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Toma Patarau
Applied Electronics Dept., Technical University of Cluj-Napoca, 400027 Cluj-Napoca, Romania

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Journal article
Published: 19 March 2020 in Energies
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A phase-shift full bridge converter is analyzed in detail in continuous conduction mode for one switching cycle for both the leading and lagging legs of the primary bridge. The objective of the study is to determine how the stray capacitance of the transformer, and the capacitances of the diodes in the bridge rectifier affect the converter functionality. Starting from some experimental results, Laplace equivalent circuit models and describing equations are derived for each significant time interval during the switching cycle and are validated through simulations and experimental measurements. The resulting equations are of great interest in the high-power density domain because they can be used to design a clamping circuit for the output rectifier bridge accurately.

ACS Style

Dorin Petreus; Radu Etz; Toma Patarau; Ionut Ciocan. Comprehensive Analysis of a High-Power Density Phase-Shift Full Bridge Converter Highlighting the Effects of the Parasitic Capacitances. Energies 2020, 13, 1439 .

AMA Style

Dorin Petreus, Radu Etz, Toma Patarau, Ionut Ciocan. Comprehensive Analysis of a High-Power Density Phase-Shift Full Bridge Converter Highlighting the Effects of the Parasitic Capacitances. Energies. 2020; 13 (6):1439.

Chicago/Turabian Style

Dorin Petreus; Radu Etz; Toma Patarau; Ionut Ciocan. 2020. "Comprehensive Analysis of a High-Power Density Phase-Shift Full Bridge Converter Highlighting the Effects of the Parasitic Capacitances." Energies 13, no. 6: 1439.