PESC'97, "28TH IEEE POWER ELECTRONICS SPECIALISTS CONFERENCE", June 22-27, 1997.
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Titre : PESC'97, 28TH IEEE POWER ELECTRONICS SPECIALISTS CONFERENCE, June 22-27, 1997.
Cité dans : [DIV003] Liste des actes de congrès par années, février 2003.
Cité dans : [CONF012] PESC, Power Electronics Specialists Conference, PELS Society, juin 2007.
Vers : TECHNICAL PROGRAM
Vers : Articles
Date : JUNE 22 THROUGH JUNE 27, 1997
Lieu : REGAL RIVERFRONT HOTEL ST. LOUIS, MISSOURI, USA
Sponsored : The IEEE Power Electronics Society
Cooperation : The University of Illinois at Urbana-Champaign St. Louis Section, IEEE
Info : Dr. Philip T. Krein - University of Illinois - 1406 W. Green St. - Urbana, IL 61801/USA.
Tel : +1-217-333-4732
Lien : mailto:krein@uipesl.ece.uiuc.edu
Site : http://www.pels.org/comm/meetings/conference/pesc/pesc97/PESC97.html
Lien : PESC/PESC1997/PESC97.html - le 15 mars 2003.
[1] : [99ART123] J.W. KOLAR, H. SREE, N. MOHAN, F.C. ZACH, Novel aspects of an application of 'zero'-ripple techniques to basic converter topologies, PESC'97.
[2] : [PAP233] F. TOURKHANI, P. VIAROUGE, T.A. MEYNARD, Power Converter Steady-State Computation Using the Projected Lagrangian Method, PESC'97.
Vers : TUTORIAL_SESSIONS
Vers : RAP SESSIONS
Vers : TECHNICAL SESSIONS
Vers : SESSION 1 : PLENARY
Vers : SESSION 2 : ELECTRONIC BALLASTS
Vers : SESSION 3 : SINGLE-PHASE POWER FACTOR CORRECTION-I
Vers : SESSION 4 : POWER SEMICONDUCTOR DEVICES, MODELING AND GATE DRIVE
Vers : SESSION 5 : CONTROL OF DC-DC CONVERTERS
Vers : SESSION 6 : DC-DC CONVERTERS-I
Vers : SESSION 7 : UNINTERUPTIBLE POWER SYSTEMS-DESIGN AND APPLICATIONS
Vers : SESSION 8 : UTILITY APPLICATIONS
Vers : SESSION 9 : POWER FACTOR CORRECTION
Vers : SESSION 10 : MODELING OF DC-DC CONVERTERS
Vers : SESSION 11 : RECTIFIERS
Vers : SESSION 12 : SINGLE-PHASE POWER FACTOR CORRECTION-II
Vers : SESSION 13 : CONVERTERS FOR MOTOR DRIVES
Vers : SESSION 14 : ANALYSIS AND MODELING OF MAGNETIC EFFECTS
Vers : SESSION 15 : ADVANCED CONTROL METHODS
Vers : SESSION 16 : SPECIAL APPLICATIONS
Vers : SESSION 17 : DC-DC CONVERTERS-II
Vers : SESSION 18 : HIGH POWER CIRCUITS
Vers : SESSION 19 : PERMANENT MAGNET AND SWITCHED RELUCTANCE DRIVES
Vers : SESSION 20 : SYSTEM MODELING AND ANALYSIS
Vers : SESSION 21 : DC-DC CONVERTERS-III
Vers : SESSION 22 : INVERTERS
Vers : SESSION 23 : CONTROL OF INDUCTION MOTOR DRIVES
Vers : SESSION 24 : THREE-PHASE ACTIVE POWER FILTERS
Vers : SESSION 25 : MAGNETIC DEVICES AND DESIGN
Vers : SESSION 26 : DC-DC CONVERTERS-IV
Vers : SESSION 27 : SOFT SWITCHING-I
Vers : SESSION 28 : MOTOR DRIVE APPLICATIONS AND CONTROL
Vers : SESSION 29 : CONVERTER ANALYSIS
Vers : SESSION 30 : DC-DC CONVERTERS-V
Vers : SESSION 31 : SOFT SWITCHING-II AND PWM
Vers : SESSION 32 : MOTOR CONTROL
Vers : SESSION 33 : ELECTROMAGNETIC COMPATIBILITY (EMC) AND ELECTROMAGNETIC INTERFERENCE (EMI) ISSUES
Sunday, June 22 • Morning • 8:30 a.m.-12:00 p.m.
1) A Structured Approach to Power Line EMI Filter Design
Daniel M. Mitchell
Rockwell International
This tutorial presents detailed design algorithms for proven EMI input filter configurations for switching regulated power supplies. Lagrangian multipliers are used to minimize input filter volume subject to the constraints of (1) compliance with conducted emissions requirements (using switching regulator noise models) and (2) overall filter/regulator system stability/performance goals (using small-signal models).
2) Passive Lossless Snubbers for High Frequency PWM Converters
Sam Ben-Yaakov, Gregory Ivensky
Ben-Gurion University of Negev
This tutorial covers the theoretical aspects of passive lossless snubbers for switches and diodes, covering both "classical" and new snubber topologies. The main focus is on the practical aspects of the design including resonant components and analysis of the limitations that the snubbers impose. A specific design example of a snubber for a 1 kW boost converter operating as an active power factor front-end is discussed in detail and experimental results are presented.
Sunday, June 22 • Afternoon • 2:00 p.m.-5:30 p.m.
3) Advanced Single Stage Power Factor Correction Techniques
Fred C. Lee, Jinrong Qian
Virginia Power Electronics Center
This tutorial will provide an overview of single stage power factor correction techniques. The integrated single stage PFC technique will be discussed. The concept of charge pump PFC techniques, unity power factor conditions for both voltage source and current source charge pump PFC converters will be introduced and discussed. A family of charge pump PFC topologies and experimental results will be presented.
4) High Frequency Magnetics Design
Rudy Severns
Springtime Enterprises
This tutorial provides a review of high frequency effects and the design of magnetic components. At high frequencies the choices of geometry, core material and winding structure are often quite different from low frequency practice. The emphasis of the tutorial is on eddy current effects in windings and the proper design of windings to minimize loss and leakage inductance. Core material choices and core geometry effects will also be discussed. Design options based on Dowell's equations and more advanced techniques, which overcome limitations of Dowell's approach, will be presented.
Tuesday, June 24 • Evening • 7:00 p.m.-9:30 p.m.
1) Repetitive Converter Circuit Reinvention And Its Impact On The Power Electronics Industry
Moderator: R. Severns, Springtime Enterprises, Inc.
Industrial controls and power electronics have been a recognized specialty for 100 years. In that time many circuit ideas have been invented, forgotten and reinvented over and over again. This process has led to a loss of useful ideas for long periods of time and to a great deal of wasted effort in the form of re-engineering and endless and expensive legal bickering. This rap SESSION_will begin by reviewing some of the more egregious examples and then go on to address the questions: Does this really matter? Is it actually a problem? If it is a problem what, if anything, can we do about it. Bring your examples of reinvention and your thoughts on dealing with this problem.
2) Circuit Research is Dead - the Future is in Packaging!
Moderator: J.D. van Wyk, Rand Afrikaans University
Converters eventually have to be manufactured and marketed at an acceptable price. Many of the small improvements and circuit variations introduced as new "features" are neither here nor there when it comes to meeting these two fundamental requirements of industry. The way in which the converter is manufactured to be price competitive largely dictates the way in which it is packaged and many of the circuit refinements may not even be feasible from this viewpoint The panel will examine the future of power converter development from this angle.
3) PELS Town Hall Meeting - Does the Power Electronics Society Deliver Value for Your Membership Dollar?
Moderator: J. L. Hudgins, IEEE PELS President
This RAP SESSION_is to provide an open forum for discussions that relate to the operation and function of the Power Electronics Society. Questions, criticisms, and comments are welcome. The Power Electronics Society exists to serve its members and the profession. We would like to know how we can improve our performance to help you, and in the process of discussion, illuminate procedures and opportunities for greater participation in Society activities.
The rap sessions will be supplemented with hors d'oeuvre and with the well-know local liquid refreshments.
INDUSTRIAL TOURS
Friday, June 27 • Morning • 8:00 a.m.-12:00 p.m.
Emerson Motor Technology Center
Emerson's Motor Technology Center is a $30 million investment in an industry-unique center of excellence that provides Emerson Electric Co. with a strategic and competitive advantage through electrical design and innovation. Opened in 1989, the company's 100th anniversary, this 130,000 square foot facility is the work place for 350 engineers, technicians and support personnel from six motor divisions. Twenty three labs cover all aspects of motor technology, from tribology to sound and vibration. From this state of the art facility in St. Louis, engineers and technicians connect directly to other Emerson advanced engineering centers and with customers worldwide. Advance registration is required, and participation is subject to sponsor approval.
Bussman Gubany Center
Bussmann is a leading manufacturer of circuit protection devices, including conventional fuses, semiconductor-grade fuses, ESD protection, varistors, and a new resettable polymer-based interrupter for telecommunications applications. We will visit the Paul P. Gubany Center for High Power Technology, an advanced proving ground for all types of circuit protection. The Center supports tests up to 300 kA and 640 MVA for fault evaluation. The tour also covers development and production facilities at Bussmann's St. Louis headquarters. This tour is open to all conference participants.
