Interleaved-Input Series-Output Ultra-High Voltage Gain DC-DC Converter

The ultra-high voltage gain dc-dc converters are extremely required because of the low voltage level of many nonpolluting power resources. This paper proposes an ultra-high voltage gain converter based on an interleave technique and using three-winding coupled inductor and voltage multiplier cell. T...

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Veröffentlicht in:	IEEE transactions on power electronics 2019-04, Vol.34 (4), p.3397-3406
Hauptverfasser:	Salehi, Seyed Mohsen, Dehghan, Seyed Mohammad, Hasanzadeh, Saeed
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Converters DC-DC power converters High voltage gain converter High voltages High-voltage techniques Inductors interleaved converters Low voltage Semiconductor devices Semiconductor diodes Switches three-winding coupled inductor Voltage gain voltage multiplier cell (VMC) Windings
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creator	Salehi, Seyed Mohsen Dehghan, Seyed Mohammad Hasanzadeh, Saeed
description	The ultra-high voltage gain dc-dc converters are extremely required because of the low voltage level of many nonpolluting power resources. This paper proposes an ultra-high voltage gain converter based on an interleave technique and using three-winding coupled inductor and voltage multiplier cell. The interleave technique is useful for reducing the size of the filter components. In the proposed converter, high voltage gain is achieved without extreme duty cycle of solid-state switches. The voltage stress across the semiconductor devices can be reduced by increasing the turn ratio of the secondary of the coupled inductors. In addition, because of the implementation of the interleave structure, peak-to-peak variation of the main input current and switching losses are substantially reduced. The steady-state principles of the proposed converter in continuous conduction mode operation are given. Also, design equations are presented. Validity and performance of the proposed converter are surveyed by simulation and experimental results of a 120 W prototype.
doi_str_mv	10.1109/TPEL.2018.2853577
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This paper proposes an ultra-high voltage gain converter based on an interleave technique and using three-winding coupled inductor and voltage multiplier cell. The interleave technique is useful for reducing the size of the filter components. In the proposed converter, high voltage gain is achieved without extreme duty cycle of solid-state switches. The voltage stress across the semiconductor devices can be reduced by increasing the turn ratio of the secondary of the coupled inductors. In addition, because of the implementation of the interleave structure, peak-to-peak variation of the main input current and switching losses are substantially reduced. The steady-state principles of the proposed converter in continuous conduction mode operation are given. Also, design equations are presented. 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This paper proposes an ultra-high voltage gain converter based on an interleave technique and using three-winding coupled inductor and voltage multiplier cell. The interleave technique is useful for reducing the size of the filter components. In the proposed converter, high voltage gain is achieved without extreme duty cycle of solid-state switches. The voltage stress across the semiconductor devices can be reduced by increasing the turn ratio of the secondary of the coupled inductors. In addition, because of the implementation of the interleave structure, peak-to-peak variation of the main input current and switching losses are substantially reduced. The steady-state principles of the proposed converter in continuous conduction mode operation are given. Also, design equations are presented. 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subjects	Capacitors Converters DC-DC power converters High voltage gain converter High voltages High-voltage techniques Inductors interleaved converters Low voltage Semiconductor devices Semiconductor diodes Switches three-winding coupled inductor Voltage gain voltage multiplier cell (VMC) Windings
title	Interleaved-Input Series-Output Ultra-High Voltage Gain DC-DC Converter
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