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All Journal Brilliance: Research of Artificial Intelligence
Indra Gunawan Yusuf Siregar
Universitas Panca Budi, Indonesia
Decision Sciences, Operations Research & Management Mathematics Other

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Design of Battery Charging Time Based on Microcontroller Indra Gunawan Yusuf Siregar
Brilliance: Research of Artificial Intelligence Vol. 2 No. 2 (2022): Brilliance: Research of Artificial Intelligence, Article Research May 2022
Publisher : ITScience (Information Technology and Science)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47709/brilliance.v2i2.1538

Abstract

In this study, a tool is designed to compare the charging time of several batteries with charging using a solar tracker or not using a solar tracker to find out which battery is more efficient in its use. This research uses lead acid battery, lithium ion battery, and nickel-cadnium battery. From the results of this study, it is known that the lead acid battery has a charging time of 3 hours 30 minutes without using a solar tracker and 3 hours 15 minutes using a solar tracker with an efficiency of 7.14%, lithium ion batteries have a charging time of 3 hours 30 minutes without using a solar tracker and 3 hours using a solar tracker with an efficiency of 14.29%, while Nickle-Cadnium has a charging time of 4 hours 30 minutes without using a solar tracker and 4 hours 45 using a solar tracker with an efficiency of 11.11%. Then it was found that lithium ion batteries have the fastest charging time of the three batteries used.
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