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Galileo >> PWS

Galileo Orbiter Jupiter PWS 10 kHz Wideband Waveform Data
GO-J-PWS-2-EDR-WAVEFORM-10KHZ-V1.0	PDS 3 CERTIFIED

Start Time: 1995-12-07 23:30:21 - Stop Time: 2002-11-05 14:17:09

This data set contains the Galileo Orbiter Jupiter PWS 10 kHz Wideband Waveform Data. It includes 10 kHz wideband waveform measurements from the Galileo plasma wave receiver obtained during Jupiter orbital operations. Data were acquired near perijove, satellite encounters, and other selected intervals.

Citiation Information

Title	Galileo Orbiter Jupiter PWS 10 kHz Wideband Waveform Data
Publisher	NASA Planetary Data System
doi	https://doi.org/10.17189/1519678

Top/ DATA/ C053992 /

10KHZ_0539920052

Start Time:	2000-053T11:47:32.831	Stop Time:	2000-053T11:48:20.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920131

Start Time:	2000-053T11:48:19.496	Stop Time:	2000-053T11:49:10.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920153

Start Time:	2000-053T11:48:34.164	Stop Time:	2000-053T11:49:32.831
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920254

Start Time:	2000-053T11:49:35.496	Stop Time:	2000-053T11:50:34.164
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920278

Start Time:	2000-053T11:49:51.496	Stop Time:	2000-053T11:50:28.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920355

Start Time:	2000-053T11:50:36.831	Stop Time:	2000-053T11:51:35.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920456

Start Time:	2000-053T11:51:38.164	Stop Time:	2000-053T11:52:36.831
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920557

Start Time:	2000-053T11:52:39.496	Stop Time:	2000-053T11:53:38.164
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920658

Start Time:	2000-053T11:53:40.831	Stop Time:	2000-053T11:54:39.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920759

Start Time:	2000-053T11:54:42.164	Stop Time:	2000-053T11:55:40.831
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920860

Start Time:	2000-053T11:55:43.496	Stop Time:	2000-053T11:56:42.164
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539920961

Start Time:	2000-053T11:56:44.829	Stop Time:	2000-053T11:57:43.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921062

Start Time:	2000-053T11:57:46.164	Stop Time:	2000-053T11:58:44.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921163

Start Time:	2000-053T11:58:47.496	Stop Time:	2000-053T11:59:46.164
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921238

Start Time:	2000-053T11:59:31.496	Stop Time:	2000-053T11:59:39.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921264

Start Time:	2000-053T11:59:48.829	Stop Time:	2000-053T12:00:47.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921365

Start Time:	2000-053T12:00:50.164	Stop Time:	2000-053T12:01:48.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921466

Start Time:	2000-053T12:01:51.496	Stop Time:	2000-053T12:02:50.164
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921567

Start Time:	2000-053T12:02:52.829	Stop Time:	2000-053T12:03:51.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921668

Start Time:	2000-053T12:03:54.164	Stop Time:	2000-053T12:04:52.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921769

Start Time:	2000-053T12:04:55.496	Stop Time:	2000-053T12:05:54.162
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921870

Start Time:	2000-053T12:05:56.829	Stop Time:	2000-053T12:06:55.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539921971

Start Time:	2000-053T12:06:58.162	Stop Time:	2000-053T12:07:56.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922072

Start Time:	2000-053T12:07:59.496	Stop Time:	2000-053T12:08:58.162
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922173

Start Time:	2000-053T12:09:00.830	Stop Time:	2000-053T12:09:59.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922274

Start Time:	2000-053T12:10:02.162	Stop Time:	2000-053T12:11:00.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922375

Start Time:	2000-053T12:11:03.496	Stop Time:	2000-053T12:12:02.162
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922476

Start Time:	2000-053T12:12:04.830	Stop Time:	2000-053T12:13:03.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922577

Start Time:	2000-053T12:13:06.163	Stop Time:	2000-053T12:14:04.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922678

Start Time:	2000-053T12:14:07.496	Stop Time:	2000-053T12:15:06.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922779

Start Time:	2000-053T12:15:08.830	Stop Time:	2000-053T12:16:07.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922880

Start Time:	2000-053T12:16:10.163	Stop Time:	2000-053T12:17:08.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539922981

Start Time:	2000-053T12:17:11.496	Stop Time:	2000-053T12:18:10.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923082

Start Time:	2000-053T12:18:12.830	Stop Time:	2000-053T12:19:11.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923183

Start Time:	2000-053T12:19:14.163	Stop Time:	2000-053T12:20:12.830
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923284

Start Time:	2000-053T12:20:15.496	Stop Time:	2000-053T12:21:14.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923385

Start Time:	2000-053T12:21:16.829	Stop Time:	2000-053T12:22:15.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923486

