Global ETD Search

1	A Coplanar Waveguide UWB Antenna With Notch Filter Wang, Qianqian 04 July 2013 (has links) Due to the release of 3.1-10.6 GHz band, UWB systems have a rapidly progressive development. They have been widely employed in short-range communication applications and large-bandwidth handheld devices. As part of the system, the UWB antenna plays an extremely important role. Due to the trend towards integrated printed circuits, co-planar waveguide technology is a feasible solution for designing the UWB antenna. This thesis focuses on designing a UWB co-planar waveguide antenna with a band-stop filter. This band-stop filter offers rejection to unwanted frequencies in the range of the operating band in order to avoid unnecessary interference from other communication applications and improve its own system’s performance. In addition, it can divide the whole wide band into a few sub-bands. This will create more flexibility for practical applications. The professional full-wave field solver software package CST Microwave Studio is used as the analysis tool to obtain the performances of this antenna. It operates from 3.1 GHz to 10.6 GHz with a VSWR < 2 in the pass bands, and a VSWR > 2 in the stop bands. The selected frequencies demonstrate nearly omni-directional characteristics in radiation patterns. Comparing with other published UWB antenna designs, relatively reasonable group delay results are achieved. Measurements on a fabricated prototype validate the design approach. / Graduate / 0537 / wang@uvic.ca CPW SIW Notch Filter Antenna
2	Étude de filtres hyperfréquence SIW et hybride-planaire SIW en technologie LTCC Garreau, Jonathan 05 December 2012 (has links) (PDF) La maîtrise de la communication et de l'information est un atout primordial dans les stratégies de pouvoir, qu'elles soient militaires, politiques ou commerciales. Celui qui est capable de transmettre l'information plus vite prend l'avantage sur les autres. Tel est le moteur de la croissance et du progrès dans le domaine des télécommunications. L'omniprésence grandissante des dispositifs communicants témoigne de l'expansion exponentielle qu'a connu ce domaine depuis les premières communications sans fil. À l'époque du all-in-one, la multiplication des applications au sein d'un même appareil nécessite l'utilisation de composants toujours plus performants et petits . Au cœur de ces systèmes, les filtres ont une importance grandissante. Dans un environnement spatial, les contraintes de fiabilité et d'encombrement sont particulièrement drastiques. Le choix des matériaux est par ailleurs limité, ce qui réduit les possibilités d'innovation. Cependant, l'amélioration de la précision et de la fiabilité dans les technologies de fabrication ouvre de nouvelles perspectives d'innovation et d'amélioration des composants. Ces travaux ont ainsi été motivés par ce souci d'apporter toujours plus de performance et de fiabilité, pour un encombrement moindre en tirant profit du potentiel offert par l'association du concept SIW et de la technologie LTCC. Les résultats mettent à jour de sérieuses dispersions technologiques. Cependant, le potentiel de l'association SIW/LTCC est démontré, et les difficultés rencontrées sont surmontables. Les filtres SIW en technologie LTCC présentent donc des atouts pour s'imposer comme une alternative sérieuse aux solutions existantes. [SPI:OTHER] Engineering Sciences/Other Filtres SIW LTCC
3	Estudo e aplicação de guias de ondas integrados ao substrato em frequências de micro-ondas. / Study and application of substrate integrated waveguide in microwave frequencies. Caleffo, Ricardo Caranicola 29 April 2016 (has links) Esse trabalho de pesquisa apresenta um estudo detalhado sobre guias de ondas integrados ao substrato (SIW) operando em frequências de micro-ondas com base na teoria de guias de ondas retangulares (RWG). O estudo sobre guias SIW associa equações apresentadas na literatura e utiliza simulações eletromagnéticas para desenvolver um procedimento de projeto bem definido. É considerada a integração entre guias SIW e linhas de transmissão de microfita, projetando-se transições entre essas duas estruturas com o propósito de prover casamento de impedância e de viabilizar a caracterização em frequências de micro-ondas. São apresentadas considerações sobre processos de fabricação de circuitos SIW em substratos constituídos por laminados de alta frequência. Uma vez estabelecidos os procedimentos de fabricação e os critérios de projeto, a tecnologia SIW é aplicada ao projeto de três guias de ondas SIW nas bandas S e X, que foram fabricados empregando laminados de alta-frequência. Foram projetados dois filtros SIW passa-faixa empregando cavidades ressonantes e postes metálicos indutivos. Os dois filtros operam na frequência central de 10,61 GHz, sendo que um deles tem banda de passagem de 7,5%e é de 3ª ordem e o outro filtro tem banda de passagem de 15%, sendo de 5ª ordem. Foram realizadas comparações entre o desempenho