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



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)