Research Article
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Ayrık-zaman KKK, LQR ve PID kontrolör performanslarının alçaltıcı tip Da-Da dönüştürücü üzerinde kıyaslanması

Year 2018, Volume: 22 Issue: 1, 8 - 15, 01.02.2018
https://doi.org/10.16984/saufenbilder.292415

Abstract

Bu çalışmada, sürekli-akım modunda çalıştırılan
alçaltıcı tip Da-Da dönüştürücüler için ayrık-zamanda üç farklı kontrolör
tasarlanmış ve benzetim çalışmaları ile performansları karşılaştırmalı olarak
incelenmiştir. Bu amaçla öncelikle alçaltıcı tip Da-Da dönüştürücünün
matematiksel modeli elde edilmiş ve dönüştürücünün sürekli-akım modunda
çalışabilmesi için kritik endüktans değeri belirlenmiştir. Daha sonra
ayrık-zamanda üç ayrı kontrolör; kayan kipli kontrolör, doğrusal karesel
regülatör ve oransal-integral-türev kontrolörleri tasarlanmış ve bu
kontrolörlerin performansları yerleşme zamanı, aşım ve bozuculara karşı
dayanıklılık kriterleri açısından benzetim çalışmaları ile karşılaştırmalı
olarak incelenmiştir.

References

  • [1] Jaber A, Abu-Qahouq, Yangyang Wen, Liangbin Yao, EhabShoubaki, IssaBatarseh and Geoff Potter, "Digital Controller for an Isolated Half-Bridge DC-DC Converter", IEEE Applied Power Electronics Conference 2005, Vol. 2, pp. 1217-1223.
  • [2] Hua, G., Leu, C. S., Jiang, Y. ve Lee F. C. Y., “ Novel Zero-Voltage-Transition PWM Converters “, IEEE Trans. on Power Electron., Vol. 9, No. 2, pp. 213-219, 1994.
  • [3] Calderon A.J.,Vinagre, B.M.,Feliu V., Fractionalorder control strategies for powerelectronic buckconverters ,Signal Processing, ELSEV_ER ,2803–28190165-1684 - , 2006.
  • [4] Mohan N., Unlead T.M., Robbins W.P., “Power Electronics”, John Wiley & Sons Ltd., England, 185-191 (2002).
  • [5] D. Giaouris, S. Banerjee, B. Zahawi, and V. Pickert, “Stability analysis of the continuous-conduction-mode buck converter via filippov’s method,” IEEE Transactions on Circuits and Systems-I, vol. 55, pp. 1084–1096, May 2008.
  • [6] J. Wang, A. Prodić, W. T. Ng, "Mixed-signal-controlled flyback-transformer-based buck converter with improved dynamic performance and transient energy recycling", IEEE Trans. Power Electron., vol. 28, no. 2, pp. 970-984, Feb. 2013.
  • [7] E. Meyer, D. Wang, L. Jia, Y.-F. Liu, "Digital charge balance controller with an auxiliary circuit for superior unloading transient performance of buck converters", Proc. IEEE Appl. Power Electron. Conf. Expo., pp. 124-131, 2010.
  • [8] Texas Instruments Incorporated “AN-1197 Selecting Inductors for Buck Converters ” SNVA038B – May2001– Revised April 2013.
  • [9] G. Liping, John Y. Hung, and R. M. Nelms, “Evaluation of DSP-Based PID and Fuzzy Controllers for DC–DC Converters”, IEEE Trans. Industrial Electronics, vol. 56, no 6, June 2009, pp 182 – 190.
  • [10] SattarJaber Al-Isawi and Ehsan A. Abd Al-Nabi,“Design of The Feedback Controller (PIDController) for The Buck Boost Converter”,Department of Electromechanical Engineering,The High Institute for Industry-Libya-Misrata.
  • [11] Mehmet Buğrahan K, İlhami Y “Pratikte Kullanılan Bazı Kayan Kipli Kontrol Tekniklerinin Teorik ve Deneysel İncelenmesi”2015.
  • [12] İrfan YAZICI” Model Referans Kayan Kipli Kontrolör Tabanlı Güç Sistem Kararlayıcı Tasarımı” 2008
  • [13] MU, L., GAO, C., CHEN, W., Research for discrete variable structure control systems, IEEE Intern. Conf. on Control and Automation, pp. 2644-2647, 2007.
  • [14] GAO, W., WANG, Y., HOMAIFA, A., Discrete time variable structure control systems, IEEE Trans. On Ind.Elect., 42, 2, pp. 117-122, 1995.
  • [15] MONSEES, G., Discrete-Time Sliding Mode Control, Ph.D. dissertation, Delft University of Technology, pp.1130, 2002.
  • [16] SamehBdran,MaShuyuan, SamoSaifullah andDr.HuangJie, “Comparison of PID, PolePlacement And LQR Controllers For SpeedRatio Control Of Continuously VariableTransmission (CVT)”, Mechatronic Center,Mechanical Engineering , Beijing Institute ofTechnology (BIT) , Beijing, China.
  • [17] CahitGezgin, Bonnie S. Heck, Richard M. Bass, “Control Structure Optimization of a Boost Converter: An LQR Approach”, IEEE PESC'97 Rec., pp. 901-907.
  • [18] Katsuhiko Ogata “Discrete-Time Control System” 1994.
  • [19] R. M. Murray “Control and Dynamical Systems”California Institute Of Technology.
  • [20] Ogata K. "Modern Control Engineering. New Jersey: Prentice Hall" 2002.
  • [21] Fraser, C. and Milne, J.1994. Electro-MechanicalEngineering: An Integrated Approach, IEEE Press, New Jersey.
  • [22] SARIOGLU, K. M., "DijitalKontrolSistemleri" BirsenYayınevi, İstanbul, 1998.
  • [23] Goodwin, G. C., Graebe, S. F. and Salgado, M.E. 2001. Control System Design, Prentice Hall Inc., New Jersey.
  • [24] GunesMahit, “Fuzzy and three-step control of refiner system to get stable freeness for recycled paper” Scientific Research and Essays Vol. 6(1), pp. 110-117, 4 January, 2011.
  • [25] Ö. Gündoğdu “Optimal-Tuning of PID Controller Gains Using Genetic Algorithms”Journal of Engineering Sciences 2005.
  • [26] Cao G., Lou C., and D. An, “Application of fuzzy self-tuning PID control to air conditioning system”, Heat Ventilating and Air Conditioning, vol. 34, No.10, 106-109, October 2004.

Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter

Year 2018, Volume: 22 Issue: 1, 8 - 15, 01.02.2018
https://doi.org/10.16984/saufenbilder.292415

Abstract

Bu çalışmada, sürekli-akım modunda çalıştırılan
alçaltıcı tip Da-Da dönüştürücüler için ayrık-zamanda üç farklı kontrolör
tasarlanmış ve benzetim çalışmaları ile performansları karşılaştırmalı olarak
incelenmiştir. Bu amaçla öncelikle alçaltıcı tip Da-Da dönüştürücünün
matematiksel modeli elde edilmiş ve dönüştürücünün sürekli-akım modunda
çalışabilmesi için kritik endüktans değeri belirlenmiştir. Daha sonra
ayrık-zamanda üç ayrı kontrolör; kayan kipli kontrolör, doğrusal karesel
regülatör ve oransal-integral-türev kontrolörleri tasarlanmış ve bu
kontrolörlerin performansları yerleşme zamanı, aşım ve bozuculara karşı
dayanıklılık kriterleri açısından benzetim çalışmaları ile karşılaştırmalı
olarak incelenmiştir.

References

  • [1] Jaber A, Abu-Qahouq, Yangyang Wen, Liangbin Yao, EhabShoubaki, IssaBatarseh and Geoff Potter, "Digital Controller for an Isolated Half-Bridge DC-DC Converter", IEEE Applied Power Electronics Conference 2005, Vol. 2, pp. 1217-1223.
  • [2] Hua, G., Leu, C. S., Jiang, Y. ve Lee F. C. Y., “ Novel Zero-Voltage-Transition PWM Converters “, IEEE Trans. on Power Electron., Vol. 9, No. 2, pp. 213-219, 1994.
  • [3] Calderon A.J.,Vinagre, B.M.,Feliu V., Fractionalorder control strategies for powerelectronic buckconverters ,Signal Processing, ELSEV_ER ,2803–28190165-1684 - , 2006.
  • [4] Mohan N., Unlead T.M., Robbins W.P., “Power Electronics”, John Wiley & Sons Ltd., England, 185-191 (2002).
  • [5] D. Giaouris, S. Banerjee, B. Zahawi, and V. Pickert, “Stability analysis of the continuous-conduction-mode buck converter via filippov’s method,” IEEE Transactions on Circuits and Systems-I, vol. 55, pp. 1084–1096, May 2008.
  • [6] J. Wang, A. Prodić, W. T. Ng, "Mixed-signal-controlled flyback-transformer-based buck converter with improved dynamic performance and transient energy recycling", IEEE Trans. Power Electron., vol. 28, no. 2, pp. 970-984, Feb. 2013.
  • [7] E. Meyer, D. Wang, L. Jia, Y.-F. Liu, "Digital charge balance controller with an auxiliary circuit for superior unloading transient performance of buck converters", Proc. IEEE Appl. Power Electron. Conf. Expo., pp. 124-131, 2010.
  • [8] Texas Instruments Incorporated “AN-1197 Selecting Inductors for Buck Converters ” SNVA038B – May2001– Revised April 2013.
  • [9] G. Liping, John Y. Hung, and R. M. Nelms, “Evaluation of DSP-Based PID and Fuzzy Controllers for DC–DC Converters”, IEEE Trans. Industrial Electronics, vol. 56, no 6, June 2009, pp 182 – 190.
  • [10] SattarJaber Al-Isawi and Ehsan A. Abd Al-Nabi,“Design of The Feedback Controller (PIDController) for The Buck Boost Converter”,Department of Electromechanical Engineering,The High Institute for Industry-Libya-Misrata.
  • [11] Mehmet Buğrahan K, İlhami Y “Pratikte Kullanılan Bazı Kayan Kipli Kontrol Tekniklerinin Teorik ve Deneysel İncelenmesi”2015.
  • [12] İrfan YAZICI” Model Referans Kayan Kipli Kontrolör Tabanlı Güç Sistem Kararlayıcı Tasarımı” 2008
  • [13] MU, L., GAO, C., CHEN, W., Research for discrete variable structure control systems, IEEE Intern. Conf. on Control and Automation, pp. 2644-2647, 2007.
  • [14] GAO, W., WANG, Y., HOMAIFA, A., Discrete time variable structure control systems, IEEE Trans. On Ind.Elect., 42, 2, pp. 117-122, 1995.
  • [15] MONSEES, G., Discrete-Time Sliding Mode Control, Ph.D. dissertation, Delft University of Technology, pp.1130, 2002.
