Active Battery Balancing for Battery Packs
DOI:
https://doi.org/10.2478/ecce-2013-0006Keywords:
Batteries, current control, power MOSFET, power dissipationAbstract
In electric vehicle applications, it is necessary to use series strings of batteries since the required voltage is higher than the one that can be obtained from a single battery. Due to several factors, imbalance of batteries in these battery systems is usual and an important factor that has to be taken into account. Many balancing methods have been developed with a lot of different advantages, but all of them also have a lot of disadvantages such as complexity and/or high cost, which are the common problems that can be found in most of these equalization methods. In the present work, a low cost and very simple equalization method is proposed, in which a novel control is applied to a shunting transistor topology. It allows the transistors to regulate the amount of current that goes through each battery cell in the string depending on their State of Charge (SOC), during the charging process. This control ensures that the least charged cells to be charged faster, and the most charged ones to be charged more slowly. Design criteria are discussed and simulation results are carried out in a generic battery low power application which proves the control method. Fast equalization with a low complexity and cost is obtainedReferences
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Uno, M.; Tanaka, K.; "Influence of High-Frequency Charge-Discharge Cycling Induced by Cell Voltage Equalizers on the Life Performance of Lithium-Ion Cells", IEEE Transactions on Vehicular Technology, vol.60, no.4, pp.1505-1515, May 2011
Kuhn, B.T.; Pitel, G.E.; Krein, P.T.; "Electrical properties and equalization of lithium-ion cells in automotive applications", IEEE Vehicle Power and Propulsion Conference, 2005, pp. 5, 7-9 Sept. 2005.
Broussely, M.; Perelle, M.; McDowall, J.; Sarre, G.; Martaeng, J; "Lithium ion: the next generation of long life batteries characteristics, life predictions, and integration into telecommunication systems", Telecommunications Energy Conference, 2000. INTELEC. Twentysecond International, pp.194-201, 2000.
Gottwald, T.; Ye, Z.; Stuart, T.; "Equalization of EV and HEV batteries with a ramp converter", IEEE Transactions on Aerospace and Electronic Systems, vol.33, no.1, pp.307-312, Jan. 1997.
Kutkut, N.H.; Wiegman, H.L.N.; Divan, D.M.; Novotny, D.W.; "Design considerations for charge equalization of an electric vehicle battery system", IEEE Transactions on Industry Applications, vol.35, no.1, pp.28-35, Jan/Feb 1999.
Hung, S.T.; Hopkins, D.C.; Mosling, C.R.; "Extension of battery life via charge equalization control", IEEE Transactions on Industrial Electronics, vol.40, no.1, pp.96-104, Feb 1993.
Krein, P.T.; Balog, R.S.; "Life extension through charge equalization of lead-acid batteries", Telecommunications Energy Conference, 2002. INTELEC. 24th Annual International, pp. 516- 523, 2002.
Hopkins, D.C.; Mosling, C.R.; Hung, S.T.; "Dynamic equalization during charging of serial energy storage elements", IEEE Transactions on Industry Applications, vol.29, no.2, pp.363-368, Mar/Apr 1993.
Bentley, W.F.; "Cell balancing considerations for lithium-ion battery systems", Battery Conference on Applications and Advances, 1997., Twelfth Annual, pp.223-226, 14-17 Jan 1997.
Jian Cao; Schofield, N.; Emadi, A.; "Battery balancing methods: A comprehensive review", Vehicle Power and Propulsion Conference, 2008. VPPC '08 IEEE, vol., no., pp.1-6, 3-5 Sept. 2008.
Daowd, M.; Omar, N.; Van Den Bossche, P.; Van Mierlo, J.; "Passive and active battery balancing comparison based on MATLAB simulation" IEEE Vehicle Power and Propulsion Conference (VPPC) 2011, pp.1-7, 6-9 Sept. 2011.
Kong Zhi-Guo; Zhu Chun-Bo; Lu Ren-Gui; Cheng Shu-Kang; "Comparison and Evaluation of Charge Equalization Technique for Series Connected Batteries", 37th IEEE Power Electronics Specialists Conference, 2006. PESC '06, pp.1-6, 18-22 June 2006.
Gallardo-Lozano, J.; Milanes-Montero, M.I.; Guerrero-Martinez, M.A.; Romero-Cadaval, E.; "Three-phase bidirectional battery charger for smart electric vehicles", 7th International Conference-Workshop Compatibility and Power Electronics (CPE) 2011, pp.371-376, 1-3 June 2011.
Gallardo Lozano, J; Milanés Montero, María Isabel; Guerrero Martínez, Miguel A.; Romero Cadaval, Enrique; "Electric Vehicle Battery Charger for Smart Grids". Electric Power Systems Research. Vol. 90, pp. 18-29, ISSN 0378-7796. Elsevier. Septiembre 2012.
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2013-04-01
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Copyright (c) 2013 Javier Gallardo-Lozano, Abdul Lateef, Enrique Romero-Cadaval, M. Isabel Milanés-Montero (Author)
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Gallardo-Lozano, J., Lateef, A., Romero-Cadaval, E., & Milanés-Montero, M. I. (2013). Active Battery Balancing for Battery Packs. Electrical, Control and Communication Engineering, 2(1), 40-46. https://doi.org/10.2478/ecce-2013-0006
