RT info:eu-repo/semantics/conferenceObject T1 Development of a fuzzy logic-based solar charge controller for charging lead-acid batteries A1 Castillo Sequera, José Luis A1 Paredes Larroca, Fabricio A1 Saettone Olschewski, Erich A1 Quino Favero, Javier A1 Rosales Huamaní, Jimmy Aurelio K1 Fuzzy logic K1 Controller K1 Battery charger K1 Informática K1 Computer science AB The design and implementation of a solar charge controller for lead-acid batteries is intended to supplement a component of the water purification module of the water treatment unit for natural disaster relief.This unit contains a solar panel system that supplies power to the module bycharging batteries through a controller comprising an Atmega 328 processor. Thesolar panel feeds voltage to the batteries through fuzzy logic-based software,which allows up to 6 A DC to pass through the controller's power circuit.Consequently, the battery was charged in less time (an average of 7 h to reachmaximum capacity), wherein battery lifespan is related to the charge wavefrequency. Thus, our software may be adapted in different control algorithmswithout having to change hardware. SN 2194-5357 YR 2019 FD 2019-10-24 LK http://hdl.handle.net/10017/42731 UL http://hdl.handle.net/10017/42731 LA eng NO Este documento se considera que es una ponencia de congresos en lugar de un artículo. NO International Conference on Computer Science, Electronics and Industrial Engineering (CSEI 2019), Oct. 28-31 2019, Ambato (Ecuador) DS MINDS@UW RD 28-mar-2024