2019
DOI: 10.3390/aerospace6050050
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Comparison of Solar Radiation Torque and Power Generation of Deployable Solar Panel Configurations on Nanosatellites

Abstract: Nanosatellites, like CubeSat, have begun completing advanced missions that require high power that can be obtained using deployable solar panels. However, a larger solar array area facing the Sun increases the solar radiation torque on the satellite. In this study, we investigated solar radiation torque characteristics resulting from the increased area of solar panels on board the CubeSats. Three common deployable solar panel configurations that are commercially available were introduced and their reference mi… Show more

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Cited by 4 publications
(2 citation statements)
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“…The BM types have the panels mounted (fixed) on the side frames of the satellites. On the other hand, DSA have in addition to the fixed panels, deployable ones that give them more surface area to optimize power generation 8 . The payload operations of BM CubeSats were limited to basic low power image coverage due to inadequate power in earlier systems like the CUTE‐I 1 U/BM for Armature Radio with 1.5 W launched in 2003 9 and CanX‐2 3 U/BM as technology demonstrator for formation flying launched in 2008 10 .…”
Section: Introductionmentioning
confidence: 99%
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“…The BM types have the panels mounted (fixed) on the side frames of the satellites. On the other hand, DSA have in addition to the fixed panels, deployable ones that give them more surface area to optimize power generation 8 . The payload operations of BM CubeSats were limited to basic low power image coverage due to inadequate power in earlier systems like the CUTE‐I 1 U/BM for Armature Radio with 1.5 W launched in 2003 9 and CanX‐2 3 U/BM as technology demonstrator for formation flying launched in 2008 10 .…”
Section: Introductionmentioning
confidence: 99%
“…On the other hand, DSA have in addition to the fixed panels, deployable ones that give them more surface area to optimize power generation. 8 The payload operations of BM CubeSats were limited to basic low power image coverage due to inadequate power in earlier systems like the CUTE-I 1 U/BM for Armature Radio with 1.5 W launched in 2003 9 and CanX-2 3 U/BM as technology demonstrator for formation flying launched in 2008. 10 On the other hand, the use of DSA in the recent systems provides more power to achieve high precision images and other sophisticated operations as obtained in FLOCK-1 3 U/DSA with 20 W launched in 2014 as earth observer, 11 and Mars Cube One (MarCO) 6 U/DSA launched in 2018 for Telecom technology, 12 producing 8 to 12 times more power.…”
Section: Introductionmentioning
confidence: 99%