Friday, June 27 • Afternoon • 1:00 p.m.-5:00 p.m.
MetroLink Light Rail Central Facility
The St. Louis MetroLink light rail is an award winning system which began operation in 1993. Using state of the art technology including all electric cars, the system is designed to provide riders with convenient, fast and safe transportation. The initial eighteen mile segment, with 18 stations from Lambert Airport to East St. Louis, was completed and put into operation at a cost $350 million. Ridership exceeds 26,000 every weekday, greatly surpassing initial expectations. The heart of MetroLink is the central services facility which includes power distribution, rectification, control, signaling and car maintenance. This tour is open to all conference participants.
MagneTek Advanced Development Center
for Rotating Machinery
MagneTek is a diversified manufacturer of electrical equipment, including motors, generators, power electronic drive systems, transformers, electronic ballasts, and power supplies. St. Louis is the corporate headquarters for motors and generators, and the center for rotating machinery research, development, design, and applications. Some of the key projects at the Advanced Development Center address R&D and testing activities for sound and vibration, materials, advanced motor applications, and the application of electronic drive systems. Participants will tour the Center and review some of the major projects. Advance registration is required, and participation is subject to sponsor approval.
Monday, June 23, 8:30 am-12:00 pm
Chair: P. T. Krein, University of Illinois, Urbana, IL, USA
Chair: A. Kelley, North Carolina State University, Raleigh, NC, USA
Paper 1.1. Experiments on Series Connected Soft Switched IGBT in View of Applications in High-Power High-Voltage Drives
G. Botto, M. Carpita, E. Gilardi, Ansaldo Ricerche srl, Genova, ITALY, S. Tenconi, Politecnico di Torino, Torino, ITALY
Paper 1.2. Comparison of High-Frequency Application of Silicon Rectifiers, GaAs Rectifier and ZVT Technology in a PFC Boost Converter
X. Zhou, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, M. Elmore, Celestica Corp., Endicott, NY, USA, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 1.3. A Unified Treatment of a Family of ZVS and ZCS Resonant Inverters
Y. L. Lin, A. F. Witulski, University of Arizona, Tucson, AZ, USA
Paper 1.4. Ultra Low Power Control Circuits for PWM Converters
A. Dancy, A. Chandrakasan, Massachusetts Institute of Technology, Cambridge, MA, USA
Paper 1.5. Optimal Choice for Number of Strands in a Litz Wire Transformer Winding
C. R. Sullivan, Dartmouth College, Hanover, NH, USA
Monday, June 23, 2:00 pm-5:30 pm
Chair: P. Jain, Concordia University, Montréal, Quebec, CANADA Chair: J. Arau, Centro Nacional de Investigation y Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO
Paper 2.1. A MHz Electronic Ballast for Automotive-Type HID Lamps
M. Gulko, S. Ben-Yaakov, Ben-Gurion University of the Negev, BeerSheva, ISRAEL
Paper 2.2. Novel Scheme of Ballast for HID Lamps Using Distributed Constant Line
H. Ohguchi, M. H. Ohsato, G. Kimura, T. Shimizu, Tokyo Metropolitan University, Tokyo, JAPAN, H. Takagi, Kandenko Corporation, Tokyo, JAPAN
Paper 2.3. A Unity Power Factor Electronic Ballast for Fluorescent Lamp Having Improved Valley Fill and Valley Boost Converter
Y. Youn, G. H. Cho, Korea Advanced Institute of Science and Technology, Taejon, SOUTH KOREA
Paper 2.4. Multi-Resonant Boost High Power Factor Electronic Ballast for Compact Fluorescent Lamps
M. H. Kheraluwala, S. A. El-Hamamsy, D. J. Kachmarik, General Electric Company, Schenectady, NY, USA
Paper 2.5. Current Source Charge Pump High Power Factor Electronic Ballast
J. Qian, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, T. Yamauchi, Matsushita Electric Works, Ltd., Woburn, MA, USA
Paper 2.6. Charge Pump High Power Factor Dimming Electronic Ballast
J. Qian, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, T. Yamauchi, Matsushita Electric Works, Ltd., Woburn, MA, USA
Paper 2.7. High Power Factor Electronic Ballast with Constant Dc Link Voltage
R. O. Brioschi, J. L. F. Vierra, Universidade Federal do Espírito Santo, Vitória, Espírito Santo, BRAZIL
Monday, June 23, 2:00 pm-5:30 pm
Chair: L. Huber, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Chair: R. L. Steigerwald, General Electric Company, Schenectady, NY, USA
Paper 3.1. Average Current Mode Control of Two-Input Buck Post-Regulators Used in Power Factor Correctors
P. J. Villegas, J. Sebastian, M. M. Hernando, F. Nuño, Universidad de Oviedo, Gijón, SPAIN
Paper 3.2. Analysis and Application of a New Control Method for Continuous-Mode Boost Converters in Power Factor Correction Circuits
I. Merfert, Otto-von-Guericke-Universitaet - Magdeburg, Magdeburg, Sachsen-Anhalt, GERMANY
Paper 3.3. Simple Digital Control Improving Dynamic Performance of Power Factor Preregulators
S. Buso, P. Mattavelli, L. Rossetto, G. Spiazzi, University of Padova, Padova, ITALY
Paper 3.4. A Novel Single-Phase ZCS-PWM High Power Factor Boost Rectifier
C. A. Canesin, Paulista State University, Ilha Solteira, SP, BRAZIL, I. Barbi, Federal University of Santa Catarina, Florianópolis, Santa Catarina, BRAZIL
Paper 3.5. A Novel Single-Phase Active-Clamped PFC Converter
D. M. Xu, L. Ma, J. Zhou, Z. Qian, Zhejiang University, Hangzhou, Zhejiang, P.R. CHINA
Paper 3.6. A Power Factor Correction Preregulator Ac-Dc Interleaved Boost with Soft-Commutation
J. A. C. Sousa, A. A. Pereira, L. C. de Freitas, V. J. Farias, J. B. Vieira, Jr., Universidade Federal de Uberlândia, Uberlândia, Minas Gerais, BRAZIL
Paper 3.7. A Direct Ac-Dc Converter for Battery Chargers
G. Venkataramanan, Montana State University, Bozeman, MT, USA
Monday, June 23, 2:00 pm-5:30 pm
Chair: P. Lauritzen, University of Washington, Seattle, WA, USA
Chair: W.M. Portnoy, Texas Tech. University, Lubbock, TX, USA
Paper 4.1. A Comparision of IGBT Circuit Models for Use in Circuit Design
A. N. Githiari, R. McMahon, B. Gordon, University of Cambridge, Cambridge, UNITED KINGDOM, Z. Li, P. Mawby, University of Swansea, Swansea, UNITED KINGDOM
Paper 4.2. A New IGBT Circuit Model for SPICE Simulation
A. G. M. Strollo, University of Naples, Naples, ITALY
Paper 4.3. A Study of Distributed Switching Processes in IGBTs and Other Power Bipolar Devices
P. Leturcq, Laboratoire d'Analyse et'Architecture des Systèmes du C.N.R.S., Tolouse, FRANCE
Paper 4.4. A Destruction-Free Parameter Extraction Scheme
L. Göhler, T. Langer, J. Sigg, University of Bundeswehr - Munich, Neubiberg, GERMANY
Paper 4.5. A New Approach to the Instantaneous Junction Temperature Evaluation of High Power Diodes (Thyristors) During Fast Current Transients
F. Profumo, Nagasaki University, Nagasaki, JAPAN, S. Tenconi, S. Facelli, Politecnico di Torino, Torino, ITALY, B. Passerini, International Rectifier Corporation-Italiana, ITALY
Paper 4.6. Novel Techniques and Procedures for the Assessment of Fault Current Withstand of Power Thyristors
M. Cepek, Institute of Research of Hydro-Quebec, Varennes, Quebec, CANADA
Paper 4.7. The Non-Invasive Measurement of Chip Currents in IGBT Modules
P. R. Palmer, B. H. Stark, University of Cambridge, Cambridge, UNITED KINGDOM
Monday, June 23, 2:00 pm-5:30 pm
Chair: D. Perreault, Massachusetts Institute of Technology, Cambridge, MA, USA
Chair: A. Stankovic, Northeastern University, Boston, MA, USA
Paper 5.1. Predictive Discrete Time Control of Switch-Mode Applications
D. Sprock, P. Hsu, San Jose State University, San Jose, CA, USA
Paper 5.2. Repetitive Learning Control System of Phase-Shifted PWM Dc-Dc Converter using High-Frequency High-Voltage Transformer Parasitic Components
