Hi All,
How high does the primary Q have to be? Reason I ask is I don't think
it's as high as assumed and I include myself in that initial assumption.
I was looking at Rac and Rdc in primary's this weekend and came across
an interesting find. Rac is amazingly high in the primary and
culminates into a rather low Q. How low? How's the 50 to 100 range
sound excluding proximity effects.
For example, 8.5 turn primary with 1/4" tubing. Length = 789.1cm,
thickness is .254cm, and equivalent height if shaped into a ribbon is
1.995cm (using ribbon strip calculations).
Rdc = p*length/cross sectional area
p is resistivity in ohm per cm = 0.000001678
Rdc = 0.000001678*789.1/(.254*1.995) = 2.61 mOhms
Rac = length*sqrt((p*pi*u*f)/ht)
p = resistivity in ohm per cm = 0.000001678
u = relative permeability of annealed copper = 0.000001256629
f = frequency = 229106
Rac = 789.1/sqrt((0.000001678*3.14*0.000001256629*229106)/1.995) =
688.3 mOhms
Q = sqrt(L/C)/Rt = sqrt(0.000025669/0.0000000188)/(.00261+.6883) = 53.5!
I am only looking at a significant portion of impedance but haven't
included surge impedance which in my particular coils case is 37.3 ohms.
So, where is the high Q? I can't find it.
Take care,
Bart