An isolation-enhanced quad-element antenna using suspended solid wires for LTE small-cell base stations

Chen, Yen‐Sheng; Zhou, Huang-Cheng

doi:10.1002/2016rs006206

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…Another important performance index for 5G base stations is the envelop correlation coefficient (ECC) between ports i and j, denoted by ρ ij . The ECC can be expressed in terms of the S-parameters [38]: (1) where . This expression provides predictions in several experimental environments, especially indoor environments with rich multipath propagation, which are the aim of the 5G base stations.…”

Section: B Performancementioning

confidence: 99%

Dual-Band Dual-Polarized Scalable Antenna Subarray for Compact Millimeter-Wave 5G Base Stations

Lai

Chen

2020

IEEE Access

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A dual linearly-polarized antenna subarray that operates at 28 GHz and 38 GHz is proposed for fifth generation (5G) base stations. In contrast to earlier millimeter-wave base-station antennas that implement individual single-band antennas, simultaneous realization of dual-band operation can save space and cost. In addition, the proposed subarray depicts dual polarizations, improving signal reliability through polarization diversity. Furthermore, the proposed subarray is scalable and expandable in size and aperture. The proposed antenna subarray consists of 2 × 2 dual off-center-fed dipoles. The dual-band feature is obtained by tailoring the structure for expanding current pathways and impedance bandwidths. Accordingly, the impedance bandwidths for the lower and higher bands are 27.2-30.2 GHz and 35.7-40.3 GHz, respectively. When uniformly-distributed currents are excited, the proposed antenna shows broadside radiation with peak gain of 13.1 dBi at 28 GHz and 13.2 dBi at 38 GHz. When various current phases are excited, the subarray provides a scanning range of ±18°. The scalability is demonstrated by an example large-scale array that comprises 4 × 4 elements. The S-parameters are robust, and the gain is enhanced as 19.6 dBi at 28 GHz and 17.8 dBi at 38 GHz. Meanwhile, a broader scanning range of ±45° can be obtained. INDEX TERMS 5G mobile communication, antenna arrays, base stations, multifrequency antennas.

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Section: B Performancementioning

confidence: 99%

Dual-Band Dual-Polarized Scalable Antenna Subarray for Compact Millimeter-Wave 5G Base Stations

Lai

Chen

2020

IEEE Access

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Muli‐UWB Antenna System Design for 5G Wireless Applications with Diversity

Daghari

Essid

Sakli

2021

Wireless Communications and Mobile Computing

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In this paper, we propose a compact Multiple Input Multiple Output (MIMO) antenna system with high isolation for wireless applications in 5G connected devices. This MIMO antenna system with the size of 92 × 88 m m 2 consists of two elliptical antennas symmetrically arranged next to each other. Two decoupling methods which are neutralization and Defected Ground Structure (DGS) are applied to ensure diversity of the proposed MIMO antenna. The single and MIMO antennas are simulated and analyzed then fabricated and measured. A good agreement between measurements and simulations is obtained. These configurations, dedicated to covering the 3.4 GHz band -3.8 GHz, have shown very satisfactory performances more than -30 dB in terms of reduction of mutual coupling between the antennas constituting our system. MIMO diversity parameters, such as Envelope Correlation (ECC), Diversity Gain (DG), and total efficiency, are also studied for each proposed MIMO system. Thus, results demonstrate that our two proposed antenna configurations are very suitable for 5G MIMO applications.

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An isolation-enhanced quad-element antenna using suspended solid wires for LTE small-cell base stations

Cited by 2 publications

References 22 publications

Dual-Band Dual-Polarized Scalable Antenna Subarray for Compact Millimeter-Wave 5G Base Stations

Dual-Band Dual-Polarized Scalable Antenna Subarray for Compact Millimeter-Wave 5G Base Stations

Muli‐UWB Antenna System Design for 5G Wireless Applications with Diversity

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