Design and analysis of ladder-type microstrip antenna with electranagnetic bandgap structure
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摘要: 为了减弱大气摩擦引起的高温损伤,航空飞行器雷达天线一般都会加装天线罩或介质窗,将电磁带隙(EBG)结构的禁带特性和阶梯型微带天线的带宽及良好的匹配特性相结合,设计了一种含介质窗的EBG结构阶梯型微带天线,并计算分析了天线的辐射特性及介质窗对辐射特性的影响。结果表明:EBG结构产生的带隙能够制约天线表面波的传播,改善天线的带宽和增益性能,且当介质窗存在时,该结构亦可降低天线与介质窗间的互耦效应。这为含介质窗的EBG结构阶梯型微带天线的设计和应用提供了一定理论参考。
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关键词:
- 电磁带隙(EBG)结构 /
- 阶梯型微带天线 /
- 介质窗 /
- HFSS仿真
Abstract: In order to reduce the high temperature damage caused by atmospheric friction, aircraft radar antenna will generally be equipped with radome or dielectric window. In this paper, the bandgap characteristic of the electromagnetic bandgap (EBG) structure and the bandwidth and the good matching characteristics of the ladder-type microstrip antenna are combined to design an EBG structure ladder-type microstrip antenna with dielectric window, and then the antenna radiation characteristics and the effect of dielectric window on them are calculated and analyzed. The results show that the bandgap produced by the EBG structure can restrict the propagation of the surface wave of the antenna and improve the bandwidth and gain performance of the antenna. The structure can also reduce the mutual coupling effect between the antenna and the dielectric window, which can provide a theoretical reference for the design and application of the EBG structure ladder-type microstrip antenna with dielectric window. -
图 3 不同结构参数时EBG结构带隙反射相位的变化曲线
Figure 3. Variation of reflection phase of EBG structure bandgap with different structure parameters
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[1] 张雪琴, 王钧宏, 李铮. 微带阵列天线的时域散射特性[J]. 物理学报, 2011, 60(5): 1301-1308. doi: 10.3969/j.issn.0001-5733.2011.05.019Zhang Xueqin, Wang Junhong, Li Zheng. Time domain scattering characteristics of microstrip array antenna. Acta Physica Sinica, 2011, 60(5): 1301-1308 doi: 10.3969/j.issn.0001-5733.2011.05.019 [2] 叶云裳. 航天器天线[M]. 北京: 中国科学技术出版社, 2007.Ye Yunshang. Spacecraft antenna. Beijing: China Science & Technology Press, 2007 [3] 郑颖, 王建, 张宁. 天线窗对微带天线辐射特性影响的研究[C]//全国天线年会. 2011.Zheng Ying, Wang Jian, Zhang Ning. Research on the influence of antenna window on the radiation characteristics of microstrip antenna//National Antenna Conference. 2011 [4] 尹应增, 马澄波, 刘其中, 等. 介质覆盖微带天线辐射特性的研究[J]. 电子科学学刊, 1992, 14(5): 546-549. https://www.cnki.com.cn/Article/CJFDTOTAL-DZYX199205015.htmYi Yingzeng, Ma Chengbo, Liu Qizhong, et al. Research on the radiation characteristics of microstrip antenna with dielectric covering. Journal of Electronics, 1992, 14(5): 546-549 https://www.cnki.com.cn/Article/CJFDTOTAL-DZYX199205015.htm [5] 崔万照, 马伟, 邱乐德, 等. 电磁超介质及其应用[M]. 北京: 国防工业出版社, 2008.Cui Wanzhao, Ma Wei, Qiu Lede, et al. Electromagnetic super-dielectric and its application. Beijing: National Defence Industry Press, 2008 [6] 付云起, 袁乃昌, 温熙森. 微波EBG天线技术[M]. 北京: 国防工业出版社, 2006.Fu Yunqi, Yuan Naichang, Wen Xisen. Technology of microwave EBG antenna. Beijing: National Defence Industry Press, 2006 [7] Fang Chao, Xu Feng. Performance enhancement of coaxial feed microstrip patch antenna using left-handed material and EBG circular holes[C]//IEEE International Conference on Communication Problem-Solving. 2014: 107-110. [8] Jonathan P P, Jose P. Use of EBG structure with quasi-periodic symmetry in microstrip antenna design[C]//SBMO/IEEE MTT-S IMOC. 2015: 1-4. [9] 梁乐, 梁昌洪, 陈亮. 一种电磁带隙结构的快速分析方法[J]. 强激光与粒子束, 2008, 20(5): 793-797. http://www.hplpb.com.cn/article/id/3538Liang Yue, Liang Changhong, Chen Liang. A fast analysis method of electromagnetic band gap structure. High Power Laser and Particle Beams, 2008, 20(5): 793-797 http://www.hplpb.com.cn/article/id/3538 [10] Yang F, Rahmat-Samii Y. Electromagnetic band gap structures in antenna engineering[M]. Cambridge: Cambridge University Press, 2009: 38-43. [11] Sievenpiper D, Zhang L, Alexopolus N G, et al. High-impedance electromagnetic surfaces with a forbidden frequency band[J]. IEEE Trans Microwave Theory Tech, 1999, 47(11): 2059-2074. doi: 10.1109/22.798001 [12] Sievenpiper D F. High-impedance electromagnetic surfaces[D]. Los Angeles: University of California, 1999. [13] YangF, Rahmat-Samii Y. Microstrip antennas integrated with electromagnetic band-gap (EBG) structures: A low mutual coupling design for array applications[J]. IEEE Trans Antennas and Propagation, 2003, 51(10): 2936-2946. doi: 10.1109/TAP.2003.817983 [14] Xiao Z G, Jiang Y, Yin S Q. Design of microstrip antenna based on step-like electromagnetic band-gap structure to improve bandwidth and gain[J]. Research Gate, 2015, 27(2): 279-285. [15] Yang F, Rahmat-Samii Y. Reflection phase characterizations of the EBG ground plane for low profile wire antenna applications[J]. IEEE Trans on Antennas and Propagation, 2003, 51(10): 2691-2703. [16] Yang F, Chen J, Rui Q, et al. A simple and efficient FDTD/PBC algorithm for periodic structure analysis[J]. Radio Science, 2007, 42(4): 1-9. [17] Gathre L, Thottappan M, Jain P K. Analysis of EBG structures using FDTD algorithm[C]//International Conference on Computing. 2002: 825-827. -
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