A 0.01-mm2 Mostly Digital Capacitor-Less AFE for Distributed Autonomous Neural Sensor Nodes

A 0.01-mm2 Mostly Digital Capacitor-Less AFE for Distributed Autonomous Neural Sensor Nodes

This letter presents a miniaturized neural recording analog front-end (AFE) suitable for distributed sub-mm neural recording implants. Including reference generators, this AFE occupies an area of only 0.01 mm 2 , thanks to a mostly digital architecture with more than half of area being scalable digi...

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Veröffentlicht in:IEEE solid-state circuits letters 2018-07, Vol.1 (7), p.162-165
Hauptverfasser: Huang, Jiannan, Laiwalla, Farah, Lee, Jihun, Cui, Lingxiao, Leung, Vincent, Nurmikko, Arto, Mercier, Patrick P.
Format: Artikel
Sprache:eng ; jpn
Schlagworte:
Bandwidth
Capacitor-less
CMOS
ECoG recording
Electrodes
Hardware
Implants
neural amplifier
offset cancelation
Power consumption
Power measurement
Recording
Servomotors
Telemetry
Transistors
ultrasmall area
VCO analog-to-digital converter (ADC)
Wireless communication
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Beschreibung
Zusammenfassung:This letter presents a miniaturized neural recording analog front-end (AFE) suitable for distributed sub-mm neural recording implants. Including reference generators, this AFE occupies an area of only 0.01 mm 2 , thanks to a mostly digital architecture with more than half of area being scalable digital logic. Implemented in 65-nm CMOS, the AFE is measured to consume 3.2 {\mu }\text{W} of power from 0.6-V supply, and achieves an input-referred noise of 2.2 {\mu {\mathrm{ V}}}_{\mathrm{rms}} over 500 Hz of bandwidth. The AFE is validated by integrating it into a neural sensing SoC with wireless power and data telemetry. In vitro experiments demonstrate reliable recording of the AFE in a fully wireless environment.
ISSN:2573-9603
DOI:10.1109/LSSC.2019.2894932