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Variable Frequency AC Motor Drive Systems PDF

405 Pages·1988·21.27 MB·English
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IET Power and Energy Series 8 Variable Frequency AV Variable Frequency Ca r AC Motor Drive Systems Mia b o AC Motor Drive l te o rF This book is intended to explain the technical principles involved in David Finney, B.Sc., CEng., FIEE, is Dre Systems the many AC variable speed drive systems available today. It deals division manager and chief engineer, with all the DC link inverter and direct AC to AC converter systems responsible for large variable speed drive riq that are in commercial use. The principles of AC motors are systems, at the G.E.C. Industrial Controls vu considered specifically from the variable frequency point of view, plant in Rugby, England. In this position he ee and this chapter concentrates on the effects of harmonics. The iasn rde smpoannsuifbalcet uforer tohfe l adrgeeve dloripvme seynstt,e dmess ign Sn different types of power semiconductor switches are considered for use in mining, metals, paper, oil, and yc separately from the drive systems in which they are used. chemical industries throughout the world. sy A total of seven separate and technically different drive systems He has been technically involved in the t are considered in such a way that their principles can be fully power semiconductor field since 1958, e understood and their performance capabilities explained. Square when thyristors were only just emerging, m and during this time he has worked on all wave and pulse width modulated DC link inverter systems, types of thyristor converters and inverter cycloconverters and slip power recovery drives are all included in s drives from a few kilowatts up to 10,000 this comprehensive book. kW using natural and forced commutation This book has been written so that it can be understood by general techniques and operating in square wave David Finney engineers, not just by experts in the field. It should therefore be and pulse modulated modes. of great use to any engineer involved with variable speed drives in He has published a number of articles any capacity. It should also be of interest to university and college and given lectures around the world in his chosen subject. electrical engineering departments and students. F i n n e y The Institution of Engineering and Technology www.theiet.org 0 86341 114 2 978-0-86341-114-4 IET PowEr and EnErgy SErIES 8 Series Editors: Prof. A.T. Johns G. Ratcliff J.R. Platts Variable Frequency AC Motor Drive Systems Other volumes in this series: Volume 1 Power circuit breaker theory and design C.H. Flurscheim (Editor) Volume 4 Industrial microwave heating A.C. Metaxas and R.J. Meredith Volume 7 Insulators for high voltages J.S.T. Looms Volume 8 Variable frequency AC motor drive systems D. Finney Volume 10 SF6 switchgear H.M. Ryan and G.R. Jones Volume 11 Conduction and induction heating E.J. Davies Volume 13 Statistical techniques for high voltage engineering W. Hauschild and W. Mosch Volume 14 Uninterruptable power supplies J. Platts and J.D. St Aubyn (Editors) Volume 15 Digital protection for power systems A.T. Johns and S.K. Salman Volume 16 Electricity economics and planning T.W. Berrie Volume 18 Vacuum switchgear A. Greenwood Volume 19 Electrical safety: a guide to causes and prevention of hazards J. Maxwell Adams Volume 21 Electricity distribution network design, 2nd edition E. Lakervi and E.J. Holmes Volume 22 Artificial intelligence techniques in power systems K. Warwick, A.O. Ekwue and R. Aggarwal (Editors) Volume 24 Power system commissioning and maintenance practice K. Harker Volume 25 Engineers’ handbook of industrial microwave heating R.J. Meredith Volume 26 Small electric motors H. Moczala et al. Volume 27 AC-DC power system analysis J. Arrill and B.C. Smith Volume 29 High voltage direct current transmission, 2nd edition J. Arrillaga Volume 30 Flexible AC Transmission Systems (FACTS) Y-H. Song (Editor) Volume 31 Embedded generation N. Jenkins et al. Volume 32 High voltage engineering and testing, 2nd edition H.M. Ryan (Editor) Volume 33 Overvoltage protection of low-voltage systems, revised edition P. Hasse Volume 34 The lightning flash V. Cooray Volume 35 Control techniques drives and controls handbook W. Drury (Editor) Volume 36 Voltage quality in electrical power systems J. Schlabbach et al. Volume 37 Electrical steels for rotating machines P. Beckley Volume 38 The electric car: development and future of battery, hybrid and fuel-cell cars M. Westbrook Volume 39 Power systems electromagnetic transients simulation J. Arrillaga and N. Watson Volume 40 Advances in high voltage engineering M. Haddad and D. Warne Volume 41 Electrical operation of