- #1
Ziya
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I know that decoupling the 3 phase currents we get the id and iq (in rotor frame) currents which control the flux and torque respectively. But where does the relation come from?
Why does q-axis stator current control torque in 3-ph IM?
- Thread starter Ziya
- Start date
In summary, the conversation discusses the concept of decoupling 3 phase currents in a synchronous motor to control the flux and torque. It also mentions the importance of controlling the Id and Iq currents to increase efficiency and the use of an encoder to measure the angular position of the rotor. There is also a reference to a previous thread about armature reaction and torque.
- #2
Hesch
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I think ( don't know for sure ) that if we have an instant stator current, Istat, that induces a B-field ( Bstat ) which has an angle α to Brotor,
then the Istat is decomposed into Id = Istat * cos α , Iq = Istat * sin α.
In this way Id will not yield any torque, because BId has an angle to Brotor = 0.
BIq has angle to Brotor = 90°, so Iq will yield a torque.
That's why a vector-controlled system tries to control Id to be zero, thus increasing the efficiency of the motor.
Controlling a synchronous motor, you don't need these Id's and Iq's: You just measure the angular position of the rotor by means of an encoder, then induce a current in the stator that will create a Bstat, that is perpendicular to the Brotor.
then the Istat is decomposed into Id = Istat * cos α , Iq = Istat * sin α.
In this way Id will not yield any torque, because BId has an angle to Brotor = 0.
BIq has angle to Brotor = 90°, so Iq will yield a torque.
That's why a vector-controlled system tries to control Id to be zero, thus increasing the efficiency of the motor.
Controlling a synchronous motor, you don't need these Id's and Iq's: You just measure the angular position of the rotor by means of an encoder, then induce a current in the stator that will create a Bstat, that is perpendicular to the Brotor.
Last edited:
- #3
Cdz
- 21
- 1
Thank you. I got it now.Hesch said:
I am one year too late
- #4
jim hardy
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It may help you to imagine a simplified machine with a one turn armature and permanent magnet field
from a thread last year
that old thread addressed armature reaction
but it's a short hop from there to torque.
https://www.physicsforums.com/threads/armature-reaction-drop.826513/#post-5191404
from a thread last year
that old thread addressed armature reaction
but it's a short hop from there to torque.
https://www.physicsforums.com/threads/armature-reaction-drop.826513/#post-5191404
Related to Why does q-axis stator current control torque in 3-ph IM?
1. Why is the q-axis stator current important in controlling torque in a 3-phase induction motor?
The q-axis stator current is a crucial component in controlling the torque output of a 3-phase induction motor. This is because it is responsible for creating the rotating magnetic field that interacts with the rotor to produce torque. By controlling the magnitude and phase angle of the q-axis stator current, the torque output of the motor can be effectively regulated.
2. How does the q-axis stator current control the torque in a 3-phase induction motor?
The q-axis stator current controls the torque in a 3-phase induction motor through the principle of electromagnetic induction. When an alternating current flows through the stator windings, it creates a rotating magnetic field. This field interacts with the conductors on the rotor, inducing a current and producing a torque that drives the motor.
3. Can the q-axis stator current control the speed of a 3-phase induction motor?
Yes, the q-axis stator current can also indirectly control the speed of a 3-phase induction motor. By adjusting the magnitude and phase angle of the current, the strength and direction of the magnetic field can be changed, thereby influencing the speed at which the rotor rotates and the resulting torque output.
4. Is the q-axis stator current the only factor that affects torque in a 3-phase induction motor?
No, the q-axis stator current is not the only factor that affects torque in a 3-phase induction motor. Other factors such as the number of stator and rotor poles, the type of rotor construction, and the load on the motor can also impact the torque output. However, the q-axis stator current is a critical factor in controlling and regulating the torque output of the motor.
5. How is the q-axis stator current controlled in a 3-phase induction motor?
The q-axis stator current can be controlled in a 3-phase induction motor through various methods such as scalar control, vector control, and field-oriented control. These methods use different control algorithms and techniques to regulate the magnitude and phase angle of the current, thereby controlling the torque output of the motor.
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