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Year 2021, Volume: 9 Issue: 4, 371 - 378, 30.10.2021
https://doi.org/10.17694/bajece.949956

Abstract

References

  • [1] Ericson R, Maksimovic D. Fundamentals of Power Electronics (2nd ed.), Norwell: Kluwer Academic Publisher; 2001. p. 161-165.
  • [2] Akbarabadi SA, Atighechi H, Jatskevich J. Circuit-averaged and state-space-averaged-value modeling of second order flyback converter in CCM and DCM including conduction losses. 4th International Conference on Power Engineering, Energy and Electrical Drives; 2013; Istanbul. p. 995-1000.
  • [3] Asadi F, Eguchi K. Dynamics and control of DC-DC converters, San Rafael: Morgan and Claypool; 2018. p. 89-145.
  • [4] Suntio T. Dynamic profile of switched mode converter: modeling, analysis and control. New Jersy: John Wiley & Sons. 2009. p. 17-37.
  • [5] Middlebrook RD, Cuk S. A general unified approach to modeling switching-converter power stages. Int. J. Electronics Theoretical and Experimental.1977.p. 521–550.
  • [6] Tymerski R, Vorperian V. Generation, classification and analysis of switched-mode DC-DC converters by the use of converter cells. Telecommunications Energy Conference. 1986. p. 181-195.
  • [7] Chen J, Ngo K.D.T. Alternate forms of the PWM switch model in discontinuous conduction mode. IEEE Trans. Aerosp. Electron. Syst. 2001.p. 754-758.
  • [8] Sun J, Mitchell DM, Greuel MF, Krein PT, Bass RM. Average modeling of PWM converters in discontinuous modes. IEEE Trans. Power Electron. 2001.p. 482–492.
  • [9] Cuk S, Middlebrook RD. A general unified approach in modeling switching DC-to-DC converters in discontinuous conduction mode. in Proc. IEEE Power Electronics Special Conf.1977. p. 36–57.
  • [10] Suntio T. Unified average and small-signal modeling of direct on-time control. IEEE Trans. Indust. Electron. 2006. p. 287–295.
  • [11] Maksimovic D, Stankovic AM, Tottuvelil VJ, Verghese GC. Modeling and simulation of power electronic converters. Proc. IEEE, vol. 89, no. 6. 2001. p. 898–912.
  • [12] Allmeling JH, Hammer WP. PLECS - piece-wise linear electrical circuit simulation for Simulink. Proceedings of the IEEE 1999 International Conference on Power Electronics and Drive Systems.1999. p. 355–360.

On the Dynamical Modelling of DC-DC Power Converters

Year 2021, Volume: 9 Issue: 4, 371 - 378, 30.10.2021
https://doi.org/10.17694/bajece.949956

Abstract

Computers play an important role in analyzing and designing of modern DC-DC power converters. This tutorial paper shows how the widely used analysis techniques of averaging and linearisation can be applied to DC-DC converters with the aid of computers. Obtained dynamical equations may then be used for control design.
This paper composed of two parts. First part shows how ready to use software packages (such as PLECS®) and MATLAB® programming can be used to obtain the converter dynamics. Second part of the paper introduces a user friendly MATLAB toolbox to extract the DC-DC converter dynamics. Developed toolbox can be used for educational and/or industrial purposes.
This paper can be a good reference for researchers involved in DC-DC converters dynamics and control.

References

  • [1] Ericson R, Maksimovic D. Fundamentals of Power Electronics (2nd ed.), Norwell: Kluwer Academic Publisher; 2001. p. 161-165.
  • [2] Akbarabadi SA, Atighechi H, Jatskevich J. Circuit-averaged and state-space-averaged-value modeling of second order flyback converter in CCM and DCM including conduction losses. 4th International Conference on Power Engineering, Energy and Electrical Drives; 2013; Istanbul. p. 995-1000.
  • [3] Asadi F, Eguchi K. Dynamics and control of DC-DC converters, San Rafael: Morgan and Claypool; 2018. p. 89-145.
  • [4] Suntio T. Dynamic profile of switched mode converter: modeling, analysis and control. New Jersy: John Wiley & Sons. 2009. p. 17-37.
  • [5] Middlebrook RD, Cuk S. A general unified approach to modeling switching-converter power stages. Int. J. Electronics Theoretical and Experimental.1977.p. 521–550.
  • [6] Tymerski R, Vorperian V. Generation, classification and analysis of switched-mode DC-DC converters by the use of converter cells. Telecommunications Energy Conference. 1986. p. 181-195.
  • [7] Chen J, Ngo K.D.T. Alternate forms of the PWM switch model in discontinuous conduction mode. IEEE Trans. Aerosp. Electron. Syst. 2001.p. 754-758.
  • [8] Sun J, Mitchell DM, Greuel MF, Krein PT, Bass RM. Average modeling of PWM converters in discontinuous modes. IEEE Trans. Power Electron. 2001.p. 482–492.
  • [9] Cuk S, Middlebrook RD. A general unified approach in modeling switching DC-to-DC converters in discontinuous conduction mode. in Proc. IEEE Power Electronics Special Conf.1977. p. 36–57.
  • [10] Suntio T. Unified average and small-signal modeling of direct on-time control. IEEE Trans. Indust. Electron. 2006. p. 287–295.
  • [11] Maksimovic D, Stankovic AM, Tottuvelil VJ, Verghese GC. Modeling and simulation of power electronic converters. Proc. IEEE, vol. 89, no. 6. 2001. p. 898–912.
  • [12] Allmeling JH, Hammer WP. PLECS - piece-wise linear electrical circuit simulation for Simulink. Proceedings of the IEEE 1999 International Conference on Power Electronics and Drive Systems.1999. p. 355–360.
There are 12 citations in total.

Details

Primary Language English
Subjects Electrical Engineering
Journal Section Araştırma Articlessi
Authors

Farzin Asadi 0000-0002-5928-0807

Publication Date October 30, 2021
Published in Issue Year 2021 Volume: 9 Issue: 4

Cite

APA Asadi, F. (2021). On the Dynamical Modelling of DC-DC Power Converters. Balkan Journal of Electrical and Computer Engineering, 9(4), 371-378. https://doi.org/10.17694/bajece.949956

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