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Reconfigurable photovoltaic modules for robust nanosatellite power systems
Author(s)
Njouakoua Tchonko, Leon
Date Issued
2018
Type
Thesis
Publisher
Cape Peninsula University of Technology
Abstract
Until recently, the focus of most solar technology development for space was towards more efficient, more radiation-resistant and increasingly powerful arrays. During a space mission, solar cells are not only exposed to irradiation by electrons, but also to a range of other particles, like protons. Thus, solar cells on robust nanosatellites are extremely exposed to an environment, which includes the high-energy electrons and protons of the earth’s radiation belts, which leads towards the degradation process of the individual solar cell. Solar cell radiation shielding design ensures the protection of the solar cells from the particular radiation environment found in space. While the design principles of a solar photovoltaic automatic switching fault tolerant system which can detect and bypass faulty photovoltaic cells will be presented through this research work. The ability of such a system to be reconfigured using implemented switching matrix system makes it efficient under various environments and faulty conditions.
Additional information
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2018.
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Name
212008412-Njouakoua Tchonko-Leon-MEng-Electrical-Engineering-Eng-2018.pdf
Description
Thesis
Size
3.46 MB
Format
Adobe PDF
Checksum
(MD5):5a1a7af0dfacc4e68631bd9c7f34c3e5