Archivio Istituzionale della RicercaThis paper presents the development of a high-speed electric drive based on a three-phase synchronous reluctance motor with a bimetallic rotor manufactured via additive manufacturing. The motor features an open-end stator winding and is supplied by a dual SiC-based inverter system consisting of two three-phase, three-level T-type inverters incorporating a floating capacitor. The floating capacitor topology enables the main inverter to operate at unity power factor. A coordinated control strategy manages both converters to maximize active power output while maintaining voltage and current within their limits and ensuring DC-link voltage balancing in the three-level converter. The paper describes the drive architecture, control scheme, and technical solutions adopted to achieve high-speed operation.
100+ krpm Open-End Winding Reluctance Motor Drive with a Floating Capacitor Bridge / Nayak, Deekshitha Srinivas; Rizzoli, Gabriele; Mengoni, Michele; Zarri, Luca; Tani, Angelo; Cavagnino, Andrea. - ELETTRONICO. - (2025), pp. 1-7. ( 2025 IEEE Energy Conversion Conference Congress and Exposition (ECCE) Philadelphia, USA 2025) [10.1109/ecce58356.2025.11260106].
100+ krpm Open-End Winding Reluctance Motor Drive with a Floating Capacitor Bridge
Tani, Angelo;Cavagnino, Andrea
2025
Abstract
This paper presents the development of a high-speed electric drive based on a three-phase synchronous reluctance motor with a bimetallic rotor manufactured via additive manufacturing. The motor features an open-end stator winding and is supplied by a dual SiC-based inverter system consisting of two three-phase, three-level T-type inverters incorporating a floating capacitor. The floating capacitor topology enables the main inverter to operate at unity power factor. A coordinated control strategy manages both converters to maximize active power output while maintaining voltage and current within their limits and ensuring DC-link voltage balancing in the three-level converter. The paper describes the drive architecture, control scheme, and technical solutions adopted to achieve high-speed operation.
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https://hdl.handle.net/11583/3007686