Theoretical and Experimental Investigation of Phase shift control strategies of Bi-directional Energy Harvesters Interface (BEHI) for Battery Energy Storage System (BESS)

Bi-directional power flow capability and galvanic isolation are considered as core requirements of a Bi-directional Energy Harvester Interface (BEHI) in which the isolated dc-dc converter is the prime element. The BEHI along with energy storage is gaining popularity in many applications such as soli...

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Bibliographic Details
Published in:	2023 IEEE Energy Conversion Congress and Exposition (ECCE) pp. 6186 - 6193
Main Authors:	P, Ramesh, C, Swetha, Us, Aji, S V, Sreeranjini, Joseph, Aby, Chacko, Renji V
Format:	Conference Proceeding
Language:	English
Published:	IEEE 29-10-2023
Subjects:	Bi-Directional Energy Harvester Interface (BEHI) Bidirectional control Bridge circuits Double Active Bridge (DAB) Double Phase Shift (DPS) Extended phase shift (EPS) High Voltage Full Bridge (HVFB) Low Voltage Full Bridge (LVFB) Phase modulation Prototypes Reflow Power(RFP) Single Phase Shift (SPS) Software packages Switches Voltage measurement Zero Voltage Switching (ZVS)
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Summary:	Bi-directional power flow capability and galvanic isolation are considered as core requirements of a Bi-directional Energy Harvester Interface (BEHI) in which the isolated dc-dc converter is the prime element. The BEHI along with energy storage is gaining popularity in many applications such as solid state transformers, hybrid micro grids, distributed generation, electric vehicles, fuel cell and so on. This paper presents operational principles and simulation/implementation of an isolated BEHI using Double Active Bridge (DAB) configuration with different phase shift control strategies; Single Phase Shift (SPS), Extended phase shift(EPS), Double Phase Shift(DPS).
ISSN:	2329-3748
DOI:	10.1109/ECCE53617.2023.10362545