"A comprehensive reference that consolidates the research and development of electric vehicle machines and drives for electric and hybrid propulsion"--Provided by publisher

    12.2 Double-Rotor Machines 345 -- 12.2.1 Multi-port Machine Concept 345 -- 12.2.2 DR Machine Structure 346 -- 12.3 Basic Double-Rotor EVT Systems 347 -- 12.3.1 DR EVT Structure 347 -- 12.3.2 DR EVT Modeling 349 -- 12.3.3 DR EVT Operation 350 -- 12.4 Advanced Double-Rotor EVT Systems 351 -- 12.4.1 PM DR EVT System 353 -- 12.4.2 SR DR EVT System 354 -- 12.4.3 Axial-Flux DR EVT System 356 -- 12.4.4 Advanced Magnetless DR EVT System 357 -- 12.5 Design Criteria of DR EVT Systems 359 -- 12.6 Design Example of DR EVT Systems 359 -- 12.6.1 DSDC DR EVT System Configuration 360 -- 12.6.2 DSDC DR Machine Design 360 -- 12.6.3 DSDC DR Machine Analysis 360 -- 12.7 Potential Applications of DR EVT Systems in HEVs 364 -- References 365 -- 13 Magnetic-Geared Electric Variable Transmission Systems 367 -- 13.1 System Configurations 367 -- 13.2 Multi-port Magnetic Gears 369 -- 13.2.1 Magnetic Planetary Gears 369 -- 13.2.2 Magnetic Concentric Gears 371 -- 13.3 Magnetic Planetary-Geared EVT System 373 -- 13.4 Magnetic Concentric-Geared EVT System 375 -- 13.5 Design Criteria of MG EVT Systems 380 -- 13.6 Design Example of MG EVT Systems 382 -- 13.6.1 MCG EVT System Configuration 382 -- 13.6.2 Integrated MCG Machine Design 384 -- 13.6.3 Integrated MCG Machine Analysis 386 -- 13.7 Potential Applications of MG EVT Systems in HEVs 392 -- References 392 -- Index 393

    4.3.1 Structure of PM Brushless Machines 72 -- 4.3.2 Principle of PM Brushless Machines 75 -- 4.3.3 Modeling of PM Brushless Machines 78 -- 4.4 Inverters for PM Brushless Motors 82 -- 4.4.1 Inverter Requirements 82 -- 4.4.2 Switching Schemes for Brushless AC Operation 83 -- 4.4.3 Switching Schemes for Brushless DC Operation 84 -- 4.5 PM Brushless Motor Control 87 -- 4.5.1 PM Synchronous Motor Control 87 -- 4.5.2 PM Brushless DC Motor Control 91 -- 4.6 Design Criteria of PM Brushless Motor Drives for EVs 93 -- 4.7 Design Examples of PM Brushless Motor Drives for EVs 96 -- 4.7.1 Planetary-Geared PM Synchronous Motor Drive 96 -- 4.7.2 Outer-Rotor PM Brushless DC Motor Drive 100 -- 4.8 Application Examples of PM Brushless Motor Drives in EVs 103 -- 4.9 Preferred Technology for EVs? 104 -- References 106 -- 5 Switched Reluctance Motor Drives 108 -- 5.1 System Configurations 108 -- 5.2 SR Machines 110 -- 5.2.1 Structure of SR Machines 110 -- 5.2.2 Principle of SR Machines 112 -- 5.2.3 Modeling of SR Machines 115 -- 5.3 SR Converters 117 -- 5.3.1 SR Converter Topologies 118 -- 5.3.2 Soft-Switching SR Converter Topologies 119 -- 5.3.3 Comparison of SR Converters for EVs 123 -- 5.4 SR Motor Control 124 -- 5.4.1 Speed Control 124 -- 5.4.2 Torque-Ripple Minimization Control 126 -- 5.4.3 Position Sensorless Control 128 -- 5.5 Design Criteria of SR Motor Drives for EVs 131 -- 5.5.1 Machine Initialization 132 -- 5.5.2 Suppression of Acoustic Noise 136 -- 5.6 Examples of SR Motor Drives for EVs 137 -- 5.6.1 Planetary-Geared SR Motor Drive 137 -- 5.6.2 Outer-Rotor In-Wheel SR Motor Drive 141 -- 5.7 Application Examples of SR Motor Drives in EVs 144 -- 5.8 Maturing Technology for EVs? 144 -- References 145 -- 6 Stator-Permanent Magnet Motor Drives 147 -- 6.1 Stator-PM versus Rotor-PM 147 -- 6.2 System Configurations 148 -- 6.3 Doubly-Salient PM Motor Drives 149 -- 6.4 Flux-Reversal PM Motor Drives 157 -- 6.5 Flux-Switching PM Motor Drives 160 -- 6.6 Hybrid-Excited PM Motor Drives 161

