Post on 31-Mar-2020
7th European Conference on
POWER ELECTRONICS AND APPLICATIONS8 - 10 September 1997
TrondheimNorway
“Power Electronics for Sustainable Growth”
Patron for the Conference:Mrs. Gro Harlem Brundtland, Former Prime Minister, Member of the Norwegian Parliament, Former Chairman of the UN World Commission on Environment and Development
Sponsored by: European Power Electronics and Drives Association
Organised by: Norwegian University of Science and Technology (NTNU)
In cooperation with: IEE, IEEE PELS, IEEE IAS, IEEE Norway Section, NEF, SEE, SRBE/KBVE, VDE, SEP
Patron for the Conference:.........................................................................................................................................................................1Mrs. Gro Harlem Brundtland, Former Prime Minister, Member of the Norwegian Parliament, Former Chairman of the UN World Commission on Environment and Development........................................................................................................................................1Sponsored by:.............................................................................................................................................................................................1European Power Electronics and Drives Association................................................................................................................................1Organised by:..............................................................................................................................................................................................1Norwegian University of Science and Technology (NTNU).......................................................................................................................1In cooperation with:.....................................................................................................................................................................................1IEE, IEEE PELS, IEEE IAS, IEEE Norway Section, NEF, SEE, SRBE/KBVE, VDE, SEP......................................................................1Monday 8 September 1997, 9.30 to 10.30.................................................................................................................................................4Session L1a: Passive components Room K3/K4..........................................................................................................................4Session L1b: Renewable Energy Systems Room E5...................................................................................................................4Session L1c: Electronic power supplies systems......................................................................................................................................4Room E2.....................................................................................................................................................................................................4Session L1d: Control methods Room C.......................................................................................................................................4Monday 8 September 1997, 11.00 to 13.00...............................................................................................................................................4Session L2a: Special session IGBT/GTO Room K3/K4...............................................................................................................4Session L2b: EMC Room C............................................................................................................................................................5Session L2c: Modulation strategies Room E5..............................................................................................................................5Session L2d: Electronic power supplies systems......................................................................................................................................5Room E2.....................................................................................................................................................................................................5Tuesday 9 September 1997, 8.30 to 10.00................................................................................................................................................6Session L3a: Hybrid power Integration Room K3/K4..................................................................................................................6Session L3b: Locomotives Room C..............................................................................................................................................6Session L3c: Servo drives Room E2..............................................................................................................................................6Session L3d: HVDC Room E5.......................................................................................................................................................7Tuesday 9 September 1997, 10.30 to 12.30..............................................................................................................................................7Session L4a: Monolithic Power Integration................................................................................................................................................7Room K3/K4................................................................................................................................................................................................7Session L4b: Permanent Magnet Motor Drives..........................................................................................................................................8Room E2.....................................................................................................................................................................................................8Session L4c: Converter control Room C.....................................................................................................................................8Session L4d: FACTS Room E5......................................................................................................................................................8Wednesday 10 September 1997, 8.30 to 10.00.........................................................................................................................................9Session L5a: Characterization and Applications........................................................................................................................................9Room K3/K4................................................................................................................................................................................................9Session L5b: Sensorless control Room C......................................................................................................................................9Session L5c: Active filters and harmonics..................................................................................................................................................9Room E5.....................................................................................................................................................................................................9Session L5d: Resonant Converters Room E2...........................................................................................................................10Wednesday 10 September 1997, 10.30 to 12.30.....................................................................................................................................10Session L6a: Devices and modelling Room K3/K4.....................................................................................................................10Session L6b: Estimation Techniques Room C............................................................................................................................11Session L6c: Electric Vehicles Room E5....................................................................................................................................11Session L6d: Power converter circuits and control Room E2.............................................................................................11Monday 8 September 1997, 14.45 to 17.00.............................................................................................................................................12Session D1a: Passive components..........................................................................................................................................................12Session D1b: Switches.............................................................................................................................................................................12D1b-2 Power Semiconductor Technology................................................................................................................................................13Session D3a: Uninterruptible power supplies (UPS)................................................................................................................................13Session D3b: DC power supplies, battery chargers................................................................................................................................14Session D3c: Switched and resonant-mode power supplies...................................................................................................................14Session D3d: High frequency power converters and power factor correction.........................................................................................15Session D3e: Modelling and simulation, user application experiences....................................................................................................15Session D4a: Modulation strategies.........................................................................................................................................................16Session D4b-1: Fuzzy control..................................................................................................................................................................17Session D4b-2: Fuzzy control..................................................................................................................................................................18Session D5f: Converter machine interactions..........................................................................................................................................18D5f-1 Acoustic Noise................................................................................................................................................................................18D5f-2 Harmonics.......................................................................................................................................................................................19D5f-3 Thermal Models..............................................................................................................................................................................19Session D5n: Design diagnosis................................................................................................................................................................19Session D5o: Modelling and simulation....................................................................................................................................................19Session D8g: Renewable energy.............................................................................................................................................................20Session D8i: Generator, excitation systems............................................................................................................................................21Session D8h: Adjustable Speed Generators............................................................................................................................................21Session D9a: Energy system management, user applications experiences, modelling and simulation.................................................22Session D9b: EMC...................................................................................................................................................................................23Session D9c: Power conditioning, power factor correction......................................................................................................................23Session D9d: Power conditioning, power factor correction......................................................................................................................24
Session D9e: Reliability............................................................................................................................................................................25Session D9f: Diagnostics..........................................................................................................................................................................25Tuesday 9 September 1997.....................................................................................................................................................................25Session D1c: Monolithic integration.........................................................................................................................................................25Session D1d: Hybrid Integration...............................................................................................................................................................27Session D4c: Converter control application to single phase systems.....................................................................................................27Session D4d: Converter control applications to three phase systems....................................................................................................28Session D4e: Converter control, PFC/ line harmonics.............................................................................................................................28Session D4f: Converter control, Miscelleanous.......................................................................................................................................29Session D4g: Measurement techniques and systems.............................................................................................................................29Session D4h: Adaptive robust sliding modes...........................................................................................................................................30Session D4i: Identification estimation and adaptive control.....................................................................................................................30Session D5a: Permanent magnet motors.................................................................................................................................................31Session D5b: Traction 1...........................................................................................................................................................................31D5b 1 Locomotives...................................................................................................................................................................................31D5b 2 Interference....................................................................................................................................................................................31Session D5b: Traction 2...........................................................................................................................................................................32D5b 3 Inverter/Converter..........................................................................................................................................................................32D5b 4 Others.............................................................................................................................................................................................32Session D5c: Linear drives.......................................................................................................................................................................32Session D5d: Reluctance drives..............................................................................................................................................................33Session D5e: Special applications...........................................................................................................................................................34Session D5i: Applications of DTC............................................................................................................................................................34Session D5j: Energy efficient drives.........................................................................................................................................................35Session D5k: Control of ac machines - Industrial applications................................................................................................................35Session D5l: Control of ac machines - Control and implementation........................................................................................................36Session D6a: Servo drives and actuators................................................................................................................................................37Session D8a-1 Facts 1.............................................................................................................................................................................38Session D8a-2 Facts 2.............................................................................................................................................................................38Session D8b: HVDC.................................................................................................................................................................................39Wednesday 10 September 1997..............................................................................................................................................................39Session D1e: Characterization and Applications....................................................................................................................................39D1e - 1:.....................................................................................................................................................................................................39D1e - 2:.....................................................................................................................................................................................................40Session D1f: Modelling.............................................................................................................................................................................40Session D2a: Multilevel and matrix converters........................................................................................................................................41Session D2b: Power converters...............................................................................................................................................................42Session D2c: Resonance applications.....................................................................................................................................................43Session D2d: Resonance 1......................................................................................................................................................................44Session D2e: Resonance 2......................................................................................................................................................................45Session D5g: Sensorless drives - Induction Machines............................................................................................................................45Session D5h: Sensorless drives - Brushless Machines..........................................................................................................................46Session D5m: Estimation and parameters analysis.................................................................................................................................47Session D7a: Drives, control of drives.....................................................................................................................................................47Session D7b: Battery charger, battery management, test bench............................................................................................................48Session D7c: Hybrid vehicles, simulation................................................................................................................................................49Session D8c: Harmonics and active filters - analysis and design...........................................................................................................49Session D8d: Harmonics and active filters - control................................................................................................................................50Session D8e: Harmonics and active filters - network studies and harmonics.........................................................................................50Session D8f: Harmonics and active filters - applications.........................................................................................................................51Session D8j: Modelling and simulation.....................................................................................................................................................51Session D10a: Education.........................................................................................................................................................................52
