You are here

Home » Content

Destekli Akım Alan Sargılı 18-12 Çıkık Kutup Yapıslı Fırçasız dc Motor: Tasarım Manyetik Alan Üzerine Tasarım Optimizasyonu ve Nğmerik Analiz

18-12 Salient-Pole Structure Brushless dc Motor with an Assisted dc Field Coil: Design Optimization and Numerical Analysis on the Magnetic Field

Journal Name:

  • Cumhuriyet Üniversitesi Fen Fakültesi Fen Bilimleri Dergisi

Publication Year:

  • 2015
DOI: 
http://dx.doi.org/10.17776/csj.43457

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
This paper presents the design optimization and accurate electromagnetic field analysis of an 18-12 there phase Brushless dc motor (BLDCM) by using a three-dimensional Finite-Element analysis. Proposed motor will provide a wide range of air-gap flux control by a dc assisted field winding which is replaced with the permanent magnet in the rotor structure. In proposed BLDCM a simple dc current control is used and no brushes or slip rings are required to perform this control. To achieve the required performance within a specified space envelope, the physical dimensions of the proposed configuration were optimized; subject to maximize the average output power. Proposed 18-12 BLDCM configuration has been compared with a 9-6 BLDCM configuration. To evaluate the motor performance, the numerical techniques have been utilized. In the numerical part, 3-D Finite Element (FE) analysis has been carried out using a MagNet CAD package (Infolytica Corporation Ltd.) for two type of BLDCM to confirm the accuracy and the efficacy of the proposed design procedure. The analysis results demonstrate the effectiveness of the proposed machine design methodology.
Bookmark/Search this post with
Abstract (Original Language): 
Bu çalışma 3 boyutlu sonlu element analizi kullanarak bir 18-12 aşamasındaki Brushless dc motorun (BLDCM) dizayn optimizasyonu ve tam elektromanyetik alan analizini sunmaktadır. Sunulan motor rotor yapısında kalıcı mıknatıs ile değiştirilen dc ile desteklenen alan sargısı tarafından kontrol edilen geniş çaplı bir hava boşluğu akışı sağlayacaktır. Sunulan basit bir dc akım kontrolü BLDCM kullanılmıştır ve bu kontrolü sunmak için hiçbir fırça veya slip halkaya ihtiyaç duyulmamıştır. İstenilen performansa belirli bir kapalı alanda ulaşmak için sunulan düzenlemenin fiziksel boyutları ortalama güç üretimini maksimize yapacak şekilde optimize edilmiştir. Sunulan 18-12 BLDCM konfigürasyonu bir 9-6 konfigürasyonu ile karşılaştırılmıştır. Motor performansını hesaplamak için sayısal tekniklerden yararlanılmıştır. Sayısal bölümde, 3-D sonlu eleman (FE) analizi iki tip BLDCM için sunulan dizayn işleminin doğruluğunu ve verimliğini onaylamak amacıyla bir manyetik CAD paketi (Infolytica Corporation Ltd.) kullanılarak yapılmıştır. Analiz sonuçları sunulan makine dizayn metodolojisinin verimliliğini kanıtlamaktadır.
FULL TEXT (PDF): 
PDF icon 5000130805-5000329315-1-pb.pdf
  • 7
115
135
  • Turkish

REFERENCES

References: 

