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More complicated SVM strategies for the unbalanced operation of four-leg three-phase inverters do exist. In these strategies the switching vectors define a 3D shape (a hexagonal [[Prism (geometry)|prism]] in <math>\alpha\beta\gamma</math> coordinates<ref>R. Zhang, V. Himamshu Prasad, D. Boroyevich and F.C. Lee, "Three-Dimensional Space Vector Modulation for Four-Leg Voltage-Source Converters," IEEE Power Electronics Letters, vol. 17, no. 3, May 2002</ref> or a [[dodecahedron]] in abc coordinates<ref>M.A. Perales, M.M. Prats, R.Portillo, J.L. Mora, J.I. León, and L.G. Franquelo, "Three-Dimensional Space Vector Modulation in abc Coordinates for Four-Leg Voltage Source Converters," IEEE Power Electronics Letters, vol. 1, no. 4, December 2003</ref>) rather than a 2D [[hexagon]].
General SVM techniques are also available for converters with any number of legs and levels <ref>Ó. Lopez, J. Alvarez, J. Doval-Gandoy and F. D. Freijedo, "Multilevel Multiphase Space Vector PWM Algorithm," in IEEE Transactions on Industrial Electronics, vol. 55, no. 5, pp. 1933-1942, May 2008.</ref>
==See also==
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