Ali GHARSALLAH

Work place: Unit of research Circuits and Electronics Systems High Frequency,Faculty of Science, University El Manar Tunis, Tunisia

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Research Interests: Computational Physics, Physics

Biography

Ali Gharsallah received the Radio Frequency Engineering degree from the Higher School of
Telecommunication of Tunis, Tunis, Tunisia, in 1986, and the Ph.D. degree from the Engineering School of Tunis, Tunis, Tunisia, in 1994. Since 1991, he has been with the Faculté des Sciences de Tunis, Department of Physics, University El-ManarFaculty of Sciences of Tunis, Tunis, Tunisia. He is also a Full Professor of electrical engineering and Director of Engineering with the Higher Ministry Education of Tunisia, Tunis, Tunisia. He has authored or coauthored approximately 100 papers published in scientific journals and 120 conference papers. He has also supervised over 20 theses and 50 masters. His current research interests include smart antennas, array signal processing, multilayered structures, and microwave integrated circuits. He is an IEEE senior Member.

Author Articles
A Discussion of a 60GHz Meander Slot Antenna for an RFID TAG with Lumped Element

By Omrane NECIBI Abdelhak FERCHICHI Tan-phu VUONG Ali GHARSALLAH

DOI: https://doi.org/10.5815/ijwmt.2014.02.01, Pub. Date: 8 Mar. 2014

In this paper, a novel approach to design an antenna for a transponder in radio frequency identification (RFID) is proposed. This approach is based on using a meander slot patch with a coplanar waveguide excitation (CPW). The RFID frequency chosen is the free 60 GHz band. The proposed circuit does not require complex package or bonding, thanks to the on-chip antenna, and it does not need battery. This technology is characterized by the low-cost, low-weight and low-area occupation. These particular specifications are important of this micro-RFID, especially if produced in large scale for the mass-market. Since the model of antennas in silicon technology is one of the main challenges, particularly for this proposal. The structure is simulated by using Computer Simulation Technology (CST). The antenna size is 1.95 * 1.99 mm2.This proposed antenna presents again which means a possibility to increase the readable range.

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