基于高阻抗表面材料电磁特性的矩形波导
来源期刊:中南大学学报(自然科学版)2012年第10期
论文作者:黄丽 蒋练军 张学军 崔宪普 李加升
文章页码:3912 - 3916
关键词:高阻抗表面;反射相位;时域有限差分法;矩形波导
Key words:high-impedance surface; reflection phase; finite difference time domain; rectangular waveguide
摘 要:基于高阻抗表面材料奇异的反射相位性质,以此高阻抗表面为一壁构建一矩形波导。将一偶极子天线置于波导中,采用时域有限差分(FDTD)数值模拟得到偶极子天线的回波损耗以及H面和E面的辐射方向图。研究结果表明:置于此波导中的偶极子天线的增益大大提高,而且体现出良好的辐射方向性;不同长度的偶极子天线的回波损耗及高阻抗表面的反射相位有助于确定矩形波导的工作波模频带;以高阻抗表面为壁构建的矩形波导,可以克服谐振条件对波导尺寸的限制。
Abstract: Based on singular reflection phase properties, the high impedance surface of the high impedance surface materials was used to construct rectangular waveguide. A dipole antenna was put in the waveguide, and the finite difference time domain (FDTD) was used to simulate the return loss and H-plane and E-plane radiation pattern of the dipole antenna. The results show that the dipole antenna gain is greatly enhanced, and the good radiation direction is embodied. Returning loss of the dipole antenna of different lengths and reflection phases of the high impedance surface are helpful to determine the working frequency band of the rectangular waveguide modes, and high impedance surface for wall construction in rectangular waveguide can remove the resonant condition on the limit of the waveguide size.
黄丽,蒋练军,张学军,崔宪普,李加升
(湖南城市学院 通信与电子工程学院,湖南 益阳,413000)
摘 要:基于高阻抗表面材料奇异的反射相位性质,以此高阻抗表面为一壁构建一矩形波导。将一偶极子天线置于波导中,采用时域有限差分(FDTD)数值模拟得到偶极子天线的回波损耗以及H面和E面的辐射方向图。研究结果表明:置于此波导中的偶极子天线的增益大大提高,而且体现出良好的辐射方向性;不同长度的偶极子天线的回波损耗及高阻抗表面的反射相位有助于确定矩形波导的工作波模频带;以高阻抗表面为壁构建的矩形波导,可以克服谐振条件对波导尺寸的限制。
关键词:高阻抗表面;反射相位;时域有限差分法;矩形波导
HUANG Li, JIANG Lian-jun, ZHANG Xue-jun, CUI Xian-pu, LI Jia-sheng
(Department of Physics & Electronic-Information Engineering, Hunan City University, Yiyang 413000, China)
Abstract:Based on singular reflection phase properties, the high impedance surface of the high impedance surface materials was used to construct rectangular waveguide. A dipole antenna was put in the waveguide, and the finite difference time domain (FDTD) was used to simulate the return loss and H-plane and E-plane radiation pattern of the dipole antenna. The results show that the dipole antenna gain is greatly enhanced, and the good radiation direction is embodied. Returning loss of the dipole antenna of different lengths and reflection phases of the high impedance surface are helpful to determine the working frequency band of the rectangular waveguide modes, and high impedance surface for wall construction in rectangular waveguide can remove the resonant condition on the limit of the waveguide size.
Key words:high-impedance surface; reflection phase; finite difference time domain; rectangular waveguide
