A subset of the total Global Change Technology Initiative instruments are required to be in low Earth, sunsynchronous orbits. There is one instrument, however, that requires its own specialized spacecraft; the Soil Moisture Microwave Radiometer (SMMR). The characteristic structure of the instrument is the 118 m hoop column support structure. The hoop is supported by an axially placed column. Tension cables support and shape an electromagnetically reflective mesh surface. The instrument is capable of detecting frequencies in the 1.4 GHz range (Soil Moisture and Sea Salinity). Three apertures are used to reduce the degree of paraboloid offset and improve the beam quality. The spacecraft configuration is determined by the instrument support requirements and the requirement that it can fit into the Titan IV cargo bay. The configuration is derived by cross referencing the instrument performance requirements with the performance of the spacecraft. The spacecraft design is similar with the Multi-mission Modular Spacecraft in terms of size and packaging. A description of the spacecraft's features will yield a summary of the technologies needed for the SMMR spacecraft.
Hoop Column Soil Moisture Spacecraft in Low Earth Orbit for Global Change Monitoring
1991
9 pages
Report
Keine Angabe
Englisch
Unmanned Spacecraft , Meteorological Data Collection, Analysis, & Weather , Microwave radiometers , Soil moisture , Spacecraft configurations , Earth orbits , Hoop column antennas , Spacecraft orbits , Apertures , Bays (Structural units) , Multimission modular spacecraft , Parabolic bodies , Salinity , Seas , Spacecraft design , Titan , Satellite instruments , Spacecraft instruments