Título :
Diseño e implementación de controladores de potencia de estado sólido SiC para aplicaciones DC |
Autor :
Marroquí Sempere, David |
Tutor:
Garrigós Sirvent, Ausiàs
Blanes Martínez, José Manuel |
Editor :
Universidad Miguel Hernández de Elche |
Departamento:
Departamentos de la UMH::Ciencia de Materiales, Óptica y Tecnología Electrónica |
Fecha de publicación:
2020-03-05 |
URI :
http://hdl.handle.net/11000/25545 |
Resumen :
A lo largo de los últimos años, el uso de sistemas de distribución energética basada en corriente continua (DC) está aumentando de forma considerable y están presentes en multitud de aplicaciones y ámbitos. Su uso permite implementar sistemas con generación distribuida de forma más sencilla que en ... Ver más
The use of DC-based energy distribution systems has increased substantially in recent years and DC distribution is present in many areas and applications. They allow distributed generation in an easier way than alternating current, providing the integration of renewable energy sources and battery-based energy storage systems.
DC-based systems are used in many different sectors, like aerospace, datacenters, automotive and residential buildings.
The main limitations of the use of DC-based systems are the lack of regulations in some sectors, the low availability of protection and control devices, defficient infrastructure and, eventually, their relative novelty.
For the sake of progress towards DC-based systems implementation, this thesis proposes and evaluates power protection and control systems for DC distribution. In particular, it is focused on those applications that work at high voltage, above 250V and up to 1000V, by means of the use of silicon carbide devices.
The first chapter presents all the academic aspects within the TECNIT PhD program and the Miguel Hernández University of Elche. The second chapter presents the scenario and technological framework, analysing the types of DC-grids, protection and power control technologies for DC, as well as relevant aspects of wide band gap semiconductors.
The third chapter exposes the state of the art as a compendium of influential works for this thesis.
The fourth, fifth, sixth and seventh chapters correspond with each of the four scientific papers that comprise the core of this thesis. Apart of the scientific paper itself, the results have been expanded. The structure of the work is as follows:
• A silicon carbide based current limiter for space applications is detailed in the fourth chapter. It supposes the prelude and first contact with silicon carbide devices, especially when used as current limiters.• A protection system designed for use in DC 380V datacenters is covered in the fifth chapter. A new architecture is proposed and a functional prototype is analysed, implemented and evaluated. • A protection system based on the previous work that allows to be used up to 1000V is introduced in the sixth chapter. Adjustment and operating properties are detailed, providing design equations in order to adapt its response to the requirements of the particular application.
• A reliability and robustness study of the silicon carbide devices used in the previous works is detailed in the seventh chapter.
The eighth chapter presents the conclusions. It summarizes the main contributions and proposes several open ideas to develop new works and future contributions.
Finally, the thesis concludes with five annexes which facilitate understanding of the prototypes and setups, as well as the references.
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Palabras clave/Materias:
Tecnología |
Área de conocimiento :
CDU: Ciencias aplicadas: Ingeniería. Tecnología |
Tipo de documento :
info:eu-repo/semantics/doctoralThesis |
Derechos de acceso:
info:eu-repo/semantics/openAccess |
Aparece en las colecciones:
Tesis doctorales - Ciencias e Ingenierías
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