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Voyager 2 Jupiter Plasma Wave Spectrometer (PWS) Raw Experiment Waveforms, Version 1.0, 60 ms Data

Metadata Updated: April 10, 2026

  • Data Set Overview\n =================\n\nThis Data Set consists of Electric Field Waveform Samples from the Voyager 2 Plasma Wave Subsystem Waveform Receiver obtained during the entire Mission. Data after 2006-03-07 will be added to the Archive on subsequent Volumes. The Data Set encompasses all Waveform Observations obtained in the Cruise Mission Phases before, between, and after the Jupiter, Saturn, Uranus, and Neptune Encounter Phases as well as those obtained during the four Encounter Phases.\n\nThe Voyager 2 Spacecraft travels from Earth to beyond 100 AU over the Course of this Data Set. To provide some Guidance on when some Key Events occurred during the Mission, the following Table is provided.\n\n+----------------------------------------------------------------+\n| Date | Event |\n------------------------------------------------------------------\n| 1977-08-20 | Launch |\n| 1979-07-02 | First inbound Bow Shock Crossing at Jupiter |\n| 1979-08-03 | Last outbound Bow Shock Crossing at Jupiter |\n| 1981-08-24 | First inbound Bow Shock Crossing at Saturn |\n| 1981-08-31 | Last outbound Bow Shock Crossing at Saturn |\n| 1982-04-26 | 10 AU |\n| 1983-08-30 | Onset of first major LF Heliospheric Radio Event |\n| 1986-01-24 | First inbound Bow Shock Crossing at Uranus |\n| 1986-01-29 | Last outbound Bow Shock Crossing at Uranus |\n| 1986-05-26 | 20 AU |\n| 1989-08-07 | 30 AU |\n| 1989-08-24 | First inbound Bow Shock Crossing at Neptune |\n| 1989-08-28 | Last outbound Bow Shock Crossing at Neptune |\n| 1992-07-06 | Onset of second major LF Heliospheric Radio Event |\n| 1993-05-08 | 40 AU |\n| 1996-10-10 | 50 AU |\n| 2000-01-27 | 60 AU |\n| 2002-11-01 | Onset of third major LF Heliospheric Radio Event |\n| 2003-04-21 | 70 AU |\n| 2006-07-01 | 80 AU |\n| 2009-09-03 | 90 AU |\n| 2012-11-04 | 100 AU |\n+----------------------------------------------------------------+\n\n Data Sampling\n =============\n\nThe Waveform is sampled at 4-bit Resolution through a Bandpass Filter with a Passband of 40 Hz to 12 kHz. A Set of 1600 Samples are collected in 55.56 ms (at a Rate of 28,800 samples per second) followed by a 4.44 ms Gap. Each 60 ms Interval constitutes a Line of Waveform Samples. The Data Set includes Frames of Waveform Samples consisting of up to 800 Lines, or 48 s, each. The Telemetry Format for the Waveform Data is identical to that for Images, hence the use of Line and Frame as constructs in describing the Form of the Data.\n\n Data Processing\n ===============\n\nBecause there is no direct Method for calibrating these Data and because the Raw Format of packed, 4-bit Samples is space-efficient, these Data are not processed for Archiving. The Data may be plotted in Raw Form to show the actual Waveform; this is useful for studying Events such as Dust Impacts on the Spacecraft. But the normal Method of analyzing the Waveform Data is by Fourier transforming the Samples from each Line to arrive at an Amplitude versus Frequency Spectrum. By stacking the Spectra side-by-side in Time Order, a Frequency-Time Spectrogram can be produced.\n\n Data\n ====\n\nThe Waveforms are Collections of Samples of the Electric Field measured by the Dipole Electric Antenna at a Rate of 28,800 samples per second. The 4-bit Samples provide sixteen digital Values of the Electric Field with a linear Amplitude Scale, but the Amplitude Scale is arbitrary because of the Automatic Gain Control used in the Waveform Receiver. The instantaneous Dynamic Range afforded by the 4-bit Samples is about 23 dB, but the Automatic Gain Control allows the dominant Signal in the Passband to be set at the optimum Level to fit within the instantaneous Dynamic Range. With the Gain Control, the overall Dynamic Range of the Waveform Receiver is about 100 dB. The Automatic Gain Control Gain Setting is not returned to the Ground, hence, there is no absolute Calibration for the Data. However, by comparing the Waveform Spectrum derived by Fourier transforming the Waveform to the Spectrum provided by the Spectrum Analyzer Data, an absolute Calibration may be obtained in most Cases.\n\n Ancillary Data\n ==============\n\nNone\n\n Coordinates\n* ===========\n\nThe Electric Dipole Antenna detects Electric Fields in a Dipole Pattern with peak Sensitivity parallel to the Spacecraft X-axis. However, no Attempt has been made to correlate the measured Field to any particular Direction such as the local Magnetic Field or Direction to a Planet. This is because the Spacecraft remains in a 3-axis stabilized Orientation almost continuously, and these

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Dates

Metadata Created Date March 13, 2026
Metadata Updated Date April 10, 2026

Metadata Source

Harvested from NASA Data.json

Additional Metadata

Resource Type Dataset
Metadata Created Date March 13, 2026
Metadata Updated Date April 10, 2026
Publisher PDS PPI
Maintainer
Identifier /SDE/SPASE_JSON/|3da04866783617f85729b0dd388579b7
Data Last Modified 2026-04-06
Category Heliophysics
Public Access Level public
Bureau Code 026:00
Metadata Context https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
Schema Version https://project-open-data.cio.gov/v1.1/schema
Catalog Describedby https://project-open-data.cio.gov/v1.1/schema/catalog.json
Harvest Object Id dd3f5969-7930-45c7-8d39-1aa1d3d2b215
Harvest Source Id 58f92550-7a01-4f00-b1b2-8dc953bd598f
Harvest Source Title NASA Data.json
License https://www.usa.gov/government-works
Program Code 026:000
Source Datajson Identifier True
Source Hash b4009187fb78de9a81582b91adc9f8646cf69e39bb8a0934833da66e74b54ee4
Source Schema Version 1.1

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