simulado e experimental das estruturas SIW projetadas. Os resultados de simulações eletromagnéticas e experimentais demonstraram boa concordância. Os projetos em tecnologia SIW apresentados neste trabalho de pesquisa possuem perdas de retorno melhores que 10 dB na banda de operação e perdas por inserção de 1,0 dB a 1,5 dB. É apresentada a análise da sensibilidade do desempenho dos guias de ondas e filtros SIW projetados a desvios dimensionais típicos do processo de fabricação por microfresagem mecânica. Com os resultados experimentais e de simulação foi possível validar os procedimentos de projeto e de fabricação de circuitos SIW operando em frequências de micro-ondas. / This research work presents a detailed study about substrate integrated waveguide (SIW) operating in microwave frequencies based on rectangular waveguides (RWG) theory. The study about SIW associates equations presented at the literature and uses electromagnetic simulations to develop a well-defined design procedure. Is considered the integration between substrate integrated waveguides and microstrip line, designing transitions between these two structures with the aim to provide impedance matching and make possible the characterization in microwave frequencies. Considerations are made about the manufacturing process of the SIW circuits on planar dielectric substrate. Once established a manufacturing process and a design procedure, the SIW technology is applied in three waveguides to operate in S and X bands. Was designed two band-pass filters with central frequency of 10,61 GHz, where one of them has band-pass of 7,5% and it is third order filter and the another one has band-pass of 15,0% and it is five order filter. Was made comparison between simulated results and experimental results for the all designed structures. The simulated results and the experimental results shown good agreement. The projects in SIW technology shown in this research work has return loss better than 10dB in the operation band and insertion loss between 1,0 dB and 1,5dB. Is shown a sensibility analysis of the waveguides and filters performance in SIW technology to evaluate the layout differences caused by manufacturing process. With the experimental results and simulation results was possible validate the design procedures and the manufacturing process of the SIW circuits operating in microwave frequencies. Circuitos de micro-ondas Guia de ondas integrado ao substrato Guia de ondas retangular Linhas de transmissão de microfita Rectangular waveguide SIW technology Substrate integrated Waveguide Tecnologia SIW Transições entre guias SIW
4	Estudo e aplicação de guias de ondas integrados ao substrato em frequências de micro-ondas. / Study and application of substrate integrated waveguide in microwave frequencies. Ricardo Caranicola Caleffo 29 April 2016 (has links) Esse trabalho de pesquisa apresenta um estudo detalhado sobre guias de ondas integrados ao substrato (SIW) operando em frequências de micro-ondas com base na teoria de guias de ondas retangulares (RWG). O estudo sobre guias SIW associa equações apresentadas na literatura e utiliza simulações eletromagnéticas para desenvolver um procedimento de projeto bem definido. É considerada a integração entre guias SIW e linhas de transmissão de microfita, projetando-se transições entre essas duas estruturas com o propósito de prover casamento de impedância e de viabilizar a caracterização em frequências de micro-ondas. São apresentadas considerações sobre processos de fabricação de circuitos SIW em substratos constituídos por laminados de alta frequência. Uma vez estabelecidos os procedimentos de fabricação e os critérios de projeto, a tecnologia SIW é aplicada ao projeto de três guias de ondas SIW nas bandas S e X, que foram fabricados empregando laminados de alta-frequência. Foram projetados dois filtros SIW passa-faixa empregando cavidades ressonantes e postes metálicos indutivos. Os dois filtros operam na frequência central de 10,61 GHz, sendo que um deles tem banda de passagem de 7,5%e é de 3ª ordem e o outro filtro tem banda de passagem de 15%, sendo de 5ª ordem. Foram realizadas comparações entre o desempenho simulado e experimental das estruturas SIW projetadas. Os resultados de simulações eletromagnéticas e experimentais demonstraram boa concordância. Os projetos em tecnologia SIW apresentados neste trabalho de pesquisa possuem perdas de retorno melhores que 10 dB na banda de operação e perdas por inserção de 1,0 dB a 1,5 dB. É apresentada a análise da sensibilidade do desempenho dos guias de ondas e filtros SIW projetados a desvios dimensionais típicos do processo de fabricação por microfresagem mecânica. Com os resultados experimentais e de simulação foi possível validar os procedimentos de projeto e de fabricação de circuitos SIW operando em frequências de micro-ondas. / This research work presents a detailed study about substrate integrated waveguide (SIW) operating in microwave frequencies based