Muzzamil Sana, Sarosh Ahmad, Faisal Abrar, M. A. Qasim
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引用次数: 3
摘要
本文提出了一种用于第五代(5G)应用的毫米波四波段介质谐振器天线(QD-DRA),用于增强天线增益。DRA与衬底材料RT/Duroid 5880结合设计,其相对介电常数为2.2,切线损耗为0.0009,整体尺寸为12 mm × 11 mm × 0.25 mm,尺寸紧凑。该天线实现了无线通信的四频段,即在28 GHz、34 GHz、38 GHz和42 GHz四个不同的频率上谐振,增益分别为6.92 dBi、7.4 dBi、8.59 dBi和7.57 dBi。该天线是在计算机仿真技术(CST)软件中设计的。仿真和实验结果证明,与现有的天线设计相比,该结构在所有谐振频率下都能实现稳定的辐射特性,并具有增强的增益、更宽的带宽和更高的阻抗匹配。这种提议的DRA的总效率超过80%。这种天线是小型化的,可以成为5G应用的理想候选者。
Millimeter-Wave Quad-Band Dielectric Resonator Antenna for 5G Applications
In this paper, a millimeter-wave quad-band dielectric resonator antenna (QD-DRA) for fifth-generation (5G) applications, is suggested for antenna gain enhancement. The DRA is designed in conjunction with a superstrate, placed over a substrate material of RT/Duroid 5880, which is characterized by a relative permittivity equal to 2.2, a tangent loss of 0.0009, and a compact size with an overall dimension of 12 mm × 11 mm × 0.25 mm. This antenna achieved the quad bands for wireless communication, i.e., it resonates at four different frequencies 28 GHz, 34 GHz, 38 GHz, and 42 GHz with a gain of 6.92 dBi, 7.4 dBi, 8.59 dBi, and 7.57 dBi, respectively. The proposed antenna is designed in Computer Simulation Technology (CST) software. From the simulations and experimental results, it is proved that the proposed structure enables stable radiation characteristics with enhanced gain, wider bandwidth and higher impedance matching, achieved at all the resonant frequencies, compared to the prior antenna designs. The overall efficiency for this proposed DRA is more than 80%. This antenna is miniaturized and can be ideal candidate for 5G applications.
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