Mutual Inductance dot convention?

AI Thread Summary
The discussion centers on understanding the dot convention in mutual inductance, particularly how it affects voltage sources in a circuit. When current enters the dotted terminal of one coil, it induces a positive voltage at the dotted terminal of the second coil, while current leaving results in a negative voltage. Participants clarify that voltage sources should have opposite polarities if currents leave the dotted terminals of both coils. The conversation also touches on applying these concepts in circuit simulations using PSpice or MATLAB. Overall, the explanation provided helped clarify the mutual inductance concept significantly for the participants.
jean28
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Could anyone give me a link that explains or simply explain to me how the dot convention on the mutual inductance works? For example, I'm trying to draw an equivalent circuit that converts the dots into voltage sources of this circuit:

http://i1226.photobucket.com/albums/ee410/jean28x/CircuitMutual.jpg

But I can't seem to figure it out completely. I think a voltage source can be put between I1 and I2 that delivers j2 * I2 volts and another one can be put after the j8 inductor that delivers j2 (I1 - I2) volts but I am not sure.

Thanks a lot!
 
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If current enters dotted terminal of one coil then positive voltage is induced at dotted terminal of the second coil. If current leaves it then induced voltage is negative.
 
szynkasz said:
If current enters dotted terminal of one coil then positive voltage is induced at dotted terminal of the second coil. If current leaves it then induced voltage is negative.

So according to that, if I do a KVL on the 3rd mesh I would get j6 (I2-I1) + 5 (I2) + j8 (I2) - j2( I1 - I2) - j2 (I2)?

Something like this:

http://i1226.photobucket.com/albums/ee410/jean28x/aac17e215cf907cd614a04bafdfd4775.jpg
 
1) Currents in both coils leave dotted terminals so voltage sources should have opposite polarization
2) Current enters the dot on L1 so "+" terminal of voltage source is on dotted terminal of L2 hence that voltage is negative
 
Last edited:
szynkasz said:
1) Currents in both coils leave dotted terminals so voltage sources should have opposite polarization
2) Current enters the dot on L1 so "+" terminal of voltage source is on dotted terminal of L2 hence that voltage is negative

Ok i finally got it now. You have no idea how grateful I am for this. Too bad I learned it too late but hopefully I'll be able to apply it well for my next test.

Now, if I could only figure out how to simulate the circuit in the first picture in PSPice or MATLAB...
 
PSpice uses K part for coupled inductances.
 
Thank you very much for your explanation.

Somehow it conveyed the concept better than any textbook.

Thank you!
 
Effective inductance dot convention

So just to make sure... if the current enters the coil at the dotted terminal..how exactly does that effect the other coil and it's dot regarding the mutual inductance...?
 

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