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11	Análise multi-sinal e caracterização experimental de válvulas de ondas progressivas (TWT) para aplicação em amplificadores de micro-ondas / Multi-signal analysis and experimental characterization of travelling-wave tubes for microwave amplifiers LOPES, DANIEL T. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:34:37Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:48Z (GMT). No. of bitstreams: 0 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP / FAPESP:08/05286-1 MICROWAVE AMPLIFIERS TRAVELLING WAVE TUBES VALVES SIGNALS MATHEMATICAL MODELS
12	Análise multi-sinal e caracterização experimental de válvulas de ondas progressivas (TWT) para aplicação em amplificadores de micro-ondas / Multi-signal analysis and experimental characterization of travelling-wave tubes for microwave amplifiers LOPES, DANIEL T. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:34:37Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:48Z (GMT). No. of bitstreams: 0 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Este trabalho apresenta o desenvolvimento de uma plataforma para o estudo teórico e experimental de dispositivos amplificadores de micro-ondas do tipo válvula de ondas progressivas (TWT). A plataforma é composta por um modelo matemático e uma bancada de testes. O modelo matemático descreve a TWT como uma linha de transmissão acoplada a um feixe eletrônico unidimensional, onde as forças de carga espacial AC e DC são calculadas auto consistentemente, eliminando-se a necessidade de um cálculo separado para o fator de redução de carga espacial. O modelo matemático deu origem a dois códigos para a simulação da TWT. Ambos foram comparados com resultados experimentais e teóricos disponíveis na literatura especializada para uma pré-validação. O nível de concordância entre os presentes resultados e aqueles de referência foi acima de 90%, o que atendeu as expectativas de exatidão do modelo, tendo em vista que nem todos os parâmetros de entrada estavam disponíveis na referência. A bancada de testes construída é composta por uma TWT com banda de operação de 6,0 a 18 GHz e potência saturada máxima em torno de 55 dBm (316 W) em 13 GHz, um circuito de polarização para a mesma e a instrumentação necessária para a realização das medidas pertinentes aos amplificadores de potência. A TWT em questão foi caracterizada segundo seu comportamento mono-sinal e multi-sinal. As curvas de ganho e potência foram obtidas em função da frequência utilizando a voltagem de aceleração do feixe eletrônico e a potência de entrada como parâmetros. As curvas de transferência de potência, de fase e compressão de ganho foram obtidas para frequências escolhidas ao longo da banda, tendo novamente a voltagem de aceleração como parâmetro. Adicionalmente, a produção de produtos de intermodulação de terceira ordem foi caracterizada no ponto de 1 dB de compressão de ganho ao longo da banda analisada. Um teste de linearização por injeção de sinais, que estava previsto no plano de trabalho, não apresentou o desempenho esperado devido a problemas no funcionamento do circuito linearizador. Esses problemas foram analisados e listou-se uma série de passos para saná-los. / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP / FAPESP:08/05286-1 microwave amplifiers travelling wave tubes valves signals mathematical models
13	Cochlear implant speech processing, based on the cochlear travelling wave Wolmarans, Hendrik Petrus 24 January 2006 (has links) A cochlear implant is a prosthetic device that can provide severe-to-profoundly deaf individuals with partially restored hearing. It emulates the function of a normal cochlea through combined functioning of externally situated electronics and an electrode array surgically implanted into the cochlea. Speech coding strategies implemented in speech processors aim to stimulate the auditory nerve in a way similar to that of a normal working cochlea by modelling the way the cochlea processes sound. Current speech processing strategies rely on the tonotopicity of the cochlea, i.e. the relation between distance from the base of the cochlea and the specific frequency that causes the highest amplitude of deflection at the specific point. The phenomenon of the travelling wave on the basilar membrane is thus reduced to its point or points of maximal deflection. In this study, the behaviour along the full length of the basilar membrane will be investigated in the time domain, i.e. the deflection along the whole membrane for any point in time, in order to evaluate the relevance of the travelling wave in coding sound in a cochlear implant system. The additional information acquired by emulating the motion of the fluid and the basilar membrane in the cochlea, will be transmitted to the recipient in electrical stimulus patterns, to assess whether it provides recipients of cochlear implants with better pitch perception. It will be shown that for the individuals that partook in the experiments, improvement of discrimination around 100 Hz were obtained when compared to current speech coding strategies like the advanced combination encoder (ACE) speech coding strategy in the same recipient. / Dissertation (MEng (Bio-Engineering))--University of Pretoria, 2007. / Electrical, Electronic and Computer Engineering / unrestricted Basilar membrane Hydrodynamic Model Cochlea Travelling wave UCTD
