Conferences related to Hysteresis motors

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2019 10th International Conference on Power Electronics and ECCE Asia (ICPE 2019 - ECCE Asia)

1. Power Electronic Devices (Si and Wide band-gap) and Applications, 2. Power electronic packaging and integration, 3. Modeling, Simulation and EMI, 4. Lighting Technologies and Applications, 5. Wireless Power Transfer, 6. Uncontrolled Rectifiers and AC/DC Converters, 7. AC/AC Converters, 8. DC/AC Inverters, 9. DC/DC Converters, 10. Multilevel Power Converters, 11. Electric Machines, Actuators and Sensors, 12. Motor Control and Drives, 13. Sensorless and Sensor-Reduction Control, 14. Renewable Energy and Distributed Generation Systems, 15. Smart/Micro Grid, 16. DC Distribution 17. Power Quality (or Power Electronics for Utility Interface), 18. Energy Storage and Management Systems, 19. Power Electronics for Transportation Electrification, 20. Reliability, diagnosis, prognosis and protection, 21. High Voltage DC Transmission, 22. Other Selected Topics in Power Electronics

  • 2015 IEEE 9th International Conference on Power Electronics and ECCE Asia (ICPE-ECCE Asia)

    Power electronics, renewable energy, electric vehicle, smart grid

  • 2014 International Power Electronics Conference (IPEC-Hiroshima 2014 ECCE-ASIA)

    The seventh International Power Electronics Conference, IPEC-Hiroshima 2014 -ECCE Asia-, will be held from May 18 to May 21, 2014 in Hiroshima, Japan. The conference venue will be the International Conference Center Hiroshima, which is located in Hiroshima Peace Memorial Park. Power electronics has been providing numerous new technologies in the fields of electric energy conversion and motor drive systems for more than 40 years. In recent years, global energy and environmental issues are becoming more serious and power electronics is expected to play a key role in solving such problems. The IPEC-Hiroshima 2014 -ECCE Asia- will provide a unique opportunity for researchers, engineers, and academics from all over the world to present and exchange the latest information on power electronics, motor drives, and related subjects.

  • 2011 IEEE 8th International Conference on Power Electronics & ECCE Asia (ICPE 2011- ECCE Asia)

    01. Power Semiconductor Devices and Packaging 02. Modeling, Simulation, EMI and Reliability 03. Electric Machines, Actuators and Sensors 04. Motor Control and Drives 05. Sensorless Control 06. Renewable Green Energy (Wind, Solar, Tidal Power Generation) 07. Micro Grid and Distributed Generation 08. Electric Propulsion System (EV, Train, Electric Ship) 09. Electric and Hybrid Vehicles 10. Power Supplies and EV Chargers 11. Power Electronics and Drives for Home Appliance 12. Power Elect

  • 2007 7th International Conference on Power Electronics (ICPE)

    - Power Semiconductor Devices - DC-DC Converters - Inverters and Inverter Control Techniques - Motor Drives - Rectifiers and AC-AC Converters - Renewable Energy - Power Quality and Utility Applications - Automotive Applications and Traction Drives - Energy Storage - Control Techniques Applied to Power Electronics - Modeling, Analysis, and Simulation - Consumer Applications - Other Power Applications


2018 15th International Workshop on Advanced Motion Control (AMC)

1. Advanced Motion Control2. Haptics, Robotics and Human-Machine Systems3. Micro/Nano Motion Control Systems4. Intelligent Motion Control Systems5. Nonlinear, Adaptive and Robust Control Systems6. Motion Systems for Robot Intelligence and Humanoid Robotics7. CPG based Feedback Control, Morphological Control8. Actuators and Sensors in Motion System9. Motion Control of Aerial/Ground/Underwater Robots10. Advanced Dynamics and Motion Control11. Motion Control for Assistive and Rehabilitative Robots and Systems12. Intelligent and Advanced Traffic Controls13. Computer Vision in Motion Control14. Network and Communication Technologies in Motion Control15. Motion Control of Soft Robots16. Automation Technologies in Primary Industries17. Other Topics and Applications Involving Motion Dynamics and Control


2018 53rd International Universities Power Engineering Conference (UPEC)

UPEC is a long-established international conference which provides a major forum for scientists, young researchers, PhD students and engineers worldwide to present, review and discuss the latest developments in Electrical Power Engineering and relevant technologies including energy storage and renewables

  • 2016 51st International Universities Power Engineering Conference (UPEC)

    UPEC is a long-established conference, which is very popular with young researchers, PhD students and engineers from the electrical power industry. The aim of the conference is to allow participants to exchange experiences and discuss the most up-to-date topics in Power Engineering. The global energy challenge, the ageing of electrical networks in industrial countries, and the extension of the grid systems in developing countries require significant research input in the area. UPEC is an ideal forum to address some of these issues, and to network and meet with talented engineers and innovators in these areas.

