A 0.7 V, 40 nW Compact, Current-Mode Neural Spike Detector in 65 nm CMOS

Enyi Yao; Yi Chen; Arindam Basu

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A 0.7 V, 40 nW Compact, Current-Mode Neural Spike Detector in 65 nm CMOS

机译：一个采用65 nm CMOS的0.7 V，40 nW紧凑型电流模式神经脉冲检测器

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In this paper, we describe a novel low power, compact, current-mode spike detector circuit for real-time neural recording systems where neural spikes or action potentials (AP) are of interest. Such a circuit can enable massive compression of data facilitating wireless transmission. This design can generate a high signal-to-noise ratio (SNR) output by approximating the popularly used nonlinear energy operator (NEO) through standard analog blocks. We show that a low pass filter after the NEO can be used for two functions—(i) estimate and cancel low frequency interference and (ii) estimate threshold for spike detection. The circuit is implemented in a 65 nm CMOS process and occupies 200 m 150 m of chip area. Operating from a 0.7 V power supply, it consumes about 30 nW of static power and 7 nW of dynamic power for 100 Hz input spike rate making it the lowest power consuming spike detector reported so far.

机译：在本文中，我们描述了一种针对实时神经记录系统的新型低功耗，紧凑型电流模式尖峰检测器电路，其中神经尖峰或动作电位（AP）受到关注。这样的电路可以实现数据的大量压缩，从而促进无线传输。通过通过标准模拟模块逼近常用的非线性能量算子（NEO），该设计可以产生高信噪比（SNR）输出。我们表明，NEO之后的低通滤波器可用于两个功能-（i）估计和消除低频干扰，以及（ii）估计峰值检测阈值。该电路采用65 nm CMOS工艺实现，占用200 m 150 m的芯片面积。它以0.7 V电源工作，在100 Hz输入尖峰频率下消耗约30 nW静态功率和7 nW动态功率，是迄今为止报道的功耗最低的尖峰检测器。

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来源
《IEEE transactions on biomedical circuits and systems 》 |2016年第2期| 309-318| 共10页
作者
Enyi Yao; Yi Chen; Arindam Basu;
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作者单位

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

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原文格式 PDF
正文语种 eng
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关键词
Action potential; low power; neural recording; nonlinear energy operator (NEO); spike detection;

机译：动作电位;低功率;神经记录;非线性能量算子（NEO）;峰值检测;

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1. A 34-dB Dynamic Range 0.7-mW Compact Switched-Capacitor Power Detector in 65-nm CMOS [J] . Chenyang Li, Xiang Yi, Chirn Chye Boon, IEEE Transactions on Power Electronics . 2019 ,第10期

机译：采用65nm CMOS的34dB动态范围0.7mW紧凑型开关电容器功率检测器
2. A 340 nW/Channel 110 dB PSRR Neural Recording Analog Front-End Using Replica-Biasing LNA, Level-Shifter Assisted PGA, and Averaged LFP Servo Loop in 65 nm CMOS [J] . Lyu Liangjian, Ye Dawei, Shi C. -J. Richard IEEE transactions on biomedical circuits and systems . 2020 ,第4期

机译：340nW /通道110dB PSRR神经记录模拟前端使用副本偏置LNA，水平移位器辅助PGA，并在65nm CMOS中平均LFP伺服环
3. Compact 65nm CMOS Transmitter IC Drives 40Gbps Optical Systems [J] . Asia electronics industry . 2009 ,第150期

机译：紧凑型65nm CMOS发射器IC驱动40Gbps光学系统
4. A 1 V, compact, current-mode neural spike detector with detection probability estimator in 65 nm CMOS [C] . Yao Enyi, Basu Arindam IEEE International Symposium on Circuits and Systems . 2015

机译：具有65 nm CMOS的检测概率估计器的1V紧凑型电流模式神经尖峰检测器
5. Analog Spiking Neural Network Implementing Spike Timing-Dependent Plasticity on 65 nm CMOS [D] . Vincent, Luke. 2021

机译：模拟尖峰神经网络在65nm CMOS上实施尖刺时序依赖性可塑性
6. A 4-fJ/Spike Artificial Neuron in 65 nm CMOS Technology [O] . Ilias Sourikopoulos, Sara Hedayat, Christophe Loyez, 2017

机译：采用65 nm CMOS技术的4-fJ / Spike人工神经元
7. Multi-beam 4 GHz Microwave Apertures Using Current-Mode DFT Approximation on 65 nm CMOS [O] . Ariyarathna, V., Kulasekera, S., Madanayake, A., 2015

机译：使用电流模式DFT的多波束4 GHz微波孔径 65 nm CmOs的近似

A 0.7 V, 40 nW Compact, Current-Mode Neural Spike Detector in 65 nm CMOS

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