12 The Advanced Spaceborne Thermal Emission and Reflection radiometer (ASTER) was one of the mission instruments selected by NASA to fly on the EOS-AM1 spacecraft. The EOS- AM1 (Terra) spacecraft was launched from Vandenberg Air Force Base, December 18, 1999. The ASTER consists of a visible and near-infrared radiometer (VNIR), a short-wave infrared radiometer (SWIR) and a thermal infrared radiometer (TIR). Two cryocoolers are required to cool down the infrared detectors for the SWIR and the TIR. Two cold plates act as a heatsink for each compressor unit and maintain in temperature in the range between 20 degree(s)C and 25 degree(s)C by a capillary-pump heat-transfer system (CPHTS). Therefore, environmental temperature conditions are the same for the two compressor units. While the TIR expander unit is thermal controlled by a local radiator with a heat pipe, the SWIR expander unit employs radiative cooling for thermal control. The performance of ASTER cryocooler was evaluation to operate normally, based on the data obtained in the functional checkout in orbit. The SWIR cryocooler cools the detector to the operating temperature of 77 K in the cooldown time of 22 minutes. The TIR cryocooler cools the detector to the operating temperature of 80 K in the cooldown time of 23 minutes. The temperature of each detector was stabilized in the allowable temperature range. A clear image was obtained in the initial checkout of each radiometer in their observation mode.
In-flight performance of the ASTER cryocooler
Sensors, Systems, and Next-Generation Satellites IV ; 2000 ; Barcelona,Spain
Proc. SPIE ; 4169
2001-02-09
Conference paper
Electronic Resource
English
Performance evaluation of ASTER cryocooler in orbit
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