Global ETD Search

1	Analysis of single and coupled microstrip-fed slot antennas Akhavan, Haj Ghadir January 1996 (has links) No description available. 621.381045 Planar antennas; Microwave components
2	Novel Antenna Designs for WLAN Access Points Hsiao, Fu-Ren 05 May 2004 (has links) Novel and low-cost antennas suitable for WLAN access points are presented. The operating bandwidths of the proposed antennas can cover the 2.4/5.2/5.8 GHz WLAN bands, and the antenna gain is larger than 2 and 4 dBi in the 2.4 and 5 GHz bands; respectively. Besides, they can also generate the good omnidirectional radiation patterns in the azimuthal plane. Dipole antenna, folded dipole antenna, monopole antenna and circularly polarized antenna has been applied in the proposed designs, and good antenna performance has been obtained. CIRCULARLY FOLDED DIPOLE ANTENNAS DIPOLE ARRAY ANTENNAS OMNIDIRECTIONAL ANTENNAS WLAN ACCESS POINT ANTENNAS PLANAR ANTENNAS
3	Aplicação de células metamateriais em antenas planares Guelber, Elise Fraga January 2016 (has links) Orientador: Prof. Dr. Carlos Eduardo Capovilla / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Engenharia Elétrica, 2016. / A tecnologia metamaterial vem sendo estudada cientificamente e suas propriedades prometem efeitos inovadores em suas aplicações. A possibilidade de manipular o comportamento eletromagnetico em um dispositivo cercado por metamateriais abre portas para a criação e otimização de novos dispositivos. Qualquer sistema que envolva dispositivos de microondas, optica e antenas, está na grade dos beneficiados por essa tecnologia. As principais caracteristicas dos metamateriais são a refração negativa e as caracteristicas intrinsecas do material com valores negativos. Assumindo esse cen'ario, nesse trabalho ser'a projetada uma célula metamaterial inspirada no conceito de lente de Lenz, que permite uma amplificação do fluxo de energia magnética na região central da estrutura. Essa célula será reconfigurada para sua implementação na estrutura de antenas planares, operando na faixa de 2,4 GHz. Tr¿es modelos de antenas são utilizadas nesse estudo, uma quasi-Yagi , uma PIFA e completando a teoria um arranjo com três PIFAs. A disposição das celulas é feita de forma periódica e estrão, assim como diagramas de radiação extraidos das simulações e testes experimentais. As conclusões são obtidas com referência nesses resultados e por meio de comparações das configurações das antenas com e sem as celulas metamateriaias em sua estrutura. / The metamaterial technology has been studied scientifically and its properties promise innovative effects in their applications. The possibility of manipulating the electromagnetic behavior on a device surrounded by metamaterials opens doors for the creation and optimization of new devices. Any system that involves microwave devices, optics and antennas is on the grid of those benefited by this technology. The main characteristics of the metamaterials are the negative refraction and the intrinsic characteristics of the material with negative values. Assuming this scenario, in this work will be projected a metamaterial cell inspired by the concept of Lenz lens, which allows an amplification of the magnetic flux in the central region of the structure. This cell will be reconfigured for its implementation in the planar antenna structure, operating in the 2.4 GHz range. Three antennas are used in this study, a quasi-Yagi, a PIFA and completing the theory a PIFA array with three elements. The arrangement of the cells is made periodically and strategically in the antenna structure, aiming for improvements in its performance. The characterization of these antennas is carried out by means of reflection and transmission parameters, as well as radiation diagrams extracted from the simulations and experimental tests. The conclusions are achieved with reference in these results and through comparisons of the antenna configurations with and without the metamaterial cells in their structure. METAMATERIAIS ANTENAS PLANARES QUASI-YAGI METAMATERIALS PLANAR ANTENNAS
4	Antény na flexibilním substrátu / Flexible substrate antennas Sedlák, Jakub January 2020 (has links) This diploma thesis deals with a design of antennas based on a flexible substrate. There is also a design of a transmission line between a flexible and rigid substrate with FLEX- RIGID technology. In the first part of thesis, there is the technology, advantages and disadvantages of using this technology in design of antennas mentioned. There are also basic antenna parameters mentioned. In second part, the design of a transmission line and four antennas is presented. Two of these antennas are manufactured and measured. Finally, the measured parameters are compared with the simulated results.