H. Takano, Hitachi Medical Corporation, JAPAN, M. Nakaoka, J. M. Sun, Yamaguchi University, Ube, Yamaguchi, JAPAN
Paper 5.3. A Tracking Control Method for Boost and Buck-Boost Converters Using Input Current Prediction and Load Current Feedforward
V. M. Nguyen, Sundstrand Aerospace, Rockford, IL, USA, C. Q. Lee, University of Illinois -Chicago, Chicago, IL, USA
Paper 5.4. Sensorless Current Mode Control - An Observer-Based Technique for Converters
P. Midya, Motorola Corporate Research Laboratory, Schaumburg, IL, USA, P. T. Krein, University of Illinois, Urbana, IL, USA
Paper 5.5. Current Mode Control of a Full-Bridge Dc-to-Dc Converter with a Two-Inductor Rectifier
N. H. Kutkut, G. Luckjiff, Soft Switching Technologies, Middleton, WI, USA
Paper 5.6. Discrete-Time Robust Sliding Mode Control for Switcing Power Converters
S. Muthu, J. M. S. Kim, The University of Victoria, Victoria, British Columbia, CANADA
Paper 5.7. A Generalized Dc Model and Low-Frequency Dynamic Analysis for the Class-D Converter at Fixed Frequency
J. Cheng, A. F. Witulski, University of Arizona, Tucson, AZ, USA, J. L. Vollin, D. L. Shaw, Hughes Missile Systems Company, Tucson, AZ, USA
Tuesday, June 24, 8:30 am-12:00 pm
Chair: T. Ninomiya, Kyushu University, Fukuoka, JAPAN
Chair: K. Smedley, University of California, Irvine, Irvine, CA, USA
Paper 6.1. Novel Zero-Voltage and Zero-Current-Switching (ZVZCS) Full Bridge PWM Converter Using Transformer Auxiliary Winding
J. G. Cho, J. W. Baek, D. W. Yoo, Korea Electrotechnology Research Institute, Changwon, Kyungnam, SOUTH KOREA, G. Rim, Korea Electrotechnology Research Inst., Changwon, SOUTH KOREA
Paper 6.2. Novel Zero-Voltage-Turn-On and Zero-Current-Turn-Off Pulse-Width-Modulation Converters
D. H. Lee, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 6.3. A Low Voltage High Efficiency and High Power Density Dc/Dc Converter
T. G. Wang, X. Zhou, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 6.4. A High Frequency Integrated Buck Converter
W. Lau, S. R. Sanders, University of California at Berkeley, Berkeley, CA, USA
Paper 6.5. Systematic Design of High-Power Class-D Switching Dc-Dc Converters
J. S. Glaser, J. L. Vollin, Hughes Missile Systems Company, Tucson, AZ, USA
Paper 6.6. A High Performance ZVS Full-Bridge Dc-Dc Power Supply 0-50V/0-10A with Phase-Shift Control
M. Brunoro, J. L. F. Vierra, Universidade Federal do Espírito Santo, Vitória, Espírito Santo, BRAZIL
Paper 6.7. Analysis of Modified Buck Converters Operating in Continuous Conduction Mode
J. Wang, W. G. Dunford, The University of British Columbia, Vancouver, British Columbia, CANADA, K. Mauch, Statpower Technologies Corporation, Burnaby, British Columbia, CANADA
Tuesday, June 24, 8:30 am-12:00 pm
Chair: W. J. Hazen, BH Power Protection-Best Power, Framingham, MA, USA
Chair: E. E. Landsman, American Power Conversion Corporation, Billerica, MA, USA
Paper 7.1. Advanced Photovoltaic Inverter with Additional Power Line Conditioning Capability
L. Cheng, R. Cheung, K. H. Leung, Ryerson Polytechnic University, Toronto, Ontario, CANADA
Paper 7.2. Analysis of a Single-Phase Rugged Resonant Dc Link Inverter
L. Xiao, Y. Tong, Y. Yan, Nanjing University of Aeronautics & Astronautics, Nanjing, P.R. CHINA
Paper 7.3. A Feasible Compact Single-Phase Power Factor Correction Converter with High-Frequency Transformer Link
K. Hirachi, H. Ishiwatari, Y. Arai, M. Nakaoka, Yamaguchi University, Ube, Yamaguchi, JAPAN
Paper 7.4. A Series-Parallel Compensated Uninterruptible Power Supply with Sinusoidal Input Current and Sinusoidal Output Voltage
S. J. Jeon, G. H. Cho, Korea Advanced Institute of Science and Technology, Taejon, SOUTH KOREA
Paper 7.5. A Low Cost High-Efficiency Uninterruptible Power Supply System with Power Factor Correction
R. Cáceres, Federal University of Santa Catarina, Florianópolis, Santa Catarina, BRAZIL, N. Vázquez, C. Aguilar, Centro Nacional de Investigation y Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO, I. Barbi, Federal University of Santa Catarina, Florianópolis, Santa Catarina, BRAZIL, J. Arau, Centro Nacional de Investigation y Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO
Paper 7.6. A New Ac Power Supply Based on Series-Parallel Resonant Converter
H. Pinheiro, P. Jain, G. Joós, Concordia University, Montréal, Quebec, CANADA
Paper 7.7. Multilevel Statcom with Third Harmonic Elimination on the Dc Line Capacitor Voltages
B. Mwinyiwiwa, Z. Wolanski, B. T. Ooi, McGill University, Montreal, Quebec, CANADA
Tuesday, June 24, 8:30 am-12:00 pm
Chair: J. H. R. Enslin, University of Stellenbosch, Matieland, Western Cape, SOUTH AFRICA
Chair: P. N. Enjeti, Texas A&M University, College Station, TX, USA
Paper 8.1. Current Equalization in SPWM FACTS Controllers at Lowest Switching Rates
B. Mwinyiwiwa, Z. Wolanski, B. T. Ooi, McGill University, Montreal, Quebec, CANADA
Paper 8.2. Unified Power Flow Controller (UPFC) Based on Chopper Stabilized Multilevel Converter
Y. Chen, B. Mwinyiwiwa, Z. Wolanski, B. T. Ooi, McGill University, Montreal, Quebec, CANADA
Paper 8.3. Multilevel Converters as Series VAR Compensators
B. Mwinyiwiwa, Z. Wolanski, B. T. Ooi, Y. Chen, McGill University, Montreal, Quebec, CANADA
Paper 8.4. Space Vector Pattern Generators for Multi Module Low Switching Frequency High Power Var Compensators
A. R. Bakhshai, G. Joós, Concordia University, Montréal, Quebec, CANADA, H. Jin, University of British Columbia, Vancouver, British Columbia, CANADA
Paper 8.5. A Series Active Capacitance for Compensating Voltage Drop Caused by Source Impedances in Power Systems
A. Nabae, Y. Nakajima, L. Cao, Tokyo Institute of Polytechnics, Tokyo, JAPAN, T. Tanaka, Politechnic University, Tokyo, JAPAN
Paper 8.6. A Three Domain Controller for a High Frequency High Power Four Quadrant Power Converter for Superconducting Magnets
J. A. Carrasco, University of Valencia, Burjassot, Valencia, SPAIN, E. J. Dede, G.H. ELIN International and University of Valencia, SPAIN, J. M. Benavent, G.H. ELIN International, SPAIN, F. Bordry, A. Dupaquier, European Organization for Nuclear Research (CERN), Geneva, SWITZERLAND
Paper 8.7. Optimal Efficiency Control of PM Hybrid Motor Drives for Electrical Vehicle
C. C. Chan, R. Zhang, K. T. Chau, University of Hong Kong, Hong Kong, HONG KONG, J. Z. Jiang, Shanghai University, Shanghai, P.R. CHINA
Tuesday, June 24, 8:30 am-12:00 pm
Chair: D. Torrey, Rennselaer Polytechnic Inst., Troy, NY, USA
Chair: G. Skutt, Virginia Power Technologies, Blacksburg, VA, USA
Paper 9.1. New Single-Stage Power-Factor-Corrected Regulators Operating in Discontinuous Capacitor Voltage Mode
C. K. Tse, M. H. L. Chow, Hong Kong Polytechnic University, Hung Hom, Kowloon, HONG KONG
Paper 9.2. Current-Source Resonant Converter in Power Factor Correction
H. Benqassmi, J. Ferrieux, Laboratoire d'Electrotechnique de Grenoble-ENSIEG, Saint Martin d'Héres, FRANCE
Paper 9.3. A Single-Switch Single-Stage Active Power Factor Corrector with High Quality Input and Output
K. Schenk, S. Cuk, California Institute of Technology, Pasadena, CA, USA
Paper 9.4. Input Current Analysis of Interleaved Boost Converters Operated in Discontinuous-Inductor-Current Mode
C. H. Chan, The Hong Kong University, HONG KONG, B. M. H. Pong, Hong Kong University, Hung Hom, Kowloon, HONG KONG
Paper 9.5. A Simple Three-Phase Power Factor Corrector with Improved Harmonic Distortion
K. Schenk, S. Cuk, California Institute of Technology, Pasadena, CA, USA
Paper 9.6. Active Power Filter Control Based on Imposition of Input Sinusoidal Current
J. A. Lambert, E. A. A. Coelho, L. C. de Freitas, J. B. Vieira, Jr., V. J. Farias, Universidade Federal de Uberlândia, Uberlândia, Minas Gerais, BRAZIL
