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Contribution à l’étude des aspects mécaniques et thermiques des générateurs de forte puissance pour les EMR / Contribution to the study of the mechanical and thermal aspects of hight power generators for the marine renewable energiesOuagued, Sofiane 20 December 2017 (has links)
Le développement des générateurs de forte puissance pour les énergies marines renouvelables nécessite un effort important de recherche et de développement plus particulièrement centre sur les aspects mécaniques et thermiques. Généralement, la modélisation précise des machines électriques nécessite l'utilisation de la méthode des éléments finis. Cependant, cette méthode est gourmande en temps de calcul en particulier lors des premières étapes de conception. Le but de cette thèse est de fournir des modèles permettant l’analyse des générateurs synchrones à aimants permanents pour les énergies marines renouvelables avec un rapport temps / précision réduit. Deux approches de modélisation sont proposées dans ce travail: une approche à constantes localisées et une approche hybride basée sur le couplage direct entre un modèle analytique et un modèle à constantes localisées. Ces modèles sont utilisés pour l'étude des différents phénomènes physiques inhérents au fonctionnement des dispositifs électromagnétiques (magnétiques, thermiques et mécaniques). Les modèles magnétiques et thermiques à constantes localisées sont construits à partir d'une démarche dite générique, consistant en un maillage du domaine d'étude. Les modèles développés enrichiront les travaux en cours sur les modèles thermiques et mécaniques au GREAH afin d'aboutir à un code de calcul multi-physique par constantes localisées. / The development of high power generators for the marine renewable energies requires substantial research and development, focusing particularly on the mechanical and thermal aspects. Generally, accurate modelling of electrical machines requires the use of finite-element (fe) method. However, fe analysis is highly time consuming, especially at first design stages. The aim of this phd thesis is to propose a design approach of the permanent magnet synchronous generators for marine renewable energies applications offering a good computation time to precision ratio. Two design models are proposed in this work : lumped parameter approach and a hybrid approach based on the direct coupling of an analytical model and lumped parameter model. This modelling approach is used for the modelling of the three main physics to be considered in an electrical generator (magnetic model, thermal model and mechanical model). The lumped parameters approach consists, in this thesis, in the development of a generic magnetica and thermic lumped parameter network linked to the machine geometry. The models developed will regroup the ongoing developments of thermal and mechanical models at the GREAH lab in order to reach the completion of a mutliphysics lumped parameters computational code.
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1kW Class-E solid state power amplifier for cyclotron RF-sourceBook, Stefan January 2018 (has links)
This thesis discusses the design, construction and testing of a highefficiency, 100 MHz, 1 kW, Class-E solid state power amplifier. The design was performed with the aid of computer simulations using electronic design software (ADS). The amplifier was constructed around Ampleon's BLF188XR LDMOS transistor in a single ended design. The results for 100 MHz operation show a power added efficiency of 82% at 1200 W pulsed power output. For operation at 102 MHz results show a power added efficiency of 86% at 1050 W pulsed power output. Measurements of the drain- and gate voltage waveforms provide validation of Class-E operation.
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Contribution à l’étude d’antennes de puissance à efficacité optimisée : application aux réseaux large bande et reconfigurables en diagrammes de rayonnement / Wideband pattern actuated high power efficient antenna designed for high power applicationsChauloux, Antoine 03 October 2014 (has links)
L'émergence depuis ces dernières années de nouvelles capacités technologiques permettant la mise en œuvre de dispositifs d'agression électromagnétique, imposent d'étudier la faisabilité de ces potentielles Armes à Energie Dirigée ÉlectroMagnétiques (AED EM). Parmi les différentes briques technologiques qui composent ces systèmes, l'aérien est l'élément déterminant de la formation du faisceau d'ondes rayonnées et nécessite donc d'être évalué. C'est dans ce contexte que le Centre de Gramat du Commissariat à l'Énergie Atomique et aux Énergies Alternatives s'est associé à la Direction Générale de l'Armement afin de proposer cette thèse réalisée en collaboration avec l'Institut d'Électronique et de Télécommunications de Rennes. Le sujet propose l'étude complète de trois solutions antennaires susceptibles d'être intégrées sur un système de type AED EM. Chaque type d'antenne répond à une problématique qui lui est propre : Il s'agit en premier lieu de réaliser une antenne fonctionnant à fréquence fixe et possédant un gain maximisé ; Dans un second temps l'étude est menée afin de concevoir et réaliser une antenne à diagramme de rayonnement variable dans un plan et stable dans l'autre plan ; Enfin une antenne large bande fonctionnant sur