Design and Measurement of a Compact Millimeter Wave Highly Flexible MIMO Antenna Loaded With Metamaterial Reflective Surface for Wearable Applications

Shariff, B. G. Parveez; Ali, Tanweer; Mane, Pallavi R.; Alsath, Mohammed Gulam Nabi; Kumar, Pradeep; Pathan, Sameena; Kishk, Ahmed A.; Khan, Taimoor

doi:10.1109/access.2024.3368394

Cited by 7 publications

(2 citation statements)

References 50 publications

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“…The unit cell exhibits a wide stopband at 28.5 GHz, as illustrated in Figure 12. The properties of the unit cell, such as its impedance (Z), permittivity (𝜀 𝑒𝑞 ), permeability (𝜇 𝑒𝑞 ), and refractive index (𝑛), are extracted by using Equations ( 7)-( 11) from the |S-parameter| as defined in [28].…”

Section: Unit Cellmentioning

confidence: 99%

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A Compact MIMO Antenna Based on Modal Analysis for 5G Wireless Applications

Ghouse,

John,

Mane

et al. 2024

Micromachines

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This article presents a planar, non-angular, series-fed, dual-element dipole array MIMO antenna operating at 28 GHz with the metasurface-based isolation improvement technique. The initial design is a single-element antenna with a dual dipole array which is series-fed. These dipole elements are non-uniform in shape and distance. This dipole antenna results in end-fire radiation. The dipole antenna excites the J1 mode for its operation. Further, with the view to improve channel capacity, the dipole array expands the antenna to a three-element MIMO antenna. In the MIMO antenna structure, the sum of the J1, J2, and J3 modes is excited, causing resonance at 28 GHz. This article also proposes a metasurface structure with wide stopband characteristics at 28 GHz for isolation improvement. The metasurface is composed of rectangle-shaped structures. The defected ground and metasurface structure combination suppresses the surface wave coupling among the MIMO elements. The proposed antenna results in a bandwidth ranging from 26.7 to 29.6 GHz with isolation improvement greater than 21 dB and a gain of 6.3 dBi. The antenna is validated with the diversity parameters of envelope correlation coefficient, diversity gain, and channel capacity loss.

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Section: Unit Cellmentioning

confidence: 99%

“…The properties of the unit cell, such as its impedance (Z), permittivity

, permeability

, and refractive index (

), are extracted by using Equations (7)–(11) from the |S-parameter| as defined in [ 28 ].

where

and d are wavenumbers and the maximum length of the unit cell.…”

Section: Metasurface Structurementioning

confidence: 99%