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[195.171.43.25]) by mx.google.com with ESMTP id u5si1639275wiz.24.2014.04.20.08.37.22 for ; Sun, 20 Apr 2014 08:37:22 -0700 (PDT) Received-SPF: none (google.com: owner-rsgb_lf_group@blacksheep.org does not designate permitted sender hosts) client-ip=195.171.43.25; Authentication-Results: mx.google.com; spf=neutral (google.com: owner-rsgb_lf_group@blacksheep.org does not designate permitted sender hosts) smtp.mail=owner-rsgb_lf_group@blacksheep.org; dkim=fail header.i=@mx.aol.com Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1WbtPr-0000Hi-Sd for rs_out_1@blacksheep.org; Sun, 20 Apr 2014 16:12:23 +0100 Received: from [195.171.43.32] (helo=relay1.thorcom.net) by post.thorcom.com with esmtp (Exim 4.14) id 1WbtPr-0000HZ-0q for rsgb_lf_group@blacksheep.org; Sun, 20 Apr 2014 16:12:23 +0100 Received: from omr-m05.mx.aol.com ([64.12.143.79]) by relay1.thorcom.net with esmtps (TLSv1:DHE-RSA-AES256-SHA:256) (Exim 4.82) (envelope-from ) id 1WbtPn-0003rt-S5 for rsgb_lf_group@blacksheep.org; Sun, 20 Apr 2014 16:12:21 +0100 Received: from mtaout-mba02.mx.aol.com (mtaout-mba02.mx.aol.com [172.26.133.110]) by omr-m05.mx.aol.com (Outbound Mail Relay) with ESMTP id 052C870000098 for ; Sun, 20 Apr 2014 11:12:17 -0400 (EDT) Received: from White (95-91-237-52-dynip.superkabel.de [95.91.237.52]) by mtaout-mba02.mx.aol.com (MUA/Third Party Client Interface) with ESMTPA id 25B82380000BF for ; Sun, 20 Apr 2014 11:12:16 -0400 (EDT) Message-ID: From: "Markus Vester" To: References: <53507F98.3060009@virginbroadband.com.au> Date: Sun, 20 Apr 2014 17:12:21 +0200 MIME-Version: 1.0 X-Priority: 3 X-MSMail-Priority: Normal Importance: Normal X-Mailer: Microsoft Windows Live Mail 12.0.1606 X-MimeOLE: Produced By Microsoft MimeOLE V12.0.1606 x-aol-global-disposition: G X-AOL-VSS-INFO: 5600.1067/97630 X-AOL-VSS-CODE: clean DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=mx.aol.com; s=20121107; t=1398006737; bh=iO3wSpnSS6k8d6F6pb4TeHEOE6krsDfCLcrT3N4uFb4=; h=From:To:Subject:Message-ID:Date:MIME-Version:Content-Type; b=dbhAsBlsLjI0hDlJ3HQ3k7M6x8k1wZ1YbmY6vcfvACPqYM/GTvXh/XpJxiERHFiND wafkMgbSDrreJ8O+grIaLBR6iMALsRaIukxuU9qJTaVpnZZh1h80CW1QOzMqMeLkWC jBRA5aSMywsXSl0txs7tXsirwLWWAmwSyi96pjEE= x-aol-sid: 3039ac1a856e5353e3d0427b X-AOL-IP: 95.91.237.52 X-Spam-Score: -0.6 (/) X-Spam-Report: Spam detection software, running on the system "relay1.thorcom.net", has identified this incoming email as possible spam. The original message has been attached to this so you can view it (if it isn't spam) or label similar future email. If you have any questions, see the administrator of that system for details. Content preview: Hi Edgar, LF, both Hartmut and Jean-Pierre are using K9AY receive antennas with a cardioid pattern pointing northwest, and their captures of transatlantic LF stations from America have been superior to anyone else in mainland Europe by a long shot (probably 10 dB in SNR). I think this is mostly due to the fact that they can suppress QRN from the southeast and Mediterranean sea, which is the dominant lightning area and QRN source during our winters. [...] Content analysis details: (-0.6 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- -0.0 RCVD_IN_DNSWL_NONE RBL: Sender listed at http://www.dnswl.org/, no trust [64.12.143.79 listed in list.dnswl.org] 0.0 FREEMAIL_FROM Sender email is commonly abused enduser mail provider (markusvester[at]aol.com) -0.0 SPF_PASS SPF: sender matches SPF record -0.7 RP_MATCHES_RCVD Envelope sender domain matches handover relay domain 0.0 HTML_MESSAGE BODY: HTML included in message 0.0 T_DKIM_INVALID DKIM-Signature header exists but is not valid X-Scan-Signature: 1f69f02351c5430deaaca656f6f75a0a Subject: LF: Re: EWE antenna Content-Type: multipart/related; type="multipart/alternative"; boundary="----=_NextPart_000_0038_01CF5CBB.B1489F00" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.6 required=5.0 