The ExoMars Rover Solar Array Assembly

2019 European Space Power Conference (ESPC) Pub Date : 2019-09-01 DOI:10.1109/ESPC.2019.8932077

S. Riva, L. Serafini, S. Amos, M. Cimino, G. D'accolti, S. Durrant, P. Zanella, R. Romani, R. Contini, J. M. Arroyo, Juan Carlos Bahillo, Cristina Borque, Fernando del Campo, Jon Laguna

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Abstract

This paper describes the ExoMars Rover Solar Array Assembly (SAA), a unique equipment, different from anything developed before in Europe. The SAA is part of the Rover which will be launched as part of the European Space Agency's ExoMars Mission under subcontract to the mission prime Thales Alenia Space. Airbus UK has the responsibility of the vehicle, Leonardo of the solar Array including the electrical part, while Sener is responsible for the mechanism part. The ExoMars Rover and Surface Platform, respectively named Rosalind Franklin and Kazachok, planned for launch in 2020 is a large international cooperation between the European Space Agency and Roscosmos with a contribution from NASA. All potential critical requirements have been identified and covered by a specific qualification testing. The biggest challenge in terms of development and qualification efforts is related to surviving Mars planet environment (i.e. dust and wind) and the system mechanical and electrical constraints.

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ExoMars漫游者太阳能阵列组件

本文介绍了ExoMars漫游者太阳能阵列组件(SAA)，这是一种独特的设备，不同于欧洲以前开发的任何设备。SAA是火星车的一部分，火星车将作为欧洲航天局ExoMars任务的一部分发射，该任务将分包给泰利斯阿莱尼亚航天公司。空中客车英国公司负责车辆，莱昂纳多负责太阳能电池阵列包括电气部分，而Sener负责机构部分。ExoMars火星车和地面平台分别名为罗莎琳德·富兰克林和卡扎克，计划于2020年发射，是欧洲航天局和俄罗斯航天局之间的一项大型国际合作，美国宇航局也做出了贡献。所有潜在的关键需求都已通过特定的资格测试确定并涵盖。在开发和鉴定工作方面，最大的挑战与火星行星环境(即灰尘和风)以及系统机械和电气限制有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 European Space Power Conference (ESPC)

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