On the Dual-Frequency Behavior of Stacked Microstrip Patches

Fortaki, Tarek; Djouane, Lotfi; Chebara, F.; Benghalia, Abdelmadjid

doi:10.1109/lawp.2008.921344

Cited by 24 publications

(25 citation statements)

References 16 publications

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“…the lower disc substrate in the configuration substratesubstrate). These behaviors are in agreement with those found theoretically for the case of a structure stacked microstrip formed of two circular patches [7][8][9].…”

Section: Resonator Formed By a Stack Of Two Circular Discssupporting

confidence: 90%

“…In the first sub-section, we study the resonance characteristics of the conventional circular microstrip resonator (single patch on a monolayer substrate). In the second sub-section: we complete the analysis in [7][8][9] and on the behavior of the dual-frequency microstrip resonator formed by a stack of two circular patches, by examining the behavior of a dual-frequency microstrip resonator formed by a stack of two circular discs. In the third subsection, we present numerical results concerning the behavior of a dual-frequency microstrip resonator formed by a stack of three circular disks.…”

Section: Numerical Results and Discussionmentioning

confidence: 99%

“…In the second subsection, we complete the analysis in [7][8][9]. And on the behavior of the dual-frequency microstrip resonator formed by a stack of two circular patches, in examining the behavior of a dual-frequency microstrip resonator formed by a stack of two circular discs.…”

Section: Introductionmentioning

confidence: 99%

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A Numerically Efficient Full Wave Analysis of Circular Resonators Microbandes Stacked Involving Multimetallisations

Chebbara¹,

Fortaki²

2015

Journal of Electrical Engineering and Technology

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-The conventional geometry of a plate microstrip resonator is made up of a single metallic patch, which is printed on a monolayer dielectric substrate. Its arrangement is simple and easy to make, but it is limited in its functional abilities. Many searches have been realized to improve the bandwidth and the gain of the microstrip resonators. Among the various configurations proposed in the open literature, the stacked geometry seems to be very promising. By appropriate design, it is able to provide the operation in dual frequency mode, wide bandwidth enough and high gain. The theoretical investigations of structures composed of two stacked anti-reflection coatings, enhanced metallic coatings are available in the literature, however, for the stacked configurations involving three metallic coatings or more, not to exact or approximate analysis was conducted due to the complexity of the structure.

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Section: Resonator Formed By a Stack Of Two Circular Discssupporting

confidence: 90%

Section: Numerical Results and Discussionmentioning

confidence: 99%

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A Numerically Efficient Full Wave Analysis of Circular Resonators Microbandes Stacked Involving Multimetallisations

Chebbara¹,

Fortaki²

2015

Journal of Electrical Engineering and Technology

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“…Above the past years, microstrip resonators have been widely used over the range of microwave frequencies. In general, these structures are limited in its functional capabilities, but by proper design, the performances of these structures can be improved [1]. Since the discovery of the high critical temperature (Tc) superconducting materials which have critical temperatures above the boiling point of liquid nitrogen, the development of microwave application of high Tc superconductors has been extremely rapid, and numbers of highly sophisticated subsystem level modules have been generated [2].…”

Section: Introductionmentioning

confidence: 99%

Efficient CAD Model to Analysis of High Tc Superconducting Circular Microstrip Antenna on Anisotropic Substrates

Bedra

Benkouda

et al. 2017

AEM

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In this paper, an electromagnetic approach based on cavity model in conjunction with electromagnetic knowledge was developed. The cavity model combined with London's equations and the Gorter-Casimir two-fluid model has been improved to investigate the resonant characteristics of high Tc superconducting circular microstrip patch in the case where the patch is printed on uniaxially anisotropic substrate materials. Merits of our extended model include low computational cost and mathematical simplify. The numerical simulation of this modeling shows excellent agreement with experimental results available in the literature. Finally, numerical results for the dielectric anisotropic substrates effects on the operating frequencies for the case of the superconducting circular patch are also presented.

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“…Note that the resonant frequencies are defined as the real parts of the complex roots of the characteristic equation [15]. Muller's method is used for solving this characteristic equation.…”

Section: Outline Of the Numerical Proceduresmentioning

confidence: 99%

Resonance of High Tc Superconducting Microstrip Patch in a Substrate-Superstrate Configuration

Benkouda¹,

Fortaki

Amir

et al. 2014

AEM

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The effect of a protecting dielectric superstrate on the resonance of a high T c superconducting microstrip patch is investigated. The analysis approach is based on the spectraldomain method of moments in conjunction with the complex resistive boundary condition. The complex surface impedance of the superconducting thin film is determined using London's equation and the two-fluid model of Gorter and Casimir. Numerical results show that the resonant frequency of the high T c superconducting rectangular patch decreases monotonically with increasing superstrate thickness, the decrease being greater for high permittivity loading.

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On the Dual-Frequency Behavior of Stacked Microstrip Patches

Cited by 24 publications

References 16 publications

A Numerically Efficient Full Wave Analysis of Circular Resonators Microbandes Stacked Involving Multimetallisations

A Numerically Efficient Full Wave Analysis of Circular Resonators Microbandes Stacked Involving Multimetallisations

Efficient CAD Model to Analysis of High Tc Superconducting Circular Microstrip Antenna on Anisotropic Substrates

Resonance of High Tc Superconducting Microstrip Patch in a Substrate-Superstrate Configuration

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