Basic circuit theoretic considerations of LED driving: Voltage-source versus current-source driving

2016 IEEE 2nd Annual Southern Power Electronics Conference (SPEC) Pub Date : 2016-12-01 DOI:10.1109/SPEC.2016.7846015

Zheng Dong, C. Tse, S. Hui

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引用次数: 5

Abstract

Light-emitting-diodes (LEDs) are solid-state devices with specific v-i characteristics. In this paper we study the basic requirement of the driving circuits and discuss the proper approach to driving LEDs from the circuit theoretic viewpoint. We compare voltage source driving and current source driving, and discuss their relative advantages and constraints. We specifically introduce the use of duality principle in developing new current-source drivers which are mostly unknown but are theoretically more versatile compared to their conventional voltage-source counterparts. Although the study exploits very basic circuit theory, it is not always borne in mind or known by practitioners the impact of the choice of circuit topologies on the current and voltage ripples, range of duty cycle variation, sensitivity, and efficiency of LED drivers. This paper presents a systematic and comparative exposition of the circuit theory of driving LEDs, with experimental evidences supporting the major conclusions. Finally, we illustrate how these results can readily lead to an effective LED driver design.

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LED驱动的基本电路理论考虑:电压源与电流源驱动

发光二极管(led)是具有特定v-i特性的固态器件。本文研究了驱动电路的基本要求，并从电路理论的角度探讨了驱动led的合适方法。我们比较了电压源驱动和电流源驱动，并讨论了它们的相对优势和限制。我们特别介绍了对偶原理在开发新的电流源驱动器中的使用，这些驱动器大多是未知的，但理论上比传统的电压源驱动器更通用。虽然这项研究利用了非常基本的电路理论，但从业者并不总是牢记或知道电路拓扑选择对LED驱动器的电流和电压波动、占空比变化范围、灵敏度和效率的影响。本文对驱动led的电路理论进行了系统的、比较的阐述，并以实验证据支持了主要结论。最后，我们说明了这些结果如何容易地导致一个有效的LED驱动器设计。

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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2016 IEEE 2nd Annual Southern Power Electronics Conference (SPEC)

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