Simulation of Piezo-Resistive Metal Gauge on Rectangular Membrane for Low Pressure Application

2006 IEEE International Conference on Semiconductor Electronics Pub Date : 2006-11-01 DOI:10.1109/SMELEC.2006.381070
M.Y. Hamid, U. Thangamani, P. Vaya
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引用次数: 2

Abstract

Piezo-resistive metal gauge on rectangular membrane design and its simulation for low pressure application is presented in this paper. Small deflection analytical equations are derived for both simply supported and clamped edge boundary conditions. The design and orientation of grid pattern on rectangular membrane is based on ANSYS simulation results. It is used to find out maximum strain locations to achieve high sensitivity. Maximum of 0.3509 micro strain and maximum resistance change in grid = 90.6271 micro-ohm are achieved for an applied load of ImPa. The sensitivity of the gauge is 0.35 muepsiv/mPa.
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低压矩形膜压阻式金属表的仿真研究
本文介绍了矩形膜压阻式金属压力表的设计及其低压应用仿真。推导了简支和固支两种边界条件下的小挠度解析方程。矩形膜上网格图案的设计和定位基于ANSYS仿真结果。它用于找出最大应变位置,以获得高灵敏度。在施加ImPa载荷时,最大微应变为0.3509微应变,栅格最大电阻变化为90.6271微欧姆。该仪表的灵敏度为0.35 μ epsiv/mPa。
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2006 IEEE International Conference on Semiconductor Electronics
2006 IEEE International Conference on Semiconductor Electronics
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