An analytical fast field solver for surface permanent magnet co‐axial magnetic gears

A mathematical model of co‐axial magnetic gears is given for the prediction of magnetic field distribution and the magnetic forces. The modelling approach is based on the separation of variables method (SVM), Sturm–Liouville problem, and spectral analysis. This method is computationally more efficient and has the ability to account for finite permeability of magnetic saliency. An finite element method (FEM) validation is performed for a case study, and the results are observed to be almost matched. The computational time of the analytical model has been almost in the same order of that of the FEM for a specified rotor position (both in a matter of a second or less); however, when 100 number of rotor positions were accounted in the simulation, the computational time of FEM was increased to 82 s, while the computational complexity of SVM was almost unaffected. A model of co‐axial magnetic gears is proposed for the prediction of magnetic field distribution and magnetic forces. The modelling approach is based on the separation of variables method, Sturm–Liouville problem and spectral analysis. This method is computationally more efficient and has the ability to account for finite permeability of magnetic saliency.