Global ETD Search

141	Conception et réalisation d'amplificateur de puissance MMIC large-bande haut rendement en technologie GaN / Design and realizations of wideband and high efficiency GaN MMIC high power amplifiers Dupuy, Victor 22 October 2014 (has links) Ces travaux de thèse se concentrent sur la conception d'amplificateur de puissance MMIC large-bande haut rendement en technologie GaN pour des applications militaires de type radar et guerre électronique. Les objectifs principaux sont de proposer des structures innovantes de combinaison de puissance notamment pour réduire la taille des amplificateurs actuels tout en essayant d'améliorer leur rendement dans le même temps. Pour cela, une partie importante de ces travaux consiste au développement de combineurs de puissance ultra compactes et faibles pertes. Une fois ces combineurs réalisés et mesurés, ils sont intégrés dans des amplificateurs de puissance afin de prouver leur fonctionnalité et les avantages qu'ils apportent. Différents types d'amplificateur tant au niveau de l'architecture que desperformances sont réalisés au cours de ces travaux. / This work focus on the design of wideband and high efficiency GaN MMIC high power amplifiers for military applications such as radar and electronic warfare. The main objectives consist in finding innovative power combining structures in order to decrease the overall size of amplifiers and increasing their efficiency at the same time. For these matters, an important part of this work consisted in the design and realization of ultra compact and low loss power combiners. Once the combiners realized and measured, they are integrated into power amplifiers to prove their functionality and the advantages they bring. Several kind of amplifiers have been realized whether regrind their architecture or their performances. GaN MMIC Amplificateur de haute puissance Combinaison de puissance Haut-rendement GaN MMIC High power amplifier Power combining High efficiency
142	Développement d'un nouveau concept de cible pour faisceau de protons au CERN/ISOLDE / Development of a new target concepts for proton beams at CERN/ISOLDE Delonca, Mélanie 04 December 2015 (has links) Le sujet de cette thèse est le développement d'une cible liquide haute puissance capable de gérer les contraintes liées a un impact de faisceau de protons de haute puissance (de l'ordre du GW en quelques ms) tout en optimisant la production d'isotopes a court temps de demi-vie (ici, l'intérêt se porte sur du Mercure, de temps de demi vie 130 ms). L'objectif est d'améliorer l'extraction des particules élémentaires d'intérêt pour les physiciens une fois celles-ci créées. La thèse a été principalement préparée au CERN (Genève, Suisse). De plus en plus, la puissance des faisceaux primaires envoyés sur les cibles augmente jusqu'à atteindre plusieurs centaines de kiloWatt, créant ainsi de nouvelles problématiques et de nouveaux défis. De nouveaux concepts de cibles ont ainsi vu le jour. Parmi eux, une boucle liquide utilisant du Plomb Bismuth Eutectic (LBE) comme matériau de cible, et dans lequel un échangeur de chaleur et une pompe sont intégrés, a été proposée durant la phase de développement du projet EURISOL. Ce concept prévoit de plus de transformer le liquide irradié sous forme degouttes de manière à faciliter l'extraction des isotopes créés et ainsi d'augmenter la production d'isotopes à court temps de demi-vie. Cette thèse présente le développement de ce design. Un prototype a été développé et sera testé sous faisceau de protons à ISOLDE au CERN. Plusieurs outils analytiques pour l'étude et la conception de cible haute puissance sont proposés, prenant en considération divers paramètres de design. Ces outils peuvent être utilisés pour d'autres cibles haute puissance et permettent un dimensionnement simple de ce genre de cible. De plus, un design innovant d'échangeur de chaleur est présenté, permettant d'extraire une puissance constante pour différentes températures de LBE. Le design proposé est validé grâce à divers outils numériques et analytiques. De plus, des tests expérimentaux ont été réalisés pour valider la faisabilité de douche. Des gouttes de 400 um ont été obtenues. La cible proposée est la première combinant l'utilisation d'une chambre de diffusion où la douche est créée, avec une pompe et un échangeur de chaleur. Les concepts avancés peuvent être utilisés pour ledéveloppement de cibles similaires dans d'autres instituts. / The subject of this thesis is to design a liquid target able to account for the stress induced by the impact of a highpower proton beam (of the order of GW in few ms) and to optimize the isotopes production of species with short half-life (here, the isotope of interest is a Mercury one, with a half-life of 130 ms). The objective is to improve the extraction of elementary particles of interest for physicists. The thesis was mainly conducted at the CERN (Geneva, Switzerland).More and more, the power of primary