Abdellatif Slimani scite author profile

Abdellatif Slimani

5Publications

15Citation Statements Received

31Citation Statements Given

How they've been cited

How they cite others

Affiliations

Sidi Mohamed Ben Abdellah University, Renewable Energy Systems (United States), University Yahia Fares of Medea

Publications

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Second order microstrip bandpass filter design based on square resonator for 5G sub-6 GHz band

et al. 2022

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A simple procedure for designing a highly selective microstrip bandpass filter of second order is presented in this paper. The proposed filter is composed of two principal square open-loop resonators and designed with planar structures on a Roger substrate. It is intended for 5G applications, especially for Sub-6 GHz range frequency [3.5–3.8 GHz]. The suggested band pass filter has a very attractive compact size of 7 mm × 15.46 mm. The performance of this simple miniaturized filter, which is characterized by high selectivity in the band of interest, can be seen from its important characteristics: Adaptation, Transmission and Coupling Coefficients. The electromagnetic simulations and measurement results are in good agreement, which validates the design idea and procedure.

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Conception and optimization of a bidirectional ultra wide band planar array antennas for C-Band weather radar applications

Slimani

Bennani

Alami

et al. 2016

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A high gain 1*2 array RFID reader MPA for indoor localization applications

Tabakh¹,

Najiba²,

Jorio³

et al. 2017

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Conception and optimisation of UWB microstrip array antennas for radar applications with ordinary end-fire beam steering characteristic

Slimani

Bennani

Alami

2016

IJUWBCS

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Gain and bandwidth enhancement of New Planar microstrip array antennas geometry for C band weather radar applications

Slimani

Bennani

Alami

et al. 2016

Int. J. Microw. Wireless Technol.

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International audienceA 4–8 GHz ultra wide band microstrip array antennas with improved gain for weather Radar applications was designed and fabricated. The microstrip radiating elements of the proposed array antennas are powered using a T-junction power divider with quarter wave-transformer impedance for a best matching. The design of this array antennas is based on the geometry of a linear array antennas well studied [ref (8)], which is based on minimizing of the electromagnetic (EM) coupling between the radiating elements and as decreasing the number of side lobes. The array antennas with dimension of (110 × 214 × 1.58 mm3) is fabricated on FR-4 epoxy dielectric with relative permittivity of 4.4 and thickness h = 1.58 mm, it is performed in the full-wave EM solver High Frequency Structure Simulator, CST and verified by measurement. The proposed broadband array antennas show a better performance than the references antennas in deferent parameter which cited after

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