Electric Motors Courses | Page 1

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DC Motor Maintenance (A8014)

This lesson introduces participants to the application of direct current motors and their components. This lesson covers general characteristics of a DC motor, DC motor components, their functions and the design of the brush assembly. This lesson explains concepts such as flux interaction, commutation, the effect of multiple windings, armature?? reaction, compensation and CEMF, and how each of these factors effects motor operation.

Professional Development Hours: 1
$23.00

DC Motor Theory (A8013)

This lesson introduces participants to the application of direct current motors and their components. This lesson covers general characteristics of a DC motor, DC motor components, their functions and the design of the brush assembly. This lesson explains concepts such as flux interaction, commutation, the effect of multiple windings, armature reaction, compensation and CEMF, and how each of these factors effects motor operation.

Professional Development Hours: 1
$23.00

AC Motor Theory (A8011)

This lesson shows and explains how to measure winding insulation resistance and winding resistance. The lesson also describes the major components of AC motors and explains the theory behind permanent magnet motors, three-phase motors, and induction motors.

Professional Development Hours: 1
$23.00

Frequently asked questions (FAQs) for Electric Motors

Electric motors convert electrical energy into mechanical energy, usually in the form of rotational motion. In simple terms, they are devices that use electric power to generate motive power. These motors are classified into AC motor and DC motor. DC motors take direct current while AC motor takes alternative current.

Electric motors are used to convert electricity into mechanical energy to power the necessary machinery.

Electric motor designs can vary quite a lot. Generally, they have the following three main parts: a rotor, a stator, and a commutator. These parts used electromagnetism's attractive and repulsive forces, causing the motor to spin continually.