Litcius/Paper detail

A Dual-Channel PPG Readout System With Motion-Tolerant Adaptability for OLED-OPD Sensors

Rajeev Kumar Pandey, Paul C.-P. Chao

2021IEEE Transactions on Biomedical Circuits and Systems28 citationsDOI

Abstract

An adaptive PPG (Photoplethysmography) readout system for a dual-channel OLED-OPD flexible sensor is designed and developed with motion artifact (&lt;1Hz) and ambient lighting interference successfully compensated without any additional motion sensors. The compensation is made possible by adopting multi-feedbacks and an additional reference OPD channel to cancel effectively DC drifts. In result, the quality of measured PPG is improved to the level such that long-time, continuous quality monitoring of bio-sign such as heart rate (HR) is possible. The readout is designed with an auto-programmable band-pass trans-impedance amplifier (TIA) of a 100db&#x2126; gain with a continuous-type DC-current cancellation loop. The rest of the readout consists of a 0.5 Hz low-pass filter, an additional second-order band-pass filter (0.1-10Hz), a difference amplifier, a motion reference channel, an analog multiplexer, a programmable gain amplifier (PGA), a digital control and a programmable DAC-PWM based auto-intensity tuned OLED driver. The readout is fabricated in an area of 9 mm<sup>2</sup> via the TSMC 180nm process. The experiment result shows that the developed OLED-OPD readout senses well as small as 1nA current, with a measured dynamic range &gt;90dB (1nA to 100 &#x00B5;A) and input-referred noise of 0.26 nA&#x002F;&#x221A;H, with power consumption of 460&#x00B5;W. The DC drift is successfully reduced to 1&#x0025; of its average. The accuracy for heart rate is 96&#x0025;.

Topics & Concepts

AmplifierElectronic engineeringAutomatic gain controlProgrammable-gain amplifierNoise (video)Dynamic rangeInterference (communication)Filter (signal processing)Compensation (psychology)Computer scienceAdaptive filterWide dynamic rangeArtifact (error)Active noise controlSIGNAL (programming language)Channel (broadcasting)Lock-in amplifierDigital controlElectrical engineeringEngineeringInstrumentation amplifierPower (physics)Sensitivity (control systems)Control systemCMOSDifferential amplifierOperational amplifierLow-pass filterDigital filterPower consumptionPrecision rectifierAnalogue filterBand-pass filterNoise reductionDetectorSignal-to-noise ratio (imaging)AdaptabilityLow-noise amplifierAnalog front-endPhotodiodeNon-Invasive Vital Sign MonitoringAnalytical Chemistry and SensorsAdvanced Chemical Sensor Technologies