扭摆钟
扭转(腹足类)
钟摆
惯性参考系
惯性测量装置
控制理论(社会学)
物理
航空航天工程
扭力弹簧
经典力学
计算机科学
工程类
机械工程
人工智能
医学
量子力学
外科
控制(管理)
作者
Fangchao Yang,Zhu Yan,Xiaofei Jin,Yujie Zhao,Shixun Pei,Wei Hong
标识
DOI:10.48550/arxiv.2407.01162
摘要
Precision space inertial sensors are imperative to Earth geodesy missions, gravitational wave observations and several fundamental physics experiments in space. In these missions, the residual acceleration noise of the test mass(TM) caused by the forces from inertial sensor components and environment is supposed to be kept below a certain level. As a number of forces contributing to residual acceleration are related to actuation system, developing a precise actuation system to exclude any erroneous force and obtain an ultra sensitive value for TM acceleration noise is necessary and essential. However, it is difficult to test the actuation system on ground. In this paper, a torsion pendulum is established to test the influence of actuation system on TM torque noise and a closed-loop control system combined torsion pendulum and parts of actuation modules is designed to assess the performance of actuation control algorithm. The experimental results show that the parameters in an actuation system will introduce additional torque noise and the maximum noise can reach as much as 10^{-13}Nm /Hz^{1/2} at 1 mHz. The stable tracking error for the closed-loop system is about 10^{-7}, indicating that the combination system achieves good tracking performance and robustness for TM rotation control in different conditions of inertial sensors.
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