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Projeto e SimulaÃÃo de Filtros L e LCL para InterconexÃo de Inversor NPC TrifÃsico à Rede / Design and Simulation of L and LCL Filters for the Interconnection of a Three Phase NPC Inverter to the GridRomulo Diniz Araujo 05 March 2012 (has links)
Este trabalho apresenta o estudo de um inversor NPC de 6 kW e 380 V, trifÃsico, para interconexÃo de sistemas de geraÃÃo distribuÃda à rede elÃtrica. O inversor à estudado nas frequÃncias de chaveamento de 3, 4 e 6 kHz, sendo interligado à rede elÃtrica atravÃs dos filtros L e LCL. Para identificar qual filtro passivo, L ou LCL, se adequa melhor ao inversor em estudo foram realizadas simulaÃÃes numÃricas para diferentes situaÃÃes, validando o projeto do inversor e a modelagem vetorial desenvolvida. A resposta do controle à satisfatÃria, pois o inversor à capaz de controlar o fluxo de potÃncia ativa e reativa entregues à rede elÃtrica. Diante dos resultados obtidos percebeu-se que o filtro LCL apresentou um menor conteÃdo harmÃnico para as trÃs frequÃncias estudadas em relaÃÃo ao filtro L. Ambos os filtros atenderam aos requisitos da norma Std IEEE 1543, no entanto o filtro L à o mais indicado para o inversor em estudo, pois alÃm de atender a norma, o mesmo apresenta um menor custo quando comparado ao filtro LCL. / This paper presents the study of a 6 kW, 380 V, three phase NPC inverter for interconnecting distributed generation unit to the grid. The inverter is studied with switching frequency of 3, 4 and 6 kHz, and it is interconnected to the grid through L and LCL filters. To identify which passive filter, L or LCL, is best suited to the inverter under study, a mathematical model has been proposed and several numerical simulations have been carried out to validate the design of the inverter and vector model developed. The control response is satisfactory, since the inverter is able to control the flow of active and reactive power delivered to the grid. Based on these results it was noticed that the LCL filter showed a lower harmonic content for the three frequencies studied in relation to the filter L. Both filters met the requirements of the standard IEEE Std 1543, however the filter L is the most suitable for the inverter under study, because the filter L not only meet the standard but also it presents a lower cost when compared to the LCL filter.
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THREE PARTS MODULATION AND HYBRID CAPACITOR VOLTAGE BALANCING FOR FIVE LEVEL NEUTRAL POINT CLAMPED INVERTERSWodajo, Eshet Tezera 17 July 2023 (has links)
No description available.
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Field Oriented Control Of Permanent Magnet Synchronous Motors Using Three-level Neutral-point-clamped InverterMese, Huseyin 01 June 2012 (has links) (PDF)
In this thesis, field oriented control of permanent magnet synchronous motors using three-level neutral-point-clamped inverter is studied. Permanent magnet synchronous motors are used in high performance drive applications. In this study, the permanent magnet synchronous motor is fed by three-level neutral-point-clamped inverter. For three-level neutral-point-clamped inverter different space vector modulation algorithms, which are reported in literature, are analyzed and compared via computer simulations. The voltage balance on dc-link capacitors is also analyzed and a software control method is implemented in conjunction with the space vector PWM modulation, utilized. Nonlinear effects such as dead-time, semiconductor voltage drop and delays in gate drive circuitries also present in neutral-point-clamped inverter. The effects of these nonlinearities are studied and a compensation method for these nonlinear effects is proposed. The theoretical results are supported with computer simulations and verified with experimental results.
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Inversor monofásico NPC com snubber regenerativo / Single-phase NPC inverter with regenerative snubberLima, Luiz Ricardo 12 August 2011 (has links)
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Previous issue date: 2011-08-12 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This work presents a study about the NPC (Neutral Point Clamped) three-level inverter with a modified Undeland snubber and using a Buck-Boost converter to regenerate the energy processed by the snubber. Initially, qualitative and quantitative analysis of this inverter with the presence of the snubber are presented and a project methodology is proposed. The same analysis and project are presented for the Buck-Boost converter and it is shown that this converter can operate under ZVS (Zero Voltage Switching). Next, mathematical models of all circuitry necessary for the realization of the digital control of the inverter are presented and a controller is projected. Using data of the projected NPC inverter, Buck-Boost converter and digital controller, simulation results are presented. These simulations were done using software s Orcad Pspice and Simulink. Finally, implementation details and experimental results of a 1.5 kW, 800 V input voltage, 127 V output voltage and 200 kHz switching frequency prototype are presented. / Este trabalho apresenta um estudo do inversor NPC (Neutral Point Clamped) a três níveis com snubber de Undeland modificado, utilizando um conversor Buck-Boost para
regeneração da energia processada pelo snubber. Inicialmente são feitas analises qualitativa e quantitativa desse inversor com a presença do snubber e é apresentada uma metodologia de projeto. As mesmas analises e projeto são feitos para o conversor Buck-Boost e é mostrado como ele pode operar com comutação ZVS (Zero Voltage Switching). A seguir são mostrados os modelos matemáticos de todos os circuitos necessários para se realizar o controle digital do inversor e é apresentado um projeto de controlador digital. Utilizando os dados de projeto do inversor NPC, do conversor Buck-Boost e do controle são apresentados os resultados de simulações feitas nos programas Orcad Pspice e Simulink. Por ultimo, são apresentados detalhes de implementação e resultados experimentais de um protótipo de 1,5 kW, 800 V de tensão de barramento, 127 V de tensão de saída e 200 kHz de freqüência de comutação.