[1] Changliang Xia, Zhiqiang Li, And Tingna Shi. 2009. “A CONTROL STRATEGY FOR FOUR-SWITCH THREE-PHASE BRUSHLESS DC MOTOR USING SINGLE CURRENT SENSOR”. IEEE Trans. Indust. Electron. Vol. 56, No. 6.
[2] Seok-Myeong Jang, Han-Wook Cho, And Sang-Kyu Choi. 2007. “DESIGN AND ANALYSIS OF A HIGH-SPEED BRUSHLESS DC MOTOR FOR CENTRIFUGAL COMPRESSOR”. IEEE Trans. Magnet. Vol. 43, No. 6.
[3] E. Afjei, H. Toliyat, and H. Moradi. 2006. “A NOVEL HYBRID BRUSHLESS DC MOTOR/GENERATOR FOR HYBRID VEHICLES APPLICATIONS”. IEEE PEDES. New Dehli.
[4] Jang, S.-M., H.-W. Cho, and S.-K. Choi. 2007. “DESIGN AND ANALYSIS OF A HIGH-SPEED BRUSHLESS DC MOTOR FOR CENTRIFUGAL COMPRESSOR”. IEEE Trans. Magnet. Vol. 43, No. 6, 2573-2575.
[5] Taeyong Yoon. 2003. “STATOR DESIGN CONSIDERATION OF A BRUSHLESS DC MOTOR FOR ROBUST ROTOR POSITION DETECTION IN INDUCTIVE SENSE START-UP”. IEEE Trans. Magnet. Vol. 42, No. 3.
[6] Parag R. Upadhyay And K. R. Rajagopal.2006. “FE ANALYSIS AND COMPUTER-AIDED DESIGN OF A SANDWICHED AXIAL-FLUX PERMANENT MAGNET BRUSHLESS DC MOTOR”. IEEE Trans. Magnet. Vol. 42, No. 6.
[7] Miroslav Markovic And Yves Perriard. 2009.” OPTIMIZATION DESIGN OF A SEGMENTED HALBACH PERMANENT-MAGNET MOTOR USING AN ANALYTICAL MODEL”. IEEE Trans. Magnet. Vol. 45, No. 7.
[8] Rafal Wrobel And Phil H. Mellor 2008. “DESIGN CONSIDERATIONS OF A DIRECT DRIVE BRUSHLESS MACHINE WITH CONCENTRATED WINDINGS”. IEEE Trans. Energy Convers. Vol. 23, No. 1.
[9] Zhuoran Zhang, Yangguang Yan, Shanshui Yang, And Zhou Bo. 2009. “DEVELOPMENT OF A NEW PERMANENT-MAGNET BLDC GENERATOR USING 12-PHASE HALF-WAVE RECTIFIER”. IEEE Trans. Indust. Electron. Vol. 56, No. 6.
[10] Pan Seok Shin, Han-Deul Kim And Gyo-Bum Chung. 2007. “SHAPE OPTIMIZATION OF A LARGE-SCALE BLDC MOTOR USING AN ADAPTIVE RSM UTILIZING DESIGN SENSITIVITY ANALYSIS”. IEEE Trans. Magnet. Vol. 43, No. 4.
[11] Pan Seok Shin, Sung Hyun Woo, And Chang Seop Koh. 2009. “AN OPTIMAL DESIGN OF LARGE SCALE PERMANENT MAGNET POLE SHAPE USING ADAPTIVE RESPONSE SURFACE METHOD WITH LATIN HYPERCUBE SAMPLING STRATEGY”. IEEE Trans. Magnet. Vol. 45, No. 3.
[12] Rabinovici, R. 1996. "MAGNETIC FIELD ANALYSIS OF PERMANENT MAGNET MOTORS”.. IEEE Trans. Magnet. Vol. 32, No. 1, 265- 269.
[13] Infolytica Corporation Ltd. 2007. Magnet CAD package: User manual. Montreal, Canada: Infolytica.
[14] Wang, X. H., Q. F. Li, and S. H. Wang. 2003. “ANALYTICAL CALCULATION OF AIR-GAP MAGNETIC FIELD DISTRIBUTION AND INSTANTANEOUS
18-12 Salient-Pole structure Brushless dc Motor with an assisted dc Field coil
135
CHARACTERISTICS OF BRUSHLESS DC MOTORS”. IEEE Trans. Energy Convers. Vol. 18, No. 3, 424-432.
[15] J. P. Webb. 2008. “SINGULAR TETRAHEDRAL FINITE ELEMENTS OF HIGH ORDER FOR SCALAR MAGNETIC AND ELECTRIC FIELD PROBLEMS”. IEEE TRANS. MAGNET. VOL. 44, NO. 6.
[16] Z. Ren. 2002. “T-Ω FORMULATION FOR EDDY-CURRENT PROBLEMS IN MULTIPLY CONNECTED REGIONS”, IEEE TRANS. MAGNET. VOL. 38, NO. 2.
[17]H. Moradi, E. Afjei, And F. Faghihi, “Fem Analysis For A Novel Configuration Of Brushless Dc Motor Without Permanent Magnet”, Progress In Electromagnetics Research, Pier 98, 407-423, 2009.

Thank you for copying data from http://www.arastirmax.com