In this paper, a model-based approach of DC-DC converters dedicated to controller design applications for photovoltaic generators is introduced. The paper provides a mathematic averaging model, based on the state space method for DC-DC converters that is used as an adaptation level in photovoltaic generators. This modeling allows the dynamics of the system to be described by presenting a reliable model to be used for oriented controller design. The two most needed topologies of DC-DC converters are proposed, buck and buckboost, and an overview of integral state feedback controller design using a model-based approach for a boost converter connected to a photovoltaic generator described in our previous published work is provided. The model-based conception of both converter types is analyzed for optimal use in control-oriented design. The validation of each model is demonstrated by comparative curves represented by a detailed plant model using Simscape devices available and implemented in Simulink/Matlab
A Model-Based Approach of DC-DC Converters Dedicated to Controller Design Applications for Photovoltaic Generators
2019-08-12
oai:zenodo.org:3370592
Engineering, Technology & Applied Science Research 9(4) 4371-4376
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC: | 629 |
Diesel Powered Generators with Catalytic Converters
Kraftfahrwesen | 1979
|Photovoltaic Generators in Space
NTIS | 1978
|Mixing object oriented design and dedicated programmable controller languages
British Library Online Contents | 1995
|