on rectangular waveguides (RWG) theory. The study about SIW associates equations presented at the literature and uses electromagnetic simulations to develop a well-defined design procedure. Is considered the integration between substrate integrated waveguides and microstrip line, designing transitions between these two structures with the aim to provide impedance matching and make possible the characterization in microwave frequencies. Considerations are made about the manufacturing process of the SIW circuits on planar dielectric substrate. Once established a manufacturing process and a design procedure, the SIW technology is applied in three waveguides to operate in S and X bands. Was designed two band-pass filters with central frequency of 10,61 GHz, where one of them has band-pass of 7,5% and it is third order filter and the another one has band-pass of 15,0% and it is five order filter. Was made comparison between simulated results and experimental results for the all designed structures. The simulated results and the experimental results shown good agreement. The projects in SIW technology shown in this research work has return loss better than 10dB in the operation band and insertion loss between 1,0 dB and 1,5dB. Is shown a sensibility analysis of the waveguides and filters performance in SIW technology to evaluate the layout differences caused by manufacturing process. With the experimental results and simulation results was possible validate the design procedures and the manufacturing process of the SIW circuits operating in microwave frequencies. Circuitos de micro-ondas Guia de ondas integrado ao substrato Guia de ondas retangular Linhas de transmissão de microfita Tecnologia SIW Transições entre guias SIW Rectangular waveguide SIW technology Substrate integrated Waveguide
5	System on Package (SoP) Millimeter Wave Filters for 5G Applications Showail, Jameel 05 1900 (has links) Bandpass filters are an essential component of wireless communication systems that only transmits frequencies corresponding to the communication band and rejects all other frequencies. As the deployment of 5G draws nearer, first deployments are expected in 2020 [1], the need for viable filters at the new frequency bands becomes more imminent. Size and performance are two critical considerations for a filter that will be used in emerging mobile communication applications. The high frequency of 5G communication, 28 GHz as opposed to sub 6 GHz for nearly all previous communication protocols, means that previously utilized lumped component based solutions cannot be implemented since they are ill-suited for mm-wave applications. The focus of this work is the miniaturization of a high-performance filter. The Substrate Integrated Waveguide (SIW) is a high performance and promising structure and Low Temperature Co-Fired Ceramic (LTCC) is a high-performance material that both can operate at higher frequencies than the technologies used for previous telecommunication generations. To miniaturize the structure, a compact folded four-cavity SIW filter is designed, implemented and tested. The feeding structure is integrated into the filter to exploit the System on Package (SoP) attributes of LTCC and further reduce the total area of the filter individually and holistically when looking at the final integrated system. Two unique three dimensional (3D) integrated SoP LTCC two-stage SIW single cavity filters and one unique four-cavity filter all with embedded planar resonators are designed, fabricated and tested. The embedded resonators create a two-stage effect in a single cavity filter. The better single cavity design provides a 15% fractional bandwidth at a center frequency of 28.12 GHz, and with an insertion loss of -0.53 dB. The fabricated four-cavity filter has a 3-dB bandwidth of .98GHz centered at 27.465 GHz, and with an insertion loss of -2.66 dB. The designs presented highlight some of the previously leveraged advantages of SoP designs while also including additions of embedded planar resonators to feed the SIW cavity. The integration of both elements realizes a compact and high-performance filter that is well suited for future mm-wave applications including 5G. Cavity filter millimeter wave 5G System on Package (SoP) SIW LTCC
6	Experimentální bezdrátový spoj v kmitočtovém pásmu 60 GHz / Experimental wireless link in frequency band 60 GHz Lambor, Jiří January 2014 (has links) This thesis is focused on a wireless link operating in 60 GHz frequency band. In this band, the attenuation due to resonance of oxygen is high. Thanks to this property, we are able to ensure a proper insulation of communication links working in two close bands. The document compares commercially available modules of offered by different manufacturers for the operation in this band. The design, the simulation and the fabrication of a antenna and its feeder are described in the next part of the thesis. The system is fabricated using a SIW technology.
