多导体传输线高频场线耦合渐近法分析

张馨丹; 赵春莹; 刘强; 闫丽萍; 赵翔; 周海京

doi:doi:10.11884/hplpb201830.180040

强激光与粒子束, 2018, 30 (8): 083201, 网络出版: 2018-08-21

多导体传输线高频场线耦合渐近法分析

Improved asymptotic method for high-frequency electromagnetic field coupling to multiconductor transmission line

论文大纲

张馨丹 ^1,*赵春莹 ¹刘强 ²闫丽萍 ¹赵翔 ¹周海京 ²

作者单位

¹ 四川大学电子信息学院, 成都 610065

² 北京应用物理与计算数学研究所, 北京 100088

摘要

基于理想地面上单导体传输线渐近法，提出了改进的多导体传输线渐近法。与已有多导体传输线渐近法相比，所提方法步骤简单，求解效率高。利用所提方法计算电磁波与不同结构多导体传输线网络之间的耦合，结果与全波分析方法计算结果吻合很好。在此基础上，分析了多导体传输线导线间距对沿线感应电流的影响。结果表明，随着导线间距变化，矩形网络和平行网络沿线感应电流波形变化趋势不同，且当间距大于一个波长后，平行网络和理想地面上相同结构的单导线具有相同的沿线感应电流。

Abstract

Based on the asymptotic method for high frequency electromagnetic field coupling to single wire above the ground, an asymptotic method for multiconductor transmission line (TL) is proposed. The proposed method simplifies the solving process of the scattering/reflection parameters required and therefore becomes more efficient than the previous asymptotic method for multiconductor TL. The induced currents along multiconductor TLs with different configuration are calculated using the proposed method, and the results are in good agreements with the simulated results of NEC, a full-wave analysis software. Moreover, the influence of the separation distance between the wires of the rectangular TL and the parallel TL on the induced current is analyzed. Results show that the induced currents along these two TLs change in the rectangular TL and the parallel TL change in different way, as the separation distance between the lines increases. Especially, the induced current along the parallel TL no longer changes while the separation distance increases to more than a wavelength, and is the same as that along the single wire above the perfect conducting ground with the same structure.

参考文献

[1] 刘尚合, 武占成, 张希军. 电磁环境效应及其发展趋势[J]. 国防科技, 2008, 29(1): 1-6.(Liu Shanghe, Wu Zhancheng, Zhang Xijun. The effect of electromagnetic environment and trend. National Defense Science and Technology, 2008, 29(1):1-6)

[2] 王天乐, 闫丽萍, 赵翔, 等. 包含非线性组件的系统级电磁效应分析方法[J]. 强激光与粒子束, 2014, 26: 073204.(Wang Tianle, Yan Liping, Zhao Xiang, et al. System-level analysis method of electromagnetic effects on an electronic system containing nonlinear components. High Power Laser and Paticle Beams, 2014, 26: 073204)

[3] Spadacini G, Grassi F, Marliani F, et al. Transmission-line model for field-to-wire coupling in bundles of twisted-wire pairs above ground[J]. IEEE Trans Electromagn Compat, 2014, 56(6):1682-1690.

[4] Taylor C, Satterwhite R, Harrison J C. The response of a terminated two-wire transmission line excited by a nonuniform electromagnetic field[J]. IEEE Trans Antennas & Propagation, 1965, 13(6): 987-989.

[5] Agrawal A K, Price H J, Gurbaxani S H. Transient response of multiconductor rransmission lines excited by a nonuniform electromagnetic field[J]. IEEE Trans Electromagn Compat, 1980, 22(2):119-129.

[6] Rachidi F. Formulation of the field-to-transmission line coupling equations in terms of magnetic excitation field[J]. IEEE Trans Electromagn Compat, 1993, 35(3): 404-407.

[7] Cui T J, Chew W C, Zhao J S. Full-wave analysis of complicated transmission-line circuits using wire models[J]. IEEE Trans Antennas & Propagation, 2002, 50(10):1350-1360.

[8] Tkatchenko S, Rachidi F, Ianoz M. Electromagnetic field coupling to a line of finite length: Theory and fast iterative solutions in frequency and time domains[J]. IEEE Trans Electromagn Compat, 1995, 37(4):509-518.

[9] Tkatchenko S, Rachidi F, Ianoz M. High-frequency electromagnetic field coupling to long terminated lines[J]. IEEE Trans Electromagn Compat, 2001, 43(2):117-129.

[10] 赵春莹, 刘强, 闫丽萍, 等. 渐近法高频场线耦合分析中等效短线长度的影响[J]. 强激光与粒子束, 2017, 29: 053203.(Zhao Chunying, Liu Qiang, Yan Liping, et al. Influence of length of short equivalent lines on analysis of high frequency electromagnetic field coupling to transmission line based on asymptotic method. High Power Laser and Particle Beams, 2017, 29: 053203)

[11] Lugrin G, Tkachenko S V, Rachidi F, et al. High-frequency electromagnetic coupling to multiconductor transmission lines of finite length[J]. IEEE Trans Electromagn Compat, 2015, 57(6):1714-1723.

[12] Middelstaedt F, Tkachenko S V, Rambousky R, et al. High-frequency electromagnetic field coupling to a long, finite wire with vertical risers above ground[J]. IEEE Trans Electromagn Compat, 2016, 58(4):1169-1175.

张馨丹, 赵春莹, 刘强, 闫丽萍, 赵翔, 周海京. 多导体传输线高频场线耦合渐近法分析[J]. 强激光与粒子束, 2018, 30(8): 083201. Zhang Xindan, Zhao Chunying, Liu Qiang, Yan Liping, Zhao Xiang, Zhou Haijing. Improved asymptotic method for high-frequency electromagnetic field coupling to multiconductor transmission line[J]. High Power Laser and Particle Beams, 2018, 30(8): 083201.

多导体传输线高频场线耦合渐近法分析

关于本站 Cookie 的使用提示

全站搜索

多导体传输线高频场线耦合渐近法分析

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索