1.2-V Energy-Efficient Wireless CMOS Potentiostat for Amperometric Measurements

Journal article (2020)

Authors

V. Valente University College London, Bio-Electronics -

Nazanin Neshatvar University College London

Evdokia Pilavaki University College London

Matthew Schormans University College London

Andreas Demosthenous University College London

Research Group

Bio-Electronics () (TU Delft)

Wireless Biosensors Amperometry Dual-slope ADC Potentiostat Pulse harmonic modulation

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http://resolver.tudelft.nl/uuid:b8ee4438-035a-4d06-bc86-c2048eb8cddd

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Published Date

2020

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Bio-Electronics

Abstract

Wireless biosensors are playing a pivotal role in health monitoring, disease detection and management. The development of wireless biosensor nodes and networks strongly relies on the design of novel low-power, low-cost and flexible CMOS sensor readouts. This brief presents a CMOS potentiostat that integrates a control amplifier, a dual-slope ADC and a wireless unit on the same chip. It implements a novel time-based readout scheme, whereby the counter of the dual-slope ADC is moved to the receiver and the sensor current is encoded in the timing between two wireless pulses transmitted via pulse-harmonic modulation across an inductive link. Measured results show that the potentiostat chip can resolve a minimum input current of 10pA at a sampling frequency of 125 Hz and a power consumption of 12 μW .

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