Authors: A.Muthuramalingam, S.Himavathi

Abstract:

Space Vector Modulation (SVM) is an optimum Pulse Width Modulation (PWM) technique for an inverter used in a variable frequency drive applications. It is computationally rigorous and hence limits the inverter switching frequency. Increase in switching frequency can be achieved using Neural Network (NN) based SVM, implemented on application specific chips. This paper proposes a neural network based SVM technique for a Voltage Source Inverter (VSI). The network proposed is independent of switching frequency. Different architectures are investigated keeping the total number of neurons constant. The performance of the inverter is compared for various switching frequencies for different architectures of NN based SVM. From the results obtained, the network with minimum resource and appropriate word length is identified. The bit precision required for this application is identified. The network with 8-bit precision is implemented in the IC XCV 400 and the results are presented. The performance of NN based general purpose SVM with higher bit precision is discussed.

Keywords: NN based SVM, FPGA Implementation, LayerMultiplexing, NN structure and Resource Reduction, PerformanceEvaluation

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1332562

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References:

[1] J. Holtz, " Pulsewidth Modulation - A survey", IEEE Trans. Ind. Electr., Vol. 39, pp. 410-419, Dec 1992.
[2] H.W.Van Der Broek, H.C.Skundelny and G.V.Stanke, "Analysis and realization of a pulsewidth modulator based on voltage space vectors", IEEE Trans. Ind. Appl., Vol. 24, pp. 140-150, Jan/Feb 1988.
[3] J.O.P.Pinto, B.K.Bose, L.E.Borges da Silva and M.P.Kazmierkowski, " A Neural Network based space vector pwm controller for voltage fed inverter induction motor drive", IEEE Trans. Ind. Appl., Vol. 36, No. 6, Nov/Dec 2000.
[4] A. Bakhshai, J. Espinoza, G. Joos, and H. Jin, "A combined artificial neural network and DSP approach to the implementation of space vector modulation techniques," in Conf. Rec. IEEE-IAS Annu. Meeting, 1996, pp. 934-940.
[5] K.Zhou and D.Wang, " Relationship between space vector modulation and three phase carrier base PWM- A comprehensive analysis", IEEE Trans. Ind. Electr., Vol. 49, No. 1, Feb. 2002.
[6] Jihan Zhu and Peter Sutton, "FPGA implementations of neural networks - a survey of a decade of progress", 2003.
[7] M.Marchesi, G.Orlandi, F.Piazza, and A.Uncini, " Fast Neural Networks Without Multipliers", IEEE Trans. Neural Networks, Vol. 4, No.1, Jan.1993, pp.53-61.
[8] D.Anitha "FPGA Implementation of Estimators for Sensorless Control of DTC Drives", M.Tech(EDC) Thesis, EEE Dept., PEC., Pondicherry University, June 2005.
[9] S.Tamura and M.Tateishi, " Capabilities of a Four-Layered Feedforward Neural Network: Four Layers Versus Three", IEEE Trans. Neural Networks, Vol. 8, No.2, March 1997.
[10] B.K.Bose, Modern Power Electronics and ac drives, Pearson Education (Singapore) Pvt. Ltd., India, 2003.