Modelling of magnetic saturation in smooth air-gap synchronous machines

Main flux saturation in d-q arris representation of synchronous machines is at present modelled by selecting either all the minding currents or all the minding flux linkages as state-space variables. However, these two available models are just a tiny portion of the complete set of models that ran be obtained by selecting other combinations of state-space variables. This paper presents a general procedure for main flux saturation modelling in smooth air-gap; synchronous machines, that is applicable for most selections of state-space variables. The method relies on concept of 'generalised flux' and 'generalised inductance', that has recently been successfully applied in modelling of saturated single-cage and double-cage induction machines. The concept is here extended to saturation modelling in smooth air-gap synchronous machines. A number of models, that result from the application of the method for different selections of state-space variables, are presented in detail.