Monday 8 September 1997, 9.30 to 10.30
Session L1a: Passive components Room K3/K4Prof J. Uceda, University of Madrid, Spain/O. Apeldoorn, RWTH Aachen, Germany
Super-capacitors for peak load shaving of batteries 1.055R. Bonert, University of Toronto, Canada, S. Reichert,University of Karlsruhe, Germany
Impedance adapter transformer - 300 kHz/2MVA for induction heating generators 1.061M. Gillot, Ecole des Hautes Etudes Industrielles,J. Nuns, EDF, France
Session L1b: Renewable Energy Systems Room E5 Session Chairmen:Prof. H. Stemmler, ETH, Zürich, Switzerland T. Toftevaag, EFI, Norway)
Efficient Photovoltaic Pump System using a Permanent Magnet Sychnronous Motor Drive 1.066S. Van Haute, St. Henneberger, K. Hameyer,R. Belmans, Katholieke Universiteit Leuven,L. De Gheselle, W. Coppye, IMEC, Belgium
Single Cell Module Integrated Converter System for Photovoltaic Energy Generation 1.071J. Riatsch, H. Stemmler, R. Schmidt, Swiss Federal Inst.of Techn. - ETH-Zentrum, Switzerland
Session L1c: Electronic power supplies systemsRoom E2
Session Chairmen:Prof. J.L. Van Eck, ULB, BelgiumO. Boe, Siemens, Norway
Ni-Cd and Ni-MH battery fast-charger for portableapplications based upon an intelligent IC 1.078M. Gonzalez, Miguel A. Perez, J. Diaz, F.F. Linera, P. Martinez, Iberdrola, Spain
Large-Signal Modeling, Subharmonics and Bifurcation Behavior of PWM Switching Converters 1.084Henry Chung, K. K. Tse, S. Y. R. Hui, City University of Hong Kong, Hong Kong
Session L1d: Control methods Room CProf. W. Leonhard, University of Braunschweig, GermanyProf. J.P. Louis, LESIR, France
Fuzzy Logic Control Optimization of Electrical Systems using Experimental Designs 1.090D. Hissel, P Maussion, Institut National Polytechnique de Toulouse, France
Neuro-Fuzzy Controller in a Field Oriented Control for Induction Motors 1.096L. Baghli, H. Razik, A. Rezzoug, GREEN, France
Fuzzy Control for Electrical Drives? 1.102Kai Michels, Technical University of Braunschweig, Germany
This session includes a panel discussion
Monday 8 September 1997, 11.00 to 13.00
Session L2a: Special session IGBT/GTO Room K3/K4Session Chairmen:J.M. Peter, SEE, FranceP. Aloïsi, Motorola, France
Integrated Power Module in IGBT Technology for
Modular Power Traction Converter 1.106Gerald Hilpert, Thomas Züllig, ABB Daimler-Benz Transportation Ltd, Switzerland
Multichip High Power IGBT - Modules for Traction and Industrial Application 1.112K. H. Sommer, R. Spanke, eupec GmbH & Co KG, G. Lefranc,Siemens AG, J. Göttert, eupec GmbH & Co KG, Germany
A New Range of Reverse Conducting Gate-CommutatedThyristors for High-Voltage Medium-Power Applications 1.117Stefan Linder, Sven Klaka, Mark Frecker, Eric Carroll,Hansruedi Zeller, ABB Semiconductors AG, Switzerland
Including a panel discussion
Session L2b: EMC Room C Session Chairmen:Prof. L. Pierrat, EDF, FranceMari Haugen Jensen, Unitech, Norway
Reduction of Conducted Line Emissions in voltage-fed pulsed inverters by using suppressor capacitors in the intermediate circuit 1.125H. Jörgensen, S. Guttowski, K. Heumann, Technische Universität Berlin, Germany
Predictive Correction Method for fast Control Systems with respect to the Example of Static VAR Compensation of Arc Furnaces 1.130Gustav Vaupel, Fachhochschule Hamburg, Thanh-Nam Lê, Siemens AG, Germany
Electromagnetic radiation from power electronics circuits 1.135M. Youssef, J. Roudet, Y. Marechal, Laboratoire d’Electrotechnique de Grenoble, France
Standardisation in Power Electronics 1.140J. L. Sanhet, CEGELEC
Session L2c: Modulation strategies Room E5 Session Chairmen:P. Thogersen, Danfoss Drives, DenmarkP. Vadstrup, Grundfos, Denmark
Analysis of spectral effects of random PWM strategies for voltage-source inverters 1.146Andrzej M. Trzynadlowski, University of Nevada, USA, R. Lynn Kirlin, University of Victoria, Canada, Michael M. Bech, Frede Blaabjerg, John K. Pedersen, Aalborg University, Denmark
Novel Random PWM Method Based on Normally Distributed Random Data 1.152Bin Kaku, Ichiro Miyashita, Toyo Electric Mfg. Co Ltd, Satoru Sone, The University of Tokyo, Japan
Modulation Techniques Applied to High Power 3 Level GTO’s Converter for Asynchronous Motor Drives 1.158M. Carpita, Ansaldo Ricerche SrL, Luciano Puglisi, Università degli Studi di Genova, M. Baragli, G. Striano, Università degli Studi di Genova, C. Bacigalupo, Ansaldo Ricerche SrL, Italy
A PWM strategy using a discontinuous modulating signal for full-bridge inverters 1.165Ciro Picardi, A. Eisinberg, G. Palmieri, Universita’ della Calabria, Italy
Session L2d: Electronic power supplies systemsRoom E2
Session Chairmen: Prof. M.A.E. Andersen, Tech. University of DenmarkK. Vangen, Unitech, Norway
Analysis and Design of A Three-Phase Inverter with A Neutral Leg 1.170Richard Zhang, V Himamshu Prasad, Dushan Boroyevich, Fred C. Lee, Virginia Polytechnic Institute and State University, USA
Active Power Factor Correction of a Single Stage AC-DC Converter with Reactive Power Control 1.176M. Butler, W.G. Hurley, University College Galway, W. Wölfle, Convertec Ltd., Ireland
Parallelling Power Converters for AC-DC Step-Down Power Conversion with Inherent Power Factor Correction 1.182S. Y. R. Hui, H. Chung, City University of Hong Kong/ Sydney University, Hong Kong
Single Switch AC/DC Power Factor Correction Converter Valid for Both Three Phase and Single Phase Applications 1.188Oscar Garcia, J.A. Cobos, R. Prieto, J. Uceda, Universidad Politecnica de Madrid, Spain
Tuesday 9 September 1997, 8.30 to 10.00
Session L3a: Hybrid power Integration Room K3/K4 Session Chairmen:P. Rossel, LAAS, FranceU. Jaeger, Danfoss, Denmark
Evaluation and future prospects of an integration technology for hybrid multikilowatt power electronic converters 1.194J.D. van Wyk, J.A. Ferreira, L.W. Hofsajer, M.C. Smit, Rand Afrikaans University, South Africa
Integral liquid cooled high speed power module 1.200Serge Bontemps, Advanced Power Technology Europe, France, Patrick Sable, Philippe Despagne, Dennis Grafham, Advanced Power Technology Europe, Belgium
New Encapsulation Technics for 1MW - 1 to 4 kV High Power IGBT Inverters 1.204E. Ranchy, A. Petitbon, J. Gonzalez, Alcatel Alsthom Recherche, France
Evolution of application specific IPM 1.210G. Majumdar, T. Oota, F. Tametani, Mitsubishi Electric Corp., Japan, K.H. Hussein, Fukuryo Semi-con Engineering Corp., Japan, E. Thal, Mitsubishi Electric, Germany, G. Debled, Mitsubishi Electric, FranceSession L3b: Locomotives Room C Session Chairmen:Janus Vitins, Adtranz, SwitzerlandG. Zetterberg, Adtranz, Sweden
Development of Three-Level Power Converter System Using IGBTs for Shinkansen Trains 1.216Inarida Satoru, Miyake Wataru, Mizuguchi Nobuaki, Mito Works Hitachi Ltd, Hariyama Takashi, Hoshi Katsuyoshi, East Japan Railway Company, Japan
MITRAC Drive Control Unit for IGBT Converters 1.221Peter Oom, Ingo Gehrke, Christian Endrikat, Ernst D. Lettner, ABB Daimler Benz Transportation Ltd, Sweden
The static frequency converter of the TRANSRAPID propulsion system - development and test results 1.227Uwe Henning, P.G. Kamp, Siemens AG, Germany
Power traction converter with 3.3 kV IGBT modules 1.232L. Fratelli, G. Giannini, Ansaldo Trasporti S.p.A., Italy
Session L3c: Servo drives Room E2 Session Chairmen:Prof. M. Jufer, EPFL, SwitzerlandProf. A. Vandenput, T.U. Eindhoven, The Netherlands
Sensorless Field Oriented Speed Control of a Hybrid Stepper Motor Using an Extended Kalman Filter 1.238C. Obermeier, H. Kellermann, G. Brandenburg, J. Heinzl, T. U. München, Germany
An alternative method to servo motor drive torque ripple assessment 1.244Philip C. Kjaer, University of Glasgow, United Kingdom
Detection of the Starting Rotor Angle of a PMSM at Standstill 1.250C. Brunotte, W. Schumacher, T. U. Braunschweig, Germany
State of the art of smooth torque controllers 1.254E. Favre, J.-M. Mozzon, A. Crausaz, ETEL S.A., Switzerland
Session L3d: HVDC Room E5Session Chairmen:Prof. A. Ekström, ABBB.R. Andersen, GEC, United Kingdom
Analysis of an HVdc inverter in the Harmonic Domain 1.260J. Arrillaga, G.N. Bathurst, B.C. Smith, N.R. Watson, University of Canterbury, New Zealand
Comparison of Alternate HVDC Converter Topologies 1.266K. Sadek, M. Pereira, Siemens AG, Germany, A.M. Gole, University of Manitoba, D.P. Brandt, Brandt Consultants Inc., Canada
Properties of Capacitor Commutated Converters in longDC cable transmissions 1.272Per Holmberg, Tomas Jonsson, Mats Lagerkvist, ABB Power Systems, Sweden
Random Modulation of Line Commutated Power Converters 1.278Mats Alaküla, Lund Institute of Technology, Sweden
Investigation of the operating performance of a 4-terminal HVDC system 1.281Haus Ring, Forschungsgemeinschaft für Hochspannungs- & Hochstromtechnik e.V., Uwe Radtke, PreussenElektra AG, Germany
Light Triggered Thyristor Valve for HVDC application 1.287H.-P. Lips, J. Matern, R. Neubert, L. Popp, M. Uder, Siemens AG, Germany
Tuesday 9 September 1997, 10.30 to 12.30
Session L4a: Monolithic Power IntegrationRoom K3/K4
Session Chairmen:R. Basset, GEC Alsthom, United Kingdom J.L. Sanchez, LAAS, France
A New IGBT with A Monolithic Self-Protection Circuits 1.293P. Aloïsi, John Shen, Stephen P. Robb, France
A Methodology for the Functional Power Integration. Example the evolution of the Solid State Protection in the Telecom Area 1.296Robert Pezzani, Eric Bernier, Christian Ballon, SGS Thomson Microelectronics, France
Trends in design and technology for new integrated power devices based on functional integration 1.302J-L. Sanchez, R. Berriane, P. Austin, M. Marmouget, LAAS, France
A CMOS Compatible Smart Power Process with Complete Dielectric Isolation 1.308J. Weyers, W. Rost, ELMOS GmbH, H. Vogt, Fraunhofer-Inst. für Mikroelektr. Schaltungen u. Syst., Germany, J. Millan, S. Hidalgo, J. Rebollo, Centro Nacional de Microelectronica CSIC, Spain
Session L4b: Permanent Magnet Motor DrivesRoom E2
Session Chairmen:Prof. R. Belmans, K.U. Leuven, BelgiumProf. Hans Peter Nee, KTH Stockholm, Sweden
Sensorless ELBERFELD Control of Brushless DC-motors for Energy-Optimized Variable-Speed Household Refrigerators 1.314John K. Pedersen, Aalborg University, Henrik R. Andersen, Danfoss Drives A/S, Denmark
Permanent Magnet Multipole 6-Phase Brushless DC Motor for Automotive Applications 1.319T. Izhar, P.D. Evans, The University of Birmingham, United Kingdom
A Novel Controls-Oriented Model of PM Generator with Diode Bridge Output 1.324Robert D. Lorenz, Michael J. Ryan, University of Wisconsin-Madison, USA
Influence of the current control strategy on the PMSM drive performance during failures 1.330N. Bianchi, S. Bolognani, M. Zigliotto, M. Zordan, University of Padova, Italy
Session L4c: Converter control Room C Session Chairmen:Prof. M. Alaküla, Lund Inst. of Tech., SwedenProf. L. Norum, NTNU, Norway
Low-cost low-power buck-based input stage meeting the IEC 1000-3-2 line-current-harmonics limits 1.336André S. Kislovski, Ascom Energy Systems, Switzerland
An Intelligent Current Controller using Delay Compensationfor PWM Converters 1.342Jin-Woo Lee, Samsung Advanced Institute of Technology, Korea
Multivariable State Feedback Control for Three-phase Power Conversion Systems 1.348G-Myoung Lee, Dong-Hee Kim, Yeungnam University, Korea
Simplified Static and Dynamic Models of the 3-loop Active Power Factor Correction Systems 1.354Sam Ben-Yaakov, Alexander Abramovitz, Ben-Gurion University of the Negev, Israel
Optimized control strategy for two level inverter drive application oriented to reduce line current harmonics 1.360E. De Paola, N. Palazzoli, Adtranz Italy, Italy, A. Brechter, Adtranz Switzerland, Switzrland
Session L4d: FACTS Room E5 Session Chairmen:A. Haböck, Siemens, GermanyProf. H. Akagi, Okayama University, Japan
Reactive Power Compensation Using A Unified Power Flow Controller Fed By A Current Source 1.366Johann Jäger, Gerhard Herold, Universität Erlangen-Nürnberg, Germany
Optimal Controller for the combination System of a UPFC and Conventional Series Capacitors 1.372Ying Jiang, Åke Ekström, Royal Institute of Technology, Sweden
Analytical calculation of 6-pulse current converters in large compensated networks in steady state 1.378C. Weindl, G. Herold, Universität Erlangen-Nürnberg, Germany
The IGCT - the Key Technology for low cost high reliable High Power Converters with Series Connected Turn-off Devices 1.384
P. K. Steimer, H. Grüning, J. Werninger, ABB Industrie AG, Switzerland
Design of a unified power flow controller for implementation into a micronetwork 1.390Guillaume Manon, Philippe Delarue, Robert Bausiere, Université de Lille - L2EP, France, Michel Crappe, Michel Renglet, Stéphanie Dupuis, Faculté Polytechnique de Mons, Belgium
Wednesday 10 September 1997, 8.30 to 10.00
Session L5a: Characterization and ApplicationsRoom K3/K4
Session Chairmen:Terje Rogne, EFI, NorwayP. Lindmann, Ericsson Components, Sweden
Problem of mechanical strength in electronics 1.396V. Roizman, N. Nester, Technological University of Podillia, Ukraine
A New Intelligent Gate Control Scheme to Drive and Protect High Power IGBTs 1.400Hwang-Geol Lee, Yo-Han Lee, Bum-Seok Suh, Dong-Seok Hyun, Hanyang University, Jin-Woo Lee, Samsung Advanced Institute of Technology, Korea
The Non-Invasive Measurement of chip currents in IGBT modules 1.406P.R. Palmer, J.C. Joyce, B.H. Stark, Cambridge University, United Kingdom
Evaluation of High Power IGBTs for Traction Applications 1.412Martin Hollander, Gunnar Zetterberg, ABB Daimler Benz Transportation Ltd, Sweden
Session L5b: Sensorless control Room C Session Chairmen:P. Tiitinen, ABB Industry, FinlandProf. F. Blaabjerg, Aalborg University, Denmark
Speed Sensorless High Performance Control for Traction Drives 1.418M. Depenbrock, Ruhr-Universität Bochum, F. Hoffmann, Siemens Transportation Systems, St. Koch, Ruhr-Universität Bochum, Germany
A Comparison of Model Reference Adaptive System and Extended Kalman Filter Estimators 1.424G. J. Armstrong, D.J. Atkinson, University of Newcastle-Upon-Tyne, United Kingdom
Control of an induction Motor without Shaft Encoder using the VeCon-Chip 1.430O. Fenker, W. Schumacher, Technische Universität Braunschweig, Germany
Synchronous motor drives based on direct flux linkage control 1.434J. Pyrhönen, M. NIemelä, J. Kaukonen, J. Luukko, O. Pyrhönen, Lappeenranta University of Technology, Pekka Tiitinen, Janne Väänänen, ABB Industry Oy, Finland
Session L5c: Active filters and harmonicsRoom E5
Session Chairmen:Prof. R. De Doncker, R.W.T.H., GermanyProf. J. D. van Wyk, R.A.U., South Africa
A Shunt Active Filter Based on Voltage Detection for Harmonic Damping throughout a Power Distribution Feeder 1.440Hirofumi Akagi, Okayama University, Japan
Experimental setup of a shunt active filter using a superconducting magnetic energy storage system (SMES) 1.447O. Simon, H. Späth, Universität Karlsruhe, K.P. Jüngst, P. Komarek, Forschungszentrum Karlsruhe, Germany
Hybrid filtration in conditions of asymmetric nonlinear load current pulsation 1.453Grzegorz Benysek, Ryszard Strzelecki, Technical University of Zielona Góra, Leszek Frackowiak, Poznan University of Technology, Poland
175/188HZ mains signalling active filters for connecting independent electricity producers 1.459P. Michalak, H. Pouliquen, EDF-DER, A. Grandet, Schlumberger, M.J.F. Tissier, Schlumberger, FranceSession L5d: Resonant Converters Room E2Session Charimen:Prof. L. Malesani, University of Padova, ItalyProf. Th. Meynard, LEEI, Toulouse, France
A Single-Phase/Three-Phase Compatible Soft-Switched AC to DC Converter 1.464J.Y. Choi, Korea Institute of Science & Technology, H.S. Mok, Seoul National Polytechnic University, T.Y. Kim, Jeon-Sung Electric Co, J.G. Cho, Korea Electrotechnology Research Institute, G.S. Kim, Seoul City University, U.Y. Huh, Inta University, Korea
An Efficiency Study of a Robust and Simple Three Phase Resonant Converter 1.470Stig Munk-Nielsen, Frede Blaabjerg, John K. Pedersen, Aalborg University, Denmark
Investigation on power factor correction of current-source resonant converter with two energy storage elements 1.476H. Benqassmi, J.-P. Ferrieux, B. Chauchat, Laboratoire d’Electrotechnique de Grenoble, France
Characterization and Comparison of IGBTs and MCTs in Zero Current Switching Converters 1.482S. Bernet, ABB Corporate Research Center, Germany
Wednesday 10 September 1997, 10.30 to 12.30
Session L6a: Devices and modelling Room K3/K4 Session Chairmen:Prof. P. Spirito, Univ. of Napoli, ItalyProf. G. Bussatto, Univ. of Napoli, Italy
Simulation/Optimization of IC VDMOS Layout-Dependent Electrostatics 1.488Rainer Thoma, James Victory, Juan Buxo, Tom Zirkle, Motorola Semiconductor Products Sector, USA, Irenee Pages, Motorola S.A., Philippe Raguet, Motorola S.A., France
A distributed model of IGBTs for circuit simulation 1.494Ph. Leturcq, J-L Debrie, M. O. Berraies, Lab. d’Analyse et d’Architecture des Systèmes du C.N.R.S., France
Axial Recombination Center Technology for Freewheeling Diodes 1.502Josef Lutz, Semikron Elektronik GmbH, Germany
Proton irradiated 6kV GTO with full pressure contacts 1.507A. I. Prikhodko, A. M. Surma, All-Russian Electrotechnical Inst., Russia
Switching behaviour of diodes based on new Semiconductor Materials and Silicon - a comparative study 1.513Manfred Bruckmann, Eric Baudelot, Heinz Mitlehner, Benno Weis, Siemens AG, GermanySession L6b: Estimation Techniques Room C Session Chairmen:
Prof. F. Profumo, Univ. of Bologna, Italy; W. Wymeersch, Stahlwerke Bremen, Germany
A novel saturation adaptive rotor flux estimator for rotor flux oriented induction machines 1.518E. Levi, M. Sokola, Liverpool John Moores University, United Kingdom
Comparative study of identification methods for induction machines 1.524G. Clerc, D.R. Chouiter, C. Besson, CEGELY - Ecole Centrale de Lyon, N. Bellaaj M’Rabet, J.M. Retif, CEGELY - Insa, France
Salient pole synchronous motor parameter estimation in a direct flux linkage controlled drive 1.530J. Kaukonen, J. Pyrhönen, J. Luukko, M. Niemelä, O. Pyrhönen, Lappeenranta Univ. of Technology, P. Tiitinen, ABB Industry Oy, Finland
Wide Bandwidth Flux Position and Velocity Estimation in AC Machines at any Speed (including Zero) using Multiple Saliencies 1.536Robert D. Lorenz, M. W. Degner, Univ. of Wisconsin-Madison, USA
On-line rotor-resistance estimation for induction motors 1.542A. Garcia-Cerrada, J.L. Zamora, Universidad Pontificia Comillas, Spain
Session L6c: Electric Vehicles Room E5Session Chairmen:Prof. H. Kahlen, Univ. of Kaiserslautern, GermanyProf. G. Maggetto, VUB, Belgium
Electric vehicle drive with surface-mounted permanent magnets for wide field-weakening range 1.548A. Binder, K. Greubel, B. Piepenbreier, A. Ackva, Siemens AG, Germany
High efficiency drive for electrical vehicles 1.554F. Bernot, Institut de Génie Energétique, L. Gonthier, Technicréa Engineering SA, S.D. Bocus, S. El Baroudi, A. Berthon, J.M. Kauffmann, Institut de Génie Energétique, France
Charging Strategies for Electric Vehicles and their Consequences for Power Supply 1.560H-J. Haubrich, Andreas R. Heider, Aachen University of Technology, Germany
Control and Design Interaction in Hybrid Electric Vehicles - Benefits of Using Power Electronics 1.566Morten Hemmingsson, Bengt Simonsson, Mats Alaküla, Gustaf Olsson, Lund Institute of Technology, Sweden
Design and Control of a Permanent Magnet Synchronous Motor Drive for a Hybrid Electric Vehicle 1.570S. Van Haute, St. Henneberger, K. Hameyer, R. Belmans, K. U. Leuven, J. De Temmerman, J. De Clercq, Inverto N.V., Belgium
Session L6d: Power converter circuits and control Room E2 Session Chairmen:H. Godfroid, Cegelec, FranceProf.. J. W. Kolar, T. U. Vienna, Austria
Novel Gate Power Supply Circuit Using Snubber Capacitor Energy for Series-Connected GTO Valves 1.576Taichiro Tsuchiya, Hideo Okayama, Masahiro Kimata, Mitsubishi Electric Corporation, Japan
State-Space Analysis of Diode-Clamped Multi-Level Voltage-Source-Inverters for Static Var Compensation 1.582O. Pollakowski, Walter Schumacher, Technische Universität Braunschweig, Germany, Hervé Pouliquen, Electricité de France,
France
Control of series multicell converters by linear state feedback decoupling 1.588Olivier Tachon, Maurice Fadel, Thierry Meynard, INP - ENSEEIHT, France
Monday 8 September 1997, 14.45 to 17.00
Session D1a: Passive components Session Chairman: O. Apeldoorn, RWTH Aachen, Germany
The Winding Capacitance of Solid and Litz Wires (St. 1) 2.001M. Albach, J. Lauter, Philips Research Laboratory, Germany
An analytical method of characteristics of orthogonal-core under consideration of magnetic saturation and hysteresis (St. 2) 2.006Katsubumi Tajima, Yoshihisa Anazawa, Toshihiko Komukai, Akita University, Osamu Ichinokura, Tohoku University, Japan
Characteristics of magnetizing current and core losses of transformer under distorted supply voltage generating from electronic converters (St. 3) 2.012L. Pierrat, Electricité de France, T. Tran-Quoc, Institut Nationale Polytechnique de Grenoble, France
