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A Comparison Between the Microstrip and the Co-Planar Wave-Guide Antennas in Ultra-Wide-Band Applications by Using Fractal Geometry

A Comparison Between the Microstrip and the Co-Planar Wave-Guide Antennas in Ultra-Wide-Band Applications by Using Fractal Geometry

Akram El Hamdouni, Abdelali Tajmouati, Hamid Bennis, Mohamed Latrach
Copyright: © 2019 |Pages: 32
ISBN13: 9781522575399|ISBN10: 1522575391|ISBN13 Softcover: 9781522587408|EISBN13: 9781522575405
DOI: 10.4018/978-1-5225-7539-9.ch008
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MLA

El Hamdouni, Akram, et al. "A Comparison Between the Microstrip and the Co-Planar Wave-Guide Antennas in Ultra-Wide-Band Applications by Using Fractal Geometry." Emerging Innovations in Microwave and Antenna Engineering, edited by Jamal Zbitou and Ahmed Errkik, IGI Global, 2019, pp. 258-289. https://doi.org/10.4018/978-1-5225-7539-9.ch008

APA

El Hamdouni, A., Tajmouati, A., Bennis, H., & Latrach, M. (2019). A Comparison Between the Microstrip and the Co-Planar Wave-Guide Antennas in Ultra-Wide-Band Applications by Using Fractal Geometry. In J. Zbitou & A. Errkik (Eds.), Emerging Innovations in Microwave and Antenna Engineering (pp. 258-289). IGI Global. https://doi.org/10.4018/978-1-5225-7539-9.ch008

Chicago

El Hamdouni, Akram, et al. "A Comparison Between the Microstrip and the Co-Planar Wave-Guide Antennas in Ultra-Wide-Band Applications by Using Fractal Geometry." In Emerging Innovations in Microwave and Antenna Engineering, edited by Jamal Zbitou and Ahmed Errkik, 258-289. Hershey, PA: IGI Global, 2019. https://doi.org/10.4018/978-1-5225-7539-9.ch008

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Abstract

This chapter describes a comparison study between the techniques of coplanar waveguide (CPW) and microstrip line applied to antenna in the ultra-wide band by analyzing the different parameters achieved into simulation and fabrication. Fractal geometry has been chosen to design the radiating patch of both types of antennas by including two electromagnetic solvers based on two different numerical methods: CST of microwave studio and ADS. The parameters S11, current density, gain, and the radiation pattern have been achieved into simulation and measurement in the frequency range 3.1 – 10.6GHz released by the Federal Communications Commission (FCC) as a commercial UWB. The photolithographic technique, the network analyzer, and the anechoic chamber have been involved to perform the fabrication and the measurement of the validated microstrip and CPW antennas.

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