Analysis of Parametric and Subharmonic Excitation in Push-Pull Driven Disk Resonator Gyroscopes

Wu, Kai and Lu, Kuo and Li, Qingsong and Zhang, Yongmeng and Zhuo, Ming and Yu, Sheng and Wu, Xuezhong and Xiao, Dingbang (2021) Analysis of Parametric and Subharmonic Excitation in Push-Pull Driven Disk Resonator Gyroscopes. Micromachines, 12 (1). p. 61. ISSN 2072-666X

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Abstract

For micro-electromechanical system (MEMS) resonators, once the devices are fabricated and packaged, their intrinsic quality factors (Q) will be fixed and cannot be changed, which seriously limits the further improvement of the resonator’s performance. In this paper, parametric excitation is applied in a push-pull driven disk resonator gyroscope (DRG) to improve its sensitivity by an electrical pump, causing an arbitrary increase of the “effective Q”. However, due to the differential characteristics of the push-pull driving method, the traditional parametric excitation method is not applicable. As a result, two novel methods are proposed and experimentally carried out to achieve parametric excitation in the push-pull driven DRGs, resulting in a maximum “effective Q” of 2.24 × 106 in the experiment, about a 7.6 times improvement over the intrinsic Q. Besides, subharmonic excitation is also theoretically analyzed and experimentally characterized. The stability boundary of parametric excitation, defined by a threshold voltage, is theoretically predicted and verified by related experiments. It is demonstrated that, when keeping the gyroscope’s vibration at a constant amplitude, the fundamental frequency driving voltage will decrease with the increasing of the parametric voltage and will drop to zero at its threshold value. In this case, the gyroscope operates in a generalized parametric resonance condition, which is called subharmonic excitation. The novel parametric and subharmonic excitation theories displayed in this paper are proven to be efficient and tunable dynamical methods with great potential for adjusting the quality factor flexibly, which can be used to further enhance the resonator’s performance.

Item Type: Article
Uncontrolled Keywords: parametric excitation/amplification; quality factor; parametric resonance; subharmonic excitation; push-pull driving method; MEMS disk resonator gyroscope
Subjects: STM Repository > Engineering
Depositing User: Managing Editor
Date Deposited: 17 Jun 2024 06:06
Last Modified: 17 Jun 2024 06:06
URI: http://classical.goforpromo.com/id/eprint/665

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