International Journal of Renewable Energy Research-IJRER

This paper deals with a mathematical development of four-switch inverter duty cycles computing for two-phase induction motors drive. The proposed proof serves to explain the steps to be followed from the reference voltage graphical representation to the switching sequence determination. Two structures of 2?-inverter two-phase induction motor (TPIM) associations such as two-leg four switches and two-leg six switches are briefly presented. Hence, the difference between the space vector modulation control strategies of these alternative current motor drives is analyzed. The considered 2?-inverter topology is carefully detailed to facilitate the computing method comprehension for TPIM speed control in order to perform their switching sequences generation and therefore the hardware implementation complexity through numerical boards. By this structure, wind energy emulation, electric traction, and photovoltaic pumping fields can be targeted.

Four switch 2?-Inverter; Two-Phase Induction Motor; Advanced SVM technique; Mathematical proof; Hardware implementation

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