FREQUENCY DOMAIN APPROACH FOR SLIDING MODE CONTROL OF DC–DC BUCK CONVERTER

Sumant G. Kadwane

References

  1. [1] V. Ramanarayanan, Sliding mode control of power converters, Doctoral Dissertation, California Institute of Technology, Pasadena, CA, 1986.
  2. [2] S.C. Tan, Y.M. Lai, C.K. Tse, and M.K.H. Cheung, On the practical design of a sliding mode voltage controlled buck converter, IEEE Transactions on Power Electronics, 20(2), 2005, 425–436.
  3. [3] Y. He and F.L. Luo, Sliding-mode control for DC–DC converters with constant switching frequency, IEE Proc. Control Theory Applications, 153(1), 2006, 37–45.
  4. [4] A.G. Perry, G. Feng, Y. Fei, and P.C. Sen, A design method for PI like fuzzy logic controllers for DC–DC converter, IEEE Transactions on Industrial Electronics, 54(5), 2007, 2688–2696.
  5. [5] S.C. Tan, Y.M. Lai, C.K. Tse, and M.K.H. Cheung, A fixedfrequency pulsewidth modulation based quasi-sliding-mode controller for buck converter, IEEE Transactions on Power Electronics, 20(6), 2005, 1379–1392.
  6. [6] S.C. Tan, Y.M. Lai, and C.K. Tse, Indirect sliding mode control of power converters via double integral sliding surface, IEEE Transactions on Power Electronics, 23(2), 2008, 600–611.
  7. [7] I.J. Nagrath and M. Gopal, Automatic control system engineering, 3rd ed. (New Delhi: New Age International, 2003), 742–756.
  8. [8] I. Boiko and L. Fridman, Frequency domain input-output analysis of sliding mode observers, Proc. of the 2006 American Control Conf., Minneapolis, MN, USA, 2006, 2628–2633.
  9. [9] I. Boiko, Analysis of closed-loop performance and frequencydomain design of compensating filters for sliding mode control systems, IEEE Transactions on Automatic Control, 52(10), 2007, 1882–1891. 107
  10. [10] R. Gupta, Frequency domain characterization of sliding mode control of an inverter used in DSTATCOM application, IEEE Transactions on Circuits and Systems-I, 53(3), 2006, 662–676.
  11. [11] R.D. Middlebrook and S. Cuk, A general unified approach to modeling switching converter power stages, IEEE Power Electronics Specialists Conf., 1976 Record, 18–34.
  12. [12] T.F. Wu and Y.K. Chen, Modeling PWM DC/DC converters out of basic converter unit, IEEE Transactions on Power Electronics, 13(5), 1998, 870–881.
  13. [13] N. Mohan, T.M. Undeland, and W.P. Robbins, Power electronics converters applications and design (New York: John Wiley & Sons, 2003), 231–303.
  14. [14] S.C. Tan, Y.M. Lai, C.K. Tse, and M.K.H. Cheung, Adaptive feedforward and feedback control schemes for sliding mode controlled power converters, IEEE Transactions on Power Electronics, 21(1), 2006, 182–192.
  15. [15] C.F. Hsu, I.F. Chung, C.M. Lin, and C.Y. Hsu, Self-regulating fuzzy control for forward DC–DC converters using an 8-bit microcontroller, IET Power Electronics, 2(1), 2009, 1–13.
  16. [16] K.H. Cheng, C.F. Hsu, C.M. Lin, T. Lee, and C. Li, Fuzzy neural sliding-mode control for DC–DC converters using asymmetric gaussian membership functions, IEEE Transactions on Industrial Electronics, 54(3), 2007, 1528–1536.
  17. [17] S.G. Kadwane, S. Gupta, A. Kumar, B.M. Karan and T. Ghose, Practical implementation of sliding mode like control for DC– DC converter, International Journal of Intelligent Control Systems, 3(36), 2008, 260–265.
  18. [18] H.K. Khalil, Nonlinear systems, 2nd ed. (Upper Saddle River, NJ: Prentice Hall, 1996), 440–468.
  19. [19] D.P. Atherton, Nonlinear control engineering (London & New York: Van Nostrand Reinhold Co., full ed. 1975, student ed. 1982).
  20. [20] A. Gelb and W.E. Vander Velde, Multiple-input describing functions and nonlinear system design (New York: McGrawHill Book Co., 1968).
  21. [21] M.-C. Pai, Dynamic output feedback sliding mode control for uncertain systems with state and input delays, International Journal of Intelligent Control Systems, 1(36), 2008, 189–201.
  22. [22] Z. Chen, W. Gao, and X. Ye, Frequency domain closed-loop analysis and sliding mode control of a non-minimum phase buck–boost converter, International Journal of Intelligent Control Systems, 1(38), 2010, 201–223.

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