DocumentCode
1548540
Title
Practical high-impedance fault detection on distribution feeders
Author
Benner, Carl L. ; Russell, B. Don
Author_Institution
Dept. of Electr. Eng., Texas A&M Univ., College Station, TX, USA
Volume
33
Issue
3
fYear
1997
Firstpage
635
Lastpage
640
Abstract
Distribution protection systems must balance dependability with security considerations to be practical. This is quite difficult for high-impedance faults. Only highly sensitive algorithms can achieve absolute dependability in detecting very low current faults. This high sensitivity results in a propensity for false tripping, creating a less secure, system and resulting in the potential for decreased service continuity and lower reliability. Researchers at Texas A&M University have balanced fault detection with fault discrimination, resulting in a practical combination of detection algorithms in a commercially viable system. This device has many “intelligent” features, including the ability to analyze and correlate numerous fault characteristics in real time, so that a correct determination of the status of the feeder can be made with a high probability of accuracy. This paper describes the use of multiple algorithms to detect various types of faults and the use of an expert decision maker to decipher incoming data, to determine the status and health of a distribution feeder. Requirements for a practical, secure high-impedance fault relay are also discussed. Finally, Texas A&M has licensed this technology to a commercial partner, which manufactures a device that detects high-impedance faults, in addition to performing numerous other monitoring and protection functions
Keywords
distribution networks; electric current measurement; electric impedance; expert systems; fault currents; fault location; power system analysis computing; power system protection; Texas A&M University; arcing fault; broken conductor; decreased service continuity; distribution feeders; distribution protection systems; downed conductor; expert decision maker; expert system; false tripping; fault discrimination; high sensitivity; high-impedance fault detection; highly sensitive algorithms; intelligent features; lower reliability; multiple algorithms; very low current faults detection; Automation; Conductors; Fault currents; Fault detection; Fuses; Power system protection; Power system relaying; Protective relaying; Security; Test facilities;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/28.585852
Filename
585852
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