This paper proposes a method for including both hysteresis losses and eddy current losses in the dynamic space vector model of induction machines. The losses caused by the rotation and magnitude changes of the flux vector are taken into account. The model can be applied, for example, to time-domain simulations and real-time applications such as drive control. Finite element analysis, simulations, and laboratory experiments of a 45-kW motor are used for the investigation. It is shown that the model can predict the iron losses in a wide frequency range. The accuracy is significantly improved as compared to earlier models
International audienceReducing induction motor losses is very important because of the fulfilment of...
When studying transients in pulsed current traction motors, it is important to take into considerati...
Electric vehicle (EV) motors are characterized by their low inductance and high current density, so ...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
We have studied electromagnetic losses of a frequency-converter-fed cage-induction motor by using a ...
Abstract—Detailed power loss distribution in induction ma-chines is assessed using time-stepped fini...
The paper applies a dynamic space-vector model to loss-minimizing control in induction motor drives....
A model of core losses, in which the hysteresis coefficients are variable with the frequency and ind...
This is the first part of a paper, divided into two parts, dealing with the definition of a space-ve...
A technique for calculating the iron losses in a cage induction motor is demonstrated using time-ste...
This is the first part of a paper, divided into two parts, dealing with the definition of a space-ve...
MasterRotating field is generated in the iron core of induction motors. The AC field causes iron los...
This thesis deals with the magnetic field analysis of electric machines by means of the finite eleme...
In the design and analysis of electric machines the precise calculation of iron loss has incredible ...
Following European directives inciting electrical motors manufacturers to replace engines withpoor e...
International audienceReducing induction motor losses is very important because of the fulfilment of...
When studying transients in pulsed current traction motors, it is important to take into considerati...
Electric vehicle (EV) motors are characterized by their low inductance and high current density, so ...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
We have studied electromagnetic losses of a frequency-converter-fed cage-induction motor by using a ...
Abstract—Detailed power loss distribution in induction ma-chines is assessed using time-stepped fini...
The paper applies a dynamic space-vector model to loss-minimizing control in induction motor drives....
A model of core losses, in which the hysteresis coefficients are variable with the frequency and ind...
This is the first part of a paper, divided into two parts, dealing with the definition of a space-ve...
A technique for calculating the iron losses in a cage induction motor is demonstrated using time-ste...
This is the first part of a paper, divided into two parts, dealing with the definition of a space-ve...
MasterRotating field is generated in the iron core of induction motors. The AC field causes iron los...
This thesis deals with the magnetic field analysis of electric machines by means of the finite eleme...
In the design and analysis of electric machines the precise calculation of iron loss has incredible ...
Following European directives inciting electrical motors manufacturers to replace engines withpoor e...
International audienceReducing induction motor losses is very important because of the fulfilment of...
When studying transients in pulsed current traction motors, it is important to take into considerati...
Electric vehicle (EV) motors are characterized by their low inductance and high current density, so ...