2026-03-11T23:06:10Z
https://jaxa.repo.nii.ac.jp/oai
oai:jaxa.repo.nii.ac.jp:00008022
2023-06-21T07:29:39Z
1543:1562:1574
1887:1891
太陽電池パドル表面放電により発生するプラズマ抵抗のシミュレーション解析
Simulation of plasma resistance generated by solar array panel surface discharge
前島, 淳司
奥村, 哲平
増井, 博一
Cho, Mengu
Maeshima, Junji
Okumura, Teppei
Masui, Hirokazu
Cho, Mengu
metadata only access
太陽電池アレイ
表面放電
短絡
放電電流
プラズマ抵抗
計算機シミュレーション
宇宙機給電
航空宇宙環境
搭載機器
solar array
surface discharge
short circuit
discharge current
plasma resistance
computerized simulation
spacecraft power supply
aerospace environment
onboard equipment
In recent years, long-term employment and enlargement are becoming remarkable in space development. The increase in electric power may include discharges on the solar array panels of spacecrafts. Furthermore, the discharges involve the risk of producing surges which affect payloads in the spacecrafts. Testing with real satellites has many problems with time, effort, equipment, cost, etc., so an accurate evaluation by simulation is needed. In order to evaluate correctly, we have to imitate discharge currents that flow through a circuit. This discharge current can be obtained by modeling the plasma resistance generated by the discharges, as well as the equivalent circuit of the whole spacecraft. In this research, we modeled this plasma resistance. First, plasma resistance includes two resistance components, one of which exists in the discharging current path of the charges stored in the space body. The other resistance component exists in the inflowing current path of the charges stored on the surfaces of the solar cells. The former current and resistance are known as a blow-off current and blow-off resistance. The latter current and resistance are known as a flash-over current and flash-over resistance. In order to acquire experimental values of blow-off resistance, we measured the blow-off current using a solar cell, and analyzed it using SPICE simulation. From the results, it was confirmed that blow-off resistance decreased exponentially. Also, blow-off resistance had a relationship with discharge energy. In addition, we measured the flash-over resistance. We measured the flash-over current using a solar array coupon which had 50 cells on the coupon, and analyzed it using SPICE simulation. From the results, it was confirmed that flash-over resistance increased linearly in proportion to the distance from the discharge point. In the near future, we will create the equivalent circuit of the solar array panel. Moreover, there is a need to create the equivalent circuits of recently prevailing GaAs solar cells and triple-junction solar cells.
資料番号: AA0063965009
宇宙航空研究開発機構宇宙科学研究本部
Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA/ISAS)
2008-05
jpn
conference paper
https://jaxa.repo.nii.ac.jp/records/8022
第27回宇宙エネルギーシンポジウム 平成19年度
The Twenty-seventh Space Energy Symposium
44
48