Titre :	Contribution à l'étude des antennes à patch résistif et parfaitement conducteur tenant compte d'une source d'excitation et des nouvelles formes asymptotiques de courant.
Type de document :	texte imprimé
Auteurs :	Amel Boufrioua, Auteur ; Abdelmadjid Benghalia, Directeur de thèse
Mention d'édition :	Novembre 2006 M
Editeur :	Constantine : Université Mentouri Constantine
Année de publication :	2006
Importance :	129 f.
Format :	30 cm.
Note générale :	01 Disponible à la salle de recherche 02 Disponibles au magaazin de la B.U.C. 01 CD
Langues :	Français (fre)
Catégories :	Français - Anglais Electronique
Tags :	Antennes à patch  Source d'excitation
Index. décimale :	621 Electronique
Résumé :	A theoretical study of a rectangular and circular microstrip antennas was carried out in this thesis. A rigorous analysis based on an electric field integral equation was used for the characterization of these structures. The integral equation of the electric field is formulated in term of the Green spectral tensor by using the moment method, based on the Galerkin's procedure which discretizes this equation to give place to a system of homogeneous equations . In the procedure of resolution by the moment method, the choice of the basic functions constitutes originality owing to the fact that the effect of various parameters on directivity is taken into account. The exactitude of the developed model shows a very precise agreement between the results obtained and those of the literature. The current of a rectangular patch is calculated by the application of a various basic functions, the study of a new type of basic function allowed us to a simplified algebraic formulation and a much reduced computing time. The developed asymptotic forms are of the type: sinusoid basis function without and with edge condition, Chebychev polynomials with the edge condition, and the roof top functions. Also we developed a model of calculation by the application of the sinusoid basis functions for a rectangular patch antenna excited by a microstrip line, the currents on this line are developed and the input resistance is calculated. Our own software was established to calculate the macroscopic characteristic such as the resonant frequency, the input resistance, the radiation, the directivity ... A variational form for the input impedance is obtained giving results which agree well with measurements. Also the theoretical formulation of the rectangular patch antenna excited by an electromagnetic coupling (proximity) is given, finally the study of a new model of calculation which take into account the effect of the surface resistance as well as the effect of the uniaxial anisotropy in the substrate is presented.The necessary terms to represent the surface resistance of the rectangular patch are derived and included in the integral equation in the form of a resistance matrix; the results prove that the addition of such a resistance decreases the antenna dispersed energy.
Note de contenu :	Annexes.
Diplôme :	Doctorat en sciences
En ligne :	../theses/electronique/BOU4741.pdf
Format de la ressource électronique :	pdf
Permalink :	https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=2746

Contribution à l'étude des antennes à patch résistif et parfaitement conducteur tenant compte d'une source d'excitation et des nouvelles formes asymptotiques de courant. [texte imprimé] / Amel Boufrioua, Auteur ; Abdelmadjid Benghalia, Directeur de thèse  . -  Novembre 2006 M . - Constantine : Université Mentouri Constantine, 2006 . - 129 f. ; 30 cm.
01 Disponible à la salle de recherche 02 Disponibles au magaazin de la B.U.C. 01 CD
Langues : Français (fre)

Catégories :	Français - Anglais Electronique
Tags :	Antennes à patch  Source d'excitation
Index. décimale :	621 Electronique
Résumé :	A theoretical study of a rectangular and circular microstrip antennas was carried out in this thesis. A rigorous analysis based on an electric field integral equation was used for the characterization of these structures. The integral equation of the electric field is formulated in term of the Green spectral tensor by using the moment method, based on the Galerkin's procedure which discretizes this equation to give place to a system of homogeneous equations . In the procedure of resolution by the moment method, the choice of the basic functions constitutes originality owing to the fact that the effect of various parameters on directivity is taken into account. The exactitude of the developed model shows a very precise agreement between the results obtained and those of the literature. The current of a rectangular patch is calculated by the application of a various basic functions, the study of a new type of basic function allowed us to a simplified algebraic formulation and a much reduced computing time. The developed asymptotic forms are of the type: sinusoid basis function without and with edge condition, Chebychev polynomials with the edge condition, and the roof top functions. Also we developed a model of calculation by the application of the sinusoid basis functions for a rectangular patch antenna excited by a microstrip line, the currents on this line are developed and the input resistance is calculated. Our own software was established to calculate the macroscopic characteristic such as the resonant frequency, the input resistance, the radiation, the directivity ... A variational form for the input impedance is obtained giving results which agree well with measurements. Also the theoretical formulation of the rectangular patch antenna excited by an electromagnetic coupling (proximity) is given, finally the study of a new model of calculation which take into account the effect of the surface resistance as well as the effect of the uniaxial anisotropy in the substrate is presented.The necessary terms to represent the surface resistance of the rectangular patch are derived and included in the integral equation in the form of a resistance matrix; the results prove that the addition of such a resistance decreases the antenna dispersed energy.
Note de contenu :	Annexes.
Diplôme :	Doctorat en sciences
En ligne :	../theses/electronique/BOU4741.pdf
Format de la ressource électronique :	pdf
Permalink :	https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=2746