une octave est développée dans le but de maintenir un diagramme de rayonnement possédant des ouvertures à mi-puissance constantes. Chacune de ces études est gouvernée par deux contraintes difficiles que sont d'une part le maintien d'une tenue en puissance élevée (niveau injecté de l'ordre du kilowatt pulsé) et d'autre part un encombrement réduit en vue d'une intégration sur porteur par exemple. Chaque antenne est élaborée à l'aide d'un logiciel de calcul électromagnétique puis réalisée afin d'être validée expérimentalement. / It is true that during the last past years, High Power Microwave (HPM) weapons threat has grown up. One way to prevent from this kind of system is to study every part of it. Among them, the antenna is the element that influences the most the electromagnetic waves behavior then it has to be evaluated. This is the reason why the Centre de Gramat du Commissariat à l’Energie Atomique et aux Energies Alternatives has teamed up with the Direction Générale de l’Armement in order to propose this thesis in collaboration with the Institut d’Electronique et de Télécommunications de Rennes. The subject provides the full study of three antennas that can be integrated on an HPM weapon. Each type of antenna is developed to address a problem: The first antenna operates at a fixed frequency and is designed to provide a maximized gain; The second one is manufactured to have a variable radiation pattern in one plane and a stable radiation pattern in the other plane; Finally, a broadband antenna operating between 2 and 4 GHz is developed in order to maintain a stable radiation pattern. Each study is led by taking into consideration high input power (around 1 kW pulsed power) and also dimensional constraints in order to be integrated on a mobile device for instance. Each antenna is designed using electromagnetic software then validated by measurements.
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Frequency Tunable Antennas and Surface Microwave Imaging System Using Microfluidic Reconfiguration TechniquesDey, Abhishek 17 November 2016 (has links)
Reconfigurable radio frequency (RF) devices are attractive for miniaturization of wireless components and systems by handling functionality of multiple distinct devices. Existing reconfiguration techniques rely on device loadings with semiconductor diodes, ferrite/ferroelectric materials, and microelectromechanical system (MEMS) switches and capacitors. However, it is well-recognized that these techniques cannot fully address important system metrics such as high efficiency, wide frequency tuning range, high power handling capability and cost. Therefore, novel alternative techniques are highly desirable to advance the state of the art in reconfigurable RF devices. The aim of this dissertation is to investigate the novel concept of microfluidically loaded reconfigurability within the context of RF antennas and imaging systems. The proposed devices operate based on continuously movable microfluidic loads consisting of metal (liquid/solid) and dielectric solutions. Microfluidics and microfabrication techniques are utilized with flexible/rigid multilayered substrates to maximize the reconfigurable loading effect on the devices and enable highly reconfigurable antennas and imaging array realizations. Specifically, a wideband frequency tunable monopole antenna is introduced by utilizing continuously movable liquid metal within the microfluidic channel as a length varying conductor. By resorting to ultra-thin channel walls, the liquid metal volume overlapping with the microstrip line feed is utilized as a non-radiating capacitive excitation point to achieve the realized 4:1 (1.29GHz – 5.17GHz) frequency tuning range. Subsequently, an alternative design that replaces liquid metal volume with a microfluidically movable metallized plate is introduced. This novel liquid-metal-free implementation alleviates the liquid metal associated drawbacks of reliability, long-term device operation, and efficiency. The antenna is shown to provide 2:1 (1.6GHz – 3.5GHz) frequency tuning range with > 87 % radiation efficient. Due to the high radiation efficiency, the antenna is also capable of handling 15 W of RF power which is 10 W more than its liquid metal counterpart. This metallized plate approach is also suitable for reconfiguration of miniature antennas, and this is demonstrated with the design/implementation of a microfluidically reconfigurable top loaded monopole antenna. It is also suitable for reconfiguration of other structures such as textile antennas – and this is demonstrated with a 0.8GHz to 1.4GHz frequency reconfigurable textile antenna realization. The last section of the dissertation introduces a novel surface imaging array realization by utilizing the microfluidically reconfigurable metallized plate as an RF read-out circuit component. Specifically, a 24 element imaging array is designed and validated to operate within 6 – 12 GHz band with subwavelength resonators to demonstrate the possibility of constructing low-cost high-resolution microwave surface imaging arrays by utilizing the microfluidics based reconfiguration techniques. The presented work emphasizes system level implementation of the proposed devices by integrating them with micropump units, controller boards, and investigating their reliability performances under higher power RF excitations.
