A capacitive CMOS-MEMS sensor designed by multi-physics simulation for integrated CMOS-MEMS technology

Toshifumi Konishi; Daisuke Yamane; Takaaki Matsushima; Kazuya Masu; Katsuyuki Machida; Hiroshi Toshiyoshi

doi:10.7567/JJAP.53.04EE15

Publication Information

Title

Japanese:
English:	A capacitive CMOS-MEMS sensor designed by multi-physics simulation for integrated CMOS-MEMS technology

Author

Japanese:	小西敏文, 山根大輔, 松島隆明, 益一哉, 町田克之, 年吉洋.
English:	Toshifumi Konishi, Daisuke Yamane, Takaaki Matsushima, Kazuya Masu, Katsuyuki Machida, Hiroshi Toshiyoshi.

Language

English

Journal/Book name

Japanese:
English:	Japanese Journal of Applied Physics

Volume, Number, Page

vol. 53 pp. 04EE15.1-7

Published date

Mar. 25, 2014

Publisher

Japanese:
English:

Conference name

Japanese:
English:

Conference site

Japanese:
English:

DOI

https://doi.org/10.7567/JJAP.53.04EE15

Abstract

This paper reports the design and evaluation results of a capacitive CMOS?MEMS sensor that consists of the proposed sensor circuit and a capacitive MEMS device implemented on the circuit. To design a capacitive CMOS?MEMS sensor, a multi-physics simulation of the electromechanical behavior of both the MEMS structure and the sensing LSI was carried out simultaneously. In order to verify the validity of the design, we applied the capacitive CMOS?MEMS sensor to a MEMS accelerometer implemented by the post-CMOS process onto a 0.35-?m CMOS circuit. The experimental results of the CMOS?MEMS accelerometer exhibited good agreement with the simulation results within the input acceleration range between 0.5 and 6 G (1 G = 9.8 m/s2), corresponding to the output voltages between 908.6 and 915.4 mV, respectively. Therefore, we have confirmed that our capacitive CMOS?MEMS sensor and the multi-physics simulation will be beneficial method to realize integrated CMOS?MEMS technology.

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