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新型电压调节模块拓扑研究综述

作者:周俊杰,魏艳君,侯士江 日期:2007-07-09/span> 浏览:4206 查看PDF文档

                              新型电压调节模块拓扑研究综述

                                周俊杰,魏艳君,侯士江

               (燕山大学 电气工程学院,河北 秦皇岛 066004)

摘 要:电压调节模块(VRM)作为处理器的供电电源,其主拓扑的选择非常重要。在分析了传统非隔离Buck型和隔离型拓扑局限性的基础上,总结了VRM的几个新兴研究方向(基于变压器的非隔离拓扑、Buck演化拓扑、两极拓扑、三倍流拓扑)分别给出了新型拓扑结构,并讨论了各类拓扑的思想、优缺点及其应用。
关键词:电压调节模块;拓扑;三倍流转换器;Boost转换器;附加控制桥


                    Review of study on novel VRM topologies
                ZHOU Junjie, WEI Yanjun, HOU Shijiang

(College of Electrical Engineering, Yanshan University, Qinhuangdao 066004, China)

Abstract: Voltage regulator module is power supply of processor. The choice of main topology is very important. The limitations of conventional nonisolated Buck and isolated topologies were analyzed. Based on the study of VRMs development, several novel directions were introduced, such as nonisolated topologies based on transformer, topologies derived from Buck converter, twostage VRM, currenttripler converter. In addition, the ideas, advantages and limitations, and applications were discussed.
Key words: voltage regulator module (VRM); topologies; currenttripler converter; Boost converter; complementary controlled bridge (CCB)

参考文献(Reference):
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[3]YANG Z H, SHENG Y, LIU Y F. A New Transformerbased Nonisolated Topology Optimized for VRM Application[C]. Power Electronics Specialists Conference,2005.
[4]GARINTO D. Voltage Regulator Module with Multiinterleaving Technique for Future Microprocessors[C]. Power Electronics Specialists Conference,2006.
[5]REN Y C. High frequency, high efficiency twostage approach for future microprocessors[D]. Blacksburg, Virginia: Virginia Polytechnic Institute and State University, April,2005.
[6]ZHOU J H. High frequency, high current density voltage regulators[D]. Blacksburg, Virginia: Virginia Polytechnic Institute and State University, April,2005.
[7]YOUSSEF M Z, JAIN P K. A 48V Resonant Voltage Regulator Module with a New Current Mode Controller[C]. Power Electronics Specialists Conference,2006.
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[9]HU Q, LV Z. A Novel Stepup VRMTwophase Interleaved CoupledBoost Converter[C]. Power Electronics Specialists Conference,2006.



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