基于微带磁振器的纳米卫星姿态确定与控制系统设计

2016 International Conference on Control, Electronics, Renewable Energy and Communications (ICCEREC) Pub Date : 2016-09-01 DOI:10.1109/ICCEREC.2016.7814974

Defrandi Renanda Haryadi, H. Wijanto, Budi Syihabuddin, A. D. Prasetyo

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引用次数: 6

摘要

磁致力矩器是用于纳米卫星的一种主动控制方式。它可以用带圆形螺旋贴片的微带线制成。在以前的研究中，磁力矩器系统是通过在导体的横截面上缠绕一个线圈来设计的。磁场是使线圈通电而产生的。当磁转矩器产生的磁场与地球磁场相互作用时，就产生了扭矩。通过控制力矩可以改变纳米卫星在轨道上的方向。本文设计的磁振器电压消耗为5 V，电流消耗为0.5-1 A。通过向磁致力矩器提供不同电流，磁场的最小值为0.811 μT，最大值为1.596 μT。

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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Design of attitude determination and control system using microstrip magnetorquer for nanosatellite

Magnetorquer is a type of active control used on nanosatellite. It can be made by using microstrip line with a circular spiral patch. In previous research, the magnetorquer system was designed by using a coil of wire wrapped around the cross-section of conductor. The magnetic field is generated by electrifying the coil of wire. The torque is produced when the magnetic field generated from magnetorquer interacts with the Earth's magnetic field. The torque can be controlled to change nanosatellite orientation in its orbit. In this paper, the magnetorquer is designed with 5 V of voltage consumption and 0.5-1 A of current consumption. By supplying the magnetorquer with various amount of current, the minimum and maximum values of magnetic field are 0.811 μT and 1.596 μT respectively.

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2016 International Conference on Control, Electronics, Renewable Energy and Communications (ICCEREC)

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