Dialogue Sessions

Thursday, March 10, 11:30 AM – 2:00 PM

Austin Grand Ballroom

Dialogue Session papers have been selected through the same rigorous peer review process as papers in the Presentation Sessions. They are represented by papers in the APEC Proceedings. These papers were selected for a dialogue presentation by the APEC Program Committee because while they are of the same high quality as the orally presented papers, they are generally narrower in scope or more specialized than papers in the oral presentation sessions. In the Dialogue Sessions you will have the opportunity to talk at length with the authors about their work, something that is not possible in the oral presentation sessions.

To make it as easy as possible for you to see as many of the dialogue papers as possible, box lunches will be distributed from 11:30 AM to 12:30 PM to those attending the Dialogue Sessions.

Dialogue Sessions At A Glance

Dialogue Sessions

Session D1: DC-DC Conversion & Control

D1.1 A Novel Soft Switching Isolated Boost Converter

S. Xie, F. Li; Nanjing University of Aeronautica & Astronautics, Nanjing, CHINA

D1.2 A Novel Self-Powered, Isolated Power Management Device for 48 V Power Systems

D. Cooper, R. Duvnjak; Potentia Semiconductor Corporation, Ottawa, CANADA

D1.3 Unified Analog and Digital Models for Half-Bridge DC-DC Converter with Current-Doubler Rectifier

L. Yao, J. A. Abu-Qahouq, I. Batarseh; University of Central Florida (UCF), Orlando, FL

D1.4 Power Losses and Efficiency Analysis of Multilevel DC-DC Converters

Z. Pan, F. Zhang, F.Z Peng; Michigan State University, East Lansing, MI

Session D2: VRM & POL Non-Isolated DC-DC Converters

D2.1 High Current DC-DC Converter with SMT Components

O. Garcia, P. Zumel, A. de Castro, J.A. Cobos; Universidad Politecnica de Madrid, SPAIN

D2.2 Effect and Utilization of Common Source Inductance in Synchronous Rectification

B. Yang, Z. Jason; International Rectifier, Irvine, CA

D2.3 An Area-Efficient Digital Pulsewidth Modulation Architecture Suitable for FPGA Implementation

R. F. Foley, R. C. Kavanagh, W. P. Marnane, M. G. Egan; University College Cork, IRELAND

D2.4 Power Junction FETs (JFETs) for Very Low-Voltage Applications

D. Chang¹, M. Lee², D. Chen², V. Liva¹; ¹Lovoltech Inc., Santa Clara, CA, ²National Taiwan University, Taipei City, TAIWAN

D2.5 Modeling of Unbalanced Multiphase Buck Converters with Applications to Voltage Regulator Module Control

J.T. Mossoba, P.T. Krein; University of Illinois at Urbana-Champaign, Urbana, IL

D2.6 VR Transient Improvement at High Slew Rate Current Load-Active Transient Voltage Compensator

X. Wang, I. Batarseh, S. Xiao, A. Jaber; University of Central Florida, Orlando, FL

D2.7 Fast Transient Three-Level Converters with Sliding-Mode Control

Z.B. Hu¹, B. Zhang¹, G.P. Du^3,4, L. Zhong², W H Deng¹; ¹South China University of Technology, Guangzhou, CHINA, ²Astec Electronics Company Ltd, Shenzhen, CHINA, ³Guangzhou Electric Apparatus Research Institute, Guangzhou, CHINA, ⁴Foshan University, Foshan, CHINA

D2.8 Multi-Phase 48 Volt Conversion for Low Noise Applications in an Instrument Grade Power Supply

T. Emmons; Teradyne Corporation, Fridley, MN

D2.9 Design and IC Implementation of an Ultra-Low-Ripple Switched-Capacitor-Based Buck DC-DC Converter

J. Han, A. von Jouanne, G. C. Temes; Oregon State University, Corvallis, OR

D2.10 A New Simple Current-Compensation Circuit System for POL

K. Itoh¹, Y. Ishizuka¹, H. Matsuo¹, M. Ueno^1,2; ¹Nagasaki University, Nagasaki, JAPAN, ²Sanken Electric Co., Ltd., Saitama, JAPAN

D2.11 A Generic Algorithm for Global Steady-State Characterization of POL Converters

