The knowledge of rotor quantities in induction motors allows the improvements of failure diagnosis and device design. The aim of this paper is to investigate the behaviour of the rotor quantities (in particular the bar currents) in presence of slip and to use this information for understanding the machine non-idealities. The analysis is carried out by means of a Finite Element (FE) approach, whose accuracy is evaluated by comparison with experiments
Diagnostic techniques for induction machines based on the motor current signature analysis monitor t...
4noAn accurate prediction of medium-voltage induction motor (IM) power factor in rated conditions is...
A corrosion model of a rotor-bar-under-fault progress in induction motors is presented for simulatio...
The knowledge of rotor quantities in induction motors allows the improvements of failure diagnosis a...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
This paper extends the authors' deep investigation of the electric rotor fault signatures of inducti...
This work studies the problem of broken rotor bars in cage induction motors. To this aim, an inducti...
AbstractIn this paper an ABC transient model of the three phase induction motor is developed that de...
This paper describes two novel Finite-Element procedures for squirrel cage Induction Motor performan...
Abstract—The paper aims to investigate the use of the Finite Element Method for electrical and mecha...
It is well known that the number of broken bars and varying load affect on the amplitudes of specifi...
Many proposals about induction machines broken bars detection can be found in the literature. Distur...
A new finite-element technique for squirrel cage Induction Motor features analysis is presented in t...
Diagnostic techniques for induction machines based on the motor current signature analysis monitor t...
4noAn accurate prediction of medium-voltage induction motor (IM) power factor in rated conditions is...
A corrosion model of a rotor-bar-under-fault progress in induction motors is presented for simulatio...
The knowledge of rotor quantities in induction motors allows the improvements of failure diagnosis a...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
The knowledge of induction motor rotor quantities is essential to precisely define the machine energ...
This paper extends the authors' deep investigation of the electric rotor fault signatures of inducti...
This work studies the problem of broken rotor bars in cage induction motors. To this aim, an inducti...
AbstractIn this paper an ABC transient model of the three phase induction motor is developed that de...
This paper describes two novel Finite-Element procedures for squirrel cage Induction Motor performan...
Abstract—The paper aims to investigate the use of the Finite Element Method for electrical and mecha...
It is well known that the number of broken bars and varying load affect on the amplitudes of specifi...
Many proposals about induction machines broken bars detection can be found in the literature. Distur...
A new finite-element technique for squirrel cage Induction Motor features analysis is presented in t...
Diagnostic techniques for induction machines based on the motor current signature analysis monitor t...
4noAn accurate prediction of medium-voltage induction motor (IM) power factor in rated conditions is...
A corrosion model of a rotor-bar-under-fault progress in induction motors is presented for simulatio...