7	High-Performance 50μm Silicon-Based On-Chip Antenna with High Port-To-Port Isolation Implemented by Metamaterial and SIW Concepts for THz Integrated Systems Alibakhshikenari, M., Virdee, B.S., See, C.H., Abd-Alhameed, Raed, Falcone, F., Limiti, E. 16 September 2019 (has links) Yes / A novel 50μm Silicon-based on-chip antenna is presented that combines metamaterial (MTM) and substrate integrated waveguide (SIW) technologies for integration in THz circuits operating from 0.28 to 0.30 THz. The antenna structure comprises a square patch antenna implemented on a Silicon substrate with a ground-plane. Embedded diagonally in the patch are two T-shaped slots and the edges of the patch is short-circuited to the ground-plane with metal vias, which convert the structure into a substrate integrated waveguide. This structure reduces loss resulting from surface waves and Silicon dielectric substrate. The modes in the structure can be excited through two coaxial ports connected to the patch from the underside of the Silicon substrate. The proposed antenna structure is essentially transformed to exhibit metamaterial properties by realizing two T-shaped slots, which enlarges the effective aperture area of the miniature antenna and significantly enhances its impedance bandwidth and radiation characteristics between 0.28 THz to 0.3 THz. It has an average gain and efficiency of 4.5dBi and 65%, respectively. In addition, it is a self-isolated structure with high isolation of better than 30dB between the two ports. The on-chip antenna has dimensions of 800×800×60 μm3. / H2020-MSCA-ITN-2016 SECRET-722424 and the financial support from the UK Engineering and Physical Sciences Research Council (EPSRC) under grant EP/E0/22936/1 On-chip antenna Substrate integrated waveguide (SIW) Metasurface Metamaterial
8	High-isolation antenna array using SIW and realized with a graphene layer for sub-terahertz wireless applications Alibakhshikenari, M., Virdee, B.S., Salekzamankhani, S., Aïssa, S., Soin, N., Fishlock, S.J., Althuwayb, A.A., Abd-Alhameed, Raed, Huynen, I., McLaughlin, J.A., Falcone, F., Limiti, E. 02 November 2021 (has links) Yes / This paper presents the results of a study on developing an effective technique to increase the performance characteristics of antenna arrays for sub-THz integrated circuit applications. This is essential to compensate the limited power available from sub-THz sources. Although conventional array structures can provide a solution to enhance the radiation-gain performance however in the case of small-sized array structures the radiation properties can be adversely affected by mutual coupling that exists between the radiating elements. It is demonstrated here the effectiveness of using SIW technology to suppress surface wave propagations and near field mutual coupling effects. Prototype of 2 × 3 antenna arrays were designed and constructed on a polyimide dielectric substrate with thickness of 125 μm for operation across 0.19-0.20 THz. The dimensions of the array were 20 × 13.5 × 0.125 mm3. Metallization of the antenna was coated with 500 nm layer of Graphene. With the proposed technique the isolation between the radiating elements was improved on average by 22.5 dB compared to a reference array antenna with no SIW isolation. The performance of the array was enhanced by transforming the patch to exhibit metamaterial characteristics. This was achieved by embedding the patch antennas in the array with sub-wavelength slots. Compared to the reference array the metamaterial inspired structure exhibits improvement in isolation, radiation gain and efficiency on average by 28 dB, 6.3 dBi, and 34%, respectively. These results show the viability of proposed approach in developing antenna arrays for application in sub-THz integrated circuits. / Ministerio de Ciencia, Innovación y Universidades, Gobierno de España (MCIU/AEI/FEDER, UE) under Grant RTI2018-095499-B-C31, in part by the Innovation Programme under Grant H2020-MSCA-ITN-2016 SECRET-722424, and in part by the U.K. Engineering and Physical Sciences Research Council (EPSRC) under Grant EP/E022936/1. SIW High-isolation antenna array Graphene Wireless applications
