Content-class: urn:content-classes:message
MIME-Version: 1.0
Date: Mon, 29 Mar 2010 10:37:46 +0200
Message-ID: <38A51B74B884D74083D7950AD0DD85E82A1BB5@File-Server-HST.hst.e-technik.tu-darmstadt.de>
Thread-Topic: LF: Question about ground impedance at 8.97 KHZ   **UPDATE
Thread-Index: AcrN8S1PY6fYjzFlR9OGAQAfA1r4FAAEbIJ9ACgenCAAC3LsMQABIU6wABEBzTI=
References: <MFEJIKCLCMPDFHOKMANAEEOPOEAA.paulc@snet.net>
From: =?iso-8859-1?Q?Stefan_Sch=E4fer?= <schaefer@hst.tu-darmstadt.de>
To: <rsgb_lf_group@blacksheep.org>
Content-Type: multipart/mixed;
	boundary="----_=_NextPart_001_01CACF1B.1B793371"
Subject: AW: LF: Question about ground impedance at 8.97 KHZ   **UPDATE
Sender: owner-rsgb_lf_group@blacksheep.org
Precedence: bulk
Reply-To: rsgb_lf_group@blacksheep.org


------_=_NextPart_001_01CACF1B.1B793371
Content-Type: text/plain;
	charset="iso-8859-1"
Content-Transfer-Encoding: quoted-printable

Hi Paul,
=20
My loading coil is also on a water barrel and it works fine and has the ne=
cessary stability and not to much mass. Also the ratio between diameter an=
d lenght is optimal and it is the cheepest one can get for that.
=20
A 2mm wire is good to increase the partial discharge inception level. My=
 wire has just abt 1mm and it works -proven- up to 16kV rms and hopefully=
 more ;-)
=20
The ceramic insulator could be a little small. Those devices are normally=
 constructed for 50/60 Hz and will get stressed a bit more on 9 kHz. But=
 you will see. It will not melt or burn, like a plastic insulator..
=20
Try to put an insulator between the rope and the wire as well. Otherwise=
 it could become a problem for the rope, especially when it is wet. In my=
 opinion, Teflon is a good material that can help you here (if weight is=
 a question).
=20
=20
73, Stefan/DK7FC

________________________________

Von: owner-rsgb_lf_group@blacksheep.org im Auftrag von Paul A. Cianciolo
Gesendet: Mo 29.03.2010 02:43
An: rsgb_lf_group@blacksheep.org
Betreff: RE: LF: Question about ground impedance at 8.97 KHZ **UPDATE


Yes...    That coil inductance number was what I calculated based on a gue=
ss of what the "C" would be.
Now that I can read the capacitance... the inductance would be higher.  Sa=
dly.
=20
My next step is to see how much the "C" can be increased through the use=
 of  several parallel radiators.
=20
Here is my situation for the antenna.
=20
  170'  (55 meters) meters of #12 (2 mm) dia  wire. The wire is terminated=
 near the top of a 40 meter tall tower. There is a ceramic  insulator 6"=
 long at the top, and the wire is suspended away from the tower after that=
 by rope.
=20
  The wire runs to a point near the shack 2 meters about the ground.=20
=20
  The antenna forms a 45 degree angle with the earth.
=20
So currently there is measured 340 pf in the antenna. =20
Next test is to run another wire, 1 meter spaced from current wire in para=
llel and remeasure the amount of "C"
This is an easy test to do as I have a rope and pulley at the top of the=
 tower.
If this works out I can use 3 wires spaced 1meter apart and test.
=20
Not sure how to implement a tophat yet. =20
Most important is to get my "C" up and the need for "L" down.
=20
Possible former is here    http://hartford.craigslist.org/for/1659831822.h=
tml
Normally used for a rain barrel. I will check them out tomorrow for suitab=
ility in coil building.
=20
PauLC
W1VLF
=20
=20

