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Electric Drive Based on an Open-End Winding Surface PM Synchronous Machine With a Floating Capacitor Bridge

Albino Amerise, Luca Rovere, Andrea Formentini, Michele Mengoni, Luca Zarri, Pericle Zanchetta

2020IEEE Transactions on Industry Applications26 citationsDOIOpen Access PDF

Abstract

A speed control scheme is presented for a three-phase surface permanent magnet synchronous machine with an open-end stator winding fed by a three-phase inverter and a floating bridge inverter. The latter is used to compensate for the reactive power of the main inverter and to maximize the active power received by the motor, without exceeding the available stator current and dc-link voltage. To reduce the switching losses, the dc-link voltage of the floating inverter bridge varies depending on the operating condition of the motor and the controllability requirements of the system. The experimental results show that a significant improvement in the speed range at constant power is achievable, proportionally to the dc-link voltage of the floating bridge inverter.

Topics & Concepts

InverterStatorControllabilityControl theory (sociology)Electrical engineeringVoltageAC powerCapacitorEngineeringSynchronous motorComputer scienceControl (management)Applied mathematicsMathematicsArtificial intelligenceElectric Motor Design and AnalysisSensorless Control of Electric MotorsMultilevel Inverters and Converters
Electric Drive Based on an Open-End Winding Surface PM Synchronous Machine With a Floating Capacitor Bridge | Litcius