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Fully differential ROIC for SNR enhancement by using a MEMS microphone pair with a differential AC bias and a high-voltage DC bias SCOPUS KCI

Title
Fully differential ROIC for SNR enhancement by using a MEMS microphone pair with a differential AC bias and a high-voltage DC bias
Authors
Kim, Y.-J.Park, J.Kim, B.Sim, J.-Y.Park, H.-J.
Date Issued
2020-10
Publisher
Institute of Electronics Engineers of Korea
Abstract
A fully differential readout integrated circuit (ROIC) is proposed to enhance SNR by using a micro electro mechanical system (MEMS) microphone pair. A differential clock is AC-coupled to the MEMS microphone pair as AC bias for chopper operation, while maintaining a high-voltage DC bias through high-resistance resistors for high sensitivity. The MEMS microphone pair connected to the fully differential ROIC amplifier with a demodulation chopper increased the measured SNRAW by 3.5~4.3dB compared to a single MEMS microphone with a chopper. The chopper operation applied to the pair of MEMS microphones reduced the measured audio band noise at the ROIC output by 14.8~16.5 times, compared to the no-chopper case. The fully differential ROIC consists of an amplifier, a demodulation chopper, a pair of resistor-capacitor low pass filters (RC-LPFs) and a unity-gain buffer. The ROIC implemented in a 0.35��m CMOS process takes a chip area of 2.5mm2 and consumes 134��A at a supply voltage of 3.3V. Copyrights ? 2020 The Institute of Electronics and Information Engineers
URI
https://oasis.postech.ac.kr/handle/2014.oak/105541
DOI
10.5573/IEIESPC.2020.9.5.405
ISSN
2287-5255
Article Type
Article
Citation
IEIE Transactions on Smart Processing and Computing, vol. 9, no. 5, page. 405 - 412, 2020-10
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김병섭KIM, BYUNGSUB
Dept of Electrical Enginrg
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