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Physicist3
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Hi, I have been trying to understand eddy current loss in transformer cores but seem to have run into a bit of a misunderstanding with one of the books I have read, and I was wondering if someone could just clarify if I have got this all right.
starting with the beginning, if the magnetic flux varies sinusoidal, then the flux at one instant would be;
∅ = ∅msin(ωt) (I have been told this should be done in degrees and not radians?)
value of induced emf in core at any time (t) =
\frac{d∅}{dt} = ω∅mcos(ωt)
Am I correct in saying that from this second equation, ωθm = Em (Max induced EMF in core)?
If Es = rms value of emf induced in core, this = \frac{1}{\sqrt{2}}ω∅m = \sqrt{2}∏f∅m = \sqrt{2}∏f(ABm)
Eddy current Power Losses = \frac{E<sub>s</sub><sup>2</sup>}{R<sub>s</sub>}
= \frac{2*∏<sup>2</sup>*f<sup>2</sup>*A<sup>2</sup>*B<sub>m</sub><sup>2</sup>}{R<sub>s</sub>}
The next bit is the section of the notes that seems to confuse me,
Eddy current Power Loss = PE = KE*f2*BM2, where KE = Constant = 2*∏2*A2/Rs.
The book then says 'hence eddy current losses = α (f2*BM2)
Does this mean that KE is the same as α and eddy current power loss is the same as eddy current loss, or are these two different things? As far as I can see they appear the same but I just wanted to make sure from someone who has a bit more experience or knowledge of this.
thanks
starting with the beginning, if the magnetic flux varies sinusoidal, then the flux at one instant would be;
∅ = ∅msin(ωt) (I have been told this should be done in degrees and not radians?)
value of induced emf in core at any time (t) =
\frac{d∅}{dt} = ω∅mcos(ωt)
Am I correct in saying that from this second equation, ωθm = Em (Max induced EMF in core)?
If Es = rms value of emf induced in core, this = \frac{1}{\sqrt{2}}ω∅m = \sqrt{2}∏f∅m = \sqrt{2}∏f(ABm)
Eddy current Power Losses = \frac{E<sub>s</sub><sup>2</sup>}{R<sub>s</sub>}
= \frac{2*∏<sup>2</sup>*f<sup>2</sup>*A<sup>2</sup>*B<sub>m</sub><sup>2</sup>}{R<sub>s</sub>}
The next bit is the section of the notes that seems to confuse me,
Eddy current Power Loss = PE = KE*f2*BM2, where KE = Constant = 2*∏2*A2/Rs.
The book then says 'hence eddy current losses = α (f2*BM2)
Does this mean that KE is the same as α and eddy current power loss is the same as eddy current loss, or are these two different things? As far as I can see they appear the same but I just wanted to make sure from someone who has a bit more experience or knowledge of this.
thanks
