Substrate Analysis on the Design of Wide-Band Antenna for Sub-6 GHz 5G Communication

Tütüncü, Bilal; Kösem, Mahmut

doi:10.1007/s11277-022-09619-9

Cited by 13 publications

(4 citation statements)

References 27 publications

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“…The bandwidth obtained is narrow bandwidth. Also, increased surface-wave power; consequently, low gain and radiation efficiency is obtained [12]. • If the thickness of the substrate is increased, the size of the antenna is larger since the wavelength increased.…”

Section: Effect Of Dielectric Constant Substrate Thickness and Patch ...mentioning

confidence: 99%

Analysis of Substrate and Shapes of Microstrip Antenna for 5G Wireless Communication

Varalakshmi

2023

Preprint

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In recent years, the analysis of microstrip patch antenna (MPA) has bloomed the wireless communication. Since there are more compact gadgets in the wireless technology, more antenna come into existence with varying configuration and space orientation. The compactness proposed for the design of MPA becomes more challenging task for proper alignment, flexibility in feeding the line. MPA finds more advantageous than the earlier antenna with huge structures, which are likely installed at the proper height. The proposed radiator analysed for three shapes (rectangle, circle and triangle). In addition, the radiator analysed for different substrates such as Arlon, Epoxy, FR4, Polymide and Rogger 5880 using the software CST studio software 2019. The height if the dielectric layer is 1.6 mm.

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Section: Effect Of Dielectric Constant Substrate Thickness and Patch ...mentioning

confidence: 99%

Analysis of Substrate and Shapes of Microstrip Antenna for 5G Wireless Communication

Varalakshmi

2023

Preprint

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“…Two frequency bands can be used in the 5G network: the millimetre wave range and sub-6 GHz (1-6 GHz). However, the 5G sub-6 GHz spectrum is more favourable than the millimetre wave spectrum since lower frequency signals can easily penetrate objects such as buildings, resulting in a better coverage area [5][6][7][8]. Also, this spectrum supports the current 3G and 4G infrastructure [9].…”

Section: Introductionmentioning

confidence: 99%

Silicone rubber‐nanoceramic composites for 5G antenna substrates

Altalebi,

Atiyah,

Farid

2023

The Journal of Engineering

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Here, the eligibility of silicone rubber‐nanoceramic composites as flexible substrates for sub‐6 GHz 5G antennas is investigated. Two different composites are prepared using the solution mixing method, namely mono and hybrid composites. The reflection and transmission coefficient (S‐parameters) of composites are measured using a rectangular waveguide‐based transmission line technique in conjunction with a Vector Network Analyzer (VNA) at C‐band frequencies (4–8 GHz). The Nicolson–Ross–Weir (NRW) algorithm is adopted to extract the complex permittivity and loss tangent of the material under test. Due to the synergetic effect, the silicone rubber hybrid composite (0.12BiVO4+0.12LaNbO4) exhibits the advantage of a lowered loss tangent while retaining a good dielectric constant at 5.78 GHz. A rectangular microstrip patch antenna is designed and simulated with CST software using 0.12BVO/0.12LNO/0.76SR composite as a substrate. Moreover, based on the simulation, the antenna with the proposed substrate has acceptable performance at 5.78 GHz with the return loss, directivity, and gain of −25.05 dB, 5.46 dBi and 2.74 dBi, respectively. As a result, the composite material's ability to act as a suitable substrate for a 5 GHz Wi‐Fi antenna is confirmed.

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“…The antenna dimensions are 45 × 40 × 0.508 mm 3 , and it provides gain values of 1.95, 3.76, and 7.35 dBi, respectively. A radiating MPA is introduced in 20 for conventional sub-6 GHz/5G applications. It uses an Arlon-AD 300C substrate with a 52.92 × 55.56 × 1.2 mm 3 antenna size and achieves a gain value of 7.15 dBi at a frequency of 5.65 GHz.…”

Section: Introductionmentioning

confidence: 99%

Engineering planar antenna using geometry arrangements for wireless communications and satellite applications

El-Hakim,

Mohamed

2023

Sci Rep

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A triple-band microstrip patch antenna designed for the IEEE 802.16e WiMAX, IEEE 802.11a WLAN, C-band downlink communications, and Ku-band radar recent applications is suggested in this article. The planned antenna operates at 2.45, 6, and 14 GHz resonant frequencies. The antenna fulfilled triple-band physical characteristics covering industrial, scientific, and medical (ISM) bands between (2.1–2.8) GHz; (5.6–6.5) GHz for wireless local area network (WLAN) or ultra-wideband (UWB) services; and 12.7–16 GHz for future two-way 5G:6G either broadcasting or mobile satellite communications. To achieve better return loss performance, parametric studies are carried out using Microwave Studio (CST MWS). The proposed antenna is designed on the FR4 as a hosting medium of total size 46 × 38 × 1.6 mm3, combined with a planar transmission line (T.L.) feed and defected ground structure (DGS). The simulated antenna’s input reflection coefficient (S11) results and the far-field measurements show good agreement. The fabricated prototype achieves peak gain values of 2.8, 3.8, and 4.7 dBi, respectively, and bidirectional radiation characteristics. A comparative study with other recent publications is implemented to validate the consistency of the design.

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Substrate Analysis on the Design of Wide-Band Antenna for Sub-6 GHz 5G Communication

Cited by 13 publications

References 27 publications

Analysis of Substrate and Shapes of Microstrip Antenna for 5G Wireless Communication

Analysis of Substrate and Shapes of Microstrip Antenna for 5G Wireless Communication

Silicone rubber‐nanoceramic composites for 5G antenna substrates

Engineering planar antenna using geometry arrangements for wireless communications and satellite applications

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