5	High-gain planar resonant cavity antennas using metamaterial surfaces Wang, Shenhong January 2006 (has links) This thesis studies a new class of high gain planar resonant cavity antennas based on metamaterial surfaces. High-gain planar antennas are becoming increasing popular due to their significant advantages (e.g. low profile, small weight and low cost). Metamaterial surfaces have emerged over the last few years as artificial structures that provide properties and functionalities not readily available from existing materials. This project addresses novel applications of innovative metamaterial surfaces on the design of high-gain planar antennas. A ray analysis is initially employed in order to describe the beamfonning action of planar resonant cavity antennas. The phase equations of resonance predict the possibility of low-profile/subwavelength resonant cavity antennas and tilted beams. The reduction of the resonant cavity profile can be obtained by virtue of novel metamaterial ground planes. Furthermore, the EBG property of metamaterial ground planes would suppress the surface waves and obtain lower backlobes. By suppressing the TEM mode in a resonant cavity, a novel aperture-type EBG Partially Reflective Surface (PRS) is utilized to get low sidelobes in both planes (E-plane and H-plane) in a relatively finite structure. The periodicity optimization of PRS to obtain a higher maximum directivity is also investigated. Also it is shown that antennas with unique tilted beams are achieved without complex feeding mechanism. Rectangular patch antennas and dipole antennas are employed as excitations of resonant cavity antennas throughout the project. Three commercial electromagnetic simulation packages (Flomerics Microstripes ™ ver6.S, Ansoft HFSSTM ver9.2 and Designer ™ ver2.0) are utilized during the rigorous numerical computation. Related measurements are presented to validate the analysis and simulations. 621.3824
6	On-Vehicle Planar Antenna Designs for Wireless Communications Liu, Yung-Tao 16 May 2005 (has links) In this dissertation, many novel low-cost planar antenna designs are presented for on-vehicle applications. Promising planar antennas showing the desired broadside and omnidirectional radiation patterns and having low-profile configurations are demonstrated. Also, studies on controlling the radiation patterns are conducted. Details of the measured and simulated results of the studied antennas are presented and discussed. Monopole Antennas Planar Antennas Broadband Antennas WLAN Antennas Multiband Antennas Omnidirectional Antennas On-Vehicle Antennas Low-Profile Antennas Patch Antennas
7	Projeto de antenas planares de baixo custo para sistemas Multibanda Bulgaroni , Renan Guimarães January 2016 (has links) Orientador: Prof. Dr. Ivan Roberto Santana Casella / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Engenharia Elétrica, 2016. / Este trabalho visa o desenvolvimento de antenas planares multibanda de baixo custo para aplicações em sistemas de comunicações sem fio. As antenas propostas, baseadas nas topologias Quasi-Yagi e Vivaldi para sistemas SISO (Single Input Single Output) e Meandered Loop para sistemas MIMO (Multiple Input Multiple Output), foram otimizadas para operar nas faixas de frequência das redes LTE (Long Term Evolution), WiFi (Wireless Fidelity) e WIMAX (Worldwide Interoperability For Microwave Access). Após os estudos preliminares de simulação e otimização para a definição final das topologias propostas, foram montados alguns protótipos para a realização de testes de medida e comprovação experimental das funcionalidades das antenas. / This work is aimed at developing low-cost multiband planar antennas for applications in wireless communications systems. Antennas proposals based on Quasi-Yagi topologies and Vivaldi for SISO systems (Single Input Single Output) and meandered Loop for MIMO (Multiple Input Multiple Output) were optimized to operate in the frequency bands of the LTE (Long Term Evolution), WiFi (Wireless Fidelity) and WIMAX (Worldwide Interoperability For Microwave Access). After the preliminary studies simulation and optimization for the final definition of the proposed topologies, some prototypes were assembled to perform measurement tests and experimental verification of the functionalities of antennas. ANTENAS PLANARES ANTENAS DE BAIXO CUSTO MULTIBANDA PLANAR ANTENNAS LOW COST ANTENNAS MULTI-BAND
