Title :
Power architecture design with improved system efficiency, EMI and power density
Author :
Lee, Fred C. ; Wang, Shuo ; Kong, Pengju ; Wang, Chuanyun ; Fu, Dianbo
Author_Institution :
Center for Power Electron. Syst., Virginia Polytech. Inst. & State Univ., Blacksburg, VA
Abstract :
The optimized design of power architecture is discussed in this paper. The paper first discusses the asymmetrical interleaved multi-channel PFC technique and its benefits to system power density and the reduction of differential mode noise. A balance technique is then proposed to minimize the common mode noise of asymmetrical interleaved multi-channel PFC. Greatly reduced EMI leads to the size reduction of EMI filters. System power density is therefore improved. For DC/DC stage, a 1 MHz, LLC resonant converter with novel synchronous rectifier is proposed to reduce body diode conduction time. Both conduction loss and reverse recovery loss can be reduced. The whole system´s efficiency, EMI and power density can be greatly improved by applying the techniques proposed in this paper.
Keywords :
distributed power generation; electromagnetic interference; filtering theory; power factor correction; rectifiers; resonant power convertors; EMI filters; LLC resonant converter; asymmetrical interleaved multihannel PFC technique; differential mode noise; power architecture design; power density; power factor correction; synchronous rectifier; Circuit noise; Electromagnetic interference; Filters; Interleaved codes; Noise figure; Noise reduction; Power electronics; Rectifiers; Resonance; Switching frequency;
Conference_Titel :
Power Electronics Specialists Conference, 2008. PESC 2008. IEEE
Conference_Location :
Rhodes
Print_ISBN :
978-1-4244-1667-7
Electronic_ISBN :
0275-9306
DOI :
10.1109/PESC.2008.4592602
