Design and measurement of a piezoresistive triaxial accelerometer based on MEMS technology

Du C.; He C.; Yu J.; Ge X.; Zhang Y.; Zhang W.

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Design and measurement of a piezoresistive triaxial accelerometer based on MEMS technology

机译：基于MEMS技术的压阻三轴加速度计的设计与测量。

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With the springing up of the MEMS industry, research on accelerometers is focused on miniaturization, integration, high reliability, and high resolution, and shares extensive application prospects in military and civil fields. Comparing with the traditional single cantilever beam structure or "cantilever-mass" structure, the proposed structure of "8-beams/mass" with its varistor completely symmetric distribution in micro-silicon piezoresistive triaxial accelerometer in this paper has a higher axial sensitivity and smaller cross-axis sensitivity. Adopting ANSYS, the process of structural analysis and the manufacturing flow of sensing unit are showed. In dynamic testing conditions, it can be concluded that the axial sensitivity of x, y, and z are S _x = 48 μV/g, S _y = 54 μV/g and S _z = 217 μV/g respectively, and the nonlinearities are 0.4%, 0.6% and 0.4%.

机译：随着MEMS产业的兴起，加速度计的研究集中在小型化，集成化，高可靠性和高分辨率上，在军事和民用领域具有广阔的应用前景。与传统的单悬臂梁结构或“悬臂质量”结构相比，本文提出的微硅压阻三轴加速度计中压敏电阻完全对称分布的“ 8光束/质量”结构具有更高的轴向灵敏度和更小的尺寸跨轴灵敏度。给出了采用ANSYS软件进行结构分析的过程和传感单元的制造流程。在动态测试条件下，可以得出结论，x，y和z的轴向灵敏度分别为S _x = 48μV/ g，S _y = 54μV/ g和S _z = 217μV/ g，并且非线性是0.4％，0.6％和0.4％。

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《Journal of Semiconductors》 |2012年第10期|共5页
作者
Du C.; He C.; Yu J.; Ge X.; Zhang Y.; Zhang W.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
cross-axis sensitivity; piezoresistive; symmetric distribution; triaxial accelerometer;

机译：跨轴灵敏度;压阻;对称分布;三轴加速度计;

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1. Design and measurement of a piezoresistive triaxial accelerometer based on MEMS technology [J] . Du C., He C., Yu J., Journal of Semiconductors . 2012,第10期

机译：基于MEMS技术的压阻三轴加速度计的设计与测量。
2. Mechanical Structural Design of a MEMS-Based Piezoresistive Accelerometer for Head Injuries Monitoring: A Computational Analysis by Increments of the Sensor Mass Moment of Inertia ? [J] . Marco Messina, James Njuguna, Chrysovalantis Palas Sensors . 2018,第1期

机译：基于MEMS的压阻式加速度计用于头部损伤监测的机械结构设计：通过传感器惯性质量矩增量的计算分析？
3. Optimal design of high-g MEMS piezoresistive accelerometer based on Timoshenko beam theory [J] . Liu Feng, Gao Shiqiao, Niu Shaohua, Microsystem technologies . 2018,第2期

机译：基于Timoshenko波束理论的高G MEMS压阻式加速度计的最优设计
4. Gunfire Measurements with Broadband Triaxial Piezoresistive Accelerometers [C] . G. Mark Remelman Shock Vibration Symposium . 2010

机译：带宽带三轴压阻式加速度计的枪声测量
5. Design and microfabrication of a CMOS-MEMS piezoresistive accelerometer and a nano-Newton force sensor. [D] . Md Khir, Mohd Haris. 2010

机译：CMOS-MEMS压阻式加速度计和纳米牛顿力传感器的设计和微制造。
6. Mechanical Structural Design of a MEMS-Based Piezoresistive Accelerometer for Head Injuries Monitoring: A Computational Analysis by Increments of the Sensor Mass Moment of Inertia [O] . Marco Messina, James Njuguna, Chrysovalantis Palas 2018

机译：基于MEMS的压阻式加速度计用于头部损伤监测的机械结构设计：通过传感器惯性质量矩增量的计算分析
7. Design and Optimization of a MEMS-Based Piezoresistive Accelerometer for Head Injuries Monitoring: A Computational Analysis [O] . Marco Messina, James Njuguna, Chrysovalantis Palas 2017

机译：用于头部损伤监测的MEMS系压阻式加速度计的设计与优化：计算分析
8. Evaluation of uniaxial and triaxial shock isolation techniques for a piezoresistive accelerometer. [R] . Bateman, V. I., Bell, R. G., Brown, F. A., 1990

机译：评估压阻式加速度计的单轴和三轴冲击隔离技术。

Design and measurement of a piezoresistive triaxial accelerometer based on MEMS technology

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