Start Time:	2000-053T12:22:18.163	Stop Time:	2000-053T12:23:16.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923587

Start Time:	2000-053T12:23:19.495	Stop Time:	2000-053T12:24:18.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923688

Start Time:	2000-053T12:24:20.829	Stop Time:	2000-053T12:25:19.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923789

Start Time:	2000-053T12:25:22.163	Stop Time:	2000-053T12:26:20.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539923890

Start Time:	2000-053T12:26:23.495	Stop Time:	2000-053T12:27:22.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924000

Start Time:	2000-053T12:27:24.829	Stop Time:	2000-053T12:28:23.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924101

Start Time:	2000-053T12:28:26.163	Stop Time:	2000-053T12:29:24.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924202

Start Time:	2000-053T12:29:27.495	Stop Time:	2000-053T12:30:26.163
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924303

Start Time:	2000-053T12:30:28.829	Stop Time:	2000-053T12:31:27.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924404

Start Time:	2000-053T12:31:30.163	Stop Time:	2000-053T12:32:28.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924505

Start Time:	2000-053T12:32:31.495	Stop Time:	2000-053T12:33:30.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924606

Start Time:	2000-053T12:33:32.829	Stop Time:	2000-053T12:34:31.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924707

Start Time:	2000-053T12:34:34.161	Stop Time:	2000-053T12:35:32.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924808

Start Time:	2000-053T12:35:35.496	Stop Time:	2000-053T12:36:34.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539924909

Start Time:	2000-053T12:36:36.829	Stop Time:	2000-053T12:37:35.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925010

Start Time:	2000-053T12:37:38.161	Stop Time:	2000-053T12:38:36.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925111

Start Time:	2000-053T12:38:39.496	Stop Time:	2000-053T12:39:38.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925212

Start Time:	2000-053T12:39:40.829	Stop Time:	2000-053T12:40:39.496
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925313

Start Time:	2000-053T12:40:42.161	Stop Time:	2000-053T12:41:40.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925414

Start Time:	2000-053T12:41:43.496	Stop Time:	2000-053T12:42:42.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925420

Start Time:	2000-053T12:41:47.496	Stop Time:	2000-053T12:42:00.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925515

Start Time:	2000-053T12:42:44.829	Stop Time:	2000-053T12:43:43.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925553

Start Time:	2000-053T12:43:10.162	Stop Time:	2000-053T12:43:18.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925616

Start Time:	2000-053T12:43:46.161	Stop Time:	2000-053T12:44:44.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925717

Start Time:	2000-053T12:44:47.494	Stop Time:	2000-053T12:45:46.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925818

Start Time:	2000-053T12:45:48.829	Stop Time:	2000-053T12:46:47.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539925919

Start Time:	2000-053T12:46:50.161	Stop Time:	2000-053T12:47:48.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926020

Start Time:	2000-053T12:47:51.494	Stop Time:	2000-053T12:48:50.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926121

Start Time:	2000-053T12:48:52.829	Stop Time:	2000-053T12:49:51.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926222

Start Time:	2000-053T12:49:54.161	Stop Time:	2000-053T12:50:52.829
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926323

Start Time:	2000-053T12:50:55.494	Stop Time:	2000-053T12:51:54.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926424

Start Time:	2000-053T12:51:56.829	Stop Time:	2000-053T12:52:55.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926525

Start Time:	2000-053T12:52:58.161	Stop Time:	2000-053T12:53:56.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926626

Start Time:	2000-053T12:53:59.494	Stop Time:	2000-053T12:54:58.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926727

Start Time:	2000-053T12:55:00.828	Stop Time:	2000-053T12:55:59.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926828

Start Time:	2000-053T12:56:02.161	Stop Time:	2000-053T12:57:00.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926842

Start Time:	2000-053T12:56:11.494	Stop Time:	2000-053T12:56:24.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539926929

Start Time:	2000-053T12:57:03.495	Stop Time:	2000-053T12:58:02.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927030

Start Time:	2000-053T12:58:04.828	Stop Time:	2000-053T12:59:03.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927131

Start Time:	2000-053T12:59:06.161	Stop Time:	2000-053T13:00:04.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927232

Start Time:	2000-053T13:00:07.495	Stop Time:	2000-053T13:01:06.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927333

Start Time:	2000-053T13:01:08.827	Stop Time:	2000-053T13:02:07.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927339

Start Time:	2000-053T13:01:12.827	Stop Time:	2000-053T13:01:23.495
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927434

Start Time:	2000-053T13:02:10.160	Stop Time:	2000-053T13:03:08.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927535

Start Time:	2000-053T13:03:11.494	Stop Time:	2000-053T13:03:30.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927688

Start Time:	2000-053T13:04:47.494	Stop Time:	2000-053T13:05:46.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927789

