LCL‐type resonant dual‐active‐bridge (LCL‐DAB) DC–DC converters have more significant
advantages in eliminating backflow power and achieving higher voltage gain compared with …

The LCL-type dual active bridge (LCL-DAB) DC-DC converter is a promising part for DC
micro-grids due to its high voltage gain and low bridge current, but the issues of backflow …

LCL-type resonant dual active bridge (LCL-DAB) dc–dc converters feature high gain, high
power density, and low reactive current. To further improve the efficiency, based on the dual …

Featuring the reduced volume and high efficiency, dual-active-bridge (DAB) DC-DC
converters have been widely investigated in energy storage system, DC microgrids, etc …

The LLC-type resonant dual-active-bridge (LLC-DAB) DC-DC converter with a high voltage
gain, high power density, and low backflow power has attracted increasing attention in …

LCL resonant three-phase dual active bridge (LCL-TPDAB) dc–dc converter is progressively
used in renewable energy systems due to the advantages of low circulating reactive power …

This article presents a single-stage AC-DC converter composed of a synchronous rectifier
and a dual active bridge (DAB) converter with an LCL resonant tank. The optimum DPS …

This article presents an improved DPS (IDPS) control strategy for LCL resonant dual active
bridge converter. Due to the LCL resonant tank, the converter's working modes are analyzed …

The naturally commutated current-fed dual-active-bridge (CF-DAB) dc/dc converter is a
suitable solution for the distributed generation system with low input current ripple and …

Working as a dc-dc transformer (DCX), which operates at the resonant frequency, is a
suitable solution to achieve the maximum conversion efficiency of the LLC converter …