Feasibility of inertialess conscan utilizing modified DSN feedsystems
Abstract
The closed-loop conical-scan (conscan) technique has proven to be a useful method for pointing the DSN antennas more accurately than is possible by open-loop methods. As presently implemented, the antenna beam is scanned about the received signal direction by physical movement of the antenna. While straightforward, this approach has at least two disadvantages. Firstly, because of structural distortions, finite angle encoder resolution, and drive servo response, the actual antenna beam direction only approximates the commanded beam direction. Secondly, because of the large mass moved during scan, the rate of scan is severely restricted. If there are significant gain or signal level variations during a scan period, the conscan system interprets these variations as antenna pointing error. Both of these disadvantages would be alleviated in an inertialess conscan system in which the beam scanning was performed electronically. Recently, standard JPL antenna feedhorn software was upgraded to calculate, among other things, asymmetric corrugated horn radiation patterns of the type that would be needed for electronic beam scan. The required horn excitation is discussed and the results were described.
- Publication:
-
The Deep Space Network
- Pub Date:
- June 1979
- Bibcode:
- 1979dsn..nasa...85P
- Keywords:
-
- Antenna Feeds;
- Conical Scanning;
- Inertialess Steerable Antennas;
- Antenna Radiation Patterns;
- Computer Programs;
- Deep Space Network;
- Hybrid Structures;
- Numerical Analysis;
- Communications and Radar