Open AccessModelling of High Torque Density Switched Reluctance Motors with Mutual Coupling
Author(s) -
Mario Greule,
Johannes Müller,
Martin Doppelbauer
Publication year - 2020
Publication title -
transactions on electrical engineering
Language(s) - English
Resource type - Journals
ISSN - 1805-3386
DOI - 10.14311/tee.2016.3.059
Subject(s) - switched reluctance motor , flux linkage , torque , coupling (piping) , control theory (sociology) , flux (metallurgy) , path (computing) , process (computing) , linkage (software) , reluctance motor , direct torque control , physics , computer science , engineering , mechanical engineering , materials science , induction motor , electrical engineering , control (management) , voltage , artificial intelligence , chemistry , operating system , biochemistry , metallurgy , thermodynamics , programming language , gene
In this paper a method is introduced which models the resulting motor torque and current dynamics directly from the flux linkages. With the introduced method to process the flux linkage characteristics it is sufficient to calculate half of an electrical period to receive all information for modelling the system’s behaviour, even for both long and short flux path mutual coupling. The model is validated by 2D finite