IAS '97
Volume 2
Conference Record of the 1997 IEEE
Industry Applications Conference
Thirty-Second IAS Annual Meeting
October 5-9,1997
Hyatt Regency Hotel
New Orleans, Louisiana
Reduction of Common-Mode Currents in PWM Inverter Motor Drives 707
M. Cacciato, Alfio Consoli, G. Scarcella, A. Testa, University ofCatania, Catania, Italy
A Novel Two-Phase BPM Drive System with High Power Density and Low Cost 715
Yue Li, Todd A. Walls, Jerry D. Lloyd,, Emerson Motor Co., St. Louis, MO USA; Jim L. Skinner, Hurst
Manufacturing Div. OfEmerson Motor Co., Princeton, NJ USA
A Digital Current Controller for Three Phase Voltage Source Inverters 722
Robert E. Betz, B.J. Cook, S.J. Henriksen, University ofNewcastle, Callaghan, NSWAustralia
Current Regulator Instabilities on Parallel Voltage Source Inverters 730
J. Thunes, R. Kerkman, D. Schlegel, T. Rowan, Rockwell Automation-Allen Bradley, Mequon, WI USA
INDUCTION MOTOR DRIVES - ADVANCED CONTROL
Hoo Controllers Design for Field-Oriented Asynchronous Machines with Genetic Algorithm 738
D.R. Chouiter, G. Clerc, F. Thollon, J.M. Retif, CEGELY, URA CNRS 829, Ecully, France
Real-time Estimation of the Electrical Parameters ofan Induction Machine Using Sinusoidal PWM
Voltage Waveforms 746
C.B. Jacobina, L.A. de S. Ribeiro, A.M.N. Lima, UFPB/CCT/DEE/LEIAM-Campus II, Campina Grande, Brazil
New Robust Adaptive Control Algorithm for High Performance AC Drives 753
Sidney Robert Bowes, Jian Li, University ofBristol, Bristol, United Kingdom
Using Multiple Saliencies for the Estimation ofFlux, Position and Velocity in AC Machines 760
M.W. Degner, Robert D. Lorenz, University of Wisconsin-Madison, Madison, WI USA
A PWM-CSI-Based Vector Controlled Medium Voltage AC Drive with Sinusoidal Input and
Output Waveforms 768
/V, Zargari, Yuan Xiao, Bin Wu, Rockwell Automation-Allen Bradley, Cambridge, Ontario, Canada
High Frequency Switching Operation of PWM Inverter for Direct Torque Control of Induction Motor 775
Toshihiko Noguchi, Masaki Yamamoto, Seiji Kondo, Isao Takahashi Nagaoka University of Technology,
Nagaoka, Japan
Direct Torque Control of Induction Motor for Low Speed Drives Considering Discrete Effect of Control and
Dead-time of Inverter 781
Li Youngdong, Shao Jianwen, Si Baojun, Tsinghua University, Beijing, PR China
Volume 2
INDUSTRYAUTOMATIONAND CONTROL COMMITTEE
INTELLIGENT CONTROL
To Design Optimized Fuzzy and Digital PID Controllers for a Single Phase Power Factor Pre-Regulator -
Genetic Algorithm Approach 791
Yu Qin, Shanshan Du, Controlled Power Company, Troy, MI USA
xvi
A Novel Fuzzy Logic Synchronous Machine Stabilizer 797
FourdMrad, S. Karaki, B. Copti, American University ofBeruit, Beirut, Lebanon
A Neural Networks Based Field Oriented Control Scheme for Induction Motors 804
A. Ba-razzouk, G. Olivier, Ecole Polytechnique de Montreal, Montreal, Quebec, Canada; Ahmed Cheriti,Universite du Quebec a Trois-Rivier, Trois-Rivieres, Quebec, Canada
A Review of Neural-Fuzzy Controllers for Robotic Manipulators 812
MengJoo Er, S.M. Yap, C.W. Teaw, F.L. Luo, Nanyang Technical University, Singapore
Application of State Space Averaging Method to Sliding-Mode Control ofPWM DC/DC Converters 820
J. Mahdavi, AliEmadi, Sharif University of Technology, Tehran, Iran; H.A. Toliyat, Texas A&M University,
College Station, TX USA
POWER ELECTRONICS AND ELECTRIC MACHINE CONTROL
A Real-Time Neural Network Based Controller for Brushless DC Motor Drives 828
Ahmed Rubaai, Raj Kotaru, Howard University, Washington, DC USA; M.David KanKam, NASA Lewis Research
Center, Cleveland, OH USA
Automatic Learning Control-Based Gain Parameter Auto-Tuning Scheme for AC Servo System 836
