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学术报告:Dong Cao, Assistant Professor
——High Density High Conversion Ratio Resonant Switched-Capacitor Converters(Switched-Tank Converters) for Data-center Application
文/cae    访问量:520   发布时间:2018-06-01


 

地点:电气楼509报告厅

 

时间:2018年6月4日 上午9:00

 

 

图片1.jpgAbstract: In order to meet the high efficiency, high power density, high conversion ratio and low cost needs for future 48 V data-center dc power delivery architecture, many new transformer based topologies using wide bandgap devices i.e. GaN operating at high frequency have been proposed. Although the GaN have relatively power loss due to the material performance and soft-switching, the transformer core loss and copper loss will increase with the switching frequency and it has become the bottleneck limiting the efficiency and power density improvement. More importantly, the transformer based topology also have manufacturability and scalability issues which requires optimization and long engineering design and verification time, it is hard to meet the fast pace of the new CPU release with new power requirement. Therefore, a more modular, scalable, and transformer-less high conversion ratio solution is required for the future 48V data-center dc power delivery.

 

This talk will provide a new high conversion ratio transformer-less resonant switched-capacitor dc-dc converter solution for the future 48V data-center power delivery. It has the modular, scalable, high efficiency, and high power density features. This talk will begin with the review of development of the history of such high conversion ratio resonant switched-capacitor converters, and traditional switched-capacitor converter design issues. It will also cover the recent development of such converters for the the google’s data-center 48V bus application, it will also discuss some solutions addressing the mass production issues. The project is also partly sponsored by Google.

 

   Dong Cao (M’09) received the B.S. degree from Zhejiang University, Hangzhou China, in 2005 and the M.S. and Ph.D. degrees in electrical engineering from Michigan State University, East Lansing USA, in 2010 and 2012, respectively. He worked at Ford Motor Company as a power electronics core engineer for hybrid electric vehicle electrified driveline hardware development from 2012 ~ 2014. He joined North Dakota State University as an assistant professor since Aug. 2014.

    He has lead or co-lead many projects from different government agencies and companies including NASA, NSF, North Dakota Department of Commerce, Google, Ford, John Deere, Transphorm, Navitas Semiconductor, etc. He has published more than 50 papers in IEEE Transactions and Major Conferences. He has graduated 1 PhD student and 2 Master student this year, and he currently has a research team including 2 PhD students and 3 Master students and several undergraduate students now. He plan to hire 3~4 Master/PhD students in Fall 2018.

 

    His research interests includes resonant and soft-switching techniques, switched-capacitor dc-dc converter, multilevel converters, wide bandgap devices (GaN/SiC) applications, 48V-1V data-center dc-dc, High density converter for EV applications, power conversion for distributed energy sources, health monitoring and life time prediction of power converters, and intelligent gate drive for high power devices and Z-source inverter/converters. He received two prize paper awards from the IEEE Industry Applications Society Industrial Power Converter Committee in 2010 and 2011 for his contribution in resonant switched-capacitor dc-dc converters. He is the recipient of the outstanding presentation award at Applied Power Electronics Conference and Exposition (APEC) 2010. He received the prize poster award at IEEE Energy Conversion Congress & Exposition (ECCE) 2011. He was the guest associated editor for the IEEE Transactions Special issue.

 


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