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International Journal of Intelligent Systems and Applications(IJISA)

ISSN: 2074-904X (Print), ISSN: 2074-9058 (Online)

Published By: MECS Press

IJISA Vol.9, No.12, Dec. 2017

Traditional PI and FPIL Based VFCU for an Isolated Induction Generator (IIG)

Full Text (PDF, 670KB), PP.10-19


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Author(s)

Shakuntla Boora, S.K Agarwal, K.S Sandhu

Index Terms

Isolated Induction Generator (IIG);static loads;diode bridge rectifier;MATLAB /SIMULINK;THD;fuzzy logic

Abstract

With the increase in load, the AC terminal voltage and frequency at the consumer premises decreases. Hence, there is encountered a need of some simple and intelligent controller which can support both voltage and frequency under load conditions. This manuscript emphasis on implementation and testing of traditional PI and non- traditional fuzzy PI logic (FPIL) based voltage and frequency controller unit (VFCU) in MATLAB based SIMULINK environment for an IIG for step change in consumer load. The electronic Controller comprises of various elements: a 3-leg diode bridge rectifier, chopper as a switch, dc filtering capacitor, discrete PI controller block, fuzzy logic controller block, and a resistive type dump load. The transient and the steady state behavior of IIG-VFCU system is examined and tested under different operating conditions to illustrate the efficaciousness of intelligent controller as compared to traditional PI controller. The performance enhancement of IIG is attained relating to rise time, settling time, overshoot and THD values using the planned intelligent controller.

Cite This Paper

Shakuntla Boora, S.K Agarwal, K.S Sandhu, "Traditional PI and FPIL Based VFCU for an Isolated Induction Generator (IIG)", International Journal of Intelligent Systems and Applications(IJISA), Vol.9, No.12, pp.10-19, 2017. DOI: 10.5815/ijisa.2017.12.02

Reference

[1]R.C. Bansal, “Three-phase self-excited Induction Generators: An Overview,” IEEE transactions on Energy Conversion, vol. 20,   pp. 292-299, June 2005.

[2]J.M. Elder, J.T. Boys and J.L., “Woodward, Integral cycle control of stand-alone generators,” IEE Proc., vol. 132, pp. 57-66,   March 1985.

[3]R. Bonert and S. Rajakaruna, “Self-excited Induction Generator with excellent voltage and frequency control,” IEE Proc. Gener Transm. Distrib, vol. 145, pp. 33-39, January 1998.

[4]Chandra, T.S, Bishnu, P.M., “Voltage regulators for self excited induction generator,” IEEE Transactions on Energy Conversion, vol.  20,   pp. 460-463, April 2004.

[5]S.C Kuo and L Wang, P.M., “Analysis of voltage control for a self-excited induction generator using a current-controlled voltage source inverter (CC-VSI),” Proc. Inst. Elect. Eng., Transm. Distrib, vol. 148, pp. 431-438, September 2001.

[6]E. Suarez and G. Bortolotto, “Voltage frequency control of a self-excited induction Generator,” IEEE Trans. Energy Convers , vol. 14,   pp. 394-40, September 1999.

[7]B. Singh, S.S. Murthy and S. Gupta, “Analysis and implementation of an electronic load controller for a self-excited induction generator,” IEE Proc. Gener. Transm. Distrib, vol. 151, pp. 51-60,   January 2004.

[8]B. Singh, S.S. Murthy and S. Gupta, Analysis and design of an electronic load controller for a self-excited induction generator,” IEEE Trans. On Energy Conversion, vol. 21, pp. 285-293, March  2006.

[9]Sarsing Gao, S.S Murthy, G. Bhubaneswar and M. Sree Lalitha Gayathri, “Design of microcontroller based electronic load controller for a self-excited induction generator supplying single-phase loads,” Journal of Power Electronics, vol. 10, pp. 444-449, July 2010.

[10]Juan M. Ramirez and Emmanuel Torres M., “An Electronic load controller for self-excited induction generators,” IEEE PES General Meeting,   June 2007.

[11]Shakuntla Boora, S.K Agarwal, K.S Sandhu, “Electronics based dump load controller for an grid isolated Asynchronous Generator,” International Journal on emerging Technologies, vol. 6,   pp. 9-14, June 2015.

[12]M.H. Rashid, Power Electronics Circuits, Devices and Applications, 3rd ed. Pearson / Prentice-Hall, Singapore, 2004.

[13]IEEE Guide for harmonic Control and Reactive Compensation of Static Power Converters, IEEE Standard 519, 1992.

[14]E.G. Marra and J.A. Promilo, “Induction- Generator- based system providing regulated voltage with frequency constant,” IEEE Trans. Ind. Electron, vol. 47, pp. 908-914, Aug 2000.

[15]Ramji Tiwari, Ramesh Babu. N, "Comparative Analysis of Pitch Angle Controller Strategies for PMSG Based Wind Energy Conversion System", International Journal of Intelligent Systems and Applications (IJISA), vol. 9, pp. 62-73, May 2017.

[16]Sachin Sharma, Bhim Singh, “Fuzzy proportional-integral regulators for stand-alone wind energy conversion system”, IEEE Conference ICPCES, pp.1-8, January 2011.

[17]Sakshi Bangia, P R Sharma, Maneesha Garg, "Simulation of Fuzzy Logic Based Shunt Hybrid Active Filter for Power Quality Improvement", International Journal of Intelligent Systems and Applications (IJISA), vol.5,  pp.96-104, January 2013.