Antenne versatile intriquée / Versatile intricate antenna

Damaj, Lana

13 March 2013

Cette thèse vise à développer des antennes large bande à double polarisation avec un filtre et un dispositif d’adaptation d’impédance et d’alimentation intégrés, que nous avons définies comme antennes versatiles intriquées. La largeur de la bande et la double polarisation permettent d’utiliser l’antenne avec différents standards et donc d’être versatile. D'autre part, le filtre pour rejeter les harmoniques supérieurs et le réseau d'adaptation sont des parties intégrantes de l'élément rayonnant et lui confèrent le caractère intriqué. La première étude porte sur la conception d'une antenne large bande à double polarisation avec un filtre intégré dans le dispositif d’alimentation. Le filtre permet de rejeter les harmoniques indésirables. La structure complète est compacte et de dimensions 0.9 λ0x0.9 λ0, λ0 étant la longueur d’onde en espace libre à la fréquence basse. Afin d’augmenter la compacité, nous présentons ensuite une antenne à suppression des harmoniques (HSA : Harmonic Suppressed Antenna) large bande à simple et à double polarisation. Ce travail explore les différentes techniques utilisées pour concevoir une HSA. Dans cette approche, l'élément rayonnant, le filtre qui permet de rejeter le rayonnement d’harmoniques hors bande et le réseau d'adaptation, qui sont traditionnellement des circuits séparés, sont intégrés dans une seule unité compacte. La taille totale de l'antenne est 0.53 λ0x0.53 λ0. Le dernier chapitre présente une des HSA développées associée à un conducteur magnétique artificiel non-uniforme. Cette structure permet l’obtention d’une antenne large bande de faible épaisseur et directive. / This thesis aims to develop wideband antennas interrelated with a filter, which we have defined as versatile intricate antennas. The antenna is versatile as it provides wide bandwidth (more than one octave) and has the capability to generate two orthogonal polarizations. On the other hand, the filter for harmonic rejection and the matching network are integrated parts of the radiating element and give it the intricate character.The first study is concentrated on designing a dual polarized antenna with a wide stop filter integrated to the feeding network. This filter enables to reject harmonics and unwanted response. The complete structure is compact with a size of 0.9 λ0x0.9 λ0, λ0 being the free space wavelength at the lowest frequency. In order to improve the compactness of the whole system and to cover more standards, we present a single and dual polarized wideband Harmonic Suppressed Antenna (HSA). This work explores the different techniques used to design a HAS. The proposed antenna is simple in structure but versatile in applications. In this approach, radiating element, filter for harmonic rejection and matching network, which are traditionally separated circuits, are incorporated into a single compact unit. The total size of the antenna is 0.53 λ0x0.53λ0. The final chapter aims to study the previous intricate antenna with a new wideband Artificial Magnetic Conductor (AMC) structure as reflector in order to obtain a low profile and directive antenna.

Antenne large bande

Suppression harmonique

Broadband antenna array

Harmonics suppression

Large scale broadband antenna array systems

El-Makadema, Ahmed Talal

January 2011

Broadband antenna arrays have become increasingly popular for various imaging applications, such as radio telescopes and radar, where high sensitivity and resolution are required. High sensitivity requires the development of large scale broadband arrays capable of imaging distant sources at many different wavelengths, in addition to overcoming noise and jamming signals. The design of large scale broadband antenna arrays requires large number antennas, increasing the cost and complexity of the overall system. Moreover, noise sources often vary, depending on their wavelengths and angular locations. This increases the overall design complexity particularly for broadband applications where the performance depends not only on the required bandwidth, but also on the frequency band.This thesis provides a study of broadband antenna array systems for large scale applications. The study investigates different tradeoffs associated with designing such systems and drives a novel design approach to optimize both their cost and performance for a wide range of applications. In addition, the thesis includes measurements of a suitable array to validate the computational predictions. Moreover, the thesis also demonstrates how this study can be utilized to optimize a broadband antenna array system suitable for a low frequency radio telescope.

621.3