beam sent onto targets increases until reaching several kiloWatts of magnitude, inducing new problematic and challenges. Consequently, the need of new target design arises and leads to new conceptual design proposal. Amongst them, a concept of Lead Bismuth Eutectic (LBE) loop target making use of an heat exchanger (HEX) and a pump has been proposed during the European project EURISOL Design Study. This concept proposed an improvement in terms of release efficiency of short-lived species by transforming the irradiated liquid into droplets shape. This thesis presents the development of this target design proposal. A prototype target has been developed and will be tested under proton beam at ISOLDE at CERN. Several analytical tools for the study of this kind of targets are proposed, taking into account different design parameters. These tools can be applied for other high power target concept and allow an easy dimensioning of this kind of targets. As well, an innovative heat exchanger is developed, allowing to extract constant power out of the target for different LBE temperature. The proposed target design is validated thanks to different numerical and analytical tools while experimental tests have been conducted in order to assess the droplet formation feasibility. These tests prove that a shower of droplets of 400 ¿m is possible. The developed target is the first one combining a diffusion chamber where a shower is created combined with a pump and a HEX. The concepts of this design could be applied for similar targets that could be developed in other facilities. Cible haute puissance Isotopes à court temps de demi-vie Cible ISOL High power target Short-lived isotopes Isol target 620
143	Development Of A Pulsed Fiber Laser For Ladar System Dulgergil, Ebru 01 August 2012 (has links) (PDF) In recent years laser technology has increasingly developed with the use of fiber lasers and this has provided the possibility to implement different techniques in the defense industry. LADAR is at the forefront of these techniques. Fiber lasers constitute a perfect source for LADAR systems due to their excellent robustness, compact size and high-power generation capability. In this study we will explore the development of a pulsed fiber laser source for a LADAR system that can obtain high resolution 3D images in eye-safe region. A high power, all fiber integrated erbium system with strictly single mode operation in eye-safe region based on MOPA (master oscillator power amplifier) configuration with seed source and amplifier part was developed. Both the use of an actively mode locked laser with erbium doped fiber and fiber coupled modulated distributed feedback diode laser were investigated as seed sources for the amplifier part. Both erbium doped single clad fiber and erbium-ytterbium doped double clad gain fiber were used in this amplifier system. After amplification of the actively mode locked laser, 12 W of average optical power was obtained through single mode fiber with 1ns pulse duration at 10 MHz which corresponds to 1.2 kW peak power. For the fiber coupled DFB diode laser, 9.5W average power was obtained with around 8 ns duration pulses at 100 kHz and about 9.2 W average power was also obtained with around 700 ps duration pulses at 1 MHz through strictly single mode fiber at the output of the same amplifier system as was used in the actively mode locked seed source. In both cases calculated peak power was around 10 kW v which is estimated as the highest peak power for an all fiber integrated system with single mode operation. The development of such a fiber system with high power capability, compact size and free of misalignment is expected to be useful for LADAR application as well as other areas such as eye surgery, 3D silicon processing or any other material processing applications. QC Optics, Light 350-467
144	X-band High Power Solid State Rf Switch Guzel, Kutlay 01 September 2012 (has links) (PDF) RF/Microwave switches are widely used in microwave measurement systems, telecommunication and radar applications. The main purposes of RF switches are Tx-Rx switching, band select and switching the signal between different paths. Thus, they are key circuits especially in T/R modules. Wideband operation is an important criterion in EW applications. High power handling is also a key feature especially for radars detecting long range. In this study, different types of high power solid state switches operating at X-Band are designed, fabricated and measured. The main objectives are small size and high power handling while keeping good return loss and low insertion loss. The related studies are investigated and analyzed. Solutions for increasing the power handling are investigated, related calculations are done. Better bias conditions are also analyzed. The measurement results are compared with simulations and analysis. Circuit designs and simulations are performed using AWR&reg / and CST&reg / .
