Enhanced FIS Operated Relay Model For Power System Overcurrent Protection

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
© 2019 by IJETT Journal
Volume-67 Issue-10
Year of Publication : 2019
Authors : Er.Maninderpal Singh , Dr. Gursewak Singh Brar ,Ranbirjeet Kaur
DOI :  10.14445/22315381/IJETT-V67I10P230


MLA Style: Er.Maninderpal Singh , Dr. Gursewak Singh Brar ,Ranbirjeet Kaur   "Enhanced FIS Operated Relay Model For Power System Overcurrent Protection" International Journal of Engineering Trends and Technology 67.10 (2019):187-192.

APA Style:Er.Maninderpal Singh , Dr. Gursewak Singh Brar ,Ranbirjeet Kaur, Enhanced FIS Operated Relay Model For Power System Overcurrent Protection International Journal of Engineering Trends and Technology, 67(10),187-192

Consumption of electricity has significantly enhanced the need for transmission of electricity from one point to another. This involves the use of transmission lines. With the changing conditions of environment possibility of occurrence of faults is higher. Overvoltage, over-current, short-circuit etc. are some of the faults which occur in the power systems. These faults affect the performance of the power systems. For the smooth operation of the power system it is necessary to remove the faults from the system. Various techniques have been proposed by researchers for detection of the faults and decision making. Different schemes like relay control, digital signal processing (DSP) were used by them. Input data taken from the relays is given to the DSP regularly and it makes the decision. This existing system is efficient but it lacks in operation time. To overcome this issue, in this paper a fuzzy logic based approach is used in the proposed system. The Mamdani type fuzzy logic is used here. The simulation has been performed which represents that proposed approach helps to achieve efficient power system.


[1] L. Yang, et.al, “Research and Design of DSP-Based Monitoring System of Power Batteries,” 2011 International Conference of Information Technology, Computer Engineering and Management Sciences, 2011, Pp. 122-125.
[2] W. Rebizant and J. S. Wiszniewski “Digital Signal Processing in Power System Protection and Control”, Springer-Verlag London Limited 2011.
[3] M. B. Jain, et.al, “A Novel Web based Expert System Architecture for On-line and Off-line Fault Diagnosis and Control (FDC) of Power System Equipment,” 2008 Joint International Conference on Power System Technology and IEEE Power India Conference, 2008, Pp. 1-5.
[4] Sahai and D. J. Pandya, "A novel design and development of a microprocessor-based current protection relay,” 2011 International Conference On Recent Advancements In Electrical, Electronics And Control Engineering, 2011, Pp. 309-313
[5] Ungrad H, Winkler W, Wiszniewski A (1995) “Protection techniques in electrical energy systems”, Marcel Dekker Inc., New York
[6] Horowitz SH, Phadke AG (1988) Power system relaying. Research Studies Press, Taunton
[7] Vegte de JV (2002) Fundamentals of digital signal processing. Prentice-Hall, Englewood Cliffs
[8] Al-Nujaimi, et.al, “Digital Signal Processing Effect on Power System Overcurrent Protection Relay Behavior and Operation Time,” 2017 9th IEEE-GCC Conference and Exhibition (GCCCE), 2017, Pp. 1-5
[9] Changjiang Zhan, et.al, “DSP control of power conditioner for improving power quality”, 2000 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.00CH37077) , 2000, Vol.4, Pp. 2556-2561.
[10] Chan Ee Lyn, et.al, “DSP-based fuzzy logic controller for a battery charger,” 2002 IEEE Region 10 Conference on Computers, Communications, Control and Power Engineering. TENCOM `02. Proceeding, 2002, Vol.3, Pp. 1512-1515.
[11] D. Purcaru and I. Purcaru, “Signal processing and generating unit for power system simulator, “2016 20th International Conference on System Theory, Control and Computing (ICSTCC), 2016, Pp. 766-770
[12] M. E. Baran, et.al, “Overcurrent Protection in DC Zonal Shipboard Power Systems using Solid State Protection Devices, “2007 IEEE Electric Ship Technologies Symposium, 2007, Pp. 221-224
[13] S. Lim, et.al, “Adaptive protection setting and coordination for power distribution systems,” 2006 Eleventh International Middle East Power Systems Conference, 2006, Pp. 129-134

Fuzzy Logics, Power System, Over-current, Proactive Devices