Archivio Istituzionale della RicercaThis work presents a magnetic equivalent circuit model for electrically excited synchronous machines, based on a mesh formulation that accounts for both magnetic saturation and rotor position. The nonlinear system arising from magnetic saturation is solved through an iterative procedure. The model includes a detailed analytical description of the reluctance network, capturing all key magnetic phenomena including air gap flux density behavior and 2D leakage fluxes. The rotor motion is incorporated by shifting a fixed rotor topology with respect to the stator network. Post-processing capabilities allow for the computation of flux linkages in the dq reference frame and electromagnetic torque.
Advanced Magnetic Equivalent Circuit Modeling for Electrically Excited Synchronous Machines with Rotor Rotation / Graffeo, Federica; Vaschetto, Silvio; Tenconi, Alberto; Bramerdorfer, Gerd; Cavagnino, Andrea. - (2025), pp. 904-909. ( 2025 IEEE International Electric Machines and Drives Conference, IEMDC 2025 Houston, TX, USA 2025) [10.1109/iemdc60492.2025.11061064].
Advanced Magnetic Equivalent Circuit Modeling for Electrically Excited Synchronous Machines with Rotor Rotation
Graffeo, Federica;Vaschetto, Silvio;Tenconi, Alberto;Cavagnino, Andrea
2025
Abstract
This work presents a magnetic equivalent circuit model for electrically excited synchronous machines, based on a mesh formulation that accounts for both magnetic saturation and rotor position. The nonlinear system arising from magnetic saturation is solved through an iterative procedure. The model includes a detailed analytical description of the reluctance network, capturing all key magnetic phenomena including air gap flux density behavior and 2D leakage fluxes. The rotor motion is incorporated by shifting a fixed rotor topology with respect to the stator network. Post-processing capabilities allow for the computation of flux linkages in the dq reference frame and electromagnetic torque.
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https://hdl.handle.net/11583/3007676