离线升压功率因数校正(PFC)电路建模与仿真

D. Beams, Sriram Boppana
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引用次数: 7

摘要

当负载以单位功率因数吸收电流时,电力最有效地从公用设施输送到最终用户。然而,使用整流/滤波器拓扑的传统交直流电源所产生的电流是非正弦且谐波丰富,因此显示出低功率因数。另一种被称为离线功率因数校正的方法消除了滤波电容器,并使用开关模式功率转换器技术来实现接近统一的功率因数。市售集成电路可与外部分立元件组合,构成完整的离线功率因数校正电路;然而,制造商的数据表经常为他们的应用信息提供很少的理论基础。本文讨论了电压和电流控制回路的建模和仿真工作,并重点讨论了电流控制回路的传递函数。推导了电流控制回路在特定工况下的传递函数,并开发了绘制传递函数波德图的Matlab脚本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and simulation of off-line boost power factor correction (PFC) circuits
Electric power is delivered most efficiently from utilities to end users when the load draws current at unity power factor. Traditional ac-to-dc power supplies that use a rectifier/filter topology, however, draw currents that are highly non-sinusoidal and rich in harmonics and thus display a low power factor. An alternative approach, known as offline power factor correction, eliminates the filter capacitor and uses switchmode power converter techniques to achieve power factors close to unity. Commercially-available integrated circuits may be combined with external discrete components to make a complete offline power-factor correction circuit; however, the manufacturers' data sheets frequently provide little theoretical basis for their application information. This paper deals with modeling and simulation work to derive the transfer functions of the voltage- and current-control loops, with a primary focus on the current-control loop. The transfer function of the current-control loop has been derived for specified operating conditions, and a Matlab script for plotting Bode plots of these transfer functions is developed.
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