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5 kW Near-Diffraction-Limited and 8 kW High-Brightness Monolithic Continuous Wave Fiber Lasers Directly Pumped by Laser DiodesFang, Qiang, Li, Jinhui, Shi, Wei, Qin, Yuguo, Xu, Yang, Meng, Xiangjie, Norwood, Robert A., Peyghambarian, Nasser 10 1900 (has links)
Tandem pumping technique are traditionally adopted to develop > 3-kW continuous-wave (cw) Yb3+-doped fiber lasers, which are usually pumped by other fiber lasers at shorter wavelengths (1018 nm e.g.). Fiber lasers directly pumped by laser diodes have higher wall-plug efficiency and are more compact. Here we report two high brightness monolithic cw fiber laser sources at 1080 nm. Both lasers consist of a cw fiber laser oscillator and one laser-diode pumped double cladding fiber amplifier in the master oscillator-power amplifier configuration. One laser, using 30-mu m-core Yb3+-doped fiber as the gain medium, can produce > 5-kW average laser power with near diffraction-limited beam quality (M-2<1.8). The slope efficiency of the fiber amplifier with respect to the launched pump power reached 86.5%. The other laser utilized 50-mu m-core Yb3+-doped fiber as the gain medium and produced > 8-kW average laser power with high beam quality (M-2: similar to 4). The slope efficiency of the fiber amplifier with respect to the launched pump power reach 83%. To the best of our knowledge, this is the first detailed report for > 5-kW near-diffraction-limited and > 8-kW high-brightness monolithic fiber lasers directly pumped by laser diodes.
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Microfluidically Reconfigurable Frequency-Agile RF Filters with Wide Frequency Tuning Range and High Power Handling CapabilityPalomo, Timothy Joseph 06 April 2016 (has links)
Radio Frequency (RF) filters are among the key components of today’s multifunctional devices and test equipment. However, the multifuctionality need significantly drives the required filter number and causes large areas to be allocated for filters. To alleviate this issue, over the recent years, reconfigurable filters have been proposed as an attractive alternative. Nevertheless, existing reconfigurable filter technologies demonstrate degraded performances in terms of loss, frequency tunability bandwidth, and power handling capability. This work investigates, for the first time, microfluidic based reconfiguration techniques for implementation of RF bandpass filters. Specifically, microfluidics is shown to provide mechanisms for achieving compact RF bandpass filters that can exhibit low loss, high power handling, and high frequency tunability. First, we present the utilization of liquid metals for realization of a frequency-agile microstrip bandpass filters consisting of broadside coupled split ring resonator (BC-SRR). In this design approach, one of the loops of the BC-SRR is realized from liquid metal to be able to microfluidically change the resonator shape and associated resonance frequency. The filter exhibits a 29% frequency tunable range from 870 MHz to 650 MHz, with insertion loss <3 >dB, over the entire frequency tuning range, for a fractional bandwidth (FBW) of 5%. To the best of our knowledge, this filter design is the first in available literature that shows a continuously frequency reconfigurable microfluidic RF band-pass filter. To overcome the oxidization and lower conductivity issues associated with liquid metals and enhance the frequency tuning range further, subsequently, we introduce a filter design technique in which microfluidically repositionable metallized plates are utilized within microfluidic channels with ultra-thin insulator walls. Specifically, this technique is employed to design a two pole microstrip bandpass filter where microfluidically repositionable metalized plates are used to capacitively load printed open loop resonators. To operate the filter (and control movement of multiple metalized plates) with a single bi-directional micropump unit, a strategically designed meandered microfluidic channel is implemented. The filter exhibits a 50% tuning range (from 1.5 GHz to 0.9 GHz), with an insertion loss15 W input power without the need of thick ground planes and/or heat sinks.
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Contribution aux techniques dites d'ajout de signal pour la Réduction du Facteur de Crête des signaux OFDM. / Contribution to reduction the Peak-To-Average Power Reduction in OFDM systems by thanks to the Adding Signal Based TechniquesDiallo, Mamadou Lamarana 08 June 2016 (has links)
Comme toutes modulations multiporteuses, l'OFDM souffre d'une forte variation d'amplitudes qui se traduit par un PAPR élevé. Cette caractéristique de l'OFDM la rend très sensible aux non-linéarités de l'amplificateur de puissance. Pour faire face à cette problématique, on peut surdimensionner l'amplificateur de puissance (solution non efficace en terme de rendement énergétique), linéariser l'amplificateur via les techniques de pré-distorsions, ou réduire le PAPR du signal avant amplification. L'objectif de cette thèse s'inscrit dans cette dernière thématique et plus particulièrement sur les techniques dites d'ajout de signal.Dans cette thèse, après une étude sur l'état de l'art des techniques de réduction du PAPR et en particulier les techniques dites d'ajout de signal, nous avons développé et proposé de nouvelles techniques de réduction du PAPR. Ces contributions s'articulent principalement autour des techniques de Clipping et de la Tone Reservation. / One of the main drawbacks of the OFDM modulation scheme is its high Peak-To-Average Power variation (PAPR) which can induce poor power efficiency at the transmitter amplifier. The digital base band pre-distortion for linearisation of power amplifier and the PAPR mitigation are the most commonly used solution in order to deals with efficiency and linearisation at the high power amplifier. This thesis is focused on the PAPR mitigation solution, and particularly on the adding signal based techniques. The proposed solutions in this report are about improving the Tone Reservation method which is the most popular adding signal based technique for PAPR mitigation, and also the classical clipping method which is the most simple method (in terms of computational complexity) actually.
