Conceptual communications system design in the 25.25-27.5 and 37.0-40.5 GHz frequency bands

Details Conceptual communications system design in the 25.25-27.5 and 37.0-40.5 GHz frequency bands Conceptual communications system design in the 25.25-27.5 and 37.0-40.5 GHz frequency bands

Dec 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993asee....2.....t&link_type=abstract

In NASA. Johnson Space Center, National Aeronautics and Space Administration (NASA)/American Society for Engineering Education (

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Applications

Data Links, Extremely High Frequencies, Interplanetary Communication, Lunar Communication, Radio Communication, Radio Transmission, Satellite Communication, Communication Networks, Noise Temperature, Pulse Communication, Satellite Networks, Transmission Loss, Transmission Rate (Communications)

Scientific paper

Future space applications are likely to rely heavily on Ka-band frequencies (20-40 GHz) for communications traffic. Many space research activities are now conducted using S-band and X-band frequencies, which are becoming congested and require a degree of pre-coordination. In addition to providing relief from frequency congestion, Ka-band technologies offer potential size, weight, and power savings when compared to lower frequency bands. The use of the 37.0-37.5 and 40.0-40.5 GHz bands for future planetary missions was recently approved at the 1992 World Administrative Radio Conference (WARC-92). WARC-92 also allocated the band 25.25-27.5 GHz to the Intersatellite Service on a primary basis to accommodate Data Relay Satellite return link requirements. Intersatellite links are defined to be between artificial satellites and thus a communication link with the surface of a planetary body, such as the moon, and a relay satellite orbiting that body are not permitted in this frequency band. This report provides information about preliminary communications system concepts for forward and return links for earth-Mars and earth-lunar links using the 37.0-37.5 (return link) and 40.0-40.5 (forward link) GHz frequency bands. In this study we concentrate primarily on a conceptual system for communications between earth and a single lunar surface terminal (LST), and between earth and a single Mars surface terminal (MST). Due to large space losses, these links have the most stringent link requirements for an overall interplanetary system. The earth ground station is assumed to be the Deep Space Network (DSN) using either 34 meter or 70 meter antennas. We also develop preliminary communications concepts for a space-to-space system operating at near 26 GHz. Space-to-space applications can encompass a variety of operating conditions, and we consider several 'typical' scenarios described in more detail later in this report. Among these scenarios are vehicle-to-vehicle communications, vehicle-to-geosyncronous satellite (GEO) communications, and GEO-to-GEO communications. Additional details about both the interplanetary and space-to-space communications systems are provided in an 'expanded' final report which has been submitted to the Tracking and Communications Division (TCD) at the NASA Johnson Space Center.

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