A 0.45 V 100-Channel Neural-Recording IC With Sub-$mu {rm W}$/Channel Consumption in 0.18 $mu{rm m}$ CMOS

Han D.; Zheng Y.; Rajkumar R.; Dawe G.S.

首页> 外文期刊>IEEE transactions on biomedical circuits and systems >A 0.45 V 100-Channel Neural-Recording IC With Sub-$mu {rm W}$/Channel Consumption in 0.18 $mu{rm m}$ CMOS

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A 0.45 V 100-Channel Neural-Recording IC With Sub-$mu {rm W}$/Channel Consumption in 0.18 $mu{rm m}$ CMOS

机译：0.45 V 100通道神经记录IC，每通道功耗低于$μ{rm W} $，且CMOS功耗为0.18 $ mu {rm m} $

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Neural prosthetics and personal healthcare have increasing need of high channel density low noise low power neural sensor interfaces. The input referred noise and quantization resolution are two essential factors which prevent conventional neural sensor interfaces from simultaneously achieving a good noise efficiency factor and low power consumption. In this paper, a neural recording architecture with dynamic range folding and current reuse techniques is proposed and dedicated to solving the noise and dynamic range trade-off under low voltage low power operation. Measured results from the silicon prototype show that the proposed design achieves 3.2 $mu {rm Vrms}$ input referred noise and 8.27 effective number of bits at only 0.45 V supply and 0.94 $mu {rm W}$/channel power consumption.

机译：神经修复和个人保健对高通道密度，低噪声，低功率神经传感器接口的需求不断增长。输入参考噪声和量化分辨率是阻止常规神经传感器接口同时实现良好的噪声效率因子和低功耗的两个重要因素。本文提出了一种具有动态范围折叠和电流重用技术的神经记录架构，致力于解决低电压低功耗操作下的噪声和动态范围的权衡问题。硅原型的测量结果表明，所提出的设计仅在0.45 V电源和每通道功耗0.94μmu/ rm的情况下即可达到3.2μmu输入的参考噪声和8.27有效位数。

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《IEEE transactions on biomedical circuits and systems 》 |2013年第6期| 735-746| 共12页
作者
Han D.; Zheng Y.; Rajkumar R.; Dawe G.S.;
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作者单位

School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore|c|;

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正文语种 eng
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Current reuse; dynamic range folding; multichannel neural recording; noise efficiency factor (NEF); successive approximation register (SAR); two-level power supply;

机译：电流重用;动态范围折叠;多通道神经记录;噪声效率因子（NEF）;逐次逼近寄存器（SAR）;两级电源;

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2. Sub-$mu$V_rms-Noise Sub-$mu$W/Channel ADC-Direct Neural Recording With 200-mV/ms Transient Recovery T [J] . Chul Kim, Siddharth Joshi, Hristos Courellis, Solid-State Circuits, IEEE Journal of . 2018 ,第11期

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4. A 0.45V 100-channel neural-recording IC with sub-#x00B5;W/channel consumption in 0.18#x00B5;m CMOS [C] . Han Dong, Zheng Yuanjin, Rajkumar Ramamoorthy, IEEE International Solid-State Circuits Conference . 2013

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A 0.45 V 100-Channel Neural-Recording IC With Sub-$mu {rm W}$/Channel Consumption in 0.18 $mu{rm m}$ CMOS

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