高辐照度高温真空测试太阳探测器Plus阵列设计

A. Boca, P. Blumenfeld, K. Crist, K. de Zetter, R. Mitchell, B. Richards, C. Sarver, P. Sharps, M. Stan, C. Tourino
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引用次数: 4

摘要

太阳探测器Plus (SPP)航天器将比以往任何一次任务飞得更远,到达距离太阳中心9.5太阳半径的最小近日点。为航天器提供动力的太阳能电池阵列将在异常高的辐照度和温度下运行。因此,SPP的阵列设计、材料选择和必要的测试设备与传统空间面板上使用的设备有很大不同。本文概述了迄今为止在Emcore完成的高辐照度高温真空(HIHT-Vac)可靠性测试,该测试在三个小型样品上完成,代表了两种相互竞争的spp阵列技术。两种技术都成功通过了hht - vac测试,没有出现可测量的性能、视觉或机械性能下降,达到了SPP阵列开发的一个关键里程碑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-irradiance high-temperature vacuum testing of the Solar Probe Plus array design
The Solar Probe Plus (SPP) spacecraft will fly further into the Sun's corona than any previous mission, reaching a minimum perihelion at 9.5 solar radii from the center of the Sun. The solar arrays powering the spacecraft will operate under unusually high irradiances and temperatures. The array design, material choices, and necessary test facilities for SPP are therefore quite different from those used on traditional space panels. This paper gives an overview of the high-irradiance high-temperature vacuum (HIHT-Vac) reliability testing completed to date at Emcore on three small-scale coupons representing two competing SPP-array technologies. Both technologies successfully passed the HIHT-Vac test with no measurable performance, visual or mechanical degradation, reaching a key milestone in the development of the SPP array.
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