20-GHz phased-array-fed antennas utilizing distributed MMIC modules
Abstract
The feasibility of phased-array-fed dual-reflector systems with distributed power and phase control, and utilizing monolithic microwave integrated circuit modules, is demonstrated. Secondary radiation patterns for various antenna configurations, calculated using a method in which the phased array for each scanning direction is simulated by a fictitious point source, are computed to determine the achievable EIRP levels, sidelobe isolation, and cross-polarization isolation. The focal-region-fed Cassegrain reflector was found to be best suited for fixed multiple beam applications, while the phased-array-fed dual-reflector configuration was selected for multiple scanning beams. Key elements of the phased-array design including a radiating square horn and a square orthomode transducer were fabricated and tested.
- Publication:
-
COMSAT Technical Review
- Pub Date:
- 1986
- Bibcode:
- 1986COMTR..16..339S
- Keywords:
-
- Antenna Feeds;
- Integrated Circuits;
- Microwave Antennas;
- Microwave Circuits;
- Phased Arrays;
- Satellite Antennas;
- Cassegrain Antennas;
- Circuit Diagrams;
- Multibeam Antennas;
- Optical Properties;
- Tradeoffs;
- Two Reflector Antennas;
- Communications and Radar