Multi-Band Mm-Wave Antenna for 5g-Wigig Communication Systems

Abdelatif, Nada; Zamel, Hany M.; Attiya, Ahmed M.; Awamry, Amr A.

doi:10.2528/pierc19121806

Cited by 6 publications

(3 citation statements)

References 9 publications

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“…The work in Abdelatif et al (2020) presents a new multiband rectangular dielectric resonator antenna that consists of a stacked radiator etched with semi-circular slots on the left and right sides of an upper radiator. In addition to this, a microstrip patch antenna with semi-elliptical slots rectangular in shape having similar measurements is designed for comparison.…”

Section: Related Workmentioning

confidence: 99%

MIMO antenna miniaturization standards for future 5G

Katragadda

Jayasree

2021

IJIUS

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PurposeThe fifth-generation technology 5G, the planned successor to 4G, is a new global standard for mobile networks that brings virtual to reality. 5G wireless technology enables the delivery of high speed, low latency, reliability, 100% coverage and availability to connect number of users as in massive IoT applications.Design/methodology/approachWith expeditious development in wireless communication, the need for enhanced characteristic antenna design such as the size of the antenna, high data rate, demand in traffic, bandwidth, gain and efficiency increases. Various antenna designs are to be explored to meet the needs and achieve trade-offs between antenna size vs cost, high gain and efficiency vs less loss, high B.W and data rate with the selection of appropriate substrate materials and various gain & isolation enhancement techniques.FindingsThis paper thus gives scope for miniaturized MIMO antenna design for mobile applications at mm-wave frequency range.Originality/valueThis paper thus gives scope for miniaturized MIMO antenna design for mobile applications at mm-wave frequency range.

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Section: Related Workmentioning

confidence: 99%

MIMO antenna miniaturization standards for future 5G

Katragadda

Jayasree

2021

IJIUS

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“…Because the available bandwidth is substantially bigger than the occupied Extended author information available on the last page of the article frequency of the radio spectrum, it will deliver much higher data rates and wider channels to many users [5]. The studies clarify that the optimum solution for 5G cellular communications is found to be in the mm-wave range between 28 and 38GHz [6].…”

Section: Introductionmentioning

confidence: 99%

Quad-port 28/38 GHz Antenna with Isolation Improvement for 5G Wireless Networks

Ahmed,

Ibrahim

et al. 2024

J Infrared Milli Terahz Waves

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A 28/38 GHz quad-port cross-shaped antenna printed on a 0.203 mm Roger RO4003 substrate is designed and fabricated for 5G networks. The antenna consists of a rectangular patch radiator with three triangle slots to enhance the antenna's impedance matching. The four elements are arranged in a cross-shaped layout to achieve the desired compactness of 29 mm × 24.2 mm × 0.203 mm. A thin parasitic strip is inserted between the second and fourth elements to enhance the port isolation. The designed antenna is simulated by utilizing the CST simulator. The antenna achieved S11 < -10 dB at 28 / 38 GHz, with isolation ≥ 20 dB. Furthermore, the E- and H-planes within the anechoic chamber are evaluated to validate the MIMO antenna radiation patterns and gain. The MIMO parameters are calculated, simulated, tested, and its outcomes are under the standard level which confirms the MIMO diversity feature. The ECC of the structure is < 0.001, the DG ≥ 9.95 dB. and the CCL was ≤ 0.2 bit/s/Hz across the dual working band.

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“…Ultra-wideband (UWB) communication systems like UWB banded antennas [4]. In [5], multi-band mm-wave antenna to combine 5 G with Wi Gig apps in mobile or tablet applications at 38GHz and 60GHz. In [6], 2×2 MIMO antenna array for 5G applications tri-band is presented.…”

Section: Introductionmentioning

confidence: 99%

New Ultra wideband Butterfly Patch Antenna for Application of Upgrading Mobile Networks

Alnmr

2021

The Egyptian International Journal of Engineering Sciences and

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This paper presents a compact Butterfly patch Antenna which covers 4G, 5G, 6G and millimetre wave bands. The patch radiator is shaped from butterfly which consists of three ellipses and fine circles. The study of a single element and two MIMO elements are presented to obtain the radiation characteristics of the proposed antennas. In this paper it will be used Roger RT/5880 substrate to achieve the ultra-wide band applications. Such that the Roger RT/5880 substrate material with dielectric constant = 2.2. The proposed antenna cover bands (5-57.2GHz), (57.2-63.9 GHZ) and (63.9-270GHz) .The antenna has achieved maximum gain is about 10dB. The single and MIMO antenna is modelled and simulated by CST ® 2020 and the result compared by HFSS simulation program.

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Multi-Band Mm-Wave Antenna for 5g-Wigig Communication Systems

Cited by 6 publications

References 9 publications

MIMO antenna miniaturization standards for future 5G

MIMO antenna miniaturization standards for future 5G

Quad-port 28/38 GHz Antenna with Isolation Improvement for 5G Wireless Networks

New Ultra wideband Butterfly Patch Antenna for Application of Upgrading Mobile Networks

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