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A Low-Power Neuromorphic CMOS Delta-Sigma Modulator Featuring Tunable Background Attenuation and Potentiostatic Asynchronous Readout for Smart Amperometric Electrochemical Sensors

Book Contribution - Book Chapter Conference Contribution

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 61 dB and 70-mu W power consumption.
Book: A Low-Power Neuromorphic CMOS Delta-Sigma Modulator Featuring Tunable Background Attenuation and Potentiostatic Asynchronous Readout for Smart Amperometric Electrochemical Sensors
Number of pages: 5
Publication year:2023