A CMOS Switched Capacitor Filter Based Potentiometric Readout Circuit for pH Sensing System

A CMOS Switched Capacitor Filter Based Potentiometric Readout Circuit for pH Sensing System

This work presents a potentiometric readout circuit for a pH-sensing system in an oral healthcare device. For in vivo applications, noise, area, and power consumption of the readout electronics play critical roles. While CMOS amplifiers are commonly used in readout circuits for these applications, t...

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Bibliographic Details
Main Authors: Shanthala Lakshminarayana, Revathy Perumalsamy, Chenyun Pan, Sungyong Jung, Hoon-Ju Chung, Hyusim Park
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Journal of Low Power Electronics and Applications
Subjects:
CDS
SC-LPF
potentiometric readout
CMOS
pH sensing
Online Access:https://www.mdpi.com/2079-9268/15/1/3
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Summary:This work presents a potentiometric readout circuit for a pH-sensing system in an oral healthcare device. For in vivo applications, noise, area, and power consumption of the readout electronics play critical roles. While CMOS amplifiers are commonly used in readout circuits for these applications, their applicability is limited due to non-deterministic noises such as flicker and thermal noise. To address these challenges, the Correlated Double Sampler (CDS) topology is widely employed as a sampled-data circuit for potentiometric readout, effectively eliminating DC offset and drift, thereby reducing overall noise. Therefore, this work introduces a novel potentiometric readout circuit realized with CDS and a switched-capacitor-based low-pass filter (SC-LPF) to enhance the noise characteristic of overall circuit. The proposed readout circuit is implemented in an integrated circuit using 0.18 µm CMOS process, which occupies an area of 990 µm × 216 µm. To validate the circuit performances, simulations were conducted with a 5 pF load and a 1 MHz input clock. The readout circuit operates with a supply voltage range ±1.65 V and linearly reproduces the pH sensor output of ±1.5 V. Noise measured with a 1 MHz sampling clock shows 0.683 µ<inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><mrow><msub><mrow><mi>V</mi></mrow><mrow><mi>r</mi><mi>m</mi><mi>s</mi></mrow></msub></mrow></semantics></math></inline-formula>, with a power consumption of 124.1 µW.
ISSN:2079-9268

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