The induction motor is made up of the stator, or stationary windings, and the rotor. The stator consists of a series of wire windings of very low resistance permanently attached to the motor frame. As a voltage and a current is applied to the stator winding terminals, a magnetic field is developed in the windings. By the way the stator windings are.
- ↑http://scootsandparts.tripod.com/motorrewind.htm
- ↑http://www.edisontechcenter.org/electricmotors.html
- ↑http://scootsandparts.tripod.com/motorrewind.htm
- ↑http://scootsandparts.tripod.com/motorrewind.htm
- ↑http://www.wisdompage.com/SEUhtmDOCS/SEU18.htm
- ↑https://www.youtube.com/watch?v=fq7pKATxXgg&feature=youtu.be&t=393
- ↑https://www.youtube.com/watch?v=GYaasJOALqI&feature=youtu.be&t=161
- ↑https://www.fralock.com/about-us/white-paper-electrical-insulation/
- ↑https://electrical-engineering-portal.com/what-is-the-rewind-scenario-if-a-motor-fails
- ↑http://groverelectric.com/assets/downloads/howto/20_How%20to%20Calculate%20Wire%20&%20Fuse%20Sizes%20for%20Electric%20Motors.pdf
- ↑http://scootsandparts.tripod.com/motorrewind.htm
- ↑http://www.trainweb.org/s-trains/repair/rewind.html
- ↑http://www.edisontechcenter.org/electricmotors.html
- ↑https://inspectapedia.com/electric/Electric_Motor_Diagnosis.php
- ↑https://www.brighthubengineering.com/commercial-electrical-applications/78579-determining-causes-for-electric-motor-failure/