An optimal design of high performance interface circuit with acoustic transducer model

2007 IEEE Asian Solid-State Circuits Conference Pub Date : 2007-11-01 DOI:10.1109/ASSCC.2007.4425685
Yu-Chun Hsu, Jen-Yi Chen, T. Mukherjee, G. Fedder
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引用次数: 7

Abstract

Reducing interface circuit power consumption without compromising low noise performance is an increasing challenge for portable sensor applications. Thus paper reports a high power efficiency and high SNR capacitive MEMS microphone interface circuit using a negative feedback amplifier. The transistors in the interface circuit are biased in the deep subthreshold region, for a 45% better figure of merit (FoM) that considers both noise and power. The MEMS microphone mechanical behavior is modeled using an analog hardware description language to enable co-simulation of the microphone together with the circuit. This co-simulation platform enables optimization of the MEMS microphone simultaneously with the interface circuit.
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基于声换能器模型的高性能接口电路优化设计
在不影响低噪声性能的情况下降低接口电路功耗是便携式传感器应用面临的越来越大的挑战。因此,本文报道了一种采用负反馈放大器的高功率效率和高信噪比电容式MEMS麦克风接口电路。接口电路中的晶体管偏置在深亚阈值区域,从而在考虑噪声和功率的情况下获得45%的优值(FoM)。采用模拟硬件描述语言对MEMS麦克风的力学行为进行建模,实现了麦克风与电路的联合仿真。该联合仿真平台使MEMS麦克风与接口电路同时优化。
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2007 IEEE Asian Solid-State Circuits Conference
2007 IEEE Asian Solid-State Circuits Conference
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