electrostatic precipitators K. Parker Volume 43 Thermal power plant simulation and control D. Flynn Volume 44 Economic evaluation of projects in the electricity supply industry H. Khatib Volume 45 Propulsion systems for hybrid vehicles J. Miller Volume 46 Distribution switchgear S. Stewart Volume 47 Protection of electricity distribution networks, 2nd edition J. Gers and E. Holmes Volume 48 Wood pole overhead lines B. Wareing Volume 49 Electric fuses, 3rd edition A. Wright and G. Newbery Volume 51 Short circuit currents J. Schlabbach Volume 905 Power system protection, 4 volumes Variable Frequency AC Motor Drive Systems David Finney The Institution of Engineering and Technology Published by The Institution of Engineering and Technology, London, United Kingdom First edition © 1988 Peter Peregrinus Ltd Reprint with new cover © 2006 The Institution of Engineering and Technology First published 1988 Reprinted 1991, 2006 This publication is copyright under the Berne Convention and the Universal Copyright Convention. All rights reserved. Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act, 1988, this publication may be reproduced, stored or transmitted, in any form or by any means, only with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms of licences issued by the Copyright Licensing Agency. Inquiries concerning reproduction outside those terms should be sent to the publishers at the undermentioned address: The Institution of Engineering and Technology Michael Faraday House Six Hills Way, Stevenage Herts, SG1 2AY, United Kingdom www.theiet.org While the author and the publishers believe that the information and guidance given in this work are correct, all parties must rely upon their own skill and judgement when making use of them. Neither the author nor the publishers assume any liability to anyone for any loss or damage caused by any error or omission in the work, whether such error or omission is the result of negligence or any other cause. Any and all such liability is disclaimed. The moral rights of the author to be identified as author of this work have been asserted by him in accordance with the Copyright, Designs and Patents Act 1988. British Library Cataloguing in Publication Data Finney, David Variable frequency AC motor drive systems. 1. Alternating current electric motors 2. Variable speed drives I. Title II. Series 621.46’2 ISBN (10 digit) 0 86341 114 2 ISBN (13 digit) 978-0-86341-114-4 Printed in the UK by Short Run Press Ltd, Exeter Reprinted in the UK by Lightning Source UK Ltd, Milton Keynes Contents Page Preface ix 1 AC motors 1 1.1 Introduction 1 1.2 The induction motor 2 1.2.1 Induction motor principles 3 1.2.2 The variable frequency induction motor 9 1.2.3 The equivalent circuit 14 1.2.4 The vector diagram 20 1.2.5 Equations and relationships 21 1.2.6 Examples of calculations 26 1.3 The synchronous motor 32 1.3.1 Synchronous motor principles 33 1.3.2 Equivalent circuits and vector diagrams 36 1.3.3 Equations and relationships 40 1.3.4 Examples of calculations 42 1.4 Harmonics in AC motors 45 1.4.1 Harmonic power losses 46 1.4.2 Torque pulsations 46 1.4.3 Harmonic equivalent circuits 47 1.5 Motor power losses 49 1.6 Motor voltages to earth 52 2 Power switching devices 54 2.1 Introduction 54 2.2 The thyristor 55 2.2.1 Capabilities and performance 57 2.2.2 The available thyristors 62 2.2.3 Thyristors in AC motor drive circuits 65 2.3 The transistor 73 2.3.1 Capabilities and performance 75 2.3.2 The available transistors 83 2.3.3 Transistors in AC motor drive circuits 86 vi Contents 2.4 The gate turn off thyristor 91 2.4.1 Capabilities and performance 93 2.4.2 The available GTO thyristors 98 2.4.3 GTO's in AC motor drive circuits 100 3 Power switching circuits 104 3.1 Introduction 104 3.2 The 3 phase, naturally commutated bridge 104 3.2.1 As a rectifier 104 3.2.2 As an inverter — regeneration 111 3.2.3 Switch voltages 113 3.2.4 DC voltage harmonics 115 3.2.5 AC current harmonics 115 3.3 The three phase bridge inverter 119 3.3.1 The voltage source bridge inverter 120 3.3.2 The current source bridge inverter 124 3.4 Isolation of electronics 126 4 The six step voltage source inverter for induction motors 131 4.1 Introduction 131 4.2 Principles of operation 131 4.3 Detailed analysis of the system 135 4.3.1 Circuit waveforms 136 4.3.2 Relationships and equations 142 4.3.3 Examples of calculations 148 4.4 Practical circuit design considerations 151 4.4.1 Overcurrent protection 152 4.4.2 Overvoltage protection 154 4.4.3 Factors affecting specifications 154 4.4.4 Circuit variations 156 4.5 Overall control methods 158 4.5.1 Supply convertor control 159 4.5.2 Inverter control 159 4.5.3 Typical control schemes 160 4.6 Performance and application 161 4.6.1 Torque/speed characteristics 162 