立方体卫星姿态测试用亥姆霍兹笼

2022 Advances in Science and Engineering Technology International Conferences (ASET) Pub Date : 2022-02-21 DOI:10.1109/ASET53988.2022.9734308

Aaisha Rashid Al-Abri, Noora Ibrahim Al-Khoori, Mezna Salem Al-Marri, Asma Ahmed Al-Hamed, P. Sreekumar

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引用次数: 2

摘要

立方体卫星是一种小型卫星，用于进行空间研究，其成本只是完全建成的卫星的一小部分。为了测试立方体卫星，需要开发类似于太空的测试环境，通常由亥姆霍兹笼提供。这项工作提出了亥姆霍兹笼的设计，以提供一个动态的，三轴均匀的磁场，并创造一个类似于卫星在轨道上经历的地磁场的环境。立方体卫星的设计包括姿态确定与控制分系统(ADCS)，它是航天器的关键分系统。ADCS依赖于通过磁力计感知空间中的地磁场和/或利用地磁场通过转矩线圈对航天器进行转矩。本文设计的2m*2m*2m亥姆霍兹笼用于测试adc的磁强计和磁力矩器。利用Auto Desk对亥姆霍兹保持架进行了机械设计，利用Matlab对铜圈的匝数和尺寸进行了仿真研究。

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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Helmholtz Cage for Attitude Testing Of CubeSat

CubeSats are small satellites which are used to conduct space research at a fraction of the cost of a fully built satellite.is In order to test CubeSat, a testing environment similar to space is to be developed, which is usually provided by Helmholtz cage. This work presents the design of a Helmholtz cage to provide a dynamic, 3-axis uniform magnetic field and create an environment similar to the geomagnetic field a satellite would experience on-orbit. The design of the CubeSat consists of ADCS (attitude determination and control subsystem) which is a crucial subsystem of a spacecraft. The ADCS dependent upon sensing the geomagnetic field in space via magnetometer and/or use the geomagnetic field to torque the spacecraft via torque coils. The 2m*2m*2m Helmholtz cage deigned in this work is used to test the magnetometer and the magnetorquer of the ADCS. The mechanical design of the Helmholtz cage is designed using Auto Desk, the number of turns of the copper coil and its sizing is determined using Matlab based simulation studies.

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2022 Advances in Science and Engineering Technology International Conferences (ASET)

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