• Title/Summary/Keyword: Full Bridge DC-DC Converter

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A Study of AC-DC PWM Full-Bridge Integrated Converter Topologies

  • Gerry, Moschopoulos;Praveen Jain
    • Journal of Power Electronics
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    • v.1 no.2
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    • pp.107-116
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    • 2001
  • Two AC-DC PWM full-bridge converters that can input current to improve input power factor while performing dc-dc conversion are investigated in this paper. Both converters are simple in that they are similar to the standard PWM full-bridge converter with a diode rectifier/LC low-pass filter input, and both can operate with a simple method of PWM control. In the paper, the operation of the converters is explained and their steady-state characteristics are discussed. The feasibility of the converters and their ability to meet EN61000-3-2 Class D Standards for electrical equipment are shown with results obtained from experimental prototypes. The performance of both converters in terms of dc bus voltage level, input power factor and efficiency is compared and discussed.

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Zero-Current-Switching in Full-Bridge DC-DC Converters Based on Activity Auxiliary Circuit

  • Chu, Enhui;Lu, Ping;Xu, Chang;Bao, Jianqun
    • Journal of Power Electronics
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    • v.19 no.2
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    • pp.353-362
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    • 2019
  • To address the problem of circulating current loss in the traditional zero-current switching (ZCS) full-bridge (FB) DC/DC converter, a ZCS FB DC/DC converter topology and modulation strategy is proposed in this paper. The strategy can achieve ZCS turn on and zero-voltage and zero-current switching (ZVZCS) turn off for the primary switches and realize ZVZCS turn on and zero-voltage switching (ZVS) turn off for the auxiliary switches. Moreover, its resonant circuit power is small. Compared with the traditional phase shift full-bridge converter, the new converter decreases circulating current loss and does not increase the current stress of the primary switches and the voltage stress of the rectifier diodes. The diodes turn off naturally when the current decreases to zero. Thus, neither reverse recovery current nor loss on diodes occurs. In this paper, we analyzed the operating principle, steady-state characteristics and soft-switching conditions and range of the converter in detail. A 740 V/1 kW, 100 kHz experimental prototype was established, verifying the effectiveness of the converter through experimental results.

Design and Control Method of Full-bridge DC-DC Converter for Electrolyzer (전기분해수조를 위한 풀-브릿지 DC-DC 컨버터의 설계와 제어 방법)

  • Lee, Byoung-Seoup;Yoon, Tae-Min;Kim, Jong-Hoon;Lee, Kyo-Beum
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.64 no.4
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    • pp.552-559
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    • 2015
  • Hydrogen is commonly used in many industrial field. However, hydrogen should be filled in a high pressure container to use it. Therefore, many researches have been conducted about an electrolyzer. The operating principle of the electrolyzer is that the electrolyzer can separate water molecules into hydrogen and oxygen. To use the electrolyzer, a power conversion system is needed because the current of the electrolyzer increases exponentially depending on the voltage of the electrolyzer. Thus, this paper proposes the power conversion system for the electrolyzer using a full-bridge DC-DC converter topology.

A Primary-Side-Assisted Zero-Voltage and Zero-Current Switching Full Bridge DC-DC Converter with Transformer Isolation for Arc Welding (아크 용접에 적합하며 1차 측 보조회로를 사용하는 영전압-영전류 직류-직류 컨버터)

  • Jeon, Seong-Jeub;Cho Gyu-Hyeong
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.49 no.10
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    • pp.683-692
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    • 2000
  • A new primary-side-assisted zero-voltage and zero-current switching full bridge DC-DC converter with transformer isolation is proposed. The auxiliary circuit adopted to assist ZCS for the leading leg is composed of only one small transformer and two diodes. It has a simple and robust structure, and load current control capability even in short circuit conditions. Possibility of magnetic saturation due to asymmetricity of circuits or transient phenomena is greatly reduced, which is a very attractive feature in DC/DC converters with transformer isolation. The power rating of the auxiliary transformer is about 10% of that of the main transformer. Operation of a 12.5KW prototype designed for welding application was verified by experiments.

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Parallel Operation of Trans-Z-Source Network Full-Bridge DC-DC Converter for Wide Input Voltage Range

  • Lee, Hyeong-Min;Kim, Heung-Geun;Cha, Hon-Nyong
    • Journal of international Conference on Electrical Machines and Systems
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    • v.1 no.2
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    • pp.98-104
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    • 2012
  • This paper presents a novel transformer isolated parallel connected full-bridge dc-dc converter using recently developed trans-Z-source network. Unlike the traditional voltage -fed or current-fed converters, the proposed converter can be open- and short-circuited without damaging switching devices. Therefore, the desired buck and boost function can be achieved and the converter reliability can be greatly improved. A 6 kW prototype dc-dc converter is built and tested to verify performances of the proposed converter.

