A novel dual band high gain 4-port millimeter wave MIMO antenna array for 28/37 GHz 5G applications

“…So, by introducing a MIMO system with high isolation between antenna elements, the overall performance of the system as high data rate, high capacity, lower multipath effect, and reliability can be improved [14][15][16]. Recently, a dual-band 28/38 GHz MIMO antenna is developed by researchers [7,12,[17][18][19][20][21][22][23][24][25][26][27]. In [7], dual bands 27/39 GHz MIMO antenna with two elements, isolation higher than 25 dB, and peak gain around 5 dBi is introduced.…”

Section: Introductionmentioning

confidence: 99%

“…A dual-band 28/38 GHz slot MIMO antenna with two elements and isolation higher than 20 dB is introduced [21]. In [22], four ports dual-band 28/38 GHz antenna with more than 20 dB isolation and peak gain more than 7 dBi is accomplished. A dual-band four ports antenna worked at 28/38 GHz with isolation around 25 dB and peak gain higher than 5 dBi is discussed in [23].…”

Section: Introductionmentioning

confidence: 99%

Minimally Coupled Two-Element MIMO Antenna with Dual Band (28/38 GHz) for 5G Wireless Communications

Sabek

Ali

Ibrahim

2022

J Infrared Milli Terahz Waves

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This paper presents a dual-band 28/38 GHz two elements multiple-input multiple-output (MIMO) antenna with high isolation for 5G applications. The suggested antenna is a monopole with rectangular and triangle stubs added to the patch and a partial ground plane to achieve the dual band’s behavior. Two elements of the suggested antenna are combined and placed orthogonally to achieve the high isolation features of the MIMO configuration at 28/38 GHz. The MIMO configuration has a size of 27.65 $$\times$$ × 12 $$\times$$ × 0.273 mm3. The suggested MIMO prototype is fabricated and tested. The tested results achieved dual frequency bands with S11 lower than − 10 dB within two frequency bands (26–30 GHz and 36–41.5 GHz) and S21 lower than − 20 dB through the two operated bands. The suggested antenna has semi-omnidirectional radiation patterns in both planes. As well, its measured peak gain is 5.2 dBi and 5.3 dBi at the two operated frequency bands, respectively. Also, the MIMO parameters are extracted to validate the simulated results. The simulated and tested results have a good matching within the two operating bands which suggests the proposed structure be utilized in 5G communications.

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“…In [14], An array antenna is tested and analyzed for the 5G mmwave applications. In [15], A dual band MIMO antenna is proposed over 5G bands. The antenna showed better performance in terms of gain and bandwidth, but it suffers from radiation efficiency.…”

Section: Introductionmentioning

confidence: 99%

A Flower-Shaped Quad-Port Dual-Band MIMO Antenna of 29/39 GHz Millimeter-Wave for 5G Applications

Ghazaoui¹,

Ghzaoui²,

Bri³

et al. 2022

J. Nano- Electron. Phys.

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This research presents a flower-shaped design of a multi-input multi-output (MIMO) antenna with dual wide operating bands in the millimeter-wave (MMW) region proposed for 5G applications. The antenna system consists of a quad-port antenna array placed with a 90-degree shift; it was etched on a low-cost FR-4 dielectric substrate with a full size of 22221 mm 3 . The objective of this work it to enhance the bandwidth of the proposed MIMO antenna as well as to increase the antenna gain. To increase the gain, we used multiple single antennas and to enhance the bandwidth we added some slots to the suggested antennas. The array antennas are designed to provide dual-band operation at the frequencies of 29 GHz (n257) and 39 GHz (n259). The results are simulated using HFSS, acceptable gain reaches 3.04 dB and 8.11 dB in the first and second bands, respectively, while the impedance bandwidth achieved by the design is about 1600 MHz (28.9-30.5 GHz) at 29.8 GHz and about 2330 76 GHz) at 39.6 GHz with a reflection coefficient S11 of about -16.20 dB and -19.27 dB, respectively. The proposed antenna can be a desire choice for 5G applications because of its low cost, small size, high performance in terms of bandwidth and gain.

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A novel dual band high gain 4-port millimeter wave MIMO antenna array for 28/37 GHz 5G applications

Cited by 97 publications

References 31 publications

Simultaneous matching, decoupling, and miniaturization in MIMO antenna by loading a folded cross resonator

Simultaneous matching, decoupling, and miniaturization in MIMO antenna by loading a folded cross resonator

Minimally Coupled Two-Element MIMO Antenna with Dual Band (28/38 GHz) for 5G Wireless Communications

A Flower-Shaped Quad-Port Dual-Band MIMO Antenna of 29/39 GHz Millimeter-Wave for 5G Applications

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