M. Plesnik¹, M.S. Nakhla²; ¹Nortel Networks, Nepean, CANADA, ²Carleton University, Ottawa, CANADA

D2.12 Microprocessor Platform Impedance Characterization using VTT Tools

S. Chickamenahalli¹, K. Aygun¹, M. J. Hill¹, K. Radhakrishnan¹, K. Eilert¹, E. Stanford²; ¹Intel Corporation, Chandler, AZ, ²Intel Corporation, Dupont, WA

Session D3: Isolated DC-DC Power Conversion

D3.1 Analysis and Design of Switched Capacitor Converters

J.W. Kimball, P.T. Krein; University of Illinois at Urbana-Champaign, IL

D3.2 A High Efficiency Gate-Driver Scheme of Synchronous Rectifiers for Magamp Regulation Applications

W. Lin^1,2, K. Rinne¹, Z. Lu², G. Hua³; ¹University of Limerick, IRELAND, ²Fuzhou University, Fuzhou, CHINA

D3.3 A Simple Structure of LLC Resonant DC-DC Converter for Multi-Output Applications

Y.L. Gu, L.J. Hang, H.M. Chen, Z.Y. Lu, Z.M. Qian, J. Li; Zhejiang University, Hangzhou, CHINA

D3.4 Method to Improve Total Dose Radiation Hardness in a CMOS DC-DC Boost Converter

H.D. Pan¹, H.L. Hess¹, K.M. Buck¹, B.M. Wilamowski², M.M. Mojarradi³; ¹University of Idaho, Moscow, ID, ²Auburn University, Auburn, AL, ³California Institute of Technology, Pasadena, CA

D3.5 High-Efficiency Series-Parallel Resonant Converter for the Non-Contact Power Supply

Y.S Kong, E.S Kim, I.G Hwang, H.K Lee; Jeonju University, Jeonju, KOREA

D3.6 Discrete Model of DCS-Controlled Half-Bridge DC-DC Converter with Current-Doubler for Digital Controller Design

E. Shoubaki, J.A. Abu Qahouq, I. Batarseh; University of Central Florida (UCF), Orlando, FL

D3.7 Design and Implementation of Simple Fuzzy Logic Controller (SFLC) for the Voltage Control of Resonant Converter

S. Arulselvi, G. Uma, L. Hema chandiran, V. and Saminath; Annauniversity, Chennai, INDIA

D3.8 A Simple Configured Reducing Noise Peak DC-DC Converter Introducing Delta-Sigma Modulation Circuit

A. Hirota¹, S. Nagai², M. Nakaoka^1,3; ¹Kyungnam University, Masan, KOREA, ²Tsuyama National College of Technology, Tsuyama, JAPAN, ³Yamaguchi University, Ube, JAPAN

D3.9 A Driving Strategy Dedicated to S.R.: The Theory of Waveform Modification with Periodical Driving Circuit Regulation

Y.L. Gu¹, Y. Du¹, Z.Y. Lu¹, Z.M. Qian¹, G.S. Huang², W.X. Yao¹; ¹Zhejiang University, Hangzhou, CHINA, ²Delta Power Electronics Center, Shanghai, CHINA

D3.10 Unified Steady-State and Dynamic Modeling for Symmetric and Asymmetric Half-Bridge DC-DC Converters with Current Doubler Rectifiers (CDRs)

Y. Wen¹, S. Deng¹, H. Mao², I. Batarseh¹; ¹University of Central Florida, Orlando, FL, ²Astec Power Advanced Technology, Andover, MA

D3.11 DC Bias and Small-Signal Characteristic of Active-Clamp Flyback-Forward DC-DC Converter with a Current Doubler Rectifier

Y. Wen¹, H. Mao², I. Batarseh¹; ¹University of Central Florida, Orlando, FL, ²ASTEC Power Advanced Technology, Andover, MA

D3.12 Investigation of Candidate Topologies for Brick DC-DC

Y.L. Gu, H.M. Chen, Z.Y. Lu, Z.M. Qian, K. Wei; Zhejiang University, Hangzhou, CHINA

Session D4: Other DC-DC Power Conversion

D4.1 A Novel Full-Bridge DC-DC Converter using Energy-Recovery Driving Circuit with Regenerative Transformer

