An Ultralow-Power Low-Noise CMOS Biopotential Amplifier for Neural Recording

Yang Tan; Holleman Jeremy

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An Ultralow-Power Low-Noise CMOS Biopotential Amplifier for Neural Recording

机译：用于神经记录的超低功耗低噪声CMOS生物电势放大器

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This brief presents a design strategy for a neural recording amplifier array with ultralow-power low-noise operation that is suitable for large-scale integration. The topology combines a highly efficient but supply-sensitive single-ended first stage with a shared reference channel and a differential second stage to effect feedforward supply noise cancellation, combining the low power of single-ended amplifiers with improved supply rejection. For a two-channel amplifier, the measurements show a midband gain of 58.7 dB and a passband from 490 mHz to 10.5 kHz. The amplifier consumes 2.85 per channel from a 1-V supply and exhibits an input-referred noise of 3.04 from 0.1 Hz to 100 kHz, corresponding to a noise efficiency factor of 1.93. The power supply rejection ratio is better than 50 dB in the passband. The amplifier is fabricated in a 90-nm CMOS process and occupies 0.137 of chip area.

机译：本简介介绍了一种适用于大规模集成的具有超低功耗低噪声操作的神经记录放大器阵列的设计策略。该拓扑将高效但对电源敏感的单端第一级与共享的参考通道以及差分第二级相结合，以实现前馈电源噪声消除，将单端放大器的低功耗与改善的电源抑制性能结合在一起。对于两通道放大器，测量结果显示中频增益为58.7 dB，通带范围为490 mHz至10.5 kHz。该放大器在1-V电源下每通道消耗2.85的电流，在0.1 Hz至100 kHz的输入基准噪声为3.04，对应的噪声效率系数为1.93。通带中的电源抑制比优于50 dB。该放大器采用90纳米CMOS工艺制造，占用0.137芯片面积。

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《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2015年第10期|927-931|共5页
作者
Yang Tan; Holleman Jeremy;
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Current-reuse complimentary-input (CRCI) amplifier; Low noise; NEF; PSRR; current-reuse complimentary-input (CRCI); low noise; neural amplifier; noise efficiency factor (NEF); power supply rejection ratio (PSRR); ultra-low power; ultralow power;

机译：电流复用输入（CRCI）放大器;低噪声;NEF;PSRR;电流复用输入（CRCI）;低噪声;神经放大器;噪声效率因子（NEF）;电源抑制比（PSRR）;超-低功率;超低功率;

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2. A low-power low-noise CMOS bio-potential amplifier for multi-channel neural recording with active DC-rejection and current sharing [J] . Jomehei Maryam Gharaei, Sheikhaei Samad Microelectronics journal . 2019,第JANa期

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3. A CMOS Power-Efficient Low-Noise Current-Mode Front-End Amplifier for Neural Signal Recording [J] . Wu C.-Y., Chen W.-M., Kuo L.-T. Biomedical Circuits and Systems, IEEE Transactions on . 2013,第2期

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4. An ultralow-power high-gain biopotential amplifier for electromyogram signal recording [C] . Ehab A. Hamed, Mohamed Atef, Mohamed Abbas 2017 Proceedings of the Japan-Africa Conference on Electronics, Communications, and Computers . 2017

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5. A 256-input micro-electrode array with integrated CMOS amplifiers for neural signal recording. [D] . Wang, Lu. 2013

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6. A Dynamic Instrumentation Amplifier for Low-Power and Low-Noise Biopotential Acquisition [O] . Jongpal Kim, Hyoungho Ko 2016

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7. A low-power, low-noise CMOS amplifier for neural recording applications [O] . Reid R. Harrison, Cameron Charles, Student Member 2013

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8. Manufacturable Tri-Stack AlSb/InAs HEMT Low-Noise Amplifiers Using Wafer-Level-Packaging Technology for Light-Weight and Ultralow-Power Applications [R] . Chou, Y. C., Chang-Chien, P., Yang, J. M., 2009

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An Ultralow-Power Low-Noise CMOS Biopotential Amplifier for Neural Recording

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