![]() ![]() ![]() Sreejith, “Converter topologies in photovoltaic applications–A review,” Renew. Misrun, “Topologies of DC-DC converter in solar PV applications,” Indones. Mittal, “A double input DC to DC buck-boost converter for low voltage photovoltaic/wind systems,” Int. New Jersey, U.S.A: Prentice Hall, 2012.Ī. Floyd, Electronic Devices (Electron Flow Version). Saha, “Design of an arduino based maximum power point tracking (MPPT) solar charge controller,” Dr. As a result, this charge controller can improve the battery charger's charging efficiency and hence lengthen the battery's lifetime.ĭutta, N. The average output current from the buck converter test using the PI approach is 16.84 mA, while the average input current is 15.73 mA. From system testing, it is found that the output voltage of the charge controller is stable, where the most significant error value from the output voltage value is 0.972%. Therefore, a battery charger is built that uses a buck converter to lower the voltage while employing PI control to regulate the output voltage. The process of charging the battery that is not suitable can cause a decrease in battery performance. One of the essential components in this power plant is the battery. One of them is wind energy with a potential of 60.6 GW, which has only been utilized at 0.15 GW or only 0.25% of the existing potential. For this reason, innovation in supplying electrical energy via renewable energy is required. In 2019, fossil energy produced more than 88% of Indonesia's electrical energy. ![]()
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