微牛级高精度直流离子推进系统的推力调节特性

Yuxin Wang; Zhiwen Wu; Tiankun Huang; Maolin Chen; Jianmin Ye; Yuntao Guo; Yunbing Wang; Xuhui Liu; Peng Hu

doi:10.3873/j.issn.1000-1328.2024.05.012

微牛级高精度直流离子推进系统的推力调节特性

Yuxin Wang, Zhiwen Wu, Tiankun Huang, Maolin Chen, Jianmin Ye, Yuntao Guo, Yunbing Wang, Xuhui Liu, Peng Hu

宇航学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

To investigate the feasibility of using micro-DC ion thrusters for ultra-precision spacecraft control missions, a micro-newton DC ion thruster is designed and equipped with a carbon nanotube neutralizer. The thrust range and resolution are evaluated at the voltage range of 150~490 V,besides,the noise is also calculated at a thrust level of 5, 25,50 μN. In the mentioned voltage range,the thrust range of the thruster using xenon and argon as propellent is 5. 75~ 50. 83 μN and 5. 93~47. 63 μN respectively,and the maximum thrust noise is 0. 12 μN/ Hz and 0. 05 μN/ Hz. In addition,the performance of the carbon nanotube neutralizer is tested and a maximum extraction current of 1. 22 mA has been achieved,which satisfies the need of 0~37. 37 μN in Xenon and 0~16. 50 μN in Argon. The experimental result shows that this propulsion system can be used in drag-free control,and the use of argon is more beneficial to achieving high-precision and low-noise thrust.

投稿的翻译标题	Thrust Regulation Characteristics of Micro-newton and High-precision Direct Current Ion Propulsion System
源语言	繁体中文
页（从-至）	770-777
页数	8
期刊	Yuhang Xuebao/Journal of Astronautics
卷	45
期	5
DOI	https://doi.org/10.3873/j.issn.1000-1328.2024.05.012
出版状态	已出版 - 5月 2024

关键词

High-precision control
Ion thruster
Micro-newton thrust
Thrust noise
Thrust precision

访问文件

10.3873/j.issn.1000-1328.2024.05.012

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引用此

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abstract = "To investigate the feasibility of using micro-DC ion thrusters for ultra-precision spacecraft control missions, a micro-newton DC ion thruster is designed and equipped with a carbon nanotube neutralizer. The thrust range and resolution are evaluated at the voltage range of 150~490 V,besides,the noise is also calculated at a thrust level of 5, 25,50 μN. In the mentioned voltage range,the thrust range of the thruster using xenon and argon as propellent is 5. 75~ 50. 83 μN and 5. 93~47. 63 μN respectively,and the maximum thrust noise is 0. 12 μN/ Hz and 0. 05 μN/ Hz. In addition,the performance of the carbon nanotube neutralizer is tested and a maximum extraction current of 1. 22 mA has been achieved,which satisfies the need of 0~37. 37 μN in Xenon and 0~16. 50 μN in Argon. The experimental result shows that this propulsion system can be used in drag-free control,and the use of argon is more beneficial to achieving high-precision and low-noise thrust.",

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AU - Wang, Yuxin

AU - Wu, Zhiwen

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AU - Chen, Maolin

AU - Ye, Jianmin

AU - Guo, Yuntao

AU - Wang, Yunbing

AU - Liu, Xuhui

AU - Hu, Peng

PY - 2024/5

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N2 - To investigate the feasibility of using micro-DC ion thrusters for ultra-precision spacecraft control missions, a micro-newton DC ion thruster is designed and equipped with a carbon nanotube neutralizer. The thrust range and resolution are evaluated at the voltage range of 150~490 V,besides,the noise is also calculated at a thrust level of 5, 25,50 μN. In the mentioned voltage range,the thrust range of the thruster using xenon and argon as propellent is 5. 75~ 50. 83 μN and 5. 93~47. 63 μN respectively,and the maximum thrust noise is 0. 12 μN/ Hz and 0. 05 μN/ Hz. In addition,the performance of the carbon nanotube neutralizer is tested and a maximum extraction current of 1. 22 mA has been achieved,which satisfies the need of 0~37. 37 μN in Xenon and 0~16. 50 μN in Argon. The experimental result shows that this propulsion system can be used in drag-free control,and the use of argon is more beneficial to achieving high-precision and low-noise thrust.

AB - To investigate the feasibility of using micro-DC ion thrusters for ultra-precision spacecraft control missions, a micro-newton DC ion thruster is designed and equipped with a carbon nanotube neutralizer. The thrust range and resolution are evaluated at the voltage range of 150~490 V,besides,the noise is also calculated at a thrust level of 5, 25,50 μN. In the mentioned voltage range,the thrust range of the thruster using xenon and argon as propellent is 5. 75~ 50. 83 μN and 5. 93~47. 63 μN respectively,and the maximum thrust noise is 0. 12 μN/ Hz and 0. 05 μN/ Hz. In addition,the performance of the carbon nanotube neutralizer is tested and a maximum extraction current of 1. 22 mA has been achieved,which satisfies the need of 0~37. 37 μN in Xenon and 0~16. 50 μN in Argon. The experimental result shows that this propulsion system can be used in drag-free control,and the use of argon is more beneficial to achieving high-precision and low-noise thrust.

KW - High-precision control

KW - Ion thruster

KW - Micro-newton thrust

KW - Thrust noise

KW - Thrust precision

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微牛级高精度直流离子推进系统的推力调节特性

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