Add to ORKGAbstract — The present paper describes an overview of the classical design methodology of three phase, wound core power transformers. Moreover, advanced numerical techniques, based on the two-dimensional (2D) and three-dimensional (3D) finite element method (FEM), have been applied for the calculation of the power transformer equivalent circuit parameters (leakage inductance, short-circuit impedance). The generalization of the 3D FEM results proves its enhanced accuracy in the prediction of the wound core transformer characteristics. Experimental validation of the proposed methodology is also provided, along with the presentation of the benefits resulting from the adoption of numerical techniques in the design process
The quantitative analysis of localized flux distributions in transformer cores has become easy throu...
International audienceLeakage inductance and frequency-dependent resistance of windings are key para...
International audienceThis paper presents a new μPEEC formulation that suits for modeling 2D ferrite...
Abstract:- Power transformer analysis and design focusing on the equivalent circuit parameter evalua...
The paper presents an accurate and cost effective three-dimensional finite element model for the ana...
Abstract. Power transformer analysis and design focussing on the equivalent circuit parameter evalua...
Wound-core transformers are characterized by their economical and efficient design and are therefore...
This paper analyzes a novel configuration of transformer core, called octagonal wound core (OWC), an...
This paper proposes a model for the computation of core losses and excitation current, in a laminati...
Abstract. This paper presents comparative results of an electromagnetic study performed in two diffe...
Abstract Power transformer analysis and design focussing on the equivalent circuit parameter evalua...
The present paper describes the incorporation of finite element method (FEM) for the calculation of ...
This paper introduces a novel technique for iron loss minimization of wound core transformers. The p...
Accurate simulation and prediction of losses in power transformer is important during transformer li...
This paper faces with the design of oil filled distribution transformers by a feasible and simple op...
The quantitative analysis of localized flux distributions in transformer cores has become easy throu...
International audienceLeakage inductance and frequency-dependent resistance of windings are key para...
International audienceThis paper presents a new μPEEC formulation that suits for modeling 2D ferrite...
Abstract:- Power transformer analysis and design focusing on the equivalent circuit parameter evalua...
The paper presents an accurate and cost effective three-dimensional finite element model for the ana...
Abstract. Power transformer analysis and design focussing on the equivalent circuit parameter evalua...
Wound-core transformers are characterized by their economical and efficient design and are therefore...
This paper analyzes a novel configuration of transformer core, called octagonal wound core (OWC), an...
This paper proposes a model for the computation of core losses and excitation current, in a laminati...
Abstract. This paper presents comparative results of an electromagnetic study performed in two diffe...
Abstract Power transformer analysis and design focussing on the equivalent circuit parameter evalua...
The present paper describes the incorporation of finite element method (FEM) for the calculation of ...
This paper introduces a novel technique for iron loss minimization of wound core transformers. The p...
Accurate simulation and prediction of losses in power transformer is important during transformer li...
This paper faces with the design of oil filled distribution transformers by a feasible and simple op...
The quantitative analysis of localized flux distributions in transformer cores has become easy throu...
International audienceLeakage inductance and frequency-dependent resistance of windings are key para...
International audienceThis paper presents a new μPEEC formulation that suits for modeling 2D ferrite...