> Am I right to assume that the ATU settings with the lowest L is
> always the best?
I don't know exactly what you mean by "best," but you said "always" so
I'd say no. If the length of your wire is in the vicinity of n * 90
degrees where n is any odd integer, it will have a low-ish impedance at
the end and 1:1 would be appropriate [if your UNUN had it]. If the
length is around 180 degrees [or any integer multiple thereof] it will
exhibit a fairly high impedance.
How long is the wire?
What band?
If the 1:4, 1:9, and 1:16 that you quote are turns ratios, the impedance
transformation equals the square of them. 12,800 ohms and a 16:1 turns
ratio yields 50 ohms. 12 Kohms likely exceeds the impedance at the end
of a half-wave by quite a bit.
The Elecraft ATU losses are very low unless you're trying to match some
outrageous impedance at the end of or beyond it's useful range.
73,
Fred K6DGW
Sparks NV USA
Washoe County DM09dn
On 9/29/2016 12:50 PM, Holger Schurig wrote:
Hi all,
I have an end-fed antenna with some random wire. The UNUN at one end of it
has three sockets to plug the random wire in: 1:4, 1:9 and 1:16.
My KX3 has the built-in ATU.
I now want to find out on which band I best use which one of the sockets.
As a first step, I wrote a simple program kx3lc.py (see
https://gist.github.com/anonymous/5d53f5bdbc50782a9d5e2c8d7062be69) that
can give me an output like this:
holger@laptop:/usr/src/afu/kx3/swr$ ./kx3lc.py
L: 0.12 mH, C: 203.0 pF on transmitter side
Am I right to assume that the ATU settings with the lowest L is always the
best? So when I have (for the three sockets), these values,
L: 0.12 mH, C: 203.0 pF on transmitter side
L: 0.0 mH, C: 246.0 pF on transmitter side
L: 0.0 mH, C: 256.0 pF on antenna side (but lowest SWR 1.2-1)
... that the middle socket is the best?
73
Holger, DH3HS
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