A 1-V low-noise readout front-end for biomedical applications in 0.18-µm CMOS

机译：用于生物医学应用的0.18 µm CMOS的1V低噪声读出前端

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This paper presents a 1-V and low-noise readout front-end for biomedical applications. The key to this low-voltage and low-power operation is the current-mode instrumentation amplifier (CMIA). To reject the DC offset, an active-RC integrator with the subthreshold-biased PMOS as high resistance is included in the CMIA and forms the offset cancellation loop. The nested-chopper technique is applied to reduce the flicker noise and improve the common-mode rejection ratio (CMRR). A proposed third-order Gm-C low-pass filter (LPF) is incorporated to remove the modulated noise by the choppers. Furthermore, a digitally programmable gain stage is incorporated to provide adjustable gain range for the readout front-end. The overall readout front-end has a bandwidth of 140 Hz and achieves 125-dB CMRR, 90-dB power-supply rejection ratio (PSRR), and 6-nV/rtHz input-referred noise density. The readout front-end is fabricated in a 0.18-µm CMOS process. Total power consumption is 182 µW from a 1-V supply.

机译：本文介绍了用于生物医学应用的1V和低噪声读出前端。低电压和低功耗操作的关键是电流模式仪表放大器（CMIA）。为了抑制直流偏移，CMIA中包括一个具有高电阻的亚阈值偏置PMOS的有源RC积分器，它构成了偏移消除环路。嵌套斩波器技术可减少闪烁噪声并提高共模抑制比（CMRR）。提出了一种三阶G m -C低通滤波器（LPF），以消除斩波器产生的调制噪声。此外，内置了数字可编程增益级，可为读出前端提供可调的增益范围。整个读出前端的带宽为140 Hz，可实现125 dB CMRR，90 dB电源抑制比（PSRR）和6-nV / rtHz输入参考噪声密度。读出的前端采用0.18 µm CMOS工艺制造。 1V电源的总功耗为182 µW。

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《2010 International Symposium on VLSI Design Automation and Test》|2010年|p.295-298|共4页
会议地点 Hsin Chu(CN);Hsin Chu(CN)
作者
Chien-Jung Chou; Bing-Jye Kuo; Li-Guang Chen; Po-Yun Hsiao; Tsung-Hsien Lin;
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Graduate Institute of Electronics Engineering and Department of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

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原文格式 PDF
正文语种 eng
中图分类大规模集成电路、超大规模集成电路;
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3. A 1-V transformer-feedback low-noise amplifier for 5-GHz wireless LAN in 0.18-/spl mu/m CMOS [J] . Cassan D.J., Long J.R. IEEE Journal of Solid-State Circuits . 2003,第3期

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4. A 1-V Low-Noise Readout Front-End for Biomedical Applications in 0.18-μmCMOS [C] . Chien-Jung Chou, Bing-Jye Kuo, Li-Guang Chen, International Symposium on Very Large Scale Integration Design, Automation and Test . 2010

机译：在0.18-μmcmos中的生物医学应用的1V低噪声读数前端
5. A 1-V, CMOS on SOI, 1.9-GHz CDMA low-noise amplifier [D] . Jin, Heng. 2000

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A 1-V low-noise readout front-end for biomedical applications in 0.18-µm CMOS

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