A 128-Channel AC-Coupled 1st-order Δ-Δ∑ IC for Neural Signal Acquisition
2022 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and Circuits)(2022)
摘要
In this paper, we present a miniature 128-channel neural recording IC (NRIC) for the simultaneous acquisition of local field potentials (LFPs) and action potentials (APs). An AC-coupled 1
st
-order Δ-ΔΣ architecture is proposed to achieve rail-to-rail electrode DC offset rejection, low power and small area, while providing low noise and larger input range compared to other AC-coupled designs. This digitally-intensive architecture leverages the advantages of a highly-scaled technology node (22nm FD-SOI). The fabricated NRIC achieves a total area per channel of 0.005mm
2
, a total power per channel of 8.3μW, and an input-referred noise of 7.7±0.4μV
rms
in the AP band and 11.9±1.1μV
rms
in the LFP band. The chip has been fully validated in saline, demonstrating its capability to successfully record full-band neural signals.
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关键词
neural signal acquisition,128-channel neural recording IC,simultaneous acquisition,local field potentials,action potentials,AC-coupled designs,digitally-intensive architecture,22nm FD-SOI,fabricated NRIC,input-referred noise,full-band neural signals,128-channel AC-coupled 1st-order Δ-ΔΣ IC,AC-coupled 1st-order Δ-ΔΣ architecture,rail-to-rail electrode DC offset rejection,power 8.3 muW,size 22.0 nm
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