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From: uwe-jannsen@kabelmail.de
To: rsgb_lf_group@blacksheep.org
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Subject: Re: LF: Re: VLF dj8wx on 8970.022Hz
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Content-Type: text/plain; charset=Windows-1252
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Dear Jim,=20

thanks for estimating the ERP.=20

no buildings in vicinity, only some walnut trees, willow trees and oaks.=
 the topload of the aerial is some metres beyond those trees (still).=20

the diameter of the naked wire: 2,5mm . the isolation: 025mm of unknown ma=
terial (no PVC).=20

the spacing of the triple wire: 30cm.=20

I cant let it go with the 3A radial current. the fence and even wett pols=
 of wood get under tension. =20

1A radial current is the max Ill work with.=20

best regards=20

Uwe/dj8wx=20

  Von: rsgb_lf_group@blacksheep.org
 Gesendet: 08.03.2011 21:00
 An: rsgb_lf_group@blacksheep.org
 Betreff: LF: Re: VLF dj8wx on 8970.022Hz

 Dear Uwe,

 One can make a very approximate, order-of-magnitude estimate of ERP and=
=20
 voltage from the info you have:-

 The effective height of a heavily top-loaded vertical such as your antenn=
a=20
 will be a bit less than the average physical height of the conductors -=
=20
 assume about 12m. The radiation resistance Rrad =3D 160 * pi^2 *=20
 (Heff/lambda)^2 at 9kHz is therefore 200 micro-ohm - it will be reduced=
 if=20
 there are trees, buildings etc. close to the antenna. The antenna current=
=20
 will be slightly less than the current in the radials, due to the=20
 distributed capacitance of the loading coil, etc., at max power let us sa=
y=20
 2.7A. ERP will then be 1.8 * (2.7)^2 * 200u =3D 2.7mW.

 The exact capacitance will depend on the spacing and diameter of the ante=
nna=20
 wires, etc., but I estimate roughly 1200pF based on your drawing. The=20
 reactance at 9k is therefore 15kohm. With 2.7A antenna current, the anten=
na=20
 voltage would be 40kV RMS.

 There are major possible sources of error when trying to measure the ante=
nna=20
 voltage in the way you describe - even at 9kHz, the effect of stray=20
 capacitance will be very serious - a 10M resistor has the same magnitude=
 of=20
 impedance as 1.7pF of stray capacitance, so only a short length of expose=
d=20
 wire will cause a large change in voltage at the scope input. Also, as yo=
u=20
 have seen, the strong E field can couple significantly to the internal=20
 wiring of the measuring equipment unless it is very well screened. Any=20
 potential divider must also be well screened, and take into account the=
 time=20
 constants due to resistance and stray capacitance.

 Cheers, Jim Moritz
 73 de M0BMU

------6D3231C4BE9A4AFF82D92EE8CF48E6C2
Content-Type: text/html; charset=Windows-1252
Content-Transfer-Encoding: quoted-printable

<span style=3D"font-family: Arial; font-size: 13px;"><p><span><br />
</span></p>
<p><span>Dear Jim,</span></p>
<p><span><br />
</span></p>
<p><span>thanks for estimating the ERP.</span></p>
<p><span>&nbsp;</span></p>
<p><span>no buildings in vicinity, only some walnut trees, willow trees an=
d oaks. the topload of the aerial is some metres beyond those trees (still=
).</span></p>
<p><span>&nbsp;</span></p>
<p><span>the diameter of the naked wire: 2,5mm . the isolation: 025mm of=
 unknown material (no PVC).</span></p>
<p><span>the spacing of the triple wire: 30cm.</span></p>
<p><span>&nbsp;</span></p>
<p><span>I cant let it go with the 3A radial current. the fence and even=
 wett pols of wood get under tension. </span></p>
<p><span>&nbsp;</span></p>
<p><span>1A radial current is the max Ill work with.</span></p>
<p><span>&nbsp;</span></p>
<p><span>best regards</span></p>
<p><span>Uwe/dj8wx</span></p>
<p><span>&nbsp;</span></p>
<br />
<hr />
Von: rsgb_lf_group@blacksheep.org<br />
Gesendet: 08.03.2011 21:00<br />
An: rsgb_lf_group@blacksheep.org<br />
Betreff: LF: Re: VLF dj8wx on 8970.022Hz<br />
<hr />
<br />
Dear Uwe,<br />
<br />
One can make a very approximate, order-of-magnitude estimate of ERP and <b=
r />
voltage from the info you have:-<br />
<br />
The effective height of a heavily top-loaded vertical such as your antenna=
 <br />
will be a bit less than the average physical height of the conductors - <b=
r />
assume about 12m. The radiation resistance  Rrad =3D 160 * pi^2 * <br />
(Heff/lambda)^2  at 9kHz is therefore 200 micro-ohm - it will be reduced=
 if <br />
there are trees, buildings etc. close to the antenna. The antenna current=
 <br />
will be slightly less than the current in the radials, due to the <br />
distributed capacitance of the loading coil, etc., at max power let us say=
 <br />
2.7A. ERP will then be 1.8 * (2.7)^2 * 200u =3D 2.7mW.<br />
<br />
The exact capacitance will depend on the spacing and diameter of the anten=
na <br />
wires, etc., but I estimate roughly 1200pF based on your drawing. The <br=
 />
reactance at 9k is therefore 15kohm. With 2.7A antenna current, the antenn=
a <br />
voltage would be 40kV RMS.<br />
<br />
There are major possible sources of error when trying to measure the anten=
na <br />
voltage in the way you describe - even at 9kHz, the effect of stray <br />
capacitance will be very serious - a 10M resistor has the same magnitude=
 of <br />
impedance as 1.7pF of stray capacitance, so only a short length of exposed=
 <br />
wire will cause a large change in voltage at the scope input. Also, as you=
 <br />
have seen, the strong E field can couple significantly to the internal <br=
 />
wiring of the measuring equipment unless it is very well screened. Any <br=
 />
potential divider must also be well screened, and take into account the ti=
me <br />
constants due to resistance and stray capacitance.<br />
<br />
Cheers, Jim Moritz<br />
73 de M0BMU<br />
<br /></span>

------6D3231C4BE9A4AFF82D92EE8CF48E6C2--