Mitigation of Harmonic Distortion in Microgrid System Using Adaptive Neural Learning Algorithm Based Shunt Active Power Filter
Author:
Publisher
Elsevier BV
Subject
General Earth and Planetary Sciences,General Environmental Science
Reference15 articles.
1. Khadkikar V. Enhancing electrical power quality using UPQC: A comprehensive overview. IEEE Transaction on Power Electronics. 2012; 27(2): p. 2284-2297.
2. Chaoui A, Gaubert JP, Krim F, Champenois G. PI Controlled Three-phase Shunt Active Power Filter for Power Quality Improvement. Electric power components and systems. 2007; 35(1): p. 1331-1344.
3. Grady WM, Samotyj MJ, Noyola AH. Survey of active power line conditioning methodologies. IEEE Transaction on Power Delivery. 1990; 5(3): p. 1536-1542.
4. EL-Kholy EE, EL-Sabbe A, EI-Hefnawy A, Mharous HM. Three-phase active power filter based on current controlled voltage source inverter. Electrical power system engineering. 2006; 28(8): p. 537-547.
5. Singh B, AI-Haddad K, Chandra A. A Review of active filters for power quality improvements. IEEE Transaction on Industrial Electronics. 1999; 46(5): p. 960-970.
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