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SESSION 1. Plenary |
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Wednesday |
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Thursday |
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Chair: J.L. Hudgins, University of South Carolina,
Columbia, SC, USA
Chair: R. Spée, Maxwell Technologies, San Diego, CA,
USA
Paper 1.1. PESC '99 OVERVIEW
R. Spée, J.L. Hudgins
Paper 1.2. INVITED PAPER
Power Electronics Technology at the Dawn of the New Millennium -
Status and Outlook
J.D. van Wyk, Rand Afrikaans University, Auckland Park, Johannesburg,
SOUTH AFRICA
Paper 1.3. Previously Unobserved Effects of Delay on
Current-Mode Control
E.A. Mayer, R.J. King, University of Toledo, Toledo, OH, USA
Paper 1.4. Principles of Electronic Ballast for Fluorescent
Lamps - An Overview
H. Gueldner, K. Lehnert, F. Boehme, Dresden University of Technology,
Dresden, GERMANY, R. Raiser, Osram GmbH, Muenchen, GERMANY
Paper 1.5. Ultracapacitor Based Ride-Through System for
Adjustable Speed Drives
M. Corley, J. Locker, R. Spée, Maxwell Technologies, San
Diego, CA, USA
Paper 1.6. Control and Performance of a Flywheel Energy
Storage System Based on a Doubly-Fed Induction Generator-Motor for
Power Conditioning
H. Akagi, Okayama University, Okayama City, JAPAN, H. Sato,
High-Energy Accelerator Research Organization, Tsukuba City,
JAPAN
Chair: D.C. Hamill, University of Surrey, Guildford,
U.K.
Chair: E. Santi, University of South Carolina, Columbia, SC,
USA
13:30 Paper 2.1. An Integrated CMOS DC-DC Converter and
Controller for Battery-Operated Systems
S.-H. Jung, N.-S. Jung, G.-H. Cho, Korea Advanced Institute of
Science and Technology (KAIST), Taejon, KOREA
13:55 Paper 2.2. Development of Low Profile DC/DC Power
Card Converter using Switched-Capacitor Circuits and Coreless PCB
Gate Drive
H. Chung, S.Y.R. Hui, S.C. Tang, City University of Hong Kong,
Kowloon, HONG KONG
14:20 Paper 2.3. Switched-Capacitor DC-DC Converter for
Low-Power On-Chip Applications
D. Maksimovic, S. Dhar, University of Colorado, Boulder, CO, USA
14:45 Paper 2.4. A Comparative Study of Different Buck
Topologies for High Efficiency Low Voltage Applications
A. Consoli, F. Gennaro, A. Testa, University of Catania, Catania,
ITALY
15:10 BREAK
15:40 Paper 2.5. Very Fast Transient Voltage Regulators
Based on Load Correction
N.K. Poon, C.K. Tse, J. Liu, Hong Kong Polytechnic University, Hung
Hom, HONG KONG
16:05 Paper 2.6. A DC/DC Boost Converter Towards Fully
On-Chip Integration Using New Micromachined Planar Inductors
S. Iyengar, T.M. Liakopoulos, C.H. Ahn, University of Cincinnati,
Cincinnati, OH, USA
16:30 Paper 2.7. Digital PWM Control: Application in
VRM's
A.M. Wu, S.R. Sanders, University of California Berkeley, Berkeley,
CA, USA
Chair: J. Arau, Centro Nacional de Investigation y
Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO
Chair: J. Locker, Maxwell Technologies, San Diego, CA, USA
13:30 Paper 3.1. An Efficient PFC Voltage Regulator with
Reduced Redundant Power Processing
M.H.L. Chow, C.K. Tse, Y.S. Lee, Hong Kong Polytechnic University,
Hung Hom, HONG KONG
13:55 Paper 3.2. Analysis of a High Power Factor Rectifier
Based on Discontinuous Capacitor Voltage Mode Operation
V. Grigore, J. Kyyrä, Helsinki University of Technology, Espoo,
FINLAND
14:20 Paper 3.3. One Stage, Fast Response, Buck Based
AC-to-DC Converter with Active Input Current Shaping
A. Fernández, J. Sebastián, P. Villegas, M.M. Hernando,
Universidad de Oviedo, Gijón, SPAIN
14:45 Paper 3.4. Steady-State Analysis of AC-to-DC
Converter with Active Input Current Shaper Based on Delayed Forward
Output
J. Sebastián, A. Fernández, P. Villegas, Universidad de
Oviedo, Gijón, SPAIN
15:10 BREAK
15:40 Paper 3.5. A Simple Single-Switch Single-Stage AC/DC
Converter with Fast Output Voltage Regulation
O. García, J.A. Cobos, P. Alou, R. Prieto, J. Uceda,
Universidad Politecnica de Madrid, Madrid, SPAIN
16:05 Paper 3.6. A Mixed-Signal ASIC Power-Factor
Correction (PFC) Controller for High Frequency Switching
Rectifiers
R. Zane, D. Maksimovic, University of Colorado, Boulder, CO, USA
16:30 Paper 3.7. A Single Phase Two-Switch Buck-Boost Type
AC-DC Converter with a High Power Factor and Sinusoidal Source
Current
V.F. Pires, EST Instituto Politecnico Setubal, Setubal, PORTUGAL,
J.F. Silva, Universidade Tenica de Lisboa, Lisboa Codex, PORTUGAL
Chair: P. Maranesi, University of Milan, Milan, ITALY
Chair: K. Smedley, University of California - Irvine, Irvine,
CA, USA
13:30 Paper 4.1. Decoupled Control of the Active and
Reactive Power in Three-Phase PWM Rectifiers Based on Non-linear
Control Strategies
J.R. Espinoza, G. Joós, L. Morán, Universidad de
Concepcion, Concepcion, CHILE
13:55 Paper 4.2. Control Strategy of an Interleaved Boost
Power Factor Correction Converter
J.R. Pinheiro, H.A. Grüngling, Federal University of Santa
Maria, Santa Maria, RS, BRAZIL
14:20 Paper 4.3. A Fully Digital Control Employing a Dead
Beat Technique for Power Active Filters
A. Campos, J. Kaffka, C.A. Claro, Campus Universitario - Camobi,
Santa Maria, RS, BRAZIL
14:45 Paper 4.4. Development of a Fuzzy Logic Controller
for Boost Rectifier with Active Power Factor Correction
H. Chung, S.Y.R. Hui, E.P.W. Tam, City University of Hong Kong,
Kowloon, HONG KONG
15:10 BREAK
