An Active Clamp Dual-Inductor Isolated Current Source to Current Source Converter with Wide Output Voltage Range

Human observation of the ocean has gradually evolved from the sea surface to systematic monitoring and sampling through seafloor observation networks, and constant current power supply has become the main power supply method for seafloor observation networks due to its high reliability. There are so...

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Veröffentlicht in:	Electronics (Basel) 2024-08, Vol.13 (15), p.2925
Hauptverfasser:	Yan, Tiesheng, Chen, Wenyuan, Zhou, Yu, Lin, Dong, Tian, Jun, Zhou, Guohua
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Circuit reliability Conversion ratio Current sharing Current sources Design Design analysis Design parameters Diodes Earthquakes Efficiency Electric current converters Electric potential Electric transformers Energy Inductance Inductors Leakage Network reliability Observatories Ocean floor Power supply Switches Switching Transformers Voltage
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creator	Yan, Tiesheng Chen, Wenyuan Zhou, Yu Lin, Dong Tian, Jun Zhou, Guohua
description	Human observation of the ocean has gradually evolved from the sea surface to systematic monitoring and sampling through seafloor observation networks, and constant current power supply has become the main power supply method for seafloor observation networks due to its high reliability. There are some studies on current source to voltage source converters, but there are few studies on current source to current source (CS/CS) converters, which affects the expansion of power supply networks for seafloor observation networks. In this paper, by employing input current sharing and output voltage doubling circuits, an active clamp dual-inductor isolated CS/CS converter which uses a single-stage conversion circuit to realize constant current source conversion with a wide output voltage range is proposed. Active clamp technology at the primary side of the proposed circuit is employed to recover energy stored in leakage inductance, suppress voltage spikes of the primary side switches, and achieve zero-voltage switching of the primary side switches. The secondary side’s output voltage doubling circuit resonates with transformer leakage inductance to achieve zero-current switching of the secondary side diodes, which can reduce losses and enhance efficiency. The operating principles of the proposed circuit are analyzed in detail, and the characteristic and parameter design analysis, including current conversion ratio, transformer turn ratio, power inductors, and resonant capacitors and inductor, are presented. Finally, the experimental results based on a 100 W experimental prototype validate the feasibility of the proposed converter.
doi_str_mv	10.3390/electronics13152925
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subjects	Capacitors Circuit reliability Conversion ratio Current sharing Current sources Design Design analysis Design parameters Diodes Earthquakes Efficiency Electric current converters Electric potential Electric transformers Energy Inductance Inductors Leakage Network reliability Observatories Ocean floor Power supply Switches Switching Transformers Voltage
title	An Active Clamp Dual-Inductor Isolated Current Source to Current Source Converter with Wide Output Voltage Range
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