Chukwuemeka C. Awah, Ogbonnaya I. Okoro, and Edward Chikuni
[1] D. Kim, H. Hwang, S. Bae, and C. Lee, Analysis and design ofdouble-stator flux-switching permanent magnet machine usingferrite magnet in hybrid electric vehicles, IEEE Transactionson Magnetics, 52(7), 2016, 8106604. [2] L. Chong, R. Dutta, M.F. Rahman, and H. Lovatt, Experi-mental verification of core and magnet losses in a concentratedwound IPM machine with V-shaped magnets used in fieldweakening applications, Proc. Int. Conf. Electric Machines &Drives (IEMDC), Niagara Falls, ON, 2011, 977–982. [3] C. Mi, G.R. Slemon, and R. Bonert, Modeling of iron lossesof permanent-magnet synchronous motors, IEEE Transactionson Industry Applications, 39(3), 2003, 734–742. [4] M. Ibrahim and P. Pillay, A hybrid model for improved hysteresis loss prediction in electrical machines, IEEE Transactionson Industry Applications, 50(4), 2014, 2503–2511. [5] D. Eggers, S. Steentjes, and K. Hameyer, Advanced iron-lossestimation for nonlinear material behavior, IEEE Transactionson Magnetics, 48(11), 2012, 2503–2511. [6] M. Ibrahim and P. Pillay, Core loss prediction in electricalmachine laminations considering skin effect and minor hystere-sis loops, IEEE Transactions on Industry Applications, 49(5),2013, 2061–2068. [7] S.J. Lee, S.I. Kim, and J.P. Hong, Investigation on coreloss according to stator shape in interior permanent magnetsynchronous motor, Proc. Int. Conf. Electrical Machines andSystems (ICEMS), Wuhan, 2008, 3158–3161. [8] T. Fukami, H. Aoki, K. Shima, M. Momiyama, and M. Kawamura, Assessment of core losses in a flux-modulating synchronous machine, IEEE Transactions Industry Applications,48(2), 2012, 603–611. [9] K. Yamazaki, M. Kumagai, T. Ikemi, and S. Ohki, “A novelrotor design of interior permanent magnet synchronous motorsto cope with both maximum torque and core loss reduction,IEEE Transactions on Industry Applications, 49(6), 2013,2472–2486. [10] A.S. Abdel-Khalik, S. Ahmed, and A.M. Massoud, Low spaceharmonics cancelation in double-layer fractional slot windingusing dual multiphase winding, IEEE Transactions on Magnetics, 51(5), 2015, 8104710. [11] S. Okamoto, N. Denis, Y. Kato, M. Ieki, and K. Fujisaki, Coreloss reduction of an interior permanent-magnet synchronousmotor using amorphous stator core, IEEE Transactions Industry Applications, 52(3), 2016, 2261–2268. [12] G. Choi and T.M. Jahns, Reduction of eddy-current lossesin fractional-slot concentrated-winding synchronous PM ma-chines, IEEE Transactions on Magnetics, 52(7), 2016, 8105904. [13] Y. Kawase, T. Yamaguchi, S. Sano, M. Igata, K. Ida, and A.Yamagiwa, 3-D eddy current analysis in a silicon steel sheet ofan interior permanent magnet motor, IEEE Transactions onMagnetics, 39(3), 2003, 1448–1451. [14] K. Yamazaki and Y. Fukushima, Effect of eddy-current lossreduction by magnet segmentation in synchronous motorswith concentrated windings, IEEE Transactions on IndustryApplications, 47(2), 2011, 779–788. [15] S.Y. Oh, S.Y. Cho, J.H. Han, et al., Design of IPMSMrotor shape for magnet eddy-current loss reduction, IEEETransactions on Magnetics, 50(2), 2014, 7020804. [16] M.M. Koo, J.Y. Choi, K. Hong, and K. Lee, Comparativeanalysis of eddy-current loss in permanent magnet synchronousmachine considering PM shape and skew effect using 3-D FEA,IEEE Transactions on Magnetics, 51(11), 2015, 6301104. [17] A.S. Nagorny, N.V. Dravid, R.H. Jansen, and B.H. Kenny,Design aspects of a high speed permanent magnet synchronousmotor/generator for flywheel applications, Proc. Int. Conf.Electric Machines & Drives (IEMDC), San Antonio, TX, 2005,635–641. [18] T. Ishikawa, Y. Sato, and N. Kurita, Performance of novelpermanent magnet synchronous machines made of soft magnetic composite core, IEEE Transactions on Magnetics, 50(11),2014, 8105304.
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