8	Antenas planares de micro-ondas multibandas para terminais móveis de sistemas de comunicação sem fio. / Multi-band microwave planar antennas for mobile terminals of wireless communication systems. Seko, Murilo Hiroaki 05 February 2013 (has links) Neste trabalho, foram desenvolvidas antenas planares de micro-ondas multibandas para aplicação em terminais móveis de sistemas de comunicação sem fio. Foi realizado um estudo sobre antenas planares de micro-ondas, com ênfase em técnicas de projeto que possibilitam a operação das mesmas em bandas largas e em múltiplas bandas. A partir dos conhecimentos adquiridos com esse estudo, foram propostas configurações de antenas para terminais móveis de sistemas atuais de telefonia móvel, de WLAN e de WPAN, sistemas esses que têm experimentado nos últimos anos uma grande popularização mundial. Por meio de um procedimento de projeto auxiliado por simulação eletromagnética computacional, as configurações propostas de antenas foram analisadas e otimizadas, visando atender às especificações de projeto estabelecidas para operação nos sistemas mencionados. O desempenho que pode ser obtido com essas configurações de antenas depende de diversos parâmetros geométricos das mesmas, resultando em flexibilidade de projeto para obtenção das bandas de operação desejadas. Protótipos das antenas projetadas foram construídos e caracterizados para validar as configurações propostas de antenas e o procedimento de projeto empregado. Foram desenvolvidas quatro antenas para operação em sistemas de telefonia móvel, de WLAN e de WPAN empregados no Brasil, na Europa e nos EUA: uma antena planar em F-invertido tri-band com configuração original para operação nas bandas dos padrões GSM, DCS e PCS; uma antena planar em F-invertido penta-band com configuração original para operação nas bandas dos padrões GSM, DCS, PCS e UMTS e na banda ISM de 2.400 MHz; duas antenas quad-band, uma delas planar em F-invertido e a outra monopolo impresso com configuração original, para operação nas bandas ISM de 2.400 MHz e de 5.800 MHz e nas bandas de 5.200 MHz e de 5.600 MHz. Os resultados experimentais dos protótipos construídos apresentaram, de modo geral, boa concordância com os resultados fornecidos por simulação e mostraram que as antenas desenvolvidas atenderam às especificações de projeto para elas estabelecidas. Por meio de ambos os resultados experimentais e de simulação, o desempenho das antenas desenvolvidas pôde ser verificado, e demonstrou-se a efetividade do procedimento de projeto adotado. / In this work, multi-band microwave planar antennas for application in mobile terminals of wireless communication systems were developed. A study on microwave planar antennas was performed with emphasis on design techniques that enable their operation in wide bands and multiple bands. From the knowledge gained from this study, antenna configurations for mobile terminals of current mobile telephony, WLAN and WPAN systems, which have experienced in recent years great popularity worldwide, were proposed. By means of a design procedure aided by computer electromagnetic simulation, the proposed antenna configurations were analyzed and optimized in order to meet the design specifications established for operation in the afore mentioned systems. The performance that can be obtained with these antenna configurations depends on their several geometric parameters, resulting in design flexibility for obtaining the desired operation bands. Prototypes of the designed antennas were fabricated and characterized to validate the proposed antenna configurations and the design procedure employed. Four antennas were developed for operation in mobile telephony, WLAN and WPAN systems employed in Brazil, Europe and USA: a tri-band planar inverted-F antenna with novel configuration for operation in GSM, DCS and PCS standard bands; a penta-band planar inverted-F antenna with novel configuration for operation in GSM, DCS, PCS and UMTS standard bands and 2,400 MHz ISM band; two quad-band antennas, one of them planar inverted-F and the other printed monopole with novel configuration, for operation in 2,400 MHz and 5,800 MHz ISM bands and 5,200 MHz and 5,600 MHz bands. The experimental results from the fabricated prototypes exhibited, in general, good agreement with the results provided by simulation and showed that the developed antennas met the specifications established for them. By means of both simulation and experimental results, the performance of the developed antennas could be verified, and the effectiveness of the design procedure adopted was demonstrated. Antenas planares Banda larga Comunicação sem fio Micro-ondas Microwaves Mobile terminals Multi-band Multibanda Planar antennas Terminais móveis Wideband Wireless communication
