A 382nVrms 100GΩ@50Hz Active Electrode for Dry-Electrode EEG Recording.

Guanghua Qian, Yanxing Suo, Qiao Cai, Yong Lian, Yang Zhao
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Abstract

This article describes a low noise and ultra-high input impedance active electrode (AE) interface chip for dry-electrode EEG recording. To compensate the input parasitic capacitance and the ESD leakage, power/ground/ESD bootstrapping is proposed. This design integrates chopping stabilization technique to suppress flicker noise of the amplifier which has never been tackled in previous bootstrapped AE design. Both on-chip and off-chip input routing is active shielded to minimize wire parasitic. Fabricated in a 0.18μm CMOS process, the AE core occupies about 0.056mm2 and draws 17.95μA from a 1.8V supply. The proposed AE achieves 100GΩ input impedance at 50Hz and over 1GΩ at 1kHz with a low input-referred noise of 382nVrms integrated from 0.5Hz to 70Hz. This design is the first 100GΩ@50Hz input impedance chopper stabilized AE compared to the state-of-the-art. Dry-electrode EEG recording capability of the proposed AE are verified on three types of experiments including spontaneous α-wave, event related potential and steady-state visual evoked potential.

用于干电极脑电图记录的 382nVrms 100GΩ@50Hz 有源电极。
本文介绍了一种用于干电极脑电图记录的低噪声、超高输入阻抗有源电极(AE)接口芯片。为了补偿输入寄生电容和 ESD 漏电,提出了电源/接地/ESD 自举技术。该设计集成了斩波稳定技术,以抑制放大器的闪烁噪声,这在以前的自举 AE 设计中从未解决过。片内和片外输入路由均采用有源屏蔽,以最大限度地减少导线寄生。AE 内核采用 0.18μm CMOS 工艺制造,占地约 0.056 平方毫米,1.8V 电源电流为 17.95μA。拟议的 AE 在 50Hz 时达到 100GΩ 输入阻抗,在 1kHz 时超过 1GΩ,在 0.5Hz 至 70Hz 范围内集成了 382nVrms 的低输入参考噪声。与最先进的技术相比,该设计是首个 100GΩ@50Hz 输入阻抗斩波稳定 AE。在自发α波、事件相关电位和稳态视觉诱发电位等三种类型的实验中,验证了所提出的干电极脑电图记录能力。
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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