Implementation of an X-band phased-array subsystem in a deep space mission

Implementation of an X-band phased-array subsystem in a deep space mission

The MESSENGER spacecraft, the first mission to the planet Mercury since 1975, will achieve Mercury orbit in 2011. The spacecraft uses two opposite-facing mission-enabling X-band (8.4 GHz) phased-array antennas to achieve high-rate downlink communications. The spacecraft orientation is constrained su...

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Hauptverfasser: Srinivasan, D.K., Vaughan, R.M., Wallis, R.E., Mirantes, M.A., Hill, T.A., Sheng Cheng, Bruzzi, J.R., Fielhauer, K.B.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Downlink
Earth
Mercury (planets)
Phased arrays
Planetary orbits
Planets
Space missions
Space vehicles
Sun
System-level design
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Beschreibung
Zusammenfassung:The MESSENGER spacecraft, the first mission to the planet Mercury since 1975, will achieve Mercury orbit in 2011. The spacecraft uses two opposite-facing mission-enabling X-band (8.4 GHz) phased-array antennas to achieve high-rate downlink communications. The spacecraft orientation is constrained such that a preferred direction faces the Sun; rotation about the Sun-line is allowable. The main beam of each antenna is steerable in one dimension. These two degrees of freedom allow the main beam of the phased array to be pointed in any direction about the spacecraft. A novel system-level design requires many different subsystems of the spacecraft to interact together to achieve accurate beam-pointing, and thus, high-rate downlink data from Mercury to Earth
ISSN:1095-323X
2996-2358
DOI:10.1109/AERO.2005.1559445