Effect of space radiation on CTJ new version multijunction solar cells

Effect of space radiation on CTJ new version multijunction solar cells

The photovoltaic solar array is the main source of power in satellites because of its high reliability, robustness, cost effectiveness and environment friendliness. In the satellite solar array, Watts/m 2 is a very important parameter because any reduction in the area of the solar array leads to red...

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Bibliographic Details
Published in:Radiation effects and defects in solids Vol. 176; no. 3-4; pp. 382 - 395
Main Authors: Uma, B. R., Krishnan, Sheeja, Radhakrishna, V., Campesato, Roberta
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 26-03-2021
Taylor & Francis Ltd
Subjects:
Cost effectiveness
defects
Extraterrestrial radiation
Multijunction solar cells
photoluminescence
Photovoltaic cells
Photovoltaics
Radiation
Radiation effects
radiative recombination
Satellites
Solar arrays
Solar cells
Solar collectors
spectral response
Weight reduction
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Summary:The photovoltaic solar array is the main source of power in satellites because of its high reliability, robustness, cost effectiveness and environment friendliness. In the satellite solar array, Watts/m 2 is a very important parameter because any reduction in the area of the solar array leads to reduced weight and increased mission life. Similarly, lower $/Watt reduces the cost of satellites. In order to achieve this goal, there should not be any compromise on the performance of the solar cells. CESI Italy has developed a new version of multijunction solar cells with lower cost (CTJ-LC) without compromising on the performance. In space, particulate radiation is one of the major threats on the performance of solar cells. The radiation induces the defects in the solar cells and reduces the performance. In this paper, performance study after radiation exposure is made on these low-cost solar cells by using different characterization techniques and compared with the performance of the standard multijunction solar cells. The details of characterization and test results are presented in this paper.
ISSN:1042-0150
1029-4953
DOI:10.1080/10420150.2020.1849214