15:40 Paper 4.5. Discrete-Time Sliding Mode Control of
Unified Active Power Filter
S. Muthu, J.M.-S. Kim, University of Victoria, Victoria, BC,
CANADA
16:05 Paper 4.6. Internal Model Current Control of
VSC-Based Active Power Filters
M. Sedifhy, S.B. Dewan, F.P. Dawson, University of Toronto, Toronto,
ON, CANADA
16:30 Paper 4.7. Design of Parallel Sources in DC
Distributed Power Systems by using Gain-Scheduling Technique
Z. Ye, D. Boroyevich, K. Xing, F.C. Lee, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
Chair: A. Gandelli, Politecnico di Milano, Milano,
ITALY
Chair: J. Lai, Virginia Polytechnic Institute and State
University, Blacksburg, VA, USA
13:30 Paper 5.1. A Low Cost 24-Pulse Diode Rectifier for
High Voltage and High Power Applications
S. Choi, J. Oh, K. Kim, Seoul National Polytechnic University, Seoul,
KOREA
13:55 Paper 5.2. Implementation of a Two Steps Commutated
Matrix Converter
M. Ziegler, W. Hofmann, Technische Universität Chemnitz,
Chemnitz, GERMANY
14:20 Paper 5.3. Direct AC/DC Conversion Without Input
Rectification
A. Ikriannikov, S. Cuk, California Institute of Technology, Pasadena,
CA, USA
14:45 Paper 5.4. Decoupled Control of a 4-Leg Inverter via
a New 4x4 Transformation Matrix
M.J. Ryan, R.W. de Doncker, Institute for Power Electronics and
Electrical Drives, Aachen, GERMANY, R.D. Lorenz, University of
Wisconsin - Madison, Madison, WI, USA
15:10 BREAK
15:40 Paper 5.5. A Serial Regulator Using a Soft Switching
PWM AC/AC Full Bridge Converter
J.C. de Oliveira, F.J. Farias, L.C. de Freitas, J.B. Vieira Jr.,
Universidade Federal de Uberlandia, Uberlandia, BRAZIL
16:05 Paper 5.6. A Simplified Auto-Connected Electronic
Transformer (SACET) Approach Upgrades 6-Pulse Rectifier Equipment
with 12-Pulse Characteristics and Facilities Harmonic Compliance
M. Kang, P.N. Enjeti, Texas A&M University, College Station, TX,
USA, I.J. Pitel, Magna-Power Electronics, Boonton, NJ, USA
16:30 Paper 5.7. Continuous Conduction Mode Operation of a
Three-Phase Power Factor Correction Circuit with Quasi
Tri-Directional Switches
D. Carlton, W.G. Dunford, University of British Columbia, Vancouver,
BC, CANADA, M. Edmonds, Xantrex Technology Inc., Burnaby, BC,
CANADA
Chair: J.H.R. Enslin, University of Stellenbosch,
Stellenbosch, SOUTH AFRICA
Chair: N. Mohan, University of Minnesota, Minneapolis, MN,
USA
8:30 Paper 6.1. A Series LC Filter for Harmonic
Compensation of AC Drives
F.Z. Peng, C. Su, Oak Ridge National Laboratory, Oak Ridge, TN,
USA
8:55 Paper 6.2. Analysis and Design of a Three Phase
Sliding Mode Controller for a Shunt Active Power Filter
V. Cádenas, CENIDET, Cuernavaca, MEXICO, N. Vázquez, C.
Hernández, Instituto Tecnologico de Celaya, Celaya, MEXICO
9:20 Paper 6.3. Analysis and Design of a Three Phase Active
Shunt Power Filter Based on the Non-Linear passivity Approach
V. Cárdenas, CENIDET, Cuernavaca, MEXICO, C. Nuñez,
ITESRC, MEXICO, M. Oliver, N. Visairo, S. Ramírez, CENIDET,
Cuernavaca, MEXICO, H. Sira-Ramírez, Universidad de los Andes,
VENEZUELA
9:45 Paper 6.4. A Resonant Inverter as a Controlled
Reactance
Y. Berkovich, Holon Center of Technological Education, Beer-Sheva,
ISRAEL, G. Ivensky, S. Ben-Yaakov, Ben-Gurion University of the
Negev, Beer-Sheva, ISRAEL
10:10 BREAK
10:40 Paper 6.5. Three-Phase Active Filter Topology Based
on a Reduced Switch Count Voltage Source Inverter
K. Haddad, MTE Corporation, Menomonee Falls, WI, USA, G. Jóos,
Concordia University, Montreal, QC, CANADA
11:05 Paper 6.6. The Method Based on a Generalized dqk
Coordinate Transform for Current Detection of an Active Power Filter
and Power System
B. Zhang, M.H. Pong, Hong Kong University, HONG KONG
11:30 Paper 6.7. A New Control Scheme of Series Hybrid
Active Filter
B.N. Singh, University of Quebec, Montreal, QC, CANADA, B. Singh,
Indian Institute of Technology Delhi, Hauz Khas, New Delhi, INDIA, A.
Chandra, K. Al-Haddad, University of Quebec, Montreal, QC, CANADA
Chair: J. Cobos, Univ Politecnica de Madrid, Madrid,
SPAIN
Chair: J. Sun, Rockwell Collins, Advanced Technology Center,
Cedar Rapids, IA, USA
8:30 Paper 7.1. ZVS-PWM Full-Bridge Converter Using Active
Current Clamping with Synchronous Rectifiers
K. Yoshida, N. Nagagata, T. Ishii, H. Handa, Matsushita Electric
Industrial Co., Ltd., Osaka, JAPAN
8:55 Paper 7.2. A Novel Pulse Width Control Scheme for
Fixed Frequency Zero Voltage Switching DC-to-DC PWM Bridge
Converter
F. Hamdad, A.K.S. Bhat, University of Victoria, Victoria, BC,
CANADA
9:20 Paper 7.3. An Isolated ZVS-PWM DC-to-DC Converter with
Half of the Input Voltage Across the Switches
I. Barbi, E. Deschamps, Federal University of Santa Catarina,
Florianopolis, SC, BRAZIL
9:45 Paper 7.4. ZVS-PWM-Controlled Parallel-Resonant
Converter Applied to a Constant-Current Power Supply
T. Ninomiya, T. Hashimoto, H. Tanaka, R.P. Tymerski, Kyushu
University, Fukuoka, JAPAN
10:10 BREAK
10:40 Paper 7.5. A Modified Zero Voltage Switching Forward
Converter Topology with Self Core Reset
Y. Xi, P. Jain, Y. Liu, R. Orr, Concordia University, Montreal, QC,
CANADA
11:05 Paper 7.6. Design of a Novel ZVT Soft-Switching
Chopper
H. Yu, B.M. Song, J.S. Lai, Virginia Polytechnic Institute and State
University, Blacksburg, VA, USA
11:30 Paper 7.7. Improving the Operation of ZVT DC-DC
Converters
P.J.M. Menegáz, M.A. Có, D.S.L. Simonetti, J.L.F.
