A novel microstrip patch antenna with switchable polarization is proposed.
提出了一种寄生切角极化可重构微带贴片天线。
The application of meshed microstrip patch antenna to RCS reduction is studied.
研究了栅格微带天线在微带天线rcs减缩中的应用。
The input impedance of a rectangular microstrip patch is discussed by this method.
利用本方法对矩形微带贴片的输入阻抗进行了讨论。
A fractal microstrip patch antenna is illustrated for antenna Radar Cross Section (RCS) reduction.
本文给出一种分形微带天线在天线雷达散射截面(RCS)减缩中应用的示例。
The design equation of the microstrip patch antenna and the element gap of the array antenna have been given.
详细给出了微带贴片天线设计公式和阵列天线阵间距的选择。
The method of improving the feed network is to broaden the bandwidth of the microstrip patch arrays principally.
天线阵主要采用改进馈电网络的方法来展宽频带。
Analysis of the rectangular microstrip patch antenna excited by a microstrip transmission line is presented in this paper.
本文提出用有限元法分析微带贴片天线。
In this paper, we computing scattering of new-style cavity-backed microstrip patch antenna based on a variation formulation.
文中根据变分公式,计算新型背腔微带贴片天线的散射场。
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;
Using this method, a rectangular microstrip patch antenna loaded with a shorting pin is designed which operated at mobile communication frequency.
该优化设计方法共分两步进行,首先,对天线的频率特性进行优化,然后在此基础上对天线的阻抗特性进行优化。
Rectangle metal waveguide slot-microstrip coupling structure is used to feed series-fed microstrip patch linear array, thus a planar array is obtained.
该天线阵采用矩形波导宽边纵向缝隙耦合微带线结构给串馈微带贴片线阵馈电,从而构成二维平面阵。
Therefore, the design of compact high-performance microstrip patch antenna to meet the requirements of RFID systems has become a worthy research topic.
因此,设计小型化高性能的微带天线满足RFID系统的要求就成为了一个值得研究的课题。
We now apply CFDTD(conformal finite difference time domain) method to theoretically analyzing microstrip patch antenna whose patch shape is more complicated.
应用共形时域有限差分法(CFDTD)对不同形状微带贴片天线的特性进行了有效的分析。
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。
This paper's main task is the design, optimization and process testing of compact high-performance microstrip patch antenna for the reader antenna of the UHF band RFID reader antenna system.
本文的主要工作是针对UHF频段RFID系统读写器天线的要求,设计、优化并加工测试了小型化高性能的微带天线。
The radiating element of array antenna is air dielectric microstrip patch antenna, which has high efficiency, and the feed network is low loss air strip, which can reduce the loss of the feed line.
阵列天线辐射单元采用空气介质的微带贴片天线,辐射效率高;阵列天线的馈线网络采用低损耗的空气带状线形式,降低了馈线损耗。
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。
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。
A new dual-frequency microstrip antenna is presented, which operates at dual frequencies with a compact size by using two shorted probes and slots on the patch.
本文介绍一种新颖的双频微带天线,它通过在贴片上开十字槽和加载两个短路探针实现小型化和双频工作。
By optimizing the parameters of the patch and the feed position, the bow-tie microstrip can operate well on dual frequencies.
最后对双频蝶形微带天线的贴片参数与馈电位置综合进行了优化,使之准确实现双频工作。
Some microstrip structures such as microstrip line, patch antenna and microstrip branch line coupler have been simulated and the characters of these elements have been analysed.
利用FDTD法分别对微带传输线、矩形微带贴片天线和微带分支耦合器进行了仿真和特性分析。
A two layer electromagnetic coupled circular patch microstrip antenna is adopted to widen the frequency band of the antenna.
为了展宽天线的带宽,采用双层圆形贴片电磁耦合天线。
A two layer electromagnetic coupled circular patch microstrip antenna is adopted to widen the frequency band of the antenna.
为了展宽天线的带宽,采用双层圆形贴片电磁耦合天线。
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