I Would an BLDC motor with rotor winded like a mirrored stator rotate?

AI Thread Summary
A BLDC motor's stator generates an electromagnetic field that interacts with the rotor's magnetic field. If a rotor is designed with windings mirroring a stator, both fields could potentially interact to produce rotation. However, the effectiveness of this design depends on the specific magnetic pole patterns of the rotor and stator. Typically, BLDC motors utilize permanent magnets on the rotor, indicating a reliance on electronic commutation rather than just windings. The discussion suggests that the proposed design resembles a synchronous motor rather than a traditional BLDC configuration.
fulano
Messages
11
Reaction score
2
Essentially, a stator generates an electromagnetic field that interacts with the magnetic field of the rotor.

If you had a rotor with the same winding as a flipped stator, then both electromagnetic fields would interact with each other and force rotation?

Don't worry about how the rotor's windings are powered, just that the windings of the rotor have the same properties (voltage, amps, slots, awg, turns etc.) of the stator.

I tried to find something of the subject on google, but nothing appeared, so my apologies if this question has an obvious answer.
 
Physics news on Phys.org
Welcome to PF.

There are too many different ways to mirror things.
You need to sketch the magnetic pole pattern on the rotor and stator, then attach that sketch to your next post.

A BLDC motor will normally have permanent magnets on the rotor.
BLDC suggests electronic commutation of the field.
You appear to have designed a synchronous motor .
 

Thread 'Maxwell stress tensor'

This is from Griffiths' Electrodynamics, 3rd edition, page 352. I am trying to calculate the divergence of the Maxwell stress tensor. The tensor is given as ##T_{ij} =\epsilon_0 (E_iE_j-\frac 1 2 \delta_{ij} E^2)+\frac 1 {\mu_0}(B_iB_j-\frac 1 2 \delta_{ij} B^2)##. To make things easier, I just want to focus on the part with the electrical field, i.e. I want to find the divergence of ##E_{ij}=E_iE_j-\frac 1 2 \delta_{ij}E^2##. In matrix form, this tensor should look like this...
View full post »
Thread 'Applying the Gauss (1835) formula for force between 2 parallel DC currents'

Thread 'Applying the Gauss (1835) formula for force between 2 parallel DC currents'

Please can anyone either:- (1) point me to a derivation of the perpendicular force (Fy) between two very long parallel wires carrying steady currents utilising the formula of Gauss for the force F along the line r between 2 charges? Or alternatively (2) point out where I have gone wrong in my method? I am having problems with calculating the direction and magnitude of the force as expected from modern (Biot-Savart-Maxwell-Lorentz) formula. Here is my method and results so far:- This...
View full post »

Similar threads

Need help understanding strange idea (electric motor rotor and stator)
Replies
13
Views
4K
How Do Rotor and Stator Pole Numbers Affect BLDC Motor Efficiency?
Replies
3
Views
6K
Squirrel cage induction motors - rotor issues
Replies
6
Views
4K
Understanding Rotor RMF in Squirrel Cage & Slip Ring Induction Motors
Replies
1
Views
2K
Curious question regarding Faraday disc / induction, etc.
Replies
9
Views
3K
Maxwell 2d (ANSYS): Bldc motor simulation
Replies
2
Views
5K
Stacking PMSM Stators and Rotors
Replies
2
Views
2K
DC motor rotor + stator : torque by attraction ?
Replies
2
Views
4K
BLDC: Required voltage to get set rpm at given amps
Replies
19
Views
4K
Superconducting motor thought experiment/ questions
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top