De-tumbling Control of a CubeSat

2018 IEEE International Conference on Advanced Manufacturing (ICAM) Pub Date : 2018-11-01 DOI:10.1109/AMCON.2018.8614819

Wen-Chi Lu, L. Duan, YiSheng Cai

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引用次数: 3

Abstract

To keep the proper orientation of the satellite is an essential issue for most space missions. However, tumbling motion of a satellite after separation from the launcher is inevitable and thus the de-tumbling is the first task of the attitude control system of a satellite. Cubesats, one of the nano-class satellites, are defined by Calpoly with masses less than 10kg. A team in National Formosa University is developing a 2-U Cubesat, named as NUTSat, to promote the aviation safety. The cubesat will carry a ADS-B receiver as the main payload to collect the flight information of civil aircraft beneath the orbit. An attitude control system of the cubesat is designed to perform the detumbling and attitude control and keep the ADS-B antenna towards to the earth. The cubesat has two magnetic torquers and one coil to interact with the earth’s magnetic field to generate proper torques to change the attitude. A three-axis magnetic sensor is used to estimate the satellite’s orientation. At this phase, the de-tumbling has been validated by simulation. Further attitude pointing controller design is undergoing.

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立方体卫星的反翻滚控制

保持卫星的正确方向是大多数太空任务的一个基本问题。然而，卫星在与发射体分离后的翻滚运动是不可避免的，因此反翻滚是卫星姿态控制系统的首要任务。立方体卫星是纳米级卫星之一，由Calpoly定义为质量小于10公斤。台湾国立台塑大学(National Formosa University)的一个团队正在开发一种名为NUTSat的2-U立方体卫星，以促进航空安全。该卫星将携带ADS-B接收机作为主要有效载荷，用于收集轨道下民用飞机的飞行信息。设计了卫星姿态控制系统，实现了卫星的坠落和姿态控制，使ADS-B天线保持对地方向。立方体卫星有两个磁扭矩器和一个线圈，与地球磁场相互作用，产生适当的扭矩来改变姿态。一个三轴磁传感器被用来估计卫星的方向。在此阶段，通过仿真验证了去翻滚的有效性。进一步的姿态指向控制器设计正在进行中。

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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2018 IEEE International Conference on Advanced Manufacturing (ICAM)

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