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Regulation of current harmonics in grid with dead-beat controlled shunt active power filter

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Warianty tytułu
PL
Aktywny filtr bocznikowy wykorzystujący sterownik typu dead-beat do redukcji harmonicznych
Języki publikacji
EN
Abstrakty
EN
Hardware implementation of Shunt Active Power Filter (SAPF) to regulate harmonics in the grid current is presented in this work. Dead-beat controller is employed to regulate the harmonics injected by SAPF using Spartan-6 FPGA processor. The effectiveness of the control strategy is tested under different operating conditions through MATLAB simulations and experimental approach to reduce the grid current harmonics and to meet the IEEE519:2014 recommendations for harmonic regulation guidelines, at the Point-of-Common-Coupling(PCC).
PL
Zaprezentowano bocznikowy filtr aktywny zaprojektowany do redukcji harmonicznych w sieci. Sterownik typu dead-beat jest zastosowany wstrzykiwania prądu z wykorzystaniem procesora Spartan-6 FPGA. Zbadano efektywność sterownia w różnych warunkach pracy przy spełnieniu rekomendacji IEEE519:2014.
Rocznik
Strony
17--23
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
  • School of Electrical Engineering, Vellore Institute of Technology, Chennai Campus, Vandalur - Kelambakkam Road, Tamil Nadu, India
  • School of Electrical Engineering, Vellore Institute of Technology, Chennai Campus, Vandalur - Kelambakkam Road, Tamil Nadu, India
Bibliografia
  • [1] Singh B.:Active power line conditioners for power quality improvement -A prospective, Journal of the Indian Institute of Science, 77 (1997) No. 6, 627-639
  • [2] Lin B. R., Member S., Wei, T. C. : A Novel NPC Inverter for Harmonics Elimination and Reactive Power Compensation, IEEE Transactions on Power Delivery, 19 (2004) No. 3, 1449- 1456
  • [3] Luo A., Shuai Z., Zhu W., Shen Z. J., Member S.: Combined System for Harmonic Suppression and Reactive Power Compensation, IEEE Transactions on Industrial Electronics, 56(2009) No. 2, 418-428
  • [4] Marek Gala., Andrzej Jaderko.: Assessment of the impact of the micro wind turbine on the power quality in the distribution network. PRZEGLĄD ELEKTROTECHNICZNY , (2019) No. 1, 33-36
  • [5] Moulahoum S., Houassine H., Kabache N.: Parallel active filter to eliminate harmonics generated by compact fluorescent lamps, 21st Mediterranean Conference on Control and Automation, MED 2013 - Conference Proceedings, 143-148
  • [6] Vodyakho O., Mi C. C.: Three-Level Inverter-Based Shunt Active Power Filter in Three-Phase Three-Wire and Four-Wire Systems, IEEE Transactions on Power Electronics, 24(2008) No. 5,1350-1363
  • [7] Lee, H. H. : Versatile shunt hybrid power filter to simultaneously compensate harmonic currents and reactive power, Journal of Electrical Engineering and Technology, 10(2015) No. 3, 1311-1318
  • [8] Salmeron P., Litran SP. : A control strategy for hybrid power filter to compensate four-wires three-phase systems, IEEE Transactions on Power Electronics, 25(2010) No. 7, 1923- 1931
  • [9] Bojoi R. I., Limongi L. R., Roiu D., Tenconi A.: Enhanced power quality control strategy for single-phase inverters in distributed generation systems, IEEE Transactions on Power Electronics, 26(2011) No. 3, 798-806
  • [10] Ricardo L., Ribeiro D. A., Azevedo C. C. De, Sousa, R. M. De.: A Robust Adaptive Control Strategy of Active Power Filters for Power-Factor Correction, Harmonic Compensation, and Balancing of Nonlinear Loads, IEEE Transactions on Power Electronics, 27 (2012) No. 2, 718-730
  • [11] Trinh Q.N., Lee H.H. : An Advanced Current Control Strategy for Three-Phase Shunt Active Power Filters, IEEE Transactions on Industrial Electronics, 60(2013) No. 12, 5400-5410
  • [12] Chen Q., Yuan R., Deng X., Guo P., Xiao Z. : Shunt active power filter with enhanced dynamic performance using novel control strategy, IET Power Electronics, 7(2014) No. 12, 420- 428 22 PRZEGLA˛D ELEKTROTECHNICZNY, ISSN 0033-2097, R. 95 NR 12/2019
  • [13] Hamad M. S., Masoud M. I., Member S., Ahmed K. H., Williams B. W.: A Shunt Active Power Filter for a Medium- Voltage 12-Pulse Current Source Converter Using Open Loop Control Compensation, IEEE Transactions on Industrial Electronics, 61(2014) No. 11, 5840-5850
  • [14] Akagi H.: New Trends in Active Filter for Power Conditioning, IEEE Transactions on Industry Applications, 32 (1996) No. 6, 1312-1322
  • [15] Rodr P., Candela J. I., Luna A., .: Current Harmonics Cancellation in Three-Phase Four-Wire Systems by Using a Four- Branch Star Filtering Topology, IEEE Transactions on Power Electronics, 24(2009) No. 8, 1939-1950
  • [16] Shah M. C., Chauhan S. K., Tekwani P. N., Tiwari R. R. : Analysis, design and digital implementation of a shunt active power filter with different schemes of reference current generation., IET Power Electronics, 7(2014) No. 3, 627-639
  • [17] Dash S. K., Panda G., Ray P. K., Pujari S. S.: Realization of active power filter based on indirect current control algorithm using Xilinx system generator for harmonic elimination, IEEE Transactions onElectrical Power and Energy Systems, 74 (2016), 420-428
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-525fa4e5-7954-40d7-8cf4-8b2b2bc882c9
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