Hybrid-Clamping SVPWM Scheme for a Four-Level Open-End Winding Induction Motor Drive

Abstract

An open-end winding arrangement is fed with two typical 2-level voltage source inverters (VSIs) on either side to accomplish multilevel inversion. Two voltage source modules (VSIs) DC-link voltages are kept at a 2:1 ratio to realize the open-end winding induction motor (OEW-IM) power circuit’s four-level configuration. However, the higher DC-link voltage capacitor overcharges its lower DC-link voltage counterpart in the 4-level power circuit configuration. This article proposes a new hybrid-clamping space vector PWM (SVPWM) approach to prevent overcharging. Based on the sample moment, the suggested SVPWM technique clamps one inverter and switches to another inverter. Additionally, it clamps one of the inverter’s switching phases. The proposed PWM method has been found to reduce switching power loss in contrast to earlier SVPWM methods. The proposed SVPWM scheme for the 4-level OEW-IM drive is tested and verified using an experimental laboratory setup.