D.Y Lee¹, W.S. Kim², B.H. Cho²; ¹Samsung SDI, Cheonan, KOREA, ²Seoul National Univ., Seoul, KOREA

D4.2 Next Generation High Efficiency High Power DC-DC Converter Incorporating Active Switch and Snubbing Capacitor Assisted Full-Bridge Soft-Switching PWM Inverter with High Frequency Transformer for Large Current Output

K. Morimoto¹, T. Doi¹, H. Manabe¹, M. Nakaoka³, T. Ahmed², E. Hiraki², N.A. Ahmed³, H.W. Lee³; ¹DAIHEN Corporation, Osaka, JAPAN, ²Yamaguchi University, Yamaguchi, JAPAN, ³Kyungnam University, Masan, KOREA

D4.3 A Family of Asymmetrical Dual Switch Forward DC-DC Converters

Y.L. Gu, H.M. Chen, Z.Y. Lu, Z.M. Qian, K. Wei; Zhejiang University, Hangzhou, CHINA

D4.4 Inherently Safe DC-DC Converter Using a Normally-On SiC JFET

R. Kelley¹, M. Mazzola², W. Draper¹, J. Casady¹; ¹SemiSouth Laboratories, Inc., Starkville, MS, ²Mississippi State University, MS State, MS

D4.5 Efficiency and EMI Comparisons between Prototyped 8 kW Hard and Soft-Switched Buck Choppers

R.W. Ashton¹, J.G. Ciezki²; ¹Naval Postgraduate School, Monterey, CA, ²U.S. Naval Academy, Annapolis, MD

D4.6 An Assessment of Resonant Gate Drive Techniques for use in Modern Low Power DC-DC Converters

P. Dwane, D. O' Sullivan, M. G. Egan; PEI Technologies, UCC, Cork, IRELAND

D4.7 A Single Switch Boost Converter with a High Conversion Ratio

D.M. Van de Sype, K. De Gussemé, A.P. Van den Bossche, B. Renders, J.A. Melkebeek; Ghent University, Gent, BELGIUM

D4.8 Three-Level Buck Converter for Envelope Tracking in RF Power Amplifiers

V. Yousefzadeh¹, D. Maksimovic¹, E. Alarcon²; ¹University of Colorado, Boulder, CO, ²Technical University of Catalunya, Barcelona, SPAIN

D4.9 Proposal of a Switch-mode Power Supply by the Association of an Interleaved Boost-flyback Converter and an Interleaved Forward Topology for Audio Application

C.A. Gallo, J.B. Vieira Jr, L.C. Freitas, V.J. Farias, E.A.A. Coelho, M.T. Galelli, E.A Coelho; Universidade Federal de Uberlandia, Uberlandia, BRAZIL

D4.10 Transient Current Suppression Scheme for Bi-Directional DC-DC Converters in 42 V Automotive Power Systems

C.G. Yoo^1,2, W.C. Lee¹, K.C. Lee², B.H. Cho³; ¹Hankyong National University, Kyonggi-do, KOREA, ²Interpower Co., Ltd., Seoul, KOREA, ³Seoul National University, Seoul, KOREA

D4.11 Current-Fed Phase Shift Controlled Full Bridge ZCS DC-DC Converter with Reverse Block IGBT

X. Zhu¹, D. Xu¹, H. Umida², K. Mino²; ¹Zhejiang University, Hangzhou, CHINA, ²Fuji Electric Advanced Technology Co., Ltd., Tokyo, JAPAN

D4.12 Simple Zero Voltage Switching (ZVS) Full-Bridge DC Bus Converters

W. Fan, G. Stojcic; International Rectifier, El Segundo, CA

Session D5: AC-DC Power Conversion I

D5.1 A Boost PFC Converter with Programmable Harmonic Resistance

K. De Gussemé¹, W.R. Ryckaert¹, D.M. Van de Sype¹, J.A. Ghijselen², J.A. Melkebeek¹; ¹Ghent University, Gent, BELGIUM, ²Inverto N.V., Evergem, BELGIUM

D5.2 A Novel Control Strategy of Post Buck Converters Cascading LLC-SRC

H. Gan; Delta Electronics Co., Ltd, Shanghai, CHINA

D5.3 A Novel Single stage AC-DC Self-oscillating Series-Parallel Resonant Converter

