ADVANCING LITHIUM-ION BATTERY MANAGEMENT: A PORTABLE ARDUINO-BASED HEALTHMONITORING SOLUTION

Authors

  • Shujaat Ali School of Electrical & Information Engineering, Tianjin University, Tianjin Author https://orcid.org/0009-0001-5322-4679
  • Syed Saad Ali Nazeer Hussain University Author
  • Muzammil Ahmad Khan Sir Syed University of Engineering and Technology, Karachi Sindh Author
  • Muhammad Muzzammil Nazeer Hussain University Author
  • Muhammad Faraz Khan Nazeer Hussain University Author
  • Khurram Iqbal Hamdard University Author
  • Syed Atir Iftikhar Iqra University Author

Keywords:

portable, lithium-ion batteries, health monitoring, prototype.

Abstract

Lithium-ion batteries are mostly used in portable devices. The 
major purpose of enhancing the battery life is to implement a 
health analyzer to protect the battery from overcharging and 
explosions. The “Arduino based portable analyzer for real
time lithium-ion battery health monitoring” prototype deliver 
sustainable solution to address the battery monitoring and 
management. This prototype determines perfect specifications 
for the battery to verify the printed specifications. An LCD was 
placed in the system to demonstrate the cell capacity, voltage, 
and current parameters. This system focuses on the intelligent 
health monitoring of batteries using an Arduino Mega 
microcontroller. The charging and discharging stations of the 
two stations are designed to charge and analyze battery 
health. The discharging station was used to verify the battery 
health, and the charging station was used to charge the 
lithium-ion batteries. The IRLZ44N MOSFET was integrated 
with an Arduino gate pin for switching purposes. The system 
uses Arduino IDE software for software implementation. The 
microcontroller controls and monitors the processing 
measurements, and the implementation of this intelligent 
system increases the life span and thermal monitoring of 
lithium-ion batteries. Compared with previous studies, this 
system is economical and has increased efficiency in lithium
ion battery systems. 

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Author Biography

  • Shujaat Ali, School of Electrical & Information Engineering, Tianjin University, Tianjin

    Shujaat Ali, is a dedicated researcher in the field of Electrical Engineering. In 2014, he earned his Bachelor degree in Electronic Engineering from Hamdard University, Karachi-Pakistan, showcasing early commitment to the field. Building on this foundation, Shujaat Ali pursued Master degree in Electrical Engineering at Hamdard University, Karachi-Pakistan, graduating in 2018. Currently, Shujaat Ali is furthering his academic journey by pursuing a Ph.D. Degree in Electrical Engineering at School of Electrical and Information Engineering (SEIE), Tianjin University, Tianjin. China. Shujaat's research focus revolves around the crucial area of Power Electronics and Renewable Energy, utilizing cutting-edge Electrical Machines and inverters models. His academic trajectory and research interests underscore a commitment to advancing knowledge and addressing contemporary challenges in the realm of electrical engineering, particularly in the context of Power Electronics and renewable energy systems.

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Published

2024-12-06

Issue

Vol. 1 No. 12 (2024): Dec 2024

Section

Engineering and Technology

License

Copyright (c) 2024 Shujaat Ali, Syed Saad Ali, Muzammil Ahmad Khan, Muhammad Muzzammil, Muhammad Faraz Khan, Khurram Iqbal, Syed Atir Iftikhar (Author)

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

ADVANCING LITHIUM-ION BATTERY MANAGEMENT: A PORTABLE ARDUINO-BASED HEALTHMONITORING SOLUTION. (2024). Kashf Journal of Multidisciplinary Research, 1(12), 1-10. https://kjmr.com.pk/index.php/kjmr/article/view/142

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