针对超宽带引信天线的带宽及体积因素, 利用电磁场仿真软件进行超宽带天线建模与仿真。在频域中分析超宽带引信天线的驻波比曲线、天线增益; 在时域中分析超宽带引信天线的辐射信号特性及天线方向图。通过两者结果可以得出, 针对超宽带引信天线, 采用时域分析法为主、频域分析法为辅的方法可得到理想的分析仿真结果。
To aim at the ultra wideband fuze antenna bandwidth and the volume factor, modeling and simulation of the UWB antenna are studied with computer simulation technology. The UWB fuze antenna voltage standing-wave ratio and antenna gain are analyzed in the frequency domain, and the UWB antenna radiation characteristics of signals and antenna pattern are analyzed in the time domain. In comparison the time domain analysis method is more suitable for ultra wideband antenna. It is shown that for ultra wideband fuze antenna, priority should be given to the time domain method, with the frequency domain method as a supplement, in order to get an ideal simulation result.
[1] Muklas B, Rahim N S, Abdul K, et al. A design of compact ultra wideband coupler for butler matrix[J]. Wireless Personal Communications, 2013, 70(2): 915-926.
[2] 刘建军, 钟顺时. 无线多频通信系统超宽带引信天线研究[D]. 上海: 上海大学, 2010 Liu Jianjun, Zhong Shunshi. Study on super-wideband antennas for multi-band wireless communication systems[D]. Shanghai: Shanghai University, 2010.
[3] Ye L H, Chu Q X. 3.5/5.5 GHz dual band-notch ultra-wideband slot antenna with compact size[J]. Electronics Letters, 2010, 46(5): 325-327.
[4] Lin S, Cai R N, Huang G L, et al. A miniature UWB semi-circle mono printed antenna[J]. Progress in Electromagnetic Reserch Letters, 2011, 23: 157-163.
[5] Yildirim B S, Cetiner B A, Roqueta G, et al. Integrated bluetooth and UWB antenna[J]. Antennas and Wireless Propagation Letters, IEEE, 2009, 8: 149-152.
[6] Sapuan S Z, Kazemipour A, Jenu Z M. Direct feed biconical antenna as a reference antenna[C]//2011 IEEE International RF and Microwave Conference. Seremban, Negeri Sembilan, Malaysia, December 12-14, 2011.
[7] Nie W R, Xi Z W, Xue W Q, et al. Study on inertial response performance of a micro electrical switch for fuze[J]. Defence Technology, 2013, 9(4): 187-192.
[8] Yu Ding, Zhai Weigang, Xie Guitao, et al. A novel omni-directional UWB biconical antenna with band-notched[C]//2011 IEEE CIE International Conference on Radar. Chengdou, China, October 24-27, 2011.