M Youssef¹, H Pinheiro², P Jain¹, M Orabi³; ¹Queen's University, Kingston, CANADA, ²Santa Maria University, Santa Maria, BRAZIL, ³South Valley University, Aswan, EGYPT

D5.4 Digital Current Control of a Voltage Source Converter with Active Damping of LCL Resonance

E. Wu, P.W. Lehn; University of Toronto, CANADA

D5.5 Current Equalizing for a Multi-Modular Current Source Converter

J. Li¹, D.H. Xu¹, K.W.E. Cheng²; ¹Zhejiang University, Hangzhou, CHINA, ²The Hong Kong Polytechnic University, Kowloon, HONG KONG

D5.6 A Novel Charge Pump High Power Factor AC-AC Converter

Y. Xie, Y. Fang; Yangzhou University, Yangzhou, CHINA

D5.7 Optimum Controller Design for a Multilevel AC-DC Converter System

O. Aydin¹, A. Akdag², P Stefanutti³, N Hugo³; ¹State University of New York at Binghamton, NY, ²ABB Switzerland Ltd., Baden, SWITZERLAND, ³ABB Secheron SA., Geneva, SWITZERLAND

D5.8 A Unity Power Factor Converter Using the Synchronous Reference Frame Based Hysteresis Current Control

A.I. Maswood, F.R. Liu; Nanyang Technological University, SINGAPORE

D5.9 Shunt Active Power Filter Implementation for Induction Heating Applications

R. Bojoi¹, G. Griva¹, F. Profumo¹, M. Cesano², L. Natale²; ¹Politecnico di Torino, ITALY, ²SAET S.p.A., Leini, ITALY

D5.10 The Operation of the Vector Modulated and Vector Controlled VIENNA I Rectifier Under Distorted and Unbalanced Mains Voltages.

T. Viitanen, H. Tuusa; Tampere University of Technology, Tampere, FINLAND

Session D6: AC-DC Power Conversion II

D6.1 Parallel Operation of One-Cycle Controlled Three-Phase PFC Rectifiers

Y. Chen, K. Smedley; Univ. of California, Irvine, CA

D6.2 Current Sensorless Control of a Voltage-Source Active Power Filter

M. Routimo, M. Salo, H. Tuusa; Tampere University of Technology, Tampere, FINLAND

D6.3 Resistive Load Synthesis in Three-Phase Four-Wire Systems Using a Parallel Active Power Filter

C.A. Busada¹, H.G. Chiacchiarini^1,3, J.C. Balda²; ¹Universidad Nacional del Sur, Bahía Blanca, ARGENTINA, ²University of Arkansas, Fayetteville, AR, ³CONICET, Bahía Blanca, ARGENTINA

D6.4 Hybrid Control Method for a Single Phase PFC Using a Low Cost Microcontroller

L.T. Jakobsen¹, N. Nielsen¹, C. Wolf², M.A.E. Andersen¹; ¹Technical University of Denmark, Kgs. Lyngby, DENMARK, ²Grundfos A/S, Bjerringbro, DENMARK

D6.5 Feedforward Current Control of Boost-Derived Single-Phase PFC Converters

P.T. Prathapan, M. Chen, J. Sun; Rensselaer Polytechnic Institute, Troy, NY

D6.6 Power Factor Correction with a Partial Power Processing Converter

A. Fernandez, J. Sebastian, M.M. Hernando, D.G. Lamar; Universidad de Oviedo, Gijon, SPAIN

D6.7 A Unity Power Factor Single-Phase Three-Level Rectifier Associated with a Passive Nondissipative Snubber

F.L. Tofoli, D.S. Oliveira Jr.¹, J.B. Vieira Jr., M.T. Galelli, L.C. Freitas, V.J. Farias, E.A.A. Coelho, C.A. Gallo; Federal University of Uberlandia, BRAZIL, ²Federal University of Ceara, Fortaleza, BRAZIL

D6.8 Proposal of a Timer Controller with Constant Switching Frequency and Power Factor Correction

M.T. Galelli, M.S. Vilela, L.C. Freitas, J.B. Vieira, V.J. Farias; Federal University of Uberlândia, BRAZIL

D6.9 Proposal of a Hysteresis Controller with Constant Switching Frequency

M.T. Galelli, M.S. Vilela, L.C. Freitas, J.B. Vieira, V.J. Farias; Federal University of Uberlandia, BRAZIL

