High power voltage multiplier (VM) PFC Converter with inherent ZCS Characteristics and high step-ip gain for enhanced low-line efficiency

P. R. Mohanty, A. Panda, N. Patnaik
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引用次数: 1

Abstract

In this paper, a Voltage Multiplier (VM) converter configuration has been designed for high Power PFC application, ensuring reduced losses and high system efficiency.The conventional PFC system is improved with adding VM circuit configuration that enhances the static gain features with moderate duty ratio (D), and hence, the reverse recovery (RR) issue is resolved. The VM section inherently adds two main specific features of clamping behavior and ZCS phenomenon to the PFC system. An experimental prototype of 2 kW, 600 V VM PFC converter configuration is designed and its effectiveness is validated under low line input of 100 V , operating at a high duty ratio, D = 0:67. The Real-Time Interface (RTI) feature of dSPACE1104 and MATLAB/Simulink are used to give the control signal for the verification of the system. Always, less than half of the output voltage (300 V ) appears across the switches of the converter, hence, voltage stress of the switch is minimized. Also, ZCS phenomenon is evident during switching commutations due to the snubber circuit behavior of the resonant tank, included in the proposed PFC converter. Hence, the overall system efficiency is improved. Furthermore, higher system efficiency is maintained for different rating which has been tested in this research work.
高功率电压倍增器 (VM) PFC 转换器,具有固有的 ZCS 特性和高阶跃增益,可提高低线效率
本文为大功率 PFC 应用设计了一种电压倍增器(VM)转换器配置,可确保降低损耗和提高系统效率。传统的 PFC 系统通过添加 VM 电路配置进行了改进,在适度占空比(D)的情况下增强了静态增益特性,从而解决了反向恢复(RR)问题。VM 部分在本质上为 PFC 系统增加了箝位行为和 ZCS 现象两大特殊功能。我们设计了一个 2 kW、600 VM PFC 转换器配置的实验原型,并在 100 V 低线路输入、高占空比 D = 0:67 条件下对其有效性进行了验证。dSPACE1104 的实时接口 (RTI) 功能和 MATLAB/Simulink 被用来为系统验证提供控制信号。转换器开关上的电压始终低于输出电压(300 V)的一半,因此开关的电压应力最小。此外,由于谐振槽的缓冲电路行为,在开关换向期间,ZCS 现象也很明显。因此,整个系统的效率得到了提高。此外,在本研究工作中测试的不同额定值下,都能保持较高的系统效率。
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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