Start Time:	2000-053T13:05:48.828	Stop Time:	2000-053T13:06:47.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539927890

Start Time:	2000-053T13:06:50.161	Stop Time:	2000-053T13:07:48.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928000

Start Time:	2000-053T13:07:51.494	Stop Time:	2000-053T13:08:50.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928101

Start Time:	2000-053T13:08:52.828	Stop Time:	2000-053T13:09:51.494
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928202

Start Time:	2000-053T13:09:54.161	Stop Time:	2000-053T13:10:52.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928303

Start Time:	2000-053T13:10:55.493	Stop Time:	2000-053T13:11:54.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928404

Start Time:	2000-053T13:11:56.828	Stop Time:	2000-053T13:12:55.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928505

Start Time:	2000-053T13:12:58.161	Stop Time:	2000-053T13:13:56.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928606

Start Time:	2000-053T13:13:59.493	Stop Time:	2000-053T13:14:55.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928690

Start Time:	2000-053T13:14:55.493	Stop Time:	2000-053T13:15:28.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928715

Start Time:	2000-053T13:15:06.160	Stop Time:	2000-053T13:16:04.828
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928816

Start Time:	2000-053T13:16:07.493	Stop Time:	2000-053T13:17:06.160
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928882

Start Time:	2000-053T13:16:51.493	Stop Time:	2000-053T13:17:35.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539928917

Start Time:	2000-053T13:17:08.827	Stop Time:	2000-053T13:18:07.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929018

Start Time:	2000-053T13:18:10.160	Stop Time:	2000-053T13:19:08.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929119

Start Time:	2000-053T13:19:11.493	Stop Time:	2000-053T13:20:10.160
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929220

Start Time:	2000-053T13:20:12.827	Stop Time:	2000-053T13:21:11.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929321

Start Time:	2000-053T13:21:14.160	Stop Time:	2000-053T13:22:12.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929422

Start Time:	2000-053T13:22:15.493	Stop Time:	2000-053T13:23:14.160
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929523

Start Time:	2000-053T13:23:16.827	Stop Time:	2000-053T13:24:15.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929624

Start Time:	2000-053T13:24:18.161	Stop Time:	2000-053T13:25:16.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929725

Start Time:	2000-053T13:25:19.493	Stop Time:	2000-053T13:26:18.161
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929826

Start Time:	2000-053T13:26:20.827	Stop Time:	2000-053T13:27:19.493
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

10KHZ_0539929927

Start Time:	2000-053T13:27:22.161	Stop Time:	2000-053T13:28:20.827
This file contains 10KHZ PWS waveform data from the waveform analyzer. The binary file structure is somewhat complex. Users should refer to the pictures in the WAVEFORM.TXT files for additional information. All waveform data files are binary and have a fixed record length structure. The first record is an ASCII header (padded to record length) that contains many of the same parameters contained in this label file. The next record is a binary header that also contains much of the same information as this label. This label is derived from the data file by reading these headers. The binary header record is described in machine readable form by the PDS label file EDRHDR.FMT and in a more human readable for in EDRHDR.TXT. The remaining records contain data. Each data record has a 30 byte header (prefix) followed by n (n=1 or 10) blocks of waveform samples. In most cases, only a few of these data blocks contain data (the rest may be zero filled). The file record length, the number of waveform samples per data block, and the sampling frequency are dependent on the spacecraft telemetry mode and the instrument mode. The following table describes the variations in waveform data files: APID Inst Mode* Tel-fmt Rec-Length Blocks/Rec Samples/Block ID (bytes) --------------------------------------------------------------------- PWH1 1,2,3 LPW 465 1 870 PWH2 1,2,3 MPW 670 10 128 PWH3 1,2 MPP 1630 10 320 PWH3 3 MPP 1080 10 210 PWH4 1,2 HPW 7910 10 1576 PWH4 3 HPW 1080 10 210 PWH5 1,2,3 LPW 4350 10 864 * 1=10 kHz, 2=80 kHz, 3=1kHz Each data record contains data acquired in a single minor frame (mod91=0.667 seconds). The time tag for the data record is located in the row prefix header (ROWPRFX.FMT). The start time of a block of waveform samples is the RTI in which the data block occurs (10 RTI per minor frame, 0-9). Therefore if the waveform samples are located in data block 3 and the row prefix header gives the time tag 03209117:27:0:0, then the samples begin at 03209117:27:2:0. The time between samples is determined by the sampling frequency. There are 3150, 25200, 201600 samples per second in the 1 kHz, 10, kHz, and 80 kHz modes respectively. Please note that in the PWH5 mode, there are more samples than can be taken in a single RTI at the 1 kHz sample rate. The waveform data are sampled uniformly and continuously in a single data block, across the RTI boundaries. These data are non-overlapping so that data cannot occur in all of the data blocks for this mode/format combination.

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