This paper presents and discusses some numerical approaches for the simulation of induction machine behaviour under no-load conditions. All the approaches are based on the finite element solution of the electromagnetic field problem, including physical models of magnetic material and interaction with external circuits. The computed flux distributions enable the prediction of magnetic and additional losses, whose accuracy is discussed also in the light of the complexity of the used numerical technique
This paper illustrates how the equivalent circuit parameters of an induction motor can be predicted ...
A mathematical model of induction motor in stator flux vector oriented frame that account for magnet...
Abstract\u2014This paper describes a \ufb01nite-element (FE) procedure particularly suitable for the...
This paper presents and discusses some numerical approaches for the simulation of induction machine...
The paper examines factors and parameters that affect the additional losses produced in the rotor ca...
Abstract—Detailed power loss distribution in induction ma-chines is assessed using time-stepped fini...
A technique for calculating the iron losses in a cage induction motor is demonstrated using time-ste...
An iron-loss model for laminated ferromagnetic cores of electrical machines is presented and applied...
In this paper, the numerical calculation of the no-load air gap flux density of an induction machine...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
A combined finite-element/state-space (CFE-SS) modeling is used to compute the no-load core losses i...
This paper aims to investigate core losses in induction motors running under different loading condi...
Magnetic circuits of electromagnetic energy converters, such as electrical machines, are nowadays hi...
This paper aims to compare different methods for the computation of the iron losses. First of all, a...
In order to improve the control strategies and in turn increase the efficiency of the system, it is ...
This paper illustrates how the equivalent circuit parameters of an induction motor can be predicted ...
A mathematical model of induction motor in stator flux vector oriented frame that account for magnet...
Abstract\u2014This paper describes a \ufb01nite-element (FE) procedure particularly suitable for the...
This paper presents and discusses some numerical approaches for the simulation of induction machine...
The paper examines factors and parameters that affect the additional losses produced in the rotor ca...
Abstract—Detailed power loss distribution in induction ma-chines is assessed using time-stepped fini...
A technique for calculating the iron losses in a cage induction motor is demonstrated using time-ste...
An iron-loss model for laminated ferromagnetic cores of electrical machines is presented and applied...
In this paper, the numerical calculation of the no-load air gap flux density of an induction machine...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
A combined finite-element/state-space (CFE-SS) modeling is used to compute the no-load core losses i...
This paper aims to investigate core losses in induction motors running under different loading condi...
Magnetic circuits of electromagnetic energy converters, such as electrical machines, are nowadays hi...
This paper aims to compare different methods for the computation of the iron losses. First of all, a...
In order to improve the control strategies and in turn increase the efficiency of the system, it is ...
This paper illustrates how the equivalent circuit parameters of an induction motor can be predicted ...
A mathematical model of induction motor in stator flux vector oriented frame that account for magnet...
Abstract\u2014This paper describes a \ufb01nite-element (FE) procedure particularly suitable for the...