Microstrip antennas for SAR applications
Abstract
Current and future microstrip antenna technology development for Spaceborne Synthetic Aperture Radars (SAR) are summarized. Some of the electrical and mechanical characteristics of previously and presently developed microstrip SAR antennas are shown. The SEASAT, the SIR-A and presently the SIR-B antennas are all designed for operation at L-band with approximately 22 MHz of bandwidth. The antennas have linear polarization with minimum of 20 dB of polarization purity. Both the SEASAT and SIR-A antennas were designed for a fixed pointing angle of 20.5 deg and 47 deg, respectively. However, the SIR-B has the added feature of mechanical beam steering in elevation (range). With the exception of different mechanical characteristics, it is concluded that present spaceborne SAR antennas have only single frequency and single polarization performance. The lack of large spaceborne antennas operating at the higher degree of fabrication tolerance required for a given performance; and larger feed and radiating element losses.
- Publication:
-
Spaceborne Imaging Radar Symposium
- Pub Date:
- July 1983
- Bibcode:
- 1983sbir.symp...32H
- Keywords:
-
- Antennas;
- Microstrip Antennas;
- Synthetic Aperture Radar;
- Composite Structures;
- Mechanical Properties;
- Phase Shift;
- Semiconductor Diodes;
- Tables (Data);
- Technology Assessment;
- Communications and Radar