The Effect of Half Wave Pulsed Current Charging on Age and Capacity Fade for Lithium-ion Batteries

The Effect of Half Wave Pulsed Current Charging on Age and Capacity Fade for Lithium-ion Batteries

This study proposes a new pulsed charging current technique to reduce aging and capacity losses in lithium-ion battery cells. The charging techniques developed to minimize aging and capacity losses are critical for battery cells with longer life cycles and higher energy efficiency. Continuous Curren...

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Bibliographic Details
Main Author: Muhammed Reşit ÇORAPSIZ
Format: Article
Language:English
Published: Bursa Technical University 2025-06-01
Series:Journal of Innovative Science and Engineering
Subjects:
li-ion batteries
continuous current – continuous voltage charging (cc-cv)
pulsed current charge (ppc)
life cycle
capacity fade.
Online Access:http://jise.btu.edu.tr/en/download/article-file/4566825
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Summary:This study proposes a new pulsed charging current technique to reduce aging and capacity losses in lithium-ion battery cells. The charging techniques developed to minimize aging and capacity losses are critical for battery cells with longer life cycles and higher energy efficiency. Continuous Current – Continuous Voltage charging (CC-CV), Positive Pulsed Current (PPC), and proposed Alternating Half Wave Pulsed Current (AHWPC) techniques were tested on a 12.8V-40Ah Li-ion battery. In PPC and AHWPC techniques, the pulse frequency of the charging current is chosen as f_(i_ch )=1 Hz. The average value of the charging current for PPC and AHWPC techniques is calculated based on the CC-CV technique. The aging and capacity losses caused by the three charging techniques in the battery were measured in five different scenarios: at various temperatures, different discharge currents, and different depths of discharge (DoD). Using the AHWPC technique, improvements of 45.93%, 46.57% and 46.29% were achieved in cell aging compared to the CC-CV technique at temperatures of 20°C, 30°C and 40°C, respectively. According to the results, the proposed AHWPC technique performed better than the PPC and CC-CV techniques in all test conditions.
ISSN:2602-4217

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