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Phase Feedforward Control For Single-Phase Boost-Type SMR
|
Hung-Chi Chen
---
Chih-Kai Huang
|
ECE
---
NCTU
|
D1.1
|
|
High Efficiency 100 W Quasi-Resonant Multi-Phases
|
Bogdan T. Bucheru
Ionel Dan Jitaru
|
Delta Energy Systems (Arizona)
|
D1.2
|
|
Research on AC Chopper Power Module with Module Parallel Control
|
Zhang Jie
Zou Yunping
|
Huazhong University of Sci & Tech
|
D1.3
|
|
An Improved McMurry Snubber for Three-level NPC IGBT Converter
|
Tianyuan Tan
---
Ke Jiang
|
Tsinghua University
---
Sifang-Qingneng Electronic Co. Ltd.
|
D1.4
|
|
A Current-Sensorless Digital Controller for PFC Based on Kalman Filters
|
Jonathan Kimball
Philip Krein
|
University of Illinois at Urbana-Champaign
|
D1.5
|
|
SOFT SWITCHED AC-LINK BUCK-BOOST CONVERTER
|
Anand Balakrishnan
Hamid Toliyat
---
William Alexander
|
Texas A&M University
---
Ideal Power Converters / Inc.
|
D1.6
|
|
A novel high efficiency Soft-Switched PWM Boost Rectifiers With Low Conduction Losses
|
Weiming Lin
Junlai Huang
JH Wang
|
Fuzhou University
|
D1.7
|
|
A New and Simple Structure of PC Power Supply with Low Cost and High Efficiency to Meet 80 Plus Requirement
|
Shih-An Liang
|
FSP Technology Inc.
|
D1.8
|
|
Research on the Filters in the PWM VSR
|
Wang Cheng-zhi
Zou Yun-ping
Li Fen
Zhang Yun
|
Huazhong University of Science and Technology
|
D1.9
|
|
A Novel AC-DC Converter Un-requiring Inductors for Power Conversion
|
Man-Seop Lee
---
Young-Chang Cho
---
Hyeong-Woo Cha
|
ICU
---
ACE Electrontechnics
---
ChongJu University
|
D1.10
|
|
A design methodology for LLC resonant converters based on inspection of resonant tank currents.
|
Claudio Adragna
Silvio De Simone
Claudio Spini
|
STMicroelectronics
|
D1.11
|
|
Current Limited Supplied, Output Shunt Regulated, Off-Line Switching Power Supply for use with an Ultrasonic Motion Detector
|
Jonathan Williams
Thomas Hartnagel
---
Vadim Konradi
|
Hubbell Building Automation
---
smsc
|
D1.12
|
|
Two Buck Chopper Build-In Single Phase One Stage PFC Converter with Reduced DC Output Voltage Ripple and Its Two Specific Duty Cycle Control Channel
|
KAZUNORI NISHIMURA
|
Hiroshima Institute of Technology
|
D1.13
|
|
Voltage Adjustbale Three-phase Rectifier with Constant Power Flow
|
yufu wang
---
Bingxin wang
|
Powshen LTD.
---
Institute of Semiconductor
|
D1.14
|
|
A Novel Control Strategy for the Three-phase Four-wire Boost PFC Converter Under Unbalanced Supply Voltage Condition
|
Rui Li
Dehong Xu
Ke Ma
|
Institute of Power Electronics, Zhejiang University
|
D1.15
|
|
DCR Current Sensing Technique for PFC Circuits
|
Zheng Luo
Chuanyun Wang
Ming Xu
Pengju Kong
Fred C. Lee
|
Center for Power Electronics Systems, Virginia Polytechnic Institute and State University
|
D1.16
|
|
Stability Performance of Two-stage PFC Converters under Nonlinear-Carrier Control and Average-Current-Mode Control
|
Mohamed Orabi
Reham Haron
---
Mohamed Youssef
|
South Valley University
---
Bombardier Transportation
|
D1.17
|
|
Three-Phase to Three-Phase Three-Level Five-Leg Dc-Link Converter
|
Cursino Jacobina
Isaac Freitas
Edison da Silva
|
DEE-UFCG
|
D1.18
|
|
A Dual-Frame Hybrid Vector-Control of Vector-Modulated VIENNA I Rectifier for Unity Power Factor Operation under Unbalanced Mains Condition
|
Hesameddin MirzaieTeshnizi
Ali Moallem
MohammadReza Zolghadri
|
Sharif University of Technology
|
D1.19
|
|
Asymmetrical Interleaving Strategy for Multi-Channel PFC
|
Chuanyun Wang
Ming Xu
Fred Lee
|
Virginia Tech
|
D1.20
|
|
A Simple DSP Based Control System Design for Three-Phase High Power Factor Boost Rectifier
|
Bunyamin Tamyurek
---
Adil Ceyhan
Erkan Birdane
Firat Keles
|
Eskisehir Osmangazi University
---
Kemsan Electronic
|
D1.21
|
|
Design Tradeoffs in the PWM-VSR with Active Filter Function
|
Ernesto Barcenas
Jaime Arau
---
Victor Cardenas
|
cenidet
---
UASLP
|
D1.22
|
Conference at a Glance 
