Topology Derivation and Generalized Analysis of Zero-Voltage-Switching Synchronous DC-DC Converters With Coupled Inductors

In conventional dc-dc converters with synchronous rectifiers, hard-switching operation of the main switch and reverse-recovery problem of the synchronous switch result in degraded performance. In order to avoid these two undesired shortcomings, employing a coupled inductor is a simple yet effective...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2016-08, Vol.63 (8), p.4805-4815
Hauptverfasser:	Chen, Guipeng, Deng, Yan, Tao, Yong, He, Xiangning, Wang, Yousheng, Hu, Yihua
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuits Converters Coupled inductor DC to DC DC-DC power converters Derivation Electric converters Inductance Inductors Joining Magnetic cores Switches Synchronous synchronous dc–dc converters Topology topology derivation Zero voltage switching zero-voltage switching (ZVS)
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creator	Chen, Guipeng Deng, Yan Tao, Yong He, Xiangning Wang, Yousheng Hu, Yihua
description	In conventional dc-dc converters with synchronous rectifiers, hard-switching operation of the main switch and reverse-recovery problem of the synchronous switch result in degraded performance. In order to avoid these two undesired shortcomings, employing a coupled inductor is a simple yet effective solution. Apart from the improved soft-switching characteristic, low component count is also achieved since only a coupled winding and a series auxiliary diode are added. In this paper, a general zero-voltage-switching (ZVS) topology with a coupled inductor is proposed and based on which, a family of ZVS synchronous buck, boost, and buck-boost converters is readily obtained. For each fundamental dc-dc converter, several viable ZVS topologies evolve, among which an optimum topology can be chosen according to the different requirement in practical engineering applications. To help the topology selection, generalized analysis and individual comparison are also undertaken. In addition, design consideration is illustrated and experiment results are provided to validate converter effectiveness. Furthermore, thanks to its generality, the topology derivation and generalized analysis can be easily extended to various synchronous dc-dc converters.
doi_str_mv	10.1109/TIE.2016.2549506
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In order to avoid these two undesired shortcomings, employing a coupled inductor is a simple yet effective solution. Apart from the improved soft-switching characteristic, low component count is also achieved since only a coupled winding and a series auxiliary diode are added. In this paper, a general zero-voltage-switching (ZVS) topology with a coupled inductor is proposed and based on which, a family of ZVS synchronous buck, boost, and buck-boost converters is readily obtained. For each fundamental dc-dc converter, several viable ZVS topologies evolve, among which an optimum topology can be chosen according to the different requirement in practical engineering applications. To help the topology selection, generalized analysis and individual comparison are also undertaken. In addition, design consideration is illustrated and experiment results are provided to validate converter effectiveness. 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In order to avoid these two undesired shortcomings, employing a coupled inductor is a simple yet effective solution. Apart from the improved soft-switching characteristic, low component count is also achieved since only a coupled winding and a series auxiliary diode are added. In this paper, a general zero-voltage-switching (ZVS) topology with a coupled inductor is proposed and based on which, a family of ZVS synchronous buck, boost, and buck-boost converters is readily obtained. For each fundamental dc-dc converter, several viable ZVS topologies evolve, among which an optimum topology can be chosen according to the different requirement in practical engineering applications. To help the topology selection, generalized analysis and individual comparison are also undertaken. In addition, design consideration is illustrated and experiment results are provided to validate converter effectiveness. Furthermore, thanks to its generality, the topology derivation and generalized analysis can be easily extended to various synchronous dc-dc converters.</description><subject>Circuits</subject><subject>Converters</subject><subject>Coupled inductor</subject><subject>DC to DC</subject><subject>DC-DC power converters</subject><subject>Derivation</subject><subject>Electric converters</subject><subject>Inductance</subject><subject>Inductors</subject><subject>Joining</subject><subject>Magnetic cores</subject><subject>Switches</subject><subject>Synchronous</subject><subject>synchronous dc–dc converters</subject><subject>Topology</subject><subject>topology derivation</subject><subject>Zero voltage switching</subject><subject>zero-voltage switching (ZVS)</subject><issn>0278-0046</issn><issn>1557-9948</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpdkcFr2zAUh8XoYGm3-2AXwS67OJVkyZKPwcnaQGCHpB3sYmT5OVFwpEyyO9K_vgoJPez0ePD9frzHh9BXSqaUkvJ-s1xMGaHFlAleClJ8QBMqhMzKkqsbNCFMqowQXnxCtzHuCaFcUDFBrxt_9L3fnvAcgn3Rg_UOa9fiB3AQdG9focUzp_tTtBH7Dv-B4LNn3w96C9n6nx3MzrotXp-c2QXv_BjxvMrmFa68e4EwQIj4tx12aR-PfSpbunY0gw_xM_rY6T7Cl-u8Q08_F5vqMVv9elhWs1VmcsaHTLGGtbIBaEjeiE7JttCMdgUYozloI1WpNelkm1MlTcEaarQGU6iOEZbLJr9DPy69x-D_jhCH-mCjgb7XDtK5NVVMiILJnCb0-3_o3o8hfX-mSF5yLqlIFLlQJvgYA3T1MdiDDqeakvoso04y6rOM-iojRb5dIhYA3nHJkwSp8jcTEod5</recordid><startdate>20160801</startdate><enddate>20160801</enddate><creator>Chen, Guipeng</creator><creator>Deng, Yan</creator><creator>Tao, Yong</creator><creator>He, Xiangning</creator><creator>Wang, Yousheng</creator><creator>Hu, Yihua</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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In order to avoid these two undesired shortcomings, employing a coupled inductor is a simple yet effective solution. Apart from the improved soft-switching characteristic, low component count is also achieved since only a coupled winding and a series auxiliary diode are added. In this paper, a general zero-voltage-switching (ZVS) topology with a coupled inductor is proposed and based on which, a family of ZVS synchronous buck, boost, and buck-boost converters is readily obtained. For each fundamental dc-dc converter, several viable ZVS topologies evolve, among which an optimum topology can be chosen according to the different requirement in practical engineering applications. To help the topology selection, generalized analysis and individual comparison are also undertaken. In addition, design consideration is illustrated and experiment results are provided to validate converter effectiveness. 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subjects	Circuits Converters Coupled inductor DC to DC DC-DC power converters Derivation Electric converters Inductance Inductors Joining Magnetic cores Switches Synchronous synchronous dc–dc converters Topology topology derivation Zero voltage switching zero-voltage switching (ZVS)
title	Topology Derivation and Generalized Analysis of Zero-Voltage-Switching Synchronous DC-DC Converters With Coupled Inductors
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