Anirudh Singh; Shikhar Dwivedi; N. Senthil Kumar

About Journal

Central Power Research Institute (CPRI) is the power house of the Indian electrical industry. Set up in 1960 by the Government of India, it functions as a centre for applied research in electrical power engineering assisting the electrical industry in product development and quality assurance. CPRI also serves as an independent authority for testing and certification of power equipment. CPRI's governing body includes eminent professionals from industries & utilities, prestigious academic and research institutions & the government. It employs over 300 highly qualified and experienced engineers & scientists besides other supporting staff.

With its state-of-the art infrastructure and expertise, CPRI has made significant contributions to the power sector in the country for improved planning, operation and control of power systems. Besides in-house R&D, CPRI also undertakes sponsored research projects from manufacturers and other agencies in different areas of specialization.

Published Sep 2, 2014

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Volume 10, Issue 3, September 2014

Anirudh Singh

Final year B.Tech (Electrical and Electronics Engg), School of Electrical Engineering, VIT Chennai

Shikhar Dwivedi

Final year B.Tech (Electrical and Electronics Engg), School of Electrical Engineering, VIT Chennai

N. Senthil Kumar

Associate Professor School of Electrical Engineering, VIT Chennai

Abstract

Wide area monitoring and control using Phasor Measurement Units (PMU’s) will continue to remain as one of the integral components of large power systems for different important applications in power systems which includes dynamic state estimation, power oscillation monitoring, Transient Stability Assessment etc. A wide area measuring system is composed of a PMU with High Speed Communication Channels and Phasor data concentrators. This paper explores the modeling and application of a typical phasor measurement unit to monitor voltage and current swings for different types faults and disturbances in the standard four generator two area power system.

How to Cite

Singh, A., Dwivedi, S., & Senthil Kumar, N. (2014). Modelling and application of phasor measurement units for fault location. Power Research - A Journal of CPRI, 421–426. Retrieved from https://node6473.myfcloud.com/~geosocin/CPRI/index.php/pr/article/view/785

References

A G Phadke, Synchronized phasor measurements, IEEE Computer Applications in power, Vol. 6, No. 2, pp. 10, 1993.
P Kundur, Power System Stability and Control, McGraw-Hill, Newyork, pp. 25, (1994).
A G Phadke and B. Kasztenny, Synchronized phasor and frequency measurement under transient conditions, IEEE Trans. Power Del., Vol. 24, No. 1, pp. 89, 2009
D Dotta, J H Chow, A MATLAB based PMU simulator, IEEE power and energy society general meeting, pp. 1, 2013.
H Khorashadi, Z L Phasor measurement unit based transmission protection scheme design, Electric Power System Research, Vol. 81, pp. 421,2011

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