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Advanced theory of fractional-slot c...

Farshadnia, Mohammad.

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Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines

Record Type:	Electronic resources : Monograph/item
Title/Author:	Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines/ by Mohammad Farshadnia.
Author:	Farshadnia, Mohammad.
Published:	Singapore :Springer Singapore : : 2018.,
Description:	xxi, 251 p. :ill., digital ;24 cm.
[NT 15003449]:	Introduction and Literature Review -- Analytical Modelling of Stator Magnetic Characteristics in Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Design of Optimal Winding Layouts for Multiphase Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Analytical Modelling of Rotor Magnetic Characteristics in an Interior Permanent Magnet Rotor -- Calculation of Airgap Function and Inductance in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines -- Detailed Analytical Modelling of Electromagnetic Torque in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines under Healthy and Open-Phase Fault Conditions -- An Extended dq Model for Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines Considering Non-Ideal Machine Parameters -- Conclusions and Future Works.
Contained By:	Springer eBooks
Subject:	Electromagnetism. -
Online resource:	http://dx.doi.org/10.1007/978-981-10-8708-0
ISBN:	9789811087080

Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines
Farshadnia, Mohammad.

Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines[electronic resource] /by Mohammad Farshadnia. - Singapore :Springer Singapore :2018. - xxi, 251 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction and Literature Review -- Analytical Modelling of Stator Magnetic Characteristics in Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Design of Optimal Winding Layouts for Multiphase Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Analytical Modelling of Rotor Magnetic Characteristics in an Interior Permanent Magnet Rotor -- Calculation of Airgap Function and Inductance in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines -- Detailed Analytical Modelling of Electromagnetic Torque in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines under Healthy and Open-Phase Fault Conditions -- An Extended dq Model for Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines Considering Non-Ideal Machine Parameters -- Conclusions and Future Works.

This book focuses on the analytical modeling of fractional-slot concentrated-wound (FSCW) interior permanent magnet (IPM) machines and establishes a basis for their magnetic and electrical analysis. Aiming at the precise modeling of FSCW IPM machines' magnetic and electrical characteristics, it presents a comprehensive mathematical treatment of the stator magneto-motive force (MMF), the IPM rotor non-homogeneous magnetic saturation, and its airgap flux density. The FSCW stator spatial MMF harmonics are analytically formulated, providing a basis on which a novel heuristic algorithm is then proposed for the design of optimal winding layouts for multiphase FSCW stators with different slot/pole combinations. In turn, the proposed mathematical models for the FSCW stator and the IPM rotor are combined to derive detailed mathematical expressions of its operational inductances, electromagnetic torque, torque ripple and their respective subcomponents, as a function of the machine geometry and design parameters. Lastly, the proposed theories and analytical models are validated using finite element analysis and experimental tests on a prototype FSCW IPM machine.

ISBN: 9789811087080

Standard No.: 10.1007/978-981-10-8708-0doiSubjects--Topical Terms:

522050
Electromagnetism.

LC Class. No.: TK4058 / .F377 2018

Dewey Class. No.: 621.3

Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines
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245 1 0 $a Advanced theory of fractional-slot concentrated-wound permanent magnet synchronous machines $h [electronic resource] / $c by Mohammad Farshadnia.
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300 $a xxi, 251 p. : $b ill., digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5053
505 0 $a Introduction and Literature Review -- Analytical Modelling of Stator Magnetic Characteristics in Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Design of Optimal Winding Layouts for Multiphase Fractional-Slot Concentrated-Wound Permanent Magnet Machines -- Analytical Modelling of Rotor Magnetic Characteristics in an Interior Permanent Magnet Rotor -- Calculation of Airgap Function and Inductance in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines -- Detailed Analytical Modelling of Electromagnetic Torque in Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines under Healthy and Open-Phase Fault Conditions -- An Extended dq Model for Fractional-Slot Concentrated-Wound Interior Permanent Magnet Machines Considering Non-Ideal Machine Parameters -- Conclusions and Future Works.
520 $a This book focuses on the analytical modeling of fractional-slot concentrated-wound (FSCW) interior permanent magnet (IPM) machines and establishes a basis for their magnetic and electrical analysis. Aiming at the precise modeling of FSCW IPM machines' magnetic and electrical characteristics, it presents a comprehensive mathematical treatment of the stator magneto-motive force (MMF), the IPM rotor non-homogeneous magnetic saturation, and its airgap flux density. The FSCW stator spatial MMF harmonics are analytically formulated, providing a basis on which a novel heuristic algorithm is then proposed for the design of optimal winding layouts for multiphase FSCW stators with different slot/pole combinations. In turn, the proposed mathematical models for the FSCW stator and the IPM rotor are combined to derive detailed mathematical expressions of its operational inductances, electromagnetic torque, torque ripple and their respective subcomponents, as a function of the machine geometry and design parameters. Lastly, the proposed theories and analytical models are validated using finite element analysis and experimental tests on a prototype FSCW IPM machine.
650 0 $a Electromagnetism. $3 522050
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