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Feb 04, 2021;12 (2):

Navigation Grade MEMS IMU for A Satellite.

Wanliang Zhao, Yuxiang Cheng, Sihan Zhao, Xiaomao Hu, Yijie Rong, Jie Duan, Jiawei Chen
Author Information
  1. Wanliang Zhao: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  2. Yuxiang Cheng: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  3. Sihan Zhao: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  4. Xiaomao Hu: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  5. Yijie Rong: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  6. Jie Duan: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
  7. Jiawei Chen: Shanghai Aerospace Control Technology Institute, 1555 Zhongchun Road, Shanghai 201109, China.
PMID: 33557116 DOI: 10.3390/mi12020151

Abstract

This paper presents a navigation grade micro-electromechanical system (MEMS) inertial measurement unit (IMU) that was successfully applied for the first time in the Lobster-Eye X-ray Satellite in July 2020. A six-axis MEMS gyroscope redundant configuration is adopted in the unit to improve the performance through mutual calibration of a set of two-axis gyroscopes in the same direction. In the paper, a satisfactory precision of the gyroscope is achieved by customized and self-calibration gyroscopes whose parameters are adjusted at the expense of bandwidth and dynamics. According to the in-orbit measured data, the MEMS IMU provides an outstanding precision of better than 0.02 °/h (1σ) with excellent bias instability of 0.006 °/h and angle random walk (ARW) of around 0.003 °/h. It is the highest precision MEMS IMU for commercial aerospace use ever publicly reported in the world to date.

Keywords

IMU MEMS gyroscopes commercial aerospace navigation grade satellite

References

  1. Sensors (Basel). 2014 Jan 14;14(1):1394-473 [PMID: 24424468]
  2. Sensors (Basel). 2017 Oct 07;17(10): [PMID: 28991175]
  3. Micromachines (Basel). 2018 Jun 28;9(7): [PMID: 30424261]
  4. Micromachines (Basel). 2018 Oct 10;9(10): [PMID: 30424444]

Grants

  1. 18XD1421700/Program of Shanghai Academic Research Leader
  2. 20QA1404300/Shanghai Rising-Star Program
Journal Article

Word Cloud

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