Armature Reaction & Brush Shifting

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In summary, shifting the brushes in a DC generator does not shift the neutral plane, but it does take advantage of it. The neutral plane is the plane where no counteremf is induced in the winding under the brush. The reason the magnetic neutral axis (MNA) does not shift further is because it is determined by the main pole position, which does not change with a brush shift.
  • #1
QwertyXP
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Referring to a DC generator: one way to counter armature reaction is to shift the brushes. But I don't get how it works.

The direction of armature flux also changes when the brushes are shifted, so why does the MNA (magnetic neutral axis) not also rotate further.. If it does rotate further, then there would be no point in shifting the brushes!?
 
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That's correct. Changing the brushes into the neutral plane is the idea.

The neutral plane is the plane whereby no counteremf is induced in the winding under the brush.

The reason the MNA does not shift further is because it is a function of the main pole position, which does not shift with a brush shift
 

1. What is armature reaction in a DC motor?

Armature reaction is a phenomenon that occurs in DC motors when the magnetic field produced by the armature windings interacts with the main magnetic field produced by the stator. This can cause a distortion in the magnetic field, resulting in a change in the motor's performance.

2. How does armature reaction affect the operation of a DC motor?

Armature reaction can affect the operation of a DC motor in several ways. It can cause a decrease in motor speed, a decrease in torque output, and an increase in power consumption. It can also lead to sparking at the brushes, which can cause damage to the commutator and decrease the motor's efficiency.

3. What is brush shifting in a DC motor?

Brush shifting is a technique used to counteract the effects of armature reaction in a DC motor. It involves moving the position of the brushes relative to the commutator, which can help to reduce sparking and improve the motor's performance.

4. How does brush shifting help to mitigate armature reaction?

By shifting the position of the brushes, the magnetic field produced by the armature windings can be better aligned with the main magnetic field, reducing the distortion caused by armature reaction. This can result in a more stable motor operation and improve overall efficiency.

5. Can armature reaction and brush shifting be completely eliminated?

No, armature reaction and brush shifting are inherent characteristics of DC motors and cannot be completely eliminated. However, they can be minimized through proper design and maintenance techniques, such as using compensating windings or regularly adjusting the position of the brushes.

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