Ebenezer Tawiah Ashong scite author profile

Ebenezer Tawiah Ashong

4Publications

4Citation Statements Received

28Citation Statements Given

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Affiliations

Ho Polytechnic, Hanbat National University, University of Electronic Science and Technology of China

Publications

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Bandwidth enhancement and size reduction of printed monopole antenna using bounding box structure

Ashong

Jung

2019

IET Microwaves, Antennas & Propagation

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A printed monopole antenna with enhanced bandwidth and reduced size using a bounding box structure is presented in this paper. The initial design comprises a microstrip‐fed rectangular monopole with a partial ground structure. A feed line offset, a slit etched on the feed line, an asymmetric transition connecting the feed line and the monopole, and an inverted T‐slot embedded in the ground are used to ensure good impedance matching. The design is modified by incorporating a bounding box structure, which introduces additional resonances hence an enhanced impedance fractional bandwidth reaching 156% (0.28 to 2.27 GHz) is obtained as compared to only 72% (0.75–1.60 GHz) realised for a conventional monopole. The electrical size of the proposed antenna is also reduced from 1.01λlthickmathspace×0.60λl to 0.39λl × 0.24λl (where λl denotes the wavelength corresponding to the lowest operating frequency of the antenna) using the bounding box configuration. The experimental and predicted results are in good agreement, and the proposed antenna demonstrates good radiation characteristics over the operating bandwidth. The proposed antenna can be applied in DVB (530–860 MHz), GSM850 (824–894 MHz), GSM900 (880–960 MHz) DCS (1710–1880 MHz), PCS (1850–1990 MHz), and UMTS (1920–2170 MHz) systems.

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Time reversal mirror for hyperthermia of multi-focal breast tumors using electromagnetic time reversal technique

Twumasi

Ashong

et al. 2022

Electromagnetics

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Compact High Gain Elliptical Patch Antenna for Satellite Synthetic Aperture Radar

Ashong

Twumasi

Kagbetor

2021

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Circular Monopole Time Reversal Mirror for Microwave Wireless Power Transfer Applications

Twumasi

Ashong

et al. 2021

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