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Re: LF: Transmitting with a small ferrite antenna

To: [email protected]
Subject: Re: LF: Transmitting with a small ferrite antenna
From: Roman <[email protected]>
Date: Sun, 22 Jul 2018 17:00:57 +0300
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Congrats, Genosse LF-Funkamateur Markus!
If the ebnaut use a simple prog like WSJT-X now - it will be mass phenomenon!

73!
Roman

> This morning I attempted to transmit from a small ferrite antenna. It 
> consists of a number of 9 mm diameter ferrite rods, with 7 bundled in 
> parallel. The bundles were stacked with overlap to ~ 35 cm total length, and 
> n=47 turns of litz wire were wound around the middle. Total ferrite cross 
> section is a=4.45 cm^2 and volume V=156 cm^3, weighing 0.77 kg (including the 
> coil). The coil was resonated and matched by several 1 nF high-Q ceramic 
> capacitors.
> 
> Under small signal conditions (-17 dBm), the electric parameters at 137.5 kHz 
> were
> L = 0.50 mH, R = 0.62 ohm, Q = 690.
> 
> Applying about half a watt significantly increased inductance and losses, and 
> the tuning became sharply hysteretic ("jumpy"). For fine tuning, a small rod 
> was placed at a variable distance beside the antenna.
> Then I connected my PA and drove about 25 Watts into the antenna. Losses and 
> inductance increased further:
> I = 1.3 A, U = 867 V (rms), L = 0.77 mH, R = 14.8 ohmn, Q = 45,
> with the Q-factor now so low that tuning jumps disappeared again. The central 
> part under the coil became quite hot, so a tiny fan was added which held the 
> steady-state temperature at ~55 °C.
> 
> From the induced voltage we can calculate the flux density in the middle of 
> the rod as
> B = U / n / a / omega = 48 mT (rms),
> decreasing approximately linearly toward the ends (similar to a small 
> electric dipole). The average Bav=24 mT then results in a dipole moment of
> iA = V Bav / µ0 = 156 cm^3 * 24 mT / µ0 = 3.0 Am^2
> which results in a radiated power
> EMRP = 62.34 kohm * iA^2 / lambda^4 = 25 nW.
> Thus the efficiency of this transmit antenna is only 1 ppb !
> 
> Anyway I attempted to detect the tiny signal on the DL0AO LF grabber, 48 km 
> from here:
> https://lf.u01.de
> Transmitting on 137.780 kHz (6:29 to 8:22 UT) indeed produced a detectable 
> trace in the QRSS-60 window (below the Slonim Loran line on 137781.25 Hz). 
> Then I attempted to send a 4-character EbNaut transmission on 137.510 KHz, 
> which was successfully decoded with some margin.
> 
> Now if that's not QRP... anyway fascinating, considering that the small 
> ferrite antenna might be carried in a handbag, buried in the ground or taken 
> to a cave.
> 
> Best 73,
> Markus (DF6NM)
-- 
73!
Roman, RW3ADB

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