Paper 9.7. Power Factor Correction of Non-Linear Loads Employing a Single-Phase Active Power Filter: Control Strategy, Design Methodology and Experimentation
F. Pöttker, I. Barbi, Federal University of Santa Catarina, Florianópolis, Santa Catarina, BRAZIL
Tuesday, June 24, 8:30 am-12:00 pm
Chair: J. Sun, Georgia Institute of Technology, Atlanta, GA, USA
Chair: J. Cobos, Universidad Politecnica de Madrid, Madrid, SPAIN
Paper 10.1. Generalized Dynamical Modeling of Multi-Port Dc-Dc Converters
D. C. Hamill, University of Surrey, Guildford, Surrey, UNITED KINGDOM
Paper 10.2. Exact Input-to-Output Frequency Response Determination of Time Inverval Modulated Switched Networks
R. Tymerski, Portland State University, Portland, OR, USA
Paper 10.3. Average Models for a Split-Boost Converter
J. Thottuvelil, Bell Labs, Lucent Technologies, Mesquite, TX, USA
Paper 10.4. A Unified Behavorial Average Model of SEPIC Converters with Coupled Inductors
D. Adar, G. Rahav, S. Ben-Yaakov, Ben-Gurion University of the Negev, BeerSheva, ISRAEL
Paper 10.5. Dynamic Model and Small Signal Analysis Based on the Extended Describing Function and Fourier Series of a Novel AM ZVS Direct Coupling Dc/Dc Converter
B. M. H. Pong, Hong Kong University, Hung Hom, Kowloon, HONG KONG, B. Zhang, South China University of Technology, P.R. CHINA
Paper 10.6. An Alternative Approach to Systematically Modeling PWM Dc/Dc Converters in DCM Based on the Graft Scheme
T. Wu, Y. Chen, National Chung Cheng University, Chia-Yi, TAIWAN, ROC
Paper 10.7. Dynamic Modelling of Phase-Shifted Full-Bridge Series Resonant Converter
W. C. So, Y. S. Lee, C. K. Tse, Hong Kong Polytechnic University, Hung Hom, Kowloon, HONG KONG
Tuesday, June 24, 2:00 pm-5:30 pm
Chair: J. Oyama, Nagasaki University, Nagasaki, JAPAN
Chair:
Paper 11.1. Novel Robust Harmonic Injection Method for a Single-Switch 3-Phase Discontinuous-Conduction-Mode Boost Rectifier
Y. Jang, M. Jovanovic, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Paper 11.2. A Family of ZVS-CV Low Harmonic Rectifiers
E. Ismail, College of Technological Studies-Kuwait, Al-Shaa'b, KUWAIT, C. Oliveira, University of Colorado-Boulder, Boulder, CO, USA
Paper 11.3. Analysis Design and Experimental Evaluation of a Four-Pole PWM Rectifier Using Space Vector Modulation
L. S. Salazar, F. H. Zapata, E. F. Wiechmann, Universidad de Concepción, Concepción, CHILE
Paper 11.4. New Current and Neutral Voltage Control Schemes for a Boost-Type Three-Level Rectifier
L. Xu, M. Fu, The Ohio State University, Columbus, OH, USA
Paper 11.5. A Simplified Model of a Variable Speed Synchronous Generator Loaded with Diode Rectifier
I. Jadric, D. Borojevic, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, M. Jadric, University of Split, Split, CROATIA
Paper 11.6. Control of Unbalanced Voltage PWM Converter Using Instantaneous Ripple Power Feedback
J. Kang, S. Sul, Seoul National University, Seoul, SOUTH KOREA
Paper 11.7. Power Factor Regulators for Heating Applications
C. G. Bianchin, J. A. Pomilio, University of Campinas, Campinas, SP, BRAZIL
Tuesday, June 24, 2:00 pm-5:30 pm
Chair: P. R. Palmer, University of Cambridge, Cambridge, UNITED KINGDOM
Chair:
Paper 12.1. Design Optimization and Performance Evaluation of Single-Stage Single-Switch Input-Current Shapers with Fast Output-Voltage Regulators
L. Huber, M. Jovanovic, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Paper 12.2. Single-Switch Ac/Dc Converter with Power Factor Correction
P. Kornetzky, H. Wei, University of Central Florida, Orlando, FL, USA, I. Batarseh, Univ. of Central Florida, Orlando, FL, USA
Paper 12.3. A New Family of Single Stage Ac/Dc Power Factor Correction Converters with Fast Output Voltage Regulation
O. García, J. Cobos, R. Prieto, J. Uceda, Universidad Politecnica de Madrid, Madrid, SPAIN, S. Ollero, ALCATEL Standard Eléctrica S.A., Madrid, SPAIN
Paper 12.4. One Stage Forward-Type Power Factor Correction Circuit
M. Nagao, Kumamoto Institute of Technology, Kumamoto, JAPAN
Paper 12.5. A Novel Isolated High Quality Rectifier with Fast Dynamic Response
E. Rodríguez, P. Najera, F. Canales, J. Arau, Centro Nacional de Investigation y Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO
Paper 12.6. A New Single-Phase Buck Type Ac-Dc Converter Topology
R. Srinivasan, M. Palaniapan, R. Oruganti, National University of Singapore, SINGAPORE
Paper 12.7. Analysis of Buck Converters Used as Power Factor Preregulators
G. Spiazzi, University of Padova, Padova, ITALY
Tuesday, June 24, 2:00 pm-5:30 pm
Chair: R. Spée, Oregon State University, Corvallis, OR, USA
Chair: J. D. van Wyk, Rand Afrikaans University, Auckland Park-Johannesburg, SOUTH AFRICA
Paper 13.1. A New Control Strategy for the PWM Current Source Converter with Resonant Snubbers
B. J. C. Filho, University of Wisconsin-Madison, Madison, WI, USA, S. Bernet, ABB Corporate Research, Heidelberg, GERMANY, T. Lipo, University of Wisconsin-Madison, Madison, WI, USA
Paper 13.2. Adaptive SVM to Compensate Dc Link Voltage Ripple for Component Minimized Voltage Source Inverters
F. Blaabjerg, Aalborg University, Aalborg East, DENMARK, D. Neascu, Technical University of Iasi, Iasi, ROMANIA, J. K. Pederson, Aalborg University, Aalborg East, DENMARK
Paper 13.3. A Four Level Inverter Based Drive with a Passive Front End
G. Sinha, T. Lipo, University of Wisconsin-Madison, Madison, WI, USA
Paper 13.4. Real-Time Optimization of Dead Time for Motor Control Inverters
J. Kimball, Motorola SPS, Phoenix, AZ, USA, P. T. Krein, University of Illinois, Urbana, IL, USA
Paper 13.5. Random Modulation in Inverters Feeding Induction Motors
J. Doval, A. Nogueiras, L. Eguizabal, C. M. Penalver, University of Vigo, Vigo, Pontevedra, SPAIN
Paper 13.6. Generating PWM Space Vector Using the Digital Scalar Modulation
C. B. Jacobina, A. M. N. Lima, E. R. da Silva, Federal University of Paraiba, Campina Grande, Paraiba, BRAZIL
Paper 13.7. Flux Vector Modulation Strategy for a Four-Switch Three-Phase Inverter for Motor Drive Applications
D. T. W. Liang, University of Bradford, Bradford, West Yorkshire, UNITED KINGDOM, J. Li, Zhejiang University, Hangzhou, Zhejiang, P.R. CHINA
Tuesday, June 24, 2:00 pm-5:30 pm
Chair: C. R. Sullivan, Dartmouth College, Hanover, NH, USA
Chair: J. A. Ferreira, Rand Afrikaans University, Auckland Park-Johannesburg, SOUTH AFRICA
Paper 14.1. Study of Toroidal Transformers by Means of 2D Approaches
R. Prieto, J. Cobos, O. García, J. Uceda, Universidad Politecnica de Madrid, Madrid, SPAIN
Paper 14.2. Improved Winding Design Using PCB Technique for Planar Inductors
L. Ye, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, G. Skutt, Virginia Power Technologies, Blacksburg, VA, USA, R. Wolf, Philips Laboratories, Briarcliff Manor, NY, USA, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 14.3. Impedances Formulas in Planar Magnetic Structures with Spiral Windings
G. Hurley, University College-Galway, Galway, IRELAND, M. C. Duffey, S. O'Reilly, S. C. O'Mathuna, University College Galway, Galway, IRELAND
Paper 14.4. Minimizing Winding Losses in Foil Windings Using Field Shaping Techniques
N. H. Kutkut, Soft Switching Technologies, Middleton, WI, USA
Paper 14.5. High-Frequency Eddy-Current Effects in Low-Profile Transformer Windings
N. Dai, Celestica Corp., Endicott, NY, USA, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 14.6. Non-Dissipative Current Diverter Using a Centralized Multiwinding Transformer
N. H. Kutkut, Soft Switching Technologies, Middleton, WI, USA
Paper 14.7. Derivation of Optimum Winding Thickness for Duty Cycle Modulated Current Waveshapes
J. G. Breslin, G. Hurley, University College-Galway, Galway, IRELAND