    -----Original Message-----
    From: Stefan Sch=E4fer [mailto:owner-rsgb_lf_group@blacksheep.org]On=
 Behalf Of Stefan Sch=E4fer
    Sent: Sunday, March 28, 2010 7:48 PM
    To: rsgb_lf_group@blacksheep.org
    Subject: AW: LF: Question about ground impedance at 8.97 KHZ **UPDATE
   =20
   =20
    Hello Paul,=20
    =20
    Addition: If your C is 340pF and you want to resonate at 8,97kHz, your=
 545mH coil is to small! You will need L =3D 926mH!
    =20
    GL, Stefan/DK7FC

________________________________

    Von: owner-rsgb_lf_group@blacksheep.org im Auftrag von Paul A. Ciancio=
lo
    Gesendet: So 28.03.2010 20:27
    An: rsgb_lf_group@blacksheep.org
    Betreff: RE: LF: Question about ground impedance at 8.97 KHZ **UPDATE
   =20
   =20
    Hello Stefan,
    =20
    Thank you for the response.  I hope to increase the "C" with top wires=
?
    =20
    The coil I have calculated is very large as you say.=20
   =20
    Using one of Reg Edwards programs, it appears that a coil 1.2 meters=
 tall, .6 meters in diameter, using #21 wire, .76 MM dia would result in=
 a 545 mHy inductor.
    It would take 1500 turns, have a dc res. of 110 ohms and consist of 93=
00' of wire for a total of 23 lbs of copper.  I chose #21 because of the=
 its larger than the .46 MM you uses and hopefully would yield a higher "Q=
"
    and because  I found a 50 LBs spool in possession already helps also.=
 :>)   The predicted "Q" of the inductor is 300.
    =20
    I have to read more about tophat/wires at 9 KHz, but anything that wou=
ld reduce the size of the coil would be helpful.
    =20
    PauLC
    W1VLF
    =20
    =20
    =20
    =20
    =20
    =20
     -----Original Message-----
    From: Stefan Sch=E4fer [mailto:owner-rsgb_lf_group@blacksheep.org]On=
 Behalf Of Stefan Sch=E4fer
    Sent: Saturday, March 27, 2010 7:23 PM
    To: rsgb_lf_group@blacksheep.org
    Subject: AW: LF: Question about ground impedance at 8.97 KHZ **UPDATE
   =20
   =20

        Paul, the values you measured seem to be realistic for me. Especia=
lly the measured antenna C does not really differ very much between 137kHz=
 and 9 kHz. It is a good value that allows you to dimension your needed L.=
 The needed L is nearly independent from the earth losses. I generally rec=
ommend a variometer part of 1...5% of the fixed L to compensate all effect=
s that influence the antenna C. But think about if it is possible to incre=
ase the antenna C instead of building a very huge coil that causes further=
 losses.
        =20
        Good luck and have fun with building up! :-)
        =20
        73, Stefan/DK7FC

________________________________

        Von: owner-rsgb_lf_group@blacksheep.org im Auftrag von Paul A. Cia=
nciolo
        Gesendet: Sa 27.03.2010 22:01
        An: rsgb_lf_group@blacksheep.org
        Betreff: RE: LF: Question about ground impedance at 8.97 KHZ **UPD=
ATE
       =20
       =20