Session D7: Lighting Systems & Ballasts

D7.1 Modeling of CCFL using Lamp Delay and Stability Analysis of Backlight Inverter for Large Size LCD TV

C. G. Kim¹, K. C. Lee¹, B. H. Cho²; ¹Interpower Co. Ltd., Seoul, KOREA, ²Seoul National University, Seoul, KOREA

D7.2 A Single-Stage Dimmable Electronic Ballast with High Power Factor

L.-W. Lin¹, H.-M. Huang¹, H.-J. Chiu¹, S.-C. Mou²; ¹Chung-Yuan Christian University, Chung-Li, TAIWAN, ²Ching-Yun University, Chung-Li, TAIWAN

D7.3 Design Orientated Model and Application of Electronic Ballasts for Two Toroidal Ferrite Coupled Electrodeless Lamps

X.H. Cao; Zhejiang University, Hangzhou, CHINA

Session D8: AC-Output Converter Modeling, Analysis & Control

D8.1 Statistical Modeling of DSP-based Hill-Climbing MPPT Algorithms in Noisy Environments

H. Al-Atrash¹, K. Rustom², I. Batarseh¹; ¹University of Central Florida, Orlando, FL, ²Advanced Power Electronics Corporation, Orlando, FL

D8.2 Experiment and Research on Control Strategy for a New-Type Three-Phase Solid-State Current Limiter

Z. Zhao, Z. Lu, W. Yao; Zhejiang University, Hangzhou, CHINA

D8.3 Sensorless Operation of a PWM Rectifier with En-Gen Set as a Distributed Generation

J.H. Kim, H. Yoo, S.K. Sul; Seoul National University, Seoul, KOREA

D8.4 A Novel Safe Shutdown Strategy for Matrix Converter Even Under Fault Condition

L.N. Wang, F.Y. Xv, K. Sun, L.P. Huang; Tsinghua University, Beijing, CHINA

D8.5 Emulation of Output Characteristics of Rotor Blades Using a Hardware-In-Loop Wind Turbine Simulator

S. Song¹, B. Jeong¹, H. Lee¹, J. Kim¹, J. Oh², G. Venkataramanan³; ¹Chonbuk National University, Jeonju, KOREA, ²LG Industrial Systems, Anyang, KOREA, ³University of Wisconsin, Madison, WI

D8.6 A Novel, Digitally-Controlled, Portable Photovoltaic Power Source

Z. Jiang, R. Dougal; University of South Carolina, Columbia, SC

Session D9: Power Quality

D9.1 Reduction of the Voltage Distortion with a Converter Employed as Shunt Harmonic Impedance

W.R. Ryckaert¹, K. De Gussemé¹, D.M. Van de Sype¹, J.A. Ghijselen², J.A. Melkebeek¹; ¹Ghent University, Gent, BELGIUM, ²Inverto N.V., Evergem, BELGIUM

D9.2 Application of Thyristor in Auto-tuning Arc Suppression Coils

Y. Liu¹, C. Fu²; ¹Wuhan University, Wuhan, CHINA, ²Zhejiang University, Hangzhou, CHINA

D9.3 Delayless Harmonic Detection Based on DSP with High-Accuracy for Active Power Filter

Z. Chen, D.H. Xu; Zhejiang University, Hangzhou, CHINA

D9.4 A Reconfigurable Uninterruptible Power Supply System for Multiple Power Quality Applications

C.-C. Yeh¹, M.D. Manjrekar²; ¹Marquette University, Milwaukee, WI, ²Eaton Corporation, Milwaukee, WI

D9.5 Self-Excited Induction Generator with Regulated DC Voltage Scheme for Wind Power Applications

T. Ahmed¹, K. Nishida¹, O. Noro², M. Nakaoka¹; ¹Yamaguchi University, Yamaguchi , JAPAN, ²Kawasaki Heavy Industry, Co. Ltd., Hyogo, JAPAN

D9.6 A UPFC-Based Voltage Compensator with Current and Voltage Balancing Function

