Global ETD Search

211	High-power bi-directional DC/DC converters with controlled device stresses Han, Sangtaek 11 May 2012 (has links) The objective of the research is to develop a cost-effective high-power bi-directional dc/dc converter with low total-device ratings, reduced system parasitic effects, and a wide input/output range. Additional objectives of the research are to develop a small-signal model and control methods, and to present performance characterizations. Device stresses in the proposed topology are controlled to maintain minimal levels by varying the duty ratio and phase-shift angle between the primary and the secondary bridges, which results in a low total-device rating, when compared to conventional bi-directional dc/dc topologies. In the proposed topology, soft switching, which reduces power loss, can be realized under specific operating conditions. When the condition that causes minimal device stress is satisfied, zero-voltage switching (ZVS) can be obtained. In the research, ZVS capability is explored for a wide range of voltage conditions as well as for the minimal device-stress condition. The performance characterization includes verifying the soft-switching regions and power-loss estimation. Another part of the thesis is the controller design of the converter. Small-signal models and feedback controllers are developed, and the controllers are experimentally validated. Because in the isolated high-frequency converters, transformer saturation is an important issue, a method to prevent transformer saturation is proposed and experimentally validated. Dual active bridge Bidirectional dc/dc converter Transformer saturation High power converter Zero voltage switching Power electronics Electric current converters DC-to-DC converters
212	High Frequency Isolated Single-Stage Integrated Resonant AC-DC Converters for PMSG Based Wind Energy Conversion Systems Du, Yimian 06 January 2014 (has links) In this dissertation, two high-frequency (HF) transformer isolated single-stage integrated ac-dc converters are proposed for a small scale permanent magnet synchronous generator (PMSG) based wind energy conversion system (WECS). These two types of single-stage integrated ac-dc converters include expected functions of HF isolation, power factor correction (PFC), and output regulation in one single-stage. Fixed-frequency phase-shift control and soft-switching operation are employed in both proposed ac-dc converters. After reviewing the literature and discussing pros and cons of the existing topologies, it is preferred that three identical single-phase single-stage integrated converters with interleaved connection configuration are suitable for the PMSG. For the single-phase converter, two new HF isolated single-stage integrated resonant ac-dc converters with fixed-frequency phase-shift control are proposed. The first proposed circuit is HF isolated single-stage integrated secondary-side controlled ac-dc converter. The other proposed circuit is HF isolated single-stage dual-tank LCL-type series resonant ac-dc converter, which brings better solutions compared to the first converter, such as high power factor and low total harmonic distortion (THD) at the ac input side. Approximate analysis approach and Fourier series methods are used to analyze these two proposed converters. Design examples for each one are given and designed converters are simulated using PSIM simulation package. Two experimental circuits are also built to verify the analysis and simulation. The simulated and experimental results reasonably match the theoretical analysis. Then the proposed HF isolated dual-tank LCL-type series resonant ac-dc converter is used for three-phase interleaved connection in order to satisfy requirements of PMSG based WECS. A design example for this three-phase interleaved configuration is given and simulated for validation under several operating conditions. / Graduate / 0544 / duyimian@uvic.ca High frequency isolation Single-stage ac-dc converter Power factor correction Wind energy conversion systems Resonant LCL converter Dual-tank configuration
