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A Low-Power 0.7 \mu {\rm V_{\rms}} 32-Channel Mixed-Signal Circuit for ECoG Recordings

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8 Author(s)

Monitoring of electrocorticography signals using multi-electrode array creates new opportunities for neural prosthetic applications. In this paper, we present a 32-channel recording ASIC that provides low-noise amplification and analog filtering. It also includes a 12-bit analog-to-digital conversion function, and offers programmable output rates through a serial peripheralinterface (SPI). The targeted application is a remote-powered wireless implantable ECoG recording system. Each recording channel has a measured 0.7 \mu {\rm V_{\rm \rms}} input-referred noise on a [0.5–300 Hz] bandwidth. The device was fabricated in a 0.35 \mu{\rm m} complementary metal–oxide–semiconductor process for a total die area of 86 {\hbox {mm}} ^{2} with an analog power consumption limited to 134 \mu {\rm W} per channel.

Published in:

IEEE Journal on Emerging and Selected Topics in Circuits and Systems  (Volume:1 ,  Issue: 4 )