Tuesday, June 24, 2:00 pm-5:30 pm
Chair: A. Kawamura, Yokohama National University, Yokohama, JAPAN
Chair: J. Sun, Georgia Institute of Technology, Atlanta, GA, USA
Paper 15.1. Stability Analysis of Nonlinear Load-Sharing Techniques for Paralleled Power Converters
D. Perreault, J. G. Kassakian, G. Verghese, Massachusetts Institute of Technology, Cambridge, MA, USA
Paper 15.2. Design Approaches to Boundary Controllers
M. Greuel, R. A. Muyshondt, P. T. Krein, University of Illinois, Urbana, IL, USA
Paper 15.3. Analysis and Experimentation with Dissipative Nonlinear Controllers for Series Resonant Dc/Dc Converters
A. Stankovic, Northeastern University, Boston, MA, USA, D. Perreault, K. Sato, Massachusetts Institute of Technology, Cambridge, MA, USA
Paper 15.4. Digitally-Controlled Current Tracking Scheme of Multiple Parallel High-Power PWM Amplifier for Magnetic Resonance Imaging
H. Takano, Hitachi Medical Corporation, JAPAN, S. Watanabe, P. Boyagoda, M. Nakaoka, Yamaguchi University, Ube, Yamaguchi, JAPAN
Paper 15.5. Performance Characterization of Two Self-Oscillating Controllers for Series-Parallel Resonant Converters Operating with Unity Input Power Factor
H. Pinheiro, P. Jain, G. Joós, Concordia University, Montréal, Quebec, CANADA
Paper 15.6. Robust Neural Network Observer for Induction Motor Control
P. Marino, Seconda Università di Napoli, Napoli, ITALY, M. Milano, Università degli Studi di Napoli Federico II, Napoli, ITALY, F. Vasca, Università degli Studi di Salerno, Benevento, ITALY
Paper 15.7. DSP-Based Multiple-Loop Control Strategy for Single-Phase Inverters Used in Ac Power Sources
S. Jung, H. Huang, M. Chang, National Chiao Tung University, Hsinchu, TAIWAN, ROC, Y. Tzou, National Chiao-Tung University, Hsinchu, TAIWAN, ROC
Wednesday, June 25, 8:30 am-12:00 pm
Chair: J. Uceda, Universidad Politecnica de Madrid, Madrid, SPAIN
Chair:
Paper 16.1. Control System for a Stirling Engine Driven Induction Generator in a Hybrid Electric Vehicle
K. S. Rajashekara, R. Raibert, B. Gorti, Delphi Energy and Engine Management Systems, Indianapolis, IN, USA
Paper 16.2. Steady-State Characteristics of the Push-Pull Piezoelectric Inverter
M. Shoyama, K. Horikoshi, T. Ninomiya, Kyushu University, Fukuoka, JAPAN, T. Zaitsu, Y. Sasaki, NEC Corporation, JAPAN
Paper 16.3. Power Conditioning Units for High-Power Geostationary Satellites
J. Castiaux, P. Bury, B. Liegeois, E.T.C.A, Charleoi, BELGIUM
Paper 16.4. Design and Implementation of a Real-Time Lossless Dynamic Electronic Load Simulator
M. Chang, J. Lin, S. Jung, Y. Tzou, National Chiao Tung University, Hsinchu, TAIWAN, ROC
Paper 16.5. Averaged Model of Inverter-Fed Ultrasonic Motors
J. Maas, H. Grotstollen, University of Paderborn, Paderborn, GERMANY
Paper 16.6. How to Better Know What Happens Inside a Power Multi-Chip Module
E. Clavel, J. Roudet, J. L. Schanen, Laboratoire d'Electrotechnique de Grenoble-ENSIEG, Saint Martin d'Héres, FRANCE
Paper 16.7. Analysis of Chaotic Buck, Boost and Buck-Boost Converters through Impact Maps
M. di Bernado, University of Bristol, F. Garofalo, Università degli studi di Salerno, Benevento, ITALY, L. Glielmo, Università degli Studi di Napoli Federico II, Napoli, ITALY, F. Vasca, Università degli Studi di Salerno, Benevento, ITALY
Wednesday, June 25, 8:30 am-12:00 pm
Chair: N. O. Sokal, Design Automation Inc., Lexington, MA, USA
Chair: S. Ben-Yaakov, Ben-Gurion University of the Negev, BeerSheva, ISRAEL
Paper 17.1. A Novel Full-Bridge Configuration for High-Power Applications: Built-In Input Filter Full-Bridge Converter (BIFFBC)
C. Leu, Chun-Shan Institute of Science & Technology, Chia-An Village, Lung-Tan, TAIWAN, ROC
Paper 17.2. Edge-Resonant Power Converter with Novel Magnetics
M. J. Schutten, R. L. Steigerwald, General Electric Company, Schenectady, NY, USA, D. Torrey, Rennselaer Polytechnic Inst., Troy, NY, USA
Paper 17.3. Output Ripple Analysis of Switching Dc-Dc Converters
B. Lehman, Z. Mihajlovic, Northeastern University, Boston, MA, USA
Paper 17.4. Overload-Protected Frequency-Compensated Current-Feedback Magnetic Multivibrator
A. Katsuki, M. Ouchiyama, M. Matsushima, Kyushu Institute of Technology, Fukuoka, JAPAN
Paper 17.5. Time Reversal Duality in Dc-Dc Converters
D. C. Hamill, University of Surrey, Guildford, Surrey, UNITED KINGDOM
Paper 17.6. Novel Aspects of the Application of Zero-Ripple Techniques to Basic Converter Topologies
J. W. Kolar, Technical University Vienna, Wien, AUSTRIA, H. Sree, N. Mohan, University of Minnesota, Minneapolis, MN, USA, F. C. Zach, Technical University Vienna, Wien, AUSTRIA
Paper 17.7. A Bi-Directional Dc-Dc Converter Topology for Low Power Application
M. Jain, P. Jain, M. Daniele, Concordia University, Montréal, Quebec, CANADA
Wednesday, June 25, 8:30 am-12:00 pm
Chair: G. Venkataramanan, Montana State University, Bozeman, MT, USA
Chair: G. Spiazzi, University of Padova, Padova, ITALY
Paper 18.1. Latest Development of 500 kVA Current Source-Fed Three Phase Active Converter with ROM Table-Based Optimum PWM Control Scheme and Practical Input Filter Design
Y. Konishi, Y. Arai, Y. Matsumoto, S. P. Wang, M. Nakaoka, Yamaguchi University, Ube, Yamaguchi, JAPAN
Paper 18.2. Staggered Phase Controlled Rectifier: A Novel Structure to Achieve High Power Factor
E. F. Wiechmann, Universidad de Concepción, Concepción, CHILE, R. P. Burgos, J. R. Rodriguez, Universidad de Concepcion, Concepción, CHILE
Paper 18.3. Design Considerations and Characteristics Analysis of a 4.2 MW (600 V, 7 kA) Dc Pulsed Power Supply
E. C. Nho, Pukyong National University, Pusan, SOUTH KOREA, G. B. Joung, Woosuk University, Jeonbuk, SOUTH KOREA, Y. J. Kim, J. W. Choi, Korea Basic Science Institute, SOUTH KOREA
Paper 18.4. A New Gate Drive Circuit for High Voltage and High Power SI Thyristors
H. Matsuo, Nagasaki University, Nagasaki, JAPAN, K. Iida, H. Ochiai, A. Mechi, Toyo Electric Mfg. Co., Ltd., JAPAN, Y. Ishizuka, Nagasaki University, Nagasaki, JAPAN
Paper 18.5. Automatic Feedback Strategies for Regulation of Real and Reactive Power in an Asynchronous Line Based on a Voltage-Source Matrix Converter
B. Lu, M. Kazerani, B. T. Ooi, McGill University, Montreal, Quebec, CANADA
Paper 18.6. Busbar Design Considerations for High Power IGBT Converters
H. J. Beukes, J. H. R. Enslin, University of Stellenbosch, Matieland, Western Cape, SOUTH AFRICA, R. Spée, Oregon State University, Corvallis, OR, USA
Paper 18.7. Some Scaling Issues in the Active Voltage Control of IGBT Modules for High Power Applications
P. R. Palmer, A. N. Githiari, R. J. Leedham, University of Cambridge, Cambridge, UNITED KINGDOM
Wednesday, June 25, 8:30 am-12:00 pm
Chair: F. Blaabjerg, Aalborg University, Aalborg East, DENMARK
Chair: F. Profumo, Nagasaki University, Nagasaki, JAPAN
Paper 19.1. Adaptive Loss Minimization Control of Inverter-Fed IPM Motor Drives
S. Vaez, V. I. John, Queens University - Kingston, Kingston, Ontario, CANADA, M. A. Rahman, Memorial University - Saint Johns, Saint Johns, Newfoundland, CANADA
Paper 19.2. State Space Fuzzy Controller for a Brushless Dc Motor
F. Bodin, S. Siala, L. Sicot, GE 44 Laboratoire Atlantique de Recherche en Genie Electrique, Saint Nazaire, FRANCE
Paper 19.3. Innovative Remedial Strategies Against Inverter Faults in PMSM Drives Under Flux Weakening Operation
N. Bianchi, S. Bolognani, M. Zigliotto, M. Zordan, Università di Padova, Padova, ITALY
Paper 19.4. Switched Reluctance Motor Drives with Fractionally Pitched Winding Design
Y. Li, Y. Tang, Emerson Electric Co., St. Louis, MO, USA
Paper 19.5. A Soft-Switched Reluctance Motor Drive Circuit with Improved Performances
