A Method for Monitoring the Condition of Rotor Windings in Induction Motors during Startup Based on Stator Current
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TROMAGNETIC METHODS
A Method for Monitoring the Condition of Rotor Windings in Induction Motors during Startup Based on Stator Current A. N. Nazarycheva, *, E. M. Novoselovb, **, D. A. Polkoshnikovb, ***, A. S. Strakhovb, ****, and A. A. Skorobogatovb, ***** a
St. Petersburg Power Engineering Institute for Further Training, St. Petersburg, 196135 Russia b Ivanovo State Power Engineering University, Ivanovo, 153003 Russia *e-mail: [email protected] **e-mail: [email protected] ***e-mail: [email protected] ****e-mail: [email protected] *****e-mail: [email protected] Received June 29, 2020; revised June 29, 2020; accepted July 3, 2020
Abstract—At present, one of the most effective methods for detecting dangling bars in squirrel-cage rotor windings of induction motors operating under severe starting conditions is the spectral analysis of stator current in a steady-state operation mode. The existing methods of testing in starting modes are not sensitive enough or their study has not been completed, although it is precisely such methods that allow diagnostics of machines that cannot be inspected in the steady-state operation mode. The purpose of this article is to develop a method for monitoring the state of rotor windings in induction motors operating under severe starting conditions based on the stator current in the starting mode, which is an urgent task. The studies were carried out both on digital models of an induction motor, developed in the Ansys software package, and on an experimental stand with a low voltage supplied to a low-voltage motor to increase the duration of its start. Signal processing is performed in the Matlab software package using the short-time Fourier transform. It is shown that only in the presence of a broken rotor bar, the amplitude of the harmonic component of the order coinciding with the number of motor pole pairs sharply increases at the lower side frequency; this indicates the presence of damage. It is shown that the developed technique for monitoring the condition of rotor windings in induction motors operating under severe starting conditions is more sensitive to broken rotor bars than the existing methods; this makes it possible to timely detect damage to rotor windings and prevent sudden failures of induction motors. Keywords: induction motor, broken rotor bars, severe starting conditions, stator current, short-time Fourier transform DOI: 10.1134/S1061830920080070
INTRODUCTION Currently, high- and low-voltage induction motors are used in many areas of industry as drives for various mechanisms. It is well known that failure of an electric motor can lead to both partial and complete shutdown of the production process. Therefore, many researchers pay great attention to the issues of their diagnostics. One of the damages to induction motors that can lead to their failure, is a broken bar in the squirrelcage rotor winding. For different machines, the percentage of failures associated with broken rotor bars is known to range from 8 to 30% of the total number of failures [1
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