Y.I. Ikeda, T.K. Kataoka; Tokyo Denki University, Tokyo, JAPAN

D9.7 Exact Harmonics Elimination in PWM Multi-Module Converters

J. Ghaisari¹, A. Bakhshai²; ¹Isfahan University of Technology, Isfahan, IRAN, ²Queens University, Kingston, CANADA

D9.8 The Analysis of the Power Loss in a Zero-Voltage Switching Two-Inductor Boost Cell Operating under Different Circuit Parameters

Q. Li, P.J. Wolfs; Central Queensland University, Rockhampton, AUSTRALIA

D9.9 Development of a Scaled STATCOM Prototype Based on 21-Level Cascade H-Bridge Inverter

Q. Song¹, W.H. Liu¹, Z.C. Yuan¹, W.H. Wei¹, L.T. Teng²; ¹Tsinghua University, Beijing, CHINA, ²Shanghai Electric Power Company, Shanghai, CHINA

D9.10 Influence of Deep Bar Effect on Induction Machine Modeling with Gamma-Controlled Soft Starters

K.L. Lee¹, W.E.B. Berkopec¹, T.M.J. Jahns², T.A.L. Lipo²; ¹Eaton Corporation, Milwaukee, WI, ²University of Wisconsin, Madison, WI

Session D10: Motor Drives & Controls

D10.1 A Novel Method for Dead-Time Compensation Based on SVPWM

Q. Hu, H. Hu, Z. Lu, W.Yao; Zhejiang University, Hangzhou, CHINA

D10.2 A New PWM Method for Common Mode Voltage Reduction in Inverter Fed Motor Drive

L.-H. Kim², N.-K. Hahm¹, C.-Y. Won², K.-H. Han¹, Y.-R. Kim³; ¹Myong-ji University, Seoul, KOREA, ²Sung-Kyun-Kwan University, Seoul, KOREA, ³An-Yang University, Seoul, KOREA

D10.3 AC Drive System on Chip - A Peripheral Based Approach

R. Dubey, P. Agarwal, M.K. Vasantha; IIT Roorkee, Roorkee, INDIA

D10.4 Design and Testing of a Modular Permanent Magnet Brushless Linear Drive

K. Patel¹, S. D'Arco², A. Monti¹, D. Patterson^1,3, R. Dougal¹; ¹University Of South Carolina, Columbia, SC, ²University Of Naples Federico II, Napoli, ITALY, ³University of Nebraska, Lincoln, NE

D10.5 On-line Self-tuning of PI Controller for PMSM Drives Based on the Iterative Learning Control

M. Yang, Y. Gao, D.G. Xu, Y. Yu; Harbin Institute of Technology, Harbin, CHINA

D10.6 B4 Topology Options for Operating Three Phase Induction Machines on Single Phase Grids

T.B. Bashaw, T.A. Lipo; UW Madison, Madison, WI

D10.7 New Design Concept of an FPGA-Based Chip with Considerations of Flexible Functions Applying Sliding Mode Control Strategy for Permanent Magnet Synchronous Motor Drives

C.-H. Fang¹, W.-N. Huang^1,2, C.-H. Chen¹, J.-K. Chen¹, H.-Y. Chang²; ¹Industrial Technology Research Institute, Hsin-Chu, TAIWAN, ²National Chiao-Tung University, Hsin-Chu, TAIWAN

Session D11: Electrical Components

D11.1 Power PiN Diode Model for PSPICE Simulations

G.M. Buiatti, F. Cappelluti, G. Ghione; Politecnico di Torino, Turin, ITALY

D11.2 Study on Reverse Recovery Characteristics in Reverse-Blocking IGBT Applied in Matrix Converters

S. Jia, K.J. Tseng, X. Wang; Nanyang Technological University, SINGAPORE

D11.3 Coupled Inductor Design with Small Voltage Spike of SEPIC Converter

W.H. Deng¹, B. Zhang², G.P. Du^3,4, Z.B. Hu¹; ¹South China University of Technology, GuangZhou, CHINA, ²South China University of Technology, GuangZhou, CHINA, ³Fo Shan University , FoShan , CHINA, ⁴Guang Zhou Electric Apparatus Research, GuangZhou, CHINA

D11.4 Finite Element Simulation of a Universal Contactless Battery Charging Platform

X. Liu, P.W. Chan, S.Y.R. Hui; City University of Hong Kong, CHINA

D11.5 Modeling Ceramic and Tantalum Capacitors with New Model Structures and Parameter Extraction Methods

