Title :
Design and simulation of ultra high sensitive piezoresistive MEMS sensor with structured membrane for low pressure applications
Author :
Mackowiak, Piotr ; Schiffer, Michael ; Xu, Xin ; Obermeier, Ernst ; Ngo, Ha-Duong
Author_Institution :
Microsensor & Actuator Technol. (MAT), Tech. Univ. of Berlin, Berlin, Germany
Abstract :
In order to increase the sensitivity of a piezoresistive pressure sensor, the membrane needs to be very thin or very large to achieve good results. But there is a trade-off between stability, linearity and sensitivity. The thinner the membrane, the more instable is the sensor structure. The original sensor developed for wall pressure measurement has a membrane thickness of 4 μm. The herein presented idea is to use partly-structured thicker membranes to improve the sensor performance. In this paper we show the optimization of the new sensor structure by using DoE (Design of Experiment) and FEA with ANSYS software. Due to the optimized membrane structure, the sensor sensitivity could be increased up to 300% in comparison to sensors using unstructured silicon membranes.
Keywords :
design of experiments; finite element analysis; membranes; microsensors; piezoresistive devices; pressure measurement; pressure sensors; ANSYS software; design of experiment; finite element analysis; linearity; low pressure application; membrane structure; piezoresistive pressure sensor; sensitivity; sensor performance; stability; structured membrane; ultra high sensitive piezoresistive MEMS sensor; wall pressure measurement;
Conference_Titel :
Electronics Packaging Technology Conference (EPTC), 2010 12th
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-8560-4
Electronic_ISBN :
978-1-4244-8561-1
DOI :
10.1109/EPTC.2010.5702738
