Title :
An evaluation of the electrostatic shielded induction motor: a solution for rotor shaft voltage buildup and bearing current
Author :
Busse, Doyle F. ; Erdman, Jay M. ; Kerkman, Russel J. ; Schlegel, David W. ; Skibinski, Gary L.
Author_Institution :
Allen-Bradley Co., Mequon, WI, USA
Abstract :
This paper evaluates a new induction motor, the electrostatic shielded induction motor (ESIM). An ESIM reduces rotor shaft voltages to levels below the bearing lubricant´s electric field intensity breakdown level and offers one solution to accelerated bearing wear caused by fluting induced by pulsewidth modulated (PWM) inverters. The paper begins by reviewing shaft voltages and the resulting bearing currents when operated on PWM voltage source inverters. An example of bearing fluting is shown, and system models are presented and discussed. The construction details and test results for several ESIMs are presented. Experimental results show the ESIM solves the electrostatically induced rotor shaft voltage and bearing problem without degrading the electromagnetic performance of the motor
Keywords :
PWM invertors; electric fields; electrostatics; induction motors; lubrication; machine bearings; magnetic shielding; PWM voltage source inverters; accelerated bearing wear; bearing current; bearing lubricant; electrostatic shielded induction motor; fluting; lubricant electric field intensity breakdown level; pulsewidth modulated inverters; rotor shaft voltage buildup; rotor shaft voltages reduction; Acceleration; Breakdown voltage; Electric breakdown; Electrostatics; Induction motors; Lubricants; Pulse inverters; Pulse width modulation inverters; Rotors; Shafts;
Journal_Title :
Industry Applications, IEEE Transactions on