Kenji Inoue, Shinko Electric Co., Ltd, Ise City, Japan; J. Yoshitsugu, S. Shirogane, P. Boyagoda,, M. Nakaoka,
Yamaguchi University, Yamaguchi, Japan
An Approach of the Variable Structure Analysis for Power Electronics Applications 844
Arnaldo J Perin, W.M.P. Filho, Federal University Santa Catarina, Florianopolis, Brazil
A Robost Controller for DC-DC Switched Mode Power Converters 852
Zakariaya Al-Hamouz, H. Al-Duwaish, I. El-Amin, KingFahd University ofPetroleum & Minerals, Dhahran,
Saudi Araba
INDUSTRIAL SYSTEMS AND SENSORS
Determination ofFriction and Feed ForwardTuning for a DC Servomotor-Driven Slide Table 857
Glynn P. Adams, J. W. Stone, University ofArkansas, Fayetteville, AR USA
Developments ofIn-Line Ultrasonic Testing System for ERW Mill 866
Yujin Ito, T. Masuda, K. Nagao, K. Matsuoka, Wakayama Steel Works, Minato Wakayama, Japan
Application of Non-Linear Observers for Elevator Vibration Control 873
Jun-Koo Kang, Seung -Ki Sul, Seoul National University, Seoul, Korea
Optimized Linerization via Feedback Control Law for a Statcom 880
Patrice Petitclair, S. Bacha, J.P. Ferrieux, Laboratorie d'Elec. de Grenoble, Grenoble, France
Neural Network Control for Automatic Guided Vehicles Using Discrete Reference Markers 886
Saed Kurd, Kunioni Oguchi, Ibaraki University, Ibaraki, Japan
DSP-Based Tension Control and Data Acquisition for Paper Machine Rewinding Roll Drive 892
Fang Lin Luo, Nanyang Techological University, Singapore
XVII
INDUSTRIAL CONTROLS
High Frequency Drive-Power and Frequency Control for Ultrasonic Transducer Operating at 3 MHz 900
J. Ishikawa, Y. Mizutani, T. Suzuki, H. Ikeda, Y. Yoshida, Shizuoka University, Hamamatsu, Japan
A New Method of High Speed Sorting Using Retractable Conveyer System 906
Akram Hossain, Purdue University Calumet, Hammond, IN USA; Suzali Mohamed Suyut, University ofLouisville,Louisville, KY USA
Transmission Rate Reduction in Monitoring Two-Dimensional Moving Images in Factory Automation 912
Nabil Hideyuki Asada, Shizuoka Nippon Electric Corporation, Kakegawa, Japan; NabilAbd Rabou, Hiroaki. Ikeda,
Yoshifumi Shimodaira, Hirofumi Yoshida, Shizuoka University, Hamamatsu, Japan
Digital Picture and Auxilary Data Transmission System for Use in Plant 919
Takashi Yamada, Hiroaki Ikeda, Hirofumi Yoshida, Shizuoka University, Hamamatsu, Japan; Hideyuki Asada,Shizuoka Nippon Electric Corporation, Kakegawa, Japan
New Type of Multifrequency Detector Using DSP for Control Signal Transmission System 927
Wang Zhonglei, Hiroaki Ikeda, Hirofumi Yoshida, Shizuoka University, Hamamatsu, Japan
CONTROL APPLICATION
Efficiency Optimization of EV Drive Using Fuzzy Logic 934
M. Chis, S. Jayaram, R. Ramshaw, University of Waterloo, Waterloo, Ontario, Canada; K Rajashekara,EV/HV Business Team, Indianapolis, IN USA
Diesel Engine Ripple Torque Minimization for Parallel Type Hybrid Electric Vehicle 942
H.D. Lee, Seung-Ki Sul. Seoul National University, Seoul, Korea
POWER ELECTRONICS DEVICES AND COMPONENTS COMMITTEE
IGBTS
Trade-Off in IGBT Safe Operating Area and Performance Parameters 949
K. Shenai, M. Trivedi, University ofIllinois at Chicago, Chicago, IL USA
Application Advantages ofHigh Voltage, High Current IGBTs with Punch-Through Technology 955
John F. Donlon, E.R. Motto, Powerex, Inc., Youngwood, PA USA; K. Ishii, Mitsubishi Electric, Fukoka Works,
Fukouka, Japan; T. Tida, Okayama University ofScience, Okayama, Japan
Series Connection of IGBTs with Active Voltage Balancing 961
David A Torrey, Rensselaer Polytechnic Institute, Troy, NY USA; S. Hong, Hyosung Industries Company, Seoul,
Korea; V. Chitta, Rensselaer Polytechnic Institute, Troy, NY USA
Snubberless Balancement of Series Connected Insulated Gate Devices by a Novel Gate Control Strategy 968
