A Bridgeless Cuk-Derived Voltage Doubler-Based Power Factor Correction Rectifier

IEEE Journal of Emerging and Selected Topics in Industrial Electronics Pub Date : 2024-02-28 DOI:10.1109/JESTIE.2024.3371350

Rahul Patil;Saravana Prakash P

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Abstract

This research proposes a bridgeless (BL) Cuk converter cell derived power factor correction (PFC) voltage doubler rectifier (VDR). The proposed BL-PFC VDR employs two Cuk converter cells. The inputs of Cuk cells are connected in parallel, and the outputs are connected in series. Thus, makes the voltage gain twice. Compared to a classical Boost BL-PFC rectifier, the proposed rectifier either lowers the voltage burden on the switches or twice the output voltage gain. Since each Cuk cell works for a alternative half cycle, this VDR provides better thermal management. The proposed Cuk VDR employs an affordable single voltage sensor-based voltage control method. Further, the rectifier is intended to operate in discontinuous inductor current mode for improved power quality operation. In addition, the steady-state analysis of the proposed Cuk VDR, as well as its design, and small signal analysis are detailed thoroughly. A 1-kW experimental prototype is developed to validate the performance of proposed Cuk VDR. Furthermore, its effectiveness has been validated using analytical outcomes.

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基于功率因数校正整流器的无桥 Cuk-Derived 电压倍增器

这项研究提出了一种源自功率因数校正（PFC）电压倍增整流器（VDR）的无桥（BL）Cuk 转换器单元。拟议的 BL-PFC VDR 采用两个 Cuk 转换器单元。Cuk 单元的输入并联，输出串联。因此，电压增益为原来的两倍。与传统的升压 BL-PFC 整流器相比，拟议的整流器要么降低了开关上的电压负担，要么使输出电压增益增加了一倍。由于每个 Cuk 单元工作半个周期，因此这种 VDR 具有更好的热管理功能。拟议的 Cuk VDR 采用了一种经济实惠的基于单电压传感器的电压控制方法。此外，整流器还采用了不连续感应电流模式，以改善电能质量。此外，还详细介绍了拟议 Cuk VDR 的稳态分析、设计和小信号分析。开发了一个 1 千瓦的实验原型，以验证所提出的 Cuk VDR 的性能。此外，还利用分析结果验证了其有效性。

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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IEEE Journal of Emerging and Selected Topics in Industrial Electronics

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