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Literature DB >> 23853131

A Low-Power CMOS Front-End for Photoplethysmographic Signal Acquisition With Robust DC Photocurrent Rejection.

Abstract

A micro-power CMOS front-end, consisting of a transimpedance amplifier (TIA) and an ultralow cutoff frequency lowpass filter for the acquisition of photoplethysmographic signal (PPG) is presented. Robust DC photocurrent rejection for the pulsed signal source is achieved through a sample-and-hold stage in the feed-forward signal path and an error amplifier in the feedback path. Ultra-low cutoff frequency of the filter is achieved with a proposed technique that incorporates a pair of current-steering transistors that increases the effective filter capacitance. The design was realized in a 0.35-mum CMOS technology. It consumes 600 muW at 2.5 V, rejects DC photocurrent ranged from 100 nA to 53.6 muA, and achieves lower-band and upper-band - 3-dB cutoff frequencies of 0.46 and 2.8 Hz, respectively.

Entities: Disease Gene

Year: 2008 PMID： 23853131 DOI： 10.1109/TBCAS.2008.2003429

Source DB: PubMed Journal: IEEE Trans Biomed Circuits Syst ISSN： 1932-4545 Impact factor: 3.833

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Cited

5 in total

1. State-of-the-Art Light to Digital Converter Circuits Applicable in Non-Invasive Health Monitoring Devices to Combat COVID-19 and Other Respiratory Illnesses: A Review.

Authors: Umar Mohammad; M Asfandyar Awan; Amine Bermak; Fang Tang
Journal: IEEE Sens J Date: 2022-04-04 Impact factor: 4.325

5. In Vivo Evaluation of a Subcutaneously Injectable Implant with a Low-Power Photoplethysmography ASIC for Animal Monitoring.

Authors: Jose Manuel Valero-Sarmiento; Parvez Ahmmed; Alper Bozkurt
Journal: Sensors (Basel) Date: 2020-12-21 Impact factor: 3.576

5 in total

A Low-Power CMOS Front-End for Photoplethysmographic Signal Acquisition With Robust DC Photocurrent Rejection.

1. State-of-the-Art Light to Digital Converter Circuits Applicable in Non-Invasive Health Monitoring Devices to Combat COVID-19 and Other Respiratory Illnesses: A Review.

2. A wearable vital signs monitor at the ear for continuous heart rate and pulse transit time measurements.

3. A Single-Chip CMOS Pulse Oximeter with On-Chip Lock-In Detection.

4. 14.85 µW Analog Front-End for Photoplethysmography Acquisition with 142-dBΩ Gain and 64.2-pA_rms Noise.

5. In Vivo Evaluation of a Subcutaneously Injectable Implant with a Low-Power Photoplethysmography ASIC for Animal Monitoring.

A Low-Power CMOS Front-End for Photoplethysmographic Signal Acquisition With Robust DC Photocurrent Rejection.

1. State-of-the-Art Light to Digital Converter Circuits Applicable in Non-Invasive Health Monitoring Devices to Combat COVID-19 and Other Respiratory Illnesses: A Review.

2. A wearable vital signs monitor at the ear for continuous heart rate and pulse transit time measurements.

3. A Single-Chip CMOS Pulse Oximeter with On-Chip Lock-In Detection.

4. 14.85 µW Analog Front-End for Photoplethysmography Acquisition with 142-dBΩ Gain and 64.2-pArms Noise.

5. In Vivo Evaluation of a Subcutaneously Injectable Implant with a Low-Power Photoplethysmography ASIC for Animal Monitoring.

4. 14.85 µW Analog Front-End for Photoplethysmography Acquisition with 142-dBΩ Gain and 64.2-pA_rms Noise.