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Tytuł artykułu

Reconfigurable three-phase SPWM implementation on DE2 FPGA

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Warianty tytułu
PL
Implementacja rekonfigurowalnej, trójfazowej techniki SPWM na platformie DE2 z FPGA
Języki publikacji
EN
Abstrakty
EN
The purpose of this paper is to design and implement a modified strategy in traditional three phase SPWM technique based on Cyclone II ALTERA FPGA to be used for variable voltage and frequency AC supplies with high resolution to cover a required range of v and f, with customizable SPWM characteristics such as modulation index, carrier frequency, modulating signal frequency and delay time (dead-time). The design entry is achieved using Quartus II software through schematic and VHDL description language tools. By using the Altera DE2 development and education board the proposed architecture has been implemented and tested. Behavioural simulation and experiment results are successfully achieved showing that the proposed SPWM signal generation strategy works properly and can reduce the usage of logic elements (LE).
PL
W artykule opisano implementację zmodyfikowanej techniki modulacji sinusoidalnej PWM dla trójfazowych zasilaczy AC o regulowanym napięciu i częstotliwości. W badaniach wykorzystano platformę DE2 z układem FPGA Cyclone II firmy Altera. Wyniki symulacyjne i eksperymentalne potwierdzają skuteczność działania i redukcję wykorzystania zasobów układu.
Słowa kluczowe
EN
FPGA   SPWM   VHDL   logic element  
PL
Rocznik
Strony
144--149
Opis fizyczny
Bibliogr. 16 poz., il., schem., wykr.
Twórcy
autor
  • University of Hadj Lakhdar - Batna, Department of Electronics, Avenue Chahid Boukhlouf, Batna 05000, Algeria
  • University of Hadj Lakhdar - Batna, Department of Electronics, Avenue Chahid Boukhlouf, Batna 05000, Algeria
autor
  • University Amar Telidji - Laghouat , Department of Electronics, Laboratoire de Télécommunications, Signaux et Syst_emes, BP G37 Route de Ghardaia, Laghouat 03000, Algeria
Bibliografia
  • [1] N.A. Rahim and Z. Islam, Field Programmable Gate Array Based Pulse-Width Modulation for Single Phase Active Power Filter, American Journal of Applied Sciences 6 (2009) 1742–1747.
  • [2] J. O. Hamblen, T. S. Hall, and M. D. Furman,Rapid Prototyping of Digital Systems, Springer 2008.
  • [3] Y. Tzou, nd H.J. Hsu, FPGA Realization of Space-Vector PWM Control IC for Three-Phase PWM Inverters, IEEE Trans. On Power Electronics 12 (1997) 953–965.
  • [4] B. Kariyappa, M. U. Kumari, CPWM And SPWM Techniques of Controlling Speed of AC Servomotor Using FPGA, International Journal of VLSI and Signal Processing Applications 1 (xxxx) 26–29.
  • [5] S. Kilts ,Advanced FPGA Design Architecture, Implementation, and Optimization, John Wiley & Sons, 2007
  • [6] T. Sutikno, M. Facta, An Efficient Strategy to Generate High Resolution Three-Phase Pulse Width Modulation Signal Based on Field Programmable Gate Array, International Journal of Computer and Electrical Engineering, 2 (2010)
  • [7] B. Kariyappa, M. U. Kumari, FPGA Based Speed Control of AC Servomotor Using Sinusoidal PWM, International Journal of Computer Science and Network Security 8 (2008), 346–357.
  • [8] A. AbuBakar, M. Z. Ahmad and F.S. Abdullah, Design of FPGA Based SPWM Single Phase Inverter, Proc. of Malaysian Technical Universities Conference on Engineering and Technology Pahang, Malaysia, June 20-22, 2009.
  • [9] J. Bonal, G. Seguier, Variable speed electric drives Vol. 2: reminders on power and control electronics, electronic variable speed drives, (Lavoisier publishing, Paris,2000)
  • [10] R.K. Pongiannan I N.Yadaiah, FPGA based Space Vector PWM Control IC for Three Phase Induction Motor Drive, it Proc. 3rd Int. Conf. EntityRelationship Approach, 2006, pp 2061-2066.
  • [11] K. V. Kumar, P. A. Michael, J. P. John and S. S. Kumar, Simulation and Comparison of SPWM And SVPWM Control For Three Phase Inverter, ARPN Journal of Engineering and Applied Science, 5 (2010),
  • [12] , DE2 Developement and education board user manual, Altera USA .
  • [13] E. Koutroulis, A. Dollas, K. Kalaitzakis, High-frequency pulse width modulation implementation using FPGA and CPLD ICs, Journal of Systems Architecture 52 (2006) 332–344.
  • [14] W.A. Salah , D. Ishak , K. J. Hammadi, PWM Switching Strategy for Torque Ripple Minimization in BLDC Motor, Journal of Electrical Engineering- Slovakia 62 (2011) 141–146.
  • [15] S.L. Jung, M.Y. Chang, Jin-Yi Jyang, L.C. Yeh, and Y. Y. Tzou, Design and Implementation of an FPGA-Based Control IC for AC-Voltage Regulation, IEEE Trans. on Power Electronics 14 (1999).
  • [16] F. Berrezzek, A. Omeiri, A Study of New Techniques of Controlled PWM Inverters European Journal of Scientific Research 32 (2009) 77–87.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-90734f1a-4b43-483f-b02e-e09acbcc6db0
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