When we use a lumped parameter model for electrostatic micromotor, it is necessary to associate it with a 3D finite element code. In order to compute the lumped parameters for different positions of the rotor, we present a method, up to now scarcely employed, which allows us to take into account the movement. To solve the algebraic system thus obtained, an iterative method associated with a SSOR preconditioning is then used. The numerical model is applied to an existing moto
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A versatile numerical model for the simulation of dynamic operations of electric machines and drives...
One of the difficulties of the three-dimensional (3-D) eddy current finite element methods is to sol...
In this paper, a finite element (FE) procedure for modeling electrostatically actuated MEMS is prese...
Following the principles proposed by workers at Berkeley University, we have developed a version of ...
peer reviewedIn this paper, a finite element (FE) procedure for modeling electrostatically actuated ...
peer reviewedThis paper deals with the coupled electrostatic- mechanical analysis of electrostatical...
The objective of this research is to develop an efficient numerical simulation tool to analyze elect...
An electrical machine is divided into two areas: the stator (S) (fixed part) and the rotor (R) (movi...
iii Microelectromechanical systems (MEMS) are small mechanical devices of dimensions from a few µm t...
Les machines électriques sont modélisées pour prédire leurs performances et optimiser leur rendement...
International audienceIn the context of vehicle electrification, car manufacturers are facing ever m...
The coupling methods allow the use of two independent meshes for mobile and fixed armature within th...
The aim of this thesis is to develop adapted numerical methods to model 3D electromagnetic equations...
Author name used in this publication: W. N. FuAuthor name used in this publication: S. L. HoAuthor n...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A versatile numerical model for the simulation of dynamic operations of electric machines and drives...
One of the difficulties of the three-dimensional (3-D) eddy current finite element methods is to sol...
In this paper, a finite element (FE) procedure for modeling electrostatically actuated MEMS is prese...
Following the principles proposed by workers at Berkeley University, we have developed a version of ...
peer reviewedIn this paper, a finite element (FE) procedure for modeling electrostatically actuated ...
peer reviewedThis paper deals with the coupled electrostatic- mechanical analysis of electrostatical...
The objective of this research is to develop an efficient numerical simulation tool to analyze elect...
An electrical machine is divided into two areas: the stator (S) (fixed part) and the rotor (R) (movi...
iii Microelectromechanical systems (MEMS) are small mechanical devices of dimensions from a few µm t...
Les machines électriques sont modélisées pour prédire leurs performances et optimiser leur rendement...
International audienceIn the context of vehicle electrification, car manufacturers are facing ever m...
The coupling methods allow the use of two independent meshes for mobile and fixed armature within th...
The aim of this thesis is to develop adapted numerical methods to model 3D electromagnetic equations...
Author name used in this publication: W. N. FuAuthor name used in this publication: S. L. HoAuthor n...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A versatile numerical model for the simulation of dynamic operations of electric machines and drives...
One of the difficulties of the three-dimensional (3-D) eddy current finite element methods is to sol...