Gulbudak, OzanGokdag, Mustafa2024-09-292024-09-2920220885-89691558-0059https://doi.org/10.1109/TEC.2021.3131385https://hdl.handle.net/20.500.14619/6164This paper presents a dual-hysteresis band control method for multi-drive systems based on a nine-switch inverter. The drive system contains two independent three-phase induction motors fed by a nine-switch inverter. Independent control of torque, speed, and stator current of two load stages is achieved. The proposed strategy offers a reliable control operation of both induction machines under individual load profiles. Instead of using independent sets of three-phase voltage source converters, the nine-switch inverter is used to drive separate machines. Thus, the volume and size of the power stage are noticeably reduced due to the use of fewer semiconductors. The theoretical concept and design steps of the proposed method are presented. The performance of the closed-loop independent motor control scheme is experimentally validated using a 3.2 kW lab-scaled nine-switch inverter prototype and Altera Cyclone IV Field-programmable gate array.eninfo:eu-repo/semantics/closedAccessInvertersSwitchesInduction motorsControl systemsVoltage controlRotorsTorqueNine-switch invertermulti-drive systemsmulti-machines controlhysteresis current controlvariable-speed drivesfield-programmable gate arrayArticle10.1109/TEC.2021.31313852-s2.0-851205581547992Q178837WOS:000800225300008Q2