  • 2015 50th International Universities Power Engineering Conference (UPEC)

    The conference provides a major international focus for the presentation, discussion and exchange of information concerning new trends in Electrical Power Engineering. The conference is very popular with young researchers, PhD students and engineers from the electrical power industry. Given the major challenges now facing the electrical power industry, and the energy sector in general, this conference provides an ideal opportunity to address some of these challenges.

  • 2014 49th International Universities Power Engineering Conference (UPEC)

    Given the major challenges now facing the electrical power industry, and the energy sector in general, this conference provides an ideal opportunity to address some of these challenges. It also provides the opportunity to network and to meet the experts in these areas.

  • 2013 48th Universities' Power Engineering Conference (UPEC)

    The conference provides a major international focus for the presentation, discussion and exchange of information concerning new trends in Electrical Power Engineering. The conference is very popular with young researchers, PhD students and engineers from the electrical power industry. Given the major challenges now facing the electrical power industry, and the energy sector in general, this conference provides an ideal opportunity to address some of these challenges.

  • 2012 47th International Universities Power Engineering Conference (UPEC)

    A major international forum for the presentation, discussion and exchange of information concerning new trends in electrical power engineering. To become better informed about the latest developments in the field of power engineering.

  • 2010 45th International Universities Power Engineering Conference (UPEC)

    The global energy challenge, the ageing of electrical networks in industrial countries, and the extension of the grids in developing countries require significant research effort and the need for talented engineers and innovators is critical to the electrical energy industry. UPEC is an ideal forum to address such issues, and to network and meet experts in these areas

  • 2009 44th International Universities Power Engineering Conference (UPEC)

    UPEC has been long-established as a major annual international forum for the presentation, discussion and exchange of information concerning new trends in all areas of electric power engineering. Contributions from younger engineers and researchers are particularly encouraged at UPEC, where ideas can be aired freely and new relationships developed.

  • 2008 43rd International Universities Power Engineering Conference (UPEC)

    Its aim will be to provide a professional forum for engineers and research scientists from the universities, consultants, and in the manufacturing and supply industries opportunities to present their work and explore potential trends and recent developments, current practices in Power Engineering and related fields.

  • 2007 Universities Power Engineering Conference (UPEC)

  • 2006 International Universities Power Engineering Conference (UPEC)

  • 2004 International Universities Power Engineering Conference (UPEC)


2018 8th IEEE India International Conference on Power Electronics (IICPE)

Areas to be covered, but not limited to:Power Electronics and Energy ConversionElectrical Machines and DrivesRenewable Energy SystemsEnergy Storage and Battery ManagementTransportation Electrification and Vehicle SystemsSmart Grid TechnologiesControl System, Robotics, Mechatronics and AutomationElectronic Devices and Circuits

  • 2016 7th India International Conference on Power Electronics (IICPE)

    Areas to be covered are:1. Application of Power Electronics in Power Systems HVDC, Smart grids, FACTS, and micro-grids, Distributed generation, Power System Stability and Control, and Power System Blackouts. 2. Power Quality Issues Active and Passive Filters, UPQC, DVR, Multi-Level, High Power and recent Converters. 3. Renewable energy systems Wind, Solar, Tidal, wave, and small hydro and Hybrid Energy Systems, BESS, Fuel cells, super capacitors and other storage. 4. Power Electronics, Machine Control and Its Industrial Applications Converter/inverter topologies, AC/DC Drive Systems, Special machines, Motion control system, Design, Modeling, Condition monitoring. 5. Application of Power Electronics to Transportation Traction, Marine propulsion, Aerospace Starter/generator systems, and Electric/fuel cell/hybrid vehicles, Mechatronics. 6. Electronics Devices and Circuits Novel switching devices and switching techniques, SMPS, Soft switching and wave technology

  • 2014 IEEE 6th India International Conference on Power Electronics (IICPE)

