DocumentCode
2969189
Title
Advances in Microwave Technology for the MESSENGER Mission to Mercury
Author
Wallis, Robert E. ; Cheng, Sheng ; Malouf, Perry M. ; Stilwell, Robert K.
Author_Institution
Johns Hopkins Univ., Laurel
fYear
2007
fDate
3-8 June 2007
Firstpage
939
Lastpage
942
Abstract
The MESSENGER spacecraft, designed to orbit the planet Mercury, uses the first electronically scanned phased-array antenna for a deep-space telecommunication application. Two lightweight phased arrays, mounted on opposite sides of the spacecraft, provide the high-gain downlink coverage. Medium-gain antennas are used for uplink and downlink during cruise phase. The invention of a method for achieving circular polarization in a high-temperature (+300degC) environment has doubled the science return of the mission relative to the inherent linear polarization from a slotted waveguide array. Monolithic microwave integrated circuits and discrete heterostructure field effect transistors are integrated to provide the high-efficiency X-band solid-state power amplifier.
Keywords
HEMT integrated circuits; MMIC; Mercury (planet); antenna phased arrays; electromagnetic wave polarisation; high electron mobility transistors; microwave power amplifiers; scanning antennas; slot antenna arrays; space communication links; space vehicle antennas; MESSENGER spacecraft mission; Mercury; circular polarization; deep-space telecommunication application; discrete heterostructure field effect transistors; electronically scanned phased-array antenna; high-efficiency X-band solid-state power amplifier; high-gain downlink coverage; linear polarization; medium-gain antenna; microwave technology; monolithic microwave integrated circuits; slotted waveguide array; temperature 300 degC; Downlink; Mercury (planets); Microwave technology; Optical arrays; Optical polarization; Phased arrays; Planetary orbits; Planets; Space technology; Space vehicles; Microwave power amplifiers; phased arrays; scanning antennas;
fLanguage
English
Publisher
ieee
Conference_Titel
Microwave Symposium, 2007. IEEE/MTT-S International
Conference_Location
Honolulu, HI
ISSN
0149-645X
Print_ISBN
1-4244-0688-9
Electronic_ISBN
0149-645X
Type
conf
DOI
10.1109/MWSYM.2007.380172
Filename
4263978
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