Spar Aerospace, Ltd. of Canada has recently completed the first of two infrared thermal balance/thermal vacuum tests on Canada's next generation of telecommunication satellites: Anik-E. Anik-E is a two spacecraft program using a three axis stabilized GE 5000 series bus as the vehicle for its payload. The infrared test setup consists of the mechanical hardware required to support the spacecraft within the thermal vacuum chamber and the infrared rig which supports the spacecraft. Spar developed a software package which calculated the lamp positions to provide the necessary uniform heat flux, based on the required heat inputs on the various isothermal zones of the spacecraft for the different phases of the tests. Infrared heat sensors, radiometers, were installed on the spacecraft surfaces. These were connected to the facility data processing system and continually monitored the flux absorbed by the various spacecraft surfaces. The test set up had distinct advantages. It enabled testing to progress directly from the thermal balance to thermal vacuum. Waveguide runs were installed for the communications portion of the testing prior to pumpdown. This precluded the requirement to return to ambient to reconfigure the setup.
Thermal Balance Testing of the Anik-E Spacecraft. (Abstract Only)
1990
1 pages
Report
No indication
English
Manned Spacecraft , Unmanned Spacecraft , Heat balance , Heat flux , Infrared radiation , Space environment simulation , Thermal analysis , Thermal vacuum tests , Applications programs (Computers) , Canadian space program , Communication satellites , Infrared radiometers , Temperature measurement , Test facilities , Foreign technology
Thermal balance testing of the Anik-E spacecraft
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