The use of empirically determined coefficients to include the effects of leakage and fringing flux is a large drawback of traditional induction motor (IM) models, such as lumped parameter, magnetic equivalent circuit and anisotropic layer models. As an alternative, Finite Element Analysis (FEA) is often used to determine the magnetic field distribution accurately, although at the cost of a much longer computation time. A good alternative to FEA, both in terms of computation time and accuracy, is harmonic modeling. Therefore, in this work, a previously presented magnetic model for slotted IMs based on harmonic modeling, is extended. The main contribution is the implementation of a direct coupling between the magnetic model and the stator and...
A semi-analytical method based on the harmonic modeling (HM) technique is presented for the analysis...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
Finite element models are invaluable for determining expected machine performance. However, finite e...
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 fast, semi-analytical model for induction motors (IMs) is presented. In comparison to traditional ...
A fast, semi-analyticalmodel for inductionmotors (IMs) with 36/28 stator/rotor slot combination is p...
In a companion paper, a time-stepping coupled finite element state-space algorithm for the modeling ...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
In a companion paper, a time-stepping coupled finite element state-space algorithm for modeling of i...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
A semi-analytical method based on the harmonic modeling (HM) technique is presented for the analysis...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
Finite element models are invaluable for determining expected machine performance. However, finite e...
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 fast, semi-analytical model for induction motors (IMs) is presented. In comparison to traditional ...
A fast, semi-analyticalmodel for inductionmotors (IMs) with 36/28 stator/rotor slot combination is p...
In a companion paper, a time-stepping coupled finite element state-space algorithm for the modeling ...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
In a companion paper, a time-stepping coupled finite element state-space algorithm for modeling of i...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
A semi-analytical method based on the harmonic modeling (HM) technique is presented for the analysis...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
Finite element models are invaluable for determining expected machine performance. However, finite e...