    HVDC, Smart grids, FACTS, and micro-grids, Protection, Energy efficiency and demand side control, Distributed generation, Power System Stability and Control, and Power Electronics Applications in Blackouts. Active and Passive Filters, UPQC, DVR, High Power Factor Converters, Multi-Level Converters and Inverters. Wind power, Solar PV, Tidal, wave, and hydro power systems, Hybrid Energy Systems, BESS, Fuel cells, supercapacitors and other storage devices. Novel converter/inverter topologies, AC and DC Drive Systems, permanent-magnet and reluctance machines, Special machines, Motion control system, Design, Modeling, Condition monitoring, Integrated drives. Traction, Marine propulsion, Aerospace Starter/generator systems, and Electric/fuel cell/hybrid vehicles, Mechatronics. Novel switching devices and techniques for Power Electronics Applications, Switch-mode power supplies, EMC and Power quality, Advanced switching Techniques and soft switching, microwave and millimeter wave technology.

  • 2012 IEEE 5th India International Conference on Power Electronics (IICPE)

    The conference will provide an opportunity to the practicing engineers, academicians, and researchers to meet in a forum to discuss various issues in power electronics, drives and power system technology in general. In view of the changing scenario under restructured power system, the conference aims to put together the experts from these areas to disseminate their knowledge and experience for working towards smart grid and energy sustainability in the years to come.

  • 2010 IEEE India International Conference on Power Electronics (IICPE)

    The conference will provide an opportunity to the practicing engineers, academicians and researchers to meet in a forum to discuss various issues in power electronics, drives and power system technology in general. In view of the changing scenario under restructured power system, the conference aims to put together the experts from these areas to disseminate their knowledge and experience for working towards smart grid and energy sustainability in the years to come.

  • 2006 India International Conference on Power Electronics (IICPE 2006)

    The conference will cover the following major topics: power systems, consumer application & regulation, energy sources, power converters, semiconductor devices, control engineering, and power electronics in machine control.


2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC)

Promote and co-ordinate the exchange and the publication of technical, scientific and economic information in the field of Power Electronics and Motion Control with special focus on countries less involved in IEEE related activities. The main taget is to create a forum for industrial and academic community.

  • 2016 IEEE International Power Electronics and Motion Control Conference (PEMC)

    The IEEE Power Electronics and Motion Control (IEEE-PEMC) conference continues to be the oldest in Europe and is a direct continuation of the conferences held since 1970. Its main goal is to promote and co-ordinate the exchange and publication of technical, scientific and economic information on Power Electronics and Motion Control. One of its main objectives is the cooperation and integration between the long-time divided Western and Eastern Europe, this goal expressed in the conference logo, as well. The conference attracts now a large number (roughly 500+) of participants from the world. An exhibition is organised in parallel with every PEMC Conference, offering space for the industry to present their latest products for Power Electronics and Motion Control. In addition to the regular oral sessions, key notes, round tables, tutorials, workshops, seminars, exhibitions, the dialogue sessions (enlarged “poster” presentations) present to the speakers a better cooperation opportunity.

  • 2014 16th International Power Electronics and Motion Control Conference (PEMC)

    The purpose of the 16th International Power Electronics and Motion Control Conference and Exposition (PEMC) is to bring together researchers, engineers and practitioners from all over the world, interested in the advances of power systems, power electronics, energy, electrical drives and education. The PEMC seeks to promote and disseminate knowledge of the various topics and technologies of power engineering, energy and electrical drives. The PEMC aims to present the important results to the international community of power engineering, energy, electrical drives fields and education in the form of research, development, applications, design and technology. It is therefore aimed at assisting researchers, scientists, manufacturers, companies, communities, agencies, associations and societies to keep abreast of new developments in their specialist fields and to unite in finding power engineering issues.

  • 2012 EPE-ECCE Europe Congress

    Power Electronics and Motion Control.

  • 2010 14th International Power Electronics and Motion Control Conference (EPE/PEMC 2010)

    Semiconductor Devices and Packaging, Power Converters, Electrical Machines, Actuators, Motion Control, Robotics, Adjustable Speed Drives, Application and Design of Power Electronics circuits, Measurements, Sensors, Observing Techniques, Electromagnetic Compatibility, Power Electronics in Transportation, Mechatronics, Power Electronics in Electrical Energy Generation, Transmission and Distribution, Renewable Energy Sources, Active Filtering, Power Factor Correction

  • 2008 13th International Power Electronics and Motion Control Conference (EPE/PEMC 2008)

  • 2006 12th International Power Electronics and Motion Control Conference (EPE/PEMC 2006)


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Periodicals related to Hysteresis motors

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Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Electron Devices, IEEE Transactions on

Publishes original and significant contributions relating to the theory, design, performance and reliability of electron devices, including optoelectronics devices, nanoscale devices, solid-state devices, integrated electronic devices, energy sources, power devices, displays, sensors, electro-mechanical devices, quantum devices and electron tubes.


Energy Conversion, IEEE Transaction on

Research, development, design, application, construction, installation, and operation of electric power generating facilities (along with their conventional, nuclear, or renewable sources) for the safe, reliable, and economic generation of electrical energy for general industrial, commercial, public, and domestic consumption, and electromechanical energy conversion for the use of electrical energy


Engineering Management Review, IEEE

Reprints articles from other publications of significant interest to members. The papers are aimed at those engaged in managing research, development, or engineering activities. Reprints make it possible for the readers to receive the best of today's literature without having to subscribe to and read other periodicals.


Industrial Electronics, IEEE Transactions on

Theory and applications of industrial electronics and control instrumentation science and engineering, including microprocessor control systems, high-power controls, process control, programmable controllers, numerical and program control systems, flow meters, and identification systems.


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Most published Xplore authors for Hysteresis motors

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Xplore Articles related to Hysteresis motors

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The Use of Small Voltage Vectors of Matrix Converters in Direct Torque Control of Induction Machines

Carlos Ortega; Antoni Arias; Josep Ballcells; Cedric Caruana; Cyril Spiteri; Joseph Cilia 2006 12th International Power Electronics and Motion Control Conference, 2006

The effects on torque performance when using small voltage vectors of Matrix Converters is investigated in this paper. These vectors are used in order to reduce the electromagnetic torque ripple which appears when Direct Torque Control technique is used in Induction Motors. Direct Torque Control for Induction Motors using Matrix Converters is reviewed and it is pointed out the problem ...


Impact of smooth torque control on the efficiency of a high-speed automotive SRM drive

Iliya Ralev; Fang Qi; Bernhard Burkhart; Annegret Klein-Hessling; Rik W. De Doncker 2016 IEEE International Power Electronics and Motion Control Conference (PEMC), 2016

Switched reluctance motors are an alternative to conventional rotating field machines due to their robust mechanical design and low-cost production. In automotive drives the application of a dedicated algorithm for torque ripple reduction is indispensable as otherwise mechanical resonances in the drive train are excited. In this paper an automotive-sized high-speed SRM drive is investigated for two different control schemes ...


Characterization of Flux Rotation and of the Ensuing Core Losses in the Stator of Induction Motors

GuzmÁn DÍaz; Cristina GonzÁlez-MorÁn; Pablo Arboleya; Javier GÓmez-Aleixandre IEEE Transactions on Energy Conversion, 2008

A literature survey reveals that the study of rotational power losses in stator cores has been conventionally performed by means of finite-element analysis. This paper proposes an alternative characterization of rotational power losses in the tooth roots - a region that has been long known as a seat of flux rotation - relating some geometric dimensions to the values of ...


Applications of bulk high-temperature Superconductors

J. R. Hull; M. Murakami Proceedings of the IEEE, 2004

Bulk high-temperature superconductors (HTSs) enable the opportunity to develop several unique applications in electrical power that are not feasible with superconducting or normal wires. The large current carrying capacity and low thermal conductivity of the HTSs allows relatively short lengths to carry large currents to low-temperature devices without introducing heat to the device. Such current leads can dramatically reduce the ...


Speed and load torque estimation of SPMSM based on Kalman filter

Hui Wang; Yunkuan Wang; Xinbo Wang 2015 IEEE International Conference on Mechatronics and Automation (ICMA), 2015

This paper presents a kalman filter algorithm for speed estimation of surface permanent magnet synchronous motor (SPMSM) with load torque estimation at the same time based on the mechanical kinemic equations of the motor. Unlike sensorless control, this approach is an optimal information fusion of the optical encoder speed measurement and kinemic model based speed estimation on sense of minimum ...


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Educational Resources on Hysteresis motors

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eLearning

The Use of Small Voltage Vectors of Matrix Converters in Direct Torque Control of Induction Machines

Carlos Ortega; Antoni Arias; Josep Ballcells; Cedric Caruana; Cyril Spiteri; Joseph Cilia 2006 12th International Power Electronics and Motion Control Conference, 2006

The effects on torque performance when using small voltage vectors of Matrix Converters is investigated in this paper. These vectors are used in order to reduce the electromagnetic torque ripple which appears when Direct Torque Control technique is used in Induction Motors. Direct Torque Control for Induction Motors using Matrix Converters is reviewed and it is pointed out the problem ...


Impact of smooth torque control on the efficiency of a high-speed automotive SRM drive

Iliya Ralev; Fang Qi; Bernhard Burkhart; Annegret Klein-Hessling; Rik W. De Doncker 2016 IEEE International Power Electronics and Motion Control Conference (PEMC), 2016

Switched reluctance motors are an alternative to conventional rotating field machines due to their robust mechanical design and low-cost production. In automotive drives the application of a dedicated algorithm for torque ripple reduction is indispensable as otherwise mechanical resonances in the drive train are excited. In this paper an automotive-sized high-speed SRM drive is investigated for two different control schemes ...


Characterization of Flux Rotation and of the Ensuing Core Losses in the Stator of Induction Motors

GuzmÁn DÍaz; Cristina GonzÁlez-MorÁn; Pablo Arboleya; Javier GÓmez-Aleixandre IEEE Transactions on Energy Conversion, 2008

A literature survey reveals that the study of rotational power losses in stator cores has been conventionally performed by means of finite-element analysis. This paper proposes an alternative characterization of rotational power losses in the tooth roots - a region that has been long known as a seat of flux rotation - relating some geometric dimensions to the values of ...


Applications of bulk high-temperature Superconductors

J. R. Hull; M. Murakami Proceedings of the IEEE, 2004

Bulk high-temperature superconductors (HTSs) enable the opportunity to develop several unique applications in electrical power that are not feasible with superconducting or normal wires. The large current carrying capacity and low thermal conductivity of the HTSs allows relatively short lengths to carry large currents to low-temperature devices without introducing heat to the device. Such current leads can dramatically reduce the ...


Speed and load torque estimation of SPMSM based on Kalman filter

Hui Wang; Yunkuan Wang; Xinbo Wang 2015 IEEE International Conference on Mechatronics and Automation (ICMA), 2015

This paper presents a kalman filter algorithm for speed estimation of surface permanent magnet synchronous motor (SPMSM) with load torque estimation at the same time based on the mechanical kinemic equations of the motor. Unlike sensorless control, this approach is an optimal information fusion of the optical encoder speed measurement and kinemic model based speed estimation on sense of minimum ...


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IEEE-USA E-Books

  • Appendix C: Definitions

    Electrical Engineering Magnetic Hysteresis Understanding magnetic hysteresis is vitally important to the development of the science of magnetism as a whole and to the advancement of practical magnetic device applications. Magnetic Hysteresis, by acclaimed expert Edward Della Torre, presents a clear explanation of the connection between physical principles and phenomenological hysteresis. This comprehensive book offers a lucid analysis that enables the reader to save valuable time by reducing trial-and-error design. Dr. Della Torre uses physical principles to modify Preisach modeling and to describe the complex behavior of magnetic media. While Pretsach modeling is a useful mathematical tool, its congruency and deletion properties present limitations to accurate descriptions of magnetic materials. Step-by-step, this book describes the modifications that can overcome these limitations. Special attention is given to the use of feedback around a Preisach transducer to remove the congruenc restriction, and to the use of accommodation and aftereffect models to remove the deletion restriction. Magnetic state selection rules are introduced to couple scalar Preisach models to form a vector model. Magnetic Hysteresis is indispensable reading for engineers, physicists, and materials scientists who want to gain a better understanding of hysteresis losses and create more energy-efficient motor designs.

  • Control Strategies for Power Converters

    This chapter deals with the control actions needed to keep a specific variable of the converter under control, for instance, in a motor drive system where the speed must be controlled electronically through a power converter, or in a circuit designed to correct the power factor actively. It presents some principles of the controllers for systems using power converters as actuators. The chapter also deals with a nonlinear control technique called hysteresis control, and highlights some advantages and disadvantages of this technique. It considers two applications: dc motor drive system and regulation of an ac variable. The classic linear controllers (P, PI, and PID) are presented for dc variables. The chapter presents a linear type of controller for ac variables. A more complex control technique is presented with a cascade strategy for systems dealing with control of two variables with different dynamic responses.

  • Calculation of Induction Machine Losses

    The computation of losses is the most difficult and challenging aspect of machine design. The power losses in an induction motor can be relegated to five elements. Stator conductor loss, rotor conductor loss, iron loss, stray‐load loss, friction and windage loss. The increase of rotor resistance has a beneficial effect in aiding starting capability of squirrel‐cage induction machines and nearly all conventional machine designs enhance motor starting capability by specially selected rotor bar shapes. The calculation of iron losses associated with the rotor teeth are again found by adding up the losses in each rotor tooth, properly weighting the terms by the sine of the location of the tooth with respect to a pole pitch. The windage losses are produced by rotation and depend upon the peripheral speed of the rotor, the rotor diameter, the core length and generally upon the construction of the machine.

  • Index

    Electrical Engineering Magnetic Hysteresis Understanding magnetic hysteresis is vitally important to the development of the science of magnetism as a whole and to the advancement of practical magnetic device applications. Magnetic Hysteresis, by acclaimed expert Edward Della Torre, presents a clear explanation of the connection between physical principles and phenomenological hysteresis. This comprehensive book offers a lucid analysis that enables the reader to save valuable time by reducing trial-and-error design. Dr. Della Torre uses physical principles to modify Preisach modeling and to describe the complex behavior of magnetic media. While Pretsach modeling is a useful mathematical tool, its congruency and deletion properties present limitations to accurate descriptions of magnetic materials. Step-by-step, this book describes the modifications that can overcome these limitations. Special attention is given to the use of feedback around a Preisach transducer to remove the congruenc restriction, and to the use of accommodation and aftereffect models to remove the deletion restriction. Magnetic state selection rules are introduced to couple scalar Preisach models to form a vector model. Magnetic Hysteresis is indispensable reading for engineers, physicists, and materials scientists who want to gain a better understanding of hysteresis losses and create more energy-efficient motor designs.

  • Principles of Electromagnetism and Electromechanical Energy Conversion

    This chapter contains sections titled: * Introduction * Magnetic-Field Laws * Permeability and Magnetic-Field Intensity * Magnetic Circuits * Flux Linkages, Induced Voltages, Inductance, and Energy * Hysteresis Loop * Eddy-Current and Core Losses * Energy Flow Approach * Field Energy * Multiply Excited Systems * Reluctance Motors * Doubly Excited Systems * Salient-Pole Machines * Round or Smooth Air-Gap Machines * Machine-Type Classification * _P_-Pole Machines This chapter contains sections titled: * Problems

  • Permanent Magnet Machines

    This chapter aims to relate the operational requirements of permanent magnet (PM) motors to their dimensions, shapes, and material properties. It describes how the physical dimensions and parameters are influenced by PM excitation. The chapter summarizes the major parameters of the motor circuit model. It shows the conventional steady‐state equivalent circuit for a PM motor. In this representation, the MMF produced by the magnet is represented as a current source If. The surface‐magnet machine is only one of a wide variety of magnet configurations used for PM machines. Structurally, this construction can provide a more secure magnet setting. The motor can also produce somewhat more maximum torque and its overspeed range is larger due to its saliency. The largest family of PM machine involves those with buried magnets. The chapter shows some of the possibilities. It discusses several typical examples of these machines to illustrate the issues involved.

  • About the Author

    Electrical Engineering Magnetic Hysteresis Understanding magnetic hysteresis is vitally important to the development of the science of magnetism as a whole and to the advancement of practical magnetic device applications. Magnetic Hysteresis, by acclaimed expert Edward Della Torre, presents a clear explanation of the connection between physical principles and phenomenological hysteresis. This comprehensive book offers a lucid analysis that enables the reader to save valuable time by reducing trial-and-error design. Dr. Della Torre uses physical principles to modify Preisach modeling and to describe the complex behavior of magnetic media. While Pretsach modeling is a useful mathematical tool, its congruency and deletion properties present limitations to accurate descriptions of magnetic materials. Step-by-step, this book describes the modifications that can overcome these limitations. Special attention is given to the use of feedback around a Preisach transducer to remove the congruenc restriction, and to the use of accommodation and aftereffect models to remove the deletion restriction. Magnetic state selection rules are introduced to couple scalar Preisach models to form a vector model. Magnetic Hysteresis is indispensable reading for engineers, physicists, and materials scientists who want to gain a better understanding of hysteresis losses and create more energy-efficient motor designs.



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