A Novel Technique of Enhancing CMRR of Fully- Differential Instrumentation Amplifier Using High Gain CMFB Loop

2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON) Pub Date : 2022-11-26 DOI:10.1109/EDKCON56221.2022.10032884

R. Sahu, S. Kundu, Alok Kumar

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Abstract

In this paper, the enhancement of the common- mode rejection ratio (CMRR) of a fully-differential capacitively-coupled chopper instrumentation amplifier (CCIA) used for biomedical signal acquisition system is proposed. To achieve the gain accuracy of the instrumentation amplifier (INA) high gain multi-stage fully-differential operational amplifier (Op-Amp) has been used as the building block. The enhancement of the CMRR is achieved by using common-mode feedback (CMFB) circuit with very high loop gain. The high CMFB loop gain has been achieved by suitable selection of the CMFB circuit and the connection of the CMFB circuit to the multi-stage Op-Amp. The entire circuit has been designed using 180 nm technology with 1.8 V supply. The designed multi-stage Op-Amp has a low-frequency differential mode (A ) and common mode ( ) gain of 123.5 dB and - 105.02 dB, respectively, using a CMFB loop having a gain of 136.3 dB. Using this Op-Amp the designed CCIA achieves a CMRR as high as 145.1 dB with Ad of 40 dB @3dB bandwidth of 10.38 KHz. Finally, the response of the CCIA has been compared with some of the state-of-art designs.

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一种利用高增益CMFB环路提高全差分仪表放大器CMRR的新技术

提出了一种用于生物医学信号采集系统的全差分电容耦合斩波仪表放大器(CCIA)的共模抑制比的提高方法。为了实现仪表放大器(INA)的增益精度，采用高增益多级全差分运算放大器(Op-Amp)作为基本单元。通过采用具有很高环路增益的共模反馈(CMFB)电路，实现了CMRR的增强。通过选择合适的CMFB电路，并将CMFB电路与多级运算放大器连接，实现了高的CMFB环路增益。整个电路采用180nm技术和1.8 V电源设计。设计的多级运算放大器使用增益为136.3 dB的CMFB环路，低频差模(a)和共模(- 105.02 dB)增益分别为123.5 dB和- 105.02 dB。使用该运算放大器，设计的CCIA实现了高达145.1 dB的CMRR, Ad为40 dB @3dB带宽为10.38 KHz。最后，将CCIA的响应与一些最先进的设计进行了比较。

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2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON)

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