Design of Intelligent Based Battery Charger for a Pure Sine Wave Inverter

Research Article

Design of Intelligent Based Battery Charger for a Pure Sine Wave Inverter

Taiwo R. Oyedare, Olusegun O. Omitola, Solomon O. Akinola, Olalekan O. Adaramola

Corresponding Author : Olusegun O. Omitola

Department of Computer Engineering, Afe Babalola University, Ado-Ekiti, Nigeria.

Email ID : omitolasegun@yahoo.com

Received : 2014-01-15 Accepted : 2014-02-08 Published : 2014-02-08

Abstract : The purpose of this work is to design an intelligent battery charger for use with a pure sine wave inverter. It expresses a relatively new idea that is yet to break grounds in some parts of the world. It discusses four components which are inverter, battery, battery charger and artificial intelligence (which can be referred to as the controller). The controller serves as the central processor that processes the output of the charger and tells the whole system what to do about a particular problem. The major problems faced by the system were highlighted as well as the problem faced in charging a battery manually and automatically. The manual charging is a charging system that needs full monitoring in order to prevent overcharging and some other charging problems that is faced while charging. The automatic charging however has improved upon the demerits of the manual charging and has provided us with a safe and a lower level of supervision while charging. Various types of charging has been described in this research work and the best type of charging coupled with the best type of battery that is to work with a pure sine wave inverter has been described.

Keywords : Artificial intelligence, battery, controller, inverter.

Citation : Olusegun O. Omitola (2014) Design of Intelligent Based Battery Charger for a Pure Sine Wave Inverter. J. of Advancement in Engineering and Technology. V1I1.07. DOI : 10.5281/zenodo.893493

Copyright : © 2014 Olusegun O. Omitola , et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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