    6.7 Flux-Mnemonic PM Motor Drives 165 -- 6.8 Design Criteria of Stator-PM Motor Drives for EVs 173 -- 6.9 Design Examples of Stator-PM Motor Drives for EVs 177 -- 6.9.1 Outer-Rotor Hybrid-Excited DSPM Motor Drive 177 -- 6.9.2 Outer-Rotor Flux-Mnemonic DSPM Motor Drive 181 -- 6.10 Potential Applications of Stator-PM Motor Drives in EVs 192 -- References 194 -- 7 Magnetic-Geared Motor Drives 195 -- 7.1 System Configurations 195 -- 7.2 Magnetic Gears 197 -- 7.2.1 Converted Magnetic Gears 198 -- 7.2.2 Field-Modulated Magnetic Gears 200 -- 7.3 MG Machines 203 -- 7.3.1 Principle of MG Machines 205 -- 7.3.2 Modeling of MG Machines 211 -- 7.4 Inverters for MG Motors 211 -- 7.5 MG Motor Control 212 -- 7.6 Design Criteria of MG Motor Drives for EVs 213 -- 7.7 Design Examples of MG Motor Drives for EVs 215 -- 7.7.1 MG PM Brushless DC In-Wheel Motor Drive 215 -- 7.7.2 MG PM Brushless AC In-Wheel Motor Drive 218 -- 7.8 Potential Applications of MG Motor Drives in EVs 224 -- References 225 -- 8 Vernier Permanent Magnet Motor Drives 227 -- 8.1 System Configurations 227 -- 8.2 Vernier PM Machines 228 -- 8.2.1 Vernier PM versus Magnetic-Geared PM 228 -- 8.2.2 Structure of Vernier PM Machines 229 -- 8.2.3 Principle of Vernier PM Machines 234 -- 8.2.4 Modeling of Vernier PM Machines 237 -- 8.3 Inverters for Vernier PM Motors 238 -- 8.4 Vernier PM Motor Control 239 -- 8.5 Design Criteria of Vernier PM Motor Drives for EVs 240 -- 8.6 Design Examples of Vernier PM Motor Drives for EVs 242 -- 8.6.1 Outer-Rotor Vernier PM Motor Drive 242 -- 8.6.2 Outer-Rotor Flux-Controllable Vernier PM Motor Drive 245 -- 8.7 Potential Applications of Vernier PM Motor Drives in EVs 251 -- References 251 -- 9 Advanced Magnetless Motor Drives 253 -- 9.1 What Is Advanced Magnetless? 253 -- 9.2 System Configurations 254 -- 9.3 Synchronous Reluctance Motor Drives 255 -- 9.4 Doubly-Salient DC Motor Drives 257 -- 9.5 Flux-Switching DC Motor Drives 260 -- 9.6 Vernier Reluctance Motor Drives 264 -- 9.7 Doubly-Fed Vernier Reluctance Motor Drives 266

    9.8 Axial-Flux Magnetless Motor Drives 269 -- 9.9 Design Criteria of Advanced Magnetless Motor Drives for EVs 272 -- 9.10 Design Examples of Advanced Magnetless Motor Drives for EVs 272 -- 9.10.1 Multi-tooth Doubly-Salient DC Motor Drive 272 -- 9.10.2 Multi-tooth Flux-Switching DC Motor Drive 274 -- 9.10.3 Axial-Flux Doubly-Salient DC Motor Drive 276 -- 9.10.4 Axial-Flux Flux-Switching DC Motor Drive 283 -- 9.11 Potential Applications of Advanced Magnetless Motor Drives in EVs 288 -- References 289 -- 10 Integrated-Starter-Generator Systems 291 -- 10.1 Classification of HEVs 291 -- 10.2 ISG System Configurations 295 -- 10.3 ISG Machines 296 -- 10.4 ISG Operations 298 -- 10.4.1 Cranking 298 -- 10.4.2 Electricity Generation 298 -- 10.4.3 Idle Stop-Start 298 -- 10.4.4 Regenerative Braking 299 -- 10.4.5 Power Assistance 300 -- 10.5 Design Criteria of ISG Systems 300 -- 10.6 Design Examples of ISG Systems 301 -- 10.6.1 Double-Stator PM Synchronous Machine-Based ISG System 301 -- 10.6.2 Hybrid-Excited Doubly-Salient PM Machine-Based ISG System 303 -- 10.7 Application Examples of ISG Systems in HEVs 312 -- 10.8 Matured Technology for HEVs? 313 -- References 313 -- 11 Planetary-Geared Electric Variable Transmission Systems 315 -- 11.1 System Configurations 315 -- 11.2 Planetary Gears 316 -- 11.3 Input-Split PG EVT Systems 319 -- 11.3.1 Toyota Hybrid System 319 -- 11.3.2 Ford Hybrid System 324 -- 11.4 Compound-Split PG EVT Systems 326 -- 11.4.1 GM Two-Mode Hybrid System 327 -- 11.4.2 Renault Hybrid System 331 -- 11.4.3 Timken Hybrid System 332 -- 11.5 Design Criteria of PG EVT Systems 333 -- 11.6 Design Example of PG EVT Systems 334 -- 11.6.1 PM Synchronous PG EVT System Configuration 334 -- 11.6.2 PM Synchronous Machine Design 335 -- 11.6.3 PM Synchronous Machine Analysis 336 -- 11.7 Application Examples of PG EVT Systems in HEVs 339 -- 11.8 Matured Technology for HEVs? 341 -- References 342 -- 12 Double-Rotor Electric Variable Transmission Systems 343 -- 12.1 System Configurations 343