4.6.2 Speed control accuracy 164 4.6.3 Supply power factor and harmonics 164 5 The Pulse Width Modulated voltage source inverter for induction motors 166 5.1 Introduction 166 5.2 Principles of operation 166 5.2.1 Pulse width modulation 167 5.2.2 The PWM drive system 174 Contents vii 5.3 Detailed analysis of the system 177 5.3.1 Motor waveforms 177 5.3.2 Inverter circuit waveforms 182 5.3.3 Circuit relationships and equations 185 5.3.4 Examples of calculations 188 5.4 Practical circuit design considerations 192 5.4.1 Overcurrent protection 192 5.4.2 Regeneration 193 5.4.3 Factors affecting specifications 194 5.4.4 Typical circuit diagram 194 5.5 Overall control methods 196 5.6 Performance and application 198 5.6.1 Torque/speed characteristics 199 5.6.2 Efficiency 199 5.6.3 Supply power factor 200 5.6.4 Motor and supply harmonics 200 5.6.5 Accuracy and transient performance 201 6 The six step current source inverter drive 202 6.1 Introduction 202 6.2 Principles of operation 203 6.3. Detailed analysis of the system 206 6.3.1 Circuit waveforms 207 6.3.2 The motor vector diagram 213 6.3.3 Circuit relationships and equations 215 6.3.4 The standard current source inverter circuit 219 6.3.5 Examples of calculations 223 6.4 Practical circuit design considerations 229 6.4.1 Overcurrent protection 229 6.4.2 Overvoltage protection 230 6.4.3 Circuit variations 230 6.4.4 Factors affecting specifications 231 6.5 Overall control methods 232 6.6 Performance and application 235 6.6.1 Torque/speed characteristics 235 6.6.2 Efficiency 236 6.6.3 Supply power factor 236 6.6.4 Torque pulsations 236 7 The six step synchro-convertor system for synchronous motors 239 7.1 Introduction 239 7.2 Principles of operation 241 7.2.1 Starting and low speed operation 242 7.2.2 Normal running conditions 245 viii Contents 123 Reversing and regeneration 247 7.2.4 Motor excitation 248 7.3 Detailed analysis of the system 249 7.3.1 Convertor and motor waveforms 249 7.3.2 Armature reaction 251 7.3.3 Motor vector diagram 252 7.3.4 Relationships and equations 254 7.3.5 Examples of calculations 257 7.4 Practical circuit design considerations 261 7.4.1 Overcurrent protection 262 7.4.2 Factors affecting specifications 263 7.4.3 Circuit variations 265 7.5 Overall control methods 266 7.5.1 Supply convertor control 268 7.5.2 Motor convertor control 268 7.5.3 Excitation control 269 7.6 Performance and application 269 7.6.1 Torque/speed characteristic 270 7.6.2 Efficiency 271 7.6.3 Speed control accuracy 272 7.6.4 Stability and transient performance 272 7.6.5 Supply power factor 273 7.6.6 Torque pulsations 274 8 The current source inverter for the capacitor self-excited induction motor 275 8.1 Introduction 275 8.2 Principles of operation 275 8.2.1 High speed running 278 8.2.2 Lower speed running 279 8.3 Detailed analysis of the system 281 8.3.1 Circuit waveforms 284 8.3.2 The motor vector diagram 286 8.3.3 Relationships and equations 288 8.3.4 Examples of calculations 292 8.4 Practical circuit design considerations 295 8.4.1 Protection 295 8.4.2 Commutation methods 296 8.4.3 Factors affecting specifications 299 8.5 Overall control methods 301 8.5.1 Supply convertor control 302 8.5.2 Motor convertor control 302 8.5.3 Motor magnetisation control 303 8.5.4 Typical overall control scheme 303 Contents ix 8.6 Performance and application 305 8.6.1 Motor current waveforms 305 8.6.2 Torque/speed capability 306 8.6.3 Supply power factor 307 9 The cycloconvertor 308 9.1 Introduction 308 9.2 Principles of operation 309 9.2.1 The fundamental principles 309 9.2.2 3 phase systems 312 9.2.3 Reversal and regeneration 313 9.2.4 Supply side conditions 315 9.3 Detailed analysis of the system 318 9.3.1 Circuit waveforms 318 9.3.2 Current reversal . 325 9.3.3 The motor vector diagram 326 9.3.4 Relationships and equations 327 9.3.5 Examples of calculations 331 9.4 Practical circuit design considerations 332 9.4.1 Overcurrent protection 333 9.4.2 Convertor polarity switching 334 9.4.3 Alternative power circuits 335 9.5 Overall control methods 338 9.5.1 Firing control 339 9.5.2 Typical control schemes 340 9.6 Performance and application 343 9.6.1 Speed range 343 9.6.2 Dynamic performance 344 9.6.3 Supply power factor 344 9.6.4 Harmonics 346 10 The slip energy recovery system for wound rotor induction motors 349 10.1 Introduction 349 10.2 Principles of operation 350 10.3 Detailed analysis of the system " 354 10.3.1 Circuit waveforms 355 10.3.2 The motor equivalent circuit 357 10.3.3 The motor vector diagram 360 10.3.4 Circuit equations and relationships 360 10.3.5 Examples of calculations 364 10.4 Practical circuit designs 367 10.4.1 Overcurrent protection 368 10.4.2 Overvoltage protection 369 10.4.3 Circuit variations 370

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