  • [16] SamehBdran,MaShuyuan, SamoSaifullah andDr.HuangJie, “Comparison of PID, PolePlacement And LQR Controllers For SpeedRatio Control Of Continuously VariableTransmission (CVT)”, Mechatronic Center,Mechanical Engineering , Beijing Institute ofTechnology (BIT) , Beijing, China.
  • [17] CahitGezgin, Bonnie S. Heck, Richard M. Bass, “Control Structure Optimization of a Boost Converter: An LQR Approach”, IEEE PESC'97 Rec., pp. 901-907.
  • [18] Katsuhiko Ogata “Discrete-Time Control System” 1994.
  • [19] R. M. Murray “Control and Dynamical Systems”California Institute Of Technology.
  • [20] Ogata K. "Modern Control Engineering. New Jersey: Prentice Hall" 2002.
  • [21] Fraser, C. and Milne, J.1994. Electro-MechanicalEngineering: An Integrated Approach, IEEE Press, New Jersey.
  • [22] SARIOGLU, K. M., "DijitalKontrolSistemleri" BirsenYayınevi, İstanbul, 1998.
  • [23] Goodwin, G. C., Graebe, S. F. and Salgado, M.E. 2001. Control System Design, Prentice Hall Inc., New Jersey.
  • [24] GunesMahit, “Fuzzy and three-step control of refiner system to get stable freeness for recycled paper” Scientific Research and Essays Vol. 6(1), pp. 110-117, 4 January, 2011.
  • [25] Ö. Gündoğdu “Optimal-Tuning of PID Controller Gains Using Genetic Algorithms”Journal of Engineering Sciences 2005.
  • [26] Cao G., Lou C., and D. An, “Application of fuzzy self-tuning PID control to air conditioning system”, Heat Ventilating and Air Conditioning, vol. 34, No.10, 106-109, October 2004.
There are 26 citations in total.

Details

Subjects Electrical Engineering
Journal Section Research Articles
Authors

Ömer Özdemir

İrfan Yazıcı

Publication Date February 1, 2018
Submission Date February 15, 2017
Acceptance Date July 25, 2017
Published in Issue Year 2018 Volume: 22 Issue: 1

Cite

APA Özdemir, Ö., & Yazıcı, İ. (2018). Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter. Sakarya University Journal of Science, 22(1), 8-15. https://doi.org/10.16984/saufenbilder.292415
AMA Özdemir Ö, Yazıcı İ. Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter. SAUJS. February 2018;22(1):8-15. doi:10.16984/saufenbilder.292415
Chicago Özdemir, Ömer, and İrfan Yazıcı. “Comparison of Discrete-Time Smc, LQR and PID Controllers Performance on DC-DC Buck Converter”. Sakarya University Journal of Science 22, no. 1 (February 2018): 8-15. https://doi.org/10.16984/saufenbilder.292415.
EndNote Özdemir Ö, Yazıcı İ (February 1, 2018) Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter. Sakarya University Journal of Science 22 1 8–15.
IEEE Ö. Özdemir and İ. Yazıcı, “Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter”, SAUJS, vol. 22, no. 1, pp. 8–15, 2018, doi: 10.16984/saufenbilder.292415.
ISNAD Özdemir, Ömer - Yazıcı, İrfan. “Comparison of Discrete-Time Smc, LQR and PID Controllers Performance on DC-DC Buck Converter”. Sakarya University Journal of Science 22/1 (February 2018), 8-15. https://doi.org/10.16984/saufenbilder.292415.
JAMA Özdemir Ö, Yazıcı İ. Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter. SAUJS. 2018;22:8–15.
MLA Özdemir, Ömer and İrfan Yazıcı. “Comparison of Discrete-Time Smc, LQR and PID Controllers Performance on DC-DC Buck Converter”. Sakarya University Journal of Science, vol. 22, no. 1, 2018, pp. 8-15, doi:10.16984/saufenbilder.292415.
Vancouver Özdemir Ö, Yazıcı İ. Comparison of discrete-time smc, LQR and PID controllers performance on DC-DC buck converter. SAUJS. 2018;22(1):8-15.