Idrish Shaik scite author profile

In the present era of wireless communication networks, the key area of concern is always the need for faster data rates to meet the growing requirements. The 5G standards have the fortitude to bring about rapid data transfer speeds, instantaneous connectivity, large data capacities, and minimal latency. In this paper, a novel octal patch integrated with a bow-tie parasitic antenna element with full ground plane that incorporates a microstrip dual band antenna was proposed for 5G n257/n261/n259 and n260 band applications. This bow-tie parasitic antenna element integrated octal patch single and MIMO antenna structure was mounted on an RT Duriod 5880 (ε r = 2.2, loss tangent = 0.0009) with dimensions of 7.5 × 9.9 × 0.9 mm 3 and 7.5 × 19.8 × 0.9 mm 3 (0.67λ × 1.75λ × 0.07λ, where λ is considered at the lowest operating tuned frequency). A decoupling element was precisely placed in the core of a two-element MIMO antenna to reduce the mutual coupling. This embedded antenna radiating structure resonated in dual bands ranging 26. GHz with a center frequency of 28 GHz and 40.2 GHz, respectively. This achieves a bandwidth of 2.85 GHz (10.3%) and 4.29 GHz (10.75%) at the dual bands. The maximum gains were 7.9 dBi and 6.97 dBi, and greater than 92% efficiency was obtained over the dual bands. From the results extracted from the proposed antenna, it was found that the antenna is capable of covering the 5G NR n257/n261/n259 and n260 bands with significant bandwidth, gain, isolation, ECC, DG, TARC, multiplexing efficiency, CCL MEG, and radiation efficiency. Thus, the antenna can be considered a potential contender for 5G millimeter wave wireless communication systems.

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A Novel Quadrangular Slotted DGS with a Wideband Monopole Radiator for Fifth-generation Sub-6 GHz Mid-band Applications

Shaik¹,

Veni²

2023

PIER C

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The demand for high data rate, good channel capacity, and reliability is always the primary area of concern in the modern era of wireless communication systems. The 5G standards have the fortitude to bring about rapid data transfer speeds, instantaneous connectivity, large data capacities, and minimal latency. In this paper, a novel quadrangular slotted defected ground structure (QSDGS) that incorporates a wide band microstrip antenna (WMA) was proposed for 5G n46/n47/n79 and n102 band applications. The DGS was represented on the ground plane by four rectangular looped slots. An inset feeding technique was employed on this slotted patch antenna. This DGS loaded patch antenna structure was mounted on an RT Duriod 5880 (ε r = 2.2, loss tangent = 0.0009) with dimensions of 33 × 29 × 1.5 mm 3 (0.44λ × 0.38λ × 0.02λ, where 'λ' is calculated at the lowest operating wavelength). This embedded antenna radiating structure resonated in a wide band ranging from 4.03 GHz to 6.32 GHz giving an impedance bandwidth of 2.3 GHz (50%), with a centre frequency of 4.44 GHz. The maximum gain was 4.7 dBi, and greater than 75% efficiency was obtained over the wide band. From the results extracted from the proposed antenna, it was found that the antenna was capable of covering the 5G NR n46/n47/n79 and n102 bands with significant bandwidth, gain, and efficiency. Thus, the antenna can be considered a potential contender for 5G mid-band wireless communication systems.

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Design and Analysis of a Compact 38 GHz Wideband Monopole Antenna for 5G mm-wave Wireless Applications

Shaik¹,

Veni²

2023

PIER C

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Performance of Error Correction Codes for 5G Communications

babu¹,

Shaik²,

Rao³

2020

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Idrish Shaik

A short review on recent models and requirements of antennas for 5G applications

A Compact Dual-band Octal Patch Loaded with Bow-tie Parasitic MIMO Antenna Design for 5G mm-Wave Wireless Communication

A Novel Quadrangular Slotted DGS with a Wideband Monopole Radiator for Fifth-generation Sub-6 GHz Mid-band Applications

Design and Analysis of a Compact 38 GHz Wideband Monopole Antenna for 5G mm-wave Wireless Applications

Performance of Error Correction Codes for 5G Communications

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