FUZZY-CONTROLLED BATTERY CHARGER STATE-OF-CHARGE CONTROLLER

N.A. Rahim, S. Mekhilef, E.L. Chan, and H.W. Ping

References

  1. [1] S.T. Hung, D.C. Hopkins, & C.R. Mashing, Extension of bat-tery life via charge equalization control, IEEE Trans. IndustrialElectronics, 40 (1), 1993, 96–104. doi:10.1109/41.184826
  2. [2] J.P. Nelson & W.D. Bolin, Basics and advances in batterysystems, IEEE Trans. Industry Applications, 31 (2), March–April 1995, 419–428. doi:10.1109/28.370294
  3. [3] D.C. Bandara, R. Ivanov, & S. Gishin, Intelligence fuzzycontrol for lead-acid battery charger, IEEE Int. Conf. Systems,Man and Cybernatics, 6, 1999, 185–189.
  4. [4] B.J. Masserant & T.A. Stuart, A maximum power transferbattery charger for electric vehicles, IEEE Trans. Aerospaceand Electronic Systems, 33 (3), 1997, 930–938. doi:10.1109/7.599313
  5. [5] Y.U. Qin & S.S. Du, A practical and low cost PWM bat-tery charger using fuzzy logic control for UPS application,Telecommunications Energy Conf., INTELEC, Vancouver, BC,Canada, 1994, 443–450.
  6. [6] G. Liping, J.Y. Hung, & R.M. Nelms, PID controller modifica-tions to improve steady-state performance of digital controllersfor buck and boost converters, 17th Annual IEEE AppliedPower Electronics Conf. and Exposition, Dallas, Texas, 2002,381–388. doi:10.1109/APEC.2002.989274
  7. [7] H. Panagopoulos, K.J. Astrom, & T. Hagglund, Design ofPID controllers based on constrained optimization, IEE Proc.Control Theory and Applications, 149 (1), 2002, 32–40. doi:10.1049/ip-cta:20020102
  8. [8] G.-C. Hsieh, L.-R. Chen, & K.-S. Huang, Fuzzy-controlled Li-ion battery charge system with active state-of-charge controller,IEEE Trans. Industrial Electronics, 48, 2001, 585–593. doi:10.1109/41.925585
  9. [9] Texas Instruments, Enhanced control of an alternating currentmotor using fuzzy logic and a TMS320 digital signal processor,Dallas, Texas, 1996.

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