Improving Low Voltage Ride Through Capability of Wind Generators Using Dynamic Voltage Restorer

[1] HANSEN, A. D.—CUTULULIS, N. A.—MARKOU, H.—SO- RENSEN, P. E.: Impact of Fault Ride-Through Requirements on Fixed-Speed Wind Turbine Structural Loads, Wind Energy 14 (2011), 1–11.10.1002/we.398Search in Google Scholar

[2] FREITAS, W.—VIEIRA, J. C. M.—MORELATO, A.—da SILVA, L. C. P.—da COSTA, V. F.—LEMOS, F. A. B.: Comparative Analysis between Synchronous and Induction Machines for Distributed Generation Applications, IEEE Transaction on Power System 21 (2006), 301–311.10.1109/TPWRS.2005.860931Search in Google Scholar

[3] BOLLEN, M. H. J.—HAGER, M.: Impact of Increasing Penetration of Distributed Generation of the Number of Voltage Dips Experienced by End-Customers, Presented at the 18th International Conference on Electricity Distribution, IET Conference Publications, Turin, Italy, 2005, pp. 1—5.10.1049/cp:20051249Search in Google Scholar

[4] HOLTTINEN, H.—MEIBOM, P.—ORTHS, A.—LANGE, B.— O’MALLEY, M.—TANDE, J. O.—ESTANQUEIRO, A.—GO-MEZ, E.—SODER, L.—STRBAC, G.—SMITH, J. C.—van-HULLE, F.: Impacts of Large Amounts of Wind Power on Design and Operation of Power Systems, results of IEA collaboration, Wind Energy 14 (2011), 179—192.10.1002/we.410Search in Google Scholar

[5] SHI, L. B.—WANG, C.—YAO, L. Z.—WANG, L. M.—NI, Y. X.: Analysis of Impact of Grid-Connected Wind Power on Small Signal Stability, Wind Energy 14 (2011), 517—537.10.1002/we.440Search in Google Scholar

[6] BOLLEN, M. H. J.: Understanding Power Quality Problems: Voltage Dips and Interruptions, Wiley-IEEE Press eBook Chapters, IEEE Press, New York, 1999, pp. 139—251.Search in Google Scholar

[7] SINGH, M.—VINOD, K.—CHANDRA, A.—RAJIV VARMA, K.: Grid Interconnection of Renewable Energy Sources at the Distribution Level with Power-Quality Improvement Features, IEEE Transaction on Power System 26 (2011), 307—315.10.1109/TPWRD.2010.2081384Search in Google Scholar

[8] MOLINAS, M.—SUUL, J. A.—UNDELAND, T.: Low Voltage Ride Through of Wind Farms with Cage Generators: STATCOM versus SVC, IEEE Transaction on Power Electronics 23 No. l (2008), 1104—1117.10.1109/TPEL.2008.921169Search in Google Scholar

[9] NIELSEN, J. G.—NEWMAN, M.—NIELSEN, H.—BLAAB-JERG, F.: Control and Testing of a Dynamic Voltage Restorer (DVR) at Medium Voltage Level jour IEEE Transaction on Power Electronics.Search in Google Scholar

[10] AWAD, H.—SVENSSON, J.—BOLLEN, M.: Mitigation of Unbalanced Voltage Dips using Static Series Compensator, IEEE Transaction on Power Electronics 19 No. 3 (2004), 837—846.10.1109/TPEL.2004.826536Search in Google Scholar

[11] NIIRANEN, J.: About the Active and Reactive Power Measurements in Unsymmetrical Voltage Dip Ride-Through Testing, Wind Energy 11 (2008), 121—131.10.1002/we.254Search in Google Scholar

[12] FUCHS, E. F.—MASOUM, M. A. S.: Power Quality in Electrical Machines and Power Systems, Elsevier Academic Press, 2008.Search in Google Scholar

[13] FUCHS, E. F.—MASOUM, M. A. S.: Power Conversion of Renewable Energy Systems, Springer, 2011.10.1007/978-1-4419-7979-7Search in Google Scholar

[14] AWAD, H.—SVENSSON, J.—BOLLEN, M. J.: Tuning Software Phase-Locked Loop for Series-Connected Converters, IEEE Transaction on Power Delivery 20 (2005), 300—308.10.1109/TPWRD.2004.837823Search in Google Scholar

[15] NEWMAN, M. J.—HOLES, D. G.: An Integrated Approach for the Protection of Series Injection Inverters, IEEE Transaction on Industrial Application 38 (2002), 679—687.10.1109/TIA.2002.1003417Search in Google Scholar