Marek Bugaj scite author profile

Marek Bugaj

5Publications

52Citation Statements Received

9Citation Statements Given

How they've been cited

120

How they cite others

Affiliations

Military University of Technology in Warsaw

Publications

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Broadband Microstrip Antenna for 5G Wireless Systems Operating at 28 GHz

2020

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Communication systems have been driven towards the fifth generation (5G) due to the demands of compact, high speed, and large bandwidth systems. These types of radio communication systems require new and more efficient antenna designs. This article presents a new design solution of a broadband microstrip antenna intended for use in 5G systems. The proposed antenna has a central operating frequency of 28 GHz and can be used in the LMDS (local multipoint distribution service) frequency band. The dimensions of the antenna and its parameters have been calculated, simulated, and optimized using the FEKO software. The antenna has a compact structure with dimensions (6.2 × 8.4 × 1.57) mm. Rogers RT Duroid 5880 material was used as a substrate for the antenna construction, which has a dielectric coefficient of 2.2 and a thickness of 1.57 mm. The antenna described in the article is characterized by a low reflection coefficient of −22.51 dB, a high energy gain value of 3.6 dBi, a wide operating band of 5.57 GHz (19.89%), and high energy efficiency.

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HPEM susceptibility assessments of data storage devices

Przesmycki

Bugaj

Wnuk

2016

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Crescent Microstrip Antenna for LTE-U and 5G Systems

Przesmycki

Bugaj

2022

Electronics

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The field of wireless cellular network technology has seen a significant development in recent years, allowing the emergence of many new applications in addition to the traditional mobile phone calls. We are currently implementing the 5G system, which is replacing the previous cellular technologies on the market. Parallel to the development of cellular technologies, wireless local networks based on the IEEE 802.11× standards are rapidly spreading. The desire to use the advantages of both mobile telephony and wireless local networks has led to the idea of integrating the currently used communication systems in one device and requires a well-designed antenna, which should be given a lot of attention when designing the radio system. This article presents the proposed model of a two-band microstrip antenna for which the main assumption is its operating frequencies in the LTE-U (LTE-Unlicensed) band and one of the 5G system bands. The antenna dimensions and parameters have been calculated, simulated, and optimized using CST Microwave Studio software. The developed antenna has a compact structure with dimensions of (60 × 40 × 1.57) mm. The dielectric material RT Duroid 5880 with a dielectric constant εr = 2.2 and thickness h = 1.57 mm was used as a substrate for the antenna construction. The article presents an analysis of the results of simulation and measurements of selected electrical parameters and radiation characteristics of the proposed antenna. The antenna described in the article, working in 5G systems and LTE-U systems, is characterized by two operating bands with center frequencies equal to 3.52 GHz and 5.37 GHz, a low reflection coefficient (for resonances −31.54 dB and −23.16 dB), a gain value of 4.45 dBi, a wide frequency band of 3.0 GHz (68.18%), and a high energy efficiency in the range of 80–96.68%.

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Bandwidth Optimization of Aperture-Coupled Stacked Patch Antenna

Bugaj¹,

Wnuk²

2013

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Dual-band mobile phone antenna for RF protection of human head

Przesmycki

Bugaj

Nowosielski

et al. 2011

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Marek Bugaj

Broadband Microstrip Antenna for 5G Wireless Systems Operating at 28 GHz

HPEM susceptibility assessments of data storage devices

Crescent Microstrip Antenna for LTE-U and 5G Systems

Bandwidth Optimization of Aperture-Coupled Stacked Patch Antenna

Dual-band mobile phone antenna for RF protection of human head

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