Y. Murai, J. Cheng, M. Yoshida, Gifu University, Gifu, JAPAN
Paper 19.6. Novel Zero Voltage Transition PWM Converter for Switched Reluctance Motor Drives
J. G. Cho, W. H. Kim, Korea Electrotechnology Research Institute, Changwon, Kyungnam, SOUTH KOREA, G. Rim, Korea Electrotechnology Research Inst., Changwon, SOUTH KOREA
Paper 19.7. Commutation Performance of Current Source Converters for Switched Reluctance Motor Drives
D. Jang, Ho-Seo University, Chung-name, SOUTH KOREA, G. Choe, K. Kim, Kon-Kuk University, SOUTH KOREA
Wednesday, June 25, 8:30 am-12:00 pm
Chair: J. Thottuvelil, Bell Labs, Lucent Technologies, Mesquite, TX, USA
Chair: Y. Kuroe, Kyoto Inst. of Technology, Kyoto, JAPAN
Paper 20.1. Control Structure Optimization of Power Stage and Controller for Switching Power Supplies
C. Gezgin, B. S. Heck, R. M. Bass, Georgia Institute of Technology, Atlanta, GA, USA
Paper 20.2. Efficient Computer-Aided Simulation Approach of Switched-Mode Power Conversion Circuits and Systems with Digital Central Implementation and its Application
S. M. Ulhaq, M. Nakaoka, Yamaguchi University, Ube, Yamaguchi, JAPAN, H. Takano, Hitachi Medical Corporation, JAPAN
Paper 20.3. Modeling Multiple-Output Converters with Parallel Post-Regulators
J. A. Carrasco, J. B. Ejea, A. Ferreres, University of Valencia, Burjassot, Valencia, SPAIN, E. J. Dede, G.H. ELIN International and University of Valencia, SPAIN
Paper 20.4. Small-Signal Modeling of Magamp PWM Switch
M. Jovanovic, L. Huber, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Paper 20.5. Modeling and Analysis of an Interior Permanent-Magnet Dc-Dc Converter Generator System
J. Ojo, Tennessee Technological University, Cookeville, TN, USA
Paper 20.6. Controller Design for Advanced Reactive Power Compensators Based on Input-Output Linearization
Z. Yao, M. Dawande, V. Rajagopalan, Université du Québec à Trois-Rivières, Trois-Rivières, Quebec, CANADA
Paper 20.7. A State-Space Model for the Comprehensive Dynamic Analysis of Three-Level Voltage-Source Inverters
J. Bordonau, Universitat Politécnica de Catalonia, Barcelona, Catalunya, SPAIN, M. Cosan, D. Borojevic, H. Mao, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Wednesday, June 25, 2:00 pm-5:30 pm
Chair: D. M. Mitchell, Rockwell Avionics and Communications, Cedar Rapids, IA, USA
Chair: J. W. Kolar, Technical University Vienna, Wien, AUSTRIA
Paper 21.1. A Zero Voltage Switching Flyback Converter Topology
Y. Xi, P. Jain, G. Joós, Concordia University, Montréal, Quebec, CANADA
Paper 21.2. A Novel RC Model of Capacitive-Loaded Parallel and Series-Parallel Resonant Dc-Dc Converters
G. Ivensky, A. Kats, S. Ben-Yaakov, Ben-Gurion University of the Negev, BeerSheva, ISRAEL
Paper 21.3. A Full-Bridge SR-PWM Dc-Dc Converter Operating at Reduced Conduction and Commutation Losses and Working with Three Different Transformers
J. C. da Silva e Sousa, A. A. Pereira, L. C. de Freitas, V. J. Farias, J. B. Vieira, Jr., Universidade Federal de Uberlândia, Uberlândia, Minas Gerais, BRAZIL
Paper 21.4. A Comparative Analysis of the Behavior and of the Switching Losses for a Group of ZCS-PWM Converters using IGBTs
H. L. Hey, R. Fuentes, Federal University of Santa Maria, Santa Maria, RS, BRAZIL
Paper 21.5. A Novel Control Principle of Bi-Directional Dc-Dc Power Conversion
J. Petzoldt, University of Rostock, Rostock, GERMANY, T. Reimann, S. Szeponik, G. Berger, Technical University of Ilmenau, Ilmenau, GERMANY
Paper 21.6. Low Input Current Ripple Power Converters with Integrated Magnetics
W. Chen, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 21.7. On a Novel Concept of High Frequency Dc/Dc Conversion
P. Chhawchharia, D. Cheng, Y. S. Lee, Hong Kong Polytechnic University, Hung Hom, Kowloon, HONG KONG
Wednesday, June 25, 2:00 pm-5:30 pm
Chair: L. Xu, The Ohio State University, Columbus, OH, USA
Chair: W. G. Dunford, The University of British Columbia, Vancouver, British Columbia, CANADA
Paper 22.1. Precision Dc-to-Ac Power Conversion by Optimization of the Output Current Waveform-the Half Bridge Revisited
G. R. Stanley, K. M. Bradshaw, Crown International, Inc., Elkhart, IN, USA
Paper 22.2. Implementation of a Broad Range of Power Control with Pulse-Density-Modulation in Voltage-Source Series-Resonant Inverters for Corona Discharge Treatment
H. Fujita, S. Ogasawara, H. Akagi, Okayama University, Okayama, JAPAN
Paper 22.3. Incorporating the Overmodulation Range in Space Vector Pattern Generators Using a Classification Algorithm
A. R. Bakhshai, G. Joós, Concordia University, Montréal, Quebec, CANADA, H. Jin, University of British Columbia, Vancouver, British Columbia, CANADA
Paper 22.4. A Novel Overmodulation Technique for PWM Inverters
D. Lee, G. Lee, Yeungnam University, Kyungsan, Kyungbuk, SOUTH KOREA
Paper 22.5. Minimum-Loss PWM Strategy for 3-Phase Power Conversion
D. Chung, S. Sul, Seoul National University, Seoul, SOUTH KOREA
Paper 22.6. A Novel and Simple Current Controller for Three-Phase IGBT PWM Power Inverters
J. F. Martins, J. F. Silva, A. J. Pires, Escola Superior de Techo, Setubal, PORTUGAL
Paper 22.7. Displacement Control of Matrix Converter
J. Oyama, X. Xia, T. Higuchi, E. Yamada, Nagasaki University, Nagasaki, JAPAN
Wednesday, June 25, 2:00 pm-5:30 pm
Chair: J. Ojo, Tennessee Technological University, Cookeville, TN, USA
Chair: R.M. Nelms, Auburn University, Aublurn, AL, USA
Paper 23.1. Robust TDOF Controller of Induction Motor Without Speed Sensors for Variations of Rotor Resistance
S. Kim, Inha University, Inchon, SOUTH KOREA, I. Yang, LG Electronics, Inc., SOUTH KOREA, Y. Kim, Inha University, Inchon, SOUTH KOREA
Paper 23.2. A Robust Adaptive Sensorless Field-Oriented Control Using a Modified Stator Flux Observer
N. Hur, K. Hong, K. Nam, POSTECH University, Pohang, SOUTH KOREA
Paper 23.3. Sensitivity Investigation of a Speed Sensorless Induction Motor Drive Based on Stator Flux Vector Control
D. Casadei, G. Serra, A. Tani, Università di Bologna, Bologna, ITALY
Paper 23.4. Binary Observer for Speed Sensorless Vector Control of Induction Motors
S. Kim, J. Kim, Inha University, Inchon, SOUTH KOREA, H. Kim, Yuhan Junior College, SOUTH KOREA, Y. Kim, Inha University, Inchon, SOUTH KOREA
Paper 23.5. The Influence of the Slip and the Speed in the Parameter Estimation of Induction Machines
R. L. S. Ribeiro, CEFET-São Luiz-Ma, Campina Grande, Paraiba, BRAZIL, C. B. Jacobina, A. M. N. Lima, Federal University of Paraiba, Campina Grande, Paraiba, BRAZIL
Paper 23.6. New Integration Algorithms for Estimating Motor Flux Over a Wide Speed Range
J. Hu, Ryerson Polytechnic Institute, Toronto, Ontario, CANADA, B. Wu, Ryerson Polytechnic University, Toronto, Ontario, CANADA
Paper 23.7. PI Type Decoupling Control Scheme for High Speed Operating of Induction Motors
J. Jung, K. Nam, POSTECH University, Pohang, SOUTH KOREA
Wednesday, June 25, 2:00 pm-5:30 pm
Chair: R. M. Bass, Georgia Institute of Technology, Atlanta, GA, USA
Chair:
Paper 24.1. Harmonic and Reactive Power Compensation Based on the Generalized Instantaneous Reactive Power Theory for 3-Phase 4-Wire Systems
F. Z. Peng, G. W. Ott, Oak Ridge National Laboratory, Oak Ridge, TN, USA
Paper 24.2. Active Power Filter Control Circuit Based on the Instantaneous Active and Reactive Current id-iq Method
V. Soares, ISEL - Institutp Superior de Engenharia de Lisboa, DEEA, Lisboa, PORTUGAL, P. Verdelho, G. Marques, Universidade Técnica de Lisboa, Lisboa, PORTUGAL
Paper 24.3. Simplified Control Strategy for Hybrid Active Filters
F. B. Líbano, J. Cobos, J. Uceda, Universidad Politecnica de Madrid, Madrid, SPAIN
Paper 24.4. Dc Link Fuzzy Control for an Active Power Filter, Sensing the Line Current Only
