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Techniques to minimize cogging torque in permanent magnet brushless machine / Ahmad Aizat Abd Rashid

Techniques to minimize cogging torque in permanent magnet brushless machine_Ahmad Aizat Abd Rashid_E3_2009_875004538_00003095359_NI

Abstract Mesin magnet kekal banyak digunakan di dalam aplikasi industri. Bagi aplikasi yang memerlukan kelajuan yang seragam atau pengawal kedudukan yang sangat tepat, “cogging torque” mestilah diambil perhatian untuk mencapai kendalian mesin yang lancar, gegaran mekanikal yang rendah dan bunyi bising yang rendah terutamanya bagi kelajuan yang rendah. Mengurangkan “cogging torque” merupakan tajuk utama dalam projek ini dan ia adalah satu unsur yang penting semasa mereka bentuk mesin magnet kekal. Dalam projek ini juga, ia mengandungi mereka bentuk dimensi motor daripada pengiraan, mengetahui ciri-ciri “cogging torque” dan menganalisis pelbagai kaedah mengurangkan “cogging torque” dengan mengambil contoh kepada “15 slot 10 pole”, “12 slot 10 pole”, “18 slot 6 pole” dan “36 slot 6 pole” motor tanpa berus. Terdapat banyak kaedah untuk mengurangkan “cogging torque” yang telah dikaji dan hanya empat kaedah yang digunakan dalam projek ini. Kempat-empat kaedah ini adalah yang paling popular dan selalu digunakan dalam industri iaitu kaedah condong, kaedah pengubahsuaian sudut magnet, pemdwibahagian pemegun dan bentuk magnet. Sebelum mengaplikasikan kaedah-kaedah ini terhadap mesin yang digunakan, semua kaedah telah dikaji untuk mendapatkan kadar “cogging torque” yang sangat rendah. Nilai “cogging torque” yang dihasilkan dianalisis menggunakan perisian Opera-2D. Di akhir laporan ini, keempat-empat kaedah akan dibandingkan antara satu sama lain dan dinilai dari segi kebaikan dan keburukan masing-masing. _________________________________________________________________________________________ Permanent magnet (PM) machines are widely used in many industrial applications. As for the application of constant speed or high-precision position control, the cogging torque must be taking into account to achieve smooth running, low mechanical vibration and low acoustic noise, especially at low speed. Minimizing the cogging torque is the main concerns in this project and is a great importance in the design of a PM machines. This project includes design of the motor dimension by calculation, study of cogging torque characteristics and analyzes various cogging torque minimization technique as applied to several PM machine which is 15 slots 10 pole, 12 slots 10 pole, 18 slots 6 pole and 36 slots 6 pole PMBL DC brushless motor. There are many techniques for minimizing cogging torque that had been published and this project only take four of the methods for consideration. This four method are the most popular that has been used in the industry which is skewing stator method, optimize pole arc method, bifurcated stator teeth and magnet shaping method. Before apply these methods in the design, the study on all the methods had been done to get optimal factor which can give the most minimum cogging torque. The resultant cogging torque values are computed using a two-dimensional finite element analysis package which is Opera-2D. At the end, these four method will be compared and evaluate for their advantages and disadvantages.

Contributor(s): Ahmad Aizat Abd Rashid - Author Primary Item Type: Final Year Project Identifiers: Accession Number : 875004538 Subject Keywords: cogging torque; permanent magnet; bifurcated stator teeth First presented to the public: 4/1/2009 Original Publication Date: 10/2/2018 Previously Published By: Universiti Sains Malaysia Place Of Publication: School of Electrical & Electronic Engineering Citation: Extents: Number of Pages - 102 License Grantor / Date Granted:   / ( View License ) Date Deposited 2018-10-02 15:46:15.444 Date Last Updated 2019-01-07 11:24:32.9118 Submitter: Nor Hayati Ismail

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