Characteristic-Mode-Analysis-Based Compact Vase-Shaped Two-Element UWB MIMO Antenna Using a Unique DGS for Wireless Communication

J. Sens. Actuator Networks Pub Date : 2023-06-15 DOI:10.3390/jsan12030047

Subhash Bodaguru Kempanna, R. Biradar, Praveen Kumar, P. Kumar, Sameena Pathan, Tanweer Ali

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Abstract

The modern electronic device antenna poses challenges regarding broader bandwidth and isolation due to its multiple features and seamless user experience. A compact vase-shaped two-port ultrawideband (UWB) antenna is presented in this work. A circular monopole antenna is modified by embedding the multiple curved segments onto the radiator and rectangular slotted ground plane to develop impedance matching in the broader bandwidth from 4 to 12.1 GHz. The UWB monopole antenna is recreated horizontally with a separation of less than a quarter wavelength of 0.13 λ (λ computed at 4 GHz) to create a UWB multiple input and multiple output (MIMO) antenna with a geometry of 20 × 29 × 1.6 mm3. The isolation in the UWB MIMO antenna is enhanced by inserting an inverted pendulum-shaped parasitic element on the ground plane. This modified ground plane acts as a decoupling structure and provides isolation below 21 dB across the 5–13.5 GHz operating frequency. The proposed UWB MIMO antenna’s significant modes and their contribution to antenna radiation are analyzed by characteristic mode analysis. Further, the proposed antenna is investigated for MIMO diversity features, and its values are found to be ECC < 0.002, DG ≈ 10 dB, TARC < −10 dB, CCL < 0.3 bps/Hz, and MEG < −3 dB. The proposed antenna’s time domain characteristics in different antenna orientations show a group delay of less than 1 ns and a fidelity factor larger than 0.9.

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基于特性模式分析的小型花瓶型双元超宽带MIMO天线，采用独特的DGS实现无线通信

现代电子设备天线由于其多种功能和无缝的用户体验，对更宽的带宽和隔离提出了挑战。在这项工作中提出了一个紧凑的花瓶形双端口超宽带(UWB)天线。通过在辐射体和矩形开槽接平面上嵌入多个弯曲段，改进了圆形单极天线，在4 ~ 12.1 GHz更宽的带宽范围内实现了阻抗匹配。以低于四分之一波长0.13 λ (λ在4 GHz计算)的距离水平重建UWB单极天线，以创建几何形状为20 × 29 × 1.6 mm3的UWB多输入多输出(MIMO)天线。在UWB MIMO天线中，通过在地平面上插入一个倒摆形的寄生元件来增强天线的隔离性。这种改进的地平面作为去耦结构，在5-13.5 GHz工作频率范围内提供低于21 dB的隔离。通过特征模式分析，分析了所设计的超宽带MIMO天线的重要模式及其对天线辐射的贡献。进一步研究了MIMO分集特性，发现其值为ECC < 0.002, DG≈10 dB, TARC < - 10 dB, CCL < 0.3 bps/Hz, MEG < - 3 dB。该天线在不同方向的时域特性表明，群延迟小于1ns，保真系数大于0.9。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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J. Sens. Actuator Networks

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