Fatma Zengin scite author profile

The aim of this study is to design of a small size implantable antenna involving Industrial, Scientific and Medical (ISM) (2.4 GHz-2.48 GHz) band. The goal of designing antenna is to obtain physiological information pertaining to person. Simulation measurements of antenna were obtained in body ambient by making the design of antenna with CST Studio Suite programme. Then, in vitro measurements were performed on antenna by making an artificial material, which shows electrical features of human skin tissue, to verify measurement results. Obtained measurement results and simulative results are in accordance.

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The Effects of the Trapezoidal Dipole Array Elements on Planar Log Periodic Antenna

Zengin

2019

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Printed log‐periodic trapezoidal dipole array antenna with a balun‐feed for ultra‐wideband applications

Zengin

Akkaya

Güneş³

et al. 2018

IET Microwaves, Antennas & Propagation

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The authors present design of a printed log‐periodic trapezoidal dipole array (PLPTDA) antenna with a balun‐feed operating throughout the 2–18 GHz frequency range. For this purpose, the antenna is designed and simulated in the CST Microwave Studio environment. Thus, better directivity along the operation bandwidth is achieved via the iterative simulations with a 33.33% reduction in the dipole length at the lowest frequency 2 GHz as compared with the counterpart standard log‐periodic antennas. Furthermore, they fabricated the PLPTDA antenna with and without the balun‐feed. Thus, influence of the balun on the performance is investigated and the average gain of the PLPTDA antenna with the balun‐feed is measured as 8.16 dBi provided voltage standing wave ratio (VSWR) < 2, which agrees with the simulation results. Furthermore, these measured gain/directivity results are compared with the counterpart antennas' measured performances in the literature considering their operation bandwidths and sizes. It can be concluded that their proposed PLPTDA antenna will prove to be useful in both wideband civilian and military applications in the S, C, X, and Ku bands within the 1:9 ultra‐wideband bandwidth which is the largest achieved in this class antenna technology in the literature up to now.

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Fatma Zengin

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Design and realization of ultra wide-band implant antenna for biotelemetry systems

The Effects of the Trapezoidal Dipole Array Elements on Planar Log Periodic Antenna

Printed log‐periodic trapezoidal dipole array antenna with a balun‐feed for ultra‐wideband applications

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