Abstract
The Permanent Magnet Linear Synchronous Motor (PMLSM) is designed in this paper to solve the drawbacks of the previous designed PMLSM. The previous designed PMLSM has magnetic flux density, B saturation at lower rated current, I. Therefore, to overcome the saturation of the magnetic flux density, the stator of the PMLSM is designed. Apart from that, the design of the stator help to increase the ratio of thrust, F to cogging force, F cog. The design of PMLSM is completed in two stages where in the first stage the best model chosen is the model of t y2 = 3 mm. The thrust of the model has reduced by 14% from the previous designed PMLSM. The model designed and chosen in second stage is compared with the previous designed PMLSM in terms of it performance index. The designed PMLSM has improved in terms of motor constant square density, G compared to the previous designed PMLSM with the increment of 2%.
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References
Azhar, F., Wakiwaka, H., Tashiro, K., Nirei, M.: Design and performance index comparison of the permanent magnet linear motor. Prog. Electromagn. Res. M 43, 101–108 (2015)
Omura, M., Shimono, T., Fujimoto, Y.: Thrust characteristics improvement of a circular shaft motor for direct-drive applications. IEEE Trans. Ind. Appl. 51(5), 3647–3655 (2015)
Vărăticeanu, B.D., Minciunescu, P.A.: Modeling and analysis of dual-sided coreless linear synchronous motor. Rev. Roum. Sci. Tech.: Se. 60, 17–27 (2015)
Chen, Q., Liu, G., Zhao, W., Shao, M., Liu, Z.: Design and analysis of the new high-reliability motors with hybrid permanent magnet material. IEEE Trans. Magn. 50(12), 1–10 (2014)
Patel, A.N.: Influence of stator teeth shaping on cogging torque of radial flux permanent magnet brushless DC motor. In: 2016 Biennial International Conference on Power and Energy Systems: Towards Sustainable Energy (PESTSE), pp. 1–4 (2016)
Norhisam, M., Firdaus, R.N., Azhar, F., Mariun, N., Aris, I., Abdul, R.J.: The analysis on effect of thrust constant, spring constant, electrical time constant, mechanical time constant to oscillation displacement of slot-less linear oscillatory actuator. In: IEEE 2nd International Power and Energy Conference (PECON), pp. 1076–1081 (2008)
Wakiwaka, H., Ninomiya, T., Oda, J., Morimura, T., Yamada, H.: Evaluation of the thrust constant of a linear DC motor for a pen recorder. IEEE Transl. J. Magn. Japan 9(6), 104–109 (1994)
Mizuno, T., Kawai, M., Tsuchiya, F., Kosugi, M., Yamada, H.: An examination for increasing the motor constant of a cylindrical moving magnet-type linear actuator. IEEE Trans. Magn. 41(10), 3976–3978 (2005)
Acknowledgments
The authors would like to thank Ministry of Education & Universiti Teknikal Malaysia Melaka (UTeM) for providing PJP/2016/FKE/HI5/S01478.
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Mohd Nasir, N.A., Abdul Shukor, F.A., Raja Othman, R.N.F.K., Wakiwaka, H., Tashiro, K. (2017). Design of Permanent Magnet Linear Synchronous Motor Stator to Improve Magnetic Flux Density Profile Toward High Thrust Density Performance. In: Mohamed Ali, M., Wahid, H., Mohd Subha, N., Sahlan, S., Md. Yunus, M., Wahap, A. (eds) Modeling, Design and Simulation of Systems. AsiaSim 2017. Communications in Computer and Information Science, vol 751. Springer, Singapore. https://doi.org/10.1007/978-981-10-6463-0_38
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DOI: https://doi.org/10.1007/978-981-10-6463-0_38
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