This work is licensed under the Creative Commons Attribution 4.0 International License.
T. B. Reddy and D. Linden, Eds., ”Linden’s Handbook of Batteries,” 4th ed. McGraw-Hill Professional, 2011.Search in Google Scholar
P. M. Hunter, ”VRLA battery float charge: Analysis and optimisation,” Ph.D. dissertation, Univ. Canterbury, Christchurch, New Zealand, 2003.Search in Google Scholar
Y. S. Wong, W. G. Hurley and W. H. Wolfle, ”Charge regime for valve-regulated lead-acid batteries: Performance overview inclusive of temperature compensation,” J. Power Sources, 183 (2008) 783–791.Search in Google Scholar
E. Rossinot, C. Lefrou, F. Dalard and J. P. Cun, ”Batteries in standby applications: comparison of alternate mode versus floating,” J. Power Sources, 101 (2001) 27–34.Search in Google Scholar
M. Bhatt, W. G. Hurley and W. H. Wolfle, ”A New Approach To Intermittent Charging of Valve-Regulated Lead-Acid Batteries in Standby Applications,” Industrial Electronics Magazine, IEEE Transaction on, vol. 52, pp. 1337–1342, 2005.Search in Google Scholar
P. Waltari, T. Suntio, A. Tenno and R. Tenno, ”The Effects of Intermittent Charging on VRLA Battery Life Expectancy in Telecom Application,” Proceedings of 24th International Telecommunications Energy Conference (INTELEC), pp. 121–127, 2002.Search in Google Scholar
Y. S. Wong, W. G. Hurley and W. H. Wolfle, “Temperature Compensation Algorithm for Interrupted Charge Control Regime for a VRLA Battery in Standby Applications,” Proceedings of IEEE Applied Power Electronics Conference and Exposition (APEC 2008), pp. 1278–1283, 2008.Search in Google Scholar
J. Yan, G. Xu, H. Qian and Y. Hu, ”Battery Fast Charging Strategy Based on Model Predictive Control,” 72nd Vehicular Technology Conference, 2010 IEEE, pp. 1–8, 2010.Search in Google Scholar
E. M. Valeriote, J. Nor and V. A. Ettel, Proceedings of the 5th International Lead-Acid Battery Seminar, International Lead Zinc Research Organization (ILZRO), Inc., Research Triangle Park, NC, USA, pp. 93–122, 1991.Search in Google Scholar
F. A. Fleming, P. Shumard and B. Dickinson, ”Rapid recharge capability of valve-regulated lead-acid batteries for electric vehicle and hybrid electric vehicle applications,” J. Power Sources, 78 (1999) 237–243.Search in Google Scholar
M. Torchio, N. A. Wolff, D. M. Raimondo, L. Magni, U. Krewer, R. B. Gopaluni, J. A. Paulson and R. D. Braats, ”Real-Time Model Predictive Control for the Optimal Charging of a Lithium-ion Battery,” Proceedings of American Control Conference (ACC), 2015, 4536-4541, 2015.Search in Google Scholar
F. J. Vaccaro, J. Rhoades and B. Le, ”VRLA battery temperature concerns other than just thermal runway. I. Practical considerations,” Proceedings of 18th International Telecommunications Energy Conference (INTELEC), pp. 39–44, 1996.Search in Google Scholar
G. Kujundzic, M. Vasak, J. Matusko: Estimation of
VRLA Battery States and Parameters using Sigma-point Kalman Filter, 2015 International Conference on Electrical Drives and Power Electronics (EDPE) The High Tatras, 21-23 Sept. 2015.Search in Google Scholar
G. Kujundzic, S. Iles, J. Matusko and M. Vasak, ”Optimal charging of valve-regulated lead-acid batteries based on model predictive control,” Applied Energy, Elsevier, vol. 187(C) , pages 189-202, 2017.Search in Google Scholar
E. K. P. Chong and S. H. Zak, ”An Introduction to Optimization,” 2th ed. A Wiley-Interscience Publication, John Wiley&Sons Inc., pp. 187–217, 2001.Search in Google Scholar
E. Boisvert, ”Using Float Charging Current Measurement to Prevent Thermal Runaway on VRLA Batteries,” 23rd International Telecommunication Energy Conference, Edinburgh INTELEC 2001, pp. 126–131, 2001.Search in Google Scholar