Investigation on the IGBT Case Explosion in Short Circuit Operation (St. 4) 2.016S. Duong, C. Schaeffer, LEG, F. Sarrus, C. Mulertt, FERRAZ, France
A Fuzzy Decision Support System for Magnetic Component Design (St. 5) 2.022J.B. Klaassens, D. Holt, U. Kaymak, H.R. van Nauta Lemke, Delft University of Technology, The Netherlands
Calculation of the reversible permeability of ferrite cores with non uniform cross sections (St. 6) 2.028D. Lange, T. Werner, Siemens Matsushita Components München, Germany
A survey of nanocrystalline applications in power electronics (St. 7) 2.032F. Mazeleyrat, F. Costa, LESIR, France
The importance of material homogeneity for reliable metal-oxide Influence of the winding strategy on the parasitics of magnetic components (St.8) 2.038Roberto Prieto, J.A. Cobos, O. Garcia, J. Uceda, Universidad Politecnica de Madrid, Spain
Session D1b: Switches Session Chairman:P. Aloïsi, Motorola, France
The Dual-Gated Emitter Switched Thyristor (DGEST) (St. 9) 2.044W.G. Min, S.C. Kim, J.M. Park, E.D. Kim, N.K. Kim, Korea Electrotechnology Research Institute, Korea
Ultra high-ruggedness of 2.5kV-1000A Power Pack IGBT (St. 10) 2.049Yasukazu Seki, Masayuki Soutome, Yoshikazu Takahashi, Koh Yoshikawa, Takeshi Fujii, Fuji Electric Corporate Research & Development Ltd., Humiaki Kirihata, Fuji Electric Co. Ltd., Japan
Performance Comparison of Standard and Optimised Clamp Diodes for High Power IGBT Inverters for Traction Applications (St. 11) 2.054F. Profumo, S. Facelli, , A. Tenconi, Politecnico di Torino, B. Passerini, S. Fimiani, International Rectifier Corp. Italiana, L. Fratelli, Ansaldo Trasporti-CRIS, Italy
The Hard Driven GTO - a New Emerging Technology for High Power Low Cost Inverters (St. 12) 2.060H.E. Gruening, B. Ødegård, R & D Drives and Power Electronics, E. Carroll, S. Klaka, R. Schlegel, ABB Semiconductors AG, Switzerland
IGBT instability due to negative gate capacitance (St. 13) 2.066I. Omura, W. Fichtner, Swiss Federal Institute of Technology, Switzerland
A New High Power Device: GCT Thyristor (St. 14) 2.070T. Nakagawa, K. Satoh, M. Yamamoto, Mitsubishi Electric Corporation, Japan
Electron-beam valve as a new type of vacuum switching tubes for high voltage power supply (St. 15) 2.076V.I. Perevodchikov, V. N. Chapenko, N. V. Matveev, V. M. Stuchenkov, All-Russian Electrotechnical Institute (VEI), Russia
D1b-2 Power Semiconductor TechnologyOn the nature of leakage current of fast recovery silicon rectifiers (St. 16) 2.082V.V.N. Obreja, Gh. Dinoiu, National R&D Institute for Microtechnology (IMT), Romania
Power SDB-devices with regularly grooved interfaces (St. 17) 2.087E.D. Kim, S.C. Kim, J.M. Park, Korea Electrotechnology Research Institute, Korea, I.V. Grekhov, L.S. Kostina, T.S. Argunova, Ioffe Phisico-Technical Institute, Russia
Recombination lifetime degradation in thermally stressed N-type bulk silicon wafer (St. 18) 2.093A. Irace, A. Cutolo, S. Daliento, P. Spirito, L. Zeni, Università degli Studi di Napoli „Federico II“, Italy
Optical and electrical measurement of bulk recombination lifetime regardless of surface conditions (St. 19) 2.096Andrea Irace, Antonello Cutolo, Santolo Daliento, Annunziata Sanseverino, Paolo Spirito, Luigi Zeni, Università degli Studi di Napoli “Federico II”, Italy
Optimisation of the Reverse Recovery Behaviour of Fast Power Diodes using Injection Efficiency and Lifetime Control Techniques (St. 20) 2.099M. T. Rahimo, N. Y. A. Shammas, Staffordshire University, United Kingdom
An Efficient Junction Termination Technique: The Biased Ring Structure (St. 21) 2.105C. Mingues, LAAS-CNRS, D. Krizaj, LED, G. Charitat, LAAS-CNRS, France
Power MOS transistors gate oxide characterisation. Linked failure rates (St. 22) 2.110Jean R. Coudrin, France Telecom CNET, France
Session D3a: Uninterruptible power supplies (UPS) Session Chairman:Ove Boe, Siemens, Norway
A novel adaptive hysteresis band current control using a DSP for a power factor corrected on-line UPS (St. 23) 2.116Yu Qin, Shanshan Du, Controlled Power Company, USA
Real-time voltage control for unbalanced UPS (St. 24) 2.121Santiago de Pablo, Santiago Lorenzo, J. Antonio Dominguez, Santiago Caceres, E.T.S.I.I., Spain
Control Strategy of Bidirectional UPS with the Performance of Active Power Filter (St. 25) 2.125Jae-Ho Choi, Chungbuk National University, Je-Hong Kim, Yongdong Junior College, Tae-Young Ahn, Chungbuk National University, South Korea
A Feasible High-performance Single-Phase UPS Incorporating Switched Mode Recifire with High-Frequency Transformer Link (St. 26) 2.131K. Hirachi, Yuasa Corporation, J. Yoshitsugu, T. Iseki, Y. Aria, M. Nakaoka, Yamaguchi University, Japan
Methods of establishing HF-link in small and medium size static UPS system (St. 27) 2.138M. K. Darwish, Brunel University, T. H. Abdelhamid, Alexandria University, United Kingdom
Session D3b: DC power supplies, battery chargers Session Chairman:L. Gerbaud, ENSIEG, France
Modeling a nickel cadmium battery and simulation of a battery charge limiter for aircraft (St. 28) 2.144L. Bonenfant, Aerospatiale Aeronautique, M. Pietrzak-David, B. de Fornel, INPT-ENSEEIHT-LEEI, Alain Geoffroy, Aerospatiale Aeronautique, France
High Frequency DC/DC Conversion using a Novel Concept of Multiple Frequency Operation with Pulse Width Modulated Output (St. 29) 2.150Pradeep Chhawchharia, D.K.W. Cheng, Y.S. Lee, Hong Kong Polytechnic University, Hong Kong
A Practical Implementation of a Charger of a Battery of Capacitors (0.5F) for X-Ray Applications (St. 30) 2.156O. Garcia, P. Alou, J.A. Cobos, R. Prieto, J. Uceda, Universidad Politécnica de Madrid, J. Casero, Siemens S.A, Spain
Performance of ferroresonant transformer in microprocessor based battery charger for electric vehicles (St. 31) 2.162Curtis R. Mersman, Medhat M. Morcos, Norman G. Dillman, Kansas State University, USA
Session D3c: Switched and resonant-mode power supplies Session Chairman:Knut Vangen, Unitech, Norway
Zero voltage switching converter for magnetic transfer of energy to movable systems (St. 32) 2.168Peter Knaup, Karl Hasse, Technische Hochschule Darmstadt, Germany
Analysis of the Series-Parallel Multiresonant LLC Converter Comparison between First Harmonic Approximation and Measurement (St. 33) 2.174Thomas Duerbaum, Georg Sauerlaender, Philips Research Lab., Germany
A novel split-rail resonant supply generator for use with medium power single phase inverter systems supplying live loads (St. 34) 2.180J.A. Gow, C.D. Manning, Loughborough University, United Kingdom
A PWM AC/AC Full-Bridge used like a Shunt and a Serial Regulator (St. 35) 2.186J.B. Vieira Jr., João C. Oliveira, L.C. Freitas, E.A.A. Coelho, V.J. Farias, Universidade Federal de Uberlândia, Brazil
A DC-DC converter based on a new series resonant inverter topology (St. 36) 2.192Silviu Stefanescu, Mircea Chindris, Ioan Vadan, Technical University of Cluj-Napoca, Romania
Analysis and test results of double buck and buck/boost quasi-resonant converters (St. 37) 2.196Zoltán Puklus, László Hodossy, Széchenyi István College Györ, Hungary, Peter C. Szilagyi, Sault College of AATSET, Canada
VDMOS devices for low output voltage DC/DC
converters (3.3V) (St. 38) 2.202J. Fernández, J. Rebollo, J. Millán, Centro Nacional de Microelectrónica, J.A. Cobos, O. Garcia, J. Uceda, Universidad Politécnica de Madrid E.T.S.I.I., Spain
Universal-input unity power factor rectifier using a novel sepic-derived topology (St. 39) 2.208Hari Sree, University of Minnesota, USA, Johann W. Kolar, Technical University of Vienna, Austria, Ned Mohan, University of Minnesota, USA
Session D3d: High frequency power converters and power factor correction Session Chairman:J. F. Haugen, Mascot Electronic, Norway
Single phase low distortion DC/AC-inverter with high bandwidth to switching frequency ratio (St. 40) 2.214M. A. E. Andersen, Niels Anderskouv, Karsten Nielsen, Technical University of Denmark, Denmark
An AC-DC converter with high-quality inputwaveforms and very low switching losses (St. 41) 2.220Mariano Lopez, L. Garcia de Vicuña, Miguel Castilla, José Matas, Universidad Politecnica de Cataluña-UPC, Spain
Boost converter as a medium for adaptive shut down control (ST. 42) 2.226Teuvo Suntio, Seppo Suur-Askola, Toni Laurinen, Efore Oy, Finland
A novel digital control scheme for a sinusoidal input single phase rectifier (St. 43) 2.231Masaaki Ohshima, The Tokyo Electric Power Co Inc., Eisuke Masada, The University of Tokyo, Japan
A new topology for paralleling three phase half wave rectifiers with a high power factor and sinusoidal input currents (St. 44) 2.238Fernão V. Pires, EST, J. F. Silva, IST, Portugal
Soft-Switched PWM High-Frequency Load-Resonant Inverter with Power Factor Correction for Induction-Heating Cooking Appliance (St. 45) 2.244S. P. Wang, M. Nakaoka, Yamaguchi University, K. Izaki, H. Omori, Matsushita Electric Industrial Co. Ltd., Japan
A Unity Power Factor PWM Voltage Rectifier Under Non-sinusoidal And Unbalanced Conditions (St. 46) 2.250P. Verdelho, G. D. Marques, Universidade Técnica de Lisboa - IST, Portugal
Session D3e: Modelling and simulation, user application experiences Session Chairman:H. Børsting, Grundfos, Denamrk Modelling of power converter using paralleled intelligent IGBT power modules (St. 47) 2.256Patrick Hofer, Nico Karrer, Swiss Federal Institute of Technology (ETHZ),|Switzerland
Levitation system for melting with class E inverter (St. 48) 2.262B. Grzesik, W. Burlikowski, J. Junak, Z. Kaczmarczyk, Silesian Technical University, Poland
900 kW two-quadrant switch mode power supply with large bandwidth and extremely low ripple for synchrotron particle acceleration consisting of IGBT’s & passive filter(St. 49) 2.268L. van Lieshout, Colijn A.J.J., Holec Projects B.V. Hengelo, The Netherlands
Electrical supply suitable for direct resistance fluid heating installations (St. 50) 2.274P. Mauras, D. Pratmarty, Electricité de France, N. Fintescu, Fintronic, France
On the design of a high frequency high power four
quadrant power converter for superconducting magnets(St. 51) 2.279J. A. Carrasco, Universidad de Valencia, E. J. Dede, J. M. Benavent, G.H. ELIN International S.A., Spain, F. Bordry, A. Dupaquier, CERN, Switzerland, A. Ferreres, Universidad de Valencia, Spain
Power Supply for Fast Field Cycling NMR Spectrometer Using IGBTs Operating in the Active Zone (St. 52) 2.285D.M. Sousa, Instituto Superior Técnico, Portugal, E. Rommel, Universität Würzberg, Germany, J. Santana, J. Fernando Silva, P.J. Sebastiaõ, A.C. Ribeiro, Instituto Superior Técnico, Portugal
A switching power amplifier for active magnetic suspensions (St. 53) 2.291S. Carabelli, A. Crivelli, F. Maddaleno, M. Muzzarelli, R. Ippoliti, A. Iannantuoni, Politecnico di Torino, Italy
Advanced digital control scheme of a paralleled bridge type current tracking high power conversion amplifier for magnetic resonance imaging (St. 54) 2.297M. Nakaoka, S. Watanabe, P. Boyagoda, Yamaguchi University, H. Takano, Hitachi Medical Corporation, Japan
Phase locking control of a resonant DC-AC converter for induction heating ( St. 55) 2.303J-M Hubé, Damien Flieller, Equipe de Recherche en Génie Electrique, J-P Louis, LESIR, X.-T. Quan, Equipe de Recherche en Génie Electrique, France
Modelling of power electronics circuits associated with non-linear magnetic devices (St. 56) 2.309J.F. Charpentier, Yvan Lefevre, H. Piquet, LEEI, France
Development of an intelligent fluorescent lamp ballast based on neuron chip (St. 57) 2.315J.M. Alonso, J. Ribas, A.J. Calleja, E. Lopez, M. Rico, Universidad de Oviedo, Spain
Sinusoidal voltage inverter controlled by direct follow-up method (St. 58) 2.321W. Koczara, A. Niedzialkowski, Warsaw Univ. of Techn., Poland
Session D4a: Modulation strategiesSession Chairman:W. Schumacher, T.U. Braunschweig, Germany
Microcomputer based on-line control of a delta modulated sine PWM inverter (St. 59) 2.326M. Nazmul Anwar, Md. Bashir Uddin, M.A. Choudhury, Bangladesh University of Engineering & Technology, Bangladesh, M.A. Rahman, Memorial University of Newfoundland, Canada
Harmonic Evaluation of Two-Level Carrier-Based PWM Methods (St. 60) 2.331S. Fukuda, K. Suzuki, Hokkaido University - Faculty of Engineering, Japan
Space vector modulation in ortogonal and natural frames including the overmodulation range (St. 61) 2.337Andrzej Haras, Technical University of Gdansk, Poland
Comparative investigation of random PWM techniques with variable switching frequency and pulse position for inverter-fed AC drives (St. 62) 2.343Andrzej M. Trzynadlowski, University of Nevada, USA, Michael M. Bech, Frede Blaabjerg, Aalborg University, Denmark
Synthesis of logic connection controllers for matrixconverters (St. 63) 2.350H. Ralaivao, J.P. Cambronne, B. Francois, J.P. Hautier, Ecole Centrale de Lille, France
A new strategy for sinusoidal waveform with PWM techniques (St. 64) 2.356
V. Navrapescu, A. Craciunescu, D. O. Kisck, Politehnica University Bucharest, Romania
Digital Scalar Pulse Width Modulation: A Simple Approach to Introduce Non-Sinusoidal Modulating Wave-Forms (St. 65) 2.360C.B. Jacobina, A.M.N. Lima, E.R.C. da Silva, Universidade Federal de Paraíba, R.N.C. Alves, Universidade Federal de Pará, P.F. Seixas, Universidade Federal de Minas Gerais, Brazil
Improved Harmonic Spectrum and Reduced EMI in Boost Converter by Using the Random Modulation (St. 66) 2.366Franc Mihalic, Bezjak Toncek, Miro Milanovic, University of Maribor, Slovenia
Novel Space Vector Modulation Strategy for a Four-Switch Three-Phase DC/AC Inverter (St. 67) 2.372Darwin T.W Liang, University of Bradford, United Kingdom, Jiang Li, Zhejiang University, P.R. China
Comparison of modulation strategies for B4-inverters (St. 68) 2.378Frede Blaabjerg, Aalborg University, Denmark, Dorin Neacsu, Technical University of Iasi, Romania, John K. Pedersen, Aalborg University, Kragh Henrik, Grundfos A/S, Denmark
Session D4b-1: Fuzzy control Session Chairman: Prof. J. P. Louis, LESIR, France
Fuzzy Logic Controlled DC Motor Drive in the Presence of Load Disturbance (St. 69) 2.386W.G. da Silva, Instituto Superior de Ensino e Pesquisa de Ituiutaba, Brasil, P.P. Acarnley, University of Newcastle upon Tyne, U. K.
A fuzzy pid controller optimized by genetic algorithms used for a single phase power factor pre-regulator (St. 70) 2.392Yu Qin, Shanshan Du, Controlled Power Company, USA
Two level fuzzy control for switched reluctance motors - hierarchical approach (St. 71) 2.397A. Forrai, H. Hedesiu, Z. Biro, Technical University of Cluj, Romania
Reduction of the flux control sensitivity to electrical parameter uncertainties in induction machine field oriented control by using fuzzy logic (St. 72) 2.403B. Robyns, Ecole des Hautes Etudes Industrielles, France, F. Labrique, H. Buyse, Université Catholique de Louvain, Belgium
Fuzzy Position Controller for DC Drives (St. 73) 2.409Szilárd Varga, F. Farkas, S. Halász, T. U. of Budapest, Hungary
DSP Implementation of a Fuzzy Based Direct Flux and Torque Controller (St. 74) 2.415Ian Bird, H. Zelaya De La Parra, The University of Birmingham, U. K.
A fuzzy-logic approach for easy and robust control of an induction motor (St. 75) 2.421Germana Poma, Antonio Cataliotti, University of Palermo, Italy
Optimised fuzzy algorithm to control adhesion conditions during starting in AC drives for traction applications (St. 76) 2.426Luciano Puglisi, F. Brondolo, P. Ferrari, Università degli Studi di Genova, M. Marchesoni, Università degli Studi di Cagliari, Italy
Stable Model Reference Neurocontrol for Electric Drive System (St. 77) 2.432Kurt Fischle, Dierk Schröder, T. U. of München, Germany
Session D4b-2: Fuzzy control Session Chairman:Prof. P. Korondi, T. U. Budapest, Hungary
Control of a three-phase PWM front and rectifier using fuzzy logic (ST. 78) 2.438J. Rodriguez, J.S. Hernandez, M.B. Salgado, F.M. Liebe, Universidad Técnica Federico Santa Maria, Chile
Comparison between Fuzzy and Classical SpeedControl within a Field Oriented Method for Induction Motors (St. 79) 2.444L. Baghli, H. Razik, A. Rezzoug, GREEN, France
TMS320 DSP implementation fuzzy-neural controlled induction motor drives (St. 80) 2.449S. Beierke, Texas Instruments Deutschland GmbH, Germany, P. Vas, A. F. Stronach, University of Aberdeen, United Kingdom
Fuzzy Logic as Control Method for Power Electronics Converters (St. 81) 2.454Antonio P. Martins, Adriano S. Carvalho, University of Porto, Portugal
Fuzzy inversion based on piece wise linearization and rule base reduction (St. 82) 2.459Peter Baranyi, Peter Korondi, Technical University of Budapest, Hungary, Hideki Hashimoto, University of Tokyo, Japan
Speed and position control of Brushless DC machines employing Neural Networks (St. 83) 2.465José J. Reimóndez, Maria I. Giménez de Guzmán, Victor M. Guzmán, José A. Restrepo, Ricardo Moncada, Universidad Simón Bolívara, Venezuela
A closed-form approach to the design of fuzzy-pi controller (St. 84) 2.471Antonella Scaglia, Ansaldo Industria, Antonello Monti, Polytechnic University of Milan, Italy
Application of Novel Fuzzy Controllers for a Position Servo System with an Induction Machine (St. 85) 2.477Zhinhong Wu, Dietrich Naunin, Technische Universität Berlin, Germany
Session D5f: Converter machine interactions Session Chairman:Prof. Ch. Sadarangari, KTH, Stockholm, Sweden
D5f-1 Acoustic NoiseThe Contribution to Noise in an Induction Machine Fed from a Pulse Width Modulated Inverter (St. 86) 2.483Lars Låftman, University College of Mälardalen, Sweden
Acoustic noise radiated by nominally identical induction machines fed from sinusoidal and non-sinusoidal power supplies (St. 87) 2.489Z.Q. Zhu, L. Xu, D. Howe, University of Sheffield, United Kingdom
Vibration in the Switched Reluctance Motor. Influence of the Feeding Mode (ST. 88) 2.495M. Gabsi, F. Camus, B. Humeau, M. Besbes, Lesir, France
D5f-2 HarmonicsAsymmetrical operation of a voltage-inverter-fed induction machine (St. 89) 2.500S.G. Bosga, J.J.A. v.d. Burgt, A.J.A. Vandenput, Eindhoven University of Technology, The Netherlands
A Torque-Ripple in Inverter-Fed Multimotor Drive (St. 90) 2.506Zbigniew Nowacki, Technical University of Lodz, Poland
Harmonic coupling effects between a PWM inverter and an AC machine (St. 91) 2.509Alain Groud, Laurent Gerbaud, J-P Rognon, Laboratoire d’Electrotechnique de Grenoble, James Roudet, France
The additional phenomena which appear in induction motors fed from PWM inverters (St. 92) 2.515Zdzislaw Krzemien, Electrotechnical Institute, Poland
D5f-3 Thermal ModelsThe dynamic thermal loading of an induction machine (St.93) 2.520Mats Alaküla, Lund Institute of Technology, Lars Gertmar, ABB Corporate Research, Patrice Lesage, Lund Institute of Technology, Sweden
Session D5n: Design diagnosis Session Chairman:Prof. B. de Fornel, ENSEIIHT, France
Asymmetrical supply during fault situations in an induction machine drive system (St. 94) 2.526S.G. Bosga, A.J.A. Vandenput, Eindhoven University of Technology, The Netherlands
Rotor fault detection of inverter fed induction machines including experimental results (St. 95) 2.532Rudolf Wieser, Christian Kral, Franz Pirker, Matthias Schagginger, University of Technology Vienna, Austria
A new reason for bearing current damages in variable speed AC drives (St. 96) 2.539Jaakko Ollila, Tuomo Hammar, Tampere University of Technology, Jarkko Iisakkala, ABB Motors, Heikki Tuusa, Tampere University of Technology, Finland
Design and implementation of a single-board motor supply controller (St. 97) 2.543E.K.H. van der Pols, J.A.J.M. Geerligs, Holec Machines en Apparaten B.V., The Netherlands
Spectral powers and volt-amperes discussed and applied on measurements in ASDs (St. 98) 2.549Lars Gertmar, ABB Corporate Research, Sweden
Windows application for optimized designing of single-phase asynchronous motors (St. 99) 2.555Gheorghe Scutaru, Transilvania University of Brasov, Romania
Optimized design of variable-speed drives based on numerical simulation (St. 100) 2.561J.-J. Simond, Tu Xuan, B. Kawkabani, Swiss Federal Institute of Technology, A. Sapin, ABB Industry, D. Schafer, B. Willy, ABB Power Generation, Switzerland
Session D5o: Modelling and simulation Session Chairman:Dr. Y. Perriard, EPFL, Switzerland
Automatic building of changeable topological model of static converter for the electrical drive simulation(St. 101) 2.572Laurent Gerbaud, Nicolas Retiere, Alain Bolopion, Laboratoire d’Electrotechnique de Grenoble, France
High Frequency Lumped Parameter Model for AC Motor Windings (St. 102) 2.578Domenico Casadei, Gabriele Grandi, Università degli Studi di Bologna, Antonio Massarini, Università di Modena, Italy
Mathematical model of inverter-fed induction motor drive for electrical vehicle (St. 103) 2.584Tadeusz Stefanski, Kielce University of Technology, Poland
Analysis of transient behavior of a synchronous generator for Pulsed Power Supply based on the finite element method (St. 104) 2.590R. De Weerdt, E. Tuinman, Holec Machines & Apparaten bv., The Netherlands
Nonlinear models of electrical machines for motion control system simulations (St. 105) 2.595M. Ronkowski, R. Szczesny, J. Nieznanski, Technical
University of Gdansk, Poland
A simple analytical model for the calculation of harmonics due to slotting in the flux density waveform of an electrical machine (St. 106) 2.601G. Houdouin, G. Barakat, T. Derrey, E. Destobbeleer, Université du Havre, France
Transient Model of a Squirrel Cage Induction Machine including the Skin Effect using Rotor-Fixed Reference Frame (St. 107) 2.606Mihàly Németh-Csòka, D-Tech GmbH, Germany
Simulation model of the induction motor with non-linear rotor (St. 108) 2.611E.A. Lomonova, A.A. Tulupnikov, Moscow State Aviation Institute, S.I. Volsky, Experimental Design Bureau, Russia, J.B. Klaassens, Delft Technical University, The Netherlands
Session D8g: Renewable energy Session Chairman:T. Toftevaag, EFI, Norway
