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引用次数: 0
摘要
本文提出了一种双感应双端口宽带圆极化(CP)多输入多输出(MIMO)天线,设计用于 Wi-Fi 6E 应用。其主要创新点在于利用截断矩形孔径实现两个端口的 CP。通过在两个辐射器之间加入设计和空间分集以及有缺陷的接地结构,该设计提高了隔离度,并使天线能够根据所选的馈电端口产生左旋圆极化(LHCP)。所提出的 MIMO 矩形介质谐振器天线的阻抗匹配带宽(IBW)从 5.5 GHz 到 8.0 GHz(37.10%),轴向比带宽(ARBW)从 6.0 GHz 到 6.55 GHz(12.20%),令人印象深刻。此外,双端口宽带 CP MIMO 天线的分集性能参数也令人满意。为了验证模拟结果,我们制作了一个物理原型并进行了实验测试。制作模型的测量结果与模拟结果非常吻合,证实了设计的准确性。该模型具有 MIMO 和 CP 功能,并改进了隔离性能,因此在减少延迟和最大限度地降低多径衰落的影响方面大有裨益。因此,由于其宽广的 IBW 和重叠AR,它是未来使用 Wi-Fi 6E 频段的设备的绝佳选择。
Circularly polarized dual-port MIMO DRA for future Wi-Fi 6E applications
This research article proposes a dual-sense dual-port wideband circularly polarized (CP) multi-input multi-output (MIMO) antenna designed for Wi-Fi 6E applications. The main novelty lies in achieving CP for both ports using a truncated rectangular-shaped aperture. By incorporating design and spatial diversity and defective ground structure between the two radiators, the design improves isolation and enables the antenna to generate Left-Hand Circular Polarization (LHCP)depending on the selected feed port. The proposed MIMO rectangular dielectric resonator antenna demonstrates an impressive impedance-matching bandwidth (IBW)from 5.5 to 8.0 GHz (37.10%) as well as an axial ratio bandwidth (ARBW) covering from 6.0 to 6.55 GHz (12.20%). Additionally, the dual-port wideband CP MIMO antenna exhibits satisfactory diversity performance parameters. To validate the simulated results, a physical prototype is fabricated and subjected to experimental testing. The measured outcomes of the fabricated model align closely with the simulated results, confirming the accuracy of the design. With both MIMO and CP capabilities and improved isolation, this proposed model proves beneficial in reducing latency and minimizing the impact of multipath fading. Therefore, it stands as an excellent choice for future devices utilizing the Wi-Fi 6E band due to its broad IBW and overlappingAR.
期刊介绍:
The prime objective of the International Journal of Microwave and Wireless Technologies is to enhance the communication between microwave engineers throughout the world. It is therefore interdisciplinary and application oriented, providing a platform for the microwave industry. Coverage includes: applied electromagnetic field theory (antennas, transmission lines and waveguides), components (passive structures and semiconductor device technologies), analogue and mixed-signal circuits, systems, optical-microwave interactions, electromagnetic compatibility, industrial applications, biological effects and medical applications.
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