211 / 2017-11-21 05:28:02
Composite Modular Power Delivery Architecture for Next-Gen 48V Data Center Applications
DC-DC,Data Center Technique,High Efficiency,High power density,ZCS
Final Paper
Xiaofeng Lyu / North dakota state university
Dong Cao / North dakota state university
Chenhao Nan / Google Inc
Shuai Jiang / Google Inc
Ze Ni / North dakota state university
Jalen Johnson / North dakota state university
Yanchao Li / North dakota state university
This paper presents a smart Composite Modular Power Delivery Architecture (COMPDA). One example for this architecture is applied in DC-DC 48V to 12V data center circuit shown here. COMPDA has many good features, such as voltage clamping for all devices, low total device stress under wide range ratio. It also has good modular characteristics. Each device has the same voltage and current stress. The principle operation is that all modular cells are connected in-series to share input high voltage and in-parallel to pump output high current, which can easily achieve ultra-high power density and high efficiency. Zero current switching (ZCS) can be applied in the proposed converter. A 4X unregulated DC-DC COMPDA with ZCS is studied for data center application. Finally, a GaN based prototype is built and tested to verify the theoretical analysis. The proposed converter can achieve the peak efficiency at 98.55% under ultra-high switching frequency 253 kHz. Furthermore, another GaN based high-density 6X boost COMPDA based prototype is also presented here. The peak efficiency can achieve 98.9% at 4kW power rating.
Important Date
  • Conference Date

    May 17

    2018

    to

    May 19

    2018

  • Dec 08 2017

    Abstract Submission Deadline

  • Jan 30 2018

    Abstract Notification of Acceptance

  • Feb 10 2018

    Draft paper submission deadline

  • Feb 10 2018

    Final Paper Deadline

  • May 19 2018

    Registration deadline

Sponsored By
IEEE
Organized By
Xi'an Jiaotong University
Xidian University
Contact Information