Pattern Diversity Based Four-Element Dual-band MIMO Patch Antenna for 5G mmWave Communication Networks

IF 1.8 3区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Waleed Tariq Sethi, Saad Hassan Kiani, Mehre E. Munir, Daniyal Ali Sehrai, Huseyin şerif savci, Dawar Awan
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Abstract

This study presents a planar dual-band multiple-input multiple-output (MIMO) antenna design for the prospective fifth-generation (5G) frequency bands of 28 and 38 GHz. The antenna element is designed by utilizing a rectangular patch with an offset microstrip feeding technique. A dual-band response is achieved by placing semi-circular slots on each side of the patch element. To tune the frequency response and improve impedance matching, vertical rectangular slits are etched in the rectangular patch and the ground plane, respectively. The results show that the single antenna element offers an impedance bandwidth of 2.52 GHz (26.32–28.84 GHz) and 7.5 GHz (34–41.5 GHz). In addition, a MIMO configuration based on pattern diversity using four antenna elements is designed and fabricated. The designed MIMO configuration achieves an impedance bandwidth of 3 GHz (27–30 GHz) and 5.46 GHz (35.54–41 GHz) at operating bands of 28 and 38 GHz. The peak realized gain for the single element at 28 and 38 GHz is noted to be 7.4 dBi and 7.5 dBi, respectively. Furthermore, the polarization diversity configuration illustrates an isolation of > 15 dB and > 25 dB for the 28 and 38 GHz frequency bands, respectively. Moreover, the MIMO configuration attains appropriate values for the envelope correlation coefficient (ECC) and diversity gain (DG), Total Active Reflection Co-efficient (TARC), Channel Capacity Loss (CCL) and Mean Effective Gain (MEG) for the operating frequency bands. The proposed MIMO system based on results seems to be potential choice for mmwave Ka Band Applications.

Abstract Image

用于 5G 毫米波通信网络的基于模式分集的四元件双频 MIMO 贴片天线
本研究介绍了一种平面双频多输入多输出(MIMO)天线设计,适用于 28 和 38 千兆赫的未来第五代(5G)频段。天线元件的设计采用了偏移微带馈电技术的矩形贴片。通过在贴片元件的两侧分别设置半圆形槽,实现了双频响应。为了调整频率响应和改善阻抗匹配,在矩形贴片和地平面上分别蚀刻了垂直矩形缝隙。结果显示,单个天线元件的阻抗带宽为 2.52 GHz(26.32-28.84 GHz)和 7.5 GHz(34-41.5 GHz)。此外,还设计并制造了基于模式分集的 MIMO 配置,使用四个天线元件。所设计的 MIMO 配置在 28 和 38 GHz 工作频段的阻抗带宽分别为 3 GHz(27-30 GHz)和 5.46 GHz(35.54-41 GHz)。在 28 和 38 GHz 频段,单个元件的峰值增益分别为 7.4 dBi 和 7.5 dBi。此外,极化分集配置在 28 和 38 GHz 频段的隔离度分别为 15 dB 和 25 dB。此外,MIMO 配置在工作频段的包络相关系数(ECC)、分集增益(DG)、总有源反射系数(TARC)、信道容量损失(CCL)和平均有效增益(MEG)方面都达到了适当的值。根据研究结果,拟议的多输入多输出系统似乎是毫米波 Ka 波段应用的潜在选择。
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来源期刊
Journal of Infrared, Millimeter, and Terahertz Waves
Journal of Infrared, Millimeter, and Terahertz Waves 工程技术-工程:电子与电气
CiteScore
6.20
自引率
6.90%
发文量
51
审稿时长
3 months
期刊介绍: The Journal of Infrared, Millimeter, and Terahertz Waves offers a peer-reviewed platform for the rapid dissemination of original, high-quality research in the frequency window from 30 GHz to 30 THz. The topics covered include: sources, detectors, and other devices; systems, spectroscopy, sensing, interaction between electromagnetic waves and matter, applications, metrology, and communications. Purely numerical work, especially with commercial software packages, will be published only in very exceptional cases. The same applies to manuscripts describing only algorithms (e.g. pattern recognition algorithms). Manuscripts submitted to the Journal should discuss a significant advancement to the field of infrared, millimeter, and terahertz waves.
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