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當前位置：首頁出版圖書科學技術(shù)計算機/網(wǎng)絡(luò)計算機組織與體系結(jié)構(gòu)電力電子系統(tǒng)：理論與設(shè)計英文版

電力電子系統(tǒng)：理論與設(shè)計英文版

電力電子系統(tǒng)：理論與設(shè)計英文版

定　價：￥55.00

作　者：	Jai P.Agrawal著
出版社：	清華大學出版社
叢編項：	信息技術(shù)學科與電氣工程學科系列
標　簽：	暫缺

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當當網(wǎng) (￥46.80)

ISBN：	9787302045472	出版時間：	2001-08-01	包裝：	精裝
開本：	23cm	頁數(shù)：	580	字數(shù)：

內(nèi)容簡介

　　本書系統(tǒng)、全面地反映了當今電力電子學的主要內(nèi)容，具有新技術(shù)、新觀念并集中了一些最新研究成果。它既照顧到學科的延續(xù)性，又補充了電力電子學的一些最新發(fā)展，諸如軟開關(guān)技術(shù)、PFC、EMC、電能質(zhì)量、無功補償器及新型整流器件等，從而為初學者進一步深造提供了所需的基礎(chǔ)知識、基本原理、基本概念和基本方法，同時也擴大了讀者的視野。本書內(nèi)容上具有以下特點：（1）從應(yīng)用的角度講述組成電力電子變換電路的元器件，包括其基礎(chǔ)知識——半導體物理、電磁原理和電磁場理論，使讀者能夠深入地理解它們在電路中的行為。同時，作者還對一般電力電子學書籍不常提到的熱學問題做了較全面的介紹。（2）高性能的變換器離不開精確的控制。本書專門討論了變換器的動態(tài)模型——平均電路模型、線性化模型和狀態(tài)空間平均模型以及反饋控制，并在有關(guān)電力電子技術(shù)應(yīng)用的章節(jié)中對系統(tǒng)的控制做了必要的闡述。（3）電力電子技術(shù)是一門滲透性極強的應(yīng)用技術(shù)。為此，作者對開關(guān)電源、電池充電、UPS、電子鎮(zhèn)流器、感應(yīng)加熱、高頻逆變一蒸餾焊機以及直流電機、感應(yīng)電機和同步電機的驅(qū)動做了簡要的介紹，以增加讀者的實際知識。（4）本書具有豐富的設(shè)計實例和仿真結(jié)果，每章還有精選的思考題。本書可作為電力電子學課程的教材，同時也為從事研發(fā)的工程師們提供了一本很好的自學讀物。

