Abstract
This paper presents a new self-tuning loop for a bidirectional dual-active bridge (DAB) series resonant converter (SRC). For different loading conditions, the two active bridges can be controlled with a minimum time displacement between them to assure zero voltage switching (ZVS) and minimum circulation current conditions. The tuning loop can instantly reverse the power direction with a fast dynamics. Moreover, the tuning loop is not sensitive to series resonant tank tolerances and deviations, which makes it a robust solution for power tuning of the SRCs. For simplicity, the power is controlled based on the power-frequency control method with a fixed time displacement between the active bridges. The main design criteria of the bidirectional SRC are the time displacement, operating frequency bandwidth, and the minimum and maximum power, which are simply derived and formulated based on the self-tuning loop’s parameters. Based on the parameters of the tuning loop, a simplified power equation and power control method is proposed for DAB-SRCs. The proposed control method is simulated in static and dynamic conditions for different loadings. The analysis and simulation results show the effectiveness of the new tuning method.
Highlights
Bidirectional direct current-direct current (DC-Direct current current (DC)) converters are widely employed in various applications such as renewable energy, battery chargers of electric vehicles (EVs), DC micro-grids and other battery energy storage system (BESS) applications
Experimental results show the accuracy of the previous analysis and the new tuning loop fast tuning loop for dual-active bridge (DAB)-series resonant converter (SRC)
The presented method of this paper improves the performance of bidirectional dual-active bridge SRC (DAB-SRC) using a new self-tuning method
Summary
Bidirectional direct current-direct current (DC-DC) converters are widely employed in various applications such as renewable energy, battery chargers of electric vehicles (EVs), DC micro-grids and other battery energy storage system (BESS) applications. To achieve soft switching with superior electro-magnetic interference (EMI) considerations, these converters are implemented based on resonant converters [1,2,3,4]. This kind of converters have different topologies with respect to their power ratings, voltage levels and input or output required voltage (current) source models. For high power applications such as fast charging of EVs, a dual-active bridge SRC (DAB-SRC) is the well-known structure for the bidirectional power flow control at EV charging infrastructures [4,5,6,7]
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