Input-Series and Output-Series Connected Modular Output Capacitor Full-Bridge PWM DC–DC Converter. Bottion, A., J., B. & Barbi, I. IEEE Transactions on Industrial Electronics, 62(10):6213-6221, IEEE, 10, 2015.
Paper
Website abstract bibtex This paper proposes a modular isolated dc-dc converter, based on the input-series and output-series association of the full-bridge PWM dc-dc converter with capacitive filter. The main attribute of the proposed architecture is its ability to provide self-balance of the input and output voltages across the individual converters, without voltage loop control scheme, both in the steady-state and transient operations. Circuit operation, theoretical analysis, and modeling are included in this paper, along with experimental results taken from a laboratory prototype with four modules, 1600-Vdc total input voltage, 1600-Vdc total output voltage, 4-kW output power, and 40-kHz switching frequency. Possible applications include high-voltage power supplies, solid-state transformers, dc current distribution systems, and renewable electric energy systems.
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title = {Input-Series and Output-Series Connected Modular Output Capacitor Full-Bridge PWM DC–DC Converter},
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abstract = {This paper proposes a modular isolated dc-dc converter, based on the input-series and output-series association of the full-bridge PWM dc-dc converter with capacitive filter. The main attribute of the proposed architecture is its ability to provide self-balance of the input and output voltages across the individual converters, without voltage loop control scheme, both in the steady-state and transient operations. Circuit operation, theoretical analysis, and modeling are included in this paper, along with experimental results taken from a laboratory prototype with four modules, 1600-Vdc total input voltage, 1600-Vdc total output voltage, 4-kW output power, and 40-kHz switching frequency. Possible applications include high-voltage power supplies, solid-state transformers, dc current distribution systems, and renewable electric energy systems.},
bibtype = {article},
author = {Bottion, Antonio J. B. and Barbi, Ivo},
journal = {IEEE Transactions on Industrial Electronics},
number = {10}
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