High-Performance CLL Resonant Multi-Channel LED Driver for Lighting Application

Wesley Poh Qi Tong, B. M. Muhammad Ramadan, T. Logenthiran, R. T. Naayagi, W. L. Woo, V. Phan
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引用次数: 1

Abstract

This paper presents a multi-channel, current-balancing coordinated light-emitting diode (LED) driver that employs a primary buck converter and a secondary two-stage CLL resonant-based inverter. The proposed LED driver is engineered with a switch-mode voltage regulator that maintains high power dissipation, controls current-carrying capacities respecting to load using half-bridge inverter coupled to a CLL resonant tank, and pose operating cycle uniformity at multiple current source outputs by cascaded balance capacitor-based transformers with voltage-doubler architectures. Conjointly, utilization of high switching frequency (282.7kHz) is endorsed to curtail current ripple deviations and stimulate balanced current distribution based on load capacities. Using PSIM simulation environment, the proposed multi-channel LED driver is evaluated to view its performance against dynamic installation of multi-stringed LEDs connected at variegated capacities. Succeedingly, development of a hardware prototype is annexed. The acquired simulation and hardware tests’ results have validated optimal coordination of current distributions for unbalanced loads (LEDs) across multiple channels.
用于照明应用的高性能CLL谐振多通道LED驱动器
本文提出了一种多通道、电流平衡协调发光二极管(LED)驱动器,该驱动器采用初级降压变换器和二级基于CLL谐振的逆变器。所提出的LED驱动器设计了一个开关模式稳压器,以保持高功耗,通过与CLL谐振槽耦合的半桥逆变器控制负载的载流能力,并通过级联平衡电容变压器实现多电流源输出的工作周期均匀性。同时,利用高开关频率(282.7kHz)可以减少电流纹波偏差并刺激基于负载能力的平衡电流分布。利用PSIM仿真环境,对所提出的多通道LED驱动器进行了评估,以观察其在不同容量连接的多串LED动态安装下的性能。最后,附上了硬件样机的开发。所获得的仿真和硬件测试结果验证了跨多个通道的不平衡负载(led)电流分布的最佳协调。
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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