Description |
1 online resource (xiii, 356 pages) : illustrations. |
Series |
IET Energy engineering series ; 178
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IET energy engineering series ; 178.
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Bibliography |
Includes bibliographical references and index. |
Contents |
1 Introduction -- 1.1 Concept of integrated motor drives -- 1.2 Types of IMDs -- 1.2.1 Standard frame mounting -- 1.2.2 Endplate mounted integration -- 1.2.3 Mounting within the machine casing -- 1.3 Contents of the book -- References -- 2 Electrical machines for an integrated drive -- 2.1 Machine issues for integrated drives -- 2.2 Motor modularisation -- 2.2.1 Rationale for modular motor drives -- 2.2.2 Machine compatibility with modular stator windings -- 2.2.3 Manufacturing issues for modular motors with concentrated windings |
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2.2.4 Motor characteristics for fault-tolerant modular motor drives -- 2.2.5 Concluding remarks -- 2.3 Winding materials and wire types -- 2.4 Insulation -- 2.4.1 Resonant voltage overshoot at the motor terminals -- 2.4.2 Voltage distribution in the motor windings -- 2.4.3 Mitigation methods for waveforms with high dv/dt values -- 2.4.4 Motor coil insulation systems -- 2.5 Magnetic cores -- 2.5.1 Soft magnetic materials -- 2.5.2 Hard magnetic materials -- permanent magnets -- References -- 3 Power converter and control techniques -- 3.1 Overview of electric drives -- 3.2 Power converters |
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3.2.1 Power semiconductor switching devices -- 3.2.2 Converter topologies -- 3.2.3 Power converters integration in IMDs -- 3.3 Sensors -- 3.3.1 Current sensing technology -- 3.3.2 Rotational position and speed sensing technology -- 3.4 Control methods -- 3.4.1 Torque and speed control -- 3.4.2 Open loop voltage/frequency control -- 3.4.3 Dynamic torque control -- 3.4.4 Multiphase and modular machines -- 3.5 Control hardware -- 3.5.1 Control platforms -- 3.5.2 Peripherals -- 3.5.3 Prototyping systems -- 3.5.4 Distributed architectures and data networking |
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3.6 Thermal, environmental, and EMI constraints -- 3.7 Summary -- References -- 4 Wide bandgap semiconductor switching devices in integrated motor drives -- 4.1 Wide bandgap power semiconductor devices -- 4.1.1 WBG (SiC and GaN) material properties and benefits for integrated motor drive applications -- 4.1.2 Overview of WBG switch configurations for IMD applications -- 4.2 Application of WBG devices in integrated motor drives -- 4.2.1 Potential benefits of WBG devices for integrated motor drives -- 4.2.2 Challenges caused by WBG devices in VSI-based IMDs |
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4.2.3 Standard techniques for overcoming WBG switch challenges in VSI-based IMDs -- 4.2.4 Current and future applications of WBG technology in VSI-based IMDs -- 4.3 Unfolding opportunities for WBG devices in future IMDs -- 4.3.1 Introduction to CSIs as alternative to VSIs -- 4.3.2 Impact of WBG switch devices on renewed CSI interest -- 4.3.3 Advantages of CSIs over VSIs using WBG switches -- 4.3.4 Challenges posed by CSIs using WBG switches -- 4.3.5 Case history: 3 kW WBG-based CSI integrated motor drive [19] -- 4.3.6 CSI-IMD technology scalability -- 4.4 Closing comments -- References |
Summary |
Optimisation of electric drives for machines and EV requires considering the components as a whole. Integrated systems can be smaller, have greater flexibility, lower cost and higher power density. This book presents recent research and trends in integrated electrical motor drive technology. |
Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
Subject |
Electric motors -- Electronic control.
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Electric vehicles -- Motors.
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Electric motors -- Electronic control |
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Electric vehicles -- Motors |
Added Author |
Deng, Xu, ed.
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Mecrow, Barrie, ed.
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Other Form: |
Print version: 183953186X 9781839531866 (OCoLC)1356234922 |
ISBN |
9781839531873 (electronic bk.) |
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1839531878 (electronic bk.) |
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183953186X |
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9781839531866 |
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