Global control for two PV applications: pumping and connecting to the grid systems (St. 109) 2.616J.A. Dominguez, S. Lorenzo, S. de Pablo, S. Caceres, Escuela Superior de Ingenieros Industriales, Spain
Hybrid Photovoltaic Power System Using a Parametric Induction Generator (St. 110) 2.619Yoshinori Sakamoto, Mitsuo Natsusaka, Koichi Murakami, Hachinohe Institute of Technology, Japan
Power conditioning of low voltage generators with transformerless gridconnected inverter topologies (St. 111) 2.625Johanna Myrzik, Universität Gesamthochschule Kassel, Germany
Study of a variable reluctance generator for wind power conversion (St. 112) 2.631I. Haouara, A. Tounzi, F. Piriou, L2EP, France
Wind-Powered Pumping System Using Induction Machines with PWM Excitation (St. 113) 2.637Selênio R. Silva, Marcos S. Miranda, Renato O.C Lyra, CPDEE/EEUFMG, Brazil
A Test-Rig to evaluate a Wind Turbine Generation Control System based on DSP (St. 114) 2.642F. Barrero, J.L. Mora, M. Perales, A. Marchante, E. Galván, J. M. Carrasco, Universidad de Sevilla, Spain
Modelling and simulation of an autonomous wind/diesel system equipped with forced commutated converter 2.646Magni P. Pálsson, Norwegian University of Science & Technology, Kjetil Uhlen, Trond Toftevaag, Norwegian Electric Power Research Institute, Norway (St. 115)Modelling and Experimental Investigation of Energy Conversion Systems Employing Wind-Driven Induction Generators with Electronically Controlled Self-Excitation 2.652Antonio Di Gerlando, F. Castelli Dezza, R. Perini, Politecnico di Milano, Italy (St. 116)Power electronic interface for unconventional small size stand alone wind energy conversion system (St. 117) 2.659G. Lo Bianco, F. Caricchi, F. Crescimbini, O. Honorati, University of Rome “La Sapienza”, L. Solero, III University of Rome, Italy
Session D8i: Generator, excitation systems Session Chairman:Asle Skjellnes, Siemens, Norway
A boost-buck chopper type static excitation system for synchronous generator (St. 118) 2.664Hong-Woo Rhew, Chang-Ki Jeong, Korea Electric Power
Research Institute, Republic of Korea
Semi-Conductor Stress Evaluation in Generator Brushless Exciters Under Abnormal Operating Conditions 2.670T. Zouaghi, Ecole Nationale d’Ingénieurs de Tunis, Tunisia, M. Poloudajoff, Université P&M Curie Paris, Y. Peucreach, Electricité de France, France (St. 119)Experience with Static Excitation Systems based on DC-Drives technology (St. 120) 2.676J. Taborda, ABB Industrie AG, J. Frous, Ivelt - elektro s.r.o., Switzerland
Simulation of the Generator and the Power Supply System for the TJII Spanish Stellarator (St. 121) 2.680I. J. Iglesias, CEDEX, J. Acero, C. Lucia, J.M. del Rio,JEMA S.A., L. García-Tabarés, CEDEX, Spain
Development of static excitation system using adaptive control method (St. 122) 2.686Yoon-Ho Kim, Chung-Ang University, Chan-Ki Kim, Ick-Hyun Lim, Hong-Woo Rhew, Korea Electric Power Research Institute, Korea
Session D8h: Adjustable Speed Generators Session Chairman:A. Elström, ABB Kraft, Norway
Steady-state power flow and efficiency optimizing analysis of a variable speed constant frequency generating system (St. 123) 2.691Per Arne Edvardsen, ABB Kraft, Tom F. Nestli, ABB Corporate Research, Roy Nilsen, Norwegian University of Science & Technology, Norway
Control characteristics of an adjustable speed generation system with a flywheel excited by a DC link converter (St. 124) 2.695Tohru Nishio, Minoguti Kiyoshi, Uno Seinosuke, The Kansai Electric Power Company Inc., Hombu Mitsuyuki, Futami Motoo, Mikisuke Higuchi, Hitachi Ltd, Japan
Application of Vector Control to the Cascaded Induction Machine for Wind Power Generation Schemes (St. 125) 2.701B. Hopfensperger, D J Atkinson, University of Newcastle upon Tyne, L A Lakin, NADA Consulting Group, United Kingdom
Stability Analysis of Doubly-Fed Induction Machines in Stator-Flux Reference Frame (St. 126) 2.707M. Heller, W. Schumacher, T. U. Braunschweig, Germany
Vector control of an autonomous induction generator connected to a PWM rectifier (St. 127) 2.711C. Colliez, A. Tounzi, F. Piriou, L2EP, France
Rotor Circuit GTO Converter for Slip ring Induction Machine (St. 128) 2.717Helmut Weiss, University of Leoben, Austria
Design and Control of a Wind Power Station with Double fed Induction Generator (St. 129) 2.723W. Hofmann, A. Thieme, TU Chemnitz, A. Stoev, Technocon Engineering & Consulting AG, Germany, A. Dittrich, ETH Zürich, Austria
Experimental Comparison of pq and Extension pq Method for Active Power Filter (St. 130) 2.729Y. Komatsu, T. Kawabata, Ritsumeikan University, Japan
Network Feeder with Synchronous Generator for Variable Speed Wind Turbines as a Laboratory Model 2.735U. Rädel, G. Berger, Technical University of Ilmenau, J. Petzoldt, University of Rostock, Germany (St. 131)1.5 MW wind power station with low ac-line distortion using a standard doubly-fed generator system with fieldorientation control (St. 132) 2.739Bernhard Eggert, CEGELEC AAS, Germany
Session D9a: Energy system management, user applications experiences, modelling and simulation Session Chairman:K. Bouwknegt, Holec, The Netherlands
Investigation of the Interference of Controlled Electrical Drives with the Power System by Simulator Coupling(St. 133) 2.743Volkmar Müller, D. Haenelt, TU Dresden, T. Röseler, Siemens AG, Germany
Modeling and Simulation of Induction Motor Drive under Inverter Fault Operations (St. 134) 2.749Nicolas Retiere, L. Gerbaud, D. Roye, Laboratoire d’Electrotechnique de Grenoble, P.J. Chrzan, Technical University of Gdansk, P. Mannevy, SNCF, France
Fundamental Component Measurement in Power Supplies with high Harmonic Content (St. 135) 2.755W. Deleroi, J. Woudstra, Technical University of Delft, The Netherlands
High-performance software environment for power electronic simulations (St. 136) 2.761J. Nieznanski, R. Szczesny, K. Iwan, M. Ronkowski, Technical University of Gdansk, Poland
A methodology using constrained optimisation techniques for the design of static converters (St. 137) 2.767Stéphane Bergeon, Laurent Gerbaud, Frédéric Wurtz, James Roudet, Laboratoire d’Electrotechnique de Grenoble, France
Microcomputer voltage control for diesel electrical aggregate (St. 138) 2.773Gorislav Erceg, Romina Erceg, Marinko Miletic, Univ. of Zagreb, Croatia
A New Concept for the Configuration of Drive Systems and Power Electronics Applications in Industrial Environments (St. 139) 2.778Ansgar Kern, Kee Hwan Kim, Ingenieurbüro Dr. Kern & Associates, Germany
Mains Fail Selection for Utility Connected Inverters (St. 140) 2.784J. Büttner, U. Kirchner, G. Berger, Technical University of Ilmenau, J. Petzoldt, University of Rostock, Germany
Influence of Current Transition Functions on the Diminution of Radiated and Conducted Emissions in Power Electronic Circuits (St. 141) 2.788F. Reby, M. Amberg, R. Bausiere, E. C. de Lille - L2EP, France
A functional description for static converter structures design (St. 142) 2.794Christophe Lechevalier, Laurent Gerbaud, Jean Bigeon, Laboratoire de’Electrotechnique de Grenoble, France
Session D9b: EMC Session Chairman:Mari Haugen Jensen, Unitech, Norway
Comparative emissions measurements for full-bridge switching strategies (St. 143) 2.800Richard M. Duke, Bal Ram, University of Canterbury, New Zealand
Fast Prediction of Differential Mode Noise Input Filter Requirements for Flyback and Boost Unity Power Factor Converters (St. 144) 2.806Michael AE Andersen, Technical University of Denmark, Denmark
Influence of system parameters on EMC behaviour of IGBT inverters (St. 145) 2.810F. Palis, R. Mecke, H. Mecke, Thomas Rummel, Otto-von-Guericke Universität Magdeburg, Germany
Electromagnetic interference propagation - a wide frequency range equivalent circuit for the two winding transformer (ST. 146) 2.815Luszcz Jaroslaw, Krzysztof Fagiewicz, Technical University of Gdansk, Poland
Techniques Used to Suppress Electromagnetic Interference in a VVVF Inverter (St. 147) 2.820John Triplett, Parsons Brinckerhoff, N. Masoud, M. Abdallah, National Authority for Tunnels, T. Emoto, Toshiba Corporation, Egypt
Increased Pollution in the Protective Earth (St. 148) 2.823Åke Larsson, Chalmers University of Technology, Martin Lundmark, Janolov Hagelberg, Luleå University, Sweden
Influence of electric parameters on radiated perturbations from static converters by Moments method(St. 149) 2.829G. Rojat, J. Ben Hadj Slama, Ecole Centrale de Lyon, France
Design of resonant Flyback converter under EMCconstraint (St. 150) 2.834J. Schutz, A. Schellmanns, J. Roudet, L. E. G., France
Analysis of EMI sources inside power electronic converters (St. 151) 2.840A. Di Napoli, University of Rome III, F. Giulii Capponi, Univeristy of Rome “La Sapienza”, L. Solero, University of Rome III, Italy
EMC behaviour and modelization of high frequency converter for induction heating (St. 152) 2.845S.D. Bocus, S. El Baroudi, F. Bernot, Alain Berthon, Institut de Génie Energétique, France
Influence of passive components stray behaviours on SMPS conducted EMI (St. 153) 2.851C. Gautier, E. Labouré, F. Costa, LESiR - ENS Cachan, P. Petit, C. Labarre, Ecole des Mines de Douai, France
Influence of the I.G.B.T. switching processes on the electromagnetic compatibility of power inverters (St. 154) 2.857R. J. Pasterczyk, AGDE, France
Some simple approximations of interference spectra 2.864A. Nagel, R.W. De Doncker, RWTH Aachen University of Technology, Germany (St. 155)
Session D9c: Power conditioning, power factor correction Session Chairman:Frode Jenset, Siemens, Norway
Optimum diode-switched active filters for power factor correction of single- and three-phase diode rectifiers with capacitive smoothing (St. 156) 2.870Vello Sarv, Tiiu Sakkos, Jüri Soojärv, Estonian Energy Research Institute, Estonia
A Single-Phase Rectifier with Reduced Current Ripple and Power Factor Correction (St. 157) 2.876J.-M. Meyer, A. Rufer, Ecole Polytechnique Fédérale de Lausanne, Switzerland
A Three-Phase PWM Rectifier without Voltage Sensors(St. 158) 2.881Osamu Miyashita, Toshiya Ohnuki, Tokyo Denki University, Japan, Ph. Lataire, Gaston Maggetto, Vrije Universiteit Brussel, Belgium
Capacitor current and voltage ripple reduction in AC/DC converters with power factor correction (St. 159) 2.887L. Latkovskis, J. Stabulnieks, Latvian Academy of Sciences, Latvia
Current-Fed Three-Phase Converter and Voltage-Fed Three-Phase Converter using Optimum PWM Pattern
and Their Performance Evaluation (St. 160) 2.893Y. Konishi, Fuji Electric Co. Ltd., E. Hiraki, Y. Matsumoto, Y.L. Feng, M. Nakaoka, Yamaguchi National University, Japan
Analytical approach of switching behaviour and modeling of single phase parallel structure of Boost type Power Factor Corrector (St. 161) 2.901B. Dakyo, J. C. Le Bunetel, L. Protin, Université du Havre, W. Koczara, Institute of Control & Industriel Electronics, France
Application of micromachined technology to effective power factor correction (St. 162) 2.906W. Wojciak, T. Pozniak, A. Napieralski, T. U. of Lodz, Poland
Session D9d: Power conditioning, power factor correction Session Chairman:Prof. M. Crappe, Faculté Polytechnique de Mons, Belgium
Alternative approaches to improve power factor (St. 163) 2.911Luc Wuidart, SGS-Thomson Microelectronics, France
Power Factor Corrector with a Multiplier Control Stage Based on Delta-Sigma Technique (St. 164) 2.918Enrico Dallago, Gabriele Sassone, Marco Storti, University of Pavia, Italy
A single-stage isolated unity power factor correction scheme with single output voltage control loop automatic current shaping and fast output voltage regulation (St. 165) 2.923H. Jorquera, D. Sadarnac, SUPELEC, France
Analysis and Influence of Modulation Scheme on the Sizing of the Input Filter in a PWM Rectifier System (St. 166) 2.929F.R. Walsh, P. J. Roche, M. G. Egan, J. M. D. Murphy, University College Cork, J.F. Moynihan, Analog Devices,Ireland
A three phase PWM boost rectifier with high power factor operation and an acceptable current THD using only three switches (St. 167) 2.934L.C. de Freitas, C.H. Treviso, J. B. Vieira Júnior, V. J. Farias, Universidade Federal de Uberlândia, Brasil
Improvement methods of conversion quality in three-phase AC line power controllers - circuit topology and basic properties (St. 168) 2.940Ryszard Strzelecki, Zbigniew Fedyczak, Grzegorz Kobylecki, Radoslaw Kasperek, Zielona Góra University of Technology, Poland
Using two-input buck post-regulator to obtain high quality flyback power factor corrector (St. 169) 2.946M.M. Hernando, P. Villegas, J. Sebastian, F. Nuno, Universidad de Oviedo, Spain
Session D9e: Reliability Session Chairman:Jørgen Andersen, NSB, Norway
Parameter correlation of partial discharge pulse trains with the electrical stress (St. 170) 2.952Constantin Cruceru, University „Valachia“-Targoviste, Toader Munteanu, “Dunarea de Jos” University, Romania
Harmonic Component Resonance in Power Systems in Combination with Power-Factor Control (St. 171) 2.956W. Deleroi, J. Woudstra, Technical University Delft, The Netherlands
Experience of Maintenance and Designing Systems of Electric Drives for Large Power Belt Conveyors in conditions of Open Mining (ST. 172) 2.961V.M. Mamalyga, Kiev Polytechnical Institute, Ukraine
Monitoring of Digitally Controlled Generator Excitation System (St. 173) 2.967S. Togno, G. Ottaviani, ABB Industria, Italy
Safety electrical appliance recognition using an artificial intelligence system (St. 174) 2.973J.-M. Kasbarian, S. Tian, C. Clausse, P. Hanchin, Schneider Electric, D. Lafore, Ecole Supérieure d’Ingénieurs de Marseille, France
Session D9f: DiagnosticsSession Chairman:J. Coureault, Cegelec, France
Use of the output voltage of a switchmode power supply to predict failure of filtering electrolytic capacitors(St. 175) 2.978P. Venet, A. Lahyani, P.J. Viverge, G. Grellet, Université Claude Bernard de Lyon, France
Integrated condition monitoring and diagnosis of electrical machines using minimum configuration artificial intelligence (St. 176) 2.983C. Tassoni, Università degli studi di Parma, Italy, P. Vas, University of Aberdeen, United Kingdom, F. Filippetti, University of Bologna, G. Franceschini, Università degli studi di Parma, Italy
Deterministic approach and neural network approach for stator short circuits diagnosys in induction machines(St. 177) 2.989Santol Meo, Univeristà di Napoli “Federico II”, F. Filippetti, Università di Bologna,| G. Franceschini, C. Tassoni, Università di Parma, G. Gentile, Università di Napoli, A. Ometto, Università dell’Aquila, Italy
Fault detection and diagnosis in the electric drives (St. 178) 2.995R. Szczesny, Technical University of Gdansk, Poland, H. Piquet, LEEI, P. Kurzynski, Technical University of Gdansk, Poland
Modelling and Simulation of Semiconductor Systems for Diagnostic Purposes (St. 179) 2.1001Zygfryd Glowacz, AGH - University of Mining & Metallurgy, PolandTuesday 9 September 1997
Session D1c: Monolithic integration Session Chairmen:J. L. Sanchez, LAAS, FranceA. Jaeklin, ABB, Switzerland
New challenges toward smart power (St. 1) 3.001M. I. Castro Simas, Instituto Superior Técnico, P. Santos, A.P. Casimiro, Instituto de Telecomunicacoes, M. Lança, Insituto Superior Técnico, Portugal
Use of rapid thermal processing for isolation and interconnect technologies applied to smart power (St. 2) 3.009J-M Dilhac, L. Cornibert, G. Charitat, LAAS-CNRS, M. Bafleur, Motorola Inc, N. Nolhier, D. Zerrouk, LAAS-CNRS, France
Design of Power LDMOS Transistors Integrated in SmartMOS TM Circuits (St. 3) 3.015P. Rossel, D. Moncoqut, LAAS-CNRS, D. Farenc, Motorola Semiconducteurs S.A., H. Tranduc, G. Charitat, LAAS-CNRS, I. Pagès, Motorola Semiconducteurs S.A., France
The Design of a Smart Power Switch for High-Frequency Converters (St. 4) 3.021D.R.H. Carter, R. A. McMahon, Cambridge University, United Kingdom
Latch-up Suppressed LIGBT with an N-type Ring (St. 5) 3.027Sung-Lyong Kim, Sang-Koo Chung, Jungyol Jo, Ajou University, Korea
Integration of polysilicon diodes in a smart power process(St. 6) 3.031I. Claverie, J. Mille, SGS-Thomson Microelectronics, O. Bonnaud, Groupe Microélectronique et Visualisation, J. Oualid, LMCS - ENS de Physique Marseille, R. Jerisian, Laboratoire Micro-électronique de Puissance, France
Transient Behaviour of isolation architectures in smart power integrated circuits (St. 7) 3.036Evgueni Stefanov, Georges Charitat, Nicolas Nolhier, Pierre Rossel, LAAS, France
Analytical model for the optimization of the turn-off performance of a self-firing MOS-Thyristor device (St. 8) 3.042M. Breil, J.-L. Sanchez, Laboratoire d’Analyse et d’Architecture des Syst. du CNRS, France
Monolithic integration of MOS-gated optically triggered thyristor and over-temperature protection circuit (St. 9) 3.049O. Guillemet, R. Berriane, J. Jalade, J.L. J.P. Laur, Laboratoire d’Analyse et d’Architecture des Syst. du CNRS, France
Low cost integration for monolithic smart IGBT (St. 10) 3.054R. Letor, L. Fragapane, G. Percolla, M. Saggio, F. Saya, SGS-Thomson Microelectronics, Italy
Monolithic Converter with High Efficiency from 3.5 A down to 1mA (St. 11) 3.060M.R. Borghi, A. Magazzú, SGS-Thomson Microelectronics, Italy
A Novel Lateral SOI BMFET with Trench Diffused Gate (St. 12) 3.065Kim Doo-Young, Byon Dae-Seok, Han Min-koo, Seoul National University, Choi Yearn-Ik, Ajou University, Korea
Trench-Gate SOI LIGBT with Hole Collector (St. 13) 3.070W.O. Lee, Korea Electronics Co. Ltd., B.H. Lee, Seoul National University, J.C. Shin, J.E. Park, Y.S. Han, Korea Electronics Co. Ltd., M.K. Han, Seoul National University, Y.I. Choi, Ajou University, Korea
Microcontroller powers small motors: single-chip smart power IC controls a servo-valve (St. 14) 3.076Virginia Natale, Michele Palazzi, Giulio Ricotti, Domenico Rossi, SGS-Thomson Microelectronics, Italy, Jean J. Bardyn, Philippe Chabbert, Crouzet automatismes, France
The integrable G.T.O. provides functional integration (St. 15) 3.080Dominique Bergogne, L.M.P. Université de Tours, Robert Pezzani, Béatrice Renon, Laurent Moindron, SGS-Thomson Microelectronics DSG, France
A Monolithic Full-Integrated Device For Off-line Switching Power Supply (St. 16) 3.083R. Quaglino, G. Gattavari, SGS-Thomson Microelectronics, Italy
Session D1d: Hybrid Integration Session Chairman:Ulrik Jæger, Danfoss, Denmark
Electrothermal behaviour of an IGBT chip directly brazed on a micro two phases heat exchanger (St. 17) 3.088L. Meysenc, S. Raël, C. Schaeffer, Laboratoire d’Electrotechnique de Grenoble, France
A Novel Low-Cost and High-Reliability IGBT Module for General Use (St. 18) 3.092A. Tamba, T. Terasaki, T. Shigemura, M. Sasaki, S. Sekine, Y. Sonobe, Hitachi Ltd, Japan
A universal smart control-IC for high-power IGBT-applications (St. 19) 3.098R. Herzer, Semikron Elektronik GmbH, Ch. Bokeloh,
J. Lehmann, Technical University of Ilmenau, Germany
Some experiences concerning of a starting and service of high power IGBT converters (St. 20) 3.103Stefan Januszewski, Henryk Swiatek, Krzysztof Zymmer, Electrotechnical Institute, Poland
Intelligent Integrated Power for Low Power Applications(St. 21) 3.109Katja Stengert, Christian Göbl, Semikron International, Germany
Dielectric ceramic technology for high power integrated hybrid converters (St. 22) 3.113J. D. van Wyk, C. K. Campbell, M. F. K. Holm, Rand Afrikaans University, South Africa
Reliability of high power IGBT modules Testing on thermal fatigue effects due to traction cycles (St. 23) 3.118A. Hamidi, G. Coquery, R. Lallemand, INRETS LTN, France
Hybrid power Module, a good and versatile power management (St. 24) 3.124Philippe Perruchoud, Pierre Aloïsi, Motorola Semiconductors, France
Technology for Planar Integrated Output Filters for Hybrids(St. 25) 3.129J.D. van Wyk, S.J. Marais, J.A. Ferreira, R. A. U., South Africa
Switching performance of a SMPS Implemented in IMS Technology (St. 26) 3.134W. Teulings, J.L.Schanen, J. Roudet, LEG, FranceSession D4c: Converter control application to single phase systems Session Chairman:Lars Bøhler, Unitech, Norway
Genetic-Algorithm Controlled Converters for Photovoltaic Generator Systems (St. 27) 3.139T. Ohnuki, O. Miyashita, K. Ohniwa, T. Fujimaki, Tokyo Denki Univ., Japan
An original control of a buck converter with a real time card (St. 28) 3.144C. Batard, F. Levagueresse, C. Bergmann, IUT de Nantes, France
A new current feedback method in PWM converters by using a toroidal transformer (St. 29) 3.150M. Sanz, A. Llombart, J. Sallan, A.A. Bayod, Universidad de Zaragoza, Spain
An approximate dead-beat control strategy for the design of function regulators in DC-DC converters (St. 30) 3.155Falah Al-hosini, ABB Corporate Research, Sweden
The Analytical Description of Impedance Conversion in the Static Converter by means of Distribution Theory (St. 31) 3.161G. Skarpetowski, ABB Daimler-Benz Transportation, Switzerland
Voltage Injection Control for Power Supplies in Radar Applications (St. 32) 3.167D. E. Macpherson, C. Bunlaksananusorn, University of Edinburgh, United Kingdom, F. Fisher, GEC Marconi
A High-performance digital phase-shift controller for the zero-voltage-switched fullbridge converter (St. 33) 3.173Ivan K Ellis, Andrew J Forsyth, University of Birmingham, U.K., Zhengyu Lu, Zhejiang University, China
A Novel Control Strategy For IGBT-Four-Quadrant Converters (St. 34) 3.179Dieter Maischak, Siemens Transportation Systems, Germany
Describing function-based analysis of a class of PWM feedback control systems (St. 35) 3.184Ciro Picardi, A. Eisinberg, P. Muraca, G. Palmieri, Universita’ della Calabria, Italy
Session D4d: Converter control applications to three phase systems Session Chairman:J. Pedersen, Aalborg University, Denmark
Three-Phase Power Reversible Converter With Simple Control Algorithm (St. 36) 3.189Bor-Ren Lin, Deng-Ping Wu, National Yunlin Institute of Technology, Tian-Fure Shiue, Industrial Technology Research Institute, Taiwan R.O.C.
