Title :
Redundancy modeling for the X-Sat microsatellite system
Author :
Yin-Liong Mok ; Cher-Hiang Goh ; Segaran, R.C.
Author_Institution :
DSO Nat. Labs., Singapore, Singapore
Abstract :
X-Sat, the first microsatellite indigenously developed in Singapore, was launched in April 2011. Following a series of checkouts, the satellite was declared operational mid Jun 2011. From then on, X-Sat was expected to go on operating for up to three years, totally unattended in the vacuum and temperature extremes of the space environment. Its isolation in space imposed a high reliability requirement for X-Sat. Redundancy to deal with single-point-failure was implemented throughout the X-Sat microsatellite system, whether it was hot, cold or k/n redundancies. If redundancy was not possible at the subsystem or unit level, then some form of redundancy was implemented at the component or parts level.
Keywords :
aerospace instrumentation; artificial satellites; failure analysis; redundancy; AD 2011 4; AD 2011 6; Singapore; X-Sat microsatellite system; redundancy; reliability; single-point-failure; space environment; Receivers; Redundancy; Satellites; Sensors; Sun; Transmitters; Design for Redundancy; Reliability Block Diagram; Satellite System; X-Sat;
Conference_Titel :
Reliability and Maintainability Symposium (RAMS), 2013 Proceedings - Annual
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4673-4709-9
DOI :
10.1109/RAMS.2013.6517756
