Design and finite element analysis of a micromechanical open angular-rate sensor

机译：微机械开角速率传感器的设计与有限元分析

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摘要

This paper presents a design andsimulation of Z-axis micromechanical fluidic gyroscope based on the open gas flow channel. The gas flow field inside the sensitive device is calculated by utilizing 3-D transient finite element analysis based on fluid-solid coupling. The calculation results and test indicate that the sensitive fluidic chamber maintains a stable sensitive fluid in a complete cycle of vibration. The distance from the hotwires to the nozzle orifice satisfies the expectation of response frequency at Ln_zn= 1.8mm, and the best distance between the parallel lines is satisfied with the minimum expectation of non-linearity with ΔL = 0.7mm. When angular rate is applied, the velocity gradient between the hotwires rn₁nand rn₂nis enlarging with the angular increasing. The Z-axis gyroscope can achieve a sensitivity of 2.0μV/°/s, with a non-linearity less than 0.5%, with the power consumption of 5.4mW, with the hotwires resistance of 3Ω and TCR of 2600°C, within the input range of ±120°/s.

机译：本文提出了基于开放气体流动通道的Z轴微机械陀螺仪的设计与仿真。利用基于流固耦合的3-D瞬态有限元分析来计算敏感设备内部的气流场。计算结果和测试表明，敏感流体腔在完整的振动循环中保持稳定的敏感流体。从热线到喷嘴孔的距离满足Ln _{z n = 1.8mm，并且以非线性最小的期望值ΔL= 0.7mm满足了平行线之间的最佳距离。当应用角速率时，热线之间的速度梯度rn _{1 nand rn _{2 nis随着角度的增加而增大。 Z轴陀螺仪可在灵敏度范围内达到2.0μV/°/ s的灵敏度，非线性度小于0.5％，功耗为5.4mW，热线电阻为3Ω，TCR为2600°C。输入范围为±120°/ s。}}}

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来源
《2017 IEEE 2nd Information Technology, Networking, Electronic and Automation Control Conference》|2017年|1433-1438|共6页
会议地点 Chengdu(CN)
作者
Yonghui Hu; Linhua Piao; Xingyuan Chang;
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作者单位

Key Laboratory of Beijing for sensor, Beijing Information Science Technology University, Beijing, China;

Key Laboratory of Beijing for sensor, Beijing Information Science Technology University, Beijing, China;

Key Laboratory of Beijing for sensor, Beijing Information Science Technology University, Beijing, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Robot sensing systems; Finite element analysis; Ceramics; Fluids; Sensitivity; Resistance;

机译：机器人传感系统;有限元分析;陶瓷;流体;灵敏度;电阻;;

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Design and finite element analysis of a micromechanical open angular-rate sensor

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