[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]
RE: New formula for secondary resonant frequency
Original poster: "John H. Couture by way of Terry Fritz <twftesla-at-uswest-dot-net>" <couturejh-at-worldnet.att-dot-net>
Kurt -
What are you using for the Medhurst equation?
John Couture
---------------------------
-----Original Message-----
From: Tesla list [mailto:tesla-at-pupman-dot-com]
Sent: Saturday, February 03, 2001 9:06 AM
To: tesla-at-pupman-dot-com
Subject: Re: New formula for secondary resonant frequency
Original poster: "Kurt Schraner by way of Terry Fritz <twftesla-at-uswest-dot-net>"
<k.schraner-at-datacomm.ch>
------------------------snip
ing of the equation coefficients in the last digits. As a
next, 4 of my own coils are compared:
Coil Sk B&W Sk Long Coil Sk 12cm Coil Sk 20cm Coil
turns 821 1950 921 979
h 1.768 1.41 0.585 0.68
d 0.4013 0.1633 0.1207 0.2
b 0.7 0.5 0.2 0.5
awg 17.162 22.053 22 22
Fres,cal 131.4 157.3 409.0 209.3 Paul's formula
Fres,exp 119 147.7 368 202.7
Diff 10.4% 6.5% 11.2% 3.2% cal-exp
Fres,cal 123.1 139.6 372.9 200.0 Wheeler/Medhurst
Diff 3.4% -5.5% 1.3% -1.3% cal-exp
It seems, my coils are yet more happy with Wheeler/Medhurst,
however the precision of the experimental data have to be
considered. Regarding the instruments, I believe to be quite
precise (specifics can be supplied). The most of error probably
stems from the spacial situation, present, when measuring the
coils: capacitive influence of the surroundings! The B&W coil,
i.e., was tested in my living room, which is one floor above
ground level, and the top of my big coil only ~0.4m from the
ceiling.
BTW: Would you have perhaps at hand, a version of your function
= -94.6683*awg*awg*awg + 9000.55*awg*awg - 301175*awg +
3.64056e+6
beeing currently a function of awg, made a function of wire
diameter instead, like f(wd[m])? Measured values of wire diameter
could more easyly be introduced that way.
Hope,the tables will arrive in a well readable condition!
Greets
Kurt Schraner
----------------------snip
-
> Paul Nicholson,
> Manchester, UK.
> --