Phase-Shift Full-Bridge DC/DC Converter with Fixed-Phase Operation Inverter (고정 위상 동작 인버터를 포함하는 위상천이 풀 브리지 DC/DC 컨버터)

  • Kim, Jin-Ho;Park, Jae-Sung;Kim, Hong-Kwon;Park, Jun-Woo;Shin, Yong-Saeng;Ji, Sang-Keun;Cho, Sang-Ho;Roh, Chung-Wook;Hong, Sung-Soo
    • The Transactions of the Korean Institute of Power Electronics
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    • v.18 no.2
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    • pp.131-137
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    • 2013
  • In this paper, the phase-shift full-bridge DC/DC converter with fixed-phase operation inverter is proposed. The proposed circuit consists of two full-bridge inverters which are connected in parallel. While one full-bridge inverter operates as the fixed-phase, it regulates the output voltage by adjusting the phase of the other inverter. During the normal operation period, the proposed circuit makes the less amount of conduction loss of the primary switches and secondary synchronous rectifiers, as well as the less amount of the current ripple of the output inductor, than the conventional phase-shift full-bridge DC/DC converter does. Also, it achieves high efficiency by reducing the snubber loss of the secondary synchronous rectifier. To sum up, the present inquiry analyzes the theoretical characteristics of the proposed circuit, and shows the experimental results from a prototype for 450W power supply.

Development of High Efficiency Boost DC/DC Converter For EV

  • Song, Sung-Geon;Lee, Sang-Hun;Song, Hyun-Jig;Park, Seong-Mi
    • Journal of international Conference on Electrical Machines and Systems
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    • v.3 no.4
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    • pp.415-421
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    • 2014
  • In this paper, reactorless high efficiency boost DC/DC converter for EV is proposed. In proposed converter, improves efficiency because decrease power loss when the switches are turned on/off using zero current switching (ZCS) at all switch of primary full bridge. By replacing reactance ingredients of L-C resonance circuit for ZCS with leakage inductance ingredients of high frequency transformer, it reduces system size and expense because of not add special reactor. For validity verification of proposed converter, in the paper implements simulation using PSIM and perform experiment by making 5KW DC/DC converter. In experimental results, efficiency of proposed converter conformed superiority.

Isolated Step-up DC/DC Converter applied Soft-switching Method (소프트스위칭 방식을 적용한 절연형 승압용 DC/DC 컨버터)

  • Kim, Young-Ju;Hwang, Jung-Goo;Kim, Sun-Pil;Park, Sung-Jun;Song, Sung-Geun
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.29 no.7
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    • pp.87-94
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    • 2015
  • Recently, renewable energy sources are under the spotlight. due to the depletion of fossil fuels and environmental problem for the carbon dioxide. Among them, research on the Photovoltaic System using solar energy systems has been actively conducted. In this paper, we propose boosting the insulated DC/DC converter topologies Applied to soft-switching methods used in photovoltaic PCS. The proposed topology is of a type that combines a series of full-bridge converter and a boost converter, a full bridge converter and applying the insulation and soft switching system, the output voltage boost stage is carried out for the boost control. The proposed circuit validity was verified through the PSIM simulation and 5kW PV PCS Prototype and experiments.

Asymmetrical Pulse-Width-Modulated Full-Bridge Secondary Dual Resonance DC-DC Converter

  • Chen, Zhangyong;Zhou, Qun;Xu, Jianping;Zhou, Xiang
    • Journal of Power Electronics
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    • v.14 no.6
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    • pp.1224-1232
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    • 2014
  • A full-bridge secondary dual-resonant DC-DC converter using the asymmetrical pulse-width modulated (APWM) strategy is proposed in this paper. The proposed converter achieves zero-voltage switching for the power switches and zero-current switching for the rectifier diodes in the whole load range without the help of any auxiliary circuit. Given the use of the APWM strategy, a circulating current that exists in a traditional phase-shift full-bridge converter is eliminated. The voltage stress of secondary rectifier diodes in the proposed converter is also clamped to the output voltage. Thus, the existing voltage oscillation of diodes in traditional PSFB converters is eliminated. This paper presents the circuit configuration of the proposed converter and analyzes its operating principle. Experimental results of a 1 kW 385 V/48 V prototype are presented to verify the analysis results of the proposed converter.

Soft Switching Single Stage AC-DC Full Bridge Boost Converter Using Non-Dissipative Snubber (무손실 스너버 적용 소프트 스위칭 Single Stage AC-DC Full Bridge Boost 컨버터)

  • 김은수;조기연;김윤호;조용현;박경수;안호균;박순구
    • The Transactions of the Korean Institute of Power Electronics
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    • v.4 no.4
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    • pp.377-383
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    • 1999
  • A new soft switching single stage AC-DC full bridge boost converter with unit input power factor and isolated output i is presented in this paper. Due to the use of a non-dissipative snubber on the primary side, a single stage high-power f factor isolated full bridge boost converter has a significant reduction of switching losses in the main switching devices. The non-dissipative snubber adopted in this study consists of a snubber capacitor Cr, a snubber inductor Cr, a fast r recovery snubber diode Dr' and a commutation diode Dp. This paper presents the complete operating principles, t theoretical analysis and experimental results.

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