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Abstrakty
In this work, a state-space model and control of a DC-DC Buck converter, considering a continuous operating, are presented. A PID controller is considered in the strategy, that considers a low pass filter in the derivative term. The proposed model is validated by comparing it with a switched model. The PID gains are obtained by the Ziegler-Nichols method. In order to improve the system’s performance considering an environment containing high-frequency noises, the modified PID controller is implemented with several configurations.
Wydawca
Rocznik
Tom
Strony
25--32
Opis fizyczny
Bibliogr. 24 poz., fig., tab.
Twórcy
- Federal Institute of Paraná, Brazil
autor
- Federal Institute of Paraná, Brazil
- Federal Institute of Paraná, Brazil
- Federal Institute of Paraná, Brazil
- Goiás Federal Institute, Brazil
Bibliografia
- [1] N. Mohan and M. P. E. R. & Education, First Course on Power Electronics and Drives. MNPERE, 2003.
- [2] B.K. Bose, “Power electronics-a technology review,” Proc. IEEE, 1992, doi: 10.1109/5.158603.
- [3] R.B. Ridley, “A New, Continuous-Time Model For Current-Mode Control,” IEEE Trans. Power Electron., 1991, doi: 10.1109/63.76813.
- [4] N. Mohan, T.M. Undeland, and W. P. Robbins, Power electronics: converters, applications, and design, no. v. 1. John Wiley & Sons, 2003.
- [5] R.W. Erickson, “DC–DC Power Converters,” in Wiley Encyclopedia of Electrical and Electronics Engineering, American Cancer Society, 2007.
- [6] E. Van Dijk, J.N. Spruijt, D.M. O’Sullivan, and J.B. Klaassens, “PWM-switch modeling of DC-DC converters,” IEEE Trans. Power Electron., vol. 10, no. 6, pp. 659-665, 1995, doi: 10.1109/63.471285.
- [7] R.D. Middlebrook and S. Cuk, “A general unified approach to modelling switching-converter power stages,” in 1976 IEEE Power Electronics Specialists Conference, 1976, pp. 18-34, doi: 10.1109/PESC.1976.7072895.
- [8] S. Buso, “Design of a robust voltage controller for a buck-boost converter using /spl mu/-synthesis,” IEEE Trans. Control Syst. Technol., vol. 7, no. 2, pp. 222-229, 1999, doi: 10.1109/87.748148.
- [9] C.K. Tse and K.M. Adams, “Quasi-linear modeling and control of DC-DC converters,” IEEE Trans. Power Electron., vol. 7, no. 2, pp. 315-323, 1992, doi: 10.1109/63.136248.
- [10] A.J. Forsyth and S.V. Mollov, “Modelling and control of DC-DC converters,” Power Eng. J., vol. 12, no. 5, pp. 229-236, 1998, doi: 10.1049/pe:19980507.
- [11] S. Seshagiri, E. Block, I. Larrea, and L. Soares, “Optimal PID design for voltage mode control of DC-DC buck converters,” in 2016 Indian Control Conference (ICC), Jan. 2016, pp. 99-104, doi: 10.1109/INDIANCC.2016.7441112.
- [12] D.E. Rivera, M. Morari, and S. Skogestad, “Internal model control: PID controller design,” Ind. Eng. Chem. Process Des. Dev., vol. 25, no. 1, pp. 252-265, Jan. 1986, doi: 10.1021/i200032a041.
- [13] J.G. Ziegler and N.B. Nichols, “Optimum Settings for Automatic Controllers,” J. Dyn. Syst. Meas. Control, vol. 115, no. 2B, pp. 220-222, 1993, doi: 10.1115/1.2899060.
- [14] C.C. Hang, K.J. Astrom, and W. K. Ho, “Refinements of the Ziegler-Nichols tuning formula,” IEE Proc. D - Control Theory Appl., vol. 138, no. 2, pp. 111-118, 1991, doi: 10.1049/ip-d.1991.0015.
- [15] S. Agrawal, V. Kumar, K. P. S. Rana, and P. Mishra, “Optimization of PID controller with first order noise filter,” in 2015 International Conference on Futuristic Trends on Computational Analysis and Knowledge Management (ABLAZE), 2015, pp. 226-231, doi: 10.1109/ABLAZE.2015.7154996.
- [16] K.J. Äström and T. Hägglund, Advanced PID control. Research Triangle Park, NC: ISA-The Instrumentation, Systems, and Automation Society, 2006.
- [17] A. O’Dwyer, Handbook of PI and PID controller tuning rules, 3rd ed. Covent Garden, London: Imperial College Press, 2009.
- [18] M.A. Johnson et al., PID control: New identification and design methods. London: Springer-Verlag, 2005.
- [19] J.G. Ziegler and N.B. Nichols, “Optimum Settings for Automatic Controllers,” The American Society of Mechanical Engineers (ASME), vol. 64, pp. 759-768, 1942.
- [20] M.R. Modabbernia, “An improved state space average model of buck DC-DC converter with all of the system uncertainties,” Int. J. Electr. Eng. Informatics, 2013, doi: 10.15676/ijeei.2013.5.1.8.
- [21] M.D.H. Almawlawe, D. Mitic, M. Milojković+, D. Antic, and Z. Icić+, “Quasi-Sliding Mode Based Generalized Minimum Variance Control of DC-DC Boost Converter,” 2014.
- [22] E. Rogers, “Understanding Buck-Boost Power Stages in Switch Mode Power Supplies,” 1999.
- [23] V.S.C. Raviraj and P.C. Sen, “Comparative study of proportional-integral, sliding mode, and fuzzy logic controllers for power converters,” IEEE Trans. Ind. Appl., vol. 33, no. 2, pp. 518-524, 1997, doi: 10.1109/28.568018.
- [24] H. Abaali, “Design Modelling Control and Simulation of DC/DC Power Buck Converter,” Int. J. Energy Power Eng., vol. 9, pp. 1229-1235, 2016.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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