213	A Current Re-distribution Scheme for Improved Energy Harvesting in Concentrating Photovoltaic Systems Using Fine-grained dc-dc Conversion Zaman, Mohammad Shawkat 19 March 2013 (has links) This thesis presents a distributed power-management architecture for concentrating photovoltaic (CPV) systems. Specifically, the Δ-conversion scheme with voltage equalization is analyzed and verified for the CPV system from Morgan Solar, Inc. This architecture uses inverting buck-boost converters, denoted Δ-converters, which equalize the voltages of neighbouring CPV cells in a series-connected string of cells and improve the systems tolerance to parameter variations. The power benefits of Δ-conversion and the Δ-converter current distributions are investigated using statistical simulations. The effectiveness of Δ-conversion in the presence of randomly distributed mismatches is demonstrated, and current cascading is identified as the main design challenge. The Δ-converter is modelled and compensated using Middlebrook's Extra Element Theorem. Analysis of measured data from a six-cell CPV system demonstrate the benefits of Δ-conversion under realistic scenarios. Experimental results from prototype systems show up to 31% power benefits in the presence of mismatches. power electronics renewable energy photovoltaic dc-dc converter concentrating pv distributed power management delta converter mppt digital control extra element theorem simulink lso 0544
214	Analysis and Implementation of Fine-grained Distributed Maximum Power Point Tracking in Photovoltaic Systems Poshtkouhi, Shahab 19 December 2011 (has links) This thesis deals with quantifying the merits of Distributed Maximum Power Point Tracking (DMPPT), as well as providing solutions to achieve DMPPT in PV systems. A general method based on 3D modeling is developed to determine the energy yield of PV installations exploiting different levels of DMPPT granularity. Sub-string-level DMPPT is shown to have up to 30% more annual energy yield than panel-level DMPPT. A Multi-Input-Single-Output (MISO) dc-dc converter is proposed to achieve DMPPT in parallel-connected applications. A digital current-mode controller is used to operate the MISO converter in pseudo-CCM mode. For series-connected applications, the virtualparallel concept is introduced to utilize the robustness of the parallel connection. This concept is demonstrated on a three-phase boost converter. The topology offers reduced output voltage ripple under shading which increases the life-time of the output capacitor. The prototypes yield output power benefits of up to 46% and 20% for the tested shading conditions. Photovoltaic solar energy distributed maximum power point tracking partial shading dc-dc converter performance analysis 3D modeling solar forecasting 0544 0791
215	Análise e projeto do conversor fonte-y para uso em sistemas de geração de energia fotovoltaica de baixa tensão / Analysis and design of the y-source converter for use in low-voltage photovoltaic generation systems Martins, Alex de Sá 26 October 2017 (has links) Submitted by Alex de Sá Martins null (lex.martins@hotmail.com) on 2017-12-16T23:31:27Z No. of bitstreams: 1 ANÁLISE E PROJETO DO CONVERSOR FONTE-Y PARA USO....pdf: 2723184 bytes, checksum: 9e77f24832992941e605e87a84c25d1a (MD5) / Approved for entry into archive by Maria Marlene Zaniboni null (zaniboni@bauru.unesp.br) on 2017-12-18T12:51:16Z (GMT) No. of bitstreams: 1 martins_as_me_bauru.pdf: 2723184 bytes, checksum: 9e77f24832992941e605e87a84c25d1a (MD5) / Made available in DSpace on 2017-12-18T12:51:16Z (GMT). No. of bitstreams: 1 martins_as_me_bauru.pdf: 2723184 bytes, checksum: 9e77f24832992941e605e87a84c25d1a (MD5) Previous issue date: 2017-10-26 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Este trabalho aborda o estudo de topologia de conversor de energia baseada no uso de configuração de rede de impedância denominada fonte-Y, com o objetivo de ser aplicado em sistemas de geração distribuída de energia, em redes de baixa tensão. Em sistemas de geração distribuída de energia usualmente se faz necessária a existência de um estágio elevador de tensão e um estágio inversor, ambos controlados para produzir tensão e/ou corrente senoidal com mesma frequência, amplitude e fase da rede elétrica. Nesse sentido, este trabalho propõe a aplicação do conversor fonte- Y entre a geração e a conexão com e rede elétrica, de forma que as ações de conversão relacionadas com a elevação (CC-CC) e inversão (CC-CA) sejam efetuadas de forma integrada por uma única estrutura, contribuindo com a possibilidade de melhoria no rendimento global devido à minimização de estágios de conversão em cascata. Inicialmente, é efetuado um levantamento bibliográfico relacionando as principais topologias de conversores utilizando redes de impedância com indutores acoplados, considerando os aspectos operacionais, arranjo de impedância e ganho estático idealizado, desprezando perdas entre tensão de entrada e tensão máxima de saída obtida. Segue-se o estudo da operação de conversor CCCC empregando rede de impedância do tipo Y, definição das equações que regem o comportamento no tempo das tensões e correntes nos capacitores e indutores. É feita uma avaliação comparativa do ganho estático de tensão obtido e dos esforços nos semicondutores em função das variáveis de controle de projeto e operação disponíveis. Prossegue-se com o estudo da operação do conversor