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Basic of p-q Theory for Shunt and Series Compensation

Published on November 2013 by R. A. Kapgate, N.t.sahu
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2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013)
Foundation of Computer Science USA
NCIPET - Number 3
November 2013
Authors: R. A. Kapgate, N.t.sahu
a609c6f1-4b25-468f-89a0-47dc1c4b3c02

R. A. Kapgate, N.t.sahu . Basic of p-q Theory for Shunt and Series Compensation. 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013). NCIPET, 3 (November 2013), 0-0.

@article{
author = { R. A. Kapgate, N.t.sahu },
title = { Basic of p-q Theory for Shunt and Series Compensation },
journal = { 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013) },
issue_date = { November 2013 },
volume = { NCIPET },
number = { 3 },
month = { November },
year = { 2013 },
issn = 2249-0868,
pages = { 0-0 },
numpages = 1,
url = { /proceedings/ncipet/number3/563-1370/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013)
%A R. A. Kapgate
%A N.t.sahu
%T Basic of p-q Theory for Shunt and Series Compensation
%J 2nd National Conference on Innovative Paradigms in Engineering and Technology (NCIPET 2013)
%@ 2249-0868
%V NCIPET
%N 3
%P 0-0
%D 2013
%I International Journal of Applied Information Systems
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.

References
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Index Terms

Computer Science
Information Sciences

Keywords

p-q theory AC power Shunt compensation Series compensation