Google scholar arxiv informatics ads IJAIS publications are indexed with Google Scholar, NASA ADS, Informatics et. al.

Call for Paper

-

November Edition 2021
International Journal of Applied Information Systems solicits high quality original research papers for the November 2021 Edition of the journal. The last date of research paper submission is October 15, 2021.

Basic of p-q Theory for Shunt and Series Compensation

R. A. Kapgate, N. T. Sahu Published in Mathematics

Basic of p-q Theory for Shunt and Series Compensation
IJAIS Proceedings on 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013)
Year of Publication: 2013
© 2012 by IJAIS Journal
Series NCIPET Number 3
Authors R. A. Kapgate, N. T. Sahu
10.5120/ncipet1370
Download full text

  1. R A Kapgate and N.t.sahu. Article: Basic of p-q Theory for Shunt and Series Compensation. IJAIS Proceedings on 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013) NCIPET(3):5-9, November 2013. BibTeX

    @article{key:article,
	author = "R. A. Kapgate and N.t.sahu",
	title = "Article: Basic of p-q Theory for Shunt and Series Compensation",
	journal = "IJAIS Proceedings on 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013)",
	year = 2013,
	volume = "NCIPET",
	number = 3,
	pages = "5-9",
	month = "November",
	note = "Published by Foundation of Computer Science, New York, USA"
}

Abstract

This paper deals with the p-q theory for the generation of reference current in shunt current compensation and reference voltage in series voltage compensation. Basic p-q theory is use to generate reference current and voltage in shunt and series compensation respectively Clarke transformation i. e. ?-?-0 transformation and inverse Clarke transformation is use in basic p-q theory. The results are supported by detailed simulation studies on a three phase four-wire compensated system using Matlab.

Reference

  1. H. Akagi, Y. Kanazawa and A. Nabae "Instantaneous reactive compensators comprising switching devices without energy storage components," IEEE Transaction on Industry applications, vol. IA20, no. 3, May/june 1984, pp. 625-630.
  2. B. N. Singh, K. AI-Haddad, A. Chandra, "DSP based indirect-current controlled STATCOM-I Multifunctional capabilities" IEE proceeding, Vol. 147, no. 2, March 2000, pp. 107-112
  3. B. N. Singh, K. AI-Haddad, A. Chandra, "DSP based indirect-current controlled STATCOM-II Multifunctional capabilities" IEE proceeding, Vol. 147, no. 2, March 2000, pp. 113-118
  4. O. Lara and E. Acha, "Modeling and analysis of custom power system by PSCAD/EMTDC," IEEE Transaction on power Delivery, vol. 17, No1, Jan 2002, pp266-270
  5. P. Giroux, G,Sybille and H. Lehully, "Modeling and Simulation of a Distribution STATCOM using Simulink power system Block set," IECON01 27th Annual Conference of IEEE Industrial Electronics Society, pp. 990-996.
  6. Bhim Singh "Modelling and control of DSTATCOM for three phase four wire Distribution system ", IAS 2005, pp2458-2434.
  7. F. Tahri, A. Tahri "Analysis and control of Advance Static VAR compensater Based on the theory of the Instantaneous Reactive power" IEEE Transactions 2007
  8. M. Azizur Rahman "Analysis of Current Controllers for Voltage-source Inverter" IEEE Transaction on Industrial Electronics, Vol. 44 No 4 AUG 1997, pp477-485

Keywords

p-q theory, AC power, Shunt compensation, Series compensation