Abstract
This work presents various essential features and design aspects of a single-inductor, common-output, and multi-string White Light Emitting Diode (WLED) driver for low-power portable devices. High efficiency is one of the main features of such a device. Here, the efficiency improvement is achieved by selecting the proper arrangement of WLEDs and a proper sensing-circuit technique to determine the minimum, real-time, needed output voltage. This minimum voltage necessary to activate all WLEDs depends on the number of strings and the forward voltage drops among the WLEDs. Advanced CMOS technology is advantageous in mixed-signal environments such as WLED drivers. However, this process suffers from low on-resistance, which degrades the accuracy of the current sinks. To accommodate the above features and mitigate the low node process issue, a boost-converter that is single output with a load of a three-string arrangement, with 6 WLEDs each, is presented. The designed driver has an input voltage range of 3.2–4.2V. The proposed solution is realized with ultra-low power consumption circuits and verified using ADS tools utilizing 40 nm 1P9M TSMC CMOS technology. An inter-string current accuracy of 0.2% and peak efficiency of 91% are achieved with an output voltage up to 25 V. The integrated WLED driver circuitry enables a high switching frequency of 1MHz and reduces the passive elements’ size in the power stage.
Highlights
White Light Emitting Diode (WLED) drivers are ubiquitous when it comes to modern smart portable devices
A WLED driver based on a boost converter can be thought of as a boost converter with one or more WLED strings functioning as its load
The second part of Equation (3) is the total power consumption of sink transistors. This portion of power dissipation depends on the total voltage drop across the WLEDs, which is comparable to the constant resistance topology
Summary
WLED drivers are ubiquitous when it comes to modern smart portable devices. They provide a backlight plus dimming and brightness control. Sensing the output voltage from the top of the strings [5] should account for worse possible WLED drops in addition to the overhead voltage (VOH ) of the current sink. This ensures that all WLEDs are activated. To accommodate the above features and mitigate the low node process issue, a boost-converter that is commonoutput with a load of a three-string arrangement, with 6 WLEDs each, is presented This design features a dedicated amplifier-boosted n-MOS current sink circuitry. The selected current sink circuitry comprises a programmable resistor that allows for segmented driver output current [1] This results in an enhanced inter-string current accuracy and WLED driver efficiency.
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