Coaxial Feed Ultra-Wideband Microstrip Antenna for Medical Applications

Saeed, Muhammad Asfar; Ahmad, Muneeb; Nwajana, Augustine O.; Rehman, Masood Ur; Sohaib, Muhammad; Naseer, Ateeqa

doi:10.1109/icecet55527.2022.9872795

Cited by 5 publications

(4 citation statements)

References 13 publications

(13 reference statements)

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“…The collective effect of multiple patch elements in the array results in higher overall gain compared to a single antenna element. Beamforming with a uniform linear array helps minimize interference and increases the signal-to-noise ratio (SNR), leading to improved overall signal quality [18][19][20][21][22][23]. A uniform linear microstrip patch antenna array, shown in Figure 1, is advantageous for beamforming applications due to its ability to enhance gain, improve signal quality, and adapt to changing conditions.…”

Section: Antenna Design and Developmentmentioning

confidence: 99%

A Compact Linear Microstrip Patch Beamformer Antenna Array for Millimeter-Wave Future Communication

Saeed,

Obi,

Nwajana

2024

Sensors

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5/6G is anticipated to address challenges such as low data speed and high latency in current cellular networks, particularly as the number of users overwhelms 4G and LTE capabilities. This paper proposes a microstrip patch antenna array comprising six radiating patches and utilizing a microstrip line feeding technique to facilitate the compact design crucial for 5G implementation. ROGER 3003, chosen for its advanced and environmentally friendly features, serves as the dielectric material, ensuring suitability for 5G and B5G applications. The designed antenna, evaluated at a resonating frequency of 28.8 GHz with a −10 dB impedance bandwidth of 1 GHz, offers a high gain of 9.19 dBi. Its compact array, cost-effectiveness, and broad impedance and radiation coverage position it as a viable candidate for 5G and future communication applications.

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Section: Antenna Design and Developmentmentioning

confidence: 99%

A Compact Linear Microstrip Patch Beamformer Antenna Array for Millimeter-Wave Future Communication

Saeed,

Obi,

Nwajana

2024

Sensors

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“…A cylindrical shape tunable FSS design is proposed in [ 8 , 9 ] for dual band beam swiping of a dipole antenna. The electronic beam steering is achieved in [ 10 , 11 , 12 , 13 , 14 , 15 ] by employing hexagonal/cylindrical AFSS structures. To achieve compactness in size, substrate-based antennas are preferred, whereas to achieve the beam steering capabilities, reconfigurable partially reflective surfaces (PRSs) are employed.…”

Section: Introductionmentioning

confidence: 99%

“…It is comprised of a micro-strip patch antenna as a radiating source and a periodic or non-periodic array of geometrical patches or apertures made of the dielectric or metallic sheet as the PRS is located at the top of the source. The coaxial feed patch antennas are preferred in new designs due to their boresight radiation pattern and their compactness with the center feeding technique [ 15 ]. To enhance the directivity of an antenna at resonance, the distance between the source antenna and PRS should be a minimum of approximately a quarter of the wavelength.…”

Section: Introductionmentioning

confidence: 99%

2-Dimensional (2D) Beam Steering-Antenna Using Active PRS for 5G Applications

et al. 2022

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This paper presents a compact coaxial-fed square microstrip patch antenna integrated with a beam-steering Partially Reflective Surface (PRS). The proposed design has a two-dimensional (2-D) Fabry-Perot Cavity (FPC) antenna acting as a radiator and the PRS as a beam-steering superstrate operating at 5.5 GHz. The PRS consists of 6 × 6 reconfigurable unit cells etched on Rogers 5880 with a thickness of 1.57 mm. By controlling the switching of PIN diodes in different sections of PRS, beam steering can be achieved up to ±47° in the azimuth plane with a gain of 9.1 dB and 10.2 dB and ± 15° steering in an elevation plane with a measured gain of 9.3 dB and 8.9 dB, respectively. The antenna prototype is 2.56 λ × 2.56 λ at 5.5 GHz, and the measured gain values are around 10 dBi for all the states. The beam is able to radiate at boresight or tilted to 42° in two azimuthal directions and 45° in elevation direction by adjusting the PIN diodes ON/OFF states. The 10 dB impedance bandwidth of 5.4–5.52 GHz is achieved.

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“…the shared coupling between radiating elements within an array is responsible for achieving wide-angle beamforming in both linear and phased arrays [8]. Some of the techniques involved include adding multilayers of dielectric substrate [9]. A new circular-polarization waveguide antenna array utilizing innovative beamforming techniques is introduced.…”

Section: Introductionmentioning

confidence: 99%

A novel beamforming antenna array for 5G and beyond applications

Saeed

Nwajana

2022

2022 International Conference on Engineering and Emerging Technologies (ICEET)

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5G is supposed to be the solution of issues the current cellular network is facing like low data speed and higher latency, as the number of users comes online 4G and LTE gets unable to handle users. To enable a 5G compact size microstrip patch antenna plays an important role. A microstrip patch antenna array is being proposed in this paper which consists of six radiating patches and is fed using a microstrip line feeding technique. ROGER 3003 is employed as a dielectric material because of its advance and environmentfriendly features which makes it suitable for the application of 5G and B5G.The designed antenna is evaluated based on its resonating frequency at 28.8GHz with a -10 dB impedance bandwidth of 1GHz. The antenna if offering a high gain of 9.19dBi. impedance and radiation coverage with a compact antenna array having low cost makes it to be a suitable candidate for 5G and beyond communication applications.

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Coaxial Feed Ultra-Wideband Microstrip Antenna for Medical Applications

Cited by 5 publications

References 13 publications

A Compact Linear Microstrip Patch Beamformer Antenna Array for Millimeter-Wave Future Communication

A Compact Linear Microstrip Patch Beamformer Antenna Array for Millimeter-Wave Future Communication

2-Dimensional (2D) Beam Steering-Antenna Using Active PRS for 5G Applications

A novel beamforming antenna array for 5G and beyond applications

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