一种用于方向图分集的紧凑型双模超材料环形天线
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一种用于方向图分集的紧凑型双模超材料环形天线(论文13000字)
摘要:本文提出了一种用于方向图分集的双端口双模超材料环形天线的设计方案。这种超材料的环形天线是由一个周期加载的电容式圆弧条和两个具有馈电网络的独立端口组成,此圆弧条由六块相同的圆弧组成,圆弧之间形成交指型缝隙。与mzr天线相似,本文提出的周期加载电容环天线允许沿环路的电流保持相同的相位和均匀性。利用混合馈电网络,超材料环形天线的奇偶模式有效地实现了天线的方向图分集。利用零阶共振理论,对构成环形天线的几个弧形条进行了新的设计,以获得水平极化全方位辐射模式。通过全波仿真和实验验证了该天线的工作原理和性能。
关键词:奇偶模,环形天线,方向图分集,可重构方向天线。
A Compact Dual-ModeMetamaterial-Based Loop Antenna for Pattern Diversity
Abstract:This letter presents a novel design of compact dual-port dual-mode metamaterial-based loop antenna for pattern diversity. The proposed metamaterial- based loop antenna consists of a loop based on periodically loaded capacitive arcstrips and two independent ports with feeding networks. This circular arc bar consists of six identical arcs, forming an intersect gap between the arcs.Similar to mu-zero resonance (MZR) antennas, the periodically loaded capacitive loop antenna proposed in this letter allows current along the loop to re-main in phase and uniform. By making use of a hybrid feed net-work, the even and odd modes of the proposed metamaterial-based loop antenna are exploited so that its pattern diversity is achieved effectively. using the theory of zeroth-order resonance, we have provided a novel design for several arc-shaped strips that make up the loop antenna to obtain the horizontally polarized omnidirectional radiation pattern.The theory of operation and performances of the pro-posed antenna are demonstrated in both a full-wave simulation and in the experiments.
Index Terms:Even mode and odd mode, loop antenna, , patterndiversity, reconfigurable pattern antenna
目 录
第一章 绪论 7
1.1研究背景及意义 7
1.2国内外研究现状 7
1.2.1零阶共振理论 7
1.2.2 MIMO系统 8
1.3本论文的结构安排 8
第二章 天线的理论基础和设计方法 10
2.2天线的基本参数 10
2.2.1天线的方向图及有关参数 10
2.2.2方向性系数 10
2.2.3辐射强度 11
2.2.4天线效率 11
2.2.5天线增益 11
2.2.6输入阻抗 11
2.2.7天线的极化 12
2.2.8回波损耗 12
2.2.9驻波比 13
2.2.10隔离度 13
2.2.11带宽 13
2.2.12有效长度 14
2.3常见天线 14
2.3.1缝隙天线 14
2.3.2微带天线 14
2.3.2.1 微带天线的概念 14
2.3.2.2微带天线的馈电 14
2.3.3环形天线 14
2.3.4可重构天线 15
2.3.4.1频率可重构天线 15
2.3.4.2方向图可重构天线 15
2.3.4.3极化可重构天线 15
2.3.4.4多重参数可重构天线 16
2.4分集技术 16
2.4.1极化分集 16
2.4.2空间分集 16
2.5左手超材料 17
2.6 MZR天线 17
第三章 天线分析 18
3.1天线结构 18
3.2奇偶模态分析 19
第四章 仿真结果 23
4.1仿真软件 23
4.2天线各参数仿真结果 23
4.2.1回波损耗 23
4.2.2两端口之间的隔离度 23
4.2.3方向图 24
4.3天线参数优化 25
4.3.1参数R3对结果的影响 26
4.3.2参数Gp对结果的影响 29
4.3.3参数Lf对结果的影响 30
4.3.4参数Wp对结果的影响 32
4.4本章总结 33
第五章 全文总结 35
参考文献 36
致谢 37