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Inversor fotovoltaico não isolado NPC intercalado / Transformerless photovoltaic interleaved NPC inverterFinamor, Gustavo Andres 04 March 2016 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Throughout the twentieth century, the supply of electricity, mainly obtained from
fossil fuels like oil and coal, it has supported the growth and transformation of the world
economy. In the early years of this century, the scenario has changed to a new reality, the
need for sustainable development. In other words, the challenge is to gradually replace
the traditional sources of electricity from renewable energy sources, in which the solar
photovoltaic energy has highlighted. Photovoltaic inverters may be constituted in different
ways, presenting in recent decades a high research progress. The main study efforts
focus on getting high efficiency, high power density and high reliability, to increase the
overall performance of the photovoltaic installation. In this direction, this Master Thesis
aims to propose, analyze, design and implement a single-phase grid-tied photovoltaic
inverter, which provides high efficiency and high power density. This circuit is called
Transformerless Photovoltaic Interleaved Multilevel NPC Inverter , that use uncoupled
inductors, Gallium Nitride power transistors and employs interleaving strategy beside the
LCL filter, synthesizing 9 levels. Are introduced studies on the operation, modulation
and design methodology of power stages, considering the static performance. Results
are presented for the 1 kW, in order to support the validity of the proposed topology in
conjunction with the standard aspects, especially in relation to THD (Total Harmonic
Distortion) of grid current, leakage current, efficiency and power density. / Durante todo o século XX, a oferta de energia elétrica, obtida principalmente a
partir dos combustíveis fósseis como petróleo e o carvão mineral, deu suporte ao crescimento
e as transformações da economia mundial. Já nos primeiros anos do século atual,
o cenário mudou para uma nova realidade, a necessidade do desenvolvimento sustentável.
Em outras palavras, o desafio é substituir gradativamente as fontes tradicionais de energia
elétrica por fontes de energia renovável, onde a energia solar fotovoltaica tem destaque.
Os conversores eletrônicos para sistemas fotovoltaicos, também chamados de inversores,
podem ser constituídos de diversas maneiras, apresentando nas últimas décadas um acentuado
progresso de pesquisa. Os principais esforços de estudo tem se concentrado em
obter alto rendimento, alta densidade de potência e alta confiabilidade, de modo a aumentar
o desempenho global da instalação fotovoltaica. Neste horizonte, esta dissertação
tem por objetivo propor, analisar, projetar e implementar um inversor fotovoltaico monofásico,
para aplicação conectada à rede, de alto rendimento e alta densidade de potência.
Esta estrutura é denominada de Inversor Fotovoltaico NPC Multinível Intercalado sem
Transformador , que utiliza indutores não acoplados, interruptores de Nitreto de Gálio
e emprega a técnica interleaving junto ao filtro LCL, sintetizando 9 níveis. No decorrer
do trabalho são introduzidos estudos relativos à operação, modulação, metodologia de
projeto e estágios de potência, estabelecendo critérios, enquanto considera a performance
estática. São apresentados resultados, observando a potência de 1 kW, com a finalidade
de corroborar a validade da topologia proposta juntamente as normativas e aspectos que
norteiam a aplicação, especialmente com respeito à THD (Total Harmonic Distortion) da
corrente da rede, corrente de fuga, rendimento e densidade de potência.