Analysis of direct self control in voltage-type PWM rectifier 3.195V. Valouch, J. Skramlik, Academy of Sciences, Czech Republic (St. 37)Optimization of the AC/DC/AC converter current control loop (St. 38) 3.200Andrzej Sikorski, Bialystok Technical University, Poland
A New Method of Controlling a q-pulse Thyristor Converter Using a Single Synchronization Voltage (St. 39) 3.206Stanislaw Kapka, Lublin Technical University, Poland
New control strategies for high power current-source PWM rectifiers using instantaneous spatial vector technique 3.212J. Sakly, S. Toumia, S. Hassine, N. Bouguila, E.N.I.M., Tunisie, C. Rombaut, J.P. Cambronne, Ecole Centrale de Lille, France (St. 40)Inclusion of Dead-Time and Parameter Variations in VSC Modelling for Predicting Responses of Grid Voltage Harmonics (St. 41) 3.216Jan Svenssson, Chalmers University of Technology, Sweden
Direct Voltage Control of a PWM AC/DC Voltage Converter(St. 42) 3.222G. D. Marques, J. Fernando Silve, Instituto Superior Técnico, Portugal
Identification and Compensation of the Dead Time Behaviour of an Inverter (St. 43) 3.228Th. Baumann, D-Tech GmbH, Germany
Session D4e: Converter control, PFC/ line harmonics Session Chairman:A. Steinbakk, AS Eltek
To design an optimized pid controller for a single phase power factor pre-regulator for an on-line UPS - Genetic algorithm approach (St. 44) 3.233Yu Qin, Shanshan Du, Controlled Power Company, USA
Low-Level Implementation of Harmonic Elimination Methods Based on Structural Properties (St. 45) 3.238D. Casini, G. Carrara, P. Bolognesi, L. Taponecco, Università di Pisa, Italy
Multi chopper full wave control interlacing technique minimising flicker effect (St. 46) 3.244N. Volochina, A. Piel, E. Destobbeleer, L. Protin, Univ. du Havre, France
Minimizing the Line Interference of High-Power Low-Frequency Converters (St. 47) 3.250Rik W. De Doncker, Oscar Apeldoorn, RWTH Aachen, Germany, Trond Skullerud, Norwegian University of Science and Technology, Norway
High-Performance Single-Phase Power Factor Correction Converter Using New Pulse Integral Value-Related Modulation Scheme and Its Practical Evaluation (St. 48) 3.256Yasuyuki Nishida, Eigi Hiraki, Junichi Yashitsugu, Mutsuo Nakaoka, Yamaguchi University, Japan
Session D4f: Converter control, Miscelleanous Session Chairman:Prof. J. Cobos, UPM-DEI, Madrid, Spain
Power electronic control system simulation with parallel inference machine (PIM) (St. 49) 3.264J. Baba, E. Masada, Mi. Tamura, The University of Tokyo, Japan
Thermal Monitoring in Integrated Power Electronics - New Concept (St. 50) 3.269W. Wojciak, A. Napieralski, M. Zubert, M. Janicki, T. U. of Lodz, Poland
The Use of Methods Studying Chaos to Analyze a Current Mode PWM H-Bridge (St. 51) 3.272D. Carton, B. Robert, M.C. Pera, C. Goeldel, LAM- UFR, France
Session D4g: Measurement techniques and systems Session Chairman:R. Davis, Power Electronics Measurements Ltd, United Kingdom
Combined insulated current and voltage measurement system for use in high power converters (St. 52) 3.278Dieter Eckardt, Siemens AG, Germany
Implementation of the Adaptive Analogue Filter in Voltage Measurement of Induction Machine (St. 53) 3.284Vanja Ambrozic, David Nedeljkovic, Nastran Janko, University of Ljubljana, Slovenia
Circuits for Direct Current Measurement with Improved Linearity and Accuracy (St. 54) 3.288Predrag Pejovic, University of Belgrade, Yugoslavia
A Novel System for Current and Voltage Sensing in Traction Converters (St. 55) 3.294M. Bakran, R. Marquardt, A. Mertens, S. Winternheimer, Siemens AG, Germany
Design of current sensors using amorphous wires (St. 56) 3.300M.J. Prieto, F. Nuño, A. M. Pernía, J. M. Lopera, J. Sebastián, Universidad de Oviedo, Spain
Measurement of a Torque of the Electrical Machines According To Their Electrical Parameters (St. 57) 3.305V.I. Smolin, Dmitry Topolsky, N.N. Gudaev, Chelyabinsk State Technical University, Russia
Developments in rogowski current transducers (St. 58) 3.308W F Ray, R M Davis, Power Electronics Measurements Ltd., United Kingdom
Design criteria and performance Analysis of AC Side Current Control System of Ac to Dc Converters (St. 59) 3.313A. Draou, University of Science and Technology of Oran, Algeria
Session D4h: Adaptive robust sliding modes Session Chairman:P. Vadstrup, Grundfos, Denmark
Quasi-sliding mode approach to direct voltage modulation for frequency-controlled VSI drives (St. 60) 3.319V. Oleschuk, Moldovian Academy of Sciences, Moldova
Designing multi-input sliding mode controllers for quantum resonant converters using the lyapunov-function approach (St. 61) 3.325Miguel Castilla, L. Garcia de Vicuña, Mariano Lopez, José Matas, Universidad Politécnica de Cataluña - UPC, Spain
Sliding mode controllers for multilevel inverters (St. 62) 3.331J. F. Silva, N. Caldeira, A. Machaieie, Technical University of Lisboa, Portugal
A Robust State Feedback-Based Servo Control System Using Measurable State Variables in Resonant Motor Drives (St. 63) 3.337Kenji Hara, Seiji Hashimoto, Hirohito Funato, Kenzo Kamiyama, Utsonomiya University, Japan
On the robustness of sliding mode controllers for twelve pulse parallel rectifiers (St. 64) 3.343S. Ferreira Pinto, J. Fernando Silva, Technical University of Lisbon - IST, Portugal
Sliding Mode Control of a Current Type PWM Rectifier 3.349G. D. Marques, P. Verdelho, Instituto Superior Técnico, Portugal (St. 65)
Session D4i: Identification estimation and adaptive control Session Chairman:Prof. J. Kyyrä, Helsinki Univ. of Tech., Finland
Fast estimation of unknown resonant frequencies by means of the VeCon chip set (St. 66) 3.353Ch. Hattrup, M. Oßmann, H. van der Broeck, Philips Forschungslaboratorien Aachen, Germany
Structure- and Parameter Identification for a Two-Mass-System With Backlash and Friction Using a Self-Organizing Map (St. 67) 3.358Frank Schütte, S. Beineke, H. Grotstollen, U. Witkowski, U. Rückert, S. Rüping, University of Paderborn, GermanyComparison of Methods for State Estimation and On-line Parameter Identification in Speed and Position Control Loops (St. 68) 3.364Stephan Beineke, F. Schütte, H. Grotstollen, Univ. of Paderborn, Germany
A Practical Identification Scheme for Induction Motors at Standstill using only a VS Inverter as the Actuator (St. 69) 3.370Jens Godbersen, Paul Thogersen, Michael Tonnes, Danfoss A/S, Denmark
Full-Order Observers for Flux and Parameter Estimation of Induction Motors (St. 70) 3.375Lennart Harnefors, Hans-Peter Nee, The Royal Institute of Technology, Sweden
Real-Time Parameter Estimation and Adaptive Controlfor an IPM Motor Drive (St. 71) 3.382Razvan C. Pannaitescu, Transilvania University of Brasov, Romania, Lars Norum, Norwegian University of Technology, Norway
Session D5a: Permanent magnet motors Session Chairman:Prof. Hans Peter Nee, EKC-KTH, Stockholm, Sweden
Modelling and simulation of an axial field brushlesspermanent magnet motor drive (St. 72) 3.387Nesimi Ertugrul, Eric Chong, The University of Adelaide, Australia
The Analytical and Experimental Study on TorquePerformance of Brushless DC Drives in High Speed Operation (St. 73) 3.393Latif Tezduyar, Kerem Erenay, Fehmi Sonmezoz, Arcelik A.S., TurkeyAnalytical calculation of winding losses of inverter-fed PM synchronous motors with air-gap windings and surface mounted magnets (St. 74) 3.399Jörgen Engström, The Royal Institute of Technology, Freddy Magnussen, ABB Corporate Research, Hans-Peter Nee, The Royal Institute of Technology, Sweden
Performance Maximisation of the D.C. Brushless Motor Without the Aid of Direct Current Control (St. 75) 3.405M. Allan, C. Zhou, Glasgow Caledonian University, United Kingdom
Direct control of the current vector of a PMSM supplied by an optimized HCC-VSI (St. 76) 3.411A. Comsa, F. Meibody-Tabar, D. Arab-Khaburi, F.M. Sargos,
GREEN, France
Session D5b: Traction 1 Session Chairman:G. Zetterberg, Adtranz, Sweden
D5b 1 LocomotivesA fuzzy wheel-rail adhesion model for rail traction (St. 77) 3.416R. J. Hill, University of Bath, United Kingdom, J-Fr. de la Vassière, ENSEM, France
Next Generation High Power Locomotive Converter of 12x 3.422K.-H. Ketteler, J. Scheibengraf, R. Reichelt, U. Meyer, ABB Daimler-Benz Transportation, Switzerland (St. 78)Digital real-time hardware-in-the-loop simulation for rail-vehicles: a case study (St. 79) 3.428Thomas Keller, Erich Scheiben, ABB Daimler-Benz Transportation, Peter Terwiesch, ABB Corporate Research, Switzerland
Implementation of an Advanced Wheel Creep Control with Searching Strategy on a Light Rail Vehicle (St. 80) 3.434H. J. Schwartz, Ronald Kreße, ABB Daimler Benz Transportation, Germany
D5b 2 InterferenceInterference Currents at 3 kV DC Traction Application (St. 81) 3.439U. Ehrler, K.-H. Ketteler, ABB Daimler-Benz Transportation, Switzerland
Analysis methods of line interferences on the example of a DC-line traction drive (St. 82) 3.447J.-T. Maaß, R. Redmann, ABB Daimler-Benz Transportation (Adtranz), Peter Terwiesch, ABB Corporate Research, Frank Unger-Weber, ABB Daimler-Benz Transportation (Adtranz), Germany
Interaction between the drive and the levitation system of the Superconducting Magnetically Levitated System 3.453Shunsuke Ohashi, Kansai University, N. Tanahashi, H. Ohsaki, E. Masada, The University of Tokyo, Japan (St. 83)Control of line harmonics due to four-quadrant-converter in AC tractive stock by means of filter and transformer 3.459Wolfgang Runge, ABB Daimler Benz Transportation, Germany (St. 84)
Session D5b: Traction 2 Session Chairman:Prof. Stefan Östlund, EKC-KTH, Stockholm, Sweden
D5b 3 Inverter/ConverterCompensation of low-frequency beat current in traction inverter drives using the volt-second equalisation method 3.465Z. Salam, C.J. Goodman, University of Birmingham, U. K. (St. 85)Stress Analysis of Traction Drives (St. 86) 3.471M. W. Winterling, Holec Ridderkerk, W. Deleroi, Delft University of Technology, E. Tuinman, Holec Ridderkerk, The Netherlands
State Control of a Static Frequency Converter Feeding the Decentral Railway Supply Network (St. 87) 3.477H.-C. Doht, Siemens AG, Germany
A PC based low cost real time simulator for traction application (St. 88) 3.483Enrico De Paola, ABB Daimler Benz Transportation Italy, Italy
Compact inverters for supply to Railways (St. 89) 3.487Helge E. Mordt, Høgskolen Østfold/ Prediktor AS, Jan O. Gjerde, ABB Corporate Research, Norway
MACS ICON - IGBT based Propulsion systems (St. 90) 3.492
Anders Lindberg, Peter Oom, Adtranz Sweden, Sweden
D5b 4 OthersApplication of a high-power IGBT-converter 2.2 MVA/690 V for kneader-drive (St. 91) 3.498Roland Jakob, Helmut Jebenstreit, Cegelec AEG Anlagen und Antriebssysteme GmbH, Germany
Robust and Reliable Medium Voltage PWM Inverter withMotor Friendly Output (St. 92) 3.502Michael K. Buschmann, Juergen K Steinke, ABB Industrie AG, Switzerland
Electric ship propulsion: a review of possible configurations based on large electrical machines and high power static converters (St. 93) 3.508M. Fracchia, Università di Parma, M. Marchesoni, Università di Cagliari, Italy, L. Pierrat, Electricité de France, France
Session D5c: Linear drives Session Chairman:A. Wick, Siemens, Germany
Automatic Control of a Vehicle with Linear Induction Motor (St. 94) 3.514Luis Costa, Jorge Esteves, Pedro Verdelho, Universidade Técnica deLisboa, Carlos Cabrita, Universidade Da Beira Interior, Portugal
Feasibility of Non-contacting Conveyance System for aSteel Plate using Normal and Thrust Force of Linear Induction Motors (St. 95) 3.520H. Hayashiya, University of Tokyo, T. Katayama, Hitachi Ltd, H. Ohsaki, E. Masada, University of Tokyo, Japan
Microcontroller optimal implementation of a Neural Network position estimator for a variable reluctance linear actuator (St. 96) 3.526A. Serri, S. Cincotti, M. Marchesi, Universita’ di Cagliari, Italy
Experimental Device of Long Stator LSM with Discontinuous Arrangement and Result (St. 97) 3.532Kazue Seki, Masaya Watada, Susumu Torii, Daiki Ebihara, Musashi Institute of Technology, Japan
Vectorial control of the linear asynchronous machines 3.537Giuseppe Gentile, S. Meo, Università di Napoli „Federico II“, N. Rotondale, A. Ometto, Università dell’Aquila, M. Scarano, Università di Cassino, Italy (St. 98)Control of special purpose linear drives (St. 99) 3.541Juhan Laugis, Tõnu Lehtla, Tallinn Technical University, Estonia
Session D5d: Reluctance drives Session Chairman:Prof. G. Brandenburg, T.U. München, Germany
A generalised approach to Torque and Current computation in Switched Reluctance motors (St. 100) 3.547Duco W.J. Pulle, Ian R. Petersen, Australian Defence Force Academy, Australia
A New Single Phase Induction Motor Utilizing a Parametric Oscillation (St. 101) 3.552Yoshinori Sakamoto, Mitsuo Natsusaka, Koichi Murakami, Hachinohe Institute of Technology, Japan
Switched Reluctance Motor with 16 stator poles and 12 rotor teeth (St. 102) 3.558J. Wolff, H. Späth, Universität Karlsruhe, Germany
Simulation and Control of Saturated Synchronous Reluctance Machine (St. 103) 3.564Miroslav Chomat, Academy of Sciences, Czech Republic,
Malcolm D McCulloch, University of Oxford, United Kingdom
High Performance Switched Reluctance Motor and Power Converter for Implementation in an Electric Vehicle (St. 104) 3.570Bernd Hexamer, University of Kaiserslautern, Germany
Rotor Position Estimation of a Switched Reluctance Generator (St. 105) 3.575M. Stiebler, K. Liu, TU Berlin, Germany
A New Rotor Position Estimation Method for Switched Reluctance Motors using PWM Voltage Control (St. 106) 3.580G. Gallegos-Lopez, P.C. Kjaer, T.J.E. Miller, University of Glasgow, United Kingdom
Effect of changing the number of turns on the performance of a switched reluctance motor (St. 107) 3.586J. Corda, University of Leeds, United Kingdom
Calculation of Forces in a Hybrid Linear Stepping Motor For Machine Tools (St. 108) 3.591J. F. Gieras, Rongjie Wang, University of Cape Town, South Africa
Two-phase SR motor modelling using a finite element method coupled with the driver (St. 109) 3.596M. Jufer, M. Crivii, Swiss Federal Institute of Technology, Switzerland
Overload Protection and Maximum Power Operating Point Control of Switched Reluctance Motor Drives (St. 110) 3.602Reinhard Orthmann, Daimler-Benz AG, Alexander Krautstrunk, Technische Hochschule Darmstadt, Hans-Peter Schöner, Daimler-Benz AG, Germany
A Novel Method for the Prediction of Losses in Switched Reluctance Machines (St. 111) 3.608J. Reinert, R. Inderka, R.W. De Doncker, Aachen University of Technology, Germany
A New Control Angle Strategy for Switched Reluctance Motor (St. 112) 3.613H. Henao, G.A. Capolino, University of Picardie - Jules Verne, M. Poloujadoff, University of Paris 6, E. Bassiliy, University of Picardie - Jules Verne, France
Control Analysis of a Switched Reluctance Motor (St. 113) 3.619Milan Cundev, Lidija Petkovska, University „Sts. Cyril & Methodius“ of Skopje, Macedonia
Fast digital current control in switched reluctance drive without current feedback filter (St. 114) 3.625Frede Blaabjerg, Lars Christensen, Aalborg University, Steffan Hansen, Jesper R. Kristoffersen, Danfoss Drives, Peter O. Rasmussen, Denmark Philipp Kjaer, University of Glasgow, United Kingdom
Parameters and volt-ampere ratings of a synchronous reluctance motor drive for flux-weakening applications taking into account iron saturation (St. 115) 3.631N. Bianchi, S. Bolognani, University of Padova, Italy
Session D5e: Special applications Session Chairman:Prof.W. Sulkowski, Narvik Inst. of Tech. Norway
A nonlinear vibration damping controller for two-mass-model drive systems (St. 116) 3.637Rached Dhaouadi, Ecole Polytechnique de Tunisie, Tunisie, Kenji Kubo, Hitachi Ltd, Japan
Experimental results of an electro-hydrostatic actuator system using sliding-mode position controller (St. 117) 3.643Cláudio Barroso, Escola Náutica Infante D. Henrique, J. António Dente, Instituto Superior Técnico, Portugal
A Complete Resolver-Based Velocity and Position Tracking System for High-Performances Drives (St. 118) 3.649
Remus Teodorescu, Emil Rosu, Ion Bivol, Cristian Vasilache, „Dunarea de Jos“ University of Galati, Dan Floricau, „Politehnica“ University of Bucharest,, Romania
Testing of a single-sided induction motor on a new rotating rig (St. 119) 3.653Ennio Pappalardo, A. Picardi, Ansaldo Trasporti, Italy
New Control Method for Torus Motors (St. 120) 3.658C. W. Lu, B. J. Chalmers, UMIST, Huang S., HUST, A.C. Renfrew, UMIST, United Kingdom
Analysis of Thyristor Commutation of Series Converter-Type Motor (St. 121) 3.663Waclaw Orlewski, AGH - University of Mining and Metallurgy, Poland
Session D5i: Applications of DTC Session Chairman:Prof. A. Rufer, EPFL, Switzerland
A Backstepping Approach to Continuous Time Direct Torque Control (St. 122) 3.668Duco W.J. Pulle, Ian R. Petersen, Australian Defence Force Academy, Australia
Direct Mean Torque Control of an Induction Motor (St. 123) 3.672Erich Flach, Rolf Hoffmann, Darmstadt University of Technologies, Germany
Salient pole synchronous motor excitation control in direct flux linkage control based drives (St. 124) 3.678O. Pyrhönen, J. Kaukonen, J. Luukko, M. Niemela, J. Pyrhönen, Lappeenranta University of Technology, Pekka Tiitinen, Janne Väänänen, ABB Industry Oy, Finland
Permanent magnet synchronous motor drive based on direct flux linkage control (St. 125) 3.683J. Luukko, J. Kaukonen, M. Niemelä, O. Pyrhönen, J. Pyrhönen, Lappeenranta University of Technology, Pekka Tiitinen, Janne Väänänen, ABB Industry Oy, Finland
Start up Strategies for a Direct Torque Controlled Synchronous Machine (St. 126) 3.689M. R. Zolghadri, D. Diallo, D. Roye, Laboratoire d’Electrotechnique de Grenoble, France
Direct Torque Control System for Sychronous Machine 3.694M. R. Zolghadri, D. Diallo, D. Roye, Laboratoire d’Electrotechniqe de Grenoble, France (St. 127)Performance analysis of a DTC control scheme for induction motor in the low speed range (St. 128) 3.700D. Casadei, G. Serra, A. Tani, Università degli Studi di Bologna, Italy
Session D5j: Energy efficient drives Session Chairman:Prof. I. Nagy, Computer and Automation Institute, Hungary
Induction Motor Drives Energy Optimization in Steadyand Transient States: A New Approach (St. 129) 3.705Juan M. Moreno-Eguilaz, Miguel Cipolla-Ficarra, Juan Peracaula, Polytechnic University of Catalonia, Spain
Model Based Energy Optimiser for Vector Controlled Induction Motor Drives (St. 130) 3.711K. Skaug Rasmussen, Paul Thogersen, Danfoss A/S, Denmark
Analysis of Stability in Low-cost Energy OptimalControlled PWM-VSI Fed Induction Motor Drive (St. 131) 3.717Flemming Abrahamsen, Frede Blaabjerg, John K. Pedersen, Aalborg University, Denmark
Comparison of two low-cost small induction motor drive configurations (St. 132) 3.724Benjamin Gordon, R A McMahon, Cambridge University, U. K.
