post-launch commissioning mission phase is also considered a
BTI.
See the Science Operations Center - Instrument Interface Control
Document (ICD - found at DOCUMENT/SOC_INST_ICD*.*) and the BTI TABLE
file for more detail.
The PEPSSI Time Of Flight only (TOF-only) Pulse Height Analysis (PHA)
event data may show differences in the 'N2 data' and 'N3 data' taken
simultaneously but using different collection algorithms. Refer to
the instrument description in the PEPSSI instrument catalog
(PEPSSI.CAT) under 'Data sampling and priority for TOF-only data'
in the 'Operational modes' section.
Some subset of the PHA event data is noise or other instrumental
artifacts. PHA events with parameters outside the stated instrument
sensitivity limits (see the SPECIFICATIONS section in the PEPSSI
instrument catalog file) should be ignored, or, at the very least,
used with extreme caution.
It should be noted that the Primary HDU and the first 5 extension
HDUs (the Image HDUs containing spectrograms) of the level 3 data
are 'quick-look' or 'browse' products only. They are constructed
with one minute averages for the whole mission, so that, if the data
collection period (the DT in the table in the FLUX extension) is not
an even multiple or factor of 1 minute, the spectrogram image will
exhibit aliasing artifacts. Further, the second extension, the
Helium spectrogram includes the Alpha source channels (see above).
In short, the Image HDUs in the level 3 data are not for scientific
use but for browsing or quick-look purposes and for researchers to
determine if they are able to correctly read the data in the table
extensions.
Data at higher resolution, up to 1 second for the Pluto Encounter
time period, can be found in the Flux and PHA Data HDUs. Please see
the ICD, section 11, and specifically sections 11.2 and 11.4, for
details regarding interpreting rates and the timing of events.
Please see the 'Data Validity' section of PEPSSI.CAT for details
regarding information on channels which should be excluded from
analysis.
Observation descriptions in this data set catalog
=================================================
Some users will expect to find descriptions of the observations
in this data set here, in this Confidence Level Note. This data
set follows the more common convention of placing those
descriptions under the Data Set Description (above, if the user is
reading this in the DATASET.CAT file) of this data set catalog.
Caveat about TARGET_NAME in PDS labels and observational intent
===============================================================
The downlink team on New Horizons has
created an automated system to take various uplink products, decode
things like Chebyshev polynomials in command sequences representing
celestial body ephemerides for use on the spacecraft to control
pointing, and infer from those data what the most likely intended
target was at any time during the mission. This works well during
flyby encounters and less so during cruise phases and hibernation.
The user of these PDS data needs to
be cautious when using the TARGET_NAME and other target-related
parameters stored in this data set. This is less an issue for the
plasma and particle instruments, more so for pointing instruments.
To this end, the heliocentric ephemeris of the spacecraft, the
spacecraft-relative ephemeris of the inferred target, and the
inertial attitude of the instrument reference frame are provided
with all data, in the J2000 inertial reference frame, so the user
can check where that target is in the Field Of View (FOV) of the
instrument.
Finally, note that, within the FITS headers of the data products,
the sequence tables, and other NH Project-internal documents used
in this data set and/or inserted into the data set catalog,
informal names are often used for targets instead of the canonical
names required for the TARGET_NAME keyword. For example, during
the Pluto mission phase, instead of the TARGET_NAME '15810 ARAWN
(1994 JR1)' there might be found any of the following: 1994JR1;
1994 JR1; JR1. For all values where the PDS keyword TARGET_NAME
is used (e.g. in PDS labels and in index tables), the canonical,
PDS-approved names are used (if not, please bring this to the
attention of PDS so it can be rectified). However, within the
context of this data set, these project abbreviations are not
ambiguous (e.g. there is only one NH target with 'JR1' in its
name), so there has been, and will be, no attempt to expand such
abbreviations where they occur outside formal PDS keyword values.
Review
======
This dataset was peer reviewed and certified for scientific use on
June 19, 2017.
"
ABSTRACT_DESC = "
This data set contains Calibrated data taken by the New Horizons
Pluto Energetic Particle Spectrometer Science Investigation
instrument during the
Pluto encounter
mission phase. This is VERSION 3.0 of this data set.
This data set contains PEPSSI observations taken during the
the Approach (Jan-Jul, 2015), Encounter, Departure, and
Transition mission sub-phases, including flyby observations
taken on 14 July, 2015, and departure and calibration data
through late October, 2016. This data set completes the
Pluto mission phase deliveries for PEPSSI.
This is version 3.0 of this dataset. Changes since version 2.0 include
the addition of data downlinked between the end of January, 2016 and the
end of October, 2016, completing the delivery of all data covering the
Pluto Encounter and subsequent Calibration Campaign.
Also, updates were made to the calibration files, documentation, and
catalog files.
Significant changes were made to the PEPSSI packet processing and
calibration, too extensive to go into here. Data from all previous
data sets should be discarded. Refer to the data set documentation
for details about processing of PEPSSI data.
"
CITATION_DESC = "
McNutt, R. Jr., NEW HORIZONS
Calibrated PEPSSI PLUTO ENCOUNTER V3.0,
NH-P-PEPSSI-3-PLUTO-V3.0,
NASA Planetary Data System, 2018.
"
DATA_OBJECT_TYPE = { TABLE, IMAGE }
DATA_SET_COLLECTION_MEMBER_FLG = "N"
DATA_SET_NAME = "NEW HORIZONS
PEPSSI PLUTO ENCOUNTER
CALIBRATED V3.0"
DATA_SET_RELEASE_DATE = 2017-04-30
DATA_SET_TERSE_DESC = "
Calibrated data taken by New Horizons
Pluto Energetic Particle Spectrometer Science Investigation
instrument during the PLUTO mission phase.
This is VERSION 3.0 of this data set.
"
DETAILED_CATALOG_FLAG = "N"
PRODUCER_FULL_NAME = "TIFFANY FINLEY"
END_OBJECT = DATA_SET_INFORMATION
OBJECT = DATA_SET_MISSION
MISSION_NAME = "NEW HORIZONS"
END_OBJECT = DATA_SET_MISSION
OBJECT = DATA_SET_REFERENCE_INFORMATION
REFERENCE_KEY_ID = "N/A"
END_OBJECT = DATA_SET_REFERENCE_INFORMATION
OBJECT = DATA_SET_TARGET
TARGET_NAME = "SOLAR WIND"
END_OBJECT = DATA_SET_TARGET
OBJECT = DATA_SET_HOST
INSTRUMENT_HOST_ID = "NH"
INSTRUMENT_ID = "PEPSSI"
END_OBJECT = DATA_SET_HOST
END_OBJECT = DATA_SET
END
|