Low-power high-resolution 32-channel neural recording system.

Xiao Yun; Donghwi Kim; Milutin Stanaćević; Zachary Mainen

Low-power high-resolution 32-channel neural recording system.

Xiao Yun
, Donghwi Kim
, Milutin Stanaćević
, Zachary Mainen

Electrical Engineering

Stony Brook University

Stony Brook University

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters is presented. A neural front-end including low-noise fully differential pre-amplifier, gain stage, and buffer consumes only 56 mu W. Two 13-bits extended counting A/D converters running at 512KHz sampling rate are integrated with 32 neural front-ends on a chip. The experimental prototype was designed in 0.6 microm CMOS process. With a 3.3V power supply, total power consumption of a chip is 22mW and the whole system occupies an area of 3mm x 3mm.

Original language	English
Pages (from-to)	2373-2376
Number of pages	4
Journal	Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings
State	Published - 2007

Cite this

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title = "Low-power high-resolution 32-channel neural recording system.",

abstract = "A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters is presented. A neural front-end including low-noise fully differential pre-amplifier, gain stage, and buffer consumes only 56 mu W. Two 13-bits extended counting A/D converters running at 512KHz sampling rate are integrated with 32 neural front-ends on a chip. The experimental prototype was designed in 0.6 microm CMOS process. With a 3.3V power supply, total power consumption of a chip is 22mW and the whole system occupies an area of 3mm x 3mm.",

author = "Xiao Yun and Donghwi Kim and Milutin Stana{\'c}evi{\'c} and Zachary Mainen",

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journal = "Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings",

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AU - Yun, Xiao

AU - Kim, Donghwi

AU - Stanaćević, Milutin

AU - Mainen, Zachary

PY - 2007

Y1 - 2007

N2 - A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters is presented. A neural front-end including low-noise fully differential pre-amplifier, gain stage, and buffer consumes only 56 mu W. Two 13-bits extended counting A/D converters running at 512KHz sampling rate are integrated with 32 neural front-ends on a chip. The experimental prototype was designed in 0.6 microm CMOS process. With a 3.3V power supply, total power consumption of a chip is 22mW and the whole system occupies an area of 3mm x 3mm.

AB - A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters is presented. A neural front-end including low-noise fully differential pre-amplifier, gain stage, and buffer consumes only 56 mu W. Two 13-bits extended counting A/D converters running at 512KHz sampling rate are integrated with 32 neural front-ends on a chip. The experimental prototype was designed in 0.6 microm CMOS process. With a 3.3V power supply, total power consumption of a chip is 22mW and the whole system occupies an area of 3mm x 3mm.

UR - https://www.scopus.com/pages/publications/84903802472

M3 - Article

C2 - 18002470

SN - 0589-1019

SP - 2373

EP - 2376

JO - Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings

JF - Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings

ER -

Low-power high-resolution 32-channel neural recording system.

Abstract

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