In this paper, stator and rotor failures in squirrel-cage induction machines are modeled using the magnetic equivalent circuit (MEC) approach. Failures associated with stator winding and rotor cage are considered. More specifically, stator inter-turn short circuit and broken rotor bar failures are modeled. When compared to conventional modeling techniques, the MEC modeling approach offers two main advantages: 1) relatively high speed of execution, and 2) high accuracy. The developed MEC model is validated here with respect to the experimental tests and time-stepping finite-element simulations for healthy and various faulty conditions
Recently both d-q and instantaneous symmetrical components (i.s.c.) models for faulty cage induction...
This study presents the modelling and simulation of a squirrel cage induction motor using a modified...
Abstract- The paper presents the use of the two-dimensional finite element method for modelling the ...
In this thesis, faults associated with squirrel-cage rotor structures will be considered. More speci...
Nowadays, inductionmachines play important role in electromechanical energy conversion in industry. ...
In this report a general framework for developing two-axis models for Induction Machines (IMs) with ...
Abstract — An accurate and simpler approach for modeling and simulating the dynamic behavior of indu...
This paper introduces a mesh-based magnetic equivalent circuit (MEC) modeling technique for inductio...
International audienceIn this paper we present an analysis on the different types of short-circuit (...
The arrival of cheap and fast microcomputers has stimulated the development of machine condition mon...
Abstract—The paper aims to investigate the use of the Finite Element Method for electrical and mecha...
In this work we present the modelling of the induction machine, taking into consideration the stator...
In this paper, a low differential order model describing the dynamics of IMs with faulty stator is d...
On-line diagnostics of induction machine faults such as broken rotor bars and shorted stator winding...
In this paper, a detailed analytical model of a three-phase squirrel cage induction motor is derived...
Recently both d-q and instantaneous symmetrical components (i.s.c.) models for faulty cage induction...
This study presents the modelling and simulation of a squirrel cage induction motor using a modified...
Abstract- The paper presents the use of the two-dimensional finite element method for modelling the ...
In this thesis, faults associated with squirrel-cage rotor structures will be considered. More speci...
Nowadays, inductionmachines play important role in electromechanical energy conversion in industry. ...
In this report a general framework for developing two-axis models for Induction Machines (IMs) with ...
Abstract — An accurate and simpler approach for modeling and simulating the dynamic behavior of indu...
This paper introduces a mesh-based magnetic equivalent circuit (MEC) modeling technique for inductio...
International audienceIn this paper we present an analysis on the different types of short-circuit (...
The arrival of cheap and fast microcomputers has stimulated the development of machine condition mon...
Abstract—The paper aims to investigate the use of the Finite Element Method for electrical and mecha...
In this work we present the modelling of the induction machine, taking into consideration the stator...
In this paper, a low differential order model describing the dynamics of IMs with faulty stator is d...
On-line diagnostics of induction machine faults such as broken rotor bars and shorted stator winding...
In this paper, a detailed analytical model of a three-phase squirrel cage induction motor is derived...
Recently both d-q and instantaneous symmetrical components (i.s.c.) models for faulty cage induction...
This study presents the modelling and simulation of a squirrel cage induction motor using a modified...
Abstract- The paper presents the use of the two-dimensional finite element method for modelling the ...