9	Hadrons dans un calorimètre électromagnétique silicium-tungstène hautement granulaire - Production du quark top à l'International Linear Collider / Hadrons in a highly granular SiW ECAL – Top quark production at the ILC Doublet, Philippe 03 October 2011 (has links) L'International Linear Collider (ILC) est un projet de futur collisionneur électron positron opérant à une énergie nominale dans le centre de masse de 500 GeV. Il fera des mesures de précision, par exemple d'un boson de Higgs léger qui pourrait être bientôt découvert au Large Hadron Collider. Les détecteurs de l'ILC prévus à cet effet seront composés de calorimètres à haute granularité.Cette thèse présente l'étude de la réponse d'un calorimètre électromagnétique silicium tungstène hautement granulaire (ECAL SiW) ainsi que l'étude de la production du quark top à l'ILC.Le prototype d'un ECAL SiW développé par la collaboration CALICE a été testé sous faisceaux de particules chargées au FNAL en Mai et Juillet 2008. Après avoir sélectionné des pions chargés négativement et entrant dans le ECAL, sa haute granularité est mise à profit pour introduire une classification en quatre types d'événements, afin de décrire des interactions hadroniques.Des modèles de dimensions supplémentaires expliquent l'anomalie AFBb du LEP par une modification des couplages des quarks de troisième génération au boson Z. Ces effets motivent l'étude de la désintégration semileptonique des paires de quarks top, effectuée ici au moyen d'une simulation complète du détecteur ILD proposé pour l'ILC à une énergie dans le centre de masse de 500GeV pour une luminosité intégrée L = 500 fb-1. Les performances de ce détecteur permettent d'atteindre des efficacités de sélection de plus de 70% avec une pureté meilleure que 95%. Cela se traduit par une précision relative d'environ 1% sur l’asymétrie gauche-droite de la production du quark top ALR ainsi que sur l'asymétrie avant-arrière du quark top AFBt dans le cas où les électrons sont polarisés à 80% et pas les positrons. Les incertitudes relatives sur les couplages gauche et droit du quark top au boson Z peuvent aller jusqu'à 0.9% et 1.5%. / The International Linear Collider (ILC) is a proposed e+e- collider with a center-of-mass energy of 500 GeV or more, aimed at precision measurements, e.g. of a light Higgs boson that could be discovered soon at the Large Hadron Collider. Its detectors foresee the use of fine grained calorimeters to achieve the desired precisions.This thesis presents the study of the response to hadrons of a highly granular silicon-tungsten electromagnetic calorimeter (SiW ECAL), and the study of top quark pair production at the ILC.The SiW ECAL prototype developed by the CALICE collaboration was tested with beams of charged particles at FNAL in May and July 2008. After selecting single negatively charged pions entering the ECAL, its fine granularity is used to introduce a classification among four types of events, used to describe hadronic interactions.Motivated by extra-dimensional models which may explain the AFBb LEP anomaly by modifying the couplings of third generation quarks to the Z boson, the semileptonic decay of the top quark is studied with a full simulation of the proposed ILD detector for the ILC at center-of-mass energy of 500 GeV and integrated luminosity of 500 fb-1. Detector performances permit to reach efficiencies larger than 70% in finding those events with purity larger than 95%. This translates into a relative accuracy of about 1% on both the left-right asymmetry of top production ALR and the top forward-backward asymmetry AFBt with electrons polarized at 80% and no polarization of the positrons. The relative uncertainties in the left and right couplings of the top quark to the Z boson could be as good as 0.9% and 1.5%. ILC ILD CALICE SiW ECAL Hadrons Quark top Asymétrie ILC , ILD CALICE SiW ECAL Hadrons Top quark Asymmetry
10	Štěrbinová anténní řada na bázi vlnovodu integrovaného do substrátu / Slot Antenna Array Based on Substrate Integrated Waveguide Sedláček, Petr January 2012 (has links) The Master’s Thesis deals with the design of slot antenna array based on the substrate integrated waveguide (SIW). Various supply methods are described and the design procedure is approached. The antenna array was designed for Wi-Fi band of 5 GHz in the Ansoft HFSS simulation software. The optimalized parameters are impedance bandwidth (low reflection coefficient at antenna input in the desired frequency band) and the gain (the maximum value). As the result of the work 3 antenna arrays based on the substrate integrated waveguide are designed and fabricated: antenna arrays 2x1, 2x2 and antenna array 2x2 supplemented with housing for outdoor use. The work also contains a comparison of simulated and measured parameters of antennas.

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