shunt winding Sentence Examples

  1. The shunt winding of the DC motor connects across the armature, providing constant field strength.
  2. The shunt winding's resistance is higher than that of the series winding, ensuring field current regulation.
  3. In a shunt motor, the field strength remains relatively constant as the load varies due to the shunt winding's connection.
  4. The shunt winding draws a relatively small current from the power source, resulting in higher efficiency.
  5. The speed of a shunt motor is primarily controlled by varying the armature voltage, while the shunt winding maintains field strength.
  6. Shunt windings are commonly used in motors requiring consistent speed and torque over varying loads.
  7. The shunt winding's position in the motor's magnetic circuit influences the magnetic field distribution.
  8. Over-excitation of a shunt winding can lead to overheating and reduced motor efficiency.
  9. Proper design of the shunt winding's inductance is crucial for minimizing voltage transients in the motor.
  10. Modern shunt winding designs employ high-strength conductor materials and advanced insulation systems to improve motor performance.

shunt winding Meaning

Webster

shunt winding ()

A winding so arranged as to divide the armature current and lead a portion of it around the field-magnet coils; -- opposed to series winding.

Synonyms & Antonyms of shunt winding

No Synonyms and anytonyms found

FAQs About the word shunt winding

A winding so arranged as to divide the armature current and lead a portion of it around the field-magnet coils; -- opposed to series winding.

No synonyms found.

No antonyms found.

The shunt winding of the DC motor connects across the armature, providing constant field strength.

The shunt winding's resistance is higher than that of the series winding, ensuring field current regulation.

In a shunt motor, the field strength remains relatively constant as the load varies due to the shunt winding's connection.

The shunt winding draws a relatively small current from the power source, resulting in higher efficiency.