In this article, the relationship between slot-pole combination and the electromagnetic performance of a partitioned-stator field-excitation (PS-FE) brushless machine is analyzed by the air-gap field modulation principle (AFMP). First, the air-gap field modulation process of two PS-FE machines is investigated with the inner stator (IS) pole number ${N} _{i}$ /rotor pole number ${N} _{r}$ /outer stator (OS) slot number ${N} _{o}$ of 8/18/42 and 12/10/12 respectively, and verified by finite element analysis (FEA) and experiments. Then, a general combination (Rule-I), a deprecated combination (Rule-II), and a compensatory combination (Rule-III) are defined to guide the slot-pole selection. It is found that if ${N} _{r}$ is an integer multiple of ${N} _{i}$ /2 (i.e., the IS pole pairs number ${p} _{i}$ ), the air-gap flux-densities will contain only the integer multiple harmonics of ${p} _{i}$ , resulting in an asymmetric flux-linkage and a back-electromotive force (back EMF) in the armature windings. Although symmetric flux-linkage and back EMF can be performed by Rule-III, a higher torque ripple and a higher dc-winding-induced flux-linkage exist in the PS-FE machines. Hence, Rule-IV and the saturated IS effect are discussed to pursue a lower dc-winding-induced flux-linkage, thereby a lower induced voltage under both open-circuit and on-load. Finally, rules are listed and the important findings are summarized.


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    Title :

    Relationship Between Slot-Pole Combination and Performance of Partitioned-Stator Field-Excitation Brushless Machines by Air-Gap Field Modulation Principle


    Contributors:
    Zhang, Zhiheng (author) / Hua, Wei (author) / Wang, Yubin (author) / Li, Xianglin (author) / Zhu, Xinkai (author) / Cheng, Ming (author)

    Published in:

    Publication date :

    2024-12-01


    Size :

    16939520 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English