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commutator
[ kom-yuh-tey-ter ]
noun
- Electricity.
- a device for reversing the direction of a current.
- (in a DC motor or generator) a cylindrical ring or disk assembly of conducting members, individually insulated in a supporting structure with an exposed surface for contact with current-collecting brushes and mounted on the armature shaft, for changing the frequency or direction of the current in the armature windings.
- Mathematics. the element equal to the product of two given elements in a group multiplied on the right by the product of the inverses of the elements.
commutator
/ ˈkɒmjʊˌteɪtə /
noun
- a device used to reverse the direction of flow of an electric current
- the segmented metal cylinder or disc mounted on the armature shaft of an electric motor, generator, etc, used to make electrical contact with the rotating coils and ensure unidirectional current flow
commutator
/ kŏm′yə-tā′tər /
- The arrangement of contact points in an electric motor connecting an external direct current power supply and the rotating electric coils that use the power, used to generate the AC voltages needed by the coils. The commutator is located at the rotating shaft of the motor, where two power contacts are swept underneath two metal brushes, supplying positive and negative voltage to the coils. When the motor has rotated 180 degrees, the power contacts are each moving under the opposite brush, reversing the polarity of the voltage supplied to the coils.
- In a group or an algebra, an element of the form ghg −1h −1 where g and h are elements of the group or algebra. If g and h commute , the commutator is the identity element. The commutator is often written [ g , h ].
Word History and Origins
Origin of commutator1
Example Sentences
Friction and electrical arcing at the commutator means the brushes must be replaced regularly.
In a motor using direct current, which comes from a battery, the switching is done with a commutator, a type of mechanical switch.
Modern motors use electronic control systems rather than a commutator, but the principle is the same.
When this is done, the currents are produced by dynamo-magnetic induction only, the same result being obtained as though the poles were shifted by a commutator with an infinite number of segments.
Why, Maria, that young fellow Vardon who wrote that astonishingly clever paper on commutators, you know, is tutor at Lady Surrey's, and she wants him to get this place at the Admiralty.
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