Split-Capacitor-Based Isolated Double Step-Down DC-DC Converter

Truong Duy Duong; Minh Khai Nguyen; Caisheng Wang; Bang Le Huy Nguyen; Honnyong Cha

doi:10.1109/JESTPE.2024.3426932

Split-Capacitor-Based Isolated Double Step-Down DC-DC Converter

Truong Duy Duong, Minh Khai Nguyen, Caisheng Wang, Bang Le Huy Nguyen, Honnyong Cha

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This article introduces a novel isolated high step-down dc-dc converter. The introduced converter can offer the low voltage stress of power switches on the primary side. The introduced converter also achieves a zero-voltage-switching turn-on for all power switches and avoids the transformer saturation problem. By using a split-capacitor double step-down structure, the introduced converter also reduces the input capacitance and eliminates the high voltage stress during the start-up process. The introduced converter is ready to be connected to a three-level NPC inverter with self-balanced voltages in two capacitors of the dc link. The operating principle and comparative study of the introduced converter are presented in detail. A 1-kW 400-/48-V laboratory prototype was implemented to validate the feasibility of the introduced converter.

Original language	English
Pages (from-to)	4437-4446
Number of pages	10
Journal	IEEE Journal of Emerging and Selected Topics in Power Electronics
Volume	12
Issue number	5
DOIs	https://doi.org/10.1109/JESTPE.2024.3426932
State	Published - 2024

Keywords

High step-down
low voltage stress
phase shift full-bridge (PSFB) converter
soft switching
start-up

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10.1109/JESTPE.2024.3426932

Cite this

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title = "Split-Capacitor-Based Isolated Double Step-Down DC-DC Converter",

abstract = "This article introduces a novel isolated high step-down dc-dc converter. The introduced converter can offer the low voltage stress of power switches on the primary side. The introduced converter also achieves a zero-voltage-switching turn-on for all power switches and avoids the transformer saturation problem. By using a split-capacitor double step-down structure, the introduced converter also reduces the input capacitance and eliminates the high voltage stress during the start-up process. The introduced converter is ready to be connected to a three-level NPC inverter with self-balanced voltages in two capacitors of the dc link. The operating principle and comparative study of the introduced converter are presented in detail. A 1-kW 400-/48-V laboratory prototype was implemented to validate the feasibility of the introduced converter.",

keywords = "High step-down, low voltage stress, phase shift full-bridge (PSFB) converter, soft switching, start-up",

author = "Duong, {Truong Duy} and Nguyen, {Minh Khai} and Caisheng Wang and Nguyen, {Bang Le Huy} and Honnyong Cha",

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AU - Cha, Honnyong

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AB - This article introduces a novel isolated high step-down dc-dc converter. The introduced converter can offer the low voltage stress of power switches on the primary side. The introduced converter also achieves a zero-voltage-switching turn-on for all power switches and avoids the transformer saturation problem. By using a split-capacitor double step-down structure, the introduced converter also reduces the input capacitance and eliminates the high voltage stress during the start-up process. The introduced converter is ready to be connected to a three-level NPC inverter with self-balanced voltages in two capacitors of the dc link. The operating principle and comparative study of the introduced converter are presented in detail. A 1-kW 400-/48-V laboratory prototype was implemented to validate the feasibility of the introduced converter.

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Split-Capacitor-Based Isolated Double Step-Down DC-DC Converter

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