A single-chip CMOS pulse oximeter with on-chip lock-in detection

Pulse oximetry is a noninvasive and continuous method for monitoring the blood oxygen saturation level. This paper presents the design and testing of a single-chip pulse oximeter fabricated in a 0.35 µm CMOS process. The chip includes photodiode, transimpedance amplifier, analogue band-pass filters, analogue-to-digital converters, digital signal processor and LED timing control. The experimentally measured AC and DC characteristics of individual circuits including the DC output voltage of the transimpedance amplifier, transimpedance gain of the transimpedance amplifier, and the central frequency and bandwidth of the analogue band-pass filters, show a good match (within 1%) with the circuit simulations. With modulated light source and integrated lock-in detection, the sensor effectively suppresses the interference from ambient light and 1/f noise. In a breath-hold and release experiment, the single chip sensor demonstrates consistent and comparable performance to commercial pulse oximetry devices with a mean of 1.2% difference. The single-chip sensor enables a compact and robust design solution that offers a route towards wearable devices for health monitoring

Details

Authors:

He, D.; Morgan, S.; Trachanis, D.; Van Hese, J.;Drogoudis, D.; Fummi, F.; Stefanni, F.; Guarnieri , V.; Hayes-Gill, B.

Published in:

Sensors

Link:

A single-chip CMOS pulse oximeter with on-chip lock-in detection

More Evidence

Speed and accuracy of a novel device to continuously monitor newborn temperature at birth: an in-vitro study

Comparing peripheral limb and forehead vital sign monitoring in newborn infants at birth

A clinical evaluation and acceptability study of the innovative SurePulse VS wireless heart rate monitor across the neonatal journey

Feasibility and acceptability of a novel forehead-mounted wireless heart rate monitoring device in preterm babies.

Forehead monitoring of heart rate in neonatal intensive care

Video: Challenges of newborn heart rate monitoring and the opportunities and potential benefits of the SurePulse approach

Feasibility of a Novel ECG Electrode Placement Method in Newborn Infants

Variation of Delivery Room Resuscitation Practice in the UK

Evaluation of a novel photoplethysmography forehead heart rate sensor for newborn resuscitation

SurePulse VS Cap Introduction

SurePulse VS Cap Fitting and Monitoring from Birth

Accurate neonatal heart rate monitoring using a new wireless, cap mounted device.

SurePulse VS Completing the Session and Managing Data

SurePulse VS Top Tips and Troubleshooting

Neopulse – heart rate acquisition time for a novel forehead sensor for use in the delivery room

Development of a Clinical Interface for a Novel Newborn Resuscitation Device: Human Factors Approach to Understanding Cognitive User Requirements

Accuracy Of Obtaining Neonatal Heart Rate From A Novel Hat Mounted, Green Wavelength Optical Device

Motion limitations of non-contact photoplethysmography due to the optical and topological properties of skin