A. Galluzzo, G. Belverde, M. Melito, S. Musumeci, SGS-Thomson microelectronics, Catania Italy; A. Raciti,
University of Catania, Catania, Italy
XVIII
An Improved Gate Control Scheme for Snubberless Operational ofHigh Power IGBTs 975
Hwang-Geol Lee, Bum-SeokSuh, Dong-Seok Hyun, Department ofElectrical Engineering, Hanyang University,Seongdong-ku, Seoul, Korea; Chang-Ho Choi, POSCON Corporation, Korea-Techno-Complex, Sungbuk-ku,Seoul, Korea
Experimental Characterization of Insulated Gate Power Components: Capacitive Aspects 983
Y. Lembeye, J.L. Schanen, J.P. Keradec, Laboratoire d'Electronique de Grenoble, Grenoble, France
Critical Evaluation ofIGBT Performance in Zero Current Switching Environment 989
Malay Trivedi, K. Shenai, University ofIllinois at Chicago, Chicago, IL USA; ErikLarson, UniversityofWisconsin-Madison, Madison, WI USA
COMPONENTS AND NEW STRUCTURES
Integrated Single- and Two-Phase Heat Sinks Under IGBT Chips 994
C. Gillot, Luc Meysenc, C. Schaeffer, Laboratoire d'Electronique de Grenoble, Grenoble, France; A. Bricard,CEA-Grenoble, DRN/DTP/STI/GRETh, Grenoble, France
Switching Characteristics of an Asymmetrical Complementary 4H-SiC Gate Turn-Off (GTO) Thyristor 1000
John Mookken, Robert Lewis, Jerry Hudgins, University ofSouth Carolina, Columbia, SC USA; A. Agarwal,J.B. Casady, S. Siergiej, S. Seshadri, Northrop Grumman Corporation, Pittsburgh, PA USA
Study and Realization of a Novel High Voltage Planar Periphery 1006
T. Ngo, Christian Schaeffer, N Guillemot, L.E.G./E.N.S.I.E.G., St. Martin D'Heres France; J. Arnauld, L. Roux,
IBS Greasque, France
Design of a Commutation Cell ofa High Power IGBT Inverter: The Contribution of the Simulation 1014
Edith Clavel, J. Roudet, Y. Marechal, LEG/Ensieg, SaintMartin d'Heres, France
Design and Testing of High Power, Repetitively Pulsed, Solid State Closing Switches 1022
H.J. Boenig, Los Alamos National Laboratory, Los Alamos, NM USA; J.W. Schwartzenberg, L.J. Willinger,D.E. Piccone, Silicon Power Corporation, Malvern, PA USA; D. A. Lopez, H. A. Smolleck, New Mexico State
University, Las Cruces, NM USA
Application oftheMCT to Soft-Switching DC-AC Converters 1029
Merhdad Ehsani, M.D. Bellar, J. Mahdavi, Texas A&M University, College Station, TXUSA
SPECIAL SESSION ON ELECTROLYTIC CAPACITORS
Development of Aluminum Electrolytic Capacitors for EV Inverter Applications 1034
T. W. Efford, United Chemi-Con Inc., Lansing, NC USA; Yozu, Shibata, SusumiAndo, Nippon Chemi-Con
Corporation, Tokyo, Japan; Atsushi Kanezaki, KDK, Tokyo, Japan
A Method for Predicting the Expected Life of Bus Capacitors 1042
Michael L Gasperi, RockwellAutomation, Milwaukee, WI USA
Modeling and Improving Heat Dissipation from Large Aluminum Electrolytic Capacitors: II 1048
J.L. Stevens, J.D. Sauer, J.S. Schaffer, Phillips Components, Columbia, SC USA
Modeling and Analysis of DC Link Bus Capacitor and Inductor Heating Effect on AC Drives (part 1) 1052
AM. Wijenayake, Michael L. Gasperi, Rockwell Automation, Milwaukee, WI USA, Dennis H. Braun,
Tom P. Gilmore, Dan C. Pixler, Rockwell Automation, Mequon, WI USA
Electrolytic Capacitor Life Testing and Prediction 1058
V. Anand Sankaran, C.S_. Avant, FordMotor Company, Dearborn, MI USA, F.L. Rees, Everett, WA USA
XIX
Analysis of the Current Distribution Between Paralleled Capacitors in a Chopper on Printed Circuit Board 1066
Teulings, J.L. Schanen, J. Roudet, Laboratoire d'Electronique de Grenoble, Grenoble France
SPECIAL SESSION ON FILM CAPACITORS
High Voltage Multilayer Polymer Capacitors Fill Technology Gap 1073
I.W. Clelland, R.A. Price, ITWPaktron, Lynchburg, VA USA
Metalized Film Capacitors with High Energy Density for Rail Vehicles 1079