J. Dixon, J. Contardo, A. Cipriano, Pontifica Universidad Católica de Chile, Santiago, CHILE, L. Morán, Universidad de Concepción, Concepción, CHILE
Paper 24.5. Space Vector Based Current Controller in ab0 Coordinate System for the PWM Voltage Converter Connected to the Ac Mains
P. Verdelho, Universidade Técnica de Lisboa, Lisboa, PORTUGAL
Paper 24.6. An Active Power Filter Implemented with a Three-Level NPC Voltage-Source Inverter
V. Aburto, L. Morán, M. Schneider, Universidad de Concepción, Concepción, CHILE, J. Dixon, Pontifica Universidad Católica de Chile, Santiago, CHILE
Paper 24.7. Evaluation of Converter Topologies and Controllers for Power Quality Compensators Under Unbalanced Conditions
L. A. Pittorino, J. A. du Toit, J. H. R. Enslin, University of Stellenbosch, Matieland, Western Cape, SOUTH AFRICA
Wednesday, June 25, 2:00 pm-5:30 pm
Chair: A. F. Witulski, University of Arizona, Tucson, AZ, USA
Chair: G. Hurley, University College-Galway, Galway, IRELAND
Paper 25.1. A Generalised Dynamic Transformer Circuit Model Including All Types of Core Losses
J. Zhu, University of Technology, Sydney, Sydney, New South Wales, AUSTRALIA, S. Y. R. Hui, City University of Hong Kong, Kowloon Tong, HONG KONG
Paper 25.2. Phenomenological Model for Soft Ferrites MnZn Including the Temperature
L. Zegadi, J. J. Rousseau, P. Tenant, CEGELY INSA, Villeurbanne, FRANCE
Paper 25.3. Planar Integrated Output Filters for Hybrids
S. J. Marais, J. A. Ferreira, J. D. van Wyk, Rand Afrikaans University, Auckland Park-Johannesburg, SOUTH AFRICA
Paper 25.4. A Quick Way to Determine the Optimum Layer Size and Their Disposition in Magnetic Structures
J. M. Lopera, M. J. Prieto, F. Nuño, A. M. Pernía, J. Sebastian, Universidad de Oviedo, Gijon, SPAIN
Paper 25.5. Optimised Planer Integrated L-C-T Components
I. W. Hofsajer, J. A. Ferreira, J. D. van Wyk, Rand Afrikaans University, Auckland Park-Johannesburg, SOUTH AFRICA
Paper 25.6. Modeling and Analysis of Multi-Interphase Transformers for Connecting Power Converters in Parallel
I. G. Park, Wonkwang University, Iksan-Si, Chonbuk, SOUTH KOREA
Paper 25.7. Coreless PCB-Based Transformers for Power MOSFET/IGBT Gate Drive Circuits
S. Y. R. Hui, H. Chung, S. C. Tang, City University of Hong Kong, Kowloon Tong, HONG KONG
Thursday, June 26, 8:30 am-12:00 pm
Chair: M. Jovanovic, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Chair: M. Nakaoka, Yamaguchi University, Ube, Yamaguchi, JAPAN
Paper 26.1. New ZVS PWM Converter with Minimized Conduction Loss of Auxiliary Switch
G. B. Joung, Woosuk University, Jeonbuk, SOUTH KOREA
Paper 26.2. Active Clamp Circuits for Switchmode Regulators Supplying Microprocessor Loads
S. R. Sanders, University of California at Berkeley, Berkeley, CA, USA, R. Rossetti, National Semiconductor Corporation, USA
Paper 26.3. Assesment of the Impact of Transformer Coupling Quality on Steady State Characteristics of Series Resonant Converters
H. Jiang, G. Maggetto, Vrije Universiteit Brussel, Brussels, BELGIUM
Paper 26.4. A Family of PWM Soft-Single-Switched Converters with Low Voltage and Current Stresses
L. d. R. Barbosa, E. A. A. Coelho, L. C. de Freitas, J. B. Vieira, Jr., V. J. Farias, Universidade Federal de Uberlândia, Uberlândia, Minas Gerais, BRAZIL
Paper 26.5. Control Method for Low-Voltage Dc Power Supply in Battery-Powered Systems with Power Management
B. Arbetter, D. Maksimovic, University of Colorado-Boulder, Boulder, CO, USA
Paper 26.6. Single Power Supply Based Transformerless IGBT/MOSFET Gate Drive with 100% High-Side Turn-ON Duty Cycle Operation Performance Using Auxiliary Bootstrapped Charger Pumper
R. L. Line, F. C. Lee, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 26.7. A High Efficiency Class A Amplifier Accompanied a Class D Switching Amplifier
J. H. Jeong, B. R. Min, G. H. Kim, Korea Telecom, Seoul, SOUTH KOREA, G. H. Jung, G. H. Cho, Korea Advanced Institute of Science and Technology, Taejon, SOUTH KOREA
Thursday, June 26, 8:30 am-12:00 pm
Chair: Z. Cucej, University of Maribor, Maribor, SLOVENIA
Chair: Y. Jang, Delta Power Electronics Lab, Inc., Blacksburg, VA, USA
Paper 27.1. Auxiliary Resonant Commutated Pole Inverter Toplogy with Improved Turn-Off Switching Scheme
M. Kim, D. Hyun, Hanyang University, Seoul, SOUTH KOREA
Paper 27.2. The Auxiliary Resonant Commutated Pole Matrix Converter for Dc - Applications
S. Bernet, ABB Corporate Research, Heidelberg, GERMANY
Paper 27.3. A New Half-Bridge Inverter Topolgy with Active Auxiliary Resonant Circuit Using Insulated Gate Bipolar Transistors for Induction Heating Applications
J. Jung, B. Lee, B. Suh, D. Hyun, Hanyang University, Seoul, SOUTH KOREA
Paper 27.4. Influence of the Conducting Inductance in the Auxiliary Resonant Commutated Pole Inverter
K. Iida, Toyo Electric Mfg. Co., Ltd., JAPAN, H. Matsuo, Nagasaki University, Nagasaki, JAPAN, T. Sakuma, Toyo Electric Mfg. Co., Ltd., JAPAN, F. Kurokawa, Nagasaki University, Nagasaki, JAPAN
Paper 27.5. An Improved Control Strategy for a 50-kHz Auxilary Resonant Commutated Pole
F. R. Salberta, J. S. Mayer, The Pennsylvania State University, University Park, PA, USA, R. Cooley, Naval Surface Warfare Center, USA
Paper 27.6. Class E Low dv/dt and Low di/dt Rectifiers
S. Bîrcà-Gàlàeanu, IRESTE, Nantes, FRANCE, A. Ivascu, Electronics Research Institute, Bucharest, ROMANIA
Paper 27.7. Novel ZCT Circuit for Three-Phase Buck Rectifiers
E. Sanchis-Kilders, E. Maset, J. A. Carrasco, University of Valencia, Burjassot, Valencia, SPAIN, E. J. Dede, G.H. ELIN International and University of Valencia, SPAIN
Thursday, June 26, 8:30 am-12:00 pm
Chair: J. S. Lai, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Chair: A. Raciti, Universita degli Studi di Catania, Catania, ITALY
Paper 28.1. A Modified Inverter Output Filter Configuration Reduces Differential Mode and Common Mode dv/dt at the Motor Terminals in a PWM Drive System
D. Rendusara, P. N. Enjeti, Texas A&M University, College Station, TX, USA
Paper 28.2. A Dual Bridge Inverter Approach to Eliminating Common Mode Voltages and Bearing and Leakage Currents
A. von Jouanne, H. Jhang, Oregon State University, Corvallis, OR, USA
Paper 28.3. Torque Ripple Compensation of Vector Controlled Induction Machines
R. Barro, P. Hsu, San Jose State University, San Jose, CA, USA
Paper 28.4. Vector Based Investigation of Induction Motor Drive Under Inverter Fault Operation
N. Retiere, D. Roye, Laboratoire d'Electrotechnique de Grenoble-ENSIEG, Saint Martin d'Héres, FRANCE, P. Mannevy, Société Nationale des Chemins de fer Français, FRANCE
Paper 28.5. Predictive Vector Control of the Stator Voltages for an Induction Machine Drive with Current Source Inverter
P. Eichenberger, ETH-Zentrum/ETL, Zurich, SWITZERLAND
Paper 28.6. Induction Motor Optimum Flux Search Algorithms with Transient State Loss Minimization using a Fuzzy Logic Based Supervisor
J. M. Moreno-Eguilaz, Polytechnic University of Catalonia, Barcelona, Catalunya, SPAIN, P. J. da Costa Branco, Universidade Técnica de Lisboa, Lisboa, PORTUGAL, J. Peracaula, Universitat Politécnica de Catalonia, Barcelona, Catalunya, SPAIN
Paper 28.7. Optimal Flux Selection for Maximum Torque Operation of an Induction Machine in the Flux Weakening Region
J. Seok, S. Sul, Seoul National University, Seoul, SOUTH KOREA
Thursday, June 26, 8:30 am-12:00 pm
Chair: V. Rajagopalan, Université du Québec à Trois-Rivières, Trois-Rivières, Quebec, CANADA
Chair: D. C. Hamill, University of Surrey, Guildford, Surrey, UNITED KINGDOM
Paper 29.1. On the Form of Feedback Function that can Lead to Chaos in Discontinuous-Mode Dc/Dc Converters
W. C. Y. Chan, C. K. Tse, Hong Kong Polytechnic University, Hung Hom, Kowloon, HONG KONG
