Seyed Payam Emami scite author profile

In this work, the electromagnetic torque and the unbalanced magnetic force (UMF) in eccentric consequent pole PM (CPPM) machines are investigated. For this investigation, in the first part of the paper, an exact analytical model is provided for the CPPM machine by solving the Poisson equation in the eccentric and salient air gap. In the analytical modelling process, the concept of equivalent magnetizing current (EMC), the subdomain technique, and a bilinear transformation are applied. The obtained model is verified by means of FEA. In the second part of the paper, by using the developed model, the relationship between the machine electromagnetic torque and the UMF to the d‐ and q‐axis components of the armature current is studied. It is shown that in CPPM machines, the influence of the q‐axis current on the electromagnetic torque is much higher than the effect of the d‐axis current. On the other hand, the eccentric machine UMF is strongly dependent on the d‐axis armature current while the variation of the UMF due to the changes in the q‐axis current is small. Therefore, in eccentric CPPM machines, UMF could be suppressed by injecting a negative d‐axis armature current (flux weakening).

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Fast prediction of unbalanced magnetic pull in PM machines

Emami

Boroujeni

Takorabet

2021

Electr Eng

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Permanent Magnet Generators for Wind Application: An Analytical Investigation

Emami

Roshandel

Mahmoudi

et al. 2021

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Robust Optimization of a Wind Generator based on an Analytical Model and Wind data of a Site

Emami

Mahmoudi²,

Kahourzade

2020

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IPM Motor Optimization for Electric Vehicles Considering Driving Cycles

Emami

Roshandel

Mahmoudi

et al. 2021

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