145	On small-signal analysis and control of the single- and the dual-active bridge topologies Demetriades, Georgios D. January 2005 (has links) High-frequency dc-dc converters are nowadays widely used in a diversity of power electronic applications. High operating frequencies entail a reduction in size of the passive components, such as inductors, capacitors and power transformers. By operating the converter at higher frequencies with conventional hard-switching topologies, the transistor switching losses increase at both turn-on and turn-off. High-voltage converters in the power range of 1-10MW will therefore have excessive switching losses if the switching frequency is higher than 4 kHz. In order to achieve a high-frequency operation with moderate switching losses a number of soft-switched topologies have been studied in [Dem1]. The favourable DC-DC converter was found to be the Dual-Active Bridge when a bi-directional power flow is demanded. Additionally, the Single-Active Bridge (SAB) topology was introduced for the first time. In this thesis the two topologies are thoroughly studied. The dynamic small-signal models are presented and the dynamic behaviour of the converters is discussed in deep. Different control strategies are presented concerning the two converters and the advantages and the disadvantages of the different control strategies are stated. Critical issues as efficiency and stability are presented separately for the two converters. / QC 20101005 Electronics DC-DC converters Soft-switching High-frequency High-power Bi-directional Single-Active Bridge Elektronik Electronics Elektronik
146	Development Of A Picosecond Pulsed Mode-locked Fiber Laser Yagci, Mahmut Emre 01 January 2013 (has links) (PDF) Fiber lasers represent the state-of-the-art in laser technology and hold great promise for a wide range of applications because they have a minimum of exposed optical interfaces, very high efficiency, and are capable of exceptional beam quality. In the near future, the most important markets such as micromachining, automotive, biomedical and military applications will begin to use this technology. The scope of this thesis is to design and develop a short picosecond pulsed fiber laser using rare-earth doped fiber as a gain medium. The proposed master oscillator power amplifier (MOPA) will be used to generate pulses with high repetition rates. In this study, first we explain the basic theoretical background of nonlinear optics and fiber laser. Then, the numerical simulation will be introduced to explain how the laser system design and optimization. The simulation is based on nonlinear Schr&ouml / dinger equation with the method of split-step evaluation. The brief theoretical background and simulation results of the laser system will be shown. Finally, the experimental study of the developmental fiber laser system that comprises an oscillator, preamplifier and power amplifier will be discussed. QC Optics, Light 350-467
147	Integration of High Efficiency Solar Cells on Carriers for Concentrating System Applications Chow, Simon Ka Ming 03 May 2011 (has links) High efficiency multi-junction (MJ) solar cells were packaged onto receiver systems. The efficiency change of concentrator cells under continuous high intensity illumination was done. Also, assessment of the receiver design on the overall performance of a Fresnel-type concentration system was investigated. We present on receiver designs including simulation results of their three-dimensional thermal operation and experimental results of tested packaged receivers to understand their efficiency in real world operation. Thermal measurements from solar simulators were obtained and used to calibrate the model in simulations. The best tested efficiency of 36.5% is obtained on a sample A receiver under 260 suns concentration by the XT-30 solar simulator and the corresponding cell operating temperature is ~30.5°C. The optimum copper thickness of a 5 cm by 5 cm simulated alumina receiver design was determined to be 6 mm and the corresponding cell temperature under 1000 suns concentration is ~36°C during operation. Multi-junction Solar Cell Solar Concentrator Solar Receiver Receiver Thermal Management XT-30 High Power Solar Concentrator
148	Integration of High Efficiency Solar Cells on Carriers for Concentrating System Applications Chow, Simon Ka Ming 03 May 2011 (has links) High efficiency multi-junction (MJ) solar cells were packaged onto receiver systems. The efficiency change of concentrator cells under continuous high intensity illumination was done. Also, assessment of the receiver design on the overall performance of a Fresnel-type concentration system was investigated. We present on receiver designs including simulation results of their three-dimensional thermal operation and experimental results of tested packaged receivers to understand their efficiency in real world operation. Thermal measurements from solar simulators were obtained and used to calibrate the model in simulations. The best tested efficiency of 36.5% is obtained on a sample A receiver under 260 suns concentration by the XT-30 solar simulator and the corresponding cell operating temperature is ~30.5°C. The optimum copper thickness of a 5 cm by 5 cm simulated alumina receiver design was determined to be 6 mm and the corresponding cell temperature under 1000 suns concentration is ~36°C during operation. Multi-junction Solar Cell Solar Concentrator Solar Receiver Receiver Thermal Management XT-30 High Power Solar Concentrator
