Javier Cuenca-Michans, Joan Aymerich, L. Terés, C. Jiménez-Jorquera, F. Serra-Graells, J. M. Margarit-Taulé
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引用次数: 0
摘要
本文提出了一种神经形态的CMOS Delta-Sigma调制器,用于安培电化学传感器的鲁棒和节能读出。该电路采用自适应集成与发射方案,以最小的功率要求提供异步A/D转换和背景电流衰减。该调制器利用电极-电解质界面的动态特性进行量化噪声整形,并对三电极电化学电池的工作电极和参考电极之间的电压差进行恒电位控制。本文报道了一种集成在1.2 v 65nm 9金属CMOS技术中的智能电化学传感器在晶体管级的电模拟结果。该前端具有20 dB的可调带外抑制,峰值信噪比为61dB,功耗为70-\mu\math {W}$。
A Low-Power Neuromorphic CMOS Delta-Sigma Modulator Featuring Tunable Background Attenuation and Potentiostatic Asynchronous Readout for Smart Amperometric Electrochemical Sensors
This paper presents a neuromorphic CMOS Delta-Sigma modulator for the robust and energy-efficient readout of amperometric electrochemical sensors. The circuit makes use of an adaptive integrate-and-fire scheme to deliver asynchronous A/D conversion and attenuation of background currents with minimal power requirements. The modulator reuses the dynamic characteristics of the electrode-electrolyte interface for quantization noise shaping, and it offers potentiostatic control of the voltage difference between working and reference electrodes of a three-electrode electrochemical cell. Electrical simulation results are reported at transistor level for a smart electrochemical sensor currently being integrated in a 1.2-V 65-nm 9-metal CMOS technology. The frontend exhibits a tunable off-band rejection of 20 dB with a peak SNR of 61dB and $70-\mu\mathrm{W}$ power consumption.
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