作者簡介

暫缺《電力電子系統(tǒng)：理論與設(shè)計英文版》作者簡介

圖書目錄

PART I: INTRODUCTION 1
   1 BIRDS-EYE VIEW OF POWER ELECTRONICS SYSTEMS 3
      I.I Introduction 3
      l.2 A Simple Voltage Converter 5
      I.3 Systems View of Power Electronic Converters 6
      I.4 Elements of the Converter Systems: Modeling and Assumptions ll
      l.5 Convener Topology 24
      l.6 Convener Operation and Desired Characteristics 28
      l.7 Converter Performance Measures 28
      l.8 Protection 33
      l.9 Packaging 34
      Problems 35
PART II: POWER ELECTRONIC COMPONENTS 41
   2 UNDERSTANDING COMPONENTS 43
      2.1 Introduction 43
      2.2 Basics of Magnetism 43
      2.3 Magnetic Materials 45
      2.4 Magnetic Circuits 46
      2.5 Inductor 47
      2.6 Nonlinearities in Magnetic Components 50
      2.7 Losses in Magnetic Components 53
      2.8 Windings 56
      2.9 Types of Inductors 56
      2.1O Transformers 61
      2.1l Motors 65
      2.12 Electrostatics and Dielectric Materials 69
      2.13 Capacitors 69
      2.14 Semiconductor Switches 7l
      2.l5 Snubbering: Protection of Switching Devices 73
      2.16 Zero-Current Switching 77
      2.17 Zero-Voltage Switching 77
      2.18 PSPICE Simulation 77
      References 79
      Problems 79
   3 POWER DIODES 85
      3.l Introduction 85
      3.2 p-n Junctions 86
      3.3 Power Diodes 92
      3.4 Parallel and Series Connection of Diodes 98
      3.5 Schottky Barrier Diode 100
      3.6 New Trends in Diodes 102
      3.7 Device Specification 102
      3.8 PSPICE Simulation 104
      3.9 Summary 104
      References 106
      Problems 107
   4 TRANSISTORS: LEVEL TRIGGERED SWITCHING DEVICES 109
      4.l Introduction 109
      4.2 Basic MOS Structure 110
      4.3 Power MOSFETs 114
      4.4 Insulated Gate Bipolar Transistor (IGBT) 126
      4.5 Comparison of MOSFET and IGBT 134
      4.6 Device Specifications 134
      4.7 Summary 138
      References 138
      Ptoblems 138
   5 THYRISTORS: PULSE TRIGGERED DEVICES 141
      5.l Introduction 141
      5.2 Basic Structure 142
      5.3 Static Characteristics 143
      5.4 Cathode-Shorted Structure of Thyristors 146
      5.5 Effect of Temperature 147
      5.6 Switching Characteristics 147
      5.7 Series Operation of Thyristors 15l
      5.8 Parallel Operation of Thyristors 153
      5.9 Thyristor Triggering Circuits l53
      5.10 Forced Commutation of Thyristors 156
      5.ll Thyristor Snubber Circuits 159
      5.12 Gate Turn-Off Thyristors (GTO) 159
      5.13 Triacs 163
      5.14 The MOS Controlled Thyristor (MCT) 164
      5.15 Device Specification 167
      5.16 Summary 169
      References 170
      Problems 170
PART IU: POWER ELECTRONIC
CONVERTER CIRCUITS
   6 DC TO CONTROLLED DC 175
      6.1 Introduction 175
      6.2 Uncontrolled and Controlled Conversion 175
      6.3 Buck Converters 178
      6.4 Boost Converters 185
      6.5 Buck-Boost Converters 192
      6.6 CUK Converters 196
      6.7 Two-Quadrant Converters 198
      6.8 Full-Bridge Converters 198
      6.9 Isolated DC-DC Converters 204
      6.10 Multi-Output DC-DC Converter 211
      6.11 Design Exercise: Switching Power Supply 212
      6.12 PSPICE Simulation 213
      6.13 Summary 214
      References 214
      Problems 215
   7 DC TO CONTROLLED AC 219
      7.l Introduction 219
      7.2 Controlled Inversion 219
      7.3 Full-Bridge Inverter (VSI) with Square-Wave Switching 224
      7.4 Pulse-Width Modulation (PWM) Control of VSI 230
      7.5 Current-Mode Control of PWM VSI 234
      7.6 Current Source PWM Full-Bridge Invener 234
      7.7 Pruning of Harmonic Profile 236
      7.8 Sine-PWM Inverter 242
      7.9 Control Signal Generation 247
      7.10 3-Phase Full-Bridge Inverter 248
      7.ll Rectifier Mode of Operation of Inverters 252
      7.12 Design Exercise: 2 KW, l-Phase Inverter for Emergency Applications 252
      7.13 PSPICE Simulation 253
      7.14 Summary 255
      References 255
      Problems 255
   8 AC TO DC: NO CONTROL 259
      8.l Introduction 259
      8.2 AC-DC Converter Topologies 260
      8.3 l-Phase Half-Wave Rectifier 263
      8.4 1-Phase Full-Bridge AC-DC Converter 273
      8.5 Line Quality Issues 286
      8.6 3-Phase 6-Pulse Full-Wave Rectifier 292
      8.7 Transient Considerations 299
      8.8 Design Example 300
