The Electromagnetic bandgap(EBG)is a periodic structure with obvious bandstop characteristic.
电磁带隙结构(EBG)是一种周期性结构,具有明显的带阻特性。
In this paper, a cone pattern is realized by covering an electromagnetic band-gap (EBG) structure.
该文采用电磁带隙(EBG)结构层覆盖的方式实现了一种锥形方向图。
The enhancement of microstrip antenna performance using EBG structures is investigated in this paper.
本文采用EBG结构对传统贴片天线进行了改进。
A novel sandwich EBG (electromagnetic band gap) structure-assisted microstrip antenna is investigated.
研究了一种新型夹层电磁带隙(EBG)结构在微带天线中的应用。
Measurement result shows that this novel EBG structure has good stopband characteristic in a wide band.
测量结果显示,新型EBG结构在宽频带内具有良好的阻带特性。
The experimental results show that the coupling of the antenna array can be decreased by the EBG structures.
利用电磁带隙结构改善微带阵列天线的电学特性,结果发现,天线阵阵元间的互耦能得到比较好的抑制。
In this thesis, we applied both the EBG structures and magnetic material to the design of the PCB's power bus.
本文综合应用电磁带隙结构和磁性材料对印刷电路板中的电源接地层供电系进行设计。
This discovery provides an alternative option for the potential electromagnetic application of the EBG structure.
这一发现,为电磁带隙结构的工程应用提供了新的材料选择。
In this paper, a kind of cylindrical EBG structures applied to base station cylindrical conformal dipole array antennas is studied.
对一种柱面电磁带隙结构应用于圆柱共形偶极子振基站天线进行了研究。
A microstrip Yagi antenna that employs a 2-d EBG (Electromagnetic Band-gap) ground plane as the reflector is presented in this paper.
提出了一种采用二维电磁带隙结构地板为反射器的微带八木天线。
Then, we focused on the EMI problem from the power bus structure using both such EBG structures and the magnetic material coating on the power and ground planes.
然后,研究在各种EBG结构下,在电源和接地层内侧(即靠近介质层的一侧)增加高磁导率材料涂层对供电系阻抗特性的影响。
Results show that different EBG structures have different effects on the patch antenna. The performance such as gain, bandwidth and return loss of the conventiona…
结果表明基于基底打孔型方形孔EBG结构的贴片天线的性能最佳,其增益、带宽和输入回波损耗都得到了较大的改善。
A new EBG structure is proposed through a lot of experiments and analysis. A filter with a wide stop-band and another filter with two stop-bands are further designed.
最后通过大量实验和研究,提出了一种新型EBG结构,在此基础上设计出宽阻带并具有双频段带隙特性的滤波电路。
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。
We expect that the use of the some EBG structure can reduce the magnitude of the transfer impedances and the number of the resonance peaks, thus contribute to the EMI reduction of the power bus.
因此可以预期,某些EBG结构可以降低阻抗的幅度、减少谐振峰的个数,从而有效地减轻供电系的电磁干扰问题。
We expect that the use of the some EBG structure can reduce the magnitude of the transfer impedances and the number of the resonance peaks, thus contribute to the EMI reduction of the power bus.
因此可以预期,某些EBG结构可以降低阻抗的幅度、减少谐振峰的个数,从而有效地减轻供电系的电磁干扰问题。
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