Archivio Istituzionale della RicercaThis article proposes the usage of a combined full-bridge voltage-doubler dc/dc stage as a way to supply a current source inverter from a low-voltage photovoltaic source. The proposed solution avoids the usage of traditional step-up stages and positively impacts both efficiency and system complexity. The topology uses a full bridge for the generation of the ac voltage that goes to the input of the doubler. This enables high-frequency ac that reduces the size of the capacitors in the doubler. This article also presents a possible technological solution to allow bidirectional power flow by bypassing the voltage doubler. An analytical discussion is presented alongside simulations and experimental validation, showing a 97.5% peak experimental efficiency.
An Energy-Efficient Voltage-Doubler-Based DC–DC Stage for Current Source Inverter Operation / Giacomobono, Roberto; Marignetti, Fabrizio; Iannuzzo, Francesco; Sangwongwanich, Ariya. - In: IEEE JOURNAL OF EMERGING AND SELECTED TOPICS IN POWER ELECTRONICS. - ISSN 2168-6777. - 14:1(2026), pp. 203-213. [10.1109/JESTPE.2025.3620225]
An Energy-Efficient Voltage-Doubler-Based DC–DC Stage for Current Source Inverter Operation
Francesco Iannuzzo;
2026
Abstract
This article proposes the usage of a combined full-bridge voltage-doubler dc/dc stage as a way to supply a current source inverter from a low-voltage photovoltaic source. The proposed solution avoids the usage of traditional step-up stages and positively impacts both efficiency and system complexity. The topology uses a full bridge for the generation of the ac voltage that goes to the input of the doubler. This enables high-frequency ac that reduces the size of the capacitors in the doubler. This article also presents a possible technological solution to allow bidirectional power flow by bypassing the voltage doubler. An analytical discussion is presented alongside simulations and experimental validation, showing a 97.5% peak experimental efficiency.
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https://hdl.handle.net/11583/3008786