Microprocessor-controlled new class of optimal battery chargers for photovoltaic applications

Summary form only given. A simple, fast and reliable technique for charging batteries by solar arrays is proposed. The operating point of a battery is carefully forced near the maximum power point of solar cells under all environmental (e.g., insolation, temperature, degradation) conditions. Optimal...

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Main Authors: Masoum, M.A.S., Badejani, S.M.M., Fuchs, E.F.
Format: Conference Proceeding
Language:English
Subjects:
Batteries
Costs
Degradation
Photovoltaic cells
Photovoltaic systems
Solar power generation
Temperature
Voltage
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creator Masoum, M.A.S.
Badejani, S.M.M.
Fuchs, E.F.
description Summary form only given. A simple, fast and reliable technique for charging batteries by solar arrays is proposed. The operating point of a battery is carefully forced near the maximum power point of solar cells under all environmental (e.g., insolation, temperature, degradation) conditions. Optimal operation of solar arrays is achieved using the voltage-based maximum power point tracking (VMPPT) technique and the charger operating point is continuously adjusted by changing the charging current. An optimal solar battery charger is designed, simulated and constructed. Experimental and theoretical results are presented and analyzed. The main advantages of the proposed solar battery charger as compared with conventional ones are shorter charge time and lower cost.
doi_str_mv 10.1109/PES.2004.1373118
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A simple, fast and reliable technique for charging batteries by solar arrays is proposed. The operating point of a battery is carefully forced near the maximum power point of solar cells under all environmental (e.g., insolation, temperature, degradation) conditions. Optimal operation of solar arrays is achieved using the voltage-based maximum power point tracking (VMPPT) technique and the charger operating point is continuously adjusted by changing the charging current. An optimal solar battery charger is designed, simulated and constructed. Experimental and theoretical results are presented and analyzed. 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A simple, fast and reliable technique for charging batteries by solar arrays is proposed. The operating point of a battery is carefully forced near the maximum power point of solar cells under all environmental (e.g., insolation, temperature, degradation) conditions. Optimal operation of solar arrays is achieved using the voltage-based maximum power point tracking (VMPPT) technique and the charger operating point is continuously adjusted by changing the charging current. An optimal solar battery charger is designed, simulated and constructed. Experimental and theoretical results are presented and analyzed. 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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Batteries
Costs
Degradation
Photovoltaic cells
Photovoltaic systems
Solar power generation
Temperature
Voltage
title Microprocessor-controlled new class of optimal battery chargers for photovoltaic applications
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