Delay-Lock-Loop-Based Inductorless and Electrolytic Capacitorless Pseudo-Sine-Current Controller in LED Lighting Systems

Chiu Shao-Wei; Kuo Chun-Chieh; Su Yi-Ping; Chen Ke-Horng

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Delay-Lock-Loop-Based Inductorless and Electrolytic Capacitorless Pseudo-Sine-Current Controller in LED Lighting Systems

机译：LED照明系统中基于延迟锁定环路的无电感器和无电解电容伪正弦电流控制器

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摘要

Light-emitting diode lighting system with the proposed pseudo-sine-current controller removes most of the external passive components, which include inductor, electrolytic capacitor, freewheel diode, blocking diode, and the bleeding circuit for Triac dimming control, for low cost and small volume. Delay-lock loop control can ensure the in-phase operation of ac input voltage and current for high power factor (PF) and low total harmonic distortion (THD). In addition, redundant power loss in Triac dimming control is eliminated to get a high efficiency of 85%. Furthermore, a high PF of 0.997 and a low THD of 7.74% are also achieved owing to in-phase line voltage and current.

机译：带有拟议的正弦电流控制器的发光二极管照明系统可省去大多数外部无源组件，包括电感器，电解电容器，续流二极管，阻塞二极管以及用于双向可控硅调光控制的泄放电路，从而实现了低成本和小型化体积。延迟锁定环路控制可确保高功率因数（PF）和低总谐波失真（THD）的交流输入电压和电流同相工作。另外，消除了双向可控硅调光控制中的冗余功率损耗，从而获得了85％的高效率。此外，由于同相线电压和电流，因此还可以实现0.997的高PF和低的7.74％的THD。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2015年第12期|2852-2861|共10页
作者
Chiu Shao-Wei; Kuo Chun-Chieh; Su Yi-Ping; Chen Ke-Horng;
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作者单位

Institute of Electrical Control Engineering, National Chiao Tung University, Hsinchu, Taiwan;

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原文格式 PDF
正文语种 eng
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关键词
Electrolytic capacitor (E-cap); Triac dimming; Triac dimming.; light-emitting diode (LED) lighting system; pseudo-sine-current (PSC) controller;

机译：电解电容器（E-cap）;三端双向可控硅开关元件调光;三端双向可控硅开关元件调光;发光二极管（LED）照明系统;伪正弦电流（PSC）控制器;

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Delay-Lock-Loop-Based Inductorless and Electrolytic Capacitorless Pseudo-Sine-Current Controller in LED Lighting Systems

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