Solid rotor induction machines are still used in high-speed systems. A two-dimensional field-circuit model based on the finite element method and the complex magnetic vector potential has been shown as a very time-effective tool in the analysis of their steady states compared to time-domain models. This continuation work presents a validated computational algorithm that enables the inclusion of the nonsinusoidal and/or asymmetrical voltage supply in the multi-harmonic field-circuit model of these machines that was presented in the previous works by the authors. The extended model accounts for both spatial harmonics due to slotting and/or winding distribution and the time-harmonics due to voltage waveform. The applicability range of the mode...
In this paper three different approaches for the steady-state finite-element (FE) modelling of induc...
The magnetic field within electrical machines causes an interaction between the electrical and mecha...
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...
The use of empirically determined coefficients to include the effects of leakage and fringing flux i...
Recently, strong improvements have been made in the applicability of harmonic modeling techniques fo...
A method for the analysis of induction motors is presented. The analysis is based on the combined so...
In this thesis, a comprehensive numerical simulation model is presented for detailed no-load perform...
International audienceThis paper presents a 2-D analytical method in the complex domain for the comp...
Publisher Copyright: AuthorA discrete winding function analysis (DWFA) based approach for the modell...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
A fast, semi-analytical model for induction motors (IMs) is presented. In comparison to traditional ...
In a companion paper, a time-stepping coupled finite element state-space algorithm for the modeling ...
In a companion paper, a time-stepping coupled finite element state-space algorithm for modeling of i...
In this paper three different approaches for the steady-state finite-element (FE) modelling of induc...
The magnetic field within electrical machines causes an interaction between the electrical and mecha...
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...
The use of empirically determined coefficients to include the effects of leakage and fringing flux i...
Recently, strong improvements have been made in the applicability of harmonic modeling techniques fo...
A method for the analysis of induction motors is presented. The analysis is based on the combined so...
In this thesis, a comprehensive numerical simulation model is presented for detailed no-load perform...
International audienceThis paper presents a 2-D analytical method in the complex domain for the comp...
Publisher Copyright: AuthorA discrete winding function analysis (DWFA) based approach for the modell...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
A fast, semi-analytical model for induction motors (IMs) is presented. In comparison to traditional ...
In a companion paper, a time-stepping coupled finite element state-space algorithm for the modeling ...
In a companion paper, a time-stepping coupled finite element state-space algorithm for modeling of i...
In this paper three different approaches for the steady-state finite-element (FE) modelling of induc...
The magnetic field within electrical machines causes an interaction between the electrical and mecha...
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...