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Effective controller design for the three-phase cascaded H-bridge multilevel active power filter

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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Projekt sterownika do trzyfazowego kaskadowego wielopoziomowego filtru aktywnego mocy
Języki publikacji
PL
Abstrakty
PL
Zaprezentowano modelowanie I projekt trzyfazowego kaskadowego wielopoziomowego filtru aktywnego mocy. Opracowano predykcyjny sterownik prądu z algorytmem bazującym na obserwatorze Leuenbergera. Zaprezentowano symulacje z wykorzystaniem programu Matlab/Simulink i EMTP-ATP.
EN
This paper presents the modelling and effective controlled design for the three-phase cascaded H-bridge (CHB) multilevel active power filter (APF).The mathematical model of the CHB-APF is derived using state-space representations, and the discrete domain model is also presented. A robust predictive current controller is proposed, which shows excellent steady-state precision and sufficient dynamic characteristics owing to the Luenberger observer-based adaptive control algorithm. The digital simulation results obtained from the Matlab/Simulink and the electromagnetic transient program (EMTP-ATP) are presented. The validity and effectiveness of the devised control algorithms are validated by the simulation results.
Rocznik
Strony
257--265
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
  • Department of Power Electronics, School of Mechatronics Engineering, University of Electronic Science and Technology of China (UESTC), No.2006 XiYuan Road, West Park of Chengdu High-Tech Zone, Chengdu, China, hanyang_facts@hotmail.com
Bibliografia
  • [1] Biricik S., Ozerdem O., Investigation of switched capacitors effect on harmonic distortion levels and performance analysis with active power filter, Przeglad Elektrot., 85(2010), n.11a, 13-17.
  • [2] Han Y., Xu L., Yao G., Zhou L., Khan MM, Chen C., State- Space Averaging (SSA) Technique for Modeling of the Cascaded H-Bridge Multilevel DSTATCOMs and Active Filters, International Review of Electrical Engineering-IREE, 4(2010), n.5, 744-760.
  • [3] Brahim B., Chellali B., Mostefa R., Hamza T., An efficient algorithm to tuning PI-controller parameters for shunt active power filter using ant colony optimization, Przeglad Elektrot., 87(2011), n. 6, 140-145.
  • [4] Han Y., Xu L., A survey of the smart grid technologies: background, motivation and practical applications, Przeglad Elektrot., 87(2011), n.6, 47-57.
  • [5] Han Y., Xu L., Yao G., Zhou L., Khan MM, Chen C., Flicker mitigation of arc furnace load using modified p-q-r method, Przeglad Elektrot., 85(2009), n.1, 225-229.
  • [6] Han Y., Xu L., Yao G., Zhou LD., Khan MM., Chen C., A novel modulation scheme for dc-voltage balancing control of cascaded H-bridge multilevel APF, Przeglad Elektrot., 85(2009), n. 5, 81-85.
  • [7] Tomasz A., Dawid B., Marian P., Simulation of active power filter with prediction control in Matlab and Orcad environments with using SLPS interface, Przeglad Elektrot., 87(2011), n. 5, 1-5.
  • [8] Han Y., Xu L., Yao G., Zhou L., Khan MM, Chen C., A Robust Deadbeat Control Scheme for Active Power Filter with LCL Input Filter, Przeglad Elektrot., 86(2010), n.2, 14-19.
  • [9] Han Y., Xu L., Khan MM, Chen C., Yao G., Zhou L., Modelling and controller synthesis of a hybrid-LCL APF for power quality conditioning applications, Przeglad Elektrot., 86(2010), n.9, 326-333.
  • [10] Kazimierz M., Andrzej T., Ripple estimation in active power filters, Przeglad Elektrot., 87(2011), n.5, 111-115.
  • [11] Han Y., Xu L., Khan MM, Chen C., Power balancing control strategies for the cascaded H-bridge multilevel DSTATCOM, Przeglad Elektrot., 87(2011), n.2, 212-219.
  • [12] Sergio V., Jose IL., Juan M.C., Leopoldo GF., etc., Analysis of the power balance in the cells of a multilevel cascaded Hbridge converter, IEEE Trans. Ind. Electron., 57(2010), n.7, 2287-2296.
  • [13] Barrena J., Marroyo L., Vidal M., Apraiz J., Individual voltage balancing strategy for PWM cascaded H-bridge converterbased STATCOM, IEEE Trans. Ind. Electron., 55(2008), n.1, 21-29.
  • [14] Han Y., Xu L., Averaged and switching function modelling for the active power filter with LCL-type coupling impedance, Przeglad Elektrot., 87(2011), n.4, 176-181.
  • [15] Krzysztof S., Control circuit for active power filter with an instantaneous reactive power control algorithm modification, Przeglad Elektrot., 87(2011), n.1, 96-100.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOC-0060-0063
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