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AuthorSoliman S.A.
AuthorAlammari R.A.
AuthorEl-Hawary M.E.
Available date2024-05-23T05:12:37Z
Publication Date2004
Publication NameInternational Journal of Electrical Power and Energy System
ResourceScopus
Identifierhttp://dx.doi.org/10.1016/j.ijepes.2003.12.003
ISSN1420615
URIhttp://hdl.handle.net/10576/55322
AbstractThis paper presents a new application of Park's transformations to identifying the positive sequence of the fundamental components of the three-phase voltage or current signals needed for fault locator algorithm. The problem is solved in two steps; in the first, we identify and filter the DC offset as well as harmonics that contaminated the signals using Park's transformation. In the second step, the digital residuals, which are the difference between the original signal and the harmonics plus the DC offset, are the digital samples of the positive sequence component of the fundamental waveforms. These samples are then used to estimate digitally the positive sequence of the fundamental components using the least error squares estimation algorithm. It is obvious to state here if the fundamental components are balanced, the estimated positive sequence components equals the fundamental components. The paper starts by reviewing the new transformation matrices, then the proposed steps beyond the algorithm are explained, and finally results for simulated examples and for actual recorded data are reported.
Languageen
PublisherElsevier
SubjectDC and harmonics removal
Digital relays
Digital transformation
Least error squares estimation
TitleA new digital transformation for harmonics and DC offset removal for the distance fault locator algorithm
TypeArticle
Pagination389-395
Issue Number5
Volume Number26
dc.accessType Abstract Only


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