Vieira, Federal University of Espirito Santo, Vitoria, ES, BRAZIL
Chair: J. Sebastian, Universidad de Oviedo, Gijón,
SPAIN
Chair: E.E. Landsman, American Power Conversion Corp.,
Billerica, MA, USA
8:30 Paper 8.1. Low-Distortion Control of
Unity-Power-Factor Converters in Discontinuous Conduction Mode
E. Santi, University of South Carolina, Columbia, SC, USA, Z. Zhang,
TESLAco, S. Cuk, Caltech, Pasadena, CA, USA
8:55 Paper 8.2. Problems Using LISN in EMI Characterization
of Power Electronic Converters
J.C. Crebier, J. Roudet, J.L. Shanen, Institut National Polytechnique
de Grenoble, Saint Martin-d'Heres Cedex, GRENOBLE, FRANCE
9:20 Paper 8.3. A Low-Inductance Line-Frequency Commutated
Rectifier Complying with IEC 1000-3-2 Standards
J.A. Pomilio, University of Campinas, Campinas, BRAZIL, G. Spiazzi,
University of Padova, Padova, ITALY
9:45 Paper 8.4. Performance Improvement of Half Controlled
Three Phase PWM Boost Rectifier
J. Kikuchi, M.D. Manjrekar, T.A. Lipo, University of Wisconsin -
Madison, Madison, WI, USA
10:10 BREAK
10:40 Paper 8.5. A Novel Single-Stage DC-UPS with Power
Factor Correction
E. Rodríguez, N. Vazquez, J. Arau, CENIDET, Cuernavaca,
MEXICO
11:05 Paper 8.6. Design Aspects of Paralleled Three-Phase
DCM Boost Rectifiers
P.M. Barbosa, F.C. Lee, Virginia Polytechnic Institute and State
University, Blacksburg, VA, USA
11:30 Paper 8.7. A Novel Rectifier/Inverter with Adjustable
Power Factor
D. Shmilovitz, D. Czarkowski, Z. Zabar, S.-Y. Yoo, Polytechnic
University, Brooklyn, NY, USA
Chair: M. Cotorogea, Centro Nacional de Investigation y
Desarrollo Technologico (CENIDET), Cuernavaca, Morelos, MEXICO
Chair: W.M. Portnoy, Texas Tech. University, Lubbock, TX,
USA
8:30 Paper 9.1. Thermal Instability in High Current
Capability Power MOSFETs
A. Consoli, G. Cosentino, F. Gennaro, A. Testa, University of
Catania, Catania, ITALY, F. Frisina, R. Letor, A. Magri, ST
Microelectronics, Catania, ITALY
8:55 Paper 9.2. High-Frequency AC-AC Converter Using
Integrated 3-in-1 Bilateral Switches and Adaptive Commutation
J. Chang, Rockwell Science Center, Thousand Oaks, CA, USA
9:20 Paper 9.3. A PSPICE Model of the DGEST based on the
Ambipolar Diffusion Equation
P.R. Palmer, B.H. Stark, University of Cambridge, Cambridge, UK
9:45 Paper 9.4. A Novel High Accuracy Analog Behavioral
IGBT Spice Macromodel
G. Maxim, A. Maxim, Technical University <<Gh. Asachi >>,
Iasi, ROMANIA
10:10 BREAK
10:40 Paper 9.5. 2.65 MHz High Efficiency Soft-Switching
Power Amplifier System
J. Qian, G. Bruning, Philips Electronics North America Corporation,
Briarcliff Manor, NY, USA
11:05 Paper 9.6. Measurement of IGBT Switching Frequency
Limits
K. Sheng, B.W. Williams, Heriot-Watt University, Edinburgh, UK, X.
He, Z. Qian, Zhejiang University, Hangzhou, CHINA, S.J. Finney,
Heriot-Watt University, Edinburgh, UK
11:30 Paper 9.7. Power GTO with Compensated Ring
Anode-Short
C. Zhang, N. Xu, Xi'an Power Electronics Research Institute, Xi'an,
CHINA, Z. Chen, Xi'an University of Technology, Xi'an, CHINA
Chair: D. Schröder, Technische Universität
München, München, GERMANY
Chair: E.R. Collins, Clemson University, Clemson, SC, USA
13:30 Paper 10.1. Power Factor Correction of Linear and
Non-Linear Loads Employing a Single Phase Active Power Filter Based
on a Full-Bridge Current Source Inverter Controlled Through the
Sensor of the AC Mains Current
I. Barbi, F. Pöttker, Federal University of Santa Catarina,
Florianopolis, SC, BRAZIL
13:55 Paper 10.2. A Multilevel Converter-Based Universal
Power Conditioner
L.M. Tolbert, F.Z. Peng, Oak Ridge National Laboratory, Oak Ridge,
TN, USA, T.G. Habetler, Georgia Institute of Technology, Atlanta, GA,
USA
14:20 Paper 10.3. A New Parallel Hybrid Filter
Configuration Minimizing Active Filter Size
S. Park, J.-H. Sung, K. Nam, POSTECH University, Pohang, KOREA
14:45 Paper 10.4. Design and Implementation of the
Parallelable Active Power Filter
S.J. Chiang, J.M. Chang, National Lien Ho College of Technology and
Commerce, Miao-Li, TAIWAN
15:10 BREAK
15:40 Paper 10.5. Resonant Characteristics of
Inverter-Based Transmission Line Series Compensators
B.S. Rigby, R.G. Harley, University of Natal, Durban, SOUTH
AFRICA
16:05 Paper 10.6. Control Algorithms for Series Static
Voltage Regulators in Faulted Distribution Systems
K. Haddad, MTE Corporation, Menomonee Falls, WI, USA, G. Jóos,
Concordia University, Montreal, QC, CANADA
16:30 Paper 10.7. Harmonic Evaluation of the Traction
System by Monte Carlo Simulation
Z.M. Ye, M.H. Pong, E. Lo, G.H. Yeun, Hong Kong University, HONG
KONG
Chair: T. Ninomiya, Kyushu University, Fukuoka, JAPAN
Chair: R. Steigerwald, GE Corporate Research &
Development, Niskayuna, NY, USA
13:30 Paper 11.1. A Novel Soft-Switching DC-DC Converter
with Wide ZVS Range and Reduced Filter Requirement
R. Ayyanar, N. Mohan, University of Minnesota, Minneapolis, MN,
USA
13:55 Paper 11.2. Small-Signal Characterization of a
Zero-Voltage Switching DC/DC Converter for Pulse-Load
Applications
J. Sun, G.K. Schoneman, D.E. Jenkins, Rockwell Collins, Inc., Cedar
Rapids, IA, USA
14:20 Paper 11.3. New ZVZCS PWM DC-DC Converters With One
Auxiliary Switch
S.-H. Ryu, D.-Y. Lee, S.-B. Yoo, D.-S. Hyun, Hanyang University,
Seoul, KOREA
14:45 Paper 11.4. A New Family of Zero-Current-Switching
PWM Converters
F.T. Wakabayashi, M.J. Bonato, C.A. Canesin, Paulista State
University, Ilha Solteira, SP, BRAZIL
15:10 BREAK
15:40 Paper 11.5. Adaptive Off-Time Control for
Variable-Frequency, Soft-Switched Flyback Converter at Light
Loads
Y. Panov, M.M. Jovanovic, Delta Products Corporation, Research
Triangle Park, NC, USA
16:05 Paper 11.6. A Soft-Switched Boost Converter for High
Frequency Operation
R. Gurunathan, AKS Bhat, University of Victoria, Victoria, BC,
CANADA
16:30 Paper 11.7. Low Peak Current Class E Resonant
Full-Wave Low dv/dt Rectifier Driven by a Voltage Generator
S. Bîrca-Galateanu, I.U.F.M. of the Academy of Nantes, Nantes,
FRANCE
Chair: A.M.N. Lima, Federal University of Paraiba, Campina
Grande, PB, BRAZIL
Chair: T.M. Jahns, University of Wisconsin - Madison, Madison,
WI, USA
13:30 Paper 12.1. Economic Three-Phase Induction Motor
Drive for Single-Phase AC Power Source
C.B. Jacobina, M.B.R Correa, A.M.N. Lima, E.R. da Silva, Federal
Universidade Federal da Paraiba, Campina Grande, PB, BRAZIL
13:55 Paper 12.2. Luenberger Flux and Speed Observer for
High Speed Sensorless Induction Motor Drives
F. Profumo, G. Griva, A. Tenconi, M. Abrate, Politecnico di Torino,
Torino, ITALY
14:20 Paper 12.3. A Novel Quasi-Resonant DC-Link PWM
Inverter for Induction Motor Drive
J.J. Jafar, B.G. Fernandes, Indian Institute of Technology Kanpur,
Kanpur, INDIA
14:45 Paper 12.4. High Bandwidth Direct Adaptive
Neurocontrol of Induction Motor Current and Speed Using Continual
Online Random Weight Change Training
B. Burton, R.G. Harley, University of Natal, Durban, SOUTH AFRICA,
T.G. Habetler, Georgia Institute of Technology, Atlanta, GA, USA
15:10 BREAK
15:40 Paper 12.5. A Soft Switched Current Controlled
Converter for Induction Machine Driving
D.A. Andrade, R.M. Finzi Neto, F.J. Farias, L.C. de Freitas, J.B.
