高效单级多荧光灯电子镇流器

Hung-Ching Lu, Te-Lung Shih
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引用次数: 1

摘要

提出了一种高效率、低应力的单级电子镇流器拓扑结构。该镇流器由供压半桥串谐振串并联负载(SRSPL)逆变器和升压变换器组成,前者起驱动灯的作用,后者与半桥逆变器共用低侧开关装置,并起到功率因数校正(PFC)的作用。在镇流器的逆变器上装有谐振槽,谐振槽的设计和工作原理是电容式和电感式的,理论上可以实现零电压开关(ZVS)和零电流开关(ZCS),消除通过开关的无功电流循环,以防止低开关和导通损耗。镇流器的升压转换器提供足够的高电压来点燃灯。此外,在形成输入电流和减少谐波电流以点燃灯之前,转换器执行功率因数校正阶段。通过所提出的操作方案,可以获得灯的连续点火的优点,从而减少施加在开关上的电流应力。仿真结果和实验结果验证了理论预测和分析的正确性。
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High efficiency single-stage Multi-Fluorescent Lamps Electronic Ballast
A single-stage electronic ballast topology with the properties of high efficiency and low stress is proposed in this paper. The ballast consists of a voltage fed half-bridge series-resonant series-parallel-load (SRSPL) inverter, playing the role of lamp driver, and a voltage boost converter, which shares low side switch device with half-bridge inverter and acts as power-factor-correction (PFC). The inverter of the ballast is loaded with resonant tanks which are designed and operated to be capacitive and inductive to theoretically achieve both of zero-voltage switching (ZVS) and zero-current switching (ZCS) that eliminate the reactive current circulating through the switches to prevent low switching and conduction losses. The boost converter of the ballast provides sufficient high voltage to ignite the lamp. In addition, prior to shaping the input current and reducing harmonic currents to ignite the lamp, a power factor correction stage is performed by the converter. The merit of a successive ignition of the lamps can be attained with proposed operation scheme so that current stress imposed on the switches can be reduced. The simulation results and experimental measurements are used to verify the theoretical prediction and analysis.
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