Application of the induction motor toolboxes for the design strategy of energy saving drivers for supplying commuter trains (St. 133) 3.730J. B. Klaassens, J. F. Dekkers, Delft Technical University,The Netherlands, E. A. Lomonova, S.R. Miziurin, S. I. Volsky, Moscow State Aviation Institute, Russia
Session D5k: Control of ac machines - Industrial applications Session Chairman:Tom Nestli, ABB Corporate Research, Norway
A Motor Driving Controller Suitable for Elevators (St. 134) 3.736Mutoh Nobuyoshi, Ohnuma Naoto, Omiya Akihiro, Hokari Sadao, Elevator Development Center Hitachi Ltd., Konya Masahiro, Hitachi Building System Co. Ltd., Mine Toshisuke, Mito Works Hitachi Ltd., Japan
Variable structure control for high power induction `motors driven by GTO inverter (St. 135) 3.744F. Ben Ammar, H. Godfroid, CEGELEC, J. F. Yhuel, S. Siala, Laboratoire Atlantique de Recherche en Génie Electrique, France
Application of Field Oriented Control to double winding asynchronous motors in large power inverter drives (St. 136) 3.750M. Matuonto, E. Gatti, G. Torri, M. Frascotti, Ansaldo Industria Milano, A. Monti, M. Riva, Politecnico di Milano, Italy
Modulation and Control of Current Source Converters for High Dynamic Performance of Induction Motors (St. 137) 3.756I. J. Iglesias, CEDEX, Spain, H. Zelaya de la Parra, The University of Birmingham, United Kingdom, O. Gonzalez, J.M. Solana, J. Tamarit, CEDEX, Spain
System design of an integrated control unit for variable speed drives (St. 138) 3.762W. A. G. de Jager, J.A.J.M. Geerligs, A. Duym, Holec Machines en Apparaten B.V., The Netherlands
Experimental validation of the use of a direct feeding algorithm in a.c. drives (St. 139) 3.768E. Pagano, Università "Federico II“ Napoli, A. Bobbio, G. Bosia, Ansaldo Ricerche Genova, M. L. Grassi, Università "Federico II“ Napoli, Italy
Evaluation of several switching tables used in variable structure control of high power induction motor drives supplied with 3-level inverters (St. 140) 3.771A.-M. Arcker-Hissel, M. Pietrzak-David, Laboratoire d’Electrotechnique et d’Electronique Industrielle, F. Ben Ammar, CEGELEC - DEI, B. de Fornel, LEEI, France
A slip control strategy of constant-power IM drives (St. 141) 3.777Z. J. Zhai, K. H. Oh, P. G. Im, D. J. Kim, Samsumg Electronics Co. ltd, Korea
Session D5l: Control of ac machines - Control and implementation Session Chairman:Jouko Niiranen, ABB Industry Oy, Finland
Implementation of Indirect Vector Control on an Integrated Digital Signal Processor - Based System (St. 142) 3.782Ali Keyhani, Mohammad N Marwali, Willy Tjanaka, Ohio State University, USA
Pseudo Torque Control (PTC) A New Control Concept for Induction Motors (St. 143) 3.788C. Tuttas, Universität Kaiserslautern, Germany
System Performance of Fieldbus Linked Electric Drives(St. 144) 3.794M. Franke, G.-H. Geitner, Technical University Dresden, Germany
Improvement of the Operation Limit of a Field-Weakening Speed Control System for a Self-Controlled Synchronous Motor (St. 145) 3.801Shoji Nishikata, Toshitaka Namba, Tokyo Denki University, Japan
Converter control of asynchronous motor drive with minimum current consumption (St. 146) 3.807Zdenek Cerovsky, Jiri Javurek, Czech Technical University, Czech Republic
Filtered PWM-inverter output waveforms in a medium speed (<30000 rpm) solid-rotor induction motor drive (St. 147) 3.813Jussi Huppunen, Juha Pyrhönen, Lappeenranta University of Technology, Finland
Dynamic modeling and model based control of an induction machine (St. 148) 3.819Lutz Krüger, D. Naunin, TU Berlin, Germany
Feedback linearisation and multivariable cascaded predictive structure control of induction machine (St. 149) 3.825P. Boucher, A. Benyahia, D. Dumur, SUPELEC, France
R-S-T regulators for an induction motor drive: comparative study (St. 150) 3.831B. de Fornel, L.E.E.I.-I.N.P.T., France, I. Slama-Belkhodja, L.S.E.-E.N.I.T., Tunisie
Anti-Windup of Current Regulators Considering Inverter Saturation (St. 151) 3.836Dong-Choon Lee, G-Myoung Lee, Yeungnam University, Korea
The new CSI control strategy for avoiding slow response in vector controlled induction motor drive (St. 152) 3.842Aleksandar Nikolic, Paper Mill Belgrade, Borislav Jeftenic, Electrotechnical Faculty Belgrade, Yugoslavia
Perodic Responses of a Nonlinear Current Controlled IM Drive (St. 153) 3.847Zoltán Sütö, István Nagy, Jákó Zoltán, Technical University of Budapest, Hungary
Control System for the Voltage Source DC Link Converter in the Rotor Circuit of a Slip Ring Induction Machine (St. 154) 3.853Helmut Weiss, Markus Lampersberger, University of Leoben, Austria
A new control method of active torque ripples filter in high power electrical machines (St. 155) 3.859B. Davat, A. Khezzar, GREEN, France
Session D6a: Servo drives and actuators Session Chairman:Prof. A. Vandenput, T. U. Eindhoven, The Netherlands
Current Control and Magnet Configurations for High Torque to Current Ratio in Surface Mounted Permanent Magnet Synchronous Motors (St. 156) 3.865Katsuji Shinohara, Kagoshima University, Yasuo Mieno, Kagoshima National College of Technology, Japan
High Performance Vector Position Control of a Helical Reluctance Motor for an Ultra Precision Lathe (St. 157) 3.870S. Brückl, Technische Universität München, Germany
A DSP based Robust Optimal Servo Motor controller (St. 158) 3.876P. Kettle, A. Murray, Analog Devices, A. Holohan, Dublin City University
A Learning-Based Speed Control of Servomotors with Its Application to VCR (St. 159) 3.882Young-Hoon Kim, In-Joong Ha, Seoul National University, Jeong-Tae Kim, Goan-Soo Seong,
Samsung Electronics Co. Ltd, Korea
Comparative analysis of doubly-salient reluctance and permanent-magnet actuators (St. 160) 3.888M.M. Radulescu, C. Martis, K. Biro, T. U. of Cluj-Napoca, Romania
A Novel Electronically-operated, Linear, Variable-reluctance, Actuator (St. 161) 3.892M. York, J.M. Stephenson, A. Hughes, The University of Leeds, U. K.
Tracking control of a two degrees of freedom robotusing disturbance observer (St. 162) 3.898Stefan Dumbrava, “Gh. Asachi” Technical University of Iasi, Romania
Switching Flux Permanent Magnet Polyphased Synchronous Machine (St. 163) 3.903Emmanuel Hoang, Hamid Ben Ahmed, Jean Lucidarme, LESiR - ENS de Cachan, France
Optimized control on a two axis - robot by means of Evolution Strategies (St. 164) 3.909R. Richter, W. Hofmann, TU Chemnitz, Germany
Some applications of the ultrasonic microactuators in robotic miniaturization (St. 165) 3.912Mircea Ignat, Research and Development Inst. for Electrical Engineering, Gheorghe Amza, Politehnical University of Bucharest, Romania
Intelligent Motion: The new challenge for electrical drives 3.918Pacas J.M., University of Siegen, A. John, Micromatik Siegen, Germany (St. 166)Field magnitude adaptation in induction motors (St. 167) 3.922H. Rasmussen, Aalborg University, Denmark
On line Idenfication and Compensation of Friction Influence of Feed Drives of Machine Tools (St. 168) 3.927Thomas Frenz, Dierk Schröder, T. U. of München, Germany
Session D8a-1 Facts 1 Session Chairman:Prof. H. Akagi, Okayama Univ., Japan
Iterative harmonic simulation between a TCR, transformer saturation and the power system (St. 169) 3.933J. Arrillaga, University of Canterbury, New Zealand, J. Gonzalez, Universidad de Las Palmas, Spain, J. Cidras, Universidad de Vigo, Spain
Implementation of a Robust H∞ Controller for a Unified Power Flow Controller (St. 170) 3.939S.D. Round, University of Canterbury, New Zealand, Q. Yu, L.E. Norum, T.M. Undeland, Norwegian Institute of Science and Technology, Norway
Analog real-time model of an unified power flow controller 3.944Marcio Magalhães de Oliveira, Åke Ekström, Royal Institute of Technology, Sweden (St. 171)Application of Flexible AC Transmission System Devices for the Maximum Loadability Improvement in Transmission Lines (St. 172) 3.950S.M. Sadeghzadeh, Laboratoire d’Electrotechnique de Grenoble, France, M. Ehsan, Sharif University of Technology, Iran, Said N. Hadj, R. Feuillet, Laboratoire d’Electrotechnique de Grenoble, France
Static Electronic Tap-Changer for fast phase voltage control (St. 173) 3.956Tommy Larsson, ABB Components, Reijo Innanen, Fundia Steel AB, Gunnar Norström, VB Elnät, Sweden
On using FACTS and power system stabilizers to damp low frequency oscillations (St. 174) 3.959
J-C Passelergue, N. Hadjsaid, Y. Besanger, R. Feuillet, INPG - LEG, France
Forced Sharing of dc Capacitor Voltages in a Multi-Level GTO Static Var Compensator (SVC) (St. 175) 3.965S B Tennakoon, D. Scheidecker, Staffordshire University, United Kingdom
Influence of AC network impedance on the control performance of a VSC operating at different switching frequencies (St. 176) 3.971Anders Lindberg, Marcio M. de Oliveira, Ying Jiang, Royal Institute of Technology, Sweden
Multivariable feedback current control of a PWM Voltage Source Converter connected to an AC system with variable AC network impedance (St. 177) 3.977Anders Lindberg, Marcio M. de Oliveira, Ying Jiang, Royal Institute of Technology, Sweden
UPFC application to suppress flicker in arc furnace supply system (St. 178) 3.983M. Zouiti, S. Saadate, GREEN - UHP, X. Lombard, P.G. Therond, C. Poumarede, Electricité de France, France
Session D8a-2 Facts 2 Session Chairman:K. Uhlen, EFI, Norway
Pseudo-resonant Compensator for Full Control of Real and Reactive Power (St. 179) 3.988George G. Karady, Pramod Parihar, Arizona State University, USA
Power modulation capability of shunt and series compensators and phase shifters (St. 180) 3.994D.A. Pastos, G.B. Giannakopoulos, N.A. Vovos, University of Patras, GreeceStatic VAR compensation for flicker reduction (St. 181) 3.1000B. Gollentz, CREEBEL, G. de Preville, J.L. Pouliquen, CEGELEC, France
Solid-state power factor correction using voltage-source inverter self-controlled DC bus (St. 182) 3.1005A.M. Zaki, A.A. Mansour, Electronics Research Institute, O.A. Mahgoub, E.E. Abu-Elzahab, Cairo University, Egypt
Electronic Tap Changer for 10 kV Distribution Transformer 3.1010P. Bauer, S. W. de Haan, G. C. Paap, TU Delft, The Netherlands (St. 183)Using a PWM modulated Voltage Source Converter for flicker mitigation (St. 184) 3.1016Tomas Larsson, Åke Ekström, Royal Institute of Technology, Sweden
DSP Control of an Active Power Line Conditioning System 3.1021J.M. Carrasco, M. Perales, B. Ruiz, E. Galván, L. G. Franquelo, Universidad de Sevilla, S. Gutiérrez, E.G. de Mendícil, LOOIBAI s.a., Spain (St. 185)MPTC: an economical alternative to universal power flow controllers (St. 186) 3.1027Ned Mohan, University of Minnesota, USA
Application of Thyristor Controlled Series Capacitor (TCSC) for Damping of Electromechanical Oscillations 3.1033Ole Johan Hjemås, Statnett SF, Norway, Motjaba Noroozian, ABB Power Systems, Sweden (St. 187)
Session D8b: HVDC Session chairman: B. R. Anderson, GEC Alsthom, U.K.
