An Analytical Comparison between Open Loop, PID and Fuzzy Logic Based DC-DC Boost Convertor
This paper explains about the voltage output for DC to
DC boost converter between open loop, PID controller and fuzzy
logic controller through Matlab Simulink. Simulink input voltage was
set at 12V and the voltage reference was set at 24V. The analysis on
the deviation of voltage resulted that the difference between reference
voltage setting and the output voltage is always lower. Comparison
between open loop, PID and FLC shows that, the open loop circuit
having a bit higher on the deviation of voltage. The PID circuit
boosts for FLC has a lesser deviation of voltage and proved that it is
such a better performance on control the deviation of voltage during
the boost mode.
[1] Rashid, M.H. (2004). Power Electronics —Circuits, Devices, and
Applications. Pearson, Prentice Hall. London.
[2] Alvarez-Ramirez, J., Cervantes, I., Espinosa-Perez, G., Maya, P., &
Morales, A. (2001). A stable design of PI control for DC-DC converters
with an RHS zero. Circuits and Systems I: Fundamental Theory and
Applications, IEEE Transactions on, 48(1), 103-106.
[3] Ozdemir, E.; Ural, A.; Abut, N.; Karakas, E.; Olcer, E.; Karagoz, B.;
(1997): Design of fuzzy logic controller for DC-DC converter fed
traction motor Drives Intelligent Control, Proceedings of the 1997 IEEE
International Symposium.
[4] Jantzen, J. (2007). Foundations of Fuzzy Control. West Sussex PO19
8SQ, England: John Wiley & Sons Ltd.
[5] Adel E. El-kholy and A. M. Dabroom, (2006): Adaptive Fuzzy Logic
Controllers for DC Drives: A Survey of the State of the art, Journal of
Electrical Systems, pp. 116-145.
[6] J.-S. Roger Jang, (1997): Fuzzy Logic Toolbox User’s Guide
COPYRIGHT 1984 - 1997 by The MathWorks, Inc. All Rights
Reserved Cheng- Yuan Liou and Yen-Ting Kuo.
[7] Collofello, J.S., et al. Using Software Process Simulation to Assist
Software Development Organizations in Making Good Enough Quality
Decisions. Summer Computer Simulation Conference, 1998 (SCSC98).
[8] Asad, E. M. M., Hassan, R. B., Sherwani, E. F.,(2014) FPTV, U. T. H.
O. M., & Malaysia, P. R. B. P. J. Implementation And Qualities Of Multimedia Technologies In Technical and Vocational Education.
Academ Arena, Marsland Press USA.
[9] H. Pinheiro, A. Martins, and J. Pinheiro, "Single-phase voltage inverters
controlled by sliding mode", Proc. Brazilian Automatic Control Conf.
(CBA',94), pp.1177 -1182
[10] L. Malesani, L. Rossetto, G. Spiazzi, and P. Tenti, "Performance
optimization of Cuk converter by sliding mode control", Proc.
Applications Power Electronic Conf. (APEC',92), pp.395 -402
[11] Asad, E. M. M., Hassan, R. B., & Sherwani, E. F. Instructional Models
For Enhancing The Performance Of Students And Workforce During
Educational Training. Marsland Press USA.
[1] Rashid, M.H. (2004). Power Electronics —Circuits, Devices, and
Applications. Pearson, Prentice Hall. London.
[2] Alvarez-Ramirez, J., Cervantes, I., Espinosa-Perez, G., Maya, P., &
Morales, A. (2001). A stable design of PI control for DC-DC converters
with an RHS zero. Circuits and Systems I: Fundamental Theory and
Applications, IEEE Transactions on, 48(1), 103-106.
[3] Ozdemir, E.; Ural, A.; Abut, N.; Karakas, E.; Olcer, E.; Karagoz, B.;
(1997): Design of fuzzy logic controller for DC-DC converter fed
traction motor Drives Intelligent Control, Proceedings of the 1997 IEEE
International Symposium.
[4] Jantzen, J. (2007). Foundations of Fuzzy Control. West Sussex PO19
8SQ, England: John Wiley & Sons Ltd.
[5] Adel E. El-kholy and A. M. Dabroom, (2006): Adaptive Fuzzy Logic
Controllers for DC Drives: A Survey of the State of the art, Journal of
Electrical Systems, pp. 116-145.
[6] J.-S. Roger Jang, (1997): Fuzzy Logic Toolbox User’s Guide
COPYRIGHT 1984 - 1997 by The MathWorks, Inc. All Rights
Reserved Cheng- Yuan Liou and Yen-Ting Kuo.
[7] Collofello, J.S., et al. Using Software Process Simulation to Assist
Software Development Organizations in Making Good Enough Quality
Decisions. Summer Computer Simulation Conference, 1998 (SCSC98).
[8] Asad, E. M. M., Hassan, R. B., Sherwani, E. F.,(2014) FPTV, U. T. H.
O. M., & Malaysia, P. R. B. P. J. Implementation And Qualities Of Multimedia Technologies In Technical and Vocational Education.
Academ Arena, Marsland Press USA.
[9] H. Pinheiro, A. Martins, and J. Pinheiro, "Single-phase voltage inverters
controlled by sliding mode", Proc. Brazilian Automatic Control Conf.
(CBA',94), pp.1177 -1182
[10] L. Malesani, L. Rossetto, G. Spiazzi, and P. Tenti, "Performance
optimization of Cuk converter by sliding mode control", Proc.
Applications Power Electronic Conf. (APEC',92), pp.395 -402
[11] Asad, E. M. M., Hassan, R. B., & Sherwani, E. F. Instructional Models
For Enhancing The Performance Of Students And Workforce During
Educational Training. Marsland Press USA.
@article{"International Journal of Electrical, Electronic and Communication Sciences:68475", author = "Muhammad Mujtaba Asad and Razali Bin Hassan and Fahad Sherwani", title = "An Analytical Comparison between Open Loop, PID and Fuzzy Logic Based DC-DC Boost Convertor", abstract = "This paper explains about the voltage output for DC to
DC boost converter between open loop, PID controller and fuzzy
logic controller through Matlab Simulink. Simulink input voltage was
set at 12V and the voltage reference was set at 24V. The analysis on
the deviation of voltage resulted that the difference between reference
voltage setting and the output voltage is always lower. Comparison
between open loop, PID and FLC shows that, the open loop circuit
having a bit higher on the deviation of voltage. The PID circuit
boosts for FLC has a lesser deviation of voltage and proved that it is
such a better performance on control the deviation of voltage during
the boost mode.
", keywords = "Boost Convertors, Power Electronics, PID, Fuzzy
logic, Open loop.", volume = "8", number = "11", pages = "1787-6", }
