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FPGA Based Implementation of Amplitude Modulated Triangular Carrier PWM

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Warianty tytułu
PL
System PWM z modulacja fali trójkątnej wykorzystujący układy FPGA
Języki publikacji
EN
Abstrakty
EN
The amplitude modulated triangular carrier pulse width modulation method (AMTCPWM) is a natural sampled PWM method which can extend the linearity of the sinusoidal PWM (SPWM) to full range of the pulse dropping region and increase the dynamic range of the SPWM control. Any submission in the PWM theory with a specific performance target is mandatorily requires either a reference or a carrier modification. This paper presents a reprogrammable architecture to implement the AMTCPWM with perfect reproduction capability. The architecture is implemented using Spartan 6 family device LX45 using Modelsim 6.3 and Xilinx 13.2i.
PL
Metoda modulacji amplitudowej fali nośnej trójkątnej AMTCPWM umożliwia rozszerzenie możliwości klasycznej metody sinusoidalnej PWM SPWM. W pracy zaprezentowano wykorzystanie układów FPGA.
Rocznik
Strony
41--44
Opis fizyczny
Bibliogr. 18 poz., rys., schem., tab., wykr.
Twórcy
  • Noorul Islam University
autor
  • Noorul Islam University
Bibliografia
  • [1] Kassakian K.G., Schlecht M.F., Verghese G.C., Principles of Power Electronics. Reading, MA: Addison-Wesley, 1991.
  • [2] Bowes S.R., New sinusoidal pulse width-modulated inverter, Proceedings of IEE, 122(1975) No.11, 1279-1285.
  • [3] Mohan N., Undeland T.M., Robbins W.P., Power Electronics; Converters, Applications and Design, John Wiley, 1995, 211- 218.
  • [4] Vikram Kaura and Vladimir Blasko, A new method to extend linearity of a sinusoidal PWM in the overmodulation region,” IEEE Transaction on Industry Applications, 32(1996), No.5, 1115-1121.
  • [5] Michael A. Boost, and Phoivos D.Ziogas, State -of -Art– Carrier PWM Techniques: A Critical Evaluation,” IEEE Transactions Industry Applications, 24(1998), No.2, 271-280.
  • [6] Houldsworth J.A., Grant P.A., The use of harmonic distortion to increase the output voltage of a three-phase PWM inverter,” IEEE Transactions on Industry Applications, 20(1984), No.5, 1224-1228.
  • [7] Rodriguez J., Jih-Sheng Lai, Fang Zheng Peng., Multilevel inverters: a survey of topologies, controls, and applications, IEEE Transactions on Industrial Electronics, 49(2002) , No.4, 724–38.
  • [8] Mekhilef S., Rahim N.A., Omar A.M., Microprocessor implementation of three-phase PWM switching strategies”, Proceedings of the IEEE International Conference on Power Electronics and Drive System (PEDS’99), 1(1999) , 161-166.
  • [9] The programmable logic data book”, Xilinx® Data Book, 1998.
  • [10] Monmasson E., Chapuis Y.A., Contributions of FPGAs to the control of electrical systems-A review,” IEEE Ind. Electron. Soc. Newsletter, 49(2002), 8–15.
  • [11] Green and Boys J.T., Implementation of pulse width modulated inverter modulation strategies, IEEE Trans. Ind. Appl.,18(1982), No. 2, 138-145.
  • [12] Khaled E.Addoweesh, William Shepherd and Hulley L.N., Induction Motor Speed Control using a Microprocessor-based PWM inverter, IEEE Transactions on Industrial Electronics, 36(1989), No.4, 516-522.
  • [13] Eftichios Koutroulis, Apostolos Dollas, Kostas Kalaitzakis, High-frequency pulse width modulation implementation using FPGA and CPLD ICs, Journal of Systems Architecture, 2005.
  • [14] Ted K.A., Brekken and Ned Mohan, A Flexible and Inexpensive FPGA-Based Power Electronics and Drives Laboratory, Proceedings of 37th IEEE Power Electronics Specialists Conference (PESC'06), 2006, 1-4.
  • [15] Angel de Castro, Pablo Zumel, Oscar García, Teresa Riesgo, and Javier Uceda, Concurrent and Simple Digital Controller of an AC/DC Converter With Power Factor Correction Based on an FPGA, IEEE Transactions on Power Electronics, 18(2003), No.1, 334-343.
  • [16] Holtz J., Lotzkat W., Khambadkone A., On Continuous Control of PWM Inverters in the Overmodulation Range Including the Six-Step Mode, Proceedings of 18th Annual IEEE International Ind. Electronics Soc. Conference (IECON’92)1992,307-312. 1992.
  • [17] Houldsworth J.A., Grant P.A., The use of harmonic distortion to increase the output voltage of a three-phase PWM inverter, IEEE Transactions on Industry Applications, 20(1984), No.5, 1224-1228.
  • [18] Ramkumar S., Jeevananthan S., Kamaraj V., Novel Amplitude Modulated Triangular Carrier Gain Linearization Technique for SPWM Inverter”, Serbian Journal of Electrical Engineering (SJEE), 6(2009), No.2, 239-252.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-aca44c7e-7c23-42d9-b095-888c89b1bc73
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