Vieira Jr., Universidade Federal de Uberlandia, Uberlandia,
BRAZIL
16:05 Paper 12.6. Induction Motor Neural Stator Flux
Estimation Using Active and Reactive Power for Direct Torque
Control
J. Ghouili, A. Chériti, Universite du Quebec a Trois-Rivieres,
Trois-Rivieres, QC, CANADA
16:30 Paper 12.7. A High Performance PWM Current Source
Inverter Fed Induction Motor Drive with a Novel Motor Current Control
Method
M. Salo, H. Tuusa, Tampere University of Technology, Tampere,
FINLAND
Chair: S. Ben-Yaakov, Ben-Gurion University of the Negev,
Beer-Sheva, ISRAEL
Chair: S. Bhowmik, Southwest Research Institute, San Antonio,
TX, USA
13:30 Paper 13.1. A Novel Control of Three-Phase PWM
Rectifier Using Single Current Sensor
Y.-C. Lee, T.-J. Kweon, D.-S. Hyun, T.-K. Lee, Hanyang University,
Seoul, KOREA
13:55 Paper 13.2. A New Instantaneous Output Current
Control Method for Inverter Arc Welding Machine
Y.-M. Chae, J.-S. Gho, H.-S. Mok, G.-H. Choe, S.-W. Han, Konkuk
University, Seoul, KOREA
14:20 Paper 13.3. Microprocessor-Based Control System for
High-Speed Three-Phase Voltage-Source Inverters with
LC-Output-Filter
C. Fritsche, P. Schmitt, Swiss Federal Institute of Technology
Zurich, Zurich, SWITZERLAND, C. Gerster, Sulzer Electronics AG,
Geschäftseinheit NTI, SWITZERLAND
14:45 Paper 13.4. An Instantaneous Phase Angle Detection
Algorithm Under Unbalanced Line Voltage Conditions
H.-S. Song, H.-G. Park, K. Nam, POSTECH University, Pohang, KOREA
15:10 BREAK
15:40 Paper 13.5. A Reversible Step-Up Voltage Source
Inverter Controlled by Indirect Sliding Mode
I. Barbi, I.E. Colling, Federal University of Santa Catarina,
Florianopolis, SC, BRAZIL
16:05 Paper 13.6. Random Modulation Techniques with Fixed
Switching Frequency for Three-Phase Power Converters
M.M. Bech, F. Blaabjerg, J.K. Pedersen, Aalborg University, Aalborg
East, DENMARK
16:30 Paper 13.7. DSP Control of UPS Inverters with a
Current Limit using a Droop Method
M. Mon, R. Johnson, Exide Electronics, Raleigh, NC, USA
Chair: J. Madden, PEI Technologies, Cork, IRELAND
Chair: S.B. Bayne, Naval Research Lab, Washington, DC, USA
8:30 Paper 14.1. In-Board Magnetics Processes
Y.E. Zhang, S.R. Sanders, University of California Berkeley,
Berkeley, CA, USA
8:55 Paper 14.2. Analytical Method for Generalization of
Numerically Optimized Inductor Winding Shapes
J. Hu, C.R. Sullivan, Dartmouth College, Hanover, NH, USA
9:20 Paper 14.3. 1D Magnetic Component Model for Planar
Structures
R. Prieto, J.A. Oliver, J.A. Cobos, J. Uceda, Universidad Politecnica
de Madrid, Madrid, SPAIN
9:45 Paper 14.4. Optimizing the AC Resistance of Multilayer
Transformer Windings with Arbitrary Current Waveforms
W.G. Hurley, National University of Ireland, Galway, IRELAND, E.
Gath, University of Limerick, Limerick, IRELAND, J.G. Breslin,
National University of Ireland, Galway, IRELAND
10:10 BREAK
10:40 Paper 14.5. Experimental Evaluation of Losses in
Planar Inductors for Model Validation
T.G. Imre, W.A. Cronje, J.D. van Wyk, Rand Afrikaans University,
Auckland Park, GAUTENG, SOUTH AFRICA, J.A. Ferreira, Delft Technical
University, Delft, Netherlands
11:05 Paper 14.6. An Advanced SPICE-Compatible Model for
High Frequency Multiwinding Transformers
P.F. Okyere, Dresden University of Technology, Dresden, GERMANY, L.
Heinemann, ABB Corporate Research Center, Heidelberg, GERMANY
11:30 Paper 14.7. Model of Integrated Magnetics by Means of
Finite Element Analysis Techniques
R. Prieto, J.A. Cobos, O. García, P. Alou, J. Uceda,
Universidad Politecnica de Madrid, Madrid, SPAIN
Chair: J.A. Ferreira, Delft University of Technology,
Delft, THE NETHERLANDS
Chair: F.Z. Peng, Oak Ridge National Laboratory, Oak Ridge,
TN, USA
8:30 Paper 15.1. Control Strategy of a Power Line
Conditioner for Cogeneration Plants
D. Casadei, G. Grandi, University of Bologna, Bologna, ITALY, R.K.
Jardan, Technical University of Budapest, Budapest, HUNGARY, F.
