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2017, International Journal of Engineering Research and
Journal of Electrical and Electronic Engineering
A Novel Planar Slot Antenna Structure for 5G Mobile Networks ApplicationsELEKTRIKA- Journal of Electrical Engineering
A Slotted Planar Antenna for 5G ApplicationsThis paper presents a slotted planar microstrip patch antenna for the 5th generation communication. The planar microstrip patch antenna is designed with a square patch and two longitude slots at 3.5 GHz, using FR4 substrate and feds by a coplanar waveguide structure (CPW). The proposed antenna was simulated, analysed, and optimized using computer simulation technology (CST) software. Simulation results show a good return loss of greater than10 dB and impedance bandwidth of about 650MHz, which meet the requirements of future 5G applications. In this work, the geometry of the presented antenna and its related parameters are presented and discussed
TELKOMNIKA Telecommunication Computing Electronics and Control
Design of a microstrip antenna patch with a rectangular slot for 5G applications operating at 28 GHz2022 •
In this paper, we present a study and design of a rectangular-shaped microstrip patch antenna with a rectangular shaped slot at the operating frequency is 28GHz, for fifth generation (5G) wireless applications, using the microstrip line technique for feeding. The objective of this slot is to contribute to the improvement of antenna performance. This antenna is built on a Roger RT duroid 5880 type substrate having a relative permittivity equal to 2.2, a height of h = 0.5 mm, and a loss tangent of 0.0009. The compact size of this antenna is 4.2 mm × 3.3 mm × 0.5 mm. The simulations of this antenna were performed using high-frequency structure simulator (HFSS) and computer simulation technology (CST) software whose main purpose is to confirm the results obtained for this proposed antenna. The results obtained during these simulations are as follows: resonant frequency of 27.97 GHz and reflection coefficient (11) of-20.95 dB, bandwidth of 1.06 GHz, a gain of 7.5 dB, radiated power of 29.9 dBm, and efficiency of 99.83%. These results obtained by this proposed antenna are better than those obtained from already existing antennas that are published in current scientific journals. Consequently, this antenna is likely to satisfy the needs for 5G wireless communication applications.
IOP Conference Series: Materials Science and Engineering
Design of Multi-band Slotted mmWave Antenna for 5G Mobile Applications2020 •
In this paper, the design of a compact microstrip patch antenna for the 5G communication is proposed. The proposed antenna has a compact structure of 10×10×0.245 mm3 including the ground plane. The operating frequency for the antenna is in the 30 GHz band, which covers the 5G proposed band regarding the signal speed and data transmission, as well as the high spectral efficiencies. By using CST software, the analysis and performance of the antenna on a FR-4 dielectric substrate has been presented. Simulations show that the reflection coefficient of all operating frequencies is below -14 dB, which met the requirments of future 5G applications. In this work, the geometry of the presented antenna and its related parameters such as S-parameters and radiation pattern plots as well as gain values are presented and discussed in detail.
International Journal of Informatics and Communication Technology (IJ-ICT)
Review Paper on Different Dual Band Printed Slot Antenna for 5G Wireless CommunicationBulletin of Electrical Engineering and Informatics
Design and analysis of microstrip patch antenna for 5G wireless communication systems2022 •
Due to lower latency, greater transmission speed, wider bandwidth, and the possibility to connect with greater multiple devices, fifth-generation (5G) networks are far better than 4G. In this study, a microstrip patch antenna operating at 28 GHz is investigated and modeled for future 5G communication technologies. The substrate used in this work for the antenna is Rogers RT/Duroid5880. Dielectric of the substrate is 2.2 and thickness is 0.3451 mm. CST software is used to simulate the antenna as it is convenient to use. From the simulation, the return loss, gain, radiation efficiency, sidelobe level was found to be-38.348 dB, 8.198dB, 77%, and-18.3 dB respectively. The result found from this simulation is better than the works took place in the past. As a result, it can be utilized as a capable candidate for 5G wireless technology. The results of this proposed antenna are superior to those of existing antennas published in recent scientific journals. As a result, it's likely that this antenna will meet the needs of 5G wireless communication systems.
This paper is embedded with microstrip patch antenna that is constructed for future 5G wireless communications. The antenna has a compressed structure of 11mm x 8 mm x 0.5mm, including the ground plane. This antenna is designed using Rogers RT/duroid 5880 substrate used as dielectric material with a miniaturized size of 4.4mm x 3.3mm. Its dielectric constant is 2.2 and has thickness of 0.5 mm. This microstrip patch antenna resonates at frequencies of 28 GHz and 50 GHz. The antenna is simulated by using high frequency structure simulator. The antenna provides a gain of 2.6dB. The structure of antenna and various specifications such as return loss, vswr, gain plot and radiation pattern are discussed.
