Extended Investigations on a Compact, Isolation Enhanced, Printed MIMO Antenna for Higher Band 5G

被引：0

作者：

Ankan Bhattacharya

Bappadittya Roy

Arnab De

Ujjal Chakraborty

Saurav Mallik

机构：

[1] Hooghly Engineering & Technology College,Department of Electronics and Communications Engineering

[2] VIT-AP University,School of Electronics Engineering

[3] Vignan’s Foundation for Science,Department of Advanced Computer Science Engineering

[4] Technology and Research,Department of Electronics and Communication Engineering

[5] National Institute of Technology,Molecular and Integrative Physiological Sciences, Department of Environmental Health

[6] Harvard T. H. Chan School of Public Health,Department of Pharmacology and Toxicology

[7] University of Arizona,undefined

来源：

Wireless Personal Communications | 2024年 / 134卷

关键词：

Antenna; Broad bandwidth; Isolation enhancement; MIMO; Communication; 5G Technology;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The design of a printed 5G-MIMO antenna is an emerging research topic in networking and communication domain. In this script, a compact, printed, isolation enhanced, Multiple-Input-Multiple-Output or MIMO antenna for various 5G applications has been investigated. The antenna presented here is just 20 × 20 × 1 mm3 (1.87λ × 1.87λ × 0.09λ, λ being the wavelength of free space) in dimension. RT/duroid-5880 has been utilized as a substrate material. Two copper radiators, have been orthogonally positioned on the top of 1.0 mm thick substrate, for achieving diversity in polarization and radiation pattern. A bifurcated arrow shaped parasitic structure, has been placed between the radiators for isolation enhancement. The final antenna structure reflected a wide bandwidth of 28–56 GHz. The proposed antenna is applicable for 29.1–29.25 GHz, 31.0–31.3 GHz, 37.0–38.6 GHz, 38.6–40.0 GHz, and 42.0–42.5 GHz bands of 5G spectrum.

引用

页码：1093 / 1117

页数：24

共 122 条

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