9	Antenas planares de micro-ondas multibandas para terminais móveis de sistemas de comunicação sem fio. / Multi-band microwave planar antennas for mobile terminals of wireless communication systems. Murilo Hiroaki Seko 05 February 2013 (has links) Neste trabalho, foram desenvolvidas antenas planares de micro-ondas multibandas para aplicação em terminais móveis de sistemas de comunicação sem fio. Foi realizado um estudo sobre antenas planares de micro-ondas, com ênfase em técnicas de projeto que possibilitam a operação das mesmas em bandas largas e em múltiplas bandas. A partir dos conhecimentos adquiridos com esse estudo, foram propostas configurações de antenas para terminais móveis de sistemas atuais de telefonia móvel, de WLAN e de WPAN, sistemas esses que têm experimentado nos últimos anos uma grande popularização mundial. Por meio de um procedimento de projeto auxiliado por simulação eletromagnética computacional, as configurações propostas de antenas foram analisadas e otimizadas, visando atender às especificações de projeto estabelecidas para operação nos sistemas mencionados. O desempenho que pode ser obtido com essas configurações de antenas depende de diversos parâmetros geométricos das mesmas, resultando em flexibilidade de projeto para obtenção das bandas de operação desejadas. Protótipos das antenas projetadas foram construídos e caracterizados para validar as configurações propostas de antenas e o procedimento de projeto empregado. Foram desenvolvidas quatro antenas para operação em sistemas de telefonia móvel, de WLAN e de WPAN empregados no Brasil, na Europa e nos EUA: uma antena planar em F-invertido tri-band com configuração original para operação nas bandas dos padrões GSM, DCS e PCS; uma antena planar em F-invertido penta-band com configuração original para operação nas bandas dos padrões GSM, DCS, PCS e UMTS e na banda ISM de 2.400 MHz; duas antenas quad-band, uma delas planar em F-invertido e a outra monopolo impresso com configuração original, para operação nas bandas ISM de 2.400 MHz e de 5.800 MHz e nas bandas de 5.200 MHz e de 5.600 MHz. Os resultados experimentais dos protótipos construídos apresentaram, de modo geral, boa concordância com os resultados fornecidos por simulação e mostraram que as antenas desenvolvidas atenderam às especificações de projeto para elas estabelecidas. Por meio de ambos os resultados experimentais e de simulação, o desempenho das antenas desenvolvidas pôde ser verificado, e demonstrou-se a efetividade do procedimento de projeto adotado. / In this work, multi-band microwave planar antennas for application in mobile terminals of wireless communication systems were developed. A study on microwave planar antennas was performed with emphasis on design techniques that enable their operation in wide bands and multiple bands. From the knowledge gained from this study, antenna configurations for mobile terminals of current mobile telephony, WLAN and WPAN systems, which have experienced in recent years great popularity worldwide, were proposed. By means of a design procedure aided by computer electromagnetic simulation, the proposed antenna configurations were analyzed and optimized in order to meet the design specifications established for operation in the afore mentioned systems. The performance that can be obtained with these antenna configurations depends on their several geometric parameters, resulting in design flexibility for obtaining the desired operation bands. Prototypes of the designed antennas were fabricated and characterized to validate the proposed antenna configurations and the design procedure employed. Four antennas were developed for operation in mobile telephony, WLAN and WPAN systems employed in Brazil, Europe and USA: a tri-band planar inverted-F antenna with novel configuration for operation in GSM, DCS and PCS standard bands; a penta-band planar inverted-F antenna with novel configuration for operation in GSM, DCS, PCS and UMTS standard bands and 2,400 MHz ISM band; two quad-band antennas, one of them planar inverted-F and the other printed monopole with novel configuration, for operation in 2,400 MHz and 5,800 MHz ISM bands and 5,200 MHz and 5,600 MHz bands. The experimental results from the fabricated prototypes exhibited, in general, good agreement with the results provided by simulation and showed that the developed antennas met the specifications established for them. By means of both simulation and experimental results, the performance of the developed antennas could be verified, and the effectiveness of the design procedure adopted was demonstrated. Antenas planares Banda larga Comunicação sem fio Micro-ondas Multibanda Terminais móveis Microwaves Mobile terminals Multi-band Planar antennas Wideband Wireless communication
