Relation Between Electric Frequency and magnetic field rotation speed in a motor

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Discussion Overview

The discussion revolves around the relationship between electric frequency and the rotation speed of the magnetic field in a motor, particularly in the context of three-phase electric signals and their effect on pole formation within the stator. Participants explore the implications of using multiple three-phase signals and the resulting configuration of magnetic poles.

Discussion Character

  • Technical explanation
  • Conceptual clarification

Main Points Raised

  • One participant notes that when a stator receives a three-phase electric signal, the frequency and angular velocity of the magnetic field align with the electric input.
  • Another participant clarifies that each of the three phases corresponds to its own winding, which are physically spaced 120 degrees apart, rather than being a single winding.
  • A participant expresses a need for visual aids to better understand the configuration of three-phase windings and their relationship to pole formation.
  • One participant provides a link to images that illustrate the physical arrangement of the windings and the electrical alignment of the phases.

Areas of Agreement / Disagreement

Participants appear to agree on the basic principles of three-phase systems, but there is some uncertainty regarding the specific mechanics of pole formation and the implications of using multiple signals.

Contextual Notes

The discussion does not fully resolve the participant's initial confusion about why one pole goes half the way and the other goes the other half, indicating a need for further clarification on this aspect.

Chacabucogod
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Hi!
I understand that if you have a stator with a a three phase electric signal going into it, both the frqyency and angular velocity of the magnetic field and the electric entry will be the same. Now when you feed it with 2 groups of three phases electric signals you get four poles, or at least that is what the book says. Why does that happen. Why does one pole only go half the way and the other one the other half. I can't quite grasp that idea.

Thank you
 
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Chaca, good question. But each of the three phases is in its own winding. The windings are 120 degrees apart physically (rotationally), too. It is not one winding. I have some stuff I used to teach around here somewhere, if you want help in visualization.
 
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That'd helpful! Thankyou
 

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