Parker Solar Probe's 1st Year of Ka-band Operations

2020 IEEE Aerospace Conference Pub Date : 2020-03-01 DOI:10.1109/AERO47225.2020.9172588

Matthew W. Cox, D. Copeland, R. Nikoukar, Sean Sprouse

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引用次数: 1

Abstract

Launched in 2018, NASA's Parker Solar Probe (PSP) mission has been described as “The Mission to Touch the Sun”. Over a 7 year prime mission, the spacecraft will make 24 close encounters with the Sun. In order to meet requirements, PSP's telecom subsystem needed to incorporate a Ka-band downlink for radiometrics and science data return. PSP uses a 0.6 meter High Gain Antenna (HGA). This antenna is used only for a Ka-band downlink, and during its use is nominally the only time the science data is transmitted. Aspects of the mission design also restrict the use of the HGA to short periods in between each solar flyby. These constraints require the RF team and Mission Operations team to be extra diligent in optimizing the downlink data return. This paper provides a summary of PSP's first year of operations at Ka-band. In addition to presenting the overall Ka-band performance, other items that will be focused on include: planning considerations for Ka-band coverage with the DSN, observed effectiveness of a HGA calibration, pre-launch link assumptions, and possible future work. With multiple future deep space missions utilizing a Ka-band downlink, this information will hopefully be beneficial to help with planning and optimizing the data return.

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帕克太阳探测器在ka波段运行的第一年

美国宇航局于2018年发射的帕克太阳探测器(PSP)任务被称为“触摸太阳的任务”。在为期7年的主要任务中，该航天器将与太阳进行24次近距离接触。为了满足要求，PSP的电信子系统需要加入一个ka波段下行链路，用于辐射测量和科学数据返回。PSP使用0.6米高增益天线(HGA)。该天线仅用于ka波段下行链路，在其使用期间，名义上是科学数据传输的唯一时间。任务设计方面也限制了HGA在每次飞越太阳之间的短时间内的使用。这些限制要求RF团队和任务操作团队在优化下行链路数据返回方面更加努力。本文总结了PSP第一年在ka波段的运行情况。除了展示ka波段的整体性能外，其他将重点关注的项目包括:用DSN覆盖ka波段的规划考虑，观测到的HGA校准的有效性，发射前链路假设，以及可能的未来工作。随着未来多个深空任务利用ka波段下行链路，这些信息有望有助于规划和优化数据返回。

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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2020 IEEE Aerospace Conference

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