Minimal readout scheme for ISFET sensing arrays based on pulse width modulation

Y. Liu; A. Al-Ahdal; P. Georgiou; C. Toumazou

doi:10.1049/el.2011.3847

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Minimal readout scheme for ISFET sensing arrays based on pulse width modulation

Journal article

Peer reviewed

Minimal readout scheme for ISFET sensing arrays based on pulse width modulation

Y. Liu, A. Al-Ahdal, P. Georgiou and C. Toumazou

Electronics letters, Vol.48(10), pp.548-U28

10/05/2012

DOI: https://doi.org/10.1049/el.2011.3847

Abstract

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

Proposed is an ISFET readout scheme with minimum analogue components to minimise parasitic and noise effects in large-scale chemical sensing arrays. For each array pixel, a pair of complementary ISFETs shares the same floating gate in an inverter configuration. An additional electrical input is capacitively coupled to the same floating gate with a periodic reference signal input. In this way, the conventional ISFET analogue output is replaced by a chemically controlled pulse width modulated signal. Theoretical analysis and experimental results show a pulse width pH sensitivity of around 6%, of the input reference signal period, per pH. This is achieved along with +/- 1 V offset suppressing capability.

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Title: Minimal readout scheme for ISFET sensing arrays based on pulse width modulation
Creators - without role: Y. Liu - Imperial College London
A. Al-Ahdal - Imperial College London
P. Georgiou - Imperial College London
C. Toumazou - Imperial College London
Publication Details: Electronics letters, Vol.48(10), pp.548-U28
Publisher: Inst Engineering Technology-Iet
Number of pages: 2
Identifiers: 9930995608331
Academic Unit: Umm Al Qura University
Language: English
Resource Type: Journal article