Fluidically Reconfigurable MIMO Antenna With Pattern Diversity for Sub-6-GHz 5G Relay Node Applications

IF 1.7 Q2 Engineering Canadian Journal of Electrical and Computer Engineering-Revue Canadienne De Genie Electrique et Informatique Pub Date : 2020-01-01 DOI:10.1109/CJECE.2019.2950133

Aditya Singh, C. Saavedra

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引用次数: 8

Abstract

A four-element frequency reconfigurable and pattern diverse multiple-input–multiple-output (MIMO) antenna array for fifth-generation relay node applications is presented to operate in LTE bands 42 (3400–3600 MHz), 43 (3600–3800 MHz), and 46 (5150–5925 MHz). A planar microstrip line-fed monopole antenna is utilized as the MIMO element. The antenna relies on fluidic reconfiguration mechanism to either serve LTE bands 42/43 or 46. It incorporates a substrate milled channel beneath each monopole arm to hold distilled water. The water in the channel perturbs the

$E$

-field distribution in the vicinity of the antenna arm and modifies the effective permittivity of the dielectric medium. To realize pattern diversity, adjacent elements are placed orthogonal to each other. Measured prototype exhibits a total active reflection coefficient

$|{\text{TARC}}|$

and

$|S_{11} |\leq -10$

dB for the high band when the channel is vacant (case 1) and the low band when filled with water (case 2), while minimum isolation is above 19.6 dB. The peak measured gain is ~4.6 and ~2.8 dBi, while the worst case envelope correlation coefficient (ECC) is ~0.004 and ~0.016 for cases 1 and 2, respectively. It measures 82.4

$\times$

82.4 mm2 and was fabricated on a 1.52-mm-thick substrate of

$\epsilon_{r}$

= 3.55.

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面向sub -6 ghz 5G中继节点应用的流态可重构MIMO天线

提出了一种用于第五代中继节点应用的四元频率可重构和模式多样化多输入多输出(MIMO)天线阵列，可在LTE频段42 (3400-3600 MHz)、43 (3600-3800 MHz)和46 (5150-5925 MHz)中运行。采用平面微带馈线单极天线作为MIMO单元。该天线依靠流体重构机制服务于LTE 42/43或46频段。它在每个单极臂下面包含一个衬底研磨通道来容纳蒸馏水。通道中的水扰动了天线臂附近的$E$场分布，改变了介质的有效介电常数。为了实现模式多样性，相邻的元素被放置在彼此正交的位置。实测样机显示，当通道空(案例1)时，高频带的总主动反射系数为$|{\text{TARC}}|$和$|S_{11} |\leq -10$ dB，当通道充满水(案例2)时，低频带的总主动反射系数为 dB，最小隔离度在19.6 dB以上。峰值测量增益为4.6和2.8 dBi，而情况1和2的最坏情况包络相关系数(ECC)分别为0.004和0.016。它的尺寸为82.4 $\times$ 82.4 mm2，在1.52 mm厚的$\epsilon_{r}$ = 3.55的衬底上制造。

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来源期刊

Canadian Journal of Electrical and Computer Engineering-Revue Canadienne De Genie Electrique et Informatique 工程技术-工程：电子与电气

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期刊介绍： The Canadian Journal of Electrical and Computer Engineering (ISSN-0840-8688), issued quarterly, has been publishing high-quality refereed scientific papers in all areas of electrical and computer engineering since 1976