用于功率因数校正的连续导通双升压变换器控制策略

A. S. Martins, E.V. Kassick, I. Barbi
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引用次数: 12

摘要

研究了功率因数校正(PFC)双升压变换器在连续导通模式(CCM)下的控制策略。该变换器是在经典升压变换器的基础上分成两个并行的功率处理模块;这些模块中的每一个处理转换器标称功率的一半。有关该变换器的技术文献没有详细分析一些非常重要的控制方面,似乎仍然缺乏这种变换器的通用控制策略。本文对这一问题进行了探讨。这是通过基于PWM开关模型的变换器建模来实现的。通过仿真验证,该模型指向一个多变量控制系统,因为变换器输出电压和控制变量(两个有源开关的占空比)是强耦合的。为了克服这一不利特性,设计了电压和电流补偿回路,采用了动态解耦技术。功率处理的每个模块都具有电流模式控制的PFC电路,该电路具有电流调节内环和电压调节外环,并在前者上进行动态解耦。给出了用于功率因数校正的双升压变换器性能的数值模拟结果。
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Control strategy for the double-boost converter in continuous conduction mode applied to power factor correction
This paper deals with the control strategy for the double boost converter in power factor correction (PFC) application, working in continuous conduction mode (CCM). This converter is based on the classic boost converter split into two parallel modules of power processing; each one of these modules process half of the nominal power of the converter. Technical literature concerning this converter does not analyze in detail some very important control aspects and it seems that it is still lacking a general control strategy for such converter. This subject is developed in the present paper. This is done by converter modeling based upon the PWM switch model. The model obtained, verified by simulations, points to a multivariable control system, since the converter output voltages and the control variables (duty cycle of the two active switches) are strongly coupled. The dynamic uncoupling technique is applied in order to overcome this undesirable characteristic and to design the voltage and current compensation loops. Each module of power processing has a current mode controlled PFC circuit with a current-regulation inner loop and a voltage-regulation outer loop and the dynamic uncoupling is performed over the former. Numerical simulation results of the behavior of the double-boost converter for power factor correction application are presented.
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Program committee Cover page Double boost effect topology for AC/DC converter with unity power factor Optimizing the AC resistance of multilayer transformer windings with arbitrary current waveforms A novel quasi-resonant DC-DC converter using phase-shift modulation in secondary side of high-frequency transformer
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