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ANSI/EASA AR100-2020 cover

ANSI/EASA Standard AR100-2020
ANSI/EASA AR100-2020: Recommended Practice for the Repair of Rotating Electrical Apparatus is a must-have guide to the repair of rotating electrical machines. It establishes recommended practices in each step of the rotating electrical apparatus rewinding and rebuilding processes.

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Questions?

For information about ANSI/EASA AR100 or questions about the work on this standard, contact:

Mike Howell, PE
EASA Technical Support Specialist
+1 314 993 2220
mhowell@easa.com

ANSI Accredited Standards Developer Information

Interpreting Winding Insulation Power Factor Test Results

  • July 2013
  • Number of views: 5643
  • Article rating: No rating

Vicki Warren, Iris Power
Mississauga, Ontario
Brian F. Moore, Georgia Power
Atlanta, Georgia

Surveys have shown that stator winding insulation failure account for about 40% of motor failures in motors rated 2300V and above. In addition, the work force in general is losing its technical experience. This impacts both the customers we serve and our own internal work force that fixes the equipment.  Lastly, there seems to be a shift toward a more political type customer base that is less likely to own up to their contribution to motor failures. These reasons combine to force motor shops into better testing to know that a more reliable product is being shipped.

Several old and new test methods have recently gained popularity with AC induction motor maintenance specialists.  This paper, presented at the 2013 EASA Convention, will examine Power Factor Tip-up and Partial discharge testing to assess stator winding conditions for motors rated 2300V and above. Both tests will be evaluated for: effectiveness; which windings/types of machines the test is effective; set-up; interpretation and limitations.

Topics discussed include:

  • Brief review of stator winding failure mechanisms
  • Brief review of power factor and power factor tip-up
    • The theory/math behind it
    • Georgia Power’s use as a sorting tool
  • Partial discharge terms that apply to power factor and tip-up testing
    •   Inception and extinction voltage
    •   Magnitude
    •   Polarity
  • Reading actual power factor and test data sheets
    •   Advantages and limitations of off-line tests
    •   Deciding if there is a problem or not
  • Case studies: What to do next (if you suspect a problem)
    • Partial discharge testing (brief theory and expected results)
    • Dynamometer testing or full-load testing at the customer’s plant us

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The Effect of Repair/Rewinding on Premium Efficiency/IE3 Motors
Tests prove Premium Efficiency/IE3 Motors can be rewound without degrading efficiency.

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EASA Good Practice Guide

Good Practice Guide to Maintain Motor Efficiency
Based on the 2019 and 2003 Rewind Studies of premium efficiency, energy efficient, IE2 (formerly EF1) and IE3 motors

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