Numerous space applications of the future will require mesh deployable antennas of 15 m in diameter or greater for frequencies up to 20 GHz. These applications include mobile communications satellites, orbiting very long baseline interferometry (VLBI) astrophysics missions, and Earth remote sensing missions. A Lockheed wrap rip antennas was used as the test article. The experiments covered a broad range of structural, control, and RF discipline objectives, which is fulfilled in total, would greatly reduce the risk of employing these antenna systems in future space applications. It was concluded that a flight experiment of a relatively large mesh deployable reflector is achievable with no major technological or cost drivers. The test articles and the instrumentation are all within the state of the art and in most cases rely on proven flight hardware. Every effort was made to design the experiments for low cost.
Antenna Technology Shuttle Experiment (ATSE)
1987
29 pages
Report
Keine Angabe
Englisch
Antennas , Unmanned Spacecraft , Control systems design , Flight tests , Large space structures , Space erectable structures , Space shuttles , Spacecraft antennas , Booms (Equipment) , Dynamic structural analysis , Mission planning , Radio frequencies , Reflector antennas , Systems integration , Thermal radiation