Abstract
A bidirectional converter able to manage storage is a basic power electronics device, and it is a major component of renewable energy sources, micro grid and also the smart grid concept. In this paper, single-phase bidirectional converter topology is discussed. The state space model has been derived, and a simple model based predictive current controller has been utilized to control the inverter. Control block diagrams have been designed with MATLAB and simulation results are presented and compared with experimental ones, giving credibility to the derived model and the designed control method.
Highlights
Increasing global warming and energy consumption demand made it unavoidable to look for new energy sources as alternative to conventional fossil energies [1]
This paper presents a continuous model and a novel Model based Predictive Current Controller (MPCC) as a current controller a for bidirectional single-phase converter, which is able to manage a storage system
Chopper and inverter control are based on a modified standard method introducing an Model Predictive Current Controller (MPCC), and the designed control logics are described in subsections that follow
Summary
Increasing global warming and energy consumption demand made it unavoidable to look for new energy sources as alternative to conventional fossil energies [1]. Green and Renewable Energy Sources (RES) have attracted considerable attention in recent decades due to their clean and sustainable nature, in which power electronics play an important role in this road [1]. RESs spread around and are available locally. These Distributed energy Resources (DRs) should be tackled locally wherever those are available by utilizing the proper device. DRs and Micro Grids (MG) have come into the picture and are desirable for smart grid functions [2,3]. These applications mostly need proper integration of RES into the grid
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