Archivio Istituzionale della RicercaA novel solar-fed quasi-resonant battery charger operating in the Discontinuous Voltage Mode (DVM) is proposed and designed to achieve a high efficiency on a wide range of operating powers. The converter design procedure ensures the achievement of the Zero Voltage Switching of its MOSFETs on a wide range of operating conditions, thus reducing the switching losses. An analytical model of the converter operation and its static characteristic in its two operating modes is provided. A step-by-step design procedure for the converter is proposed for given battery and PV panel specifications. Measurements on a 100 W, 12 V-output prototype validate the accuracy of the modelling and highlight a high efficiency always above 90.9% with the input voltage ranging from 26.5 V and 28.5 V and an input power in the wide 20 W–100 W range.
Modeling and Design of a Zero-Voltage Switching Battery Charger for Photovoltaic Applications / Cerutti, Stefano; Musolino, Francesco; Crovetti, Paolo S.. - In: IEEE ACCESS. - ISSN 2169-3536. - ELETTRONICO. - 12:(2024), pp. 88251-88263. [10.1109/ACCESS.2024.3418474]
Modeling and Design of a Zero-Voltage Switching Battery Charger for Photovoltaic Applications
Cerutti, Stefano;Musolino, Francesco;Crovetti, Paolo S.
2024
Abstract
A novel solar-fed quasi-resonant battery charger operating in the Discontinuous Voltage Mode (DVM) is proposed and designed to achieve a high efficiency on a wide range of operating powers. The converter design procedure ensures the achievement of the Zero Voltage Switching of its MOSFETs on a wide range of operating conditions, thus reducing the switching losses. An analytical model of the converter operation and its static characteristic in its two operating modes is provided. A step-by-step design procedure for the converter is proposed for given battery and PV panel specifications. Measurements on a 100 W, 12 V-output prototype validate the accuracy of the modelling and highlight a high efficiency always above 90.9% with the input voltage ranging from 26.5 V and 28.5 V and an input power in the wide 20 W–100 W range.
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https://hdl.handle.net/11583/2990110