        Hello Folks,
       =20
        Thank you for all the help with measuring my antenna impedance.
       =20
        Let me explain further what I was using to measure with and then=
 add some updates.
        The homebrew bridge I was using was built as the one in the follow=
ing link.
        The diagram at the very bottom of the page is the schematic I used=
.
        http://www.dxzone.com/cgi-bin/dir/jump2.cgi?ID=3D2285
       =20
        This really my first venture into things LF and I had really no id=
ea of what to expect for numbers
        After posting my results here, and talking to W1VD, he forwarded=
 me a link to Alan and Finbar's bridge experiments here
        http://www.alan.melia.btinternet.co.uk/aelossbr.htm
       =20
        Basically I duplicated that design, making sure that the transform=
er had 100 mHy of inductance to work at 10 KHz.
        Sure enough the bridge worked, and balance with my antenna, but wo=
uld not balance with my antenna simulator load.
       =20
        The simulated load is 2 X 390 ohm .1% resistors in series with a=
 500 pf silver mica.
       =20
        Reading on Alan talks about stray capacitance.
       =20
        "The problem with the usual trifilar wound transformer is that if=
 driven from an unbalanced source the secondary suffers unbalanced strays=
 to ground. This would mean that if you were to swap the components on the=
 arms of the bridge the balance would be different"
       =20
        With that in mind I built another transformer to balance the drive=
 to the bridge.  After doing this the bridge will now balance with the sim=
ulated load and the antenna.
        See the following numbers for results:
       =20
        Measurments were taken 10Khz
        The "R" and "C" "known" side of the bridge were then measure measu=
red
       =20
        Sim load =3D  780 Ohms and  507 PF on  LCR meter
       =20
        Sim load =3D  940 Ohms and  460 pf  on the bridge.
       =20
       =20
        Antenna =3D  1111 Ohms and 330 PF on bridge
       =20
        Antenna also measured at 137 KHz
       =20
        Antenna =3D 85 ohms and 340 pf @137 Khz.
       =20
       =20
        I think these are more in line with what I should be reading????
       =20
        What do you folks think?
       =20
        Thank you to everyone who responded to this post and helping me ge=
t started.
       =20
       =20
        PauL C
        W1VLF
       =20
       =20
       =20
       =20
       =20
       =20
       =20
       =20
       =20
       =20
       =20
       =20
        -----Original Message-----
        From: owner-rsgb_lf_group@blacksheep.org
        [mailto:owner-rsgb_lf_group@blacksheep.org]On Behalf Of Johan H.=
 Bodin
        Sent: Friday, March 26, 2010 4:32 PM
        To: rsgb_lf_group@blacksheep.org
        Subject: Re: LF: Question about ground impedance at 8.97 KHZ Stefa=
n.
       =20
       =20
        Hi Paul,
       =20
        it sounds like your impedance bridge is measuring the absolute imp=
edance
        (that is Z =3D (R^2 + X^2)^0.5 where R is the real part, resistanc=
e, and X
        is the imaginary part, reactance). R is probably a 10 to a few hun=
dred
        ohms, most of it is ground resistance - it can be neglected - the=
 major
        part of your impedance is the capacitive reactance of the antenna=
 (Xc).
        At 9 kHz, where C =3D 1/(2*Pi*9000*Xc), 70 kOhms means 253pF which=
 is in
        the ballpark for your 170' wire (about 5pF/m).
       =20
        73
        Johan SM6LKM
       =20
        ----
       =20
        Paul A. Cianciolo wrote:
        >
        > Hello All,
        >
        > Below is a quote from the Stefan's web page concerning his lates=
t "Dreamers Band" DX contact Congratulations again Stefan.
        >>From this information alone is it possible to calculate or know=
 the antenna system impedance.
        >
        >
        >
        >
        > "100m Vertical wire antenna, coil/antenna voltage was abt 15kV=
 rms, average antenna current about 480mA, giving up to 1,7mW ERP. Applied=
 power was up to 250W."
        >
        > Pertaining to the coil "Technical and mechanical data: L=3D553mH=
, Q=3D82, R(DC)=3D283 Ohm; 0,4mm diameter enameled copper wire, about 1200=
 turns! Average diameter 0,55m, height abt 0,5m. So, about 2000m wire! :-)=
"
        >
        >
        >
        > I have built a small impedance bridge that operates at 10 KHZ an=
d shows my sloping 170' wire as 70K Ohms. I can also see approx 500 PF tha=
t can be nulled out using the bridge?
        >
        > Can the 70K value possibly be correct?   (3) 6' ground rods abou=
t 6' apart are the ground... plus the electrical ground of the house.
        >
        > I am hoping to attempt a local transmission on 9KHZ
        >
        > Any information would be helpful.
        >
        > Thank you
        >
        > Paul
        >
        > W1VLF
        >
        >
        >
        >
        >
       =20
       =20
       =20

------_=_NextPart_001_01CACF1B.1B793371
Content-Type: application/ms-tnef;
	name="winmail.dat"
Content-Transfer-Encoding: base64
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------_=_NextPart_001_01CACF1B.1B793371--