Profumo, Politecnico of Turin, Torino, ITALY
8:55 Paper 15.2. Control Design of Three-Level Voltage
Source Inverter for SMES Power Conditioning System
N. Celanovic, D.-H. Lee, D. Peng, D. Borojevic, F.C. Lee, Virginia
Polytechnic Institute and State University, Blacksburg, VA, USA
9:20 Paper 15.3. The Bootstrap Variable Inductance: A New
Facts Control Element
D.C. Hamill, M.T. Bina, University of Surrey, Guildford, UK
9:45 Paper 15.4. Transient Analysis of a Unified Power Flow
Controller, and its Application to Design of the DC Link
Capacitor
H. Fujita, Y. Watanabe, H. Akagi, Okayama University, Okayama City,
JAPAN
10:10 BREAK
10:40 Paper 15.5. New Approach to Photovoltaic Array
Maximum Power Point Tracking
A. Brambilla, Politecnico di Milano, Milano, ITALY, M. Gambarara, A.
Garutti, F. Ronchi, FIAR S.p.a., a Finmeccanica Company, Milano,
ITALY
11:05 Paper 15.6. Improvement of Drive Range, Acceleration
and Deceleration Performance in an Electric Vehicle Propulsion
System
X. Yan, D. Patterson, Northern Territory University, Darwin, NT,
AUSTRALIA
11:30 Paper 15.7. Half-Cycle Amplitude Shift Keying as a
Means of High-Speed Data Transfer in Applications using Inductively
Power Devices
J.S. Mueller, A.W. Kelley, North Carolina State University, Raleigh,
NC, USA
Chair: A. Kawamura, Yokohama National University, Yokohama,
JAPAN
Chair: R.V. White, Artesyn Technologies, Broomfield, CO,
USA
8:30 Paper 16.1. Implementation of a ZCT Soft Switching
Technique in a 100 kW PEBB Based Three-Phase PFC Rectifier
J. Wu, H. Dai, K. Xing, F.C. Lee, D. Borojevic, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
8:55 Paper 16.2. Three-Phase Current-Fed Soft Switching PWM
Converter with Switched Capacitor Type Resonant DC Link
Y. Konishi, Fuji Electric Co. Ltd., Kobe, JAPAN, M. Ishibashi, N.
Baba, M. Nakaoka, Yamaguchi University, Ube, JAPAN
9:20 aper 16.3. Evaluation of Soft Switching Techniques for
the Neutral-Point-Clamped Inverter
X. Yuan, Swiss Federal Institute of Technology, Zurich, SWITZERLAND,
I. Barbi, Federal University of Santa Catarina, Florianopolis, SC,
BRAZIL
9:45 Paper 16.4. A Family of Isolated Single-Stage ZVS-PWM
Active-Clamping Converters
T.-F. Wu, S.-A. Liang, C.-H. Lee, National Chung Cheng University,
Chia-Yi, TAIWAN
10:10 BREAK
10:40 Paper 16.5. A New Soft Recovery Pulse Width
Modulation Quasi-Resonant Converter with Multiple Order Valley-Fill
Network
J.-K. Chung, G. Chae, G.-H. Cho, Korea Advanced Institute of Science
and Technology (KAIST), Teajon, KOREA
11:05 Paper 16.6. A Single-Switched PWM Resonant Converter
for a Boost Rectifier
I.-H. Oh, Samsung Electronics, Puchon city, KOREA
11:30 Paper 16.7. Soft-Switched High Power Factor Boost
Type AC/DC Converter
M. Nagao, K. Harada, Kumamoto Institute of Technology, Kumamoto,
JAPAN
Chair: W. Schumacher, Technische Universität
Braunschweig, Braunschweig, GERMANY
Chair: S.R. Sanders, University of California Berkeley,
Berkeley, CA, USA
8:30 Paper 17.1. Modeling and Design of Three-Phase Systems
Using Complex Transfer Functions
S. Gataric, Lockheed Martin Control Systems, Johnson City, NY, USA,
N.R. Garrigan, GE Corporate Research and Development Center,
Niskayuna, NY, USA
8:55 Paper 17.2. Dynamic Modeling of Distributed Power
Systems with Power Factor Correction
G. Zhu, I. Batarseh, University of Central Florida, Orlando, FL, USA,
K. Siri, The Aerospace Corporation, El-Segundo, CA, USA
9:20 Paper 17.3. Characterization of Single Stage 3 Phase
Power Factor Correction Circuit using Modular Single Phase PWM
DC-to-DC Converters
Y.D.E. Ho, S.Y.R. Hui, Y.S. Lee, City University of Hong Kong,
Kowloon, HONG KONG
9:45 Paper 17.4. Analysis and Measurement of DCM Power
Factor Correctors
K.-S. Fung, W.-H. Ki, P. Mok, Hong Kong University of Science &
Technology, HONG KONG
10:10 BREAK
10:40 Paper 17.5. Analysis of Three-Phase Rectifiers with
Constant-Voltage Loads
V.A. Caliskan, D.J. Perrault, T.M. Jahns, J.G. Kassakian,
Massachusetts Institute of Technology, Cambridge, MA, USA
11:05 Paper 17.6. Dynamic Analysis of Three-Level
Voltage-Source Inverters Applied to Power Regulation
S. Alepuz, Mataro School of Engineering, Mataro (Barcelona), SPAIN,
J. Bordonau, J. Peracaula, Universitat Politecnica de Catalunya,
Barcelona, SPAIN
11:30 Paper 17.7. Dynamic Modeling of an Inverter-Based
Compensator
B.K. Perkins, University of Manitoba, Winnipeg, MANITOBA, CANADA
Chair: W.G. Hurley, National University of Ireland, Galway,
IRELAND
Chair: C.R. Sullivan, Dartmouth University, Hanover, NH,
USA
13:30 Paper 18.1. A New Spice Behavioral Macromodeling
Method of Magnetic Components Including the Self-Heating Process
A. Maxim, Technical University <<Gh. Asachi>>, Iasi,
ROMANIA, D. Andreu, J. Boucher, ENSEEIH - INP University Toulouse,
Toulouse, FRANCE
13:55 Paper 18.2. Volume Considerations of Planar
Integrated Components
I.W. Hofsajer, J.D. van Wyk, Rand Afrikaans University, Auckland
Park, SOUTH AFRICA, J.A. Ferreira, Delft Technical University, Delft,
Netherlands
14:20 Paper 18.3. Characterization of Coreless Printed
Circuit Board Transformer
S.C. Tang, S.Y.R. Hui, H. Chung, City University of Hong Kong,
Kowloon, HONG KONG
14:45 Paper 18.4. Characterization of Windings Coupling in
Multi-Winding Magnetic Components
R. Asensi, J.A. Cobos, P. Alou, R. Prieto, J. Uceda, Universidad
Politecnica de Madrid, Madrid, SPAIN
15:10 BREAK
15:40 Paper 18.5. Integrated Planar Inductor Scheme for
Multi-Module Interleaved Quasi-Square-Wave (QSW) DC/DC Converter
W. Chen, F.C. Lee, X. Zhou, P. Xu, Virginia Polytechnic Institute and
State University, Blacksburg, VA, USA
16:05 Paper 18.6. Study the Feasibility of Lamination
Technique for Mn-Zn Cores
D.M. Zhang, C.F. Foo, Nanyang Technological University, SINGAPORE
16:30 Paper 18.7. Measurement and Modelling of Stray
Capacitances in High Frequency Transformers
H.Y. Lu, J.G. Zhu, University of Technology - Sydney, Sydney, NSW,
AUSTRALIA, S.Y.R. Hui, City University of Hong Kong, Kowloon, HONG
KONG, V.S. Ramsden, University of Technology - Sydney, Sydney, NSW,
AUSTRALIA
Chair: F. Blaabjerg, Aalborg University, Alborg Ost,
DENMARK
Chair: W. Burns, Liebert Corporation, Columbus, OH, USA
13:30 Paper 19.1. Dynamic Control of a Fixed Pattern
Rectifier
J. Ghijselen, A. van den Bossche, J. Melkebeek, University of Gent,
Gent, BELGIUM
13:55 Paper 19.2. A New Space Vector Modulation Technique
for Inverter Control
T.-P. Chen, National Taiwan University of Science & Technology,
Taipei, TAIWAN, Y.-S. Lai, National Taipei University of Technology,
Taipei, TAIWAN,C.-H. Liu, National Taiwan University of Science &
Technology, Taipei, TAIWAN,
14:20 Paper 19.3. Switch Mode Rectifier with Indirect
Current Control
M. Dawande, G.K. Dubey, University of Roorkee, Roorkee, UP, INDIA
14:45 Paper 19.4. New Sensorless Control of Three-Phase
Bi-Directional Converter using Space Vector Modulation
S. Mazumder, A.H. Nayfeh, D. Borojevic, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
15:10 BREAK
15:40 Paper 19.5. PWM Strategy for Switching Loss Reduction
in a High Frequency Link DC to AC Converter
M.A. Rodrigues, E.R. da Silva, A.M. de Lima, C.B. Jacobina, Federal
University of Paraiba, Campina Grande, PB, BRAZIL
16:05 Paper 19.6. A Simple Control Strategy Applied to
Three Phase Rectifier Units for Telecommunication Applications Using
Single Phase Rectifier Modules
M.L. Heldwein, A.F. de Souza, I. Barbi, Federal University of Santa
Catarina, Florianopolois, SC, BRAZIL
16:30 Paper 19.7. Analysis and Experimental Study of the
Buck, Boost and Buck-Boost Inverters
N. Vázquez, Instituto Tecnologico de Celaya, Celaya, MEXICO,
J. Alvarex, CINVESTAV-IPN, Mexico City, MEXICO, J. Almazán, C.
Aquilar, J. Arau, CENIDET, Cuernavaca, MEXICO
Chair: F.-J. Lin, Chung Yuan Christian University, Chung
Li, TAIWAN
Chair: M.E. Elbuluk, University of Akron, Akron, OH, USA
13:30 Paper 20.1. A Bi-Directional Switched Reluctance
Drive with High Power Quality
J.Y. Zhu, S.Y.R. Hui, H. Chung, City University of Hong Kong,
Kowloon, HONG KONG
13:55 Paper 20.2. Robust Controller Design for a
Synchronous Reluctance Drive
M.-T. Lin, T.-H. Liu, National Taiwan University of Science and
Technology, Taipei, TAIWAN
14:20 Paper 20.3. Digital PLL Technique for Precise Speed
Control of SR Drive
J.-W. Woo, University of Wisconsin - Madison, Madison, WI, USA, S.-G.