Thyristor-Converters for Connecting 16 2/3 Hz and 50 Hz AC Systems (St. 188) 3.1039N. Christl, H. Huang, Siemens AG, Germany
Interactions between AC and DC transmission systems: modelling for use in power system studies (St. 189) 3.1043B. Delfino, G.B. Denegri, M. Invernizzi, A. Morini, University of Genoa, Italy
Emergency replacement of a 500kV HVDC converter at Sylmar East (St. 190) 3.1048W. Braun, M. Fähnrich, K. Sadek, W. Fischer, Siemens AG, Germany
Wednesday 10 September 1997
Session D1e: Characterization and Applications
D1e - 1: Session Chairman:P. Lindman, Ericsson Components, Sweden
Dynamics Behaviour of Punch-Through IGBT in Hard-Switching Converters at High Temperature (St. 1) 4.001S. Azzopardi, C. Jamet, J.-M. Vinassa, C. Zardini, Laboratoire I.X.L. - Université Bordeaux I, France
IGBT modules working at cryogenic temperature (St. 2) 4.007F. Rosenbauer, H. W. Lorenzen, Technische Universität München, Germany
Effect of the Physical Structure on the Recovery Softness of PIN diodes: Experimental and Numerical Analysis (St. 3) 4.013M. Pasqualetti, M. Portesine, R. Scicolone, B. Zerbinati, Ansaldo Trasporti, R. Menozzi, A. Bellini, University of Parma, Italy
Series and parallel operating of MOS controlled Thyristor 4.018A. Merazga, J.M. Li, D. Lafore, Ecole Supérieure d’Ingénieurs de Marseille, France (St.4)Comparison of PT and NPT Cell Concept for 600V IGBT’s 4.024R. Siemieniec, M. Netzel, Technical University of Ilmenau, R. Herzer, Semikron Elektronik GmbH, Germany (St. 5)An Investigation of the Turn-Off Characteristics of an IGBT Under Short Circuit Conditions (St. 6) 4.029Patrick W. Wheeler, Chris Newton, University of Nottingham, United Kingdom
Switching Balancement Of Series Connected Insulated Gate Devices By Gate Control Strategy (St. 7) 4.034M. Melito, G. Belverde, A. Galluzzo, S. Musumeci, SGS-Thomson Microelectronics, Italy
D1e - 2: Session Chairman:L. Lorenz, Siemens, Germany
An easy method to estimate switch-off losses in your application (St. 8) 4.039D. Lafore, A. Merazga, J.M. Li, CEGEMA - Ecole Supérieure d’Ingénieurs de Marseille, France
Active Voltage Clamping Techniques for Overvoltage Protection of MOS-Controlled Power Transistors (St. 9) 4.043Tobias Reimann, Robert Krümmer, Technical University of Ilmenau, Jürgen Petzoldt, University of Rostock, Germany
Application dependent gate trigger requirements of gate turn-off thyristors (St. 10) 4.049F.J. Wakeman, Westcode Semiconductors, M.S. Khanniche, University of Wales, United Kingdom
An Experimentally Validated Transient Thermal Impedance Model for High Power Diodes and Thyristors With Transient Junction Temperature Calculation (St. 11) 4.055F. Profumo, A. Tenconi, S. Facelli, Politecnico di Torino, B. Passerini, A. Guerra, International Rectifier Corporation Italiana, Italy
A systematic Approach for Testing Today’s Power
Semiconductors to Obtain a Generally Applicable Characterization (St. 12) 4.060Andreas Lindemann, IXYS Semiconductor GmbH, Germany
Evaluation and modelling of the power losses in the horizontal deflection circuit in televisions - with focus on the semiconductors (St. 13) 4.066Leo Østergaard, Bang & Olufsen A/S, Uffe B. Jensen, Aalborg University, Denmark
Evaluation and Comparison of Energy Loss in Regenerative and Nonlinear Dissipative Snubbers for Bridge Legs (St. 14) 4.073Deng Yan, Xiangnin He, Zhaoming Qian, Zhejiang University, P.R. China
A New Fault Tolerant Semiconductor Laser Triggering System for Light Trigger Thyristors (St. 15) 4.078C. O. Nwankpa, George Rost, Robert Fischl, Drexel University, Arye Rosen, Dean Gilbert, David Sarnoff Research Center, David Richardson, Electric Power Research Institute, USA
Optimisation of the thermal metal spray process for the manufacture of mass produced hybrid integrated power electronic converters (St. 16) 4.082J. D. van Wyk, P.A. Janse van Rensburg, Rand Afrikaans University, South Africa
Session D1f: Modelling Session Chairman:Prof. G. Busatto, Univ. of Napoli, Italy
An Electrothermal DMOS Model in ELDO applied to the simulation of an integrated H-bridge (St. 17) 4.088O. Schepp, A. Kostka, Technical University of Darmstadt, Germany
Modelling the Forward Recovery of the High Power Diode for Circuit Simulation (St. 18) 4.094Rémy Kolessar, Royal Institute of Technology, Bo Danielsson, ABB Power Systems AB, Sweden
A new model of a mos component compatible with the automatic circuit simulation (St. 19) 4.099Z. Bestaoui, C. Batard, B. Feuvrie, C. Bergmann, IUT de Nantes, France
The Lumped-Charge Buffered Power Diode Model for High Power Applications (St. 20) 4.105Kraig J. Olejniczak, Zia Hossain, University of Arkansas, Eric X. Yang, Vic A.K. Temple, Harris Semiconductor, Cliff L. Ma, Analogy Inc., USA
An Automatic Parameter Extraction Technique for an Improved PiN Diode Circuit Model (St. 21) 4.111Antonio Strollo, Ettore Napoli, University of Naples, Luigi Fratelli, Giuseppe Giannini, Ansaldo Trasporti, Italy
High Critical Temperature Superconducting Switches for Power Electronics Applications (St. 22) 4.117L. Garcia-Tabarés, I. Iglesias, A. Ramos, J.M. Asanza, J. Calero, CEDEX, P. Abramian, CIEMAT, L.A. Angurel, C. Diez, ICMA, X. Obradors, X. Granadors, ICMAB, Spain
An Accurate Circuit Model for Coreless PCB-based transformers (St. 23) 4.123S. Y. R. Hui, H. Chung, S. C. Tang, City University of Hong Kong, Hong Kong
Analytical Model for Dynamic Avalanche Breakdown in Power Devices (St. 24) 4.129L. Göhler, Universität der Bundeswehr München, J. Sigg, Siemens AG, Germany
General Approach to Thermal Simulation of Modern Smart Power Modules (St. 25) 4.134M. Furmanczyk, A. Szajfler, A. Napieralski, Technical University of Lódz, Poland
The IGBT model optimised for the circuit analysis and design (St. 26) 4.139Witold Pawelski, Andrzej Napieralski, Technical University of Lodz, Poland
PSPICE model for high voltage IGBTs (St. 27) 4.145Giovanni Busatto, A. Polverino, Università di Napoli "Federico II“, L. Fratelli, G. Giannini, Ansaldo Trasporti, Italy
Electrothermal simulation of fast switching integrated power elctronic circuits (St. 28) 4.151P. Vales, J.M. Dorkel, LAAS, France
On-State Electrothermal Modelling of Large Area Power Components and Multichip Power Modules (St. 29) 4.157K. Bellil, P. Tounsi, J.-M. Dorkel, Laboratoire d’Analyse et d’Architecture des Syst. du CNRS, Ph. Leturcq, Institut National des Sciences Appliquées de Toulouse, France
Session D2a: Multilevel and matrix converters Session Chairman:Prof. B. Davat, GREEN, Nancy, France
Three-Phase Three-Level Voltage-Source Converters Coupled with Harmonic Canceling Interphase Reactors 4.162Kuniomi Oguchi, Naoya Nakajima, Takahiko Sano, Ibaraki University, Japan (St. 30)Stability Analysis of Multilevel Converters with Imbricated Cells (St. 31) 4.168J.L. Duarte, P.J.M. Julicher, L.J.J. Offringa, W.D.H. v. Groningen, Eindhoven University of Technology, The Netherlands
Five Level Laboratory VAr Compensator With Separated Floating DC Voltages (St. 32) 4.175Tonny W. Rasmussen, Technical University of Denmark, Denmark
Control strategy for multilevel converter applied for electric power system (St. 33) 4.181Noriyuki Kimura, Akira Matsumoto, Toshimitsu Morizane, Katsunori Taniguchi, Osaka Institute of Technology, Japan
Serial connection: soft switching a way to reduce parasitic overcurrents (St. 34) 4.187N. Lapassat, D. Chatroux, Commissariat à l’Energie Atomique, D. Lafore, CEGEMA-ESIM, France
Switch-Effective Modulation Strategy for Matrix Converters 4.193Åke Christensson, ABB Corporate Research, Sweden (St. 35)A Matrix Converter switching controller for low losses operation without snubber circuits (St. 36) 4.199J-J Huselstein, R. Cittadini, C. Glaize, Université Montpellier II, France
A 3kW unit-power-factor multilevel rectifier based on a double-boost converter (St. 37) 4.204Patrick Bartholomeus, Philippe Le Moigne, Ecole Centrale de Lille, France
Single- and three-phase multilevel converters for traction systems 50Hz/16 2/3 Hz (St. 38) 4.210N. Schibli, A.-Ch. Rufer, Swiss Federal Institute of Technology, Switzerland
A new approach in multilevel power conversion (St. 39) 4.216Mario Marchesoni, A. Damiano, Università degli Studi di Cagliari, M. Fracchia, Università degli Studi di Genova, I. Marongiu, Università degli Studi di Cagliari, Italy
Session D2b: Power converters Session Chairman:Prof. J. W. Kolar, T. U. Vienna, Austria
Thyristor power supplies for plasma technology (St. 40) 4.222
Teolan Tomson, Estonian Energy Research Institute , Estonia, Aruy Marotta, Heinz Hoppe de Souza, Ins. de Fisika “Gleb Wataghin”, Brazil
An Improved Three-Phase Diode Rectifier for Reducing AC Line Current Harmonics (St. 41) 4.227Shigeo Masukawa, Shoji Iida, Tokyo Denki University, Japan
Optimizing Switching Losses and EMC of Pulse ControlledInverters using EMC-Snubber Circuits (St. 42) 4.233Olaf Scheuer, B. Orlik, University of Bremen, Germany
DC Link Currents in Bidirectional Power Converters with Coordinated Pulse Patterns (St. 43) 4.239L. Sack, University of Erlangen, Germany
The space vector control of the PWM-Rectifier using U/f references (St. 44) 4.245Jaakko Ollila, Tampere University of Technology, Finland
Comparison of state of the art Gate Drive Techniques for High Side Switch (St. 45) 4.250I. Zverev, University of Rostock, S. Konrad, V. Schilling, Technical University of Ilmenau, J. Petzoldt, University of Rostock, Germany
Analysis of Phase-Shift Controlled AC-AC Converters Based on Switching Vector Theory (St. 46) 4.256J. Kyyrä, Helsinki University of Technology, Finland
The energy efficient defence circuits of the commuter train converters (St. 47) 4.262S.I. Volsky, P. V. Butenko, E.A. Lomonova, Moscow State Aviation Institute, Russia, A.B. Uan-Zo-li, Virginia Tech, USA, J.B. Klaassens, Delft Technical University, The Netherlands
A new forward converter using non-dissipative snubber 4.268João B. Vieira Jr., Universidade Federal de Uberlândia, J. A. Corrêa Pinto, Escola Técnica Federal do Pará - ETFPA, A. A. Pereira, V. J. Farias, L. C. de Freitas, Universidade Federal de Uberlândia, Brasil (St. 48)Watercooled GTO Compact Converter (St. 49) 4.272Heinrich Baumann, Johannes Scholten, Manfred Zengerle, ABB Daimler-Benz Transportation GmbH, Germany
An optimised energy recovery snubber circuit for switching power converters (St. 50) 4.276Diana Izvorska, Joe Leisten, University of Teesside, U. K., Petrov Roumen, Swichtec Power Systems Ltd, New Zealand
Protective Device for Electronic Tap Changer for Distribution Transformers (St. 51) 4.282P. Bauer, S.W. de Haan, TU Delft, The Netherlands
A Novel Direct Frequency Converter Structure Controlled by a Cooperative Predictive Algorithm (St. 52) 4.286Eduardo P Wiechman, Rolando P Burgos, Universidad de Concepcion, Jose R. Rodriguez, Universidad Santa Maria, Chile
High power Soft Switching PWM IGBT Converter Electrical and EMC Characterization (St. 53) 4.292Cazabat S., Gonzalez J., Alcatel Alsthom Recherche, Critchley R., Cegelec, Forest F., Melhem W., LESIR, Pouliquen H., EDF, A. Puzo, Alcatel Alsthom Recherche, France
High power factor high efficiency bidirectional GTO rectifiers for locomotive application (St. 54) 4.298J. Bou Saada, P. Colignon, P. Thomas, GEC-Alsthom ACEC Transport, F. Avaux, L. Delporte, P. Mathys, ULB Elmitel, Belgium
Modular DC-link converter units for the power supply of electrical railway networks (St. 55) 4.305P.G. Kamp, B. Endres, M. Wolf, Siemens AG, Germany
Session D2c: Resonance applications
Session Chairman:Prof. Y. Cheron, LEEI/ENSEEIHT, France
Improvement of the power factor of dimmers using high frequency zero current switching (St. 56) 4.311G. Schröder, University of Siegen, K.-J. Lux, Micromatik GmbH, B.H. Yu, D-Tech GmbH, H. Siebel, University of Siegen, Germany
Novel zero current switching high frequency inverter applied for an emission control in diesel engine (St. 57) 4.315Yoshihiro Hatanaka, Sachio Kubota, Sekiya Yoshiaki, Tokyo University of Mercantile Marine, Japan
Design of a LCC resonant inverter for high-frequency lamp ballast resonant current controlled with high power factor (St. 58) 4.321F. Ferrero, M. Rico, A. Marcos, C. Blanco, E. Corominas, A. Calleja, Universidad de Oviedo, Spain
Self-adjusting resonant converters and application by high power electrical ARC furnaces (St. 59) 4.327Kuno Janson, Jaan Järvik, Tallinn Technical University, Estonia
Soft switching inverter power source for arc welding (St. 60) 4.333Hubert Mecke, Wolfgang Fischer, Frank Werther, Otto-von-Guericke-University Magdeburg, Germany
A Novel Auxiliary Resonant Commutated Pole Inverter Topology with Zero Current Turn-off Switching (St. 61) 4.338Min-Hong Kim, Samsung Motors Inc., Dong-Seok Hyun, Hanyang University, Korea
IGBT Half-Bridge Inverter for Induction Heating Applications with Active Auxiliary Resonant Circuit (St. 62) 4.344Jin-Woo Jung, LG Electronic Inc., Byoung-Kuk Lee, Bum-Seok Suh, Dong-Seok Hyun, Hanyang University, Korea
New Phase-Shifted Soft-Switching PWM Series Resonant Inverter Topologies and Their Practical Evaluations (St. 63) 4.350Mutsuo Nakaoka, Yamaguchi National University, Satosi Nagai, Tsuyama National College of Technology, Naoya Baba, Yasuhiro Arai, Yamaguchi National University, Japan
Soft-Switched PWM High-Frequency Load-Resonant Inverter with Power Factor Correction for Induction Heating Cooking Appliance (St. 64) 4.356S. P. Wang, M. Nakaoka, Yamaguchi National University, K. Izaki, I. Hirota, H. Yamashita, H. Omori, Matsushita Electric Industrial Co. Ltd, Japan
A Novel Resonant DC Link Multi-function Three Phase PWM Converter for Battery Energy Storage System (St. 65) 4.362E. Hiraki, M. Kurokawa, M. Nakaoka, Yamaguchi University, Japan
Digital predicitive current control of quasi resonant DC link inverter fed asynchronous motors (St. 66) 4.368Aldo Perfetto, Università di Napoli „Federico II“, C. Attaianese, Università di Cassino, S. Meo, Università di Napoli “Federico II”, Italy
Design Optimisation of an Active Clamp Forward Converter(St. 67) 4.373P.J. Haigh, Powertron Ltd., A.J. Forsyth, University of Birmingham, United Kingdom
Session D2d: Resonance 1 Session Chairman:Prof. Th. Meynard, LEEI/ENSEEIHT, France
A Control Analysis and Closed-Loop Design for Serie-Parallel Resonant Converter (St. 68) 4.379T. Planas, SUPELEC, J. Laeuffer, General Electric Medical System-Europe, E. Godoy, B. Lorcet, D. Sadarnac, SUPELEC, France
FPGA based Control of an ARCP-Inverter without Additional Sensors (St. 69) 4.385L. Sack, H.G. Eckel, K. Rascher, University of Erlangen,
Germany
A generalized sliding mode controller for half-wave quantum resonant converters (St. 70) 4.391Miguel Castilla, L. Garcia de Vicuña, Mariano Lopez, Universidad Politecnica de Cataluña-UPC, Spain
A full-bridge SR-PWM DC-DC converter operating at reduced conduction and commutation losses using phase-shift control (St. 71) 4.397J.B. Vieira Jr., J.C. da Silva e Sousa, A.A. Pereira, V.J. Farias, L.C. de Freitas, Universidade Federal de Uberlândia, Brazil
A High-Power-Factor Buck Converter with Soft-Switching Operation (St. 72) 4.403Katsunori Taniguchi, Toshimitsu Morizane,Noriyuki Kimura, Osaka Institute of Technology, Lee Hyun-Woo, Kyungnam University, Japan
Thermal Failures on a 2kW-100kHz IGBT-based DC-DC Resonant (St. 73) 4.409Dario D’Amore, Politecnico di Milano, Italy
Reliable method used to size a multiresonant LCCL typeconverter (St. 74) 4.414B. Dakyo, F. Lafitte, L. Protin, Université du Havre, France
Evaluation of resonant converters for increased softswitching range (St. 75) 4.419Roy Nilsen, Norwegian University of Science & Technology, Terje Melaa, Tom F. Nestli, ABB Corporate Research, Norway, Per Ranstad, ABB Fläkt Industri AB, Sweden, Alf Kåre Ådnanes, Øye Kjartan, ABB Corporate Research, Norway
Predicting real characteristics of buck-boost zero-voltage switching quasi-resonant converters (St. 76) 4.426N. P. Polyzos, E.C. Tatakis, University of Patras, Greece
Session D2e: Resonance 2 Session Chairman:Odd Roar Schmidt, Powec, Norway
An asymmetrical reactor type zero current switching DC-DC converter with constant frequency voltage control(St. 77) 4.432Masaki Suzuki, Yoshihiro Hatanaka, Sachio Kubota, Tokyo University of Mercantile Marine, Japan
Direct three-phase „low frequency“ to single phase "high frequency“ converter with sinusoidal line currents (St. 78) 4.438Florent Andrianoelison, Cyril Pouet, Darius Dedecius, LARGE, France
A series resonant DC/DC converter operating in ZVS mode from maximum power to no load (St. 79) 4.443Florent Andrianoelison, Darius Dedecius, LARGE, Yvon Cheron, LEEI, France
Design Improvement and Experimental Characterization of the Full Bridge ZVS Converter With Secondary Clamped Inductor (St. 80) 4.448João Beirante, Beatriz V. Borges, Instituto de Telecomunicações, Portugal, Stanimir Valtchev, Technical University of Sofia, Bulgaria
A Self-Resonant-PWM Boost Converter with Unity Power Factor Operation by Using a Bang-Bang Current Control Strategy with Fixed Switching Frequency (St. 81) 4.454L.C. de Freitas, R. Tóffano Jr., J.C. de Oliveira, V. J. Farias, J. B. Vieira Jr., Universidade Federal de Uberlândia, Brazil
Application of the AC link in power conversion systems(St. 82) 4.459Antoni Bogdan, Tadeusz Citko, Bialystok Technical University, Poland
Improvement of Performance of Four Quadrant Converter using Unidirectional DC Link Inductor (St. 83) 4.465B. Dobrucky, University of Transport and Communications, Slovak Republic, J. Kyyrä, Helsinki University of Technology, Finland, V. Rácek, Slovak Technical University, M. Hukel, J. Dubovsky, University of Transport and Communications, Slovak Republic
Session D5g: Sensorless drives - Induction Machines Session Chairman:Prof. S. Bolognani, Univ. of Padova, Italy
Robust control of sensorless vector control drives (St. 84) 4.470R. Blasco-Giménez, F. Morant, Univerisdad Politécnica de Valencia, Spain
A microcontroller implementation of speed sensorless field oriented control of induction machine (St. 85) 4.476Martin Riese, Dresden University of Technology, Germany
A novel sensorless controller for induction motor drives(St. 86) 4.480Shyh-Shing Perng, National Taiwan Institute of Technology, Yen-Shin Lai, National Taipei Institute of Technology, Liu Chang-Huan, National Taiwan Institute of Technology, Taiwan R.O.C.
