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A 200 22W Eight-Channel EEG Acquisition ASIC for Ambulatory EEG Systems Refet Fi
一款用于移动脑电图系统的低功耗八通道EEG采集ASIC
0.5μm CMOS, 3V, 66μA总功耗, 120dB CMRR
脑电图采集低功耗斩波稳定伺服环路阻抗测量
▸创新点1:新型交流耦合斩波稳定仪表放大器(ACCIA) - 该方法创新通过AC耦合和斩波调制技术,显著提高了共模抑制比(CMRR)至120 dB以上,同时降低了功耗至2.3 μA,噪声效率因子(NEF)仅为4.3,显著提升了信号质量。
▸创新点2:粗-细伺服环路设计 - 该电路创新采用粗-细伺服环路结构,有效解决了电极偏移问题,进一步提高了系统的稳定性和精度,确保了高信噪比和低失真。
▸创新点3:集成校准和电极阻抗测量模式 - 该系统创新通过在ASIC中集成校准和电极阻抗测量功能,简化了系统的使用和维护,校准模式用于检查ASIC功能和通道增益匹配,电极阻抗测量模式用于监测电极质量,提升了系统的可靠性和用户体验。
▸创新点4:低功耗设计 - 该电路创新通过优化电路设计和工艺选择,在0.5 μm CMOS工艺下实现了总电流消耗仅为66 μA,显著降低了整体功耗,适用于便携式和无线医疗设备。
Abstract
, Senior Member , IEEE, and Chris Van Hoof, Member , IEEE
Abstract—The growing interest toward the improvement of pa-
tients’ quality of life and the use of medical signals in nonmedical
applications such as entertainment, sports, and brain–computerin-
terfaces, requires the implementation of miniaturized and wireless
biopotential acquisition systems with ultralow power dissipation.
Therefore, this paper presents the implementation of a complete
EEG acquisition ASIC tailored towards the needs of