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A Road Map for Li-Ion Battery Charger based on Charging Time, Battery Life and Safety
Technical Paper
2016-28-0150
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The relevance of Hybrid electrical vehicle (HEV) / Electrical vehicles (EV) is seen as never before due to global call for the reduction in carbon foot print. In such a scenario HEV/EV has a greater role to play. But as years pass by there are still a few technological challenges which makes the automotive world a bit skeptical about the immediate and complete take over by HEV/EV. As of now Li-ion cells are the front runner as a favorite to various automotive OEM’s as the stored energy source. The average time required to charge a Li-ion based vehicle ranges from 4-6 hours [Table 1].This paper analyses different charging methods/configurations based on different approaches in literatures based on three critical parameters namely charging time, battery life and safety.
Citation
Musaliyarakam, N., "A Road Map for Li-Ion Battery Charger based on Charging Time, Battery Life and Safety," SAE Technical Paper 2016-28-0150, 2016, https://doi.org/10.4271/2016-28-0150.Also In
References
- Nishi Y. , Katayama K. , Shigetomi J. , and Horie H. The development of lithium-ion secondary battery systems for EV and HEV Proc. Thirteenth Annual. Battery Conf. Applications and Advances 31 36 13 16 Jan 1998
- Saint-Pierre Roland A dynamic voltage-compensation technique for reducing charge time in lithium-ion batteries The Fifteenth Annual Battery Conference on Applications and Advances 179 184 11 Jan 2000 14 Jan 2000
- Lin Chia-Hsiang , Huang Hong-Wei , Chen Ke-Horng Built-in Resistance Compensation (BRC) Technique for Fast Charging Li-Ion Battery Charger IEEE 2008 Custom Integrated Circuits Conference (CICC) 33 36 21 24 Sept. 2008
- Lin Chang-Hua , Hung Min-Hsuan , Wang Chien-Ming , Ho Chien-Yeh , Design and Implementation of a Fast Charger with SOC estimation Technique for LiCoO2 Battery TENCON 2013 - 2013 IEEE Region 10 Conference (31194) 1 4 22 25 Oct. 2013
- Hadi A. , Said I. , Mansor M. , Hussain H. , Fast Charger for Li-ion Batteries Based on Battery Temperature Clean Energy and Technology (CEAT) 2014, 3rd IET International Conference 1 6 24 26 Nov. 2014
- Huang Jia-Wei , Liu Yi-Hua , Wang Shun-Chung , Yang Zong-Zhen Fuzzy-Control-Based Five-Step Li-Ion Battery Charger Power Electronics and Drive Systems, 2009. PEDS 2009. International Conference 1547 1551 2 5 Nov. 2009
- Hsieh Guan-Chyun Fuzzy-Controlled Li-Ion Battery Charge System with Active state of charge controller Industrial Electronics, IEEE Transactions on 48 3 585 593 Jun 2001
- Chen L. R. , Wu C. H. , Sinusoidal Ripple Current Charging System with PLL Function IEEE 23rd international Symposium on Industrial Electronics (ISIE) 1836 1841 1 4 June 2014
- Chen Liang-Rui , Wu Shing-Lih , Chou Chung-Ping , Chen Tsair-Rong Design of Sinusoidal Current Charger with Optimal Frequency Tracker for Li-ion Battery 2010 International Power Electronics Conference (IPEC) 1484 1489 21 24 June 2010