      8.9 Effect of Device Characteristics 300
      8.10 PSPICE Simulation 300
      8.11 Summary 302
      References 303
      Problems 303
   9 AC TO DC: WITH CONTROL 307
      9.l Introduction 307
      9.2 Controlled AC-DC Conversion 308
      9.3 l-Phase AC-DC Converters 312
      9.4 3-Phase 6-Pulse Full-Bridge Converters 336
      9.5 Design Exercise: PWM Drive for DC Motor 346
      9.6 PSPICE Simulation 348
      9.7 Summary 349
      References 351
      Problems 351
   10 AC TO CONTROLLED AC 355
      10.1 Introduction 355
      10.2 Modeling and Analysis 356
      10.3 AC Controller 357
      10.4 Cycloconverter 373
      10.5 DC-Link AC-AC Converter 382
      10.6 PSPICE Simulation 385
      10.7 Summary 385
      References 386
      Problems 387
   11 RESONANT CONVERTERS 391
      11.l Introduction 391
      l1.2 Resonant Convener Systems 391
      l1.3 Resonant Tank Circuits 392
      11.4 Resonant Tank in Excitation 396
      11.5 Series Resonant DC-DC Converter with Voltage Sink (Current Coupled Resonant Converter) 399
      11.6 Parallel Resonant DC-DC Converter (PRC) (Voltage Coupled Resonant Converter) 414
      11.7 High-Order Resonant DC-DC Converter 420
      11.8 Class E Converters 423
      11.9 Resonant Switch Converters 423
      11.10 Resonant-Link Inverters 428
      11.1l Bidirectional Resonant Converters 428
      1l.12 Control of Resonant Converters 429
      1l.13 PSPICE Simulation 432
      11.14 Summary 433
      References 434
      Problems 434
PART IV: POWER ELECTRONIC
APPLICATION SYSTEMS 497
   12 ELECTRIC UTILITY INTERFACE:POWER FACTOR CORRECTION AND STATIC VAR CONTROL 439
      12.l Introduction 439
      l2.2 Electric Utility Distribution System 439
      12.3 Passive Filtering 440
      I 2.4 Active Current Shaping: Power Factor Comection 441
      12.5 Interface for Bidirectional Power Flow 447
      12.6 3-Phase Utility Interface 449
      12.7 Static VAR Compensators 449
      12.8 Summary 452
      References 453
      Problems 453
   13 CONVERTER CONTROL 455
      13.l Introduction 455
      13.2 Averaged Model 455
      13.3 Linearized Model 459
      13.4 State-Space Averaged Model 461
      13.5 Feedback Control 465
      13.6 Summary 468
      References 469
      Ptoblems 469
   14 APPLICATIONS 1: POWER SUPPLIES AND. .. 471
      14.l Introduction 47l
      14.2 DC Power Supply System 471
      14.3 Control of Switch-Mode DC Power Supplies 473
      14.4 Protection of DC Power Supplies 474
      14.5 Electrical Isolation 476
      14.6 Equivalent Series Resistance (ESR) 476
      14.7 Synchronous Rectifiers 477
      14.8 Cross Regulation in Multiple Outputs 477
      14.9 Battery Charging Systems 477
      14.10 Uninterruptible (AC) Power Supply(UPS) 478
      14.11 Electronic Lamp Ballast 480
      14.12 Induction Heating 480
      14.13 Switch-Mode Welding 481
      14. 14 Electromagnetic Interference Considerations 481
      14.15 Summary 483
      References 483
      Problems 484
   15 APPLICATIONS II: MOTOR DRIVES 487
      15.l Introduction 487
      15.2 DC Motor Drives 487
      15.3 Induction Motor Drives 492
      15.4 Synchronous Motor Drives 501
      15.5 Summary 505
      References 505
      Ptoblems 505
   16 TEMPERATURE CONTROL,PROTECTION, AND PACKAGING 507
      16.l Introduction 507
      16.2 Temperature Control in Semiconductor Devices 507
      16.3 Heat Transfer Basics 508
      16.4 Heat Transfer Systems 508
      16.5 Static Thermal Model of Heat Transfer Systems 512
      l6.6 Transient Thermal Impedance 5l3
      16.7 Heat Sink 516
      16.8 Surge Voltage Protection 516
      16.9 Fault Current Protection 517
      16.10 Circuit Layout Techniques 519
      16.11 Summary 520
      References 521
      Problems 521
   APPENDIX A 523
      A-l Review of Basic Principles 523
      A-2 Basic Mathematical Methods 524
      A-3 Energy and Power 530
      A-4 Pspice Simulation 533
   APPENDIX B 537
      B-l Electromagnetics 537
   APPENDIX C 539
      C-l Semiconductor Basics 539
      C-2 Charge Transport in Homogenous Structure Semiconductor Devices 541
      C-3 Heterogeneous-Structure Devices 542
   APPENDIX D 5t7
   APPENDIX E 549
   APPENDIX F 551
   INDEX 553

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