|
|
Study on Quasi-3D Model of Winding Loss Simulation |
Xu Xiangwang, Chen Wei |
College of Electrical Engineering and Automatic, Fuzhou University, Fuzhou 350108 |
|
|
Abstract As one of the most important performance of the power supply, winding loss has attracted much attention. Its research methods mainly include theoretical analysis, simulation analysis and measuring analysis, but because of the limitation and low precision of the theoretical analysis, and the huge work and large cost of time of the measuring analysis, the simulation analysis has become the first choice. The memory requirement is too high and time-consuming is too large of traditional 3D simulation model, and as a replacement, the single-2D simulation model has a big error because it’s unable to fully describe the magnetic field distribution of actual magnetic component. In this paper, the quasi-3D model was proposed to avoid the above shortcomings by the analysis of flux path in actual magnetic component, and the validation of the accuracy has been completed through various loss simulation of kinds of models.
|
Published: 24 February 2017
|
|
|
|
[1] Dowell P. Effect of eddy currents in transformer windings[J]. Proc. IEEE, 1966, 113(8): 1387-1394. [2] Xi Nan, Sullivan C R. An improved calculation of Proximity-Effect loss in High-Frequency windings of round conductors[J]. IEEE PESC'03, 2003, 34(2): 853-860. [3] Bartoli M, Noferi N. Modeling winding losses in High-Frequency power inductors[J]. World Scientific Journal of Circuits Systems'and Computers'Special Issue on Power Electronics, 1995, 5(4): 603-607. [4] Bartoli M, Noferi N. Modeling Litz-wire Winding Losses in High-Frequency Power Inductors[J]. IEEE PESC'96, 1996, 27(2): 1690-1696. [5] W Chen X H, Zheng J. Improved winding loss theoratical calculation of magnetic component with air-gap[C]//Power Electronics and Motion Control Conference. Harbin, China, 2012: 471-475. [6] Dong T F, Vollin J L, Cuk S M. A practical approach formagnetic core-loss characterization[J]. IEEE Transactions on Power Electronics, 1995, 10(2): 124-130. [7] 汪晶慧, 陈为. 超低损耗角磁心高频损耗测量方法[J]. 电工技术学报, 2012, 27(11): 133-138. [8] 龚宇, 崔巍, 章跃进. 考虑局部磁滞损耗的复合电机铁损耗计算[J]. 中国电机工程学报, 2014, 34(30): 5395-5400. [9] M M Koo J Y, Lee K. Comparative analysis of Eddy-Current loss in permanent magnet synchronous machine considering PM shape and skew effect using 3-D FEA[J]. IEEE Transactions on Magnetics. 2015, 51(11): 1-4. [10] Taghizadeh Kakhki M, Cros J, Viarouge P. New approach for accurate prediction of eddy current losses in laminated material in the presence of skin effect with 2-D FEA[J]. IEEE Transactions on Magnetics, 2016, 52(3): 1-4. [11] Prieto R, Cobos J A, Garcia O, et al. Model of integrated magnetics by means of “double 2D” finite element analysis techniques[C]//Power Electronics Specialists Conference, 1999. PESC 99. 30th Annual IEEE, Charleston, SC, 1999, 1: 598-603. [12] Prieto R, Cobos J A, Garcia O, et al. Study of 3-D magnetic components by means of "double 2-D" methodology[J]. IEEE Transactions on Industrial Electronics, 2003, 50(1): 183-192. |
|
|
|