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Takagi-Sugeno Fuzzy Model-Based Approach to Robust Control of Boost DC-DC Converters
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 Title & Authors
Takagi-Sugeno Fuzzy Model-Based Approach to Robust Control of Boost DC-DC Converters
Seo, Sang-Wha; Choi, Han Ho; Kim, Yong;
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This paper considers the robust controller design problem for a boost DC-DC converter. Based on the Takagi-Sugeno fuzzy model-based approach, a fuzzy controller as well as a fuzzy load conductance observer are designed. Sufficient conditions for the existence of the controller and the observer are derived using Linear Matrix Inequalities (LMIs). LMI parameterizations of the gain matrices are obtained. Additionally, LMI conditions for the existence of the fuzzy controller and the fuzzy load observer guaranteeing α-stability, quadratic performance are derived. The exponential stability of the augmented fuzzy observer-controller system is shown. It is also shown that the fuzzy load observer and the fuzzy controller can be designed independently. Finally, the effectiveness of the proposed method is verified via experimental and simulation results under various conditions.
Boost converter;Fuzzy system;Fuzzy controller;Fuzzy observer;Robust control;Uncertainty;
 Cited by
H. Sira-Ramirez, R.A. Perez-Moreno, R. Ortega, M. and Garcia-Esteban, “Passivity-based controllers for the stabilization of Dc-to-Dc Power converters,” Automatica, vol. 33, pp. 499-513, 1997 crossref(new window)

G. Escobar, R. Ortega, H. Sira-Ramirez, J.-P. Vilain, and I. Zein, “An experimental comparison of several nonlinear controllers for power converters,” IEEE Control Systems Magazine, vol. 19, pp. 66-82, 1999 crossref(new window)

H. Sira-Ramirez, “On the generalized PI sliding mode control of DC-to-DC power converters: a tutorial,” Int. J. Control, vol. 76, pp. 1018-1033, 2003 crossref(new window)

S.-C. Tan, Y.M. Lai, and C.K. Tse, “A unified approach to the design of PWM-based sliding mode voltage controllers for basic DC-DC converters in continuou conduction mode,” IEEE Trans. Circuits and Systems-I, vol. 53,pp. 1816-1827, 2006 crossref(new window)

V. Utkin, J. Guldner, and J. Shi, Sliding Mode Control in Electromechanical Systems, PA : Taylor & Francis, 1999

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 Trans. Power Electronics, vol. 21, no. 1, pp. 182-192, 2006 crossref(new window)

S.H. Moon, S.-T. Jou, and K.-B. Lee, “Performance improvement of a bidirectional DC-DC converter for battery chargers using an LCLC filter,” J.Electr. Eng. Technol., vol. 10, pp. 560-573, 2015 crossref(new window)

T.A. Johansen, R. Shorten, and R. Murray-smith, “On the interpretation and identification of dynamic Takagi-Sugeno fuzzy models,” IEEE Trans. Fuzzy Syst., vol. 8, 297-313, 2000 crossref(new window)

P.C. Babu, S.S. Dash, C. Subramani, and S.H. Kiran, “An efficient control strategy based multi converter UPQC using with fuzzy logic controller for power quality problems,” J. Electr. Eng. Technol., vol. 10, pp. 379-387, 2015 crossref(new window)

T. Tagaki and M. Sugeno, “Fuzzy identification of systems aand its applications to modeling and control,” IEEE Trans. Syst., Man, Cybern., vol. 15, pp. 116-132, 1985

H.-S. Ro, K.-G. Lee, J.-S. Lee, H.-G. Jeong, and K.-B. Lee, “Torque ripple minimization scheme using torque sharing function based fuzzy logic control for a switched reluctance motor,” J. Electr. Eng. Technol., vol. 10, pp. 118-127, 2015 crossref(new window)

H.H. Choi, “LMI-based nonlinear fuzzy observer-controller design for uncertain MIMO nonlinear systems,” IEEE Trans. Fuzzy Syst., vol. 15, pp. 956-971, 2007 crossref(new window)

W.-C. So, C.K. Tse, and Y.-S. Lee, “Development of a fuzzy logic controller for DC-DC converters design, computer simulation, and experimental evaluation,” IEEE Trans. Power Electronics, vol. 11, pp. 24-32, 1996 crossref(new window)

P. Mattavelli, L. Rossetto, G. Spiazzi, and P. Tenti, “General-purpose fuzzy controller for DC-Dc converters,” IEEE Trans. Ind. Electron., vol. 44, pp. 661-669, 1997 crossref(new window)

B. Sun and Z. Gao, “A DSP-based active disturbance rejection control design for a 1-kW H-bridge DC.DC power converter,” IEEE Trans. Ind. Electron., vol. 52, no. 5, pp. 1271.1277, Oct. 2005

Z. Z. Ye and M. M. Jovanovic, “Implementation and performance evaluation of DSP-based control for const-frequency discontinuous conduction- mode antboost PFC front end,” IEEE Trans. Ind. Electron., vol. 52, no. 1, pp. 98.107, Feb. 2005 crossref(new window)

A.G. Perry, G. Feng, Y.-F. Liu, and P.C. Sen, “A design method for PI-like fuzzy logic controller for DC-DC converter,” IEEE Trans. Ind. Electron., vol. 54, no. 5, pp. 345-355, 2007

T. Gupta, R.R. Boudreaux, R.M. Nelms, and J.Y. Hung, “Implementation of a fuzzy controller for DC-DC converters using an inexpensive 8-b microcontroller,” IEEE Trans. Power Eletronics, vol. 12, pp. 79-86, 1997 crossref(new window)

S. Boyd, L. E1 Ghaoui, E. Feron, and V. Balakrishnan, Linear Matrix Inequalities in System and Control Theory, PA : SIAM, 1994

M.K. Kazimierczuk, and A. Massarini, “Feedforward control of DC-DC PWM boost converter,” IEEE Trans. Circuits and Systems-I, vol. 44, no. 2, pp. 143-148, 1997

Hwang Tai-Sik, M.J. Tarca, and Park Sung-Yeul, “Dynamic Response Analysis of DC-DC Converter With Supercapacitor for Direct Borohydride Fuel Cell Power Conditioning System,” the 8th International Conf. on Power Electronics, pp. 2304-2311, May 2011.