DocumentCode
86276
Title
A Novel SPLL and Voltage Sag Detection Based on LES Filters and Improved Instantaneous Symmetrical Components Method
Author
Guodong Chen ; Liang Zhang ; Ruiting Wang ; Luhua Zhang ; Xu Cai
Author_Institution
Key Lab. of Control of Power Transm. & Transformation, Shanghai Jiao Tong Univ., Shanghai, China
Volume
30
Issue
3
fYear
2015
fDate
Mar-15
Firstpage
1177
Lastpage
1188
Abstract
The software phase-locked loop and the voltage sag detection algorithm are the two key factors to evaluate the performance of a dynamic voltage restorer, whose dynamic response is usually impacted by phase jump, voltage unbalance, and harmonics of the grid voltage. This paper proposes a novel algorithm based on the combination of least error squares filters and an improved instantaneous symmetrical components method. Hence, a detailed theoretical procedure is first presented. Then, the simulation model is built in MATLAB/SINMULINK. To verify its effectiveness, a series of comparison and analysis have been carried out. Also, a 10-kV/2-MVA prototype is developed with a voltage sag generator platform. Finally, experiments have been done and the results show that the novel algorithm has an improved dynamic response compared with the traditional methods.
Keywords
dynamic response; least squares approximations; phase locked loops; power filters; power grids; power supply quality; power system harmonics; power system restoration; LES filters; SPLL; apparent power 2 MVA; dynamic response; dynamic voltage restorer; grid voltage harmonics; improved instantaneous symmetrical components method; least error squares filters; phase jump; software phase-locked loop; voltage 10 kV; voltage sag detection algorithm; voltage sag generator platform; voltage unbalance; Educational institutions; Filtering algorithms; Harmonic analysis; Heuristic algorithms; Power harmonic filters; Power system dynamics; Voltage fluctuations; Cascaded H-bridge; dynamic response; least error squares (LES) filter; symmetrical components; voltage sag detection;
fLanguage
English
Journal_Title
Power Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0885-8993
Type
jour
DOI
10.1109/TPEL.2014.2318051
Filename
6802379
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