Dynamic modeling and control of five phase SVPWM inverter fed induction motor drive with intelligent speed controller

Abstract

Multi-phase induction motor (IM) drive is an emerging field of electric drive applications. This enables us to use the multi-phase AC machine than a three-phase machine. Precision speed control is important for industrial applications. Hence, direct torque control (DTC) with PI or PID regulators used, and these regulators are not flexible because of a constant gain in all working conditions. Therefore, robust speed control is essential for the precision speed control in industrial applications. The major objective of this study is to investigate a novel speed control for DTC of 5-ϕ VSI with space vector PWM (SVPWM) technique fed IM drive using wavelet fuzzy logic interface system. In precise, wavelet-fuzzy controller is an alternative for the PID controller used for DTC IM drive. The speed error signal comprises many short and extraordinary-frequency components. The scaled gains are generated for a DTC IM drive by the decomposition of discrete wavelet transform and the fuzzy logic controller (FLC) from high and low-frequency signals. The investigation of 2 hp 5-ϕ VSI fed IMD is carried out using the simulation model developed in MATLAB2016a software and examined under various working conditions. The simulation results are shown in this paper to confirm the suitability for industrial applications.