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5 May 2017 Electrical design for origami solar panels and a small spacecraft test mission
James Drewelow, Jeremy Straub
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Proceedings Volume 10196, Sensors and Systems for Space Applications X; 101960J (2017) https://doi.org/10.1117/12.2264045
Event: SPIE Defense + Security, 2017, Anaheim, CA, United States
Abstract
Efficient power generation is crucial to the design of spacecraft. Mass, volume, and other limitations prevent the use of traditional spacecraft support structures from being suitable for the size of solar array required for some missions. Folding solar panel / panel array systems, however, present a number of design challenges. This paper considers the electrical design of an origami system. Specifically, it considers how to provide low impedance, durable channels for the generated power and the electrical aspects of the deployment system and procedure. The ability to dynamically reconfigure the electrical configuration of the solar cells is also discussed. Finally, a small satellite test mission to demonstrate the technology is proposed, before concluding.
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James Drewelow and Jeremy Straub "Electrical design for origami solar panels and a small spacecraft test mission", Proc. SPIE 10196, Sensors and Systems for Space Applications X, 101960J (5 May 2017); https://doi.org/10.1117/12.2264045
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KEYWORDS
Space operations
Solar cells
Microcontrollers
Resistance
Reliability
Field effect transistors
Gold
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