14	Propagation and Excitation of Electromagnetic Modes for Travelling-wave MRI Applications Chen, Yi 10 June 2016 (has links) No description available. Electrical Engineering Electromagnetic Travelling-wave MRI Numerical Solution
15	Performance analysis and improvement of edge emitting semiconductor laser diodes for optical communications Rashed, Atef Mahmoud Khalil January 2001 (has links) No description available. 621.381045
16	Couplage fluide/interface de croissance en solidifcation dirigée en lames minces Krijanovska, Tetyana 17 February 2012 (has links) Cette thèse, de nature expérimentale, porte sur l'étude du couplage fluide / interface de croissance en solidification dirigée en lames minces. En solidification naturelle, les écoulements de nature convective ou solutale engendrent un transport de soluté devant le front et modifient la dynamique des microstructures. Ils sont modélisés ici en lames minces par un écoulement de Poiseuille induit par un thermosiphon. Au-delà des effets d'inclinaison de microstructures et d'asymétrie du développement des branchements, un nouveau phénomène est mis en évidence : des ondes progressives interfaciales modifiant fortement les microstructures. Trois types d'ondes sont observés. Leur diagramme d'existence est déterminé en fonction des vitesses de solidification et d'écoulement, et leurs caractéristiques principales en vitesse de phase, amplitude et asymétrie sont identifiées. Elles apparaissent quasi-insensibles à l'épaisseur de l'échantillon et à la longueur thermique. La cohérence de leur mécanisme de propagation est explicitée en tenant compte de la concentration et de la vitesse de l'interface, ainsi que de la forme des microstructures et de leur rejet de soluté. Ces ondes interfaciales créent des modulations de concentration, dont l'échelle caractéristique ne dépend pas de la nature des ondes ou du gradient thermique, mais seulement du rapport entre vitesse de l'écoulement et vitesse de solidification. La microségrégation et donc les propriétés résultantes des matériaux en sont alors directement influencées. / This thesis addresses the experimental study of the coupling between a flow and a growth interface in directional solidification in a thin sample. In natural solidification, the convective or solutal flows both generate a transport of solute along the front and modify the microstructure dynamics. They are modelled here in a thin sample by a Poiseuille flow induced by a thermosiphon. Beyond the effects of microstructure inclination and of asymmetry of sidebranch development, a new phenomenon is evidenced : the existence of the interfacial travelling waves that strongly affect microstructures. Three kinds of waves are observed. Their diagram of existence is determined as a function of both the pulling velocity and the flow velocity, and their main characteristics in phase velocity, amplitude and asymmetry are identified. They appear almost insensitive to the thickness of the sample and to the thermal length. The coherence of their propagation mechanism is made explicit when involving the concentration and the velocity of interface together with the form and the solute rejection of microstructures. These interfacial waves create concentration modulations whose characteristic scale does not depend on the wave type or the thermal gradient, but on the ratio of flow velocity to solidification velocity only. They then directly influence the microsegregation and thus, the resulting material properties. Solidification dirigée Écoulement Onde interfaciale propagative Dendrite Instabilité Directional solidification Flow Interfacial travelling wave Dendrite Instability
17	The Origin of Wave Blocking for a Bistable Reaction-Diffusion Equation : A General Approach Roy, Christian 12 April 2012 (has links) Mathematical models displaying travelling waves appear in a variety of domains. These waves are often faced with different kinds of perturbations. In some cases, these perturbations result in propagation failure, also known as wave-blocking. Wave-blocking has been studied in the case of several specific models, often with the help of numerical tools. In this thesis, we will display a technique that uses symmetry and a center manifold reduction to find a criterion which defines regions in parameter space where a wave will be blocked. We focus on waves with low velocity and small symmetry-breaking perturbations, which is where the blocking initiates; the organising center. The range of the tools used makes the technique easily generalizable to higher dimensions. In order to demonstrate this technique, we apply it to the bistable equation. This allows us to do calculations explicitly. As a result, we show that wave-blocking occurs inside a wedge originating from the organising center and derive an expression for this wedge to leading order. We verify our results with some numerical simulations. Travelling wave Bistable Equation Center Manifold Reduction Wave Blocking Reaction Diffusion Equation Organising Center Symmetry
