Hayat Errifi

Work place: Faculty of Science and Technology Mohammedia, Morocco

E-mail: errifi.hayat@live.fr

Website:

Research Interests: Computational Engineering, Engineering

Biography

Hayat ERRIFI is a PhD student in Telecommunication and information engineering at the EEA&TI Laboratory (Electronics, Electrotechnics, Automatic and information Processing), Hassan II University Casablanca, Faculty of Sciences and Technology of Mohammedia in Morocco. she received the B.Sc. degree in Electronics and informatics, from Hassan II University Casablanca, Faculty of Sciences and Technology of Mohammedia, Morocco, in 2009, and M.Sc. degree in Electronic and automatic systems engineering (Telecommunication and Information Technologies specialty) from Hassan II University Casablanca, Faculty of Sciences and Technology of Mohammedia, Morocco, in 2011. She’s currently working on antenna theory, design and optimization of patch antenna and patch array antenna under the supervision of Pr. A.BAGHDAD. Her main research interest is improving patch antenna directivity and reducing return loss.

Author Articles
Radiation Characteristics Enhancement of Microstrip Triangular Patch Antenna using Several Array Structures

By Hayat Errifi Abdennaceur Baghdad Abdelmajid Badri Aicha Sahel

DOI: https://doi.org/10.5815/ijwmt.2015.03.01, Pub. Date: 1 May 2015

In the recent years the development in communication systems requires the development of low cost, minimal weight and low profile antenna that is capable of maintaining high performance over a wide spectrum of frequencies. This technological trend has focused much effort into the design of a microstrip patch antenna. The aim of this paper is to design and simulate a triangular microstrip patch array antenna using HFSS software and compare the performance of 2 elements, 4 elements and 8 elements patch arrays with that of a single patch for the same operating frequency. Also comparisons are made between the performance of series, corporate and series-corporate feed network. These arrays are designed to operate at a frequency of 11 GHz. Our goal is to obtain a high directivity with better gain and reduced losses, to be especially used for X band applications such as satellite communication, radar, medical applications, and other wireless systems.

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