2015
DOI: 10.1109/taes.2015.140208
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Experimental feasibility study of concentrating photovoltaic power system for cubesat applications

Abstract: The ability to produce sufficient power is an important factor in assuring the success of the challenging and complex cube satellite (CubeSat) missions within an extremely small size. A CubeSat has only a limited surface area on which solar panels can be installed to generate power. The incidence angle of sunlight on the solar panels also varies according to the revolution and rotation of the satellite. These are important parameters for determining the amount of power that a CubeSat can generate. In this stud… Show more

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Cited by 24 publications
(14 citation statements)
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“…In addition, we predicted the enhancement of the power generation efficiency of the proposed solar-energy collection system according to the various attitude control profiles of the satellite by an on-orbit power generation simulation using the commercial software STK (Systems Tool Kit) [26]. In the simulations, we confirmed that the proposed solar-energy collection system with the Fresnel lens system installed on the edge of the solar panel at an optimized installation angle is effective for providing a much higher power generation performance for the cube satellite as compared to the conventional configuration using a multiarray lens system [25].…”
Section: Introductionsupporting
confidence: 54%
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“…In addition, we predicted the enhancement of the power generation efficiency of the proposed solar-energy collection system according to the various attitude control profiles of the satellite by an on-orbit power generation simulation using the commercial software STK (Systems Tool Kit) [26]. In the simulations, we confirmed that the proposed solar-energy collection system with the Fresnel lens system installed on the edge of the solar panel at an optimized installation angle is effective for providing a much higher power generation performance for the cube satellite as compared to the conventional configuration using a multiarray lens system [25].…”
Section: Introductionsupporting
confidence: 54%
“…By applying the Fresnel lens in a way that was proposed in this study, the solar energy collected to the Fresnel lens is spread over the area of solar panel without forming a focal point on it. In addition, the power measurement test using a xenon lamp has been performed by Oh and Park [25] to investigate additional spectral features of light source related to an air mass zero (AM0) solar irradiation because this more effectively simulates the solar energy in a wide solar wavelength spectrum compared to the halogen lamp. In the test, they used a multiarray lens, which has the same dimensions and material as the one used in this study.…”
Section: Power-measurement Test Resultsmentioning
confidence: 99%
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