Abstract
Voltage source inverters (VSIs) are commonly used in variable speed AC drives, Uninterruptible Power Supplies (UPS), and utility interface of renewable power generation systems. In such applications the pulsewidth modulation (PWM) technique has been accepted as a standard technique to control both output voltage and frequency. As the implementation is simpler, sampling based PWM techniques are more popular than the programmed ones. In sampling based PWM techniques, the reference or modulating signal is sampled regularly and the result is used in such a way as to control the pulsewidth of the inverter output voltage so that the average value of the output voltage is proportional to the reference signal. The most popular implementation of the sampling based PWM technique is based on the comparison between a reference and a high-frequency triangular carrier signals, which is also referred to as subharmonic or natural sampling.
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References
Patel, H.S., Hoft, R.G.: Generalized Techniques of Harmonic Elimination and Voltage Control in Thyristor Inverters: Part I – Harmonic Elimination. IEEE Trans. Ind. Appl. 9(3), 310–317 (1973)
Zubek, J., Abbondanti, A., Nordby, C.J.: Pulsewidth Modulated Inverter Motor Drives with Improved Modulation. IEEE Trans. Ind. Appl. 11(6), 695–703 (1975)
Houldsworth, J.A., Grant, D.A.: The Use of Harmonic Distortion to Increase the Output Voltage of a Three-Phase PWM Inverter. IEEE Trans. Ind. Appl. 20(5), 1224–1228 (1984)
Bowes, S.R., Midoun, A.: Suboptimal Switching Strategies for Microprocessor Controlled PWM Inverter Drives. IEEE Proc. 132-B(3), 133–148 (1985)
Van der Broeck, H.W., Skudelny, H.C., Stanke, G.V.: Analysis and Realization of a Pulsewidth Modulator Based on Voltage Space Vector. IEEE Trans. Ind. Appl. 24(1), 142–150 (1988)
Boost, M.A., Ziogas, P.D.: State-of-the-Art Carrier PWM Techniques: A Critical Evaluation. IEEE Trans. Ind. Appl. 24(2), 271–280 (1988)
Kolar, J.W., Ertl, H., Zach, F.C.: Influence of the Modulation Method on the Conduction and Switching Losses of a PWM Converter System. IEEE Trans. Ind. Appl. 27(6), 1063–1075 (1991)
Holtz, J.: Pulsewidth Modulation –A Survey. IEEE Trans. Ind. Electr. 39(5), 410–420 (1992)
Chung, D.W., Kim, J.S., Sul, S.K.: Unified Voltage Modulation Technique for Real-Time Three-Phase Power Conversion. IEEE Trans. Ind. Appl. 34(2), 374–380 (1998)
Hava, A.M., Kerkman, R.J., Lipo, T.A.: Simple Analytical and Graphical Methods for Carrier-Based PWM-VSI Drives. IEEE Trans. Power Electr. 14(1), 49–61 (1999)
Casadei, D., Serra, G., Tani, A., Zarri, L.: Theoretical and Experimental Analysis for the RMS Current Ripple Minimization in Induction Motor Drives by SVM Technique. IEEE Trans. Ind. Electr. 51(5), 1056–1065 (2004)
Narayanan, G., Zhao, D., Khrisnamurthy, H.K., Ayyanar, R., Ranganathan, V.T.: Space Vector Based Hybrid PWM Techniques for Reduced Current Ripple. IEEE Trans. Ind. Electr. 55(4), 1614–1627 (2008)
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© 2012 Springer-Verlag Berlin Heidelberg
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Dahono, P.A. (2012). Analysis and Minimization of Harmonics on the AC and DC Sides of PWM Inverters. In: Keyhani, A., Marwali, M. (eds) Smart Power Grids 2011. Power Systems. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-21578-0_9
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DOI: https://doi.org/10.1007/978-3-642-21578-0_9
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