Re: AC Resistance of wires - was 8 kHz Tesla Coil

["Tesla list" <tesla@xxxxxxxxxx>]

Original poster: Jim Lux <jimlux@xxxxxxxxxxxxx>

At 12:13 PM 10/2/2005, Tesla list wrote:
> Original poster: "Antonio Carlos M. de Queiroz" <acmdq@xxxxxxxxxx>
>
> Tesla list wrote:
>
> > Original poster: "Gerry  Reynolds" <gerryreynolds@xxxxxxxxxxxxx>
>
> > The work that Dr Gary Johnson did for AC resistance seems to solve 
> > the Rac/Rdc problem for round wires (no proximitry effects).
> >...
> The following table shows
> > this for wr/sd up to 8.
> > wr/sd      Rac/Rdc
> > ------------------
> >   1            1.020
> >   2            1.263
> >   3            1.763
> >   4            2.261
> >   5            2.743
> >   6            3.221
> >   7            3.693
> >   8            4.154
>
> A simpler calculation, assuming that all the current is concentrated in
> a ring with thickness equal to the skin depth and external radius equal
> to the wire radius, results in:
> Rac/Rdc = (wr/sd)^2/(2wr/sd-1)
> The table above becomes:
> wr/sd    Rac/Rdc  difference
> 1        1.000    -2.0%
> 2        1.333    +5.5%
> 3        1.800    +2.1%
> 4        2.286    +1.1%
> 5        2.778    +1.3%
> 6        3.273    +1.6%
> 7        3.769    +2.1%
> 8        4.267    +2.7%
> The error is negligible in comparison with the more exact formula. So,
> the basic skin depth formula can be used with round conductors quite
> well.


Exactly why you sort of need to start with a statement of what 
accuracy is "good enough".  The maximum error (and it changes sign 
quickly) is at the radius/sd = 2 area, which is an area of some 
interest for coilers (esp for big low frequency coils).

Is 5% "good enough"  (gut feel.. you betch it is)