CC-CA empregando rede de impedância do tipo Y, considerando extensão das expressões encontradas para a operação como conversor CC-CC. Por fim, simulações computacionais foram desenvolvidas no ambiente PSIM contemplando o emprego dos circuitos e estratégias de modulação relacionadas com aplicações do conversor fonte- Y, em operação CC-CC e operação CC-CA visando a integração em sistemas de geração de energia, para demonstrar as vantagens e desvantagens do uso dessa topologia. / This paper deals with the study of energy converter topology based on the use of impedance network configuration called Y-source, with the objective of being applied in photovoltaic energy cogeneration systems in low voltage grids. In photovoltaic energy generation systems, it is usually necessary to have a voltage boost stage and an inverter stage, both controlled to produce voltage and / or sine current with the same frequency, amplitude and phase of the power grid. In this sense, this work proposes the application of the Y-source converter between the photovoltaic generation and the connection with the electric grid, so that the conversion actions related to elevation (DC-DC) and inversion (DC-AC) in a way integrated by a single structure, contributing to the possibility of improvement in the overall yield due to the minimization of cascade conversion stages. Initially a bibliographical survey was performed relating the main inverter topologies using impedance networks with coupled inductors considering the operational aspects, impedance arrangement and ideal static gain between the input voltage and the maximum output obtained. ext, the study of the DC-DC converter operation using the Y-type impedance network, definition of the equations governing the time behavior of the voltages and currents in the capacitors and inductors, is presented. It is also done the comparative evaluation of the static voltage gain obtained and the stresses in the semiconductors according to the available control and design control variables. Study of the operation of the DC-AC converter employing type Y impedance network, considering the extension of the expressions found for the operation as DC-DC converter. Finally, computational simulations were developed in the PSIM environment, considering the use of circuits and modulation strategies related to Y-source converter applications, in DC-DC operation and DC-AC operation for integration into power cogeneration systems, to demonstrate advantages and disadvantages of using this topology. / 134173/2017-1 Conversor CC-CC Conversor CC-CA Inversor, Fonte-Y Geração distribuída DC-to-DC converter DC-to-AC converter Inverter, Y-Source Distributed generation
216	Conversor CC-CC Não isolado de elevado ganho para aplicação no processamento de energia solar fotovoltaica / High gain non-isolated DC-DC converter applied on the processing of PV energy Cabral, João Bosco Ribeiro Fernandes 06 March 2013 (has links) Made available in DSpace on 2016-12-12T20:27:37Z (GMT). No. of bitstreams: 1 Joao Cabral.pdf: 4385545 bytes, checksum: c09296f90add051ed37bd87320b15421 (MD5) Previous issue date: 2013-03-06 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This Master Thesis proposes a high gain non-isolated DC-DC converter applied on the processing of PV energy. The proposed converter is a boost converter with quadratic characteristic and with central point at its output. Basic operations and electric characteristics of a PV cell are described, including the procedures to determine its parameters. A model for numeric simulation is presented. A review of the high gain non-isolated DC-DC converters topologies is presented. Shows the converter´s transfer functions and the control strategy adopted as well as the design of control circuits. The control system is consisting of three loops, an internal loop of input current control, an external loop of total output voltage control and an additional loop of voltage unbalance control. The simulation and experimental results are shown to validate the analysis developed and demonstrate the performance of the control system adopted. / Esta Dissertação de Mestrado propõe um conversor CC-CC não isolado de elevado ganho para aplicação no processamento de energia solar fotovoltaica. O conversor proposto é um boost com característica quadrática e com ponto médio na sua saída. Descrevem-se o funcionamento básico e as características elétricas de uma célula fotovoltaica, incluindo-se o procedimento da determinação dos parâmetros e da modelagem dos módulos fotovoltaicos, apresentando-se um modelo para simulação numérica. Apresenta-se uma revisão de topologias de conversores CC-CC não isolados com elevado ganho estáticos. Apresentam-se as funções de transferência do conversor e a estratégia de controle adotada bem como o projeto dos circuitos de controle. O sistema de controle composto por três malhas de controle, uma malha interna de corrente de entrada, uma malha externa de tensão total e uma malha adicional de equalização de tensão. Resultados de simulação e experimentais são apresentados para validar as análises desenvolvidas e demonstrar o desempenho do sistema de controle adotado. Conversor boost quadrático Energia solar fotovoltaica High gain non-isolated DC-DC converter Quadratic boost converter PV energy CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
