In this paper, a simple bandwidth enhancement method for low profile E-shaped patch antennas is presented.
本文设计了一种具有较低剖面高度的层叠型宽带圆极化微带天线。
Then, a number of numerical results for microstrip fractal patch antennas residing in a cavity are presented.
在此基础上,对背腔式分形微带贴片天线的电磁散射特性进行了计算和分析。
The Method of Moment (MoM) is used first for calculating the input impedance of microstrip patch antennas fed by microstrip line.
本文首先利用矩量法计算平面馈电型微带贴片天线的输入阻抗,并对其进行实验测量;
The research on RCS reduction of microstrip patch antennas is carried out from the angle of the combination of resonant modes and the surface current distribution on the patch.
本文从微带贴片天线的谐振模式结合贴片表面电流分布的角度来研究微带贴片天线的RCS(雷达截面)减缩。
The electromagnetic band-gap (EBG) materials is used to design the aperture coupled patch antennas, and both high permittivity and low permittivity materials are considered in this paper.
将电磁带隙材料用于孔径耦合微带天线的设计,利用其频率带隙抑制天线中激励的表面波,分别考虑高介电常数和低介电常数的情况。
Examples are calculated by above method, a microstrip inset-fed patch antenna, monopole antenna mounted near the edge of a conducting plane and notch antennas.
并分析计算了从辐射端中心馈电的微带贴片天线、位于导体板边缘的单极子天线以及凹槽天线。
U-shape patch element for phased array antennas with wide-beam both in E-and H-planes is presented in this paper.
该文介绍了一种在E面和H面都具有宽波束特性的U形贴片相控阵天线单元。
A U-shape patch element for phased array antennas with wide-beam both in E-and H-planes is presented in this paper.
该文介绍了一种在E面和H面都具有宽波束特性的U形贴片相控阵天线单元。
A U-shape patch element for phased array antennas with wide-beam both in E-and H-planes is presented in this paper.
该文介绍了一种在E面和H面都具有宽波束特性的U形贴片相控阵天线单元。
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