A new metallic coriolis vibratory gyroscope (CVG) with multiple-shell structure

2016 DGON Intertial Sensors and Systems (ISS) Pub Date : 2016-09-01 DOI:10.1109/INERTIALSENSORS.2016.7745668
X. Xi, Y. L. Wu, D. Xiao, Y. M. Zhang, X. Z. Wu
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引用次数: 1

Abstract

A type of new metallic coriolis vibratory gyroscope (CVG) with multiple-shell structure is presented. Based on principle of structural topology evolution, a 30 mm diameter resonator comprising a bottom plate, a cylindrical support and 3 resonant shells is designed. The proposed multiple-shell structure increases the effective vibrating mass of the resonator and simultaneously avoids Q factor decrease compared with the single-thick-shell design. The design methodology, manufacture process and circuit strategy of the new CVG is discussed in the paper. The tested Q factor of the metallic resonator is about 10,000 in the atmospheric environment, and the gyroscope prototype without vacuum package presents a bias instability of about 18.5 /°h under room temperature.
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一种新型多壳结构金属科里奥利振动陀螺仪
提出了一种新型多壳结构金属科里奥利振动陀螺仪。根据结构拓扑演化原理,设计了一个直径为30 mm的谐振腔,该谐振腔由一个底板、一个圆柱支撑和3个谐振壳组成。所提出的多壳体结构增加了谐振器的有效振动质量,同时避免了与单厚壳体设计相比Q因子的下降。本文讨论了新型CVG的设计方法、制造工艺和电路策略。金属谐振器在大气环境下的测试Q因子约为10,000,无真空封装的陀螺仪样机在室温下的偏置不稳定性约为18.5 /°h。
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2016 DGON Intertial Sensors and Systems (ISS)
2016 DGON Intertial Sensors and Systems (ISS)
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