149	Adaptive pre-distortion for nonlinear high power amplifiers in OFDM systems Durney Wasaff, Hugo Ivan 22 July 2004 (has links) El acelerado crecimiento de las comunicaciones a través de plataformas de transmisión en banda ancha por vía alámbrica e inalámbrica, sumado al uso cada vez más extenso de modulaciones de amplitud no constante que, debido a su alta eficiencia espectral y bajo coste de implementación, han sido adoptadas en el marco de desarrollo de diversos estándares de transmisión, son aspectos que han servido de soporte y motivación fundamental para el presente trabajo de investigación en el campo de la compensación de distorsiones no lineales en sistemas de comunicación. El estudio de los efectos de la distorsión no lineal y su compensación ha sido desde hace ya muchos años objeto de atención para investigadores de diversas áreas. Hoy, en particular, este estudio sigue siendo fundamental ya que se encuentra directamente implicado en el desarrollo de tecnologías de última generación en el área de las comunicaciones. Los nuevos sistemas de transmisión digital, en especial aquellos basados en OFDM (Orthogonal Frequency Division Multiplexing), son capaces de ofrecer altos niveles de eficiencia espectral utilizando modulaciones lineales multinivel sobre un numeroso conjunto de subportadoras que, al ser (idealmente) ortogonales en frecuencia, pueden ser ubicadas en un ancho de banda muy reducido permitiendo así transmitir elevadas tasas de información por segundo y por ancho de banda. Sin embargo, y a consecuencia de esto, problemas como las interferencias por canal adyacente o la presencia de una distorsión no lineal en la cadena de transmisión afectan de manera crítica las prestaciones de estos sistemas imponiendo severos límites a su viabilidad. De hecho, en el campo de las comunicaciones móviles y satelitales, existen actualmente diversas aplicaciones donde estos esquemas de modulación y multicanalización están ya operativos. En estos casos, la eficiencia de potencia en transmisión resulta primordial para, entre otras razones, lograr una máxima autonomía del equipamiento. En este contexto, el comportamiento no lineal de los amplificadores de alta potencia utilizados en transmisión de radiofrecuencia, constituye el principal obstáculo (desde el punto de vista de la distorsión no lineal) para el buen funcionamiento de los sistemas de comunicación digital basados en OFDM. Afortunadamente, este nocivo efecto puede ser compensado mediante diversas técnicas clásicas de linealización cuyas variantes -ad-hoc' han sido propuestas y ampliamente investigadas, existiendo al día de hoy una nutrida literatura parte de la cual referimos a lo largo de este trabajo. Entre dichas técnicas, la pre-distorsión digital ofrece óptimas condiciones para el diseño de linealizadores adaptativos ya que puede ser implementada a muy bajo coste sobre la información discreta de las señales de banda base. El objetivo que se persigue, en general, es el de proveer las condiciones de linealidad necesarias para explotar las capacidades propias de las modulaciones de alta eficiencia espectral, y al mismo tiempo alcanzar un máximo aprovechamiento de la potencia disponible. En este trabajo de investigación, efectuamos inicialmente una revisión sintetizada de algunas importantes técnicas de linealización para luego dar paso a una revisión más detallada de dos modelos relevantes utilizados para caracterizar el comportamiento no lineal de los amplificadores de alta potencia (modelo se Series de Volterra y modelo de Saleh para amplificadores nolineales sin memoria). Junto con ello se examinan algunas interesantes propiedades estadísticas asociadas al fenómeno de la distorsión no lineal que han dado pie a considerar durante la investigación posibles nuevas aplicaciones en estrategias de pre-distorsión. Se ha querido también incluir la descripción, a nivel de sistema y modelo de señal, de un esquema de transmisión OFDM genérico incluyendo caracterizaciones analíticas detalladas del efecto no lineal a objeto de formalizar en propiedad un modelo discreto exacto que otorgue una visión más profunda para la comprensión del fenómeno estudiado. Finalmente se presenta el diseño y evaluación de un esquema de pre-distorsión basado en un algoritmo iterativo que considera, como principal aporte, la optimización bidimensional de un reducido número de coeficientes de interpolación que identifican de manera adaptativa la característica inversa de ganancia compleja de un amplificador, tanto en función de la particular morfología no lineal de dicha curva, como también de la distribución de probabilidad de las señales de entrada en banda base. / The rapid growth of wired and wireless broad-band communications and the pervasive use of spectrally efficient non-constant amplitude modulations, adopted in the framework of several standardized transmission formats, motivates and supports the present research work in the field of non-linear distortion in communication systems. The compensation of nonlinearities has received a lot