O. Sokunbi, Hussein Attia, Abubakar Hamza, A. Shamim, A. Kishk
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引用次数: 0
摘要
提出了一种低成本的创新MIMO天线结构,具有最小的辐射元件之间的间隔和在宽频带上的高隔离。在辐射贴片上蚀刻几个具有不同形式、位置和尺寸的精确设计槽,以提高30-41 GHz阻抗带宽的毫米波频段内元件间的隔离。这使得元件隔离优于70 dB,元件间距为0.2 mm (30 GHz时为0.02A)。通过设计一个1x2 MIMO阵列,验证了所提出的自隔离方法。创新毫米波天线在期望带宽上具有以下特点:高阻抗带宽(30%)和低互耦(70 dB)。据作者所知,目前的设计首次在毫米波频率范围内展示了这种宽带隔离增强,而无需任何复杂的去耦结构,如超材料或频率选择表面。
Self-Isolated Multiple-Input-Multiple-Output Antenna for mm-Wave Applications
A low-cost innovative MIMO antenna configuration with minimal separation between the radiating elements and high isolation over a wide frequency band is presented. Several precisely designed slots with various forms, locations, and sizes are etched on the radiating patches to improve inter-element isolation throughout the mm-wave band of 30–41 GHz impedance bandwidth. This achieved elements isolation better than 70 dB with an inter-element spacing of 0.2 mm (0.02A at 30 GHz). The suggested self-isolation method is validated by designing a 1x2 MIMO array configuration. The innovative mm-wave antenna has the following characteristics over the desired bandwidth: high impedance bandwidth (30%) and low mutual coupling (70 dB). To the authors' knowledge, the present design is the first to demonstrate such broadband isolation enhancement in the mm-wave frequency range without any sophisticated decoupling structure such as metamaterial or frequency-selective surface.
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