217	Conception de convertisseurs DC/DC à base de MEMS / DC-DC conversion based on electrostatic MEMS Ghandour, Sahar 17 March 2011 (has links) La tendance actuelle vers la miniaturisation des circuits électroniques a poussé vers ledéveloppement des systèmes sur puce (SoC : System on Chip) contenant plusieurs composants. Cescomposants réalisant des fonctions variées, ont besoin de différentes tensions d’alimentation fourniesà l’aide de plusieurs convertisseurs DC/DC connectés à l’alimentation du SoC. Actuellement, laplupart des circuits électroniques dans les applications portables contiennent des convertisseursDC/DC conventionnels utilisant une inductance pour stocker transitoirement l’énergie électrique.L’inductance étant un composant passif difficilement intégrable, ces convertisseurs sontconnectés à l’extérieur de la puce. Une alternative aux convertisseurs conventionnels est leconvertisseur à capacités commutés, qui a l’avantage d’être facilement intégrable sur silicium.Toutefois, il présente des limitations à cause de la dépendance du facteur de conversion avec lenombre de condensateurs. De plus, les pertes inhérentes à la charge et à la décharge descondensateurs font diminuer son rendement. Il est donc intéressant de trouver une nouvellealternative pour concevoir un convertisseur DC/DC compact et performant afin d’obtenir un circuitélectronique complètement intégrable sur silicium.Le sujet de cette thèse répond au besoin d’une nouvelle méthode de conversion DC/DCintégrable sur silicium et à haut rendement. L’idée est d’utiliser une capacité variable mécaniquementà la place d’une inductance pour stocker l’énergie électrique transitoire. Le condensateur variable serafabriqué par des procédés de fabrication de microsystème MEMS sur silicium ce qui permet d’intégrerla totalité du convertisseur.Dans ce mémoire, nous expliquons tout d’abord le principe et le fonctionnement d’un abaisseur etd’un élévateur de tension utilisant notre nouvelle approche. Par la suite, nous présentons laconception et la fabrication d'un MEMS adapté à la conversion de tension. Finalement, nousexpliquons notre méthode de contrôle utilisant une commutation à zéro de tension. Le rendement d'unélévateur 10V-20V obtenu par simulation est de l’ordre de 88% lorsque la gestion électrique estréalisée avec des composants discrets. Ce rendement très prometteur, devrait être amélioré dans lefutur lorsque tout le système sera intégré sur silicium. / Current trends towards miniaturization of electronic circuits had led to the advent of System onChip containing different types of circuits indented to perform different functions. These sub-systemsrequire different supply voltages that are delivered from the SoC supply voltage using several DC/DCconverters. Currently, most of the electronic circuits of portable applications use conventional SMPS(switch mode power supply) DC/DC converters containing an inductor element to stock temporally theelectrical energy.In this case the converter is outside the chip since the integration of the inductor is very difficultand that resistive losses increase when the coil diameter decreases. The alternative to use switchedcapacitor converters, which can be easily integrated on silicon, presents some limitations because ofthe dependence of the required number of capacitors on the conversion ratio, and because ofswitching losses due to the charge and the discharge of the capacitors inducing a decrease of theconversion efficiency. For that reason, it is interesting to develop a new alternative that allows thefabrication of a compact and efficient DC/DC converter in order to get a completely integrated system.This thesis focuses on a novel solution based on electrostatic MEMS in order to make anintegrated DC/DC converter with high efficiency. A mechanically variable capacitor is used instead ofthe inductor element to store the transient electrical energy. The variable capacitor is fabricated byMEMS micromachining process techniques compatible with CMOS process integration.In this work, we explain the principle and the operation of a step down and a step-up converterusing our novel approach through an energetic analysis, we design a MEMS device optimized withrespect to the voltage conversion application, and we present our converter control method using azero voltage switching technique. An efficiency of almost 88% was obtained by simulation of a 10V-20V converter, when the power management circuitry was considered with discrete elements; thisefficiency is promising and could be improved when the whole system will be integrated on silicon.: Convertisseur DC/DC MEMS Condensateur variable Résonance Commutation à zéro de tension. DC/DC Converter MEMS Variable capacitor Resonance Zero voltage switching 620
