A Miniaturized Two-Element Monopole Mimo Filtantenna Array for V2V Applications

2021 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC) Pub Date : 2021-08-09 DOI:10.1109/APWC52648.2021.9539828

Sulaiman Tariq, H. Al‐Rizzo, Ahmad Abu Hantash, Skylar Redman, Andrew G. Lee

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Abstract

In this paper, we present a new filtantenna design consisting of two wire monopole antennas operating at 3.55 GHz integrated with a planar printed-circuit filter. The antenna array is intended for Vehicle-to-Vehicle (V2V) systems and can be easily installed on moving platforms. The filter is etched from the ground plane of the antenna mounting structure and consists of 25 mm × 15 mm outer rectangular frame that has a width of 0.5 mm. This frame encloses three parallel slots, 24.21 mm in length, inserted symmetrically inside the frame between the coaxial-fed monopole antennas. The slots are 0.5 mm in width and uniformly separated by 0.25 mm. The two monopoles have a height of 17.35 mm each, a diameter of 1.27 mm, both are separated by eight mm, which corresponds to λ/10.56, where λ is the free-space wavelength at 3.55 GHz. The monopoles and the filter are placed on a 90 mm × 90 mm × 3.175 mm RO5880 substrate with a dielectric constant of 2.2 and a loss tangent of 9 ×10 −4 . The filtantenna array provides 26.6% matching impedance bandwidth below −10 dB centered at 3.84 GHz and 18% mutual coupling suppression bandwidth below −20 dB centered at 3.4 GHz. Figure 1 shows the simulated scattering parameters of the proposed filtantenna array design (decoupled antenna array) compared to the same antenna array without the printed-circuit filter (coupled antenna array) The operating bandwidth of the decoupled antenna array over which the matched impedance is below −10 dB and the mutual coupling is below −20 dB is 370 MHz extending from 3.33 GHz to 3.7 GHz. It can be seen that the matching impedance of the coupled array is above −10 dB while and the mutual coupling of the coupled antenna array has been reduced from −5.2 dB to −34.2 dB

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用于V2V应用的小型化双元单极Mimo滤波天线阵列

在本文中，我们提出了一种新的滤波天线设计，由工作频率为3.55 GHz的两根单极线天线和一个平面印刷电路滤波器组成。天线阵列用于车辆对车辆(V2V)系统，可以很容易地安装在移动平台上。滤波器在天线安装结构的接地面上蚀刻，由25mm × 15mm的矩形外框组成，宽0.5 mm。该框架包含三个平行槽，长度为24.21毫米，对称地插入框架内同轴馈电单极天线之间。槽位宽度为0.5 mm，槽位间距均匀为0.25 mm。这两个单极子的高度为17.35 mm，直径为1.27 mm，两者相距8 mm，对应于λ/10.56，其中λ为3.55 GHz的自由空间波长。单极子和滤波器被放置在90mm × 90mm × 3.175 mm的RO5880衬底上，其介电常数为2.2，损耗正切为9 ×10−4。滤波天线阵列在3.84 GHz处提供26.6%的小于−10 dB的匹配阻抗带宽和18%的小于−20 dB的3.4 GHz互耦抑制带宽。图1显示了所提出的滤波天线阵列(去耦天线阵列)与未加印刷电路滤波器的相同天线阵列(耦合天线阵列)的仿真散射参数。去耦天线阵列在匹配阻抗低于−10 dB和互耦低于−20 dB时的工作带宽为370 MHz，从3.33 GHz扩展到3.7 GHz。可以看出，耦合阵列的匹配阻抗在−10 dB以上，而耦合天线阵列的互耦从−5.2 dB降低到−34.2 dB

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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2021 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC)

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