Dual Mode Symmetrical Proportional Resonant Controlled Quadratic Boost Converter for PMSM-Drive

Power electronics-based converters have been widely used in several applications, specifically electric propulsion systems. Ongoing advancements led to high-gain Quadratic Boost Converters (QBC) which control Permanent Magnet Synchronous Motor (PMSM) drive. In this work, a novel scheme is employed, particularly three-phase inverter between QBC and PMSM operated by dual-mode controller strategy. Precisely, the novelty of work use quadratic boost converter drive applying different strategies. This also demonstrates simulation two current strategies applied Semi-Converter (SC) fed based on PMSM-based EV. It presents strategy, inquiry, model SC-based (TPI) with symmetrical PI (Proportional Integral), FOPID (Fractional Order Proportional Integral Derivative), PR Resonant) controllers. The simulated results offer significant improvement parameters compared PI-PI framework, notably voltage, speed, torque against source disturbances. Further, PR-PR approach provides better time-domain than strategy (including least rise time (Tr) 1.15 s, peak (Tp) 2.38 settling (Ts) 4.12 steady-state error (Ess) 4.89 s). Furthermore, experimental module designed test effectiveness proposed was found be more advantageous dual mode symmetric controlled QBC-TPI PMSM.