218	Integrace pomocného zdroje do nákladního automobilu / Electrical integration of an auxiliary power units for truck Pšenčík, Petr January 2014 (has links) This thesis aims to hardware and software integration of solid oxide fuel cell into a power generator for truck application. Requirements for individual components are defined, especially for main DC/DC converter which allows charging the battery pack with output from fuel cell. Then suitable components are found on the market and incorporated into hardware layout. Operation strategy with safety concept is proposed and consequently integrated into PLC in LASAL Class 2 environment. This is followed by definition of future work which includes testing and possible changes in components. Result is hardware and software design which allows construction of prove-of-concept prototype.
219	DC-DC Converter Design for Solar Power in Hot Environments Hultman, August January 2017 (has links) A company in Linköping has a project where a solar power home system is designed. The plan is that families that lack grid connection in rural areas of Mali and other countries shall use this system for cooking food and powering every day items. Designing a solar home system for West Africa is more difficult than for other parts of the world, mainly because of the climate, with heat and dust particles in the air, but also because the installation location often is unreachable in short notice. This makes for several specific requirements like high ambient temperature, passive cooling, high efficiency and a long mean time between service needed. On top of this, to get the system modular and easy to install, each physical panel should be independent and smart. The system designed is a push pull dc step-up converter that can be assembled to the back of a solar panel. A base platform for the converter is built and a method of power line communication is proposed. Tests show promising results and further development is ongoing. solar power solar converter dcdc dc-dc dc converter step-up africa mali kenya pv Annan elektroteknik och elektronik
220	Alimentation haute fréquence à base de composants de puisance en Nitrure de Gallium / High frequency power supply based on GaN power devices Delaine, Johan 14 April 2014 (has links) Le projet de cette thèse est de réaliser un convertisseur DC/DC isolé à haute fréquence de découpage basé sur la mise en œuvre de composants en GaN. Le but est d'augmenter très fortement les densité de puissance commutées par rapport aux solutions actuelles. Cette thèse mets en oeuvre les composants GaN afin de déterminer les meilleurs conditions de fonctionnement possible. Une fois les points critiques mis en avant, on étudie les structures de circuit de commande adapté pour les HEMT GaN d'EPC et un circuit intégré pour la commande est étudié et mis en oeuvre. Le layout global de la carte a un rôle important en termes d'intégration et d'optimisation CEM, il est donc discuté et des règles de routage sont proposées. Enfin, on étudie plusieurs structures de puissance et on les met en oeuvre pour vérifier le bon fonctionnement et le respect du cahier des charges. / This study consist in the development of a high frequency insulated DC/DC converter based on GaN power devices. The goal is to increase significantly the power density in comparison with actual converter solutions. This thesis evaluate the GaN components performances to determine the best working conditions. Once the critical points highlighted, gate circuit topologies suitable for EPC GaN HEMT are studied and an integrated IC is designed and implemented. The overall layout of the card has an important role in terms of integration and EMC optimization, so it is discussed and routing rules are proposed. Finally, we study several power structures and implement them to verify proper operation and their compliance with specifications. Nitrure de Gallium (GaN) Haute fréquence Intégration Alimentation isolée Convertisseur DC/DC Circuit de commande GaN High switching frequency Integration Insulated power supply DC/DC converter Gate driver 620

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