A Review of Propulsion Systems for CubeSats

José C. Páscoa, Odelma Teixeira, Gustavo Filipe
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引用次数: 7

Abstract

Educational purposes have been the trigger for CubeSat development. Most of this class of nano-satellites where initially developed as hands-on projects at universities and institutes, mostly being of very simple construction and complexity. However, in the most recent years low cost sensors and mobile technology started to be translated into nano-satellites, and this expanded their possible mission profiles, prompting the attention of companies and government agencies. Today, many tasks that previously where only possible to be developed within a multi-million dollar/euro framework can be accomplished by nano-satellites, at a tiny fraction of their cost. One of the major weaknesses of these devices is the low level of available power onboard, and the lack of efficient state-of-the-art propulsion systems. The present paper provides a throughout discussion on the diverse propulsion technologies used for CubeSat and other micro-satellite systems. If only attitude correction is requested then, present day technologies can be readily used. However, for orbit change or interplanetary nano-spacecraft propulsion, present day technologies are not able to provide the necessary performance under the restricted power budget on-board. New routes are herein proposed for the development of thrusters for nano-satellites and other comparable size spacecrafts.
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立方体卫星推进系统综述
教育目的一直是立方体卫星发展的导火索。大多数这类纳米卫星最初是作为大学和研究所的实践项目开发的,大多数结构非常简单,而且非常复杂。然而,近年来,低成本传感器和移动技术开始转化为纳米卫星,这扩大了它们可能的任务范围,引起了公司和政府机构的注意。今天,许多以前只能在数百万美元/欧元框架内开发的任务可以通过纳米卫星完成,而成本只是它们的一小部分。这些设备的主要弱点之一是机载可用功率水平低,并且缺乏高效的先进推进系统。本文全面讨论了用于立方体卫星和其他微型卫星系统的各种推进技术。如果只是要求纠正态度,那么现在的技术可以很容易地使用。然而,对于轨道变化或行星际纳米航天器推进,现有技术无法在有限的机载功率预算下提供必要的性能。本文提出了用于纳米卫星和其他类似尺寸航天器的推进器发展的新路线。
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