Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles
This study investigates the efficacy of variable pulse charging (VPC) on charging 18,650 secondary battery packs (12 V, 20 Ah) with NMC chemistry. VPC, a modern technique applied to secondary battery charging, aims to mitigate effects like a thermal runaway and thermal propagation caused by increase...
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my.uniten.dspace-362352025-03-03T15:41:39Z Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles Oruganti K.S.P. Vaithilingam C.A. Ramasamy A. 57209333413 24831942700 16023154400 State of charge % reductions Battery chargers Battery pack Electrochemical impedance spectroscopy Electrochemical-impedance spectroscopies EV charger Pulse charger Pulse charging Reduction in charging temperature Variable pulse charging This study investigates the efficacy of variable pulse charging (VPC) on charging 18,650 secondary battery packs (12 V, 20 Ah) with NMC chemistry. VPC, a modern technique applied to secondary battery charging, aims to mitigate effects like a thermal runaway and thermal propagation caused by increased charging temperature. VPC involves varied duty factors (10 % to 90 %), charging rates (0.5C, 1C, 1.5C), and an optimal switching frequency determined through frequency response analysis. Its digital model is based on in situ electrochemical impedance spectroscopy measurements and MATLAB/Simulink simulations. At charging rates of 0.5C (10 A), 1C (20 A), and 1.5C (30 A), the temperature of the battery pack reaches 42.46 �C, 57.87 �C, and 70.37 �C, respectively. However, implementing VPC at a 50 % duty factor yields temperature reductions of 3.66 �C, 5.06 �C, and 5.42 �C, respectively. Similarly, employing VPC at a 10 % duty cycle results in temperature reductions of 11.2 �C, 17.7 �C, and 19.1 �C, respectively. The results indicate a significant reduction in charging temperature compared to constant current charging. Furthermore, the 1C condition is validated using a custom-made dual active bridge DC-DC variable pulse charger. In conclusion, applying optimal frequency-based VPC with specific duty factors demonstrates the potential to reduce temperature elevation during battery pack charging significantly. ? 2024 Elsevier Ltd Final 2025-03-03T07:41:39Z 2025-03-03T07:41:39Z 2024 Article 10.1016/j.est.2024.113919 2-s2.0-85204891123 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85204891123&doi=10.1016%2fj.est.2024.113919&partnerID=40&md5=9cd656a1d1885eabaf7461a6539433e1 https://irepository.uniten.edu.my/handle/123456789/36235 101 113919 Elsevier Ltd Scopus |
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State of charge % reductions Battery chargers Battery pack Electrochemical impedance spectroscopy Electrochemical-impedance spectroscopies EV charger Pulse charger Pulse charging Reduction in charging temperature Variable pulse charging |
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State of charge % reductions Battery chargers Battery pack Electrochemical impedance spectroscopy Electrochemical-impedance spectroscopies EV charger Pulse charger Pulse charging Reduction in charging temperature Variable pulse charging Oruganti K.S.P. Vaithilingam C.A. Ramasamy A. Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
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This study investigates the efficacy of variable pulse charging (VPC) on charging 18,650 secondary battery packs (12 V, 20 Ah) with NMC chemistry. VPC, a modern technique applied to secondary battery charging, aims to mitigate effects like a thermal runaway and thermal propagation caused by increased charging temperature. VPC involves varied duty factors (10 % to 90 %), charging rates (0.5C, 1C, 1.5C), and an optimal switching frequency determined through frequency response analysis. Its digital model is based on in situ electrochemical impedance spectroscopy measurements and MATLAB/Simulink simulations. At charging rates of 0.5C (10 A), 1C (20 A), and 1.5C (30 A), the temperature of the battery pack reaches 42.46 �C, 57.87 �C, and 70.37 �C, respectively. However, implementing VPC at a 50 % duty factor yields temperature reductions of 3.66 �C, 5.06 �C, and 5.42 �C, respectively. Similarly, employing VPC at a 10 % duty cycle results in temperature reductions of 11.2 �C, 17.7 �C, and 19.1 �C, respectively. The results indicate a significant reduction in charging temperature compared to constant current charging. Furthermore, the 1C condition is validated using a custom-made dual active bridge DC-DC variable pulse charger. In conclusion, applying optimal frequency-based VPC with specific duty factors demonstrates the potential to reduce temperature elevation during battery pack charging significantly. ? 2024 Elsevier Ltd |
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57209333413 |
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57209333413 Oruganti K.S.P. Vaithilingam C.A. Ramasamy A. |
| format |
Article |
| author |
Oruganti K.S.P. Vaithilingam C.A. Ramasamy A. |
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Oruganti K.S.P. |
| title |
Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| title_short |
Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| title_full |
Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| title_fullStr |
Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| title_full_unstemmed |
Investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| title_sort |
investigating the effects of variable pulse charging on temperature during charging of battery electric vehicles |
| publisher |
Elsevier Ltd |
| publishDate |
2025 |
| _version_ |
1825816168984739840 |
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13.244109 |