Hi ULF,
It's just a few weeks ago, now the 5th stack is wound on the
coil: https://dl.dropboxusercontent.com/u/19882028/ULF/20161026_185804.jpg
The DC resistance rose from 445 Ohm to 572 Ohm.
The measured resonance frequency (using the antenna equivalent C in the
shack) dropped from 3.667 kHz down to 3.208 kHz. That should be
about 4.92 H.
Measured at 273V AC / 50 Hz, i'm getting 197 mA, so the actual
inductance is 4.0 H.
A 6th stack and a variometer part is needed!
73, Stefan
Am 08.10.2016 01:30, schrieb DK7FC:
Hi ULF,
This night i have completed the 4th stack of my large ULF loading
coil.
An image: https://dl.dropboxusercontent.com/u/19882028/ULF/20161008_ULF_TX_coil.jpg
The exciting question was, what is the new resonance frequency together
with my antenna. In the lab i put an equivalent C in parallel and found
the resonance peak at 3.67 kHz. So the L seems to be 3.8 H
now. This is still not enough. The l/d of the coil dimension becomes
larger now, so i need more and more wire to reach the final resonance
frequency of 2.97 kHz at about 500 pF.
I will do a next test on the actual resonance frequency in some days,
when the WX permits. I will also check where the resonance can be found
when switching the small coil in series that i use for 6.47 kHz now. It
could be quite close to 2.97 kHz then! So maybe this allows a next QRO
step on 2.97 kHz: 100 mA antenna current must be reached for the
planned experiment in 65 km distance.
BTW the 4 stack coil is wound out of almost 4 kg of enameled Cu wire
with 0.4 mm diameter. The layers are isolated by Kapton tape. My
assumption is that it will hold 20 kV now.
Ah and the DC resistance is 445 Ohm now. When connecting 275 V
AC / 50 Hz, i can measure 269 mA. So the actual inductance is 2.93 H
(beeing farer away from the self resonance frequency)
I can tell you it's quite fascinating to operate down on these low
frequencies :-) To be continued...
73, Stefan/DK7FC
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