Solar Power Satellite (SPS) pilot beam and communication link subsystem investigation study, phase 1
Abstract
A preliminary engineering model of ionospheric interactions with the pilot beam was established and used to demonstrate that the dual frequency baseline pilot beam system might not be viable in the presence of an unstable transmission path. Alternate approaches to remove this difficulty are described. Although ionospheric fluctuations will not significantly degrade beam pointing or raise the sidelobe levels, they will reduce transmission efficiency by upwards of 25%. Mitigating strategies to substantially reduce this effect are proposed. Based on the Klystron noise spectrum, the pilot beam transmitter power was determined as a function of frequency offset from the power beam carrier frequency. The RFI from the pilot beam, on the ground and at geosynchronous orbit is shown. Noise levels on the earth's surface due to the SPS are presented as a function of frequency and the number of SPS systems. Analysis of the communication subsystem indicates that a standard telemetry line of 1.544 MB/s would satisfy both voice and data link requirements. Additional links would be required for TV and radio transmissions.
- Publication:
-
Final Report Raytheon Co
- Pub Date:
- January 1979
- Bibcode:
- 1979rayc.reptQ.....
- Keywords:
-
- Ionospheric Propagation;
- Microwave Transmission;
- Radio Frequency Interference;
- Satellite Power Transmission;
- Telecommunication;
- Cross Coupling;
- Klystrons;
- Noise Spectra;
- Telecommunication;
- Transmission Efficiency;
- Launch Vehicles and Space Vehicles