论文信息 - Design and measurement of a piezoresistive ultrasonic sensor based on MEMS

Design and measurement of a piezoresistive ultrasonic sensor based on MEMS

A kind of piezoresistive ultrasonic sensor based on MEMS is proposed, which is composed of a membrane and two side beams. A simplified mathematical model has been established to analyze the mechanical properties of the sensor. On the basis of the theoretical analysis, the structural size and layout location of the piezoresistors are determined by simulation analysis. The boron-implanted piezoresistors located on membrane and side beams form a Wheatstone bridge to detect acoustic signal. The membrane-beam microstructure is fabricated integrally by MEMS manufacturing technology. Finally, this paper presents the experimental characterization of the ultrasonic sensor, validating the theoretical model used and the simulated model. The sensitivity reaches −116.2 dB (0 dB reference = 1 V/μbar, 31 kHz), resonant frequency is 39.6 kHz, direction angle is 55°.

[1] Luan Guidong. Progress in piezoelectric MEMS ultrasonic transducers , 2012 .

[2] Jia Bao-xian,et al. Application and Development of Piezoelectric Ultrasonic Transducers , 2005 .

[3] Zhang Kai-rui,et al. Fabrication and Testing of a Silicon-Based Piezoresistive Two-Axis Accelerometer , 2008 .

[4] Geng Lifeng. Theoretical model and optimal design of silicon micromachined ultrasonic imaging transducers , 2007 .

[5] Hae-Seung Lee,et al. An integrated air-gap-capacitor pressure sensor and digital readout with sub-100 attofarad resolution , 1992 .