Control of a Shaft-Sensorless Position Induction Motor Using an Asymmetric Outer-Section Cage (St. 87) 4.486G.M. Asher, J. Cilia, K.J. Bradley, M. Summer, University of Nottingham, United Kingdom
Implementation of a Sensorless Induction Motor Drive Control System with prescribed Closed Loop Speed and Rotor Magnetic Flux Dynamics (St. 88) 4.492S. J. Dodds, East London University, United Kingdom, Jan Vittek, University of Zilina, Slovakia, Martin Mienkina, Trinec Steel Works, Czech Republic
A PCMCIA DSP-card to boost inverter performance: Sensorless drive control via extended Kalman filter (St. 89) 4.498Eckart von Westerholt, Schneider Electric, France
Real-Time Sensorless Control for Rotor Field Oriented Induction Motor (St. 90) 4.504Dragos Ovidiu Kisch, Marian Ghinea, Gabriel Sirbu, University Politehnica of Bucharest, Mariana Kisch, Cygnus Computer Bucharest, Romania
Sensorless Vector Control of Induction Machines with Stator Voltage Offset Compensation (St. 91) 4.508Yukio Kataoka, Hisao Kubota, Kouki Matsuse, Meiji University, Japan
Field Oriented Control of Induction Motor without Speed Sensor (St. 92) 4.512M. Hövermann, B. Orlik, U. Schumacher, University of Bremen, Germany
Sensitivity analysis of sensorless induction motor drive to motor parameter changes (St. 93) 4.518Teresa Orlowska-Kowalska, Piotr Wojsznis, Technical University of Wroclaw, Poland
DSP Implementation of an AC-Machine SensorlessSpeed Measurement System Using the Wigner Distribution 4.524José Alex Restrepo Z, Trina A. de Pérez, María I. Giménez de Guzmán, Victor M. Guzmán, Universidad Simón Bolivar, Venzuela (St. 94)
Session D5h: Sensorless drives - Brushless Machines Session Chairman:Prof. F. Blaabjerg, Aalborg University, Denmark
A Sensorless Position control by Salient-Pole Brushless DC Motor (St. 95) 4.529
Nobuyuki Kasa, Tokyo Metropolitan Institute of Technology, Hiroshi Watanabe, Tokyo Metropolitan Institute of Technology, Japan
High frequency method of sensor elimination in interior permanent magnet (IPM) motors (St. 96) 4.535Jun Oyama, Mengesha Mamo, Takashi Abe, Tsuyoshi Higuchi, Eiji Yamada, Nagasaki University, Japan
An Improved Method for Sensorless Adaptive Control of Permanent-Magnet Synchronous Motors (St. 97) 4.541Lennart Harnefors, Peter Taube, Hans-Peter Nee, The Royal Institute of Technology, Sweden
A DSP based controller for the sensorless control of synchronous machines (St. 98) 4.547D. Arab Khaburi, F. Meibody Tabar, A. Comsa, F.M. Sargos, GREEN, France
A permanent magnet synchronous motor flux control scheme without position sensors (St. 99) 4.553Gastón Pesse, Tomás Pagá, Universidad Simón Bolívar, Venezuela
Sensorless DSP Control of a Trapezoidal Brushless DC Motor (St. 100) 4.557S. Grainger, M. Allan, T. Westwood, R. Champaneri, Glasgow Caledonian University, United Kingdom
Sensorless Control of a Switched Reluctance Motor Using `a Kalman Filter (ST. 101) 4.561A. Brösse, G. Henneberger, Institut of Electrical Machines, Germany
Kalman-Filter Based Sensorless Control of an IPM Motor Drive (St. 102) 4.567Razvan C. Panaitescu, Transilvania University of Brasov, Romania, Lars Norum, Norwegian University of Technology, Norway
Present and future of drives sensorless and artificial intelligence applications (St. 103) 4.573P. Vas, University of Aberdeen, W. Drury, Control Techniques plc, United Kingdom
Direct torque control: application to crane drives (St. 104) 4.579R. Belmans, KULeuven, F. Busschots, ASEA Brown Boveri Belgium, B. Renier, KULeuven, Belgium
Session D5m: Estimation and parameters analysis Session Chairman:W. Wymeersch, Sidmar, Belgium
Robust Kalman Filtering in Direct Torque Control (St. 105) 4.585Ian R. Petersen, Duco W.J. Pulle, Australian Defence Force Academy, Australia
Parameters Estimations from Step Excitation Tests on a Stationary Induction Motor (St. 106) 4.591K.R. Thompson, P.P. Acarnley, University of Newcastle, United Kingdom
Modern experimental tools for parameter identification and field-oriented control design of a small power induction machine (St. 107) 4.597C. Millet, D. Leroux, Y. Li, B. Feuvrie, C. Bergmann, IUT de Nantes, France
A Digital Parameter Identification for a Vector Controlled Induction Motor (St. 108) 4.603Marco Tursini, University of L’Aquila, Italy, M. Tsuji, Nagasaki University, E. Yamada, Nagasaki University, Japan, F. Parasiliti, University of l’Aquila, Italy
On Line Parameter Estimation of the Induction Machine Model using Active and Reactive Power Balance for Spatial Vectors of Field Oriented Drives (St. 109) 4.609J M A Castro, A Bueno Montilla, Universidad Simon Bolivar,
Venezuela
Identification of rotor parameters and speed estimation in induction motor drives (St. 110) 4.615Ignazio Marongiu, Università di Cagliari, Ciro Attaianese, Università di Cassino, Alfonso Damiano, Università di Cagliari, Aldo Perfetto, Università di Napoli, Italy
Experimental Identification of Asynchronous Machine 4.620P. Ph. Robet, M. Gautier, C. Bergmann, B. Feuvrie, C. Millet, IUT de Nantes, France (St. 111)A microprocessor-based speed regulator using state and disturbance observer (St. 112) 4.626Maciej Tondos, University of Mining & Metallurgy, Wojciech Mysinski, Technical University of Cracow, Poland
Automatic Input/Output Modeling of a Squirrel-Cage Induction Motor Drive System Using Neural Network 4.632J. F. Martins, A. J. Pires, Instituto Politécnico de Setubal, J. A. Dente, Instituto Superior Técnico, Portugal (St. 113)
Session D7a: Drives, control of drives Session Chairman:Prof. G. Maggetto, VUB, Belgium
A multi-motor drive-system for ecomobils (St. 114) 4.638K. Hofer, Technical College and University of Bielefeld, Germany
Controls of a brushless motor integrated in the wheelhub for an electrical bike (St. 115) 4.643Mohamed Karmous, D. Vaucher, Ecole d’Ingénieurs du canton de Neuchâtel, C. Espanet, J.M. Kauffmann, Institut de Génie Energétique, Switzerland
Vector control of dual rotor induction motors (St. 116) 4.648Joong-Ho Song, Ick Choy, Kim Kwang-Bae, Korea Institute of Science & Technology, Korea
Test and measurement of electric vehicle drives (St. 117) 4.653Bernhard Hauck, University of Kaiserslautern, Germany
Torque control on electric vehicles with seperate wheel 4.659B. Arnet, M. Jufer, Swiss Federal Institute of Technology, Switzerland (St. 118)Induction motor neural estimator in high efficient (St. 119) 4.665J. Jelonkiewicz, University of Czestochowa, S. Linnman, Permobil AB, Poland
Utilization of ultracapacitors as an auxilliary power source in electric vehicles (St. 120) 4.670Stephan Astier, P. Mestre, ENSEEIHT, France
More sophisticated battery drive wheels and wheels mutial motion control system for electric vehicle application 4.674Dmitry B. Izosimov, Russian Academy of Science, Yuri P. Bogachev, Mechatronics Industrial Group, Evgeny B. Kulakov, Alternative Energetics, Vladimirl Sagalovsky, Aeroelectric, Anatoly A. Eidinov, NAMI, Russia (St. 121)
Session D7b: Battery charger, battery management, test bench Session Chairman:Prof. D. Naunin, T. U. Berlin, Germany
Battery management system with a two wire bus: realization and practical experiences (St. 122) 4.679Hans Kahlen, Berhnard Hauck, University of Kaiserslautern, Germany
Battery testing with a current controlled high load resistor 4.684Hans Kahlen, University of Kaiserslautern, Germany (St. 123)Efficiency of Off-Board High Power Electric Vehicle Battery Charger with Active Power Line Conditioning Capabilities 4.688
Per Karlsson, Martin Bojrup, Mats Alaküla, Lars Gertmar, Lund Institute of Technology, Sweden (St. 124)Contactless power transmission: frequency tuning by a maximum power tracking method (St. 125) 4.693P. Germano, M. Jufer, Swiss Federal Institute of Technology, Switzerland
An original state of charge gauge for Nickel-Cadmium traction batteries associating a coulometric measurement with impedancemetry (St. 126) 4.698S. Nugues, E. Rullière, E. Toutain, Laboratoire d’Electrotechnique de Grenoble, France
Charge Equalization Using a Non-Dissipative Current Diverter with a Centralized Multi-Winding Transformer (St. 127) 4.702Nasser H. Kutkut, Soft Switching Technologies Corp., USA
Three-phase ZVT inverter with inductor feedback (St. 128) 4.708Dimos Katsis, Scott Frame, Dong Ho Lee, Dusan Boroyevich, Fred C. Lee, Virginia Polytechnic Institute and State University, USA
Development of a Brushless DC Drive for Electric Vehicles 4.712P. Van Tichelen, P. Coenen, F. Vermeulen, VITO, D. Blight, Nelco Systems Ltd, Belgium (St. 129)
Session D7c: Hybrid vehicles, simulation Session Chairman:Prof. G. Ollson, IEA, Lund, Sweden
A 40 kW Switched Reluctance Engine Starter/Generator System For An Electric Hybrid Vehicle (St. 130) 4.717Mats Alaküla, Lars Sjöberg, Lund Institute of Technology, Sweden
Integrated energy transducer drive for hybrid electric vehicles (St. 131) 4.721Thomas Bäckström, Stefan Östlund, Chandur Sadarangani, The Royal Institute of Technology, Sweden
Comparison of Electromechanical Transducers for an Autonomous Hybrid Vehicle (St. 132) 4.727Bernhard Kraßer, H-W Lorenzen, Technical University of Munich, Germany
Combi-road: an unmanned hybrid vehicle on an intelligent track (St. 133) 4.733A. Duym, Holec Machines en Apparaten B.V., A.W. Benschop, TNO-Institute for Applied Physics, The Netherlands
A Hybrid City Bus using an Electro-Mechanical Accumulator for Power Demand Smoothing (St. 134) 4.739H. Huisman, E.J.F.M. Smits, F.J.M. Thoolen, Ontwikkelingsmaatschappij CCM B.V., The Netherlands
Design and implementation of a power controller for a series hybrid vehicle drive (St. 135) 4.745L. Pelkmans, P. Coenen, F. Vermeulen, VITO, Belgium
Development of a Drive Train for a Hybrid Delivery Van 4.750F. Vermeulen, VITO, J. De Temmerman, Inverto, L. Gijsels, Van Hool, R. Belmans, Katholieke Universiteit Leuven, A. Van den Bossche, Universiteit Gent, G. Maggetto, Vrije Universiteit Brussel, Belgium (St. 136)AC Motors’ Measurements Based Static Models for Electric Vehicles Simulation Programs (St. 137) 4.755K.B. Beya, J. Van Mierlo, G. Maggetto, Vrije Universiteit Brussel, Belgium
How to compare and evaluate Electric and Thermal Vehicles? (St. 138) 4.760J. Van Mierlo, G. Maggetto, Vrije Universiteit Brussel, BelgiumSession D8c: Harmonics and active filters - analysis and design
Session Chairman:Prof. J. D. van Wyk, R. A. U., South Africa
Power source with programmable harmonic contents 4.763J. Balcells, D. Gonzalez, M. Lamich, Universitat Politècnica de Catalunya, Spain (St. 139)An Evaluation of Techniques for Determining Active Filter Compensating Currents in Unbalanced Systems 4.767Simon D. Round, D.M.E. Ingram, University of Canterbury, New Zealand (St. 140)Static converter design for high frequency signal injection in an electromagnetic device connected to the network 4.773Bertrand Cassoret, Jean-François Brudny, Daniel Roger, Université d'Artois, France (St. 141)Analysis and design of a novel active power filter (St. 142) 4.779Ching-Tsai Pan, National Tsing Hua University, Maoh-Chin Jiang, National I-Lan Institute of Agriculture and Technology, Taiwan R.O.C.
Feedforward Voltage Compensation for Digital Active Filter using Frequency Domain Decomposition (St. 143) 4.786Kenji Kubo, Keijiro Sakai, Hitachi Ltd,Japan
Harmonic Elimination in a PWM Inverter using Genetic Algorithms (St. 144) 4.792Pascal Maussion, Laurent Magne, Institut National Polytechnique de Toulouse, France
The generalized optimization criterion for filters (St. 145) 4.798Leszek Frackowiak, Roman Muszynski, Poznan University of Technology, Ryszard Strzelecki, Zielona Gora University of Technology, Poland
Analysis of active power filters in frequency domain using the fast fourier transform (St. 146) 4.804V. Soares, Instituto Superior de Engenharia de Lisboa, P. Verdelho, Instituto Superior Técnico, V. Soares, Instituto Superior de Engenharia de Lisboa, Portugal
An adaptive hopfield neural network for frequency and harmonic determination (St. 147) 4.810L. L. Lai, City University London, United Kingdom, W. L. Chan, Hong Kong Polytechnic University, A. T. P. So, City University of Hong Kong, Hong Kong
Session D8d: Harmonics and active filters - control Session Chairman:Prof. W. Koczara, Warsaw University of Technology, Poland
A New Synchronization Method of a Parallel Active Power Filter (St. 148) 4.815David Nedeljkovic, Vanja Ambrozic, Janko Nastran, University of Ljubljana, Slovenia
Simplified Control Method for Shunt Active Harmonics Filter (St. 149) 4.819Yanzhen Liu, Peter J Unsworth, University of Sussex, United Kingdom
Searching for the better topology and control strategy in hybrid power filters (St. 150) 4.825Angel A. Bayod Rujula, Jesus Sallan Arasanz, Mariano Sanz Badia, Andrés Llombart Estopiñan, Universidad de Zaragoza, Spain
PWM rectifier and active filter with sliding-mode control 4.831Stanislaw Pirog, University of Mining & Metallurgy, Poland (St. 151)A Shunt active filter with a sliding mode control circuit 4.837Kamel Sahnouni, CREEBEL, Olivier Lapierre, Simon Jones, CEGELEC, Alain Berthon, IGE - CREEBEL, France (St. 152)New Control Method of Harmonic Current Compensation Using Individual Rotating
P-Q Frame of Corresponding Frequency (St. 153) 4.842Masao Yano, Akira Kuramochi, Noriyuki Nanaumi, Toyo University, Japan
Vector Control Strategy of an Harmonic and Reactive Power Compensator (St. 154) 4.848R Peña, R. Cardenas, Universidad de Magallanes, Chile, G.M. Asher, J.C. Clare, University of Nottingham, U.K.
Variable Structure Control in Current Controlled Voltage Sourced Rectifier (St. 155) 4.854C. W. Lu, A. C. Renfrew, UMIST, United Kingdom
An Active Power Filter And Zero Sequence Harmonics Components Compensator Control Circuit (St. 156) 4.859P. Verdelho, Universidade Técnica de Lisboa - IST, Portugal
A space vector-based deadbeat controller for shunt active power filters (St. 157) 4.864Li Zhang, L J Xiao, University of Bradford, United Kingdom
Session D8e: Harmonics and active filters - network studies and harmonics Session Chairman:Prof. R. J. Arnold, Siemens, UK
Dynamic Behavior of a parallel single phase active line power line conditioner (St. 158) 4.870David Gonzalez Diez, J. Balcells, A. Arias, Universitat Politècnica de Catalunya, Spain
Active power filter for suppression of line currentharmonics (St. 159) 4.874Pavel Brandstetter, Tomas Bubela, VSB-Technical University of Ostrava, Czech Republic
A Space Vector Based Active Power Filter for the Compensation of Harmonic Distortion and Fundamental Reactive Power (St. 160) 4.879A. Dell’Aquila, A. Di Lorenzo, P. Zanchetta, Politecnico di Bari, Italy
Compensation of influence of receivers on power network with application of power electronic current source (St. 161) 4.886Leszek Frackowiak, Michal Gwózdz, Ryszard Porada, Poznan University of Technology, Poland
A New Configuration for Shunt Active filters (St. 162) 4.892M. Elhabrouk, M. K. Darwish, P. Mehta, Brunel University, United Kingdom
Improvements of parallel active power filter performances 4.898I. Rasoanarivo, B. Davat, GREEN - INPL, P. Boos, SOCOMEC, France (St. 163)Numerical and experimental comparative study of voltage source and current source active power filter (St. 164) 4.903L. Benchaita, S. Saadate, GREEN-UHP, A. Salem nia, GRREN - Power & Water Institute of Technology, France
Analysis and reduction of common-mode disturbances induced on the network by PWM rectifiers (St. 165) 4.909P. Ladoux, LEEI - INPT Toulouse, P. Thalin, J. Nuns, EDF-DER Les Renardières, France
Session D8f: Harmonics and active filters - applications Session Chairman:Prof. S. Round, University of Canterbury, New Zealand
A Study of Parallel Connected DC Active Filter for Large Current Power Supplies Exciting Superconducting Coils of Fusion Test Facility (St. 166) 4.913Hirotaka Chikaraishi, National Institute for Fusion Science, Yuji Yonenga, Chuo Seisakusho Ltd, Japan
Third Harmonic Current Compensator applicable for large office buildings (St. 167) 4.917
J. B. Woudstra, S. W. H. de Haan, P. C. van der Sluijs, Delft University of Technology, The Netherlands
Active Filter reference Current Acquisition in Distorted 3-phase Supply Systems (St. 168) 4.923C.W. Lu, A.C. Renfrew, UMIST, United Kingdom
Series compensator for voltage dips (St. 169) 4.929R. Tounsi, P. Michalak, H. Pouliquen, EDF-DER, H. Foch, LEEI, France
Control laws for MV active filters (St. 170) 4.935P. Michalak, H. Pouliquen, EDF - DER, France
Session D8j: Modelling and simulation Session Chairman:Prof. R. Nilssen, NTNU, Norway
User defined block-oriented modeling of FACTS devices for large power system stability studies (St. 171) 4.940B. Gick, FGH E.V., I. Erlich, FhG Dresden, T. Weber, FGH E.V., Germany
Measurements and simulation of dc drive harmonics on an interconnected offshore system with long sub-sea cables (St. 172) 4.946K.S. Smith, Heriot-Watt University, I. Wilson, Total Oil Marine, United Kingdom, Brogan P., niversity College Cork, Ireland
Session D10a: Education Session Chairman:Prof. E. Masada, Tokyo University, Japan
Uncomplicated Inverter Drive for Research Development and Teaching using standard PC (St. 173) 4.952Ludwig Abraham, Wolfgang Frank, Federal Armed Forces University Munich, Germany
Teaching and demonstration of power electronic circuit analysis (St. 174) 4.958O.W. Andersen, Norwegian Institute of Technology, Norway
A LabVIEW-based laboratory course on three-phase electric machinery under unsymmetrical operating conditions (St. 175) 4.961A. Serri, S. Cincotti, M. Marchesi, Universita’ di Cagliari, Italy
A Software Package for Simulation of Electrical Drives suitable for Computer Assisted Education (St. 176) 4.967Marco Tursini, F. Parasiliti, University of L’Aquila, Italy
Soft start simulation program for squirrel cage induction motor drive (St. 177) 4.973Z. Andonov, T. Dimitrov, S. Mircevski, Faculty of Electrotechnical Engineering, Rep. of Macedonia
An integrated environment for modeling simulation and control of DC motors (St. 178) 4.978H.J. Valderrama, J. Maixé Altés, J.J. Crisol, A. Romero, L. Martinez-Salamero, Universitat Rovira i Virgili, Spain
Application of LabVIEW as measuring system in field of power electronics (St. 179) 4.984Eberhard Brenner, University of Technology & Business Dresden, Germany
Interactive computer-based electrical machines and drives tests in the undergraduate laboratory at the university of Adelaide (St. 180) 4.990Nesimi Ertugrul, Anthony M. Parker, Mike J. Gibbard, The University of Adelaide, Australia
HARMONIX: A software package for teaching harmonics in power systems (St. 181) 4.996Jorge Pontt O., Universidad Tecnica Federico Santa Maria, César Pontt O., Fluor Daniel Chile S.A., Ennio Perelli, Universidad Tecnica Federico Santa Maria, Chile
Using simplorer as a power electronics circuit simulator(St. 182) 4.1002Hari Sree, Blix Viggs, University of Minnesota, USA, Johann W. Kolar, Technical University of Vienna, Austria, Ned Mohan, University of Minnesota, USA
Using a new interactive Matlab Toolbox for Control Design and Teaching of Electrical Drives (St. 183) 4.1008M. Riva, F. Castelli Dezza, A. Monti, Politecnico di Milano, Italy
SEMDEM - educational software for bipolar power devices(St. 184) 4.1014Zbigniew Lisik, Marek Turowski, Technical University of Lódz, Poland, Zenon J. Pudlowski, Monash University, Australia