Paper 29.2. Subharmonic Oscillations in Converters with Current-Mode Programming under Large Parameter Variations
S. Pavljasevic, D. Maksimovic, University of Colorado-Boulder, Boulder, CO, USA
Paper 29.3. Dynamic Bifurcation in Dc Drives
K. T. Chau, J. H. Chen, C. C. Chan, University of Hong Kong, Hong Kong, HONG KONG
Paper 29.4. Anomalous Bifurications in Dc-Dc Converters: Borderline Collisions in Piecewise Smooth Maps
S. Banerjee, Indian Institute of Technology-Kharagpur, Kharagpur, INDIA, C. Grebogi, E. Ott, J. Yorke, University of Maryland, College Park, MD, USA
Paper 29.5. A Computer Aided Method for Determining Operating-Mode Boundaries in Power Electronic Circuits
Y. Kuroe, Kyoto Inst. of Technology, Kyoto, JAPAN, T. Kato, N. Noguchi, Doshisha University, Kyoto, JAPAN
Paper 29.6. Automated Steady-State Analysis of Switching Power Converters Using A General Purpose Simulation Tool
D. Maksimovic, University of Colorado-Boulder, Boulder, CO, USA
Paper 29.7. Power Converter Steady-State Computation Using the Projected Lagrangian Method
F. Tourkhani, Université de Moncton, Moncton, New Brunswick, CANADA, P. Viarouge, LEEPCI, Saint Foy, Quebec, CANADA, T. A. Meynard, LEEI, ENSEEEIHT, Toulouse, FRANCE
Thursday, June 26, 2:00 pm-5:30 pm
Chair: W. J. Hazen, BH Power Protection-Best Power, Framingham, MA, USA
Chair: D. Maksimovic, University of Colorado-Boulder, Boulder, CO, USA
Paper 30.1. Synthesis of Two-Inductor Dc-Dc Converters
J. Wang, W. G. Dunford, The University of British Columbia, Vancouver, British Columbia, CANADA, K. Mauch, Statpower Technologies Corporation, Burnaby, British Columbia, CANADA
Paper 30.2. Synchronous Rectifier vs. Schottky Diodes in a Buck Topology for Low-Voltage Applications
O. Djekic, M. Brkovic, California Institute of Technology, Pasadena, CA, USA
Paper 30.3. A New Class of Quasi-Square-Wave Resonant Converters with ZCS
E. Ismail, A. Sebzali, College of Technological Studies-Kuwait, Al-Shaa'b, KUWAIT
Paper 30.4. A Plasma Burner Converter Based on the Partial Series Resonant Converter
S. D. Roos, J. A. Ferreira, W. G. Odendaal, Rand Afrikaans University, Auckland Park-Johannesburg, SOUTH AFRICA
Paper 30.5. On the Reduction of Component Count in Switched Capacitor Dc/Dc Converters
P. Chhawchharia, D. Cheng, Y. S. Lee, Hong Kong Polytechnic University, Hung Hom, Kowloon, HONG KONG
Paper 30.6. Analysis of a Full-Bridge LCC-type Parallel Resonant Converter with Capacitive Output Filter
C. Loef, Philips Research Laboratories, Aachen, Aachen, GERMANY
Paper 30.7. A Low-Current-Stress ZVT PWM Dc-Dc Converter Using a Saturable Core Reactor
D. Weng, Matsushita Electric Works (R&D), Woburn, MA, USA, S. Yuvarajan, North Dakota State University, Fargo, ND, USA
Thursday, June 26, 2:00 pm-5:30 pm
Chair: H. Matsuo, Nagasaki University, Nagasaki, JAPAN
Chair:
Paper 31.1. An Isolated Fully Soft-Switched Flyback Converter with Low Voltage Stress
H. Chung, S. Y. R. Hui, W. H. Wang, City University of Hong Kong, Kowloon Tong, HONG KONG
Paper 31.2. Inclusion of Nonlinear Output Capacitor Behavior in Zero-Voltage Switched Circuit Design
S. A. El-Hamamsy, R. A. Fisher, General Electric Company, Schenectady, NY, USA
Paper 31.3. Lossless Passive Soft Switching Methods for Inverters and Amplifiers
K. M. Smith, K. Smedley, University of California, Irvine, Irvine, CA, USA
Paper 31.4. Current Control for a Random PWM Voltage Source Inverter
C. B. Jacobina, E. R. da Silva, A. M. N. Lima, Federal University of Paraiba, Campina Grande, Paraiba, BRAZIL, R. L. S. Ribeiro, CEFET-São Luiz-Ma, Campina Grande, Paraiba, BRAZIL
Paper 31.5. Improved Spectral Performance of Random PWM Schemes with Altered Chaotic Behavior
Y. Shrivastava, S. Sathiakumar, University of Sydney, Sydney, New South Wales, AUSTRALIA, S. Y. R. Hui, City University of Hong Kong, Kowloon Tong, HONG KONG
Paper 31.6. Progressive Change of Chaotic PWM Patterns in Dc-Ac Random PWM Schemes Using Weighted Decision Making
S. Y. R. Hui, City University of Hong Kong, Kowloon Tong, HONG KONG, S. Sathiakumar, Y. Shrivastava, University of Sydney, Sydney, New South Wales, AUSTRALIA
Paper 31.7. Simple Analytical and Graphical Tools for Carrier Based PWM Methods
A. M. Hava, T. Lipo, University of Wisconsin-Madison, Madison, WI, USA, R. J. Kerkman, Allen Bradley Co., Mequon, WI, USA
Thursday, June 26, 2:00 pm-5:30 pm
Chair: P. Viarouge, LEEPCI, Saint Foy, Quebec, CANADA
Chair:
Paper 32.1. Modelling Analysis and Simulation of Motor Parameter Variation in Vector Controlled Electrical Drives
G. Rafajlovski, University St. Kiril and Metodij, Skope, MACEDONIA, E. Ratz, Technical University Sofia, Sofia, BULGARIA, D. Manov, D. Hristovski, University St. Kiril and Metodij, Skope, MACEDONIA
Paper 32.2. Complete Mathematical Analysis of Ripple Current as a Function of the Modulation Index for Direct Indirect and Bus Clamped Space Vector Modulation Techniques
S. Mazumder, Kollmorgen Industrial Drives, Blacksburg, VA, USA
Paper 32.3. A Passivity-Based Controller for High-Performance Motion Control of Induction Motors
L. U. Gökdere, University of South Carolina, Columbia, SC, USA, M. A. Simaan, University of Pittsburg, Pittsburg, PA, USA, C. W. Brice, University of South Carolina, Columbia, SC, USA
Paper 32.4. Modern Autonatics Tools for an Indentification and a Field-Oriented Control Design of an Induction Machine
C. Milliet, O. Leroux, Y. Li, B. Fauvrig, C. Barchann, I.U.T de Nantes-GE44/LREEP, Nantes, FRANCE
Paper 32.5. Input Power Minimization at Inverter Fed Induction Motor Drive System with FOC by Field Weakening
Z. Cucej, University of Maribor, Maribor, SLOVENIA, D. Borojevic, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA
Paper 32.6. Space-Vector Modulator for Polyphase Voltage-Sourced Dc-Ac Converters
J. Kyyrä, Helsinki University of Technology, Espoo, FINLAND
Paper 32.7. Adaptive Observers for Robust Flux Estimation of IM Drives
L. Harnefors, H. Nee, Royal Institute of Technology, Stockholm, SWEDEN
Thursday, June 26, 2:00 pm-5:30 pm
Chair: N. Dai, Celestica Corp., Endicott, NY, USA
Chair: A. von Jouanne, Oregon State University, Corvallis, OR, USA
Paper 33.1. Measurement and Correction of Conducted Electrical Noise in Distributed Power Supplies (1 kW) with Power Factor Corrector
F. P. Ridao, J. M. Carrasco, L. G. Franquelo, Escuela Superior de Ingenieros Industriales de Sevilla, Sevilla, SPAIN
Paper 33.2. A New Technique for Spectral Analysis of Conducted Noise of a SMPS Including Interconnects
W. Teulings, J. L. Schanen, J. Roudet, Laboratoire d'Electrotechnique de Grenoble-ENSIEG, Saint Martin d'Héres, FRANCE
Paper 33.3. Influence of the Gate Drive Techniques on the EMI-Behavior of a Power Converter
I. Zverev, University of Rostock, Rostock, GERMANY, S. Konrad, University of Ilmenau, Ilmenau, GERMANY, H. Voelker, University of Rostock, Rostock, GERMANY
Paper 33.4. Near-Field Characterisation of Power Electronics Circuits for Radiation Prediction
M. Youssef, J. Roudet, Y. Marechal, Laboratoire d'Electrotechnique de Grenoble-ENSIEG, Saint Martin d'Héres, FRANCE
Paper 33.5. The Possibilities of Reducing Conducted Line Emissions by Modifying the Basic Parameters of Voltage-Fed Pulsed Inverters
S. Guttowski, K. Heumann, H. Jörgensen, Technische Universität Berlin, Berlin, GERMANY
Paper 33.6. A New Space Vector Modulation Strategy for Common Mode Voltage Reduction
A. L. Julian, G. Oriti, T. Lipo, University of Wisconsin-Madison, Madison, WI, USA
Paper 33.7. An Active Circuit for Cancellation of Common-Mode Voltage Generated by a PWM Inverter
S. Ogasawara, H. Ayano, H. Akagi, Okayama University, Okayama, JAPAN
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