Asymmetries in the air gap of induction motors produce additional harmonics in the flux density and force waves. A complete transient finite element model analyzes the harmonics produced from two possible asymmetries, a stator core ovality and a rotor ovality. The analysis of the air gap flux density and magnetic force waves determined by the finite element model shows unique harmonic frequencies due to the ovality of the air gap
Influence of the third space harmonics of stator current layer and field density on properties of in...
Influence of bearing units faults on distribution of magnetic induction in air-gap is considered on ...
A method for determining the signatures of dynamic eccentricity in the airgap force distribution and...
Asymmetries in the air gap of induction motors produce additional harmonics in the flux density and ...
The airgap harmonics are generated due to windings and variations in the airgap. Stator-rotor slotti...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
Abstract- The air gap of induction machines is the most important design parameter. It simply affect...
An accurate method is given for the determination, under load conditions, of the tooth-ripple flux a...
Multiphase machines are commonly analyzed using vector space decomposition modeling technique, where...
Condition monitoring of an induction motor may be based on measuring the electrical signals, such as...
Time harmonics in the supply waveform of induction motors cause them to have additional losses and n...
Abstract1- The electromagnetic force acts between the rotor and stator of an induction motor, when t...
The non-uniform air gap in an electrical machine caused by rotor eccentricity creates an asymmetrica...
The use of empirically determined coefficients to include the effects of leakage and fringing flux i...
Influence of the third space harmonics of stator current layer and field density on properties of in...
Influence of the third space harmonics of stator current layer and field density on properties of in...
Influence of bearing units faults on distribution of magnetic induction in air-gap is considered on ...
A method for determining the signatures of dynamic eccentricity in the airgap force distribution and...
Asymmetries in the air gap of induction motors produce additional harmonics in the flux density and ...
The airgap harmonics are generated due to windings and variations in the airgap. Stator-rotor slotti...
This paper presents a transient mathematical model for induction motors based on space harmonics and...
Abstract- The air gap of induction machines is the most important design parameter. It simply affect...
An accurate method is given for the determination, under load conditions, of the tooth-ripple flux a...
Multiphase machines are commonly analyzed using vector space decomposition modeling technique, where...
Condition monitoring of an induction motor may be based on measuring the electrical signals, such as...
Time harmonics in the supply waveform of induction motors cause them to have additional losses and n...
Abstract1- The electromagnetic force acts between the rotor and stator of an induction motor, when t...
The non-uniform air gap in an electrical machine caused by rotor eccentricity creates an asymmetrica...
The use of empirically determined coefficients to include the effects of leakage and fringing flux i...
Influence of the third space harmonics of stator current layer and field density on properties of in...
Influence of the third space harmonics of stator current layer and field density on properties of in...
Influence of bearing units faults on distribution of magnetic induction in air-gap is considered on ...
A method for determining the signatures of dynamic eccentricity in the airgap force distribution and...