of attention in past and recent years, presenting direct implications on industrial development of last generation communication technologies. New digital transmission systems, particularly those based on Orthogonal Frequency Division Multiplexing (OFDM), feature high spectral efficiency as they exploit multilevel linear modulations to transmit at high information rates in combination with a dense allocation of a large number of (ideally) orthogonal sub-carriers in a relatively reduced bandwidth. As a result, problems such as adjacent channel interference and non-linear distortion become critical for system performance and, therefore, must be reduced to a minimum. Moreover, numerous applications of such transmission schemes are already operative in the field of satellite and mobile communications, where power efficiency is of primary concern due to, among other reasons, operation autonomy of the equipment and effective transmitted power. In this context, the non-linear behaviour of high power amplifiers (HPAs) constitutes a major impairment for OFDM-based digital communications systems. The compensation of these harmful effects can be achieved using a variety of techniques that have been proposed and widely dealt with in the literature. Among these techniques, digital pre-distortion, which can be carried out at a very low cost over the discrete base-band information, provides optimal features for the efficient implementation of adaptive linearization. Thence, in order to provide good conditions for the reliable use of high spectral efficiency modulations while taking the maximum advantage from the transmitting power budget, it is necessary to incorporate a suitable linearization technique.In the present work, we begin by reviewing some background on linearization techniques. This leads us to continue analyzing two relevant theoretical models typically used in characterizing memory and memoryless nonlinear HPAs (Volterra Series model and Saleh model for memoryless nonlinear HPAs). In addition to this a generic OFDM system and signal structure is described in detail by including the non-linear effect in the analytical model of the transmission chain. This is done in order to formalize an exact discrete OFDM model that help us in achieving a deeper understanding of the phenomenon under consideration. Then, some useful statistical properties and parameters associated to the nonlinear distortion are examined as well as the application of a CDF-based estimation of nonlinearities which is proposed as a new pre-distortion strategy. Finally, a new discrete adaptive pre-distortion scheme is formulated and then tested via simulation. The analysis and design of the main algorithm proposed considers the adaptive identification of the inverse complex gain characteristic of a nonlinear HPA. For this purpose, an iterative 2-D optimization of a reduced number of interpolation functions is formulated under a special two-fold criterion which accounts for the particular morphology of the HPA's nonlinear gain characteristic, as well as the probability distribution of the input base-band information. HPA (high power amplifier) communications predistortion nonlinear 3325. Tecnologia de les comunicacions 62 621.3
150	Design and Analysis of High Power and Low Harmonic for Multi Band Wireless Application Ahn, Minsik 12 November 2007 (has links) The objective of this research is to demonstrate the feasibility of the implementation of low-cost, small-size, and high power RF front ends using CMOS technology which has been known not to be suitable for high-power applications due to its material characteristic. One part of this research focuses on developing GaAs switches for multi band and multi mode high power applications. The development of RF front end switches for high power applications using CMOS technology is very challenging in that the characteristics of CMOS technology such as low breakdown voltages, slow electron mobility and existence of substrate junction diodes are limiting power handling capability of CMOS technology. Various topologies of CMOS switches have been employed in implementing high power RF front end CMOS switches in order to overcome material limitations of CMOS technology in high power applications. Based on measurement data such as power handling capability and S-parameters of fabricated CMOS switches, the feasibility of use of CMOS technology in high power RF antenna switch design has been studied, and novel methods of designing CMOS switches to improve the power handling capability without compensating S-parameter performance are proposed. As a part of this research, multi-band and multi-mode power switches using GaAs technology are fabricated and tested for use of the commercial applications such as handsets covering GSM, PCS/DCS, and UMTS bands. Current commercial RF switch products demand small size, low cost and low voltage control as the number of wireless standards integrated in a single application increases. This research provides a solution for commercial products which can meet all the specifications as well as needs required in the wireless market. CMOS High-power Switches GaAs Wireless Multi-band Radio frequency Gallium arsenide semiconductors

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