The paper introduces a network description of conducting regions in electrical machines. Resistance models are considered, where loop equations are equivalent to an edge element formulation using the electric vector potential T, as well as conductance models, for which the nodal equations refer to a nodal element description by means of the scalar potential V. Network models for multiply connected regions are derived for both Omega-T-T0 and A-T-T0 formulations. A network representation of the edge value of potential T0 is suggested. Convergence of the iterations of the T-T0 method may be accelerated by supplementing equations for the edge values of T0
One driving focus in network theory is to understand the inner workings of a network given only inco...
The study offers a comparative analysis of two methods, both using potentials, for electromagnetic f...
The volume integral equation method based on the current vector potential approximated by means edge...
The paper introduces a network description of conducting regions in electrical machines. Resistance ...
The paper introduces a network description of conducting regions in electrical machines. Resistance ...
Purpose – The aim of this paper is to develop network models of an electromagnetic field containing ...
Methods of calculating induced currents in multiply connected regions containing solid conductors ar...
In industry. the requests for modelling complex phenomena in electromagnetism arsMftcreasingîy signi...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
Purpose – The purpose of this paper is to develop a reluctance-resistance network (RRN) formulation ...
Circuit models of multiply connected regions in electromagnetic transducers are discussed. Both thin...
electric circuits, eddy currents The paper discusses methods of calculating induced currents in mult...
Finite element equations for electromagnetic fields are examined, in particular nodal elements using...
The paper discusses methods of calculating induced currents in multiply connected regions containing...
Purpose. To develop a digital model of electromagnetic devices for research and optimization of powe...
One driving focus in network theory is to understand the inner workings of a network given only inco...
The study offers a comparative analysis of two methods, both using potentials, for electromagnetic f...
The volume integral equation method based on the current vector potential approximated by means edge...
The paper introduces a network description of conducting regions in electrical machines. Resistance ...
The paper introduces a network description of conducting regions in electrical machines. Resistance ...
Purpose – The aim of this paper is to develop network models of an electromagnetic field containing ...
Methods of calculating induced currents in multiply connected regions containing solid conductors ar...
In industry. the requests for modelling complex phenomena in electromagnetism arsMftcreasingîy signi...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
Purpose – The purpose of this paper is to develop a reluctance-resistance network (RRN) formulation ...
Circuit models of multiply connected regions in electromagnetic transducers are discussed. Both thin...
electric circuits, eddy currents The paper discusses methods of calculating induced currents in mult...
Finite element equations for electromagnetic fields are examined, in particular nodal elements using...
The paper discusses methods of calculating induced currents in multiply connected regions containing...
Purpose. To develop a digital model of electromagnetic devices for research and optimization of powe...
One driving focus in network theory is to understand the inner workings of a network given only inco...
The study offers a comparative analysis of two methods, both using potentials, for electromagnetic f...
The volume integral equation method based on the current vector potential approximated by means edge...