Development and Application of a Reconfigurable Photovoltaic Inverter for Operation Within a Microgrid

Development and Application of a Reconfigurable Photovoltaic Inverter for Operation Within a Microgrid

Smart grids have their basis in distribution systems, and to take advantage of their full potential, the incorporation of distributed generation must be taken into account. This new strategy allows the decentralization of power generation and the microgrid represents a very important element in this...

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Bibliographic Details
Published in:IEEE access Vol. 7; pp. 98755 - 98770
Main Authors: Ortega, Ruben, Carranza, Oscar, Rodriguez, Jaime Jose, Garcia, Victor H., Sosa, Julio C., Alvarado, Jose M.
Format: Journal Article
Language:English
Published: Piscataway IEEE 2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Algorithms
Controllers
Distributed generation
droop scheme
Electric potential
Electric power generation
Electric power systems
Electrical loads
Harmonic distortion
hierarchical control
integral sliding mode control scheme
Inverters
Islanding
microgrid
Microgrids
Parallel connected
Photovoltaic inverter
Photovoltaic systems
Power converters
Reactive power
reconfigurable
Reconfiguration
Sliding mode control
Smart grid
Synchronism
Synchronization
Voltage
Voltage control
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Summary:Smart grids have their basis in distribution systems, and to take advantage of their full potential, the incorporation of distributed generation must be taken into account. This new strategy allows the decentralization of power generation and the microgrid represents a very important element in this generation scheme. With this perspective and considering the importance of power converters, this paper presents the development and operation of a reconfigurable photovoltaic inverter; which aims to operate in grid-connected mode and disconnected from this. To achieve this goal, a hierarchical control is proposed that serves as the basis to develop controllers at level one and level two. Particularly, in grid-disconnected operation, in level one of the hierarchical control a droop controller is implemented whose objective is to give the reference to be followed by the voltage loop controller; as well as allow that between inverters parallel connected, these can be distributed the active and reactive power demanded by the load. In level two of the hierarchical control, the controllers of the current and voltage loops are implemented for both modes of operation. Particularly, in grid-disconnected operation, the following contributions are made to this work: an integral sliding mode controller is implemented; which is a novelty for this application. The goal of this controller is to reduce the total harmonic distortion of the voltage signal that is delivered to the local load in this operation mode. Also, it presents a good performance at the moment of the transition of grid-disconnected operation to the connected operation to this. In addition, a synchronization algorithm was implemented for the inverter reconnection with the grid, as well as an algorithm for the detection of islanding.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2019.2929946