J. Lu, N. L. Ou; International Rectifier Corporation, Santa Clara, CA

D11.6 The Optimization of Transformers with Air Gapped Toroids

A. Stadler, M. Albach, D. Kübrich; Friedrich-Alexander-University Erlangen-Nuremberg, GERMANY

D11.7 A Very Simple Analytical Approach of Thermal Modeling for Magnetic Components

L.M. Escribano¹, P. Zumel², R. Prieto¹, J.A. Oliver¹, J.A. Cobos¹; ¹Universidad Politecnica de Madrid, SPAIN, ²Universidad Carlos III de Madrid, SPAIN

Session D12: Control, EMI & Simulation

D12.1 Using Spectrograms in EMI-analysis - An Overview

M. Kuisma, P. Silventoinen; Lappeenranta University of Technology, Lappeenranta, FINLAND

D12.2 Power Supply Quality Analysis in a Twelve-Pulse LCI Drive System Under Compensated Fault-Mode Operation

A.N. Alcaso¹, A.J.M. Cardoso²; ¹Polythecnic Institute of Guarda, PORTUGAL, ²University of Coimbra, Coimbra, PORTUGAL

D12.3 Auto-tuning Self-compatibility of Power Converters

G Tomasso, C Attaianese; University of Cassino, ITALY

D12.4 Control of Dc-Dc Converters by Direct Pole Placement and Adaptive Feedforward Gain Adjustment

A. Kelly¹, K. Rinne²; ¹Analog Devices, Limerick, IRELAND, ²University of Limerick, IRELAND

D12.5 Synergetic Control for Ultracapacitor Based High Dynamic Converters

L. Solero, A. Lidozzi, F. Crescimbini, A. Di Napoli; University ROMA TRE - DIMI, Roma, ITALY

D12.6 FPGA-Based Control of Power Converter: Comparing Alternative Solutions

J.L. Bastos, L.M. Farronato, H.P. Figueroa, D. Franzoni, S. Lentijo, A. Monti, A. Smith, W. Xin; University of South Carolina, Columbia, SC

D12.7 A Behavioral SPICE Compatible Model of a Self-Oscillating Converter

S. Ben-Yaakov, I. Fridman; Ben-Gurion University, Beer-Sheva, ISRAEL

D12.8 A New Method to Measure the Switched Reluctance Motor's Flux

J.H. Zhang, A.V. Radun; University of Kentucky, Lexington, KY

D12.9 Fuzzy Logic Peak Current-Mode Control for DC-DC Converters Using an Inexpensive 8-Bit Microcontroller

D. He, R.M. Nelms; Auburn University, Auburn, AL

Session D13: Physical Design, Packaging, and Other Power Electronics

D13.1 Development of Current-Scalable Emitter Turn-Off (ETO) Thyristor Module

A.P. Schmit¹, B. Chen², B. Zhang², Q. Huang²; ¹Virginia Polytechnic and State University, Blacksburg, VA, ²North Caroline State University, Raleigh, NC

D13.2 A Novel Packaging Methodology for Spray Cooling of Power Semiconductor Devices Using Dielectric Liquids

K. Vanam, J. Junghans, F. Barlow, R.P. Selvam, J.C. Balda, A. Elshabini; University of Arkansas, Fayetteville, AR

D13.3 Modeling and Analysis of Thermoelectric Modules

S. Lineykin, S. Ben-Yaakov; Ben-Gurion University of the Negev, Beer-Sheva, ISRAEL

D13.4 Inductive Powering of Sensor Modules

T. O'Donnell¹, O. Chevalerias¹, G. Grant¹, S. O'Mathuna¹, N. O'Donnovan², D. Power²; ¹NMRC, Cork, IRELAND, ²University College Cork, IRELAND

D13.5 Application of Press-Pack IGBTs in Traction Refurbishment

A. Golland, F J. Wakeman; Westcode Semiconductors Ltd, Chippenham, UK

D13.6 Study of Maximum Linear Generator Output Power for Maglev Emergency Power Supply

M. Chen¹, D. Zhou¹, D. Xu¹, X. Wu²; ¹College of Electrical Engineering, Hangzhou, CHINA, ²Dept. of Science Technology, Shanghai, CHINA