Single phase PFC using Buck-Boost converter

机译：使用降压-升压转换器的单相PFC

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Nowadays, low Power Factor (PF) is a serious problem that gained more importance in power electronics area. In this paper, single phase PFC using Buck-Boost circuit topology under linearization voltage control is realized. Here the nonlinear load considered is the diode bridge rectifier, and a Buck-Boost converter is connected to its back end for PFC. The switching of buck-boost converter is done by comparing the dc control signal with a saw tooth wave and its switching frequency is set to 100 kHz. The simulation analyses are carried out in Matlab/Simulink software. The effect of PFC Buck-Boost circuit on PF and the sinusoidal nature of line current are analyzed by the simulation results. Its effectiveness is experimentally validated by means of a self designed prototype. Experimental results show that, Buck-Boost circuit topology have an excellent ability for PFC. It makes the supply voltage and current in phase to each other and thus approximate the PF to unity.

机译：如今，低功率因数（PF）是一个严重的问题，在功率电子领域已变得越来越重要。本文实现了在线性化电压控制下采用降压-升压电路拓扑的单相PFC。这里考虑的非线性负载是二极管桥式整流器，并且在其后端连接了一个Buck-Boost转换器用于PFC。通过将直流控制信号与锯齿波进行比较来完成降压-升压转换器的开关，并将其开关频率设置为100 kHz。仿真分析在Matlab / Simulink软件中进行。仿真结果分析了PFC Buck-Boost电路对PF的影响以及线路电流的正弦特性。它的有效性通过自行设计的原型进行了实验验证。实验结果表明，Buck-Boost电路拓扑具有出色的PFC能力。它使电源电压和电流彼此同相，从而使PF近似为1。

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来源
《2014 Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives》|2014年|1-5|共5页
会议地点 Kerala(IN)
作者
Philip Riya; Sreeja C.;
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作者单位

Department of Electrical and Electronics Amaljyothi College of Engg. Koovapally, Kottayam;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Equations; Mathematical model; Power factor correction; Reactive power; Rectifiers; Topology; Voltage control; Buck-Boost circuit topology; Power Factor Correction (PFC); linearization voltage control;

机译：方程;数学模型;功率因数校正；无功功率；整流器；拓扑；电压控制；降压-升压电路拓扑；功率因数校正（PFC）；线性化电压控制；;

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专利

1. A Single-phase Buck-Boost PFC Converter with Output-Voltage-Ripple-Reducing Operation [J] . Shin-ichi Motegi, AkeshiMaeda 電気学会論文誌. D . 1997,第7期

机译：具有输出电压纹波降低功能的单相降压-升压PFC转换器
2. Half-bridqe single-phase buck-boost type AC--DC 9e Single-phase buck-boost type AC--DC converter with sliding mode control of the in input source s-mode control of the input source current [J] . VFern8o Pires, J. Fernando Silva IEE Proceedings. Part B . 2000,第1期

机译：半桥式单相降压-升压型AC-DC 9e单相降压-升压型AC-DC转换器，具有输入源内滑模控制，输入源电流的S模式控制
3. PWM Technique for Non-Isolated Three-Phase Buck-Boost PFC Converter [J] . Toshimitsu Morizane, Wataru Shimomoi, Katsunori Taniguchi, 電気学会論文誌 D:產業応用部門誌 . 2008,第4期

机译：非隔离式三相降压-升压PFC转换器的PWM技术
4. Single-phase Multiple Buck-boost PFC Converter for V-connected Three-phase Inverter [C] . Toshimitsu MORIZANE, Katsunori TANIGUCHI, Noriyuki KIMURA 電気学会全国大会 . 2008

机译：用于V连接的三相逆变器的单相多降压 - 升压PFC转换器
5. Novel Bidirectional Single-Phase Single-Stage Isolated AC-DC Converter with PFC for Charging of Electric Vehicles [D] . Singh, Anant Kumar. 2016

机译：具有PFC的新型双向单相单级隔离AC-DC转换器，用于电动车辆充电
6. Comparison between Phase-Shift Full-Bridge Converters with Noncoupled and Coupled Current-Doubler Rectifier [O] . Cheng-Tao Tsai, Jye-Chau Su, Sheng-Yu Tseng 2013

机译：具有非耦合和耦合电流倍增器整流器的相移全桥转换器的比较
7. Single-stage Bridgeless Buck-boost PFC Converter with DC Split for Low Power LED applications [O] . Zhengge Chen, Pooya Davari, Huai Wang 2018

机译：单级无桥式降压-BOOST PFC转换器，具有DC拆分，用于低功耗LED应用

Single phase PFC using Buck-Boost converter

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