Fuzzy Tuned PI Controller for Shunt Active Power Filter

  IJETT-book-cover  International Journal of Recent Engineering Science (IJRES)          
  
© 2020 by IJRES Journal
Volume-7 Issue-6
Year of Publication : 2020
Authors : R.Karthik Kumar
  10.14445/23497157/IJRES-V7I6P104

MLA 

MLA Style: R.Karthik Kumar  "Fuzzy Tuned PI Controller for Shunt Active Power Filter"International Journal of Recent Engineering Science 7.6(2020):23-30. 

APA Style: R.Karthik Kumar. Fuzzy Tuned PI Controller for Shunt Active Power Filter  International Journal of Recent Engineering Science, 7(6), 23-30.

Abstract
This paper focuses on Fuzzy Logic controller (FLC) design that supervises Proportional Integral Controller (PI) for Shunt Active Power Filter. The main objective is to make conventional PI more adaptive by dynamically adjusting the controller gain values. The designed controller is presented to compensate for the current generation task in a non-linear shunt active filter. The performance of the proposed Fuzzy supervised PI in SAPF is evaluated through Matlab/Simulink simulation under different steady-state and transient conditions and compared with conventional PI Controller and Fuzzy-PI. The Total Harmonics Distortion (THD) of the source current after compensation is well below 5%, the harmonic limit imposed by the IEEE-519 standard.

Reference
[1] Anup Kumar Panda and Suresh Mikkili, FLC Based Shunt Active Filter (P–Q and Id–Iq) Control Strategies For Mitigation Of Harmonics With Different Fuzzy MFs Using MATLAB And Real-Time Digital Simulator, Electrical Power and Energy Systems, 47 (2013) 313-336.
[2] Suresh Mikkili and Anup Kumar Panda, PI and Fuzzy Logic Controller Based 3- Phase 4-Wire Shunt Active Filters for the Mitigation of Current Harmonics with the Id –Iq Control Strategy, Journal of Power Electronics, 11 (2011) 914-921.
[3] Karuppanan P. and Kamala KantaMahapatra, PI with Fuzzy Logic Controller based Active Power Line Conditioners, Asian Power Electronics Journal, 5 (2011) 13-18.
[4] Muhammad H. Rashid, ‘Power Electronics Handbook,’ Academic Press, 2001. Akagi.H.etal. Instantaneous Power Theory and Applications to Power Conditioning” New Jersey. IEEE Press/Wiley-Inter- science ISBN: 978-0-470-10761-4, 2007.
[5] Vandana Sharma and Anurag Singh Tomer, Comparative Analysis on Control Methods of Shunt Active Power Filter for Harmonics Mitigation, International Journal of Science and Research, 2 (2014) 107-114.
[6] K.Sarasvathi and R.Rajalakshmi, Applications of Shunt Active Filter For Multiple Non-linear Loads, Indian Journal of Electrical Engineering and Informatics, 1 (2013) 7-13.
[7] Kouadria Mohamed Abdeldjabbar, AllaouiTayeb, and BelfedalCheikh, A Fuzzy Logic Controller of Three-Phase Shunt Active Filter For Harmonic Current Compensation, International Journal of Advances in Engineering & Technology, 7(5) (2014) 82-89.
[8] Raman and Kashyap, Prof. S.S. Sankeswari and Prof. B. A. Patil Load Frequency Control Using Fuzzy PI Controller Generation of Interconnected Hydro Power System, International Journal of Emerging Technology and Advanced Engineering, 3, ISSN 2250-2459, 2013.
[9] G.Kamalesh and T. ThammiRedddy, FPGA implementation of high-speed PI like Fuzzy control system for industrial automation applications, International Journal of Modern Engineering Research, 3 (2013) ISSN: 2249-6645.
[10] R.Belaidi, A.Haddouche, and H. Guendouz, Fuzzy Logic Controller Based Three-Phase Shunt Active Power Filter for Compensating Harmonics and Reactive Power under Unbalanced Mains Voltages, Energy Procedia, 18 (2012) 560-570.
[11] ShilpyAgrawal and Vijay Bhuria, Shunt Active Power Filter for Harmonic Mitigation using Fuzzy Logic Controller, International Journal of Advanced Research in Computer Engineering & Technology, 2,(2013) ISSN: 2278 – 1323.
[12] Dr.C.B.Venkataramanan, Pranesh V, "Hybrid Multilevel Inverter with Reduced Switches and Harmonics" SSRG International Journal of Electrical and Electronics Engineering 3.3 (2016): 10-15.
[13] Parmod Kumar and Alka Mahajan, Soft Computing Techniques for the Control of an Active Power Filter, IEEE Transactions on Power Delivery, 24 (2009) 452-461, Jan.J. P. Wilkinson, Non-linear resonant circuit devices (Patent style),” U.S. Patent 3 624 12, July 16, 1990.

Keywords
Elimination of harmonics, Shunt Active Power Filter (SAPF), PI controller, Fuzzy-PI Controller, Hysteresis Band Current controller.