A Model for the Digital Method of Measuring LED Incident Photocurrent

Volume 7: 17th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA) Pub Date : 2021-08-17 DOI:10.1115/detc2021-70651

Jake D. Campbell, C. Pretty, J. Knopp, P. Bones, J. Chase

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Abstract

Pulse oximeters and other light based sensor types are used to monitor arterial blood oxygen levels, heart rate, and much more that rely on LEDs and photodiodes. The conventional method of using photodiodes to detect light signals is accurate, but requires relatively expensive hardware processing to extract the signal. Digital sensing of light using an LED provides a low-cost alternative by using a voltage threshold timing method. However, the accuracy of this method is dependant on the microcontroller clock speed and suffers from variable sample rate (100 us to 10 ms). This paper develops a model for a digital light sensing method using only a microcontroller’s ADC and timer, and an LED. Using the voltage discharge curve of a reverse biased LED, the sensor is capable of accurately detecting light intensities ranging from 0–3885 mcd at a sample period of 500 us. A linear relationship was found through the incident light intensity ranges of 0 to 3880 mcd. The model fit the expected experimental values, with an estimated photocurrent ranging from 10 pA to 55 nA. With an R2 of 0.9997, the model demonstrates the digital sensing method linearly responds to incident light intensity and can simplify the design of pulse oximeters and similar light based sensor types.

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一种测量LED入射光电流的数字方法模型

脉搏血氧仪和其他基于光的传感器类型用于监测动脉血氧水平，心率，以及依赖led和光电二极管的更多内容。使用光电二极管检测光信号的传统方法是准确的，但需要相对昂贵的硬件处理来提取信号。使用LED的数字光传感通过使用电压阈值定时方法提供了一种低成本的替代方案。然而，这种方法的准确性取决于微控制器时钟速度，并受到可变采样率(100 us至10 ms)的影响。本文开发了一种仅使用微控制器的ADC和定时器以及LED的数字光传感方法模型。利用反向偏置LED的电压放电曲线，该传感器能够在500 us的采样周期内精确检测0-3885 mcd的光强。在0 ~ 3880 mcd的入射光强范围内，两者呈线性关系。该模型符合预期的实验值，估计光电流范围为10 pA至55 nA。该模型的R2为0.9997，表明数字传感方法对入射光强度有线性响应，可以简化脉搏血氧仪和类似光传感器的设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 7: 17th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA)

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