A Broadband Multiple-Input-Multiple-Output (MIMO) Rectangular Dielectric Resonator Antenna is design and implemented. The proposed antenna consists of two ports (Aperture coupled microstrip fed using slot and Coaxial-probe) and a limited ground plane extruded on the substrate. The overall size of proposed substrate is70×60 and the size of rectangular dielectric resonator antenna is38×54×15 . The antenna is fabricated on inexpensive FR4 a dielectric constant of e =4.3, loss tangent tan d=0.019 with thickness of 1.6-mm. The measured results represents that the proposed antenna obtained a reasonable bandwidth from 1.8 GHz to 2.6 GHz that could cover LTE bands application defined by 10-dB return loss. Furthermore, S-Parameters ( , , ) of antenna are simulated and measured. In this project, merging the resonance frequency from the feeding mechanism and the radiating structure with assigning the air gap between DRA and substrate has been employed to broaden the bandwidth. Since both the DRA and slot radiate like a short magnetic dipole, high gain and directivity can be achieved. Simulation and measurement on the final prototype antenna were carried out and compared.
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机译:设计并实现了宽带多输入多输出(MIMO)矩形介质谐振器天线。拟议的天线包括两个端口(使用槽和同轴探针馈电的光圈耦合微带)和在基板上挤压的有限接地平面。所提出的衬底的整体尺寸为70×60,矩形介质谐振器天线的尺寸为38×54×15。该天线是在便宜的FR4上制成的,其介电常数e = 4.3,损耗角正切tan d = 0.019,厚度为1.6毫米。测量结果表明,建议的天线在1.8 GHz至2.6 GHz范围内获得了合理的带宽,可以覆盖由10 dB回波损耗定义的LTE频段应用。此外,对天线的S参数(,,)进行了仿真和测量。在该项目中,通过将馈送机构和辐射结构的共振频率与分配DRA和基板之间的气隙相结合,可以扩大带宽。由于DRA和缝隙都像短磁偶极子一样辐射,因此可以实现高增益和指向性。对最终原型天线进行了仿真和测量并进行了比较。
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