18	The Origin of Wave Blocking for a Bistable Reaction-Diffusion Equation : A General Approach Roy, Christian 12 April 2012 (has links) Mathematical models displaying travelling waves appear in a variety of domains. These waves are often faced with different kinds of perturbations. In some cases, these perturbations result in propagation failure, also known as wave-blocking. Wave-blocking has been studied in the case of several specific models, often with the help of numerical tools. In this thesis, we will display a technique that uses symmetry and a center manifold reduction to find a criterion which defines regions in parameter space where a wave will be blocked. We focus on waves with low velocity and small symmetry-breaking perturbations, which is where the blocking initiates; the organising center. The range of the tools used makes the technique easily generalizable to higher dimensions. In order to demonstrate this technique, we apply it to the bistable equation. This allows us to do calculations explicitly. As a result, we show that wave-blocking occurs inside a wedge originating from the organising center and derive an expression for this wedge to leading order. We verify our results with some numerical simulations. Travelling wave Bistable Equation Center Manifold Reduction Wave Blocking Reaction Diffusion Equation Organising Center Symmetry
19	Investigation of Integrated Circuits for High Datarate Optical Links Chun, Carl S. P.(Shun Ping) 24 November 2004 (has links) Because of the need to move large amounts of data effienciently, optical based communications are a critical component of modern telecommunications. And as a key enabler of optical communications, electrical components play a critical role in optical data links. Optoelectronic integrated circuits provide the bridge between the optical and electrical realms. Electronic integrated circuits are also integral parts of the optical link, interfacing with post processing circuitry and compensating for any limitations along the link. In this investigation, three circuits for optical data link applications are studied. Two optoelectronic integrated circuit front-ends for freespace and long haul applications, respectively and an active filter for near end cross talk cancellation associated with high data rate transmission. The first circuit is an 8x8 monolithic receiver array for a Spatial Division Multiplexing optical link. A compact and low power 8x8 array was designed and demonstrated a channel that received data at rates of 1Gb/s. It is the first completely monolithic demonstration of a 2D receiver array within a conventional ion implanted GaAs MESFET process. The second circuit demonstrated a long wavelength (1.55 m) optoelectronic receiver for long haul applications. The circuit utilized a TWA topology, which maximizes the available bandwidth from the GaAs MESFET process. It incorporated a thin-film inverted MSM photodetector to achieve nearly monolithic integration. The final circuit is a tunable high pass active filter in 0.18 m CMOS technology. As part of a NEXT noise canceller architecture, it will provide the means to extend data transmission in FR-4 legacy backplanes into the tens of Gb/s datarate. OEIC receivers Free space optical interconnects Travelling wave amplifiers NEXT noise cancellation
20	A gridless, variable perveance Pierce electron gun. Foulis, Bruce David. January 1994 (has links) This thesis covers the design and development of a modulated Pierce electron gun used in the construction of experimental travelling wave tube (TWT) amplifiers. The gun incorporated an open aperture switching electrode, positioned mid-way between anode and cathode, to pulse the beam. This method of modulation did not have the same adverse effects on electron trajectories as in the case of a conventional mesh grid, but rather the electrode could be used to alter the focus conditions within the gun and subsequently improve certain beam characteristics. Ion focusing effects could also be eliminated with the electrode, allowing dual mode operation of the guns without the complications normally associated with such a practice. The switching electrode was simulated to ascertain its effect on electron trajectories within the gun, using finite element analysis as well as an electron optics design program. A test gun was constructed in a glass envelope in order to investigate the performance of the new design. The glass gun allowed a beam analysis to be performed, as well as thermal measurements to be made. Results from this gun compared favourably with earlier simulations. The results of two metal/ceramic construction TWTs are presented, showing the beneficial effects of the switching electrode on the performance of the tubes as a whole, and the electrode's potential to compensate for constructional anomalies. The joining of metals to ceramic using active brazing techniques is also an important aspect tackled by the thesis, with several innovative ideas being implemented in the construction of the devices. A simple yet reliable electrical feed-through was developed for those guns having a ceramic envelope. Extensive work was also performed on the manufacture of impregnated tungsten cathodes for use in the electron guns. Several test diodes, including a water-cooled demountable test vehicle, were constructed to test the performance of the cathodes. An analysis was performed on the patchy behaviour of some of the initial cathodes to improve the preparation methods used in the laboratory. The emission results obtained from the cathodes are documented, as is the successful incorporation of several of them into the new modulated gun design. / Thesis (Ph.D.)-Univesity of Natal, Durban, 1994. Electron gun. Travelling wave tubes. Microwave amplifiers. Electron beams. Theses--Electronic engineering.

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