Details Details PDF BIBTEX RIS Title A modelling of AC voltage stabilizer based on a hybrid transformer with matrix converter Journal title Archives of Electrical Engineering Yearbook 2017 Volume vol. 66 Issue No 2 June Authors Szcześniak, Paweł Divisions of PAS Nauki Techniczne Publisher Polish Academy of Sciences Date 2017 Identifier DOI: 10.1515/aee-2017-0028 ; ISSN: 1427-4221 ; eISSN: 2300-2506 Source Archives of Electrical Engineering; 2017; vol. 66; No 2 June References (2009), Standard Recommended practice for monitoring electric power quality, IEEE, 1159. ; Choi (2009), The dead band control of LTC transformer at distribution substation on vol no pp, IEEE Transactions Power Systems, 24. ; Rodriguez (2012), of control and modulation methods for matrix converters on vol no pp, review IEEE Transactions Industrial Electronics, 14, 59. ; Kaniewski (2014), Three - phase hybrid transformer using matrix - chopper as an interface between two AC voltage sources of vol no pp, Archives Electrical Engineering, 17, 63. ; Benysek (2007), Improvement in the quality of delivery of electrical energy using systems, null. ; Szcześniak (null), converters without DC energy storage in the future electrical power network, Power electronics Electric Power Systems Research, 16, 129. ; Szcześniak (null), electronic converters without storage a and, power energy review Energy Conversion Management, 15, 483. ; Aeoliza (2003), and design of a novel voltage sag compensator for critical loads in electrical power distribution systems Transactions on Industrial Applications vol no pp, Analysis IEEE, 19, 39. ; Jurado (2004), Detecting transient voltage stability and voltage sag The for and in and vol no pp, COMPEL International Journal Computation Mathematics Electrical Electronic Engineering, 23, 392. ; Montero (2000), Application of a boost converter to compensate for voltage sags in electric power distribution systems Specialists Conference, Power Electronics, 18, 470. ; Nielsen (2005), Detailed comparison of system topologies for dynamic voltage restorers Transactions on Industrial Applications vol no pp, IEEE, 1272. ; Szcześniak (2016), Hybrid transformer with matrix converter on vol no pp, IEEE Transactions Power Delivery, 12, 31. ; Mahela (null), critical review of detection and classification of power quality events Renewable, Sustainable Energy Reviews, 41. ; Wheeler (2002), converters a technology on vol no pp, Matrix review IEEE Transactions Industrial Electronics, 25, 49. ; Minh (2013), Young Joon Single phase source based voltage sag swell compensator Conference and Exposition Long pp, Applied Power Electronics APEC USA, 21, 3138. ; Kaniewski (2014), voltage sag / swell compensator based on three - phase hybrid transformer with buck - boost matrix - reactance chopper on vol no pp, IEEE Transactions Industrial Electronics, 11, 3835. ; Burkard (null), Evaluation of topologies and optimal design of a hybrid distribution transformer European Conference on Applications Europe pp, Power Electronics, 13, 1. ; Korotyeyev (2009), Steady and transient states modelling methods of matrix - reactance frequency converter with buck - boost topology The for Computation and Mathematics in Electrical and Electronic vol no pp, COMPEL International Journal, 23, 626. ; Szcześniak (2014), static and dynamic model of a space vector modulated matrix - reactance frequency converter, Electric Power Systems Research, 22, 108.