30/20 GHz communications satellite multibeam antenna
Abstract
A 20 GHz downlink satellite antenna design is described. The aperture simultaneously radiates 18 fixed, 0.3 deg width pencil beams directed at 18 cities distributed over CONUS for Trunking Service. All beams use the same trunk frequency allocation for 18 reuses of the band. The same aperture also radiates six additional 0.3 deg spot beams for Customer Premises Service (CPS) for TDMA beam hopping operation to small terminals anywhere in CONUS. Each CPS beam scans one sector of CONUS and all six beams are frequency reused in a CPS band. Offset dual reflector optics are used with a feed array and multiport beam forming network (BFN). For so many frequency reuses, sidelobes per beam must be 30 to 40 dB down over CONUS. Novel dual reflector optics were devised with shaped surfaces providing low aberrations for all beam positions over CONUS (+ or - 12 BW by + or - 5 BW). Scan loss under 1 dB is calculated with nearly constant sidelobes. For each beam position, a 7-element cluster of feeds is activated in the feed array with coefficients adjusted by the BFN to maintain low sidelobes and thus high beam isolation for frequency reuse.
- Publication:
-
9th Communications Satellite Systems Conference
- Pub Date:
- 1982
- Bibcode:
- 1982coss.conf...78S
- Keywords:
-
- Antenna Design;
- Beams (Radiation);
- Communication Satellites;
- Satellite Antennas;
- Time Division Multiple Access;
- Antenna Arrays;
- Antenna Feeds;
- Antenna Radiation Patterns;
- Pencil Beams;
- Switching Circuits;
- Two Reflector Antennas;
- Communications and Radar