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"Inversor multinível NPC monofásico com comutação suave e grampeamento ativo" / "Single phase ZVS NPC multilevel inverter with active clamping"Barreto, Eduardo Maldaun 08 December 2011 (has links)
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Previous issue date: 2011-12-08 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This work present a study of a three level NPC (Neutral Point Clamped), with ZVS (Zero Voltage Switching) and PWM (Pulse Width Modulation) control strategy, using a FPGA (Field Programmable Gate Array) for digital control and switches activation. First, a theoretical study is done, where the main waveforms and operation stages are presented. After, a quantitative study is done in order to implement the NPC inverter. Based on the calculations, the mathematical models for each inverter section are extracted to implement the digital control. The project data is then compiled and simulated on Orcad Pspice and Simulink software. Finally, an 1.5 kW, 800 V input voltage, 127 V or 220 V output voltage, and 200 kHz switching frequency is implemented and the experimental results are compared with theoretical and simulated results / Este trabalho apresenta o estudo de um inversor NPC (Neutral Point Clamped) a três níveis com comutação suave ZVS (Zero Voltage Switching) e controle PWM (Pulse Width Modulation), fazendo o uso de uma lógica programável do tipo FPGA (Field Programmable Gate Array) para controle e acionamento das chaves. Inicialmente é feito um estudo qualitativo do inversor, onde as principais formas de onda e etapas de operação são apresentadas, a seguir são estudados os aspectos quantitativos para, desta forma, efetuar o projeto do inversor. Com o inversor definido, todos os modelos matemáticos de todos os circuitos necessários para se realizar o controle digital do inversor são apresentados, assim como o projeto de um controlador digital. Utilizando os dados de projeto do inversor NPC ZVS PWM e controle, os resultados de simulações feitas nos programas Orcad Pspice e Simulink são obtidos. Por fim, um protótipo de 1,5 kW, 800 V de tensão de entrada, 127 V ou 220 V de tensão de saída e 200 kHz de frequência de comutação é montado e os resultados experimentais são avaliados e comparados com os previamente obtidos numericamente e por simulação.
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Contribution à la commande d'un onduleur multiniveaux, destinée aux énergies renouvelables, en vue de réduire le déséquilibre dans les réseaux électriques. / Contribution to the control of a multilevel inverter, intended for renewable energies, in order to reduce the imbalance in electrical networksRiachy, Léa 15 December 2017 (has links)
Le travail de cette thèse apporte une contribution aux méthodes de réglage de la tension dans les réseaux électriques. Il s’agit de fournir au réseau la puissance active et surtout la puissance réactive nécessaire pour réguler la tension et aboutir à un système équilibré vue du côté source. Ces puissances sont extraites d’une source d’energie renouvelable : une attention particulière a été portée à l’énergie éolienne raccordée au réseau à travers la Machine Asynchrone à Double Alimentation (MADA) pilotée par des convertisseurs statiques. Le système de contrôle le plus répandu des éoliennes est basé principalement sur la technique d’extraction du maximum de puissance. Cependant, cette technique limite la mise en oeuvre deservices auxiliaires, telle que la participation des éoliennes au réglage de la tension dans le réseau électrique. Pour cela, une nouvelle méthode d’extraction du coefficient de puissance optimal, permettant d’améliorer la participation de la MADA à la régulation de la tension dans le réseau (compensation de la puissance réactive et du déséquilibre), a été développée. Le convertisseur multiniveaux à structure NPC (Neutral Point Clamped) raccordant l’énergie renouvelable au réseau a été étudié. La commande prédictive assurant simulatnément l’amélioration du facteur de puissance, l’équilibrage du réseau électrique et du bus continu du convertisseur NPC a été proposée. Ensuite, l’application de cette commande prédictive a été elargie en lui attribuant plusieurs objectifs : amélioration du facteur de puissance avec équilibrage du réseau, équilibrage du bus continu, minimisation des pertes par commutation et réduction de la tension de mode commun. La minimisation des pertes a été obtenue en proposant une nouvelle stratégie qui consiste à exploiter les datasheets constructeurs donnant l’évolution de l’énergie dissipée durant la commutation en fonction du courant. Ces courbes expérimentales ont été transformées en modèlesmathématiques implémentés dans la commande prédictive. Les résultats de simulation et expérimentaux sont présentés pour évaluer les performances de la méthode proposée. / The work in this research thesis presents a contribution to voltage regulation in electrical networks. By considering adequate active and reactive powers injection into the grid, voltage control and load balancing are provided. These powers are generated from a grid connected renewable energy conversion system : a special attention was paid to the Wind Energy ConversionSystem (WECS) based on Doubly-Fed Induction Generator (DFIG).The typical control strategy for WECS is the maximum power coefficient tracking method. However, this method limits desirable ancillary power services, such as the participation of wind turbines in voltage regulation in the power grid. Therefore, a new method that derives the optimal power coefficient enhancing the participation of WTS in voltage regulation in the network (reactive and unbalanced power compensation), has been developed. The multilevel NPC (Neutral Point Clamped) converter, used for grid interface connection of renewable energy sources systems, has been studied. A predictive control method for the three-level NPC converter, capable of simultaneously compensating the problems of : DC link capacitors voltage balancing, load balancing and power factor correction in the power system, has been proposed. Then, the application of this predictive control was extended to simultaneously achieve multiple objectives: load balancing with power factor correction in the network, DC link capacitors voltage balancing, switching losses minimization and common mode voltage reduction. The switching losses minimization was obtained by proposing a new strategy which consists on exploiting the manufacturer datasheets that gives the evolution of the switching loss energy in function of the circulating current. The experimental curves of the datasheet are expressed in a mathematical model implemented in the predictive control. Simulation and experimental results are presented to evaluate the performance of the proposed method.
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