|
|
|
| Extraction of Parasitic Capacitance for Toroidal Ferrite Core Inductor |
| Wang Shishan, Cui Yongsheng, Xie Shaojun |
| Nanjing University of Aeronautics and Astronautic Nanjing 210016 China |
|
|
|
|
Abstract In the higher frequency range, the ferrite core inductor can be considered as an equivalent circuit model, which is formed of a series branch of a resistance and an inductance paralleling a parasitic capacitance, and the capacitance can play an important role in the high performance of the inductor. The models of 2D parallel plane field and 3D electrostatic finite element (FE) for the toroidal ferrite core inductor are presented, and the stray capacitances between every two turns are calculated. Then, the equivalent network of capacitances can be obtained. If a unitary current is applied between the input and output turns of the inductor, the capacitive lumped parameter, i.e., the parasitic capacitance can be calculated using the node-voltage equation method. The stray capacitance can be measured using resonant frequency method on the assumption that the capacitance is independent of frequency. Contrasting calculated results with the measured one, it is shown that the fringe effect of inductor is very crucial to build electrostatic model, i.e., the problems of the electrostatic field must be analyzed using 3D model as well as calculating the stray capacitance of turn to turn for inductor. If only considering the stray capacitance between the adjacent three turns, the value of equivalent parasitic capacitance can reach to above 95% of the total value of which all turns of the coil are considered. The parasitic capacitance has a linear relationship with permittivity of the ferrite magnetic core and the insulating coats of conductor, in which it is more obviously influenced by the insulating coats.
|
|
Received: 11 January 2008
Published: 13 February 2014
|
|
|
|
|
|
[1] 张世远, 路权, 薛荣华, 等. 磁性材料基础[M]. 北京:科学出版社, 1988.
[2] Philip Fosu Okyere, Ernst Habiger. A novel physically-based PSPICE compatible model for CM chokes[C]. IEEE Proceedings of International Symposium on Electromagnetic Compatibility, 1999 (18P201): 33-36.
[3] 陈恒林, 陈玮, 冯利民, 等. 基于阻抗测量的共模扼流圈高频建模[J]. 电工技术学报, 2007, 22(4): 8-12.
[4] Marian K Kazimieczuk, Giuseppe Sancineto, Gabriele Grandi, et al. High-frequency small-signal model of ferrite core inductors[J]. IEEE Trans. on Magnetics, 1999, 35(5): 4185-4191.
[5] 邱扬, 鬲莉, 田锦, 等. 电感器磁心材料特性的参数分析[J]. 安全与电磁兼容, 2002(6): 32-34.
[6] 陈荣杰, 蒋全兴. 直流偏磁下铁氧体磁性材料特性测试方法的研究[J]. 电子质量, 2007(3): 6-7.
[7] 陈穷, 蒋全兴. 电磁兼容工程设计手册[M]. 北京:国防工业出版社, 1993.
[8] Grandi G, Kazimierczk M K, Massarini A, et al. Stray capacitance of single-layer air-core inductors for high-frequency application[C]. Proc. of IEEE Industry Application, 1996, 3: 1384-1388.
[9] Gabriele Grandi, Marian K Kazimierczuk, Antonio Massarini, et al. Stray capacitances of single-layer solenoid air-core inductors[J]. IEEE Trans. on Industry Application, 1999, 35(5): 1162-1168.
[10] 袁义生. 电感器分布电容的建模[J]. 华东交通大学学报, 2006, 23(5): 90-93, 101.
[11] Antonio Massarini, Marian K Kazimierczuk. Self-capacitance of inductors[J]. IEEE Trans. on Power Electronics, 1997, 12(4): 671-676.
[12] Bartoli M, Reatti A, Kazimierczuk M K. Modeling iron-power inductors at high frequencys[C]. Conference Record of the 1994 Industry Applications Conference, 29 IAS Anuual Meeting, 1994: 1225-1232.
[13] Lu H Y, Zhu J G, Ramsden V S, et al. Measurement and modeling of stray capacitance in high frequency transformer[C]. Proc. of IEEE PESC’99, 1999: 763-768.
[14] Gabriele Grandi, Marian K Kazimieczuk, Antonio Massarini, et al. Model of laminated iron-core inductors for high frequencies[J]. IEEE Trans. on Mag., 2004, 40(4): 1839-1845.
[15] Bartoli M, Reatti A, Kazimierczuk M K. High-frequency models of ferrite core inductors[C]. IECON1994 20th International Conference on Industrial Electronic Control and Instrumentation, 1994, 3(pt3): 1670-1675.
[16] Qin Yu, Thomas W Holmens. A study on stray capacitance modeling of inductors by using the finite element method[J]. IEEE Trans. on Electromagnetic Capability, 2001, 43(1): 88-93.
[17] Prieto R, Cobos J A, Garcfa O, et al. Taking into account all the parasitic effects in the design of magnetic components[C]. IEEE APEC, 1998: 400-406.
[18] 凌跃胜, 赵争菡, 李奇男, 等. 高频变压器动态电容的数值计算[J]. 华北电力大学学报, 2005, 32(增刊): 87-90.
[19] 赵志英. 小型化航空静止变换器的研究[D]. 南京:南京航空航天大学, 2007.
[20] 冯慈璋, 马西奎. 工程电磁场导论[M]. 北京:高等教育出版社, 2000.
[21] 盛剑霓. 工程电磁场数值分析[M]. 西安:西安交通大学出版社, 1991.
[22] Wang Shuo, Lee Fred, Odendaal W G. Single layer iron powder core inductor model and its effect on boost PFC EMI noise[C]. 2003 IEEE 34th Annual Power Electronics Specialists Conference, 2003, 2(pt2): 847-852.
[23] Reggiani U, Grandi G, Sancineto G, et al. High-frequency behavior of laminated iron-core inductors for filtering applications[C]. APEC 2000, 15th Annual IEEE Applied Power Electronics Conference and Exposition, 2000(V2): 654-660. |
|
|
|
2009, Vol. 24 