uOh, Chinju National University, KOREA, C.-U. Kim, Y.-M. Hwahn, Pusan
National University, Pusan, KOREA
14:45 Paper 20.4. Adaptive Torque-Ripple Minimization in
Switched Reluctance Machines Using Observer-based Back-stepping
I. Agirman, A.M. Stankovic, G. Tadmor, Northeastern University,
Boston, MA, USA
15:10 BREAK
15:40 Paper 20.5. New Soft-Switched Power Converter
Topologies for Variable Reluctance Machine Drives
E.R. da Silva, L.P.B. de Oliveira, C.B. Jacobina, Federal University
of Pernambuco, Campina Grande, PB, BRAZIL
16:05 Paper 20.6. Inductance Based Position Encoding for
Sensorless SRM Drives
G. Suresh, B. Fahimi, K.M. Rahman, M. Ehsani, Texas A&M
University, College Station, TX, USA
16:30 Paper 20.7. Sensorless Direct Control of Brushless
Inverter Fed Permanent Magnet Excited AC Motor Drive System
H.J. Gutt, V. Bosch, D. Reismayr, University of Stuttgart, Stuttgart,
GERMANY
Chair: F. Maddaleno, Politecnico di Torino, Torino,
ITALY
Chair: D.M. Mitchell, D.M. Mitchell Consultants, Cedar Rapids,
IA, USA
13:30 Paper 21.1. A Novel Approach Base on Electric Field
Analysis to Reduce Crosstalk Problem on PCB
W. Xin, C.M. Lee, M.H. Pong, Z. Qian, Hong Kong University, HONG
KONG
13:55 Paper 21.2. A Modified Single Phase Inverter Topology
with Active Common Mode Voltage Cancellation
A. Rao, A.L. Julian, T.A. Lipo, University of Wisconsin - Madison,
Madison, WI, USA
14:20 Paper 21.3. A New Method for EMI Study in Boost
Derived PFC Rectifiers
J.C. Crebier, M. Brunello, J.P. Ferrieux, Institut National
Polytechnique de Grenoble, Saint Martin-d'Heres Cedex, GRENOBLE,
FRANCE
14:45 Paper 21.4. Analysis of Conducted EMI Emissions from
PWM Inverters Based on Empirical Models and Comparative
Experiments
H. Zhu, Y. Tang, J. Lai, Virginia Polytechnic Institute and State
University, Blacksburg, VA, USA, A.R. Hefner, National Institute of
Standards and Technology, Gaithersburg, MD, USA
15:10 BREAK
15:40 Paper 21.5. Some Electromagnetic Aspects of Coreless
PCB Transformers
S.C. Tang, S.Y.R. Hui, H. Chung, City University of Hong Kong,
Kowloon, HONG KONG
16:05 Paper 21.6. Design and Evaluation of an Active Ripple
Filter with Rogowski-Coil Current Sensing
M. Zhu, D.J. Perreault, S. Guttowski, J.G. Kassakian, Massachusetts
Institute of Technology, Cambridge, MA, USA
16:30 Paper 21.7. Conducted Electromagnetic Emissions in
Unity Power Factor AC/DC Converters: Comparison Between PWM and RPWM
Techniques
J. Mahdavi, S. Kaboli, Sharif University of Technology, Tehran,
IRAN
Chair: C.K. Tse, Hong Kong Polytechnic University, Hung
Hom, HONG KONG
Chair: K. Fellhoelter, Lucent Technologies, Coppell, TX,
USA
8:30 Paper 22.1. Impedance Specification and Impedance
Improvement for DC Distributed Power System
X. Feng, Z. Ye, K. Xing, F.C. Lee, D. Borojevic, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
8:55 Paper 22.2. An Active Bus Conditioner for a
Distributed Power System
K. Xing, F.C. Lee, D. Borojevic, Virginia Polytechnic Institute and
State University, Blacksburg, VA, USA
9:20 Paper 22.3. A Classification and Evaluation of
Paralleling Methods for Power Supply Modules
S. Luo, Z. Ye, R. Lin, F.C. Lee, Virginia Polytechnic Institute and
State University, Blacksburg, VA, USA
9:45 Paper 22.4. PWM Power Conversion Amplifier with Two
Paralleled Four Quadrant DC Chopper in Producing Magnetic Field for
MRI Systems
S. Watanabe, Yamaguchi University, Ube, JAPAN, H. Takano, Hitachi
Medical Co., JAPAN, M. Nakaoka, H. Yamamoto, Yamaguchi University,
Ube, JAPAN
10:10 BREAK
10:40 Paper 22.5. Application of a Novel Parallel
Regulation Technique in a Two Output Forward Converter
A. Ferreres, J.A. Carrasco, E. Sanchis, J.M. Espí, University
of Valencia, Burjassot, SPAIN
11:05 Paper 22.6. Cross Regulation in Flyback
Converters
C. Ji, K.M. Smedley, University of California Irvine, Irvine, CA,
USA
11:30 Paper 22.7. Input Filter Interactions in DC-DC
Switching Regulators
M. Alfayyoumi, A.H. Nayfeh, D. Borojevic, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
Chair: F. Profumo, Politecnico di Torino, Torino, ITALY
Chair: T.G. Habetler, Georgia Institute of Technology,
Atlanta, GA, USA
8:30 Paper 23.1. Momentary Interruption and Voltage Sag
Ride-Through for Adjustable Speed Drives with Active Rectifiers
A. van Zyl, Oregon State University, Corvallis, OR, USA, R.
Spée, Maxwell Technologies, San Diego, CA, USA
8:55 Paper 23.2. Analysis of Common Mode Voltage - "Neutral