10	Study, design and realization of circular polarized compact antennas : Optimizing performances / Etude, conception et réalisation d’antennes compactes à polarisation circulaire : Optimisation des performances Abou-Zied Nour, Amro 14 January 2016 (has links) Les antennes à polarisation circulaire (CP) sont de plus en plus utilisées dans les systèmes de communications spatiaux et terrestres. Le besoin d’intégration est sans cesse plus important, il est donc nécessaire de proposer, de mettre au point des aériens toujours plus compacts et aux performances (adaptation, rayonnement, gain, efficacité, taux d’ellipticité) optimisées. L’objectif de cette thèse est donc de concevoir des antennes planaires, large bande ou multi-bande, à polarisation circulaire et aux performances optimisées. Afin d’atteindre ces objectifs, le travail a été divisée en plusieurs phase, allant de la conception d’une antenne CP à large bande jusqu’à la conception d’une antenne patch à polarisation circulaire tri bandes GNSS. Tout d’abord une étude bibliographique sur les antennes planaires a été faite. Celle-ci a permis de comparer leurs différentes performances, leurs avantages et inconvénients. Ensuite, une antenne patch CP à éléments parasites a été conçue fabriquée et mesurée. On s’est attaché à optimiser sa bande de fonctionnement. En tenant compte des études bibliographiques déjà faites, et en se basant sur la structure de l’antenne CP à large bande validée lors de la phase précédente, une nouvelle antenne plaquée CP GNSS tri bandes a également été conçue réalisée et mesurée. L’essentiel du travail a consisté à minimiser son encombrement tout en conservant des performances électromagnétiques satisfaisantes dans les trois bandes de fréquences objectifs : L2, E6 et L1. On s’est particulièrement attaché à obtenir un bon taux d’ellipticité sur une large ouverture rayonnante. La dernière étape de cette thèse a consisté à aller encore plus loin dans l’amélioration des performances de l’antenne CP GNSS multi bandes particulièrement en améliorant son efficacité. Une excitation par fente a finalement été utilisée après comparaison des performances obtenues via différentes techniques (alimentation coaxiale, fentes, etc…). / Circular polarized antennas (CP) are greatly used in space and terrestrial communication systems. Furthermore, the need for communication systems integration is increasingly important. Therefore, it is necessary to propose and develop more compact antenna design with optimized performance (adaptation, radiation, gain, efficiency, axial ratio).The objective of this thesis is to design planar antennas, broadband or multi-band, with circular polarization and optimized performances. To achieve these objectives, the work was divided into several stages, from the design of a wideband CP antenna to the design of a GNSS tri-band circular polarized patch antenna. Firstly, a literature study of planar antennas has been conducted. Different designs have been examined and contrasted to evaluate their performances. Secondly, a wideband CP patch antenna with parasitic elements has been designed manufactured and measured. It was sought to optimize its operating band. Considering the bibliographical study that was already carried out, and based on the wideband CP antenna structure that was validated during the previous phase, a new GNSS tri-band CP patch antenna was also designed, fabricated and measured. Most of the work was done on minimizing its size while maintaining satisfactory electromagnetic performance in the three required GNSS frequency bands : L2, E6 and L1. Special attention was directed towards getting a good axial ratio over a wide radiating aperture. The last phase of this thesis was to go even further in improving the CP GNSS multi-band antenna's performance, particularly by improving its efficiency. Excitation slots were finally used after a comparison was made between the different performances obtained through the different design techniques (coaxial feed, slots, etc ...). Antennes plaquées Polarization circulaire Antennes de correction de microruban Large bande Multi bandes GNSS Planar antennas Circular polarization Microstrip patch antennas Wideband Multi-band GNSS 621.382 4

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