Abstract
Modulation and Control of a DC-AC Converter With High-Frequency Link Transformer for Grid-Connected Applications
Highlights
In the past two decades, the global warming phenomenon has been the most significant threat facing the planet
Bidirectional dc-ac converters in grid-tied applications include galvanic isolation between the ac and dc sides and are recommended in the standards grid-connected systems (e.g., German codes VDE 0126-1-1) to avoid the leakage current and for safety issues
This paper focuses on a dc-ac converter for a Battery Storage System (BSS), VOLUME XX, 2021
Summary
In the past two decades, the global warming phenomenon has been the most significant threat facing the planet. There was an international consensus to countermeasure global warming and compensate for the lack of electrical power generation by increasing the penetration of Renewable Energy Sources (RES) [1],[2]. Due to the dependence of the generated power from RES on the weather changes, Energy Storage Systems such as batteries should be integrated into these systems to configure the microgrids (MGs) [3]. The Battery Storage System (BSS) manages the power mismatch between load/grid power demanded and RES at the load variation. It improves the power quality and reliability of the main grid [4]-[6]. Bidirectional dc-ac converters in grid-tied applications include galvanic isolation between the ac and dc sides and are recommended in the standards grid-connected systems (e.g., German codes VDE 0126-1-1) to avoid the leakage current and for safety issues
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