Journal of Telecommunication, Electronic and Computer Engineering
Design of a Broadband Microstrip Array Antenna for 5G Application2020 •
This paper presented a study that analyses the enhancement of high gain microstrip array antenna for 5G applications operating at 28 GHz designed to meet the ETSI standardization. It is expected that the gain must be high at high operating frequency so that it can compensate the propagation path loss. The objective of this study was to design a 16-element microstrip array antenna located at the top of antenna as a rectangular patch. Aiming to achieve low loss and high antenna efficiency, the material used for the proposed design was Roger 5880 materials with the permittivity of 2.2 and thickness of 0.25. Initially, a rectangular microstrip array antenna with 4 elements was designed. After analyzing the outcomes of antenna features such as reflected loss, efficiency and antenna gain, the 4 elements array were transformed into 8 elements array. To achieve high gain, it was then transformed into 16 elements array. Based on EM analysis using CST software, it was found that the proposed ...
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Journal of Research in Engineering and Applied Sciences
A T-Shaped Rectangular Microstrip Slot Antenna for Mid-Band and 5G Applications2021 •
International Journal of Wireless and Microwave Technologies
Analysis the effect of Changing Height of the Substrate of Square Shaped Microstrip Patch Antenna on the Performance for 5G ApplicationJournal of the University of Shanghai for Science and Technology
A Modified Rectangular Mid-band Microstrip Slot Antenna for WLAN, WiFi and 5G Applications2021 •
International Journal of Scientific & Technology Research
Performance Analysis Of E- Shape And 5G Microstrip Patch Antennas2020 •
2021 International Conference on Electronics, Communications and Information Technology (ICECIT)
A Wideband Microstrip Line Feed Slotted Patch Antenna for 28 GHz 5G ApplicationsInternational Journal of Emerging Trends in Engineering Research
A Compact Microstrip Patch Antenna using DGS for 5G ApplicationsEngineering, Technology & Applied Science Research
A Super High Gain L-Slotted Microstrip Patch Antenna For 5G Mobile Systems Operating at 26 and 28 GHz2022 •
2022 •
Bulletin of Electrical Engineering and Informatics
Design compact microstrap patch antenna with T-shaped 5G application2021 •
IOP Conference Series: Materials Science and Engineering
A Millimeter Wave based Circular Slot Loaded Microstrip Patch Antenna for 5G Communication2019 •
International Journal of Advanced Computer Science and Applications
Design of Multi-band Microstrip Patch Antennas for Mid-band 5G Wireless Communication2021 •
Indonesian Journal of Electrical Engineering and Computer Science
Miniaturised tri-band microstrip patch antenna design for radio and millimetre waves of 5G devicesSolid State Technology
Design of Multisegmented Dual Band Microstrip Patch Antenna for 5G Application2020 •
2020 •
Journal of Nano and Electronic Physics
Modeling a Square Slotted Antenna for 5G Applications using an Equivalent Circuit Approach2023 •
International Journal of Electrical and Computer Engineering (IJECE)
Broadband microstrip patch antenna at 28 GHz for 5G wireless applications2021 •
International Journal for Research in Applied Science and Engineering Technology (IJRASET)
Design of Broadband Microstrip Patch Antennas For Wireless System2022 •
The Annals of “Dunarea de Jos” University of Galati. Fascicle III, Electrotechnics, Electronics, Automatic Control and Informatics
Design of a HR Shaped Patch Antenna with DGS For 5G Applications2019 •
IOP Conference Series: Earth and Environmental Science
Design of a Small Patch Antenna at 3.5 GHZ for 5G Application2019 •
3RD INTERNATIONAL SCIENTIFIC CONFERENCE OF ALKAFEEL UNIVERSITY (ISCKU 2021)
Optimization of rectangular microstrip antenna patch parameters to operate with high radiation performances for 5G applicationsInternational Journal of Engineering and Advanced Technology
SSR Based Slotted Patch Antenna with Integrated Wave Guiding structure for 5G Application2019 •
MATEC Web of Conferences
Designing a tri-band microstrip antenna for targetting 5g broadband communicationsJournal of Nano- and Electronic Physics
Investigation of Equivalent Circuit Model for a 5G Microstrip Patch Antenna2021 •