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SiC器件在大功率LD驱动源模块中的应用

Application of SiC power device in high power LD driver
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摘要 介绍了SiC功率器件的应用优势并将其应用到了大功率LD驱动源模块中;对SiC MOSFET的开关参数及特性进行了分析,并设计了一种简单实用的SiC隔离驱动。本文应用SiC器件设计了一款120V/120A全SiC LD驱动源模块,功率模块主电路拓扑采用四路交错并联Buck电路,电路中的开关管和二极管全部使用SiC功率器件,功率模块最高效率达到98%。 The advantages of SiC power device is introduced,and it is used for high power LD driver.The switch parameters and dynamic characteristics of the SiC MOSFET were analyzed,then a simple and practical isolated drive circuit was designed.A 120V/120A all-SiC LD driver power module was proposed,and its main circuit uses Four-way interleaving Buck circuits,the switching tube and the diodes in this circuit all use SiC devices.In addition,the maximum efficiency of the all-SiC module can reach up to 98%and it has a high reliability.
作者 贺涛 杨爱武 郑毅 朱虹 HE Tao;YANG Ai-wu;ZHENG Yi;ZHU Hong(North China Research Institute of Electro-Optics,Beijing 100015,China)
机构地区 华北光电技术研究所
出处 《激光与红外》 CAS CSCD 北大核心 2018年第9期1156-1159,共4页 Laser & Infrared
关键词 碳化硅器件 LD驱动源模块 交错并联Buck 碳化硅驱动电路 SiC decices LD drive power module interleaving Buck SiC drive circuit
分类号 TN386 [电子电信—物理电子学]
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  • 1Ostling M, Ghandi R,Zetterling C. SiC power devices- present status, applications and future perspective [C]//Proceedigs of the 23rd International Symposium on Power Semiconductor Devices and ICs(ISPSD). San Diego,CA: IEEE,2011: 10- 15.
  • 2Safari S, Castellazzi A, Wheeler P. Evaluation of SiC power devices for a high power density matrix con- verter[C]//Energy Conversion Congress and Expo- sition(ECCE). [S. L. ]: IEEE,2012: 3934-3941.
  • 3McNutt T, Hefner A, Mantooth A, et al. Silicon carbide power MOSFET model and parameter ex- traction sequence[J]. IEEE Transactions on Power Electronics,2007,22(2) : 353-363.
  • 4Josifovid I, Jelena Popovid-Gerber J, Ferreira J A. Improving SiC JFET switching behavior under in- fluence of circuit parasitic[J].IEEE Transactions on Power Electronics, 2012,27 (8) : 3843-3854.
  • 5Stewart C, Escobar Mejia A, Balda J C. Guidelines for developing power stage layouts using normally- off SiC JFETs based on parasitic analysis [C] // 2013 IEEE. Energy Conversion Congress and Expo sition(ECCE). Denver: IEEE,2013: 948-955.
  • 6Safari S, Castellazzi A , Wheeler P. Experimental and analyticed performance evaluation of Sic power devices in matrix converter[J]. IEEE Transactions on Power Electronics,2014,29(5) : 2584-2596.
  • 7Wang Jianjing,Chung Shuhung, Li R T. Character- ization and experimental assessment of the effects of parasitic elements on the MOSFET switching performance[J]. IEEE Transactions on Power Elec- tronics,2012,28(1) : 573-590.
  • 8Chen Zheng,Boroyevich D, Burgos R. Experimental parametric study of the parasitic inductance influ- ence on MOSFET switching characteristics[C]// Proceedings of the 2010 International Power Elec- tronics Conference (IPEC). Sapporo, Japan : IEEE, 2010: 164-169.
  • 9Meade T,O'Sullivan D, Foley R, et al. Parasitic in- ductance effect on switching losses for a high fre- quency DC-DC converter[C] // Applied Power Elec- tronics Conference and Exposition(APEC). Austin, USA: IEEE,2008: 3-9.
  • 10Balogh L. Design and application guide for high speed MOSFET gate drive circuits[J]. Power Sup- ply Design Seminar(SEM 1400) ,2001 : 1-37.

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激光与红外
2018年 第9期

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