Title :
Using the physical structure of a passive aerodynamic attitude-stabilization system as a multi-frequency antenna on nano-satellites
Author :
Lehmensiek, Robert
Author_Institution :
Dept. of Electr. Eng., Cape Peninsula Univ. of Technol., Bellville, South Africa
fDate :
6/1/2012 12:00:00 AM
Abstract :
The feasibility of using the physical structure of a passive aerodynamic attitude-stabilization system on a nano-satellite as a multi-frequency antenna is shown. Four metallic strips that deploy from the rear of the satellite provide drag torques that stabilize pitch and yaw. These metallic strips are simultaneously used as an antenna for radio communication. The antenna uses physical band-stop filters on the metallic strips to allow the antenna to resonate at different frequencies. An impedance-matching network provides a 50 ohm match to a single coaxial connector. Full-wave electromagnetic analyses of the complete antenna structure on a three-unit CubeSat are presented, together with measured results.
Keywords :
aerodynamics; band-stop filters; electric connectors; impedance matching; multifrequency antennas; satellite antennas; antenna structure; full-wave electromagnetic analysis; impedance-matching network; metallic strips; multifrequency antenna; nanosatellites; passive aerodynamic attitude-stabilization system; physical band-stop filters; radiocommunication; resistance 50 ohm; single coaxial connector; three-unit CubeSat; Aircraft navigation; Attitude control; Band pass filters; Multifrequency antennas; Nanotechnology; Orbits; Satellite communication; Aircraft navigation; attitude control; band stop filter; low Earth orbit satellites; multifrequency antennas; satellite antennas;
Journal_Title :
Antennas and Propagation Magazine, IEEE
DOI :
10.1109/MAP.2012.6293948
