A Novel Lumped Lc Resonator Antenna With Air-Substrate for 5g Mobile Terminals

Kamal, Shahanawaz; Mohammed, Abdullahi S. B.; Ain, M.F.; Najmi, Fathul; Hussin, Roslina; Ahmad, Zainal Arifin; Ullah, Ubaid; Othman, Mohammadariff; Rahman, and Mohd Fariz Ab

doi:10.2528/pierl19090509

Cited by 6 publications

(3 citation statements)

References 21 publications

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“…The ME dipole described in [19] accomplished a bandwidth >14 GHz, but it occupied a large area of ~12𝜆 along with a complex design. Likewise, the lumped LC resonators [21] and the traveling-wave [31], helical [33], and hybrid helical-spiral [35] structures left a considerable footprint. In contrast with the recent ME dipole antennas presented in [57][58][59][60], the proposed antenna outperforms in terms of its simple design, low cost, compact size, and large bandwidth.…”

Section: Comparison and Discussionmentioning

confidence: 99%

“…Research demonstrates that wideband antennas can be realized with complementary structures [18], magneto-electric (ME) dipoles [19], slotted radiators [20], lumped LC resonators [21], parasitic elements [22], and a reactive impedance surface [23]. However, most of these methods exhibit spurious coupling, low gain, design complexity, or a large footprint.…”

Section: Introductionmentioning

confidence: 99%

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A Low-Profile Quasi-Loop Magneto-Electric Dipole Antenna Featuring a Wide Bandwidth and Circular Polarization for 5G mmWave Device-to-Device Communication

Kamal

Ain

Ullah

et al. 2022

J Electromagn Eng Sci

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The deployment of the millimeter (mmWave) frequency spectrum by fifth-generation (5G) device-to-device (D2D) wireless networks is anticipated to meet the growing demands for increased capacity. The antenna is regarded of as an important determinant that guarantees the maximum performance of wireless communication. This paper presents a low-profile magneto-electric (ME) dipole antenna for 5G mmWave D2D communication. A single-element quasi-loop radiator was designed to excite horizontal polarization, and a coaxial probe was used to produce vertical polarization. Subsequently, the structure of the radiator was transformed into a two-element quasi-loop antenna to achieve an omnidirectional radiation pattern with relatively enhanced gain. A coaxially fed T-junction microstrip element was implemented to equally distribute the signal between the two quasi-loop radiators and attain proper impedance matching. Furthermore, a pair of shorting pins was introduced into the two-element design to maintain the circularly polarized (CP) radiation. The finest values of the axial ratio and |S11| were derived by rigorously optimizing all the geometry parameters. Both single-element and two-element quasiloop antennas were fabricated and characterized experimentally on the air substrate. The advantage of avoiding a physical substrate is to realize a wide bandwidth, circumvent dielectric losses, and ascertain the maximum gain. The measured and simulated results agree thoroughly with each other. Stable in-band CP radiation were accomplished, thus confirming an appropriate field vector combination from the coaxial probe and the radiator. The finalized antenna engaged an area of ~7.6λ20 for operation at 23.9–30.0 GHz with an axial ratio <3 dB, radiation efficiency ~80%, and gain >5 dBic.

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Section: Comparison and Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Low-Profile Quasi-Loop Magneto-Electric Dipole Antenna Featuring a Wide Bandwidth and Circular Polarization for 5G mmWave Device-to-Device Communication

Kamal

Ain

Ullah

et al. 2022

J Electromagn Eng Sci

Self Cite

View full text Add to dashboard Cite

show abstract

“…Reconfigurable Smart Surface (RSS) technology is considered to be a new cellular communication paradigm to improve services [1][2] in the communication world. Fractal Ultra-wideband (UWB) or multiband magneto-electric dipole antenna [3][4], Vivaldi antenna [5], lumped LC resonator antenna [6] all are portable and extendable antennas for wide applications. However, their fabrications are complex because of the multi-slots based geometry.…”

Section: Introductionmentioning

confidence: 99%

Optimization of Multi-Band Characteristics in Fan-Stub Shaped Patch Antenna for LTE (CBRS) and WLAN Bands

Khan

Nokerov²

2021

Proc. eng. technol. innov.

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This study aims to optimize a fan-stub slot patch to get better suitability and performance for Citizens Broadband Radio Service (CBRS). The transition from the tedious configuration of slotted patch antenna in fan-stub shape is evaluated. Also, the impact of stub width W, stub length L, and its orientation are tested. Multiple simulation tests ensure the uniqueness in the type of slots or stubs that affect the multiband nature of patch. The optimization of basic fan-stub structure on return loss S11, Voltage Standing Wave Ratio (VSWR), and the operating band at the desired frequency is performed to accommodate the federal and non-federal use of the band. The simulation results show that the designed antenna is technically suitable to cover 4G LTE in CBRS (LTE-43 and LTE-48 band) as well as 5.5 GHz Wireless Local Area Network (WLAN) band of operation.

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Single Layer Tri-UWB Patch Antenna for Osteoporosis Diagnosis and Measurement of Vibrational Resonances in Biomedical Engineering for Future Applications

Khan

Aravind²

2021

Algorithms for Intelligent Systems

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A Novel Lumped Lc Resonator Antenna With Air-Substrate for 5g Mobile Terminals

Cited by 6 publications

References 21 publications

A Low-Profile Quasi-Loop Magneto-Electric Dipole Antenna Featuring a Wide Bandwidth and Circular Polarization for 5G mmWave Device-to-Device Communication

A Low-Profile Quasi-Loop Magneto-Electric Dipole Antenna Featuring a Wide Bandwidth and Circular Polarization for 5G mmWave Device-to-Device Communication

Optimization of Multi-Band Characteristics in Fan-Stub Shaped Patch Antenna for LTE (CBRS) and WLAN Bands

Single Layer Tri-UWB Patch Antenna for Osteoporosis Diagnosis and Measurement of Vibrational Resonances in Biomedical Engineering for Future Applications

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