DocumentCode
1301098
Title
Compensation of the Current-Transformer Saturation Effects for Digital Relays
Author
Ajaei, Firouz Badrkhani ; Sanaye-Pasand, Majid ; Davarpanah, Mahdi ; Rezaei-Zare, Afshin ; Iravani, Reza
Author_Institution
Electr. & Comput. Eng. Sch., Univ. of Tehran, Tehran, Iran
Volume
26
Issue
4
fYear
2011
Firstpage
2531
Lastpage
2540
Abstract
A current transformer (CT) is accurately modeled for representation of the CT saturation effects on digital protective relays. Simulation studies performed in the PSCAD/EMTDC platform are used to investigate the impacts of CT saturation on the current phasor estimation. A new algorithm is also proposed for detection and compensation of CT saturation effects, based on: a least error squares (LES) filter which estimates the phasor parameters of the CT secondary current; a novel saturation detection method which uses the output of the LES filter for saturation detection; and a new minimum estimation error tracking approach which enhances the precision of the phasor estimation. The proposed saturation detection/compensation algorithm is independent of the parameters of the CT, the burden, and the power system. The study results show that the proposed algorithm: 1) reconstructs the distorted current waveform, under dc and ac saturation conditions, with the required precision and speed and 2) performs satisfactorily under inductive burden and under deep and slight saturation conditions.
Keywords
current transformers; electric current measurement; filtering theory; least squares approximations; power system measurement; relay protection; signal reconstruction; AC saturation condition; DC saturation condition; current transformer saturation effect compensation; digital protective relay; digital relays; distorted current waveform reconstruction; inductive load; least error squares filter; phasor parameter estimation; saturation detection method; Algorithm design and analysis; Current transformers; Digital relays; Fault currents; Saturation magnetization; Current transformer (CT); Preisach theory; digital relays; least error squares (LES) method; magnetic saturation;
fLanguage
English
Journal_Title
Power Delivery, IEEE Transactions on
Publisher
ieee
ISSN
0885-8977
Type
jour
DOI
10.1109/TPWRD.2011.2161622
Filename
5989885
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