Add to ORKGThe paper discusses the magnetic flux density distribution in medium power transformers core. Three-phase transformers are usually made of grain-oriented electrical steel characterized by anisotropy. Core losses, among other things, mainly depend on the grade of material. The selected results of calculation and measurement of no-load losses of medium power transformers have been shown
The flux distribution in an overlapped linear joint constructed in the central region of an Epstein ...
This paper deals with the magnetic characteristics (the flux distributions, core losses, etc.) of th...
This study deals with the effect of core lamination thickness on asymmetrical three-phase transforme...
The paper discusses the magnetic flux density distribution in medium power transformers core. Three-...
Purpose. The development of calculation method to determinate the flux densities in different parts ...
In order to accurately model the anisotropy of grain-oriented electrical steel it is necessary to co...
By identifying the characteristic equation of the specific no-load losses of each iron sheet based o...
This paper presents the results of new hexagonal configuration at the T-joint of three-phase transfo...
The quantitative analysis of localized flux distributions in transformer cores has become easy throu...
The method for analyzing flux distributions in transformer cores made of grain-oriented silicon stee...
In recent years, techniques of numerical analysis have rapidly progressed. By introducing these tech...
By identifying the characteristic equation of the specific no-load losses of each iron sheet based o...
In this paper, we report the procedure to analyse magnetic circuits and give the linear solutions on...
The work presented in this thesis can be utilised by electrical steel manufacturers and transformer ...
The core losses in a three phase transformer can be significantly reduced by improving the core join...
The flux distribution in an overlapped linear joint constructed in the central region of an Epstein ...
This paper deals with the magnetic characteristics (the flux distributions, core losses, etc.) of th...
This study deals with the effect of core lamination thickness on asymmetrical three-phase transforme...
The paper discusses the magnetic flux density distribution in medium power transformers core. Three-...
Purpose. The development of calculation method to determinate the flux densities in different parts ...
In order to accurately model the anisotropy of grain-oriented electrical steel it is necessary to co...
By identifying the characteristic equation of the specific no-load losses of each iron sheet based o...
This paper presents the results of new hexagonal configuration at the T-joint of three-phase transfo...
The quantitative analysis of localized flux distributions in transformer cores has become easy throu...
The method for analyzing flux distributions in transformer cores made of grain-oriented silicon stee...
In recent years, techniques of numerical analysis have rapidly progressed. By introducing these tech...
By identifying the characteristic equation of the specific no-load losses of each iron sheet based o...
In this paper, we report the procedure to analyse magnetic circuits and give the linear solutions on...
The work presented in this thesis can be utilised by electrical steel manufacturers and transformer ...
The core losses in a three phase transformer can be significantly reduced by improving the core join...
The flux distribution in an overlapped linear joint constructed in the central region of an Epstein ...
This paper deals with the magnetic characteristics (the flux distributions, core losses, etc.) of th...
This study deals with the effect of core lamination thickness on asymmetrical three-phase transforme...