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Advanced high frequency switched-mode power supply techniques and applicationsNuttall, Daniel Robert January 2011 (has links)
This Thesis examines the operation and dynamic performance of a single-stage, single-switch power factor corrector, S4 PFC, with an integrated magnetic device, IM. Also detailed isthe development and analysis of a high power light emitting diode, HP LED, power factorcorrection converter and proposed voltage regulation band control approach.The S4 PFC consists of a cascaded discontinuous current mode, DCM, boost stage anda continuous current mode, CCM, forward converter. The S4 PFC achieves a high powerfactor, low input current harmonics and a regulated voltage output, utilising a singleMOSFET. A steady-state analysis of the S4 PFC with the IM is performed, identifying theoperating boundary conditions for the DCM power factor correction stage and the CCMoutput voltage regulation stage. Integrated magnetic analysis focuses on understanding theperformance, operation and generated flux paths within the IM core, ensuring the device doesnot affect the normal operation of the converter power stage. A design method for the S4 PFCwith IM component is developed along with a cost analysis of this approach. Analysis predictsthe performance of the S4 PFC and the IM, and the theoretical work is validated by MATLABand SABER simulations and measurements of a 180 W prototype converter.It is not only the development of new topological approaches that drives theadvancement of power electronic techniques. The recent emergence of HP LEDs has led to aflurry of new application areas for these devices. A DCM buck-boost converter performs thepower factor correction and energy storage, and a cascaded boundary conduction current modebuck converter regulates the current through the LED arrays. To match the useful operatinglifetime of the HP LEDs, electrolytic capacitors are not used in the PFC converter. Analysisexamines the operation and dynamic characteristics of a PFC converter with low capacitiveenergy storage capacity and its implications on the control method. A modified regulationband control approach is proposed to ensure a high power factor, low input current harmonicsand output voltage regulation of the PFC stage. Small signal analysis describes the dynamicperformance of the PFC converter, Circle Criterion is used to determine the loop stability.Theoretical work is validated by SABER and MATLAB simulations and measurements of a180 W prototype street luminaire.
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Sources laser à semiconducteur à émission verticale de haute cohérence et de forte puissance dans le proche et le moyen infrarouge. / High power and highly coherent vertical emitting semiconductor laser sources for near and mid-infrared emission.Laurain, Alexandre 07 December 2010 (has links)
Ce travail de thèse porte sur la conception, la réalisation et l'étude physique de sources lasers de haute cohérence et de forte puissance émettant dans le proche et le moyen infrarouge. Nous nous intéressons plus particulièrement aux lasers à semiconducteur émettant par la surface en cavité externe verticale (VECSEL), l'objectif étant d'obtenir un fonctionnement laser monofréquence accordables et robustes, de forte puissance à température ambiante et en régime continu dans la gamme spectrale 2-3µm et autour de 1µm, avec des dispositifs pompés optiquement ou électriquement. Nous traitons de la conception et de la caractérisation des VECSEL, depuis l'optimisation du milieu à gain jusqu'à l'élaboration et la caractérisation de prototypes laser fonctionnels, et nous effectuons une étude approfondie des propriétés physiques de l'émission laser en terme de cohérence spatiale et temporelle. / This thesis focuses on the design, realization and physical study of high power and highly coherent laser sources emitting in the near and mid-infrared. We are particularly interested in vertical external cavity surface emitting laser (VECSEL), the aim being to obtain a robust and tunable single frequency operation with high power at room temperature in continuous wave and in the spectral range of 2-3µm and around 1µm, with optically or electrically pumped devices . We discuss the design and characterization of VECSEL, from optimization of the gain medium to the development and characterization of a functional laser prototype, and we conduct a thorough study of the physical properties of the laser emission in terms of spatial and temporal coherence.
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Popis zkratovny CVVOZE / CVVOZE Short circuit lab descriptionBrdečko, Aleš January 2014 (has links)
This diploma thesis deals with the analysis and description of high power laboratory CVVOZE. In the text we can find a description of the individual elements high power laboratory stating their parameters and their analysis from the perspective of impedance. The practical concern of this work is the creation of program for calculating the adjustment burdens and creating utilities helpful for operation and interpretation of laboratory function laity and technical employees.
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