Venkat Nag Someswar Rao Jakka scite author profile

A three-winding transformer based asymmetrical dual active bridge (TWT-ADAB) isolated dc-dc converter is proposed in this study. The converter comprises of three stages: primary, isolation, and secondary. The primary stage consists of an H-bridge converter, the isolation stage consists of a three-winding transformer with one primary and two secondary windings, and the secondary stage consists of a bridge converter having three legs and six active switches. The load current is shared equally by the secondary windings of the transformer resulting in reduced currents through switches of the secondary converter. Therefore, the turn-off losses of these switches get reduced. Further, zero voltage switching turn-on can be achieved for all switches of the TWT-ADAB converter to reduce the switching losses. A detailed analysis of the modelling and control of the proposed TWT-ADAB converter is presented. The theoretical analysis is verified using the simulation and experimental results. These demonstrated results show that the proposed TWT-ADAB converter offers wider ranges of the output voltages and powers and higher efficiency as compared with the existing dual bridge isolated dc-dc converters. Therefore, it can be an eminent structure for high-power isolated dc-dc power conversion applications.

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Flexible Power Electronic Converters for Producing AC Superimposed DC (ACsDC) Voltages

Jakka

Shukla

Kulkarni

2018

IEEE Trans. Ind. Electron.

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Design of a Medium Voltage Mobile Utilities Support Equipment based Solid State Transformer (MUSE-SST) with 10 kV SiC MOSFETs for Grid Interconnection

Anurag

Acharya

Prabowo

et al. 2018

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Mobile Utility Support Equipment based Solid State Transformer (MUSE-SST) for MV Grid Interconnection with Gen3 10 kV SiC MOSFETs

Anurag

Acharya

Prabowo

et al. 2018

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