    Preface xiii -- Organization of This Book xv -- Acknowledgments xvii -- About the Author xix -- 1 Introduction 1 -- 1.1 What Is an Electric Vehicle? 1 -- 1.2 Overview of EV Challenges 3 -- 1.2.1 Pure Electric Vehicle 4 -- 1.2.2 Hybrid Electric Vehicle 4 -- 1.2.3 Gridable Hybrid Electric Vehicle 5 -- 1.2.4 Fuel-Cell Electric Vehicle 5 -- 1.3 Overview of EV Technologies 6 -- 1.3.1 Motor Drive Technology 6 -- 1.3.2 Energy Source Technology 9 -- 1.3.3 Battery Charging Technology 11 -- 1.3.4 Vehicle-to-Grid Technology 14 -- References 16 -- 2 DC Motor Drives 19 -- 2.1 System Configurations 19 -- 2.2 DC Machines 20 -- 2.2.1 Structure of DC Machines 20 -- 2.2.2 Principle of DC Machines 22 -- 2.2.3 Modeling of DC Machines 22 -- 2.3 DC-DC Converters 24 -- 2.3.1 DC-DC Converter Topologies 24 -- 2.3.2 Soft-Switching DC-DC Converter Topologies 27 -- 2.4 DC Motor Control 28 -- 2.4.1 Speed Control 29 -- 2.4.2 Regenerative Braking 31 -- 2.5 Design Criteria of DC Motor Drives for EVs 33 -- 2.6 Design Example for EVs 34 -- 2.7 Application Examples of DC Motor Drives in EVs 35 -- 2.8 Fading Technology for EVs? 38 -- References 38 -- 3 Induction Motor Drives 39 -- 3.1 System Configurations 39 -- 3.2 Induction Machines 40 -- 3.2.1 Structure of Induction Machines 41 -- 3.2.2 Principle of Induction Machines 42 -- 3.2.3 Modeling of Induction Machines 44 -- 3.3 Inverters for Induction Motors 46 -- 3.3.1 PWM Switching Inverters 47 -- 3.3.2 Soft-Switching Inverters 50 -- 3.4 Induction Motor Control 51 -- 3.4.1 Variable-Voltage Variable-Frequency Control 51 -- 3.4.2 Field-Oriented Control 53 -- 3.4.3 Direct Torque Control 57 -- 3.5 Design Criteria of Induction Motor Drives for EVs 61 -- 3.6 Design Example of Induction Motor Drives for EVs 64 -- 3.7 Application Examples of Induction Motor Drives in EVs 67 -- 3.8 Matured Technology for EVs? 67 -- References 68 -- 4 Permanent Magnet Brushless Motor Drives 69 -- 4.1 PM Materials 69 -- 4.2 System Configurations 70 -- 4.3 PM Brushless Machines 72


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    Titel :

    Electric vehicle machines and drives : design, analysis and application


    Beteiligte:

    Erscheinungsdatum :

    2015


    Format / Umfang :

    1 Online-Ressource (1 PDF (375 Seiten))


    Anmerkungen:

    Campusweiter Zugriff (Universität Hannover) - Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots.
    Includes bibliographical references and index
    Restricted to subscribers or individual electronic text purchasers




    Medientyp :

    Buch


    Format :

    Elektronische Ressource


    Sprache :

    Englisch



    Klassifikation :

    RVK:    ZO 4280 / ZO 4480 / ZO 4490
    BKL:    55.20 Straßenfahrzeugtechnik / 53.33 Elektrische Maschinen und Antriebe
    DDC:    629.25/02




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