H. Matsui, T. Fujiwara, K. Fujiwara, Shizuki Electric Company, Inc., Hyogo, Japan
Charge/Discharge Characteristics ofPrototype Aluminum Electrolytic Capacitors 1092
R.S. Alwitt, Boundary Technologies, Inc., Buffalo Grove, IL USA
Measurement Techniques for the Evaluation of Double Layer Power Capacitors 1097
R Bonert, L. Zubieta, University of Toronto, Toronto, Ontario, Canada
Capacitors in Power Electronic Applications 1101
MR. Kroes, Siemens Matsushita Components GmbH, Heidenheim, Germany
On the Technology ofPlanar Integrated Capacitive/Inductive Structures for Hybrid Power Electronics 1109
P.A. Janse Van Rensburg, J.Daan van Wyk, M.F.K. Holm, J.A. Ferreira, Rand Afrikaans University, Johannesburg,South Africa
SPECIAL SESSION ON MAGNETICS
A Thermal Model for High Frequency Magnetic Components 1115
W.G. Odendaal, J. A. Ferreira, Rand Afrikaans University, Johannesburg, South Africa
Effects of Scaling High Frequency Transformer Parameters 1123
W.G. Odendaal, J.A. Ferreira, Rand Afrikaans University, Johannesburg, South Africa
Magnetic Shielding Applied to High Frequency Inductors 1131
P. Wallmeier, H. Grotstollen, University ofPadenborn, Paderborn, Germany
Simple Approximations of the DC Biasing Field on the Core Loss of Power Ferrites and Their Use in Design
of Magnetic Components 1139
W.K. Mo, D.K.W. Cheng, Y.S. Lee, Hong Kong Polytecnic University, Hong Kong
The Quasi-Distributed Gap Technique for Planar Inductors: Design Guidelines 1147
HJu, Charles R. Sullivan, Dartmouth College, Hanover, NH USA
Low Profile and Low Output Voltage DC/DC converters for On-Board Power Distribution UsingPlanar Magnetics 1153
Jose Antonio Cobos, M. Rascon, Universidad Polytech de Madrid, Madrid, Spain, L. Alverez, S. Oliero, Alcatel
Telecom, Madrid, Spain; M. de Graf, W. Waanders, Philips Components, Eindhoven, The Netherlands
Material and Design Requirements for a Magnetic Passive Current Limiter 1159
S. J. Young, Francis P. Dawson, University of Toronto, Toronto, Ontario, Canada, S. Yamada, M. Iwahara,
Kanazawa University, Kanazawa, Japan
xx
SPECIAL SESSION ON MODELING
Parameter Extraction Methodology and Validation for an Electro-Thermal Physics Based NPT IGBT Model 1166Jakob Sigg, P. Turkes, Siemens AG, Munich Germany, R. Kraus, University ofBundeswehr, Neubiberg, Germany
A New P-Spice Power Mosfet Model with Temperature Dependent Parameters: Evaluation ofPerformancesand Comparison with Available Models 1174C. Leonardi, A. Raciti, University ofCatania, Catania, Italy, F. Frisina, R. Letor, SGS-Thomson, Catania, Italy
Modeling Thyristor and Diodes: On-State Voltage and Transient Thermal Impedance, Effective Toolsin Power Electronic Design H82
John W. Motto Jr, W.H. Karstaedt, J.M. Sherbondy S.G. Leslie, Powerex Inc. Youngwood, PA USA
Modeling Litz Wire Windings 1190
J. Schutz, J. Roudet, A. Schellmanns, Laboratoire d'Electronique de Grenoble, Grenoble, France
Connection of Frequency Dependent Load and Fast-Rise Voltage by Power Transmission Line 1196
J.Daan van Wyk, RandAfrikaans University, Johannesburg, South Africa
Fast Simulation Technique for Power Electronic Circuits with Widely Different Time Constants 1204
C. Demi, University ofBundeswehr, Neubibeerg, Germany; Peter Turkes, Siemens AG, Munich, Germany
lD-Propagation-Based Equivalent Circuits for Transformers: Accounting for Multi-Layer Structure of
Windings and Ferrite Losses 1211
A. Schellmans, J.P. Keradec, J.L. Schanen. Laboratoire d'Electronique de Grenoble, Grenoble, France;
P. Fouassier, Laboratoire d'Electronique de Grenoble and Microspire, Illange, France
SPECIAL SESSION ON POWERMODULES I
Extraction ofParasitic Circuit Elements in a PEBB for Applications in the virtual TestBed 1217
