A Low-Noise Low-Power Noise-Adaptive Neural Amplifier in 0.13um CMOS Technology

2011 24th Internatioal Conference on VLSI Design Pub Date : 2011-01-02 DOI:10.1109/VLSID.2011.41

V. Chaturvedi, B. Amrutur

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引用次数: 13

Abstract

Chronic recording of neural signals is indispensable in designing efficient brain machine interfaces and in elucidating human neurophysiology. The advent of multichannel microelectrode arrays has driven the need for electronics to record neural signals from many neurons. The dynamic range of the system is limited by background system noise which varies over time. We propose a neural amplifier in UMC 130 nm, 2P8M CMOS technology. It can be biased adaptively from 200 nA to 2 uA, modulating input referred noise from 9.92 uV to 3.9 uV. We also describe a low noise design technique which minimizes the noise contribution of the load circuitry. The amplifier can pass signal from 5 Hz to 7 kHz while rejecting input DC offsets at electrode-electrolyte interface. The bandwidth of the amplifier can be tuned by the pseudo-resistor for selectively recording low field potentials (LFP) or extra cellular action potentials (EAP). The amplifier achieves a mid-band voltage gain of 37 dB and minimizes the attenuation of the signal from neuron to the gate of the input transistor. It is used in fully differential configuration to reject noise of bias circuitry and to achieve high PSRR.

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基于0.13um CMOS技术的低噪声低功耗自适应神经放大器

神经信号的长期记录对于设计高效的脑机接口和阐明人体神经生理学是必不可少的。多通道微电极阵列的出现推动了对电子设备的需求，以记录来自许多神经元的神经信号。系统的动态范围受到随时间变化的背景系统噪声的限制。我们提出了一种基于UMC 130nm, 2P8M CMOS技术的神经放大器。它可以自适应偏置200na至2ua，调制9.92 uV至3.9 uV的输入参考噪声。我们还描述了一种低噪声设计技术，该技术可以最大限度地减少负载电路的噪声贡献。该放大器可以通过5 Hz至7 kHz的信号，同时在电极-电解质界面抑制输入直流偏置。放大器的带宽可以通过伪电阻器进行调节，以选择性地记录低场电位(LFP)或细胞外动作电位(EAP)。该放大器实现了37db的中频电压增益，并使从神经元到输入晶体管栅极的信号衰减最小化。它用于全差分配置，以抑制偏置电路的噪声，并实现高PSRR。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 24th Internatioal Conference on VLSI Design

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