Shift" in Medium Voltage PWM Adjustable Speed Drive (MV-ASD)
Systems
D. Rendusara, E. Cengelci, P. Enjeti, Texas A&M University,
College Station, TX, USA, V.R. Stefanovic, Consultant, Afton, VA,
USA, W. Gray, Toshiba International Corporation, Houston, TX, USA
9:20 Paper 23.3. Pulse Width Modulation for Four Switches
Three Phase Inverters
C.B. Jacobina, M.B.R. Correa, E.R.C. da Silva, A.M.N. Lima, Federal
University of Paraiba, Campina Grande, BP, BRAZIL
9:45 Paper 23.4. An Ultrasonic Motor Drive Using LLCC
Resonant Technique
F.-J. Lin, R.-Y. Duan, H.-H. Lin, Chung Yuan Christian University,
Chung Li, TAIWAN
10:10 BREAK
10:40 Paper 23.5. Proposal of Practical Load Speed Observer
for AC Servo System with Two-Mass Mechanically-Resonant Load and Its
Experimental Evaluation
J. Yoshitsugu, Yamaguchi University, Ube, JAPAN, K. Inoue, Shinko
Electric Co., Ltd, JAPAN, M. Nakaoka, Yamaguchi University, Ube,
JAPAN
11:05 Paper 23.6. The Reduction of Conductive Emissions and
Motor Bearing Currents in the Current Source PWM Inverter Drives
T. Halkosaari, H. Tuusa, Tampere University of Technology, Tampere,
FINLAND
11:30 Paper 23.7. Assessment of Medium Voltage PWM VSI
Topologies for Multi-Megawatt Variable Speed Drive Applications
Y. Shakweh, CEGELEC Project Ltd., Rugby, WARWICKSHIRE, UK
Chair: J. Uceda, Universidad Politecnica de Madrid, Madrid,
SPAIN
Chair: A.W. Kelley, North Carolina State University, Raleigh,
NC, USA
8:30 Paper 24.1. Half-Bridge Resonant Inverter with
Load-Adaptive ZVS PFM Control Scheme for Induction Heating
Applications
Y.-S. Kwon, S.-B. Yoo, D.-S. Hyun, Hanyang University, Seoul,
KOREA
8:55 Paper 24.2. A Novel ZVT Three-Phase Inverter with
Coupled Inductors
J.Y. Choi, D. Boroyevich, F.C. Lee, Virginia Polytechnic Institute
and State University, Blacksburg, VA, USA
9:20 Paper 24.3. High Frequency Transformer Assisted a New
Passive Clamp ZVS Quasi-Resonant DC-Link PWM Inverter with Low
Voltage Stress Across the Switches
A.S. Ba-Thunya, Indian Institute of Technology Bombay, Mumbai,
INDIA
9:45 Paper 24.4. Input Filter Interaction in Three Phase
AC-DC Converters
S. Chandrasekaran, D. Borojevic, D.K. Lindner, Virginia Polytechnic
Institute and State University, Blacksburg, VA, USA
10:10 BREAK
10:40 Paper 24.5. A New Technique for Reducing Switching
Losses in Pulse-Width-Modulated Converters
Y. Jang, M.M. Jovanovic, Delta Products Corp., Research Triangle
Park, NC, USA
11:05 Paper 24.6. Feasible Performance Evaluations
Digitally-Controlled Three Phase Soft-Switching Inverter with
Auxiliary Resonant Commutation Snubbers for High Power
Applications
E. Hiraki, M. Yamamoto, M. Nakaoka, Yamaguchi University, Ube,
JAPAN
11:30 Paper 24.7. Design of UPS Topologies Based on
Series-Parallel Resonant Converters
H. Pinheiro, P. Jain, G. Jóos, Concordia University, Montreal,
QC, CANADA
Chair: Y. Kuroe, Kyoto Institute of Technology, Kyoto,
JAPAN
Chair: V.A, Niemela, Bell Labs - Lucent Technologies,
Mesquite, TX, USA
8:30 Paper 25.1. A Generic Power Converter Modeling Method
to Support Computer-Aided Design and Synthesis
L.E. Amaya, P.T. Krein, University of Illinois, Urbana-Champaign,
Urbana-Champaign, IL, USA
8:55 Paper 25.2. Automatic Synthesis of Large Signal Models
for Power Electronic Circuits
P. Maranesi, M. Riva, Universita'degli Studi di Milano, Milano,
ITALY, A. Monti, A. Rampoldi, Politecnico di Milano, Milano,
ITALY
9:20 Paper 25.3. A Structural Approach to Synthesizing and
Analyzing Quasi-Resonant and Multi-Resonant Converters
T.-F. Wu, Y.-K. Chen, C.-H. Yang, S.-A. Liang, National Chung Cheng
University, Chia-Yi, TAIWAN
9:45 Paper 25.4. Rectifier-Compensated Fundamental Mode
Approximation Analysis of the Series-Parallel LCLC Family of Resonant
Converters with Capacitive Output Filter and Voltage-Source Load
J.G. Hayes, GM Advanced Technology Vehicles, Torrance, CA, USA, M.G.
Egan, University College, Cork, IRELAND
10:10 BREAK
10:40 Paper 25.5. A SPICE Compatible Model of High
Intensity Discharge Lamps
M. Shvartsas, S. Ben-Yaakov, Ben-Gurion University of the Negev,
Beer-Sheva, ISRAEL
11:05 Paper 25.6. Aliasing Effects in PWM Power
Converters
V.J. Thottuvelil, Bell Laboratories, Mesquite, TX, USA, G.C.
Verghese, Massachusetts Institute of Technology, Cambridge, MA,
USA
11:30 Paper 25.7. A New Approach to Simplify the
Steady-State Problem of a Power Converter
F. Tourkhani, University of Moncton, Moncton, NB, CANADA, P.
Viarouge, Université Laval, Sait Foy, QC, CANADA, T.A.
