Shuttle Ku-band and S-band communications implementation study
Abstract
Various aspects of the shuttle orbiter S-band network communication system, the S-band payload communication system, and the Ku-band communication system are considered. A method is proposed for obtaining more accurate S-band antenna patterns of the actual shuttle orbiter vehicle during flight because the preliminary antenna patterns using mock-ups are not realistic that they do not include the effects of additional appendages such as wings and tail structures. The Ku-band communication system is discussed especially the TDRS antenna pointing accuracy with respect to the orbiter and the modifications required and resulting performance characteristics of the convolutionally encoded high data rate return link to maintain bit synchronizer lock on the ground. The TDRS user constraints on data bit clock jitter and data asymmetry on unbalanced QPSK with noisy phase references are included. The S-band payload communication system study is outlined including the advantages and experimental results of a peak regulator design built and evaluated by Axiomatrix for the bent-pipe link versus the existing RMS-type regulator. The nominal sweep rate for the deep-space transponder of 250 Hz/s, and effects of phase noise on the performance of a communication system are analyzed.
- Publication:
-
Final Report Axiomatix
- Pub Date:
- May 1980
- Bibcode:
- 1980axio.reptQ....D
- Keywords:
-
- Antenna Radiation Patterns;
- Communication Networks;
- Phased Arrays;
- Space Shuttle Orbiters;
- Superhigh Frequencies;
- Ultrahigh Frequencies;
- Antenna Arrays;
- Bit Synchronization;
- Calibrating;
- Space Shuttle Payloads;
- Space Transportation System;
- Tdr Satellites;
- Communications and Radar