Structural and thermal modeling of a z-axis rate integrating gyroscope

Painter CC.; Shkel AM.

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Structural and thermal modeling of a z-axis rate integrating gyroscope

机译：Z轴速率积分陀螺仪的结构和热建模

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This paper presents results of structural and thermal modeling of a z-axis rate integrating gyroscope. A strain energy method is used to obtain a structural model of the device, which is verified using finite element analysis. Based on a parametric analysis, an appropriate micromachining technology suitable for the fabrication of the gyroscope is identified. A sensitivity study shows that the operational modes of the proposed gyroscope remain matched under thermal and stress fluctuations, whereas a device with a commonly used H-type suspension shows a 31% frequency mismatch under thermal loading of 23.67degreesC or 9 MPa of compressive stress. [References: 13]

机译：本文介绍了z轴速率集成陀螺仪的结构和热建模结果。使用应变能方法获得设备的结构模型，并通过有限元分析对其进行验证。基于参数分析，确定了适用于陀螺仪制造的适当微加工技术。敏感性研究表明，所提出的陀螺仪的工作模式在热和应力波动下保持匹配，而具有常用H型悬架的设备在23.67°C的热载荷或9 MPa的压应力下显示出31％的频率失配。 [参考：13]

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《Journal of Micromechanics and Microengineering》 |2003年第2期|共9页
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Painter CC.; Shkel AM.;
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1. Structural and thermal modeling of a z-axis rate integrating gyroscope [J] . Painter CC., Shkel AM. Journal of Micromechanics and Microengineering . 2003,第2期

机译：Z轴速率积分陀螺仪的结构和热建模
2. Sensing of the time-varying angular rate for MEMS Z-axis gyroscopes [J] . M. H. Salah, M. L. McIntyre, D. M. Dawson, Mechatronics: The Science of Intelligent Machines . 2010,第6期

机译：MEMS Z轴陀螺仪的时变角速率检测
3. A substrate energy dissipation mechanism in in-phase and anti-phase micromachined z-axis vibratory gyroscopes [J] . Alexander A. Trusov, Adam R. Schofield, Andrei M. Shkel Journal of Micromechanics and Microengineering . 2008,第9期

机译：同相和反相微机械z轴振动陀螺仪中的基板能量耗散机制
4. A SELF-TUNING ALGORITHM FOR Z-AXIS MICRO RATE INTEGRATING GYROSCOPES [C] . Deepan Muthirayan, Roberto Horowitz JSME Motion and Vibration Conference;ASME Annual Dynamic Systems and Control Division Conference . 2013

机译：Z轴微速率集成陀螺仪的自校正算法
5. Modeling and simulation of non-idealities in a Z-axis CMOS-MEMS gyroscope. [D] . Iyer, Sitaraman Venkataraman. 2003

机译：Z轴CMOS-MEMS陀螺仪中非理想性的建模和仿真。
6. Microfabrication Process-Driven Design FEM Analysis and System Modeling of 3-DoF Drive Mode and 2-DoF Sense Mode Thermally Stable Non-Resonant MEMS Gyroscope [O] . Syed Ali Raza Bukhari, Muhammad Mubasher Saleem, Umar Shahbaz Khan, 2020

机译：微型制造过程驱动的设计有限公司分析和3 DOF驱动模式的系统建模和2-DOF感测模式热稳定的非谐振MEMS陀螺仪
7. Sensing of the time-varying angular rate for MEMS Z-axis gyroscopes [O] . Salah M. H., McIntyre M. L., Dawson Darren M., 2010

机译：MEMS Z轴陀螺仪的时变角速率检测
8. Modeling and Simulation of Non-idealities in a Z-axis CMOS-MEMS Gyroscope [R] . Iyer, S. V. 2003

机译：Z轴CmOs-mEms陀螺仪非理想性的建模与仿真

Structural and thermal modeling of a z-axis rate integrating gyroscope

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