Design of a 5-Bit Current Steering DAC for Driving High Forward Voltage LEDs

2021 IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) Pub Date : 2021-08-09 DOI:10.1109/MWSCAS47672.2021.9531744

Seyedfakhreddin Nabavi, A. Pourzadi, S. Bhadra

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Abstract

Over past decades, light-emitting diodes (LEDs) have been identified as an ordinary part of many industrial and biomedical applications and many attempts done to enlarge their versatility. This paper proposes a 5-bit current steering DAC with the capability of driving two LEDs in a commercial OSRAM photoplethysmography (PPG) sensor which have different forward voltages. The DAC operates based on the thermometer-code conversion and is designed for 65 nm TSMC technology. Combined with a LED driver circuit it is able to convert a 5-bit digital input to an LED current signal. Results indicate that the implemented DAC can reach up to 50 M samples per second (MS/s) and changing its input by 1 LSB leads to 940 µA variation in the LED current. It is shown that the DAC system can independently drive two LEDs with the forward voltages of 1.8 V and 2.8 V at different time instants. According to the binary input signal of the DAC, the amplitude of the driving current signal, which identifies the brightness of LEDs, can be varied between 3.29 mA and 32.45 mA at a maximum frequency of 50 KS/s.

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驱动高正向电压led的5位电流转向DAC的设计

在过去的几十年里，发光二极管(led)已被确定为许多工业和生物医学应用的普通部分，并进行了许多尝试来扩大其通用性。本文提出了一种5位电流转向DAC，能够驱动欧司朗商用光电体积脉搏波传感器(PPG)中具有不同正向电压的两个led。DAC基于温度计代码转换，设计用于65纳米台积电技术。结合LED驱动电路，它能够将5位数字输入转换为LED电流信号。结果表明，所实现的DAC可以达到每秒50 M个采样(MS/s)，并且改变1 LSB的输入会导致LED电流变化940µA。实验结果表明，该DAC系统可以在不同时刻独立驱动正向电压分别为1.8 V和2.8 V的两个led。根据DAC的二进制输入信号，识别led亮度的驱动电流信号的幅值可以在3.29 mA到32.45 mA之间变化，最大频率为50 KS/s。

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2021 IEEE International Midwest Symposium on Circuits and Systems (MWSCAS)

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