DYNAMIC STABILITY OF A SINGLE-AXIS VIBRATORY MEMS GYROSCOPE

机译：单轴振动MEMS陀螺仪的动态稳定性

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Instabilities in a vibrating MEMS gyroscope that is subject to periodic fluctuations in input angular rates are investigated. For the purpose of acquiring stability conditions, when the angular rate input is subject to small intensity periodic fluctuations, dynamic behavior of periodically perturbed linear gyroscopic systems is studied in detail. An asymptotic approach based on the method of averaging has been employed for this purpose, and closed-form conditions for the onset of instability due to parametric resonances have been obtained. A numerical approach based on the Floquet-Lyapunov theory is employed for validating the analytical stability predictions. Furthermore, for characterizing the effect due to change in angular rate input, an in-depth natural frequency analysis has been performed. Stability predictions have been illustrated via stability diagrams in the excitation amplitude-frequency space.

机译：研究了振动MEMS陀螺仪中输入角速度周期性波动的不稳定性。为了获得稳定条件，当角速度输入受到较小强度周期性波动的影响时，详细研究了周期性扰动线性陀螺系统的动力学行为。为此，采用了基于平均法的渐近方法，并且已经获得了由于参数共振而导致不稳定性开始的封闭形式条件。采用基于Floquet-Lyapunov理论的数值方法来验证分析稳定性预测。此外，为了表征由于角速度输入的改变而引起的影响，已经进行了深入的固有频率分析。已经通过激励振幅-频率空间中的稳定性图说明了稳定性预测。

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《ASME(American Society of Mechanical Engineers) International Design Engineering Technical Conferences and Computers and Information in Engineering Conference 2005(DETC2005) vol.1: Biennial Conference on Mechanical Vibration and Noisen pt.A; 20050924-28;》|2005年|P.479-487|共9页
会议地点 Long BeachCA(US)
作者
Tianfu Wang; Samuel F. Asokanthan;
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作者单位

The university of Western Ontario, Department of Mechanical and Materials Engineering, London, Ontario, Canada N6A 5B9;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工业设计;计算技术、计算机技术;
关键词
vibratory (MEMS) gyroscope; periodic parametric excitation; method of averaging; asymptotic stability; natural frequency variation;

机译：振动陀螺仪;周期参量激励;求平均方法;渐近稳定性;固有频率变化;

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4. DYNAMIC STABILITY OF A SINGLE-AXIS VIBRATORY MEMS GYROSCOPE [C] . Tianfu Wang, Samuel F. Asokanthan, American Society of Mechanical Engineers(ASME), ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference . 2005

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DYNAMIC STABILITY OF A SINGLE-AXIS VIBRATORY MEMS GYROSCOPE

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