Meynard, LEEI, ENSEEIHT, Toulouse, FRANCE, R. Gagnon,
Université du Quebec a Rimouski, Rimouski, QC, CANADA
Chair: V. Ramsden, University of Technology Sydney, Sydney,
NSW, AUSTRALIA
Chair: T.A. Lipo, University of Wisconsin - Madison, Madison,
WI, USA
13:30 Paper 26.1. Investigation on the Clamping Voltage
Self-Balancing of the Three Level Capacitor Clamping Inverter
X. Yuan, Swiss Federal Institute of Technology, Zurich, SWITZERLAND,
I. Barbi, Federal University of Santa Catarina, Florianopolis, SC,
BRAZIL
13:55 Paper 26.2. Modular, Pinched DC-Link and Soft
Commutated Three-level Inverter
J. Chang, J. Hu, Rockwell Science Center, Thousand Oaks, CA, USA
14:20 Paper 26.3. Experimental Comparisons of Space Vector
Neutral Point Balancing Strategies for Three-Level Topology
D. Zhou, D. Rouaud, Rockwell Automation, Mequon, WI, USA
14:45 Paper 26.4. An analysis of DC-Link Poteintial and
Control Scheme for Four-level Inverter
R.-Y. Kim, Y.-H. Lee, D.-S. Hyun, Hanyang University, Seoul,
KOREA
15:10 BREAK
15:40 Paper 26.5. High Voltage Multilevel Converter with
Regeneration Capability
J. Rodriguez, Universidad Técnica Federico Santa Maria,
Valparaiso, CHILE, Luis Morán, Universidad de Concepcion,
Concepcion, CHILE, Antonio González, César Silva,
Universidad Técnica Federico Santa Maria, Valparaiso,
CHILE
16:05 Paper 26.6. A DC-Link Voltage Balancing Algorithm for
3-Level Converter Using the Zero Sequence Current
S.-K. Lim, J.-H. Kim, K. Nam, POSTECH University, Pohang, KOREA
16:30 Paper 26.7. A Direct Power Feedback Method of Dual
PWM Three-Level Voltage Source Converter System
L. Wei, Tsinghua University, Beijing, CHINA, C. Li, The Automation
Institute of M.M.I., Beijing, CHINA, F. Li, Tsinghua University,
Beijing, CHINA
Chair: J.D. van Wyk, Rand Afrikaans University, Auckland
Park, Johannesburg, SOUTH AFRICA
Chair: B.V. Murty, General Motors R&D Center, Warren, MI,
USA
13:30 Paper 27.1. Electronic Ballast with Modified Valley
Fill and Charge Pump Capacitor for Prolonged Filaments Preheating and
Power Factor Correction
G. Chae, Y.-S. Youn, G.-H. Cho, Korea Advanced Institute of Science
and Technology (KAIST), Taejon, KOREA
13:55 Paper 27.2. Analysis of Tapped-Inductor Inverters as
Low-Power Fluorescent Lamp Ballasts Supplied from a Very Low Input
Voltage
E.L. Corominas, J.M. Alonso, A.J. Calleja, J. Ribas, E.L.
López, M. Rico-Secades, J. Sebastian, Universidad de Oviedo,
Gijón, ASTURIAS, SPAIN, J. Arau, M. Ponce, CENIDET,
Cuernavaca, México.
14:20 Paper 27.3. Investigation of a Novel
High-Power-Factor Electronic Ballast Based on the Input Current
Shaper
J.M. Alonso, A.J. Calleja, J. Ribas, E. López, M. Rico, J.
Sebastián, Universidad de Oviedo, Gijón, SPAIN
14:45 Paper 27.4. Designing a Dimmable High Power Factor
Electronic Ballast for Fluorescent Lamps
R.N. do Prado, S.A. Bonaldo, Universidade Federal de Santa Maria,
Santa Maria, RS, BRAZIL
15:10 BREAK
15:40 Paper 27.5. Phase-Controlled Dimmable Electronic
Ballast for Fluorescent Lamps
W.-H. Ki, J. Shi, E. Yau, P. Mok, J. Sin, Hong Kong University of
Science & Technology, HONG KONG
16:05 Paper 27.6. Features and Design of the Voltage-Fed
"L-LC" Resonant Inverter for Induction Heating
J.M. Espí, University of Valencia, Burjassot, SPAIN, E.J.
Dede, GH ELIN International, SPAIN, E. Sanchis, A. Ferreres,
University of Valencia, Burjassot, SPAIN
16:30 Paper 27.7. Improved Induction-Heating Inverter with
Power Factor Correction
H. Calleja, R. Ordóñez, Cenidet - Electronica,
Cuernavaca, MEXICO
Chair: H. Matsuo, Nagasaki University, Nagasaki, JAPAN
Chair: D. Maksimovic, University of Colorado, Boulder, CO,
USA
13:30 Paper 28.1. Multiple Output DC/DC Converters Based in
PWM and Pulse Delay Control (PWM-PD)
A. Barrado, E. Olías, A. Lázaro, R. Vázquez, J.
Pleite, Universidad Carlos III De Madrid, Madrid, SPAIN
13:55 Paper 28.2. New Very Low Power, High Efficiency,
DC/DC Power Supply for Leo Satellite Constellation
E. Sanchis-Kilders, University of Valencia, Burjassot, SPAIN, A.
Capel, ALCATEL, Espace, FRANCE, J.A. Carrasco, E. Maset, J.M.
Espí, University of Valencia, Burjassot, SPAIN
14:20 Paper 28.3. Dynamic Modeling and Control in Average
Current Mode Controlled PWM DC/DC Converter
C. Sun, B. Lehman, R. Ciprian, Northeastern University, Boston, MA,
USA
14:45 Paper 28.4. DC-TO-DC Buck Converters with Novel
Current Mode
Z. Yang, P.C. Sen, Queen's University, Kingston, ONTARIO, CANADA
15:10 BREAK
15:40 Paper 28.5. A Zero-Ripple Technique Applicable to any
DC Converter
D.C. Hamill, University of Surrey, Guildford, UK, P.T. Krein,
University of Illinois, Urbana, IL, USA
16:05 Paper 28.6. DC-Link Control for a MVA-3Hz Single
Phase Power Supply
F. Jenni, H.-U. Boksberger, G. Irminger, Paul Scherrer Institute,
Villigen PSI, SWITZERLAND
16:30 Paper 28.7. A PDM Controlled Series Resonant
Multi-Level Converter Applied for X-Ray Generators
T.-F. Wu, J.-C. Hung, National Chung Cheng University, Chia-Yi,
TAIWAN
Chair: D. Patterson, Northern Territory University, Darwin,
NT, AUSTRALIA
Chair: P.T. Krein, University of Illinois, Urbana, IL, USA
13:30 Paper 29.1. Stationary Frame Current Regulation of
PWM Inverters with Zero Steady State Error
D.N. Zmood, D.G. Holmes, Monash University, Clayton, VIC,
AUSTRALIA
13:55 Paper 29.2. Adaptive Control of an Inductive Power
Transfer Coupling for Servomechanical Systems
D.K. Jackson, S.B. Leeb, Massachusetts Institute of Technology,
Cambridge, MA, USA
14:20 Paper 29.3. Forbidden State Space Trajectories of PWM
Converters: Implication to Digital Control
G. Rahav, S. Ben-Yaakov, Ben-Gurion University of the Negev,
Beer-Sheva, ISRAEL
14:45 Paper 29.4. Disturbance Rejection and Robustness
Considerations in DC/DC Converters
B. Tomescu, Space Systems/Loral, Palo Alto, CA, USA, H.F. van
Landingham, Virginia Polytechnic Institute and State University,
Blacksburg, VA, USA
15:10 BREAK
15:40 Paper 29.5. Delay Effects in Averaged Modeling of PWM
Converters
J. Sun, D.M. Mitchell, D.E. Jenkins, Rockwell Collins, Inc., Cedar
Rapids, IA, USA
16:05 Paper 29.6. Analysis of Converter Operation with
Phase Legs in Daisy-Chained or Ring Type Structure
I. Milosavljevic, Z. Ye, D. Borojevic, C. Holton, Virginia
Polytechnic Institute and State University, Blacksburg, VA, USA
16:30 Paper 29.7. Effectivity Reduction of PWM-Converter
Based Dynamic Filter by Signal Processing Delay
W. le Roux, J.D. van Wyk, Rand Afrikaans University, Auckland Park,
SOUTH AFRICA
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