High Voltage Step-up Boost Converter Based on a Three-Winding-Coupled Inductor with Voltage Multiplier Cell
The present paper endeavors to make a significant contribution to the field of high-voltage non-isolated dc-dc converters. This is achieved by utilizing a voltage multiplier cell based on the three-winding coupled inductor technique. Unlike more widely adopted topologies in recent literature, the pr...
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Veröffentlicht in: | IEEE access 2024-01, Vol.12, p.1-1 |
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description | The present paper endeavors to make a significant contribution to the field of high-voltage non-isolated dc-dc converters. This is achieved by utilizing a voltage multiplier cell based on the three-winding coupled inductor technique. Unlike more widely adopted topologies in recent literature, the proposed configuration features a reduced number of components. The proposed converter also aims to achieve high voltage gain without operating under high duty-cycle and without negatively impacting in the voltage stresses on the semiconductor devices, thereby reducing conduction and switching losses. Additionally, it employs only a single switch, thereby simplifying the circuit while enhancing power density. The operation principle, steady-state analysis, power loss analysis and design guidelines are depicted and validated through experimental results obtained from a 200 W prototype of the proposed converter. |
doi_str_mv | 10.1109/ACCESS.2024.3401718 |
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subjects | Dc-dc power converter DC-DC power converters high voltage gain High voltages High-voltage techniques Inductors Multipliers Semiconductor devices Semiconductor diodes Switches three-winding coupled inductor Topology Voltage Voltage converters (DC to DC) Voltage gain Winding Windings Zero current switching |
title | High Voltage Step-up Boost Converter Based on a Three-Winding-Coupled Inductor with Voltage Multiplier Cell |
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