300w太阳能电池阵列磁偶极矩分析

IF 0.6 Q4 ASTRONOMY & ASTROPHYSICS

Journal of Astronomy and Space Sciences Pub Date : 2019-09-01 DOI:10.5140/jass.2019.36.3.181

G. Shin, Dong-Guk Kim, Se-Jin Kwon, Hu-Seung Lee

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引用次数: 0

摘要

通过星跟踪器、三轴磁强计、三轴陀螺仪和全球定位信号接收器，可以获得航天器的姿态信息。通过使用这些传感器，航天器可以通过产生扭矩的致动器来操纵。特别是，电磁力矩杆可以用于姿态控制和动量抵消仪器。通过电路和线圈的电流可以产生航天器的动量。因此，电磁转矩棒周围的电流是精确控制航天器的关键因素。与这些问题相联系，太阳能电池阵列可以考虑防止磁偶极矩的产生，因为太阳能电池阵列可以通过电线引入大量电流。不影响精确控制的磁偶极矩最大值为0.25 a·m2，该值考虑了流过反作用轮组件的电流和磁转矩电流。在这项研究中，我们设计了一个300-W的太阳能电池阵列，并提出了一种优化的布线方法，以最大限度地减少空间应用中的磁偶极矩。通过仿真验证了该方法的有效性。

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Analysis of Magnetic Dipole Moment for a 300-W Solar-Cell Array

The attitude information of spacecraft can be obtained by the sensors attached to it using a star tracker, three-axis magnetometer, three-axis gyroscope, and a global positioning signal receiver. By using these sensors, the spacecraft can be maneuvered by actuators that generate torques. In particular, electromagnetic-torque bars can be used for attitude control and as a momentum-canceling instrument. The spacecraft momentum can be created by the current through the electrical circuits and coils. Thus, the current around the electromagnetic-torque bars is a critical factor for precisely controlling the spacecraft. In connection with these concerns, a solar-cell array can be considered to prevent generation of a magnetic dipole moment because the solar-cell array can introduce a large amount of current through the electrical wires. The maximum value of a magnetic dipole moment that cannot affect precise control is 0.25 A·m2, which takes into account the current that flows through the reaction-wheel assembly and the magnetic-torque current. In this study, we designed a 300-W solar cell array and presented an optimal wire-routing method to minimize the magnetic dipole moment for space applications. We verified our proposed method by simulation.

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来源期刊

Journal of Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-

CiteScore

1.30

自引率

20.00%

发文量

审稿时长

12 weeks

期刊介绍： JASS aims for the promotion of global awareness and understanding of space science and related applications. Unlike other journals that focus either on space science or on space technologies, it intends to bridge the two communities of space science and technologies, by providing opportunities to exchange ideas and viewpoints in a single journal. Topics suitable for publication in JASS include researches in the following fields: space astronomy, solar physics, magnetospheric and ionospheric physics, cosmic ray, space weather, and planetary sciences; space instrumentation, satellite dynamics, geodesy, spacecraft control, and spacecraft navigation. However, the topics covered by JASS are not restricted to those mentioned above as the journal also encourages submission of research results in all other branches related to space science and technologies. Even though JASS was established on the heritage and achievements of the Korean space science community, it is now open to the worldwide community, while maintaining a high standard as a leading international journal. Hence, it solicits papers from the international community with a vision of global collaboration in the fields of space science and technologies.