Iratxo Gómez scite author profile

In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the principal source of vibrations and noises. In this article, first of all the sources of magnetic forces in PMSMs are analyzed. Then, an analytical method for the calculation of radial forces on the base of the stator tooth created by electromagnetic sources in PMSMs is presented. Finally finite element method (FEM) is used to corroborate analytical results.

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Study of Demagnetization Risk in PM Machines

Almandoz

Gómez

Ugalde

et al. 2019

IEEE Trans. on Ind. Applicat.

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Methodology to study demagnetization risk in permanent magnet machines by Finite Element Method

Gómez

Almandoz

Ugalde

et al. 2017

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Analytical Model to Calculate Radial Forces in Permanent-Magnet Synchronous Machines

Gómez¹,

Garcia²,

McCloskey

et al. 2021

Applied Sciences

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There are three principal sources of noise and vibration in electrical machines: electromagnetic sources, mechanical sources, and aerodynamic sources. Nowadays, one of the major advantages of permanent-magnet synchronous machines is their torque density. This density is achieved through a high magnetic flux density in the air gap, which is achieved through hard magnets. Unfortunately, in these machines, electromagnetic forces have been identified as the main source of vibration and noise, and high magnetic flux densities make these vibrations and noises more significant. With the aim of better understanding the relationship between electromagnetic forces and design variables, this article, which is the continuation of previous work, firstly describes a study of the sources of magnetic forces in permanent-magnet synchronous machines. Subsequently, an analytical model for the computation of the radial forces originating from electromagnetic sources in permanent-magnet synchronous machines is stated. This model analyzes the forces on both the rotor surface and the base of the stator tooth. The analytical results were corroborated through simulations using the finite element method (FEM) and also by experimental tests performed over two prototypes. The results achieved by the analytical model show good agreement with both FEM results and experimental measurements.

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Iratxo Gómez

Analytical calculation of vibrations of electromagnetic origin in electrical machines

Analytical model to calculate radial forces in permanent-magnet synchronous machines

Study of Demagnetization Risk in PM Machines

Methodology to study demagnetization risk in permanent magnet machines by Finite Element Method

Analytical Model to Calculate Radial Forces in Permanent-Magnet Synchronous Machines

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