Tytuł artykułu

Feedback control of three-Level PWM rectifier: Application to the stabilization of DC Voltages of five-level NPC active power filter

Tytuł czasopisma

Archives of Control Sciences




No 3


Wydział PAN

Nauki Techniczne


Committee of Automatic Control and Robotics PAS




DOI: 10.2478/v10170-010-0020-9 ; ISSN 1230-2384


Archives of Control Sciences; 2010; No 3


Wagner V. (1993), Effects of harmonics on equipment, IEEE Trans. Power, Delivery, 8, 672. ; Hochgraf C. (1995), Comparison of multilevel inverters for static var compensation, Conf. Rec. IEEE-IAS Annu. Meeting, 3, 2557. ; Choe G. (1988), A new injection method for ac harmonic elimination by active power filter, IEEE Trans. on Industry Applications, 35, 1, 141. ; Diga S. (2006), Aspects concernant la limitation des effets de la circulation des harmoniques dans les reseaux de distribution, Annals of the University of Craiova, Electrical Engineering, 282. ; Choi J. (1995), Standby power supply with active power filter ability using digital controller, null, 783. ; Bhattacharya S. (1995), Active filter solutions for utility interface, Proc. IEEE ISIE, 1. ; Saetieo S. (1995), The design, implementation of a three-phase active power filter based on sliding mode control, IEEE Trans. Ind. Appl, 31, 993. ; Bor-Ren L. (2001), Shunt active filter with sliding mode control, Proc. IEEE TENCON'OI, 2, 884. ; Abdelkrim T. (2008), Commande non linéaire par mode de glissement d'un filtre actif parallèle à sept niveaux, null. ; Engin O. (2003), A novel control method for active power filter under non-ideal mains voltage, Proc. IEEE CCA, 2, 931. ; Mendalek N. (2000), Modeling and nonlinear control of shunt active power filter in the synchronous reference frame, Proc. Harmonics and Quality of Power, 1, 30. ; Gupta R. (2006), Control of 3-level shunt active power filter using harmonic selective controller, null. ; Aburto V. (1997), An active power filter implemented with a three-level NPC voltage-source inverter, IEEE PESC'97 Record, 2, 1121. ; Lin B. (2006), Three-phase three-level active power filter with a clamped capacitor topology, IEE Proc.-Electr. Power Appl, 153, 4, 513. ; Nabae A. (1981), A new neutral-point-clamped PWM inverter, IEEE Tran. On Ind. Appl, IA-17, 5, 518. ; Lai J. (1996), Multilevel converters. A new breed of power converters, IEEE Tran. On Ind. Appl, 32, 3, 509. ; Corasaniti V. (2008), Comparison of active filters topologies in medium voltage distribution power systems, null, 1. ; Rastogi M. (2005), Multi-level active filter for medium voltage applications, Int. Conf. on Power Electronics and Drives Systems, 2, 1508. ; Menzies R. (1994), Five-level GTO inverters for large induction motor drives, IEEE Trans. Ind. Applicat, 30, 938. ; Rodriguez J. (1999), A simple neutral point control for three-level PWM rectifiers, EPE. ; Bouchafaa F. (2007), Feedback control of DC link voltage of the back-to-back PWM multilevel converter, J. of Electrical Engineering, 58, 6, 318. ; Bouchafaa F. (2008), Modelling and control of a power electronic cascade for the multi DC bus supply, The Int. J. for Computation and Mathematics in Electrical and Electronic Engineering, 27, 5, 1128. ; Hor N. (2001), A fast dynamic DC link power-balancing scheme for PWM converter-inverter, IEEE Trans. on Industrial Electronics, 8, 4. ; Peng F. (1997), Dynamic performances and control of a static VAR generator using cascade multilevel inverters, IEEE Trans. on Industry Applications, 33, 3. ; Guedouani R. (2007), Control of capacitor voltage of three phase five-level NPC voltage source inverter. Application to inductor motor drive, null, 794. ; Celanovic N. (2000), A comprehensive study of neutral-point voltage balancing problem in three-level neutral-point-clamped voltage source PWM inverters, IEEE Trans. on Power Electronics, 15, 2, 242. ; Srikanthan S. (2009), Capacitor voltage balancing in neutral clamped inverters for DSTATCOM application, null, 558. ; Strzelecki R. (2001), Analysis of DC link capacitor voltage balance in multilevel active power filters. ; Slotine J. (1991), Applied nonlinear control. ; Utkin V. (1993), Sliding mode control design principles and application to electric drives, IEEE Trans. on Elect, 40, 23.