Return-Path: Received: (qmail 79834 invoked from network); 4 Jan 2004 19:18:38 -0000 Received: from unknown (HELO ptb-mxscan03.plus.net) (212.159.14.237) by ptb-mailstore01.plus.net with SMTP; 4 Jan 2004 19:18:38 -0000 Received: (qmail 73234 invoked from network); 4 Jan 2004 19:18:38 -0000 X-Filtered-by: Plusnet (hmail v1.01) X-Spam-detection-level: 11 Received: from ptb-mxcore03.plus.net (212.159.14.217) by ptb-mxscan03.plus.net with SMTP; 4 Jan 2004 19:18:37 -0000 Received: from post.thorcom.com ([193.82.116.20]) by ptb-mxcore03.plus.net with esmtp (Exim) id 1AdDlk-000Iw9-Mn for dave@picks.force9.co.uk; Sun, 04 Jan 2004 19:18:36 +0000 X-Fake-Domain: majordom Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1AdDkq-0005YJ-Po for rs_out@blacksheep.org; Sun, 04 Jan 2004 19:17:40 +0000 Received: from [62.253.164.44] (helo=mta4-svc.business.ntl.com) by post.thorcom.com with esmtp (Exim 4.14) id 1AdDkp-0005YA-E8 for rsgb_lf_group@blacksheep.org; Sun, 04 Jan 2004 19:17:39 +0000 X-Fake-Domain: l8p8y6 Received: from l8p8y6 ([62.252.228.97]) by mta4-svc.business.ntl.com (InterMail vM.4.01.03.37 201-229-121-137-20020806) with SMTP id <20040104191735.TJIU13664.mta4-svc.business.ntl.com@l8p8y6> for ; Sun, 4 Jan 2004 19:17:35 +0000 X-Bad-Message-ID: no DNS (l8p8y6) Message-ID: <000201c3d2f3$c4fb5f40$61e4fc3e@l8p8y6> From: "hamilton mal" To: rsgb_lf_group@blacksheep.org References: <6.0.1.1.2.20031229161651.027e8660@POP3.freeler.nl> <000001c3d009$acf7a620$c7e47f50@Smisan> <6.0.1.1.2.20040103121138.0280f960@POP3.freeler.nl> <000601c3d2c3$2bd34e70$b733f7c2@johnb5a82ea1a4> <6.0.1.1.2.20040104163146.027efbe0@POP3.freeler.nl> Date: Sun, 4 Jan 2004 16:39:45 -0000 MIME-Version: 1.0 X-Priority: 3 X-MSMail-Priority: Normal X-Mailer: Microsoft Outlook Express 5.50.4807.1700 X-MimeOLE: Produced By Microsoft MimeOLE V6.00.2800.1106 Subject: Re: LF: Re: "T" versus "L"aerial Content-Type: text/html; charset=windows-1252 X-Spam-Checker-Version: SpamAssassin 2.60 (1.212-2003-09-23-exp) on post.thorcom.com X-Spam-Status: No, hits=0.0 required=5.0 tests=HTML_MESSAGE autolearn=no version=2.60 X-SA-Exim-Scanned: Yes Sender: Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group X-SA-Exim-Rcpt-To: rs_out@blacksheep.org X-SA-Exim-Scanned: No; SAEximRunCond expanded to false X-PN-SPAMFiltered: yes X-Spam-Rating: 2 Content-transfer-encoding: 8bit
 
----- Original Message -----
Sent: Sunday, January 04, 2004 3:50 PM
Subject: Re: LF: Re: "T" versus "L"aerial

Dear John,

Computer simulation takes place over perfect ground and shows appreciable horizontally polarised radiation under high elevation angles for the inverted-L aerial .  But even at say 20m height of the horizontal part of the aerial this is only 0.0009 of a wavelength so the aerial is almost on the ground.  This means that over real earth such strong currents will be induced in the earth under the aerial that almost all power in the horizontally polarised field will be converted into heat in its resistance. 
Dick
You are saying that my 4 x inv L antennas each at 120 ft vertical and 400 ft horizontal are only burning up the field under the array.
My signal is reported throughout EU and beyond to Russia and the USA as the strongest on the air only surpassed by MM0ALM when he was active. As far as I can remember he was using 2 x inv L antennas at over 140 ft high using two masts.
I have never used a T antenna, my logic is that the more independent wire in the air the better, you have the benefit in my case of 4 top loaded verticals in parallel. All the bottom ends of the verticals are connected to the top of the loading coil of about 0.3 mh. The top of each L is about 10 feet out from the mast and the drop wires taper to the bottom reducing capacitance to ground.
An inv L antenna is really a top loaded vertical.
I hope you understand what I mean.
Calculations and theoretical assumptions are often way of the mark when it comes to small antenna systems like radio amateurs use on LF.
The only solution is the practical approach, common sense gained with experience and put up the best antenna you can then judge the results. As a matter of interest I have never burnt out any insulators, antenna wires, ground radials or any vegetation underneath the antenna array.
If you are working worldwide on normal CW then you have got it right !!!!!!!
73 de Mal/G3KEV
 
I 
 

 Another point is that for DX the take-off angle should be as low as possible and that is certainly not achieved this way. 

