Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method

he permanent magnet skew is one of the techniques mostly used on the Permanent Magnet Linear Syn-chronous Motors (PMLSMs) to reduce the thrust ripple; even though there is a reduction in the amplitude of ripple and at the same time a significantly decrease of the motor’s thrust. This article propose...

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Autores:: González-Palomino, Gabriel
Rivas Conde, Javier
Laniado, Edwin

Tipo de recurso:: Article of journal

Fecha de publicación:: 2011

Institución:: Universidad Autónoma de Occidente

Repositorio:: RED: Repositorio Educativo Digital UAO

Idioma:: eng

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dc.title.eng.fl_str_mv	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
title	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
spellingShingle	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method Motores eléctricos sincrónicos Electric motors, Synchronous FEM-Statistical Regression Method Optimization PM Skew PMLSM Ripple Thrust
title_short	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
title_full	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
title_fullStr	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
title_full_unstemmed	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
title_sort	Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method
dc.creator.fl_str_mv	González-Palomino, Gabriel Rivas Conde, Javier Laniado, Edwin
dc.contributor.author.none.fl_str_mv	González-Palomino, Gabriel Rivas Conde, Javier Laniado, Edwin
dc.subject.armarc.spa.fl_str_mv	Motores eléctricos sincrónicos
topic	Motores eléctricos sincrónicos Electric motors, Synchronous FEM-Statistical Regression Method Optimization PM Skew PMLSM Ripple Thrust
dc.subject.armarc.eng.fl_str_mv	Electric motors, Synchronous
dc.subject.proposal.eng.fl_str_mv	FEM-Statistical Regression Method Optimization PM Skew PMLSM Ripple Thrust
description	he permanent magnet skew is one of the techniques mostly used on the Permanent Magnet Linear Syn-chronous Motors (PMLSMs) to reduce the thrust ripple; even though there is a reduction in the amplitude of ripple and at the same time a significantly decrease of the motor’s thrust. This article proposes a combined technique between the Finite Elements Method (FEM) and statistical regression, to obtain an objective func-tion that will allow the achievement of the optimal Permanent Magnet (PM) skew angle, so that there is a greater reduction of ripple with the minimum thrust diminishment
publishDate	2011
dc.date.issued.none.fl_str_mv	2011
dc.date.accessioned.none.fl_str_mv	2022-08-31T17:00:16Z
dc.date.available.none.fl_str_mv	2022-08-31T17:00:16Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.instname.spa.fl_str_mv	Universidad Autónoma de Occidente
dc.identifier.reponame.spa.fl_str_mv	Repositorio Educativo Digital
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identifier_str_mv	19473931 Universidad Autónoma de Occidente Repositorio Educativo Digital
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dc.language.iso.eng.fl_str_mv	eng
language	eng
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dc.relation.cites.eng.fl_str_mv	González Palomino, G., Rivas Conde, J., Laniado E. (2011). Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method. Engineering,(3), 577-582.
dc.relation.ispartofjournal.eng.fl_str_mv	Engineering
dc.relation.references.none.fl_str_mv	[1] M.S. Islam, S. Mir and T. Sebastian., “Issues in Reducing the Cogging Torque of Mass-Produced Permanent-Magnet Brushless DC Motor,” IEEE Transactions on Industry Applications, Vol. 40, No. 3, 2004, pp. 813-820. doi:10.1109/TIA.2004.827469 [2] M. Aydin, “Magnet Skew in Cogging Torque Minimization of Axial Gap Permanent Magnet Motors,” 18th International Conference on Electrical Machines (ICEM 2008), 2008, pp. 1-6. [3] I.-S. Jung, J. Hur and D.-S. Hyun, “Performance Analysis of Skewed PM Linear Synchronous Motor According to various Design Parameters,” IEEE Transactions on Magnetics, Vol. 37, No. 5, 2001, pp. 3653-3657. [4] M. Dai, A. Keyhani and T. Sebastian, “Torque Ripple Analysis of a Permanent Magnet Brushless DC Motor using Finite Element Method,” IEEE International Conference on Electric Machines and Drives (IEMDC 2001), Cambridge, 17-20 June 2001, pp. 241-245. [5] J. H. Choi, J. H. Kim, D. H. Kim and Y. S. Baek, “Design and Parametric Analysis of Axial Flux PM Motors with Minimized Cogging Torque,” IEEE Transactions on Magnetics, Vol. 45, No. 6, 2009, pp. 2855-2858. [6] R. Wrobel, “Design Considerations of a Direct Drive Brushless Machine with Concentrated Windings,” IEEE Transaction on Energy Conversion, Vol. 23, No. 1, 2008, pp. 1-8. doi:10.1109/TEC.2007.905073 [7] Y.-W. Zhu, D.-H. Koo and Y.-H. Cho, “Detent Force Minimization of Permanent Magnet Linear Synchronous Motor by Means of Two Different Methods,” IEEE Transactions on Magnetics, Vol. 44, No. 11, 2008, pp. 4345- 4348. doi:10.1109/TMAG.2008.2001320 [8] Y.-W. Zhu and Y.-H. Cho, “Thrust Ripples Suppression of Permanent Magnet Linear Synchronous Motor,” IEEE Transactions on Magnetics, Vol. 43, No. 6, 2007, pp. 2537-2539. doi:10.1109/TMAG.2007.893308 [9] W. Z. Fei and J. X. Shen, “Comparative Study and Optimal Design of PM Switching Flux Motors,” Proceedings of the 41st International Conference on Universities Power Engineering (UPEC’06), Newcastle-Upon-Tyne, 6-8 September 2006, pp. 695-699. [10] S. Huang, M. Aydin and T.A. Lipo, “Electromagnetic Vibration and Noise Assessment for Surface Mounted,” Power Engineering Society Summer Meeting, IEEE, Vancouver, Vol. 3, 2001, pp. 1417-1426. [11] M. Lukaniszyn, M. JagieLa and R. Wrobel, “Optimization of Permanent Magnet Shape for Minimum Cogging Torque Using a Genetic Algorithm,” IEEE Transactions on Magnetics, Vol. 40, No. 2, 2004, pp. 1228-1231. [12] S. R. Huang, M. Aydin and T. A. Lipo, “Torque Quality Assessment and Sizing Optimization for Surface Mounted Permanent Magnet Machines,” Industry Applications Conference, 2001, Thirty-Sixth IAS Annual Meeting, Conference Record of the 2001 IEEE, Chicago, 2001, pp. 1603-1610. [13] M. Aydin, S. Huang and T. A. Lipo, “Optimum Design and 3D Finite Element Analysis of Nonslotted and Slotted Internal Rotor Type Axial Flux PM Disc Machines,” Power Engineering Society Summer Meeting, 2001, IEEE, Vol. 3, 2001, pp. 1409-1416. [14] M.S. Islam, “Design Considerations of Sinusoidally Excited Permanent-Magnet Machines for Low-Torque-Ripple Applications,” IEEE Transactions on Industry Applications, Vol. 41, No. 4, 2005, pp. 955-962, doi:10.1109/TIA.2005.851026 [15] Ju Lee, Hyung-Woo Lee, Yon-Do Chun, Myoungho Sunwoo and Jung-Pyo Hong, “The Performance Prediction of Controlled-PM LSM in various Design Schemes by FEM,” IEEE Transactions on Magnetics, Vol. 36, No. 4, 2000, pp. 1902-1905,. doi:10.1109/20.877818 [16] G.G. Palomino and J.R. Conde, “Ripple Reduction in a PMLSM with Concentrated Winding Using 2-D Finite Element Simulation,” 4th IET Conference on Power Electronics, Machines and Drives (PEMD 2008), York, 2-4 April 2008, pp. 451-454. [17] G. G. Palomino and J. R. Conde, “Comparative results of thrust ripple in several topologies of PMLSM,” 4th IET Conference on Power Electronics, Machines and Drives PEMD (2008), York, 2-4 April 2008, pp. 135-138. [18] J. S. Arora, “Introduction to Optimum Design,” 2nd Edition, Elsevier Academic Press, Amsterdam, 2004, pp. 555-558
dc.rights.spa.fl_str_mv	Derechos reservados - Scientific Research, 2011
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spelling	González-Palomino, Gabriel538d3ef20c5b0ee10b3dcc58f105b307Rivas Conde, Javierfbaa62b04d650d073164be3af481ef07Laniado, Edwin43fc4614f58554e1fd19aa4fdcb714e6Universidad Autónoma de Occidente, Cll 25 # 115-85 Km 2 Vía Cali - Jamundi2022-08-31T17:00:16Z2022-08-31T17:00:16Z201119473931https://hdl.handle.net/10614/14250Universidad Autónoma de OccidenteRepositorio Educativo Digitalhttps://red.uao.edu.co/he permanent magnet skew is one of the techniques mostly used on the Permanent Magnet Linear Syn-chronous Motors (PMLSMs) to reduce the thrust ripple; even though there is a reduction in the amplitude of ripple and at the same time a significantly decrease of the motor’s thrust. This article proposes a combined technique between the Finite Elements Method (FEM) and statistical regression, to obtain an objective func-tion that will allow the achievement of the optimal Permanent Magnet (PM) skew angle, so that there is a greater reduction of ripple with the minimum thrust diminishment6 páginasapplication/pdfengScientific ResearchDerechos reservados - Scientific Research, 2011https://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical methodArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85Motores eléctricos sincrónicosElectric motors, SynchronousFEM-Statistical Regression MethodOptimizationPM SkewPMLSMRippleThrust5823577González Palomino, G., Rivas Conde, J., Laniado E. (2011). Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method. Engineering,(3), 577-582.Engineering[1] M.S. Islam, S. Mir and T. Sebastian., “Issues in Reducing the Cogging Torque of Mass-Produced Permanent-Magnet Brushless DC Motor,” IEEE Transactions on Industry Applications, Vol. 40, No. 3, 2004, pp. 813-820. doi:10.1109/TIA.2004.827469[2] M. Aydin, “Magnet Skew in Cogging Torque Minimization of Axial Gap Permanent Magnet Motors,” 18th International Conference on Electrical Machines (ICEM 2008), 2008, pp. 1-6.[3] I.-S. Jung, J. Hur and D.-S. Hyun, “Performance Analysis of Skewed PM Linear Synchronous Motor According to various Design Parameters,” IEEE Transactions on Magnetics, Vol. 37, No. 5, 2001, pp. 3653-3657.[4] M. Dai, A. Keyhani and T. Sebastian, “Torque Ripple Analysis of a Permanent Magnet Brushless DC Motor using Finite Element Method,” IEEE International Conference on Electric Machines and Drives (IEMDC 2001), Cambridge, 17-20 June 2001, pp. 241-245.[5] J. H. Choi, J. H. Kim, D. H. Kim and Y. S. Baek, “Design and Parametric Analysis of Axial Flux PM Motors with Minimized Cogging Torque,” IEEE Transactions on Magnetics, Vol. 45, No. 6, 2009, pp. 2855-2858.[6] R. Wrobel, “Design Considerations of a Direct Drive Brushless Machine with Concentrated Windings,” IEEE Transaction on Energy Conversion, Vol. 23, No. 1, 2008, pp. 1-8. doi:10.1109/TEC.2007.905073[7] Y.-W. Zhu, D.-H. Koo and Y.-H. Cho, “Detent Force Minimization of Permanent Magnet Linear Synchronous Motor by Means of Two Different Methods,” IEEE Transactions on Magnetics, Vol. 44, No. 11, 2008, pp. 4345- 4348. doi:10.1109/TMAG.2008.2001320[8] Y.-W. Zhu and Y.-H. Cho, “Thrust Ripples Suppression of Permanent Magnet Linear Synchronous Motor,” IEEE Transactions on Magnetics, Vol. 43, No. 6, 2007, pp. 2537-2539. doi:10.1109/TMAG.2007.893308[9] W. Z. Fei and J. X. Shen, “Comparative Study and Optimal Design of PM Switching Flux Motors,” Proceedings of the 41st International Conference on Universities Power Engineering (UPEC’06), Newcastle-Upon-Tyne, 6-8 September 2006, pp. 695-699.[10] S. Huang, M. Aydin and T.A. Lipo, “Electromagnetic Vibration and Noise Assessment for Surface Mounted,” Power Engineering Society Summer Meeting, IEEE, Vancouver, Vol. 3, 2001, pp. 1417-1426.[11] M. Lukaniszyn, M. JagieLa and R. Wrobel, “Optimization of Permanent Magnet Shape for Minimum Cogging Torque Using a Genetic Algorithm,” IEEE Transactions on Magnetics, Vol. 40, No. 2, 2004, pp. 1228-1231.[12] S. R. Huang, M. Aydin and T. A. Lipo, “Torque Quality Assessment and Sizing Optimization for Surface Mounted Permanent Magnet Machines,” Industry Applications Conference, 2001, Thirty-Sixth IAS Annual Meeting, Conference Record of the 2001 IEEE, Chicago, 2001, pp. 1603-1610.[13] M. Aydin, S. Huang and T. A. Lipo, “Optimum Design and 3D Finite Element Analysis of Nonslotted and Slotted Internal Rotor Type Axial Flux PM Disc Machines,” Power Engineering Society Summer Meeting, 2001, IEEE, Vol. 3, 2001, pp. 1409-1416.[14] M.S. Islam, “Design Considerations of Sinusoidally Excited Permanent-Magnet Machines for Low-Torque-Ripple Applications,” IEEE Transactions on Industry Applications, Vol. 41, No. 4, 2005, pp. 955-962, doi:10.1109/TIA.2005.851026[15] Ju Lee, Hyung-Woo Lee, Yon-Do Chun, Myoungho Sunwoo and Jung-Pyo Hong, “The Performance Prediction of Controlled-PM LSM in various Design Schemes by FEM,” IEEE Transactions on Magnetics, Vol. 36, No. 4, 2000, pp. 1902-1905,. doi:10.1109/20.877818[16] G.G. Palomino and J.R. Conde, “Ripple Reduction in a PMLSM with Concentrated Winding Using 2-D Finite Element Simulation,” 4th IET Conference on Power Electronics, Machines and Drives (PEMD 2008), York, 2-4 April 2008, pp. 451-454.[17] G. G. Palomino and J. R. Conde, “Comparative results of thrust ripple in several topologies of PMLSM,” 4th IET Conference on Power Electronics, Machines and Drives PEMD (2008), York, 2-4 April 2008, pp. 135-138.[18] J. S. Arora, “Introduction to Optimum Design,” 2nd Edition, Elsevier Academic Press, Amsterdam, 2004, pp. 555-558Comunidad universitaria en generalPublicationORIGINALOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdfOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdfTexto archivo completo del artículo de revista, PDFapplication/pdf377946https://dspace7-uao.metacatalogo.com/bitstreams/57a68e73-0616-4585-9406-832029211568/downloade1bb7409fe0438fc9bff209def0c7a3aMD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81665https://dspace7-uao.metacatalogo.com/bitstreams/e7b1ad74-a92d-4484-8f5f-21ec3a6e87af/download20b5ba22b1117f71589c7318baa2c560MD52TEXTOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdf.txtOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdf.txtExtracted texttext/plain17542https://dspace7-uao.metacatalogo.com/bitstreams/c1dcea35-d4e9-41a5-ac45-198d92f57f10/downloadf3dd2be980bcc5182f37b252a3371ac1MD53THUMBNAILOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdf.jpgOptimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method.pdf.jpgGenerated Thumbnailimage/jpeg5630https://dspace7-uao.metacatalogo.com/bitstreams/ee58bc98-f808-41b2-a7e1-fc9416c141c6/download898be3ed49d5a1b1c279d58c7dedb7b4MD5410614/14250oai:dspace7-uao.metacatalogo.com:10614/142502024-01-19 17:09:38.041https://creativecommons.org/licenses/by-nc-nd/4.0/Derechos reservados - Scientific Research, 2011open.accesshttps://dspace7-uao.metacatalogo.comRepositorio UAOrepositorio@uao.edu.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

Optimization of permanent magnet skew in permanent magnet linear synchronous motors using finite element and statistical method

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