Systematic analysis of control techniques for the dual active bridge converter in photovoltaic applications
DA Herrera‐Jaramillo… - … Journal of Circuit …, 2021 - Wiley Online Library
The dual active bridge (DAB) converter has high efficiency and versatility; hence, such a
converter has been used to design photovoltaic (PV) applications with both step‐up and …
converter has been used to design photovoltaic (PV) applications with both step‐up and …
Analysis of the dual active bridge-based DC-DC converter topologies, high-frequency transformer, and control techniques
A power conversion system needs high efficiency for modern-day applications. A DC–DC
isolated bidirectional dual active bridge-based converter promises high efficiency and …
isolated bidirectional dual active bridge-based converter promises high efficiency and …
High-frequency transformer review and design for low-power solid-state transformer topology
AM Elrajoubi, SS Ang - 2019 IEEE Texas Power and Energy …, 2019 - ieeexplore.ieee.org
The objectives of this paper are to review and compare the design of high-frequency
transformers (HFTs) for low-power solid-state transformer (SST) converter topologies. Two …
transformers (HFTs) for low-power solid-state transformer (SST) converter topologies. Two …
Current-source single-phase module integrated inverters for PV grid-connected applications
This paper presents a modular grid-connected single-phase system based on series-
connected current-source module integrated converters (MICs). The modular configuration …
connected current-source module integrated converters (MICs). The modular configuration …
Analysis and experimentation of modular differential inverter utilizing SEPIC modules and SIC devices for grid connected applications
This paper presents a three-phase Modular Differential Inverter (MDI) utilizing DC-DC
modules that provide AC power to the utility grid with step-up voltage capability. The …
modules that provide AC power to the utility grid with step-up voltage capability. The …
Modular single-stage three-phase flyback differential inverter for medium/high-power grid integrated applications
This paper proposes a single-stage three-phase modular flyback differential inverter
(MFBDI) for medium/high power solar PV grid-integrated applications. The proposed inverter …
(MFBDI) for medium/high power solar PV grid-integrated applications. The proposed inverter …
150-kW three-port custom-core transformer design methodology
S Christian, RA Fantino, RA Gomez… - 2020 IEEE Applied …, 2020 - ieeexplore.ieee.org
The design of a 150-kW high-frequency three-port transformer (TPT) for a triple active bridge
(TAB) converter application is the focus of this paper. A non-tradeoff inclusive design …
(TAB) converter application is the focus of this paper. A non-tradeoff inclusive design …
In depth mathematical-analysis and experimentation of high-power SiC-FET based single-stage three-phase differential-based flyback inverter with practical design …
This paper presents a detailed mathematical loss-modelling, design, hardware
implementation issues, and experimental verification of high-power isolated single-stage …
implementation issues, and experimental verification of high-power isolated single-stage …
A three-level isolated AC–DC PFC power converter topology with a reduced number of switches
The main objective of this research work is to develop a new low-cost isolated three-level ac–
dc power converter topology with a reduced number of switches. Existing three-level …
dc power converter topology with a reduced number of switches. Existing three-level …
A medium frequency transformer design tool with methodologies adapted to various structures
A Fouineau, M Guillet, B Lefebvre… - 2020 Fifteenth …, 2020 - ieeexplore.ieee.org
A comprehensive and generic medium frequency transformer (MFT) design methodology is
presented in this paper, which can be applied to many transformer structures. Models were …
presented in this paper, which can be applied to many transformer structures. Models were …