As a ground wave (surface wave) a horizontally polarised cannot exist over a perfect ground and over real earth is so weak that it is of no practical use.

The question has come up before on the reflector and as far as I can remember the conclusion has always been that this is not a viable solution for producing a useful sky wave.

73, Dick, PA0SE

At 10:39 4-1-04, you wrote:
How much horizontally polarised skywave is there and how well does it
propagate?

Would it be worth constructing an aerial that favoured skywave?

73
John Rabson G3PAI

----- Original Message -----
From: "Dick Rollema" <d.w.rollema@freeler.nl>
To: <rsgb_lf_group@blacksheep.org>
Sent: Saturday, January 03, 2004 11:30 AM
Subject: RE: LF: Re: "T" versus "L"aerial


> To All from PA0SE,
>
> Mike,  PC4M, wrote:
>
> At 02:50 1-1-04, you wrote:
> >Dear Dick / Bob and Lofers,
> >
> >Does the computer calculate the earth losses in the return path from the
> >aerial system to the transmitter? If it would then the earth losses in a
T
> >should have been significantly less then the L alternative. There are two
> >separate return currents
> >(parallel resistance) and each with a smaler physical length (lower
> >R-earth)  in a T system resulting in more ERP if compared to an L system.
>
> In the computer simulation no resistances were included. That means that
> the 1 kW fed to the aerial is completely radiated. Even an extremelly
short
> vertical with no top load would do so and produce the calculated 29.9mV/m
> at 10km
>
> Bu the point raised by Bob, ZL2CA, was that the current in the single wire
> topload  of the "L" would generate a horizontally polarised field. In the
> "T" the currents  in the two topload wires flow in opposite directions so
> the horizontally polarised fields caused by these currents would at least
> partially cancel each other.
> The horizontally polarised field is radiated as a sky wave and the power
in
> it detracts from that in the vertically polarised field of the ground
wave.
> If the above reasoning were correct it could be expected that the "T"
would
> produce a stronger ground wave than the "L" because less power disappears
> in the horizontally polarised sky wave.
> The simulation has shown that this is not the case.
>
> The subject of losses in the earth  and surrounding objects has been
> treated very well by Jim, M0BMU, in his e-mail.
>
> 73, Dick, PA0SE
>
>
> >-----Oorspronkelijk bericht-----
> >Van: owner-rsgb_lf_group@blacksheep.org
> >[mailto:owner-rsgb_lf_group@blacksheep.org] Namens Dick Rollema
> >Verzonden: maandag 29 december 2003 16:37
> >Aan: rsgb_lf_group@blacksheep.org
> >Onderwerp: Re: LF: Re: "T" versus "L"aerial
> >
> >To All from PA0SE
> >
> >Bob, ZL2AC wrote:
> >
> >
> >
> >Dick PA0SE,
> >
> >Fine on the test result.  As you stated, the tested T has twice the
amount
> >of top loading wire (2x 20 metres) than the L (1x 20 metres).
> >
> >It would be interesting to know if a T is better than an L for constant
> >length top loading i.e. what the difference is if the upwire joins at the
> >end or the middle of the horizontal top wire (theory suggests the T is
> >better as there is minimal horizontally polarised component).
> >
> >Bob,  I cannot answer your question by a practical experiment but used
> >computer simulation instead by means of K6STI's program Antenna
Optimizer.
> >
> >I modeled two antennas with a vertical element of 20m.  One an Inverted
> >L-antenna with a horizontal top load wire of 40m. The other a T-antenna
> >with a top load of 2 x 20m.
> >Both antennas  without losses, over perfect ground and fed with 1kW.
> >
> >At a distance of 10km (so well outside the near field region) and over
> >perfect ground both antennas produced a vertically polarised field of
> >29.9mV/m. The horizontally polarised field was zero; but this is to be
> >expected because over a perfect conducting ground a horizontal field
> >component cannot exist.
> >
> >73, Dick, PA0SE
> >
> >Original message:
> >
> >
> >To: <mailto:rsgb_lf_group@blacksheep.org>LF-Group
> >Sent: Sunday, December 28, 2003 3:09 AM
> >Subject: LF: "T" versus "L"aerial
> >To All from PA0SE
> >Further to my e-mail of 26 December I measured the field strength as
> >radiated by the aerial in
> >Inverted L-configuration. From this I found EMRP = 57 milliwatt.
> >This confirms the benificial effect of top loading. The T-aerial radiated
> >140 milliwatt.
> >So going from a single 20m top load wire for the "L" to 2 x 20m for the
> >"T" resulted in an improvement by a factor 2.46 (3.9dB) in radiated
power.
> >The vertical part of the "T" consisted of an open wire feedline of 11m
> >with the two wires connected in parallel in the attic shack. For the "L"
> >one of the feedline wires was removed. I assume this did not appreciably
> >affect the EMRP.
> >73, Dick, PA0SE
>