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All Journal International Journal of Power Electronics and Drive Systems (IJPEDS)
Basri, Hazrul Mohamed
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Control & Systems Engineering Electrical & Electronics Engineering

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Battery integrated three input high gain DC-DC converter for renewable energy sources Affam, Azuka; Buswig, Yonis M. Yonis; Othman, Al-Khalid; Salleh, Shanti Faridah; Basri, Hazrul Mohamed; Julai, Norhuzaimin; Lias, Kasumawati
International Journal of Power Electronics and Drive Systems (IJPEDS) Vol 16, No 2: June 2025
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijpeds.v16.i2.pp1024-1037

Abstract

In this work, a battery-integrated three-input converter is proposed. The topology combines a traditional boost converter on one side with a non-coupled inductor-based buffer stage on the other side. Some merits of the converter are a high voltage gain, a high output voltage in the battery discharging mode, and a wide range of output voltage. The bidirectional port makes it attractive for renewable energy (RE) sources like solar and fuel cells. The converter can operate in three modes that are determined by the availability of RE sources and the battery state of charge (SOC). The power management algorithm enabled the converter to work in either single-input, double-input, or three-input configurations. The duty ratios of assigned power switches controlled the output voltage and the battery charge/discharge. Steady-state analyses and dynamic modeling are presented and discussed. At 12 V and 24 V input voltage, the output voltage of 315.52 V was delivered in the battery-excluded mode. The battery discharging mode delivered 311.57 V while the battery charging mode delivered 301.32 V. The proposed converter can serve low to medium power voltage/power applications. The hardware experiments verify the workings of the proposed converter.
Co-Authors Affam, Azuka Buswig, Yonis M. Yonis Julai, Norhuzaimin Lias, Kasumawati Othman, Al-Khalid Salleh, Shanti Faridah