Title :
Induction Machine Bearing Fault Detection by Means of Statistical Processing of the Stray Flux Measurement
Author :
Frosini, Lucia ; Harlişca, Ciprian ; SzaboÌ, LoraÌnd
Author_Institution :
Dept. of Electr., Comput. & Biomed. Eng., Univ. of Pavia, Pavia, Italy
Abstract :
Rolling bearing faults are generally slowly progressive; therefore, the development of an effective diagnostic technique could be worth detecting such faults in their incipient phase and preventing complete failure of the motor. The methods proposed in the literature for this purpose are mainly based on measuring and analyzing vibration and current. Here, a novel technique based on the stray flux measurement in different positions around the electrical machine is proposed. The main advantages of this method are due to the simplicity and the flexibility of the custom flux probe with its amplification and filtering stage. The flux probe can be easily positioned on the machines and adapted to a wide range of power levels. This paper also reports an extensive survey on the stray-flux-based fault detection methods for induction motors, prior to introducing a novel sensor/diagnostic scheme.
Keywords :
electric current measurement; electric sensing devices; fault diagnosis; induction motors; rolling bearings; statistical analysis; vibration measurement; amplification stage; current measurement; electrical machine; filtering stage; induction machine bearing fault detection; induction motor; rolling bearing fault; sensor-diagnostic scheme; statistical processing; stray flux measurement; stray-flux-based fault detection method; vibration measurement; Bars; Circuit faults; Coils; Harmonic analysis; Rotors; Stator windings; AC machines; ball bearings; electric machines; fast Fourier transforms; fault detection; fault diagnosis; fault location; induction motors; rotating machines; statistical analysis;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2014.2361115