Benjamin Beker, Jerry Hudgins, University ofSouth Carolina, Columbia, SC USA; John Coronati, Blake Gillett,
Sampat Shekhawat, Harris Corporation, Mountaintop, PA USA
Power Cycling Reliability ofIGBT Power Modules 1222
V. Anand Sankaran, C. Chen, C.A. Avant, X. Xu, Ford Motor Company, Dearborn, Ml USA
IGBT Protection by Fuse: Calculation, Behavior and Connection 1228
J.F. de Palma, Ferraz Corporation, Parisippany, NJ USA; S. Duong, J. L. Schanen, C. Schaeffer, Laboratoire
d'Electrotechnique de Grenoble, Grenoble, France; F. Sarrus, Societe FERRAZ, Saint Bonnet De Mure, France
Current Limiting Power Device Based on a Four Layer Structure 1236
P. Godignon, X. Jorda, J. Millan, Centro Nacional de Microelectronica, Bellaterra, Spain; R. Deshayes, F. Sarrus,
FERRAZ Corp., St. Bonnet de Mure, France; J.F. de Palma, FERRAZ Corporation, Parisippany, NJ USA
On the Loading ofPower Modules in a Three-Phase Power Source Converter 1241
Vlaadimir Blasko, Richard A Lukaszewski, RockwellAutomation - Allen Bradley, Mequon, WI USA
Power Cycling Stability of IGBT Modules 1248
F. Auerbach, Siemens AG, Munich, Germany; A. Lenniger, Eupec GMBH, Warstein-Belecke, Germany
xxi
SPECIAL SESSION ON POWER MODULES II
Implementation and Validation ofa New Thermal Model for Analysis, Design and Characterization
ofMultichip Power Electronics Devices 1253
Francesco Profumo, Universita di Bologna, Bologna, Italy; S. Facelli, A. Tenconi, Politecnico di Torino, Torino,
Italy; B. Passerini, International Recifier Italiana, Torino, Italy
IGBT Module Rupture Categorization and Testing 1259
D.H. Braun, D.C Pixler, P.D. LeMay, Rockwell Automation-Allen Bradley, Mequon, WI USA
A Relation Between Dynamic Saturation Characteristics and Tail Current of Non-Punchthrough IGBTs (II) -
Effective Switching Loss Estimation 1267
J. Yamashita, T. Yamada, H Yamaguchi, H. Haraguchi, Mitsubishi Electric Corporation, Fukuoka City, Japan;N. Soejima, Fukuryo Semicon Engineering Corporation, Fukuoka City, Japan
Advancements in Motor Drive Modules - Past, Present and Future 1273
S. Deuty, B. Rutter, Motorola Inc, Phoenix, AZ USA
Thermal Analysis of an Integral Horsepower Multichip Power Module (MCPM) Based Induction
Motor Drive 1282
DavidM. Hall, Vijaylaxmi Gumaste, K.J. Olejniczak, K.C. Burgers, A.P. Malshe, University ofArkansas,
Fayetteville, AR USA
INDUSTRIAL POWER CONVERTERS COMMITTEE
HIGH POWER CONVERTER I
Neural-Point-Clamped Inverter with Parallel Driving of IGBTs for Industrial Applications 1293
H. Miyazaki, H. Fukumoto,; S. Sugiyama, M. Tachikawa, N. Azusawa, Hitachi Research Laboratory,Ibaraki-ken Japan
Multilevel Current Source and Voltage-Source Converter Systems Coupled with Harmonic
Canceling Reactors 1300
Kunioni Oguchi, T. Kubota, Ibaraki University, Ibaraki Japan
A Snubber Configuration Suitable for Energy Recovery in Three Level GTO Inverters 1309
Kwanghee Nam, J. Sung, Postech University, Pohang Korea
A Power Line Conditioner Using Cascade Multilevel Inverters for Distribution Systems 1316
F.Z. Peng, J. McKeever, J. D. Adams, Oak Ridge National Laboratory, Oak Ridge, TN USA
Current Stiff Converter Topologies with Resonant Snubbers 1322
B.J. Cardosos Filho, S. Bernet, T.A. Lipo, University of Wisconsin, Madison, WI USA
High-Power Pulsewidth Controlled Current Source GTO Inverter for High Switching Frequency 1330
Joachim Holtz, M. Stamm, J. Thur, A. Under, Wuppertal University, Wuppertal Germany
Neutral Point Control for Multi-Level Inverters: Theory, Design and Operational Limitations 1336
M. Sumner, C. Newton, University ofNottingham, Nottingham United Kingdom
XXII
UTILITY INTERFACE
Performance ofLow Distortion 3-Phase Diode Rectifiers Using Resonant Harmonic Correction Networks 1344
John C. Salmon, AlexanderLove, Emanuel Bocancea, University ofAlberta, Edmonton, Alberta, Canada
Harmonic Interaction Between 1500-kVA Supply Transformer and VFD Load at an Industrial Plant 1352
M. M. Swamy, S. L. Rossiter, MTE Corporation, Menomonee Falls, WI USA
Design and Fully Digital Control of Parallel Active Filters for Thyristor Rectifiers 1360
S. Buso, Paolo Mattavelli, L. Malesani, R. Veronese, University ofPadova, Padova, Italy
A New Thyristor Phase Controlled Voltage Source Converters with Bidirectional Power Flow Capability 1368
In-Gyu Park, S.I. Kim, Wonkwang University, Chonbuk, Korea
A Novel Topology for Single Phase UPS Systems 1376
G.J. Su, T. Ohno. Sunken Electric Co. Ltd, Saitama, Japan
Distribution System Voltage Regulation Under Fault Conditions Using Static Series Regulators 1383
K. Haddad, G Joos, Concordia University, Montreal, Quebec, Canada
HighPower Factor Phase Controlled Rectifier Using Styaggered Converters 1390
Eduardo P. Wiechmann, R. Burgos, University ofConcepcion, Concepcion, Chile; J. Rodriguez,Universidad Santa Maria, Valparaiso, Chile
HIGH FREQUENCY CONVERTER I
A Dual Bridge High Current DC-to-DC Converter with Soft Switching Capability 1398
Nasser Kutkut, G. Luckjiff, D.M. Divan, Softswitching Tech Corp., Middleton, WI USA
Pulsed DC-Link Current Coverters - a Review 1406
Edison R. Da Silva, L. De Oliveira, C. Jacobina, Federal University ofParaiba, Campina Grande, Brazil;
Y. Murai, Gifu University, Gift, Japan; T.A. Lipo, University ofWisconsin-Madison, Madison, WIUSA
Minimum Loss Design of a 100 kHz Inductor with Litz Wire 1414
A. Rahimi-Kian, Ali Keyhani, Ohio State University, Columbus, OH USA; J.M. Powell, Liebert Corporation,
Columbus, OH USA
Macroscopic Modeling of a Parallel Resonant Link PDM Converter and it Application to Closed-Loop
Link Voltage Control 1421
M. Matsui, Y. Yang, Tokyo Insdtitute ofPolytechnics, Kanagawa, Japan
Direct Linked Type Frequency Changer Based on DC-Clamped Bilateral Switching Circuit Topology 1429
K Mino, Y. Okuma, K. Kuroki, Fuji Electric Coporate R&D Ltd, Tokyo, Japan
CONVERTER CONTROL AND SIMULATION
Fuzzy Logic Controlled DirectFrequency Converters Modulated by an ExpertKnowledge-Based Space
Vector Technique1437
Eduardo P. Weichmann, R. Burgos, L. Salazar,, University ofConcepcion, Concepcion, Chile; J. Rodriguez,
UniversidadSanta Maria, Valparaiso, Chile.
Novel Solutions for Protection of Matrix Converter to Three Phase Induction Machine 1447
Peter Nielsen, Danfoos Drives A/S, Graaten, Denmark; Frede Blaabjerg, John K. Petersen, Aalborg University,
Aalborg East, Denmark
XXIII
Optimal Regulator Based Control ofNPC Boost Rectifiers for Unity Power Factor and Reduced NeutralPoint Potential Variations 1455
Shoji Fukuda, Y. Matsumoto, Hokkaido University, Sapporo, Japan
A New Control Method for Current Source Active Power Filters 1463Y. Sato, T. Sugita, Tokyo Institute ofTechnology, Tokyo, Japan; T. Kataoka, Tokyo Denki University,Tokyo, Japan
Fault Detection and Isolation on a PWM Inverter by Knowledge-BasedModel 1471R Peuget, S. Courtine, J. Rognon, Laboratoire d'Electrotechnique de Grenoble, Grenoble, France
Self-Commutated SVC with Compensation of Harmonic and Negative-Phase-Sequence Currents UsingDigital Control System 1479Y. Yoshioka, S. Konoshi, H. Kishibe, Fuji Electric Corporate R&D, Tokyo, Japan
A New Approach for Harmonic Analysis of Three-Pase Current-Type AC/DC PWM Converters 1487P. A. Dahono, A. Purwadi, Bandung Inst, of Technology, Bandung, Indonesia; T. Kataoka, Tokyo Denki University,Tokyo, Japan
CONVERTER PWM AND CURRENT REGULATOR CONTROL
A New Control Strategy for Voltage Type PWM Rectifiers to Realize Zero Steady-State Control Errorin Input Current 1496
Y. Sato, T. Ishizuka, K. Nezu, Tokyo Institute ofTechnology, Tokyo, Japan; T. Kataoka, Tokyo Denki University,Tokyo, Japan
Analysis and Design of Current Regulators Using Complex Vectors 1504
F. Briz, University of Oviedo, Gijon, Spain; M. Degner, Robert Lorenz, University of Wisconsin-Madison,Madison, WI USA
A New PWM Method to Reduce Beat Phenomenon in Large Capacity Inverters with
Low-Switching Frequency 1512K Iwaji, T. Sukegawa, T. Okuyama, T. Ikimi, M. Shigyou, M. Tobise, Hitachi, Ltd, Ibaraki-ken, Japan
Dynamic Overmodulation Characteristics of Triangular Intersection PWM Methods 1520Ahmet M. Hava, S. Sul, R. J. Kerkman, T.A. Lipo, University of Wisconsin-Madison, Madison, WI USA
Charge Controlled Modulation of a Current Source Inverter 1529Andre Valtman, Eindhoven University ofTechnology, Eindhoven, The Netherlands; D.G Holmes, Monash University,Clayton, Australia
Using Harmonic Distortion Determining Factor for Harmonic Evaluation of Carrier-Based PWM Methods 1534
Shoji Fukuda, K. Suzuki, Hokkaido University, Sapporo, Japan
Microprocessor Implemented SPWM for Multiconverters with Phase Shifted Triangle Carriers 1542
B. Mwinyiwiwa, Z. Wolanski, B. Ooi, McGill University, Montreal, Quebec, Canada
SPECIAL SESSION ON CONVERTER EMC
Conductive Electromagnetic Interference (EMI) Noise Evaluation for an Actively Clamped Resonant DC
Link Inverter (ACRDCLI) for Electric Vehicle (EV) Traction Drive Applications 1550
Chingchi Chen, X. Xu, Ford Research Laboratories, Dearborn, MI USA; Deepak M. Divan, Soft-SwitchingTechnologies, Middleton, WI USA
XXIV
An Examination of Radiated Electromagnetic Emission from Hard and Soft Switched Power Converters 1558Gin Venkataramanan, Montana State University, Bozeman, MT USA; Chingchi Chen, FordResearch LaboratoriesDearborn, MI USA
Analytical Approximations of Interference Spectra Generated by Power Converters 1564A. Nagel, R. W. De Doncker, RWTHISEA, Aachen, Germany
Invited Paper - Converter EMC I: Generation Control and Regulation of EMI from AC Drives 1571Gary Skibinski, Rockwell Automation-Allen-Bradley Co, Mequon, WI USA
Converter EMC II: Sources, Paths and Traps of Conducted EMI in Switch Mode Circuits 1584Jan A. Ferreira, P.R. Willcock, S.R. Holm, RandAfrikaans University, Auckland Park, South Africa
Power Converter EMC (panel discussion)J.Daan Van Wyk (Chairman), Rand Afrikaans University, Auckland Park, South Africa
HIGH POWER CONVERTER II
IGCT - a New Emerging Technology for High Power, Low Cost Inverters 1592Peter Steimer, H. Gruening, T. Werninger, ABB Industries AG, Turgi, Switzerland; E. Carroll, S. Kalka, S. Linder,ABB Semiconductor AG, Leneburg, Switzerland
Design and Testing of a 320 MW Pulsed Power Supply 1600J. Schillig, H. Boenig, Los Alamos National Laboratory, Los Alamos, NMUSA; J. Ferner, NationalHigh MagneticField Laboratory, Tallahassee, FL USA; M. K. Quissek, Q Group, Oconomowoc, WI USA; F. Bogdan, ABB
Industrial Systems, Inc., New Berlin, WI USA; G. O. Linhofer, M. Eichler, G. Kasper, ABB Industrie AE,Turgi, Switzerland; R.P. Marek, ABB T&D, Bland, VA USA; JR. Martin, Bechtel Nevada Corp.,Las Vegas, NV USA
Direct-Coupled Multilevel Cascaded Series Var Compensators 1608
Geza Joos, Concordia University, Montreal, Quebec, Canada; Xiaogang Huang, Boon Teck Ooi. McGill University,Montreal, Quebec, Canada
Investigation of Soft Switched IGBT Based Boost Converters for High Power Applications 1616
Nasser Kutkut, Soft Switching Tech Corp., Middleton, WI USA
A New Harmonic Reducing Three-Phase Diode Rectifier for High Voltage and High Power Applications 1624
K Nishida, M. Nakaoka, Yamaguchi University, Ube-City, Japan
Low Harmonics, Decoupled Hysteresis Type Current Control of a Multiconverter Consisting ofa Parallel
Transformerless Connection ofVSC Converters 1633
L. Matakas Jr., W. Kaiser, Universidade de Sao Paulo, Sao Paulo Brazil
Multimodular UPFC Operated by Phase-Shifted Triangle Carrier SPWM Strategy 1641
B. Mwinyiwiwa, B.T. Ooi, Z. Wolanski, McGill University, Montreal, Quebec, Canada
HIGH FREQUENCY CONVERTER II
A 2 MHz, 2kW Voltage-Source Inverter for Low-Temperature Plasma Generators: ImplementationofFast Switching with a Third-Order Resonant Circuit 1647
Hideaki Fujita, H. Akagi, Okayama University, Okayama, Japan
Self-Started Voltage Source Series Resonant Converter for High Power Induction Heating
and Melting Applications 10"53
P.K. Jain, J. R. Espinoza, S.B. Dewan, Concordia University, Montreal, Quebec, Canada
XXV
A Method for Control and Protection of Series Resonant Induction Furnaces 1661
W. Kotnatsu, W. Po, Escola Politecnica da Universidade Sao Paulo, Sao Paulo, Brazil
A New Robust and Simple Three Phase Resonant Converter 1667
S. Munk-Nielsen, F. Blaabjerg, J.K. Petersen, Aalborg University, Aalborg East, Denmark
A New ZVS LCL-Resonant Push-Pull DC-DC Converter Topology 1673
M.R. Ryan, W.E. Brumsickle, Robert Lorenz, University of Wisconsin-Madison, Madison, WI USA, D.M. Divan,
Soft Switching Technologies, Middleton, WI USA
Utility-Interactive Instantaneous Sinewave Space Vector Modulated Bidirectional Three Phase Power
Conditioner Using Resonant DC Link 1681
T. Shimizu, M. Kurokawa, Y. Nishida, M. Nakaoka, Shimizu, Yamaguchi University, Yamaguchi, Japan;Y. Sugawara, T. Horiuchi, Kansai Electric Power Company, Inc., Amagaski Hyogo, Japan
Analysis and Design of Electronic Transformers for Electric Power Distribution System 1689
M. Kang, Prasad Enjeti, Texas A&M University, College Station, TX USA, I. Pitel, Magna-Power Electronics,
Boonton, NJ USA
Volume 3
ELECTROSTATICPROCESSES COMMITTEE
ELECTROSTATIC COATING, SEPARATION AND PRECIPITATION
Electrostatic Effects on First Pass Transfer Efficiency in the Application ofPowdered Coatings 1697
R.A. Sims, M.K. Mazumder, X. Liu, D.L. Wankum, University ofArkansas at Little Rock, Little Rock, AR USA;
P. Pettit, PPG Industries, Strongsville, OH USA; T. Chasser, PPG Industries, Allison Park, PA USA
Electrostatic Lubrication of Moulds 1705
J.D. Brown, G.S.P. Castle, I.I. Inculet, London, Ontario, Canada; F. Chagnon, Quebec Metal Powders Ltd.,
Tracy, Quebec, Canada
Triboelectric Charging of Polymer Powders in Fluidization and Transport Processes 1710
J.R. Mountain, D.L. Wankum, M.K. Mazumder, University ofArkansas at Little Rock, Little Rock, AR USA; T.
Chasser, PPG Industries, Inc., Allison Park, PA USA; P. Pettit, PPG Industries, Strongville, OH USA
Iron-Ore Beneficiation Using Roll-Type High Intensity Electric Field Separators 1716
Roman Morar, Alexandru Iuga, Ovidiu Muntean, Technical University of Cluj-Napoca, Cluj-Napoca, Romania;
loan Cuglesan, R&D Mining Institute, Cluj-Napoca, Romania; Lucian Dascalescu, CNRS Laboratoire
d'Electrostatique, Grenoble, France
Triboelectric Separation of Granular Materials 1724
KB. Tennal, M.K. Mazumder, J. Zhang, University ofArkansas at Little Rock, Little Rock, AR USA; F. Tenduku,
University ofArkansas at Pine Bluff, Pine Bluff, AR USA
Collection Efficiency ofUltrafine Particles by an Electrostatic Precipitator under DC and Pulse
Operating Modesl73°
Akinori Zukeran, Paul C. Looy, A. Chakrabarti, Alexander A. Berezin, Jen-Shih Chang, Shesha Jayaram, J. Cross,
Tairo Ho, Musashi Institute of Technology, Tokyo Japan
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