Research Article
Year 2017,
Volume: 4 Issue: 3, 374 - 381, 30.09.2017
Abstract
Eksenel akılı motorlar, geleneksel motorlara göre birçok avantaja
sahiptir. Avantajları olmasına rağmen, eksenel akılı motorlar yaygın olarak
kullanılmamaktadır. Eksenel akılı motorların radyal akılı motorlara göre daha
az kullanılmasının en önemli nedeni fabrikasyon zorluklarıdır. Bu makalede,
daha önce literatürde az sayıda çalışmaya konu olan seri üretim süreci [5,9,10]
ve seri üretimi yapılan eksenel akılı oluklu motorun stator geometri bozukluğu
ile bunun neden olduğu moment ve vuruntu momenti etkisi incelenmiştir. Matlab
programı yardımıyla gerçekleştirilen çözümler gösterilmiştir.
Keywords
“Eksenel akılı motorlar” “seri üretim makinesi algoritması” “eksenel akılı stator” “oluk açıklıkları”
References
- 1. Daldaban F. and Çetin E., Prototyping of axial flux permanent magnet motors, 3rd International Symposium on Innovative Technologies in Engineering and Science, ISITES, pp.A13, Valencia, SPAIN, 2015 2. Koechli C. and Perriard Y., Analytical model for slotless permanent magnet axial flux motors, IEEE International Electric Machines Drives Conference (IEMDC), pp. 788-792, May 2013. 3. Zou J. ,Hu J., Liang W., Quantitatively evaluation on the cogging torque of permanent magnet motor caused by stator and rotor defect, in The Fifth International Conference on Power Electronics and Drive Systems, PEDS, Vol. 1, pp. 682-685, 2003. 4. Kinnunen J., Direct-on-line axial flux permanent magnet synchronous generator static and dynamic performance, Phd. Thesis, Laaprenta Lappeenranta University of Technology, 2007. 5. Brown, T., Heins G., Hobbs S., Thiele M., Davey J., Cogging torque prediction for mass-produced axial flux PMSM stators, Electric Machines & Drives Conference (IEMDC), IEEE International, pp. 206 – 211, 2011. 6. Gieras J. F., Kamper M. J., and Wang R.J., Axial Flux Permanent Magnet Brushless Machines. Springer, Dordrecht, NL: Kluwer,2005. 7. Aydin M., Zhu Z. Q., Lipo T. A., Howe D., Minimization of cogging torque in axial-flux permanent-magnet machines: design concepts, IEEE Transactions on magnetics, (Vol. 43, no. 9), pp.3614 - 3622, September 2007. 8. Zhu Z. Q. and Howe D., Influence of design parameters on cogging torque in permanent magnet machines, IEEE Trans. Energy Conversion, vol. 15, no. 4, pp. 407–412, Dec. 2000. 9. Islam M., Mir S., and Sebastian T., Issues in reducing the cogging torque of mass-produced permanent magnet brushless dc motor, Records of the 38th IEEE Ind. App. Amu. Meeting, October 1.2-16 Salt Lake City, 2003. 10. Gasparin L., Cernigoj A., Markic S. and Fiser R., Additional cogging torque components in permanent-magnet motors due to manufacturing imperfections, IEEE Trans. Magnetics, vol. 45 , no. 3 pp.1210 -1213, 2009. 11. Cetin E., Daldaban F., Reducing Stator slot opening geometry fault in mass production of axial flux PM motors, ENTECH 2016, İstanbul, TÜRKIYE, 15-16 Aralık 2016, pp.36-41.
Year 2017,
Volume: 4 Issue: 3, 374 - 381, 30.09.2017
Abstract
References
- 1. Daldaban F. and Çetin E., Prototyping of axial flux permanent magnet motors, 3rd International Symposium on Innovative Technologies in Engineering and Science, ISITES, pp.A13, Valencia, SPAIN, 2015 2. Koechli C. and Perriard Y., Analytical model for slotless permanent magnet axial flux motors, IEEE International Electric Machines Drives Conference (IEMDC), pp. 788-792, May 2013. 3. Zou J. ,Hu J., Liang W., Quantitatively evaluation on the cogging torque of permanent magnet motor caused by stator and rotor defect, in The Fifth International Conference on Power Electronics and Drive Systems, PEDS, Vol. 1, pp. 682-685, 2003. 4. Kinnunen J., Direct-on-line axial flux permanent magnet synchronous generator static and dynamic performance, Phd. Thesis, Laaprenta Lappeenranta University of Technology, 2007. 5. Brown, T., Heins G., Hobbs S., Thiele M., Davey J., Cogging torque prediction for mass-produced axial flux PMSM stators, Electric Machines & Drives Conference (IEMDC), IEEE International, pp. 206 – 211, 2011. 6. Gieras J. F., Kamper M. J., and Wang R.J., Axial Flux Permanent Magnet Brushless Machines. Springer, Dordrecht, NL: Kluwer,2005. 7. Aydin M., Zhu Z. Q., Lipo T. A., Howe D., Minimization of cogging torque in axial-flux permanent-magnet machines: design concepts, IEEE Transactions on magnetics, (Vol. 43, no. 9), pp.3614 - 3622, September 2007. 8. Zhu Z. Q. and Howe D., Influence of design parameters on cogging torque in permanent magnet machines, IEEE Trans. Energy Conversion, vol. 15, no. 4, pp. 407–412, Dec. 2000. 9. Islam M., Mir S., and Sebastian T., Issues in reducing the cogging torque of mass-produced permanent magnet brushless dc motor, Records of the 38th IEEE Ind. App. Amu. Meeting, October 1.2-16 Salt Lake City, 2003. 10. Gasparin L., Cernigoj A., Markic S. and Fiser R., Additional cogging torque components in permanent-magnet motors due to manufacturing imperfections, IEEE Trans. Magnetics, vol. 45 , no. 3 pp.1210 -1213, 2009. 11. Cetin E., Daldaban F., Reducing Stator slot opening geometry fault in mass production of axial flux PM motors, ENTECH 2016, İstanbul, TÜRKIYE, 15-16 Aralık 2016, pp.36-41.
There are 1 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Makaleler |
| Authors | |
| Publication Date | September 30, 2017 |
| Submission Date | May 3, 2017 |
| Acceptance Date | September 18, 2017 |
| Published in Issue | Year 2017 Volume: 4 Issue: 3 |
Cited By
The Effects of Magnetic Circuit Geometry and Material Properties on Surface Mounted Permanent Magnet Synchronous Generator Performance
Balkan Journal of Electrical and Computer Engineering
Tuğberk ÖZMEN
https://doi.org/10.17694/bajece.817766
Endüstriyel Uygulamalarda Kullanılan Minyatür Fırçasız DA Motorların Tasarım Parametrelerinin Motor Performansına Etkisinin İncelenmesi
El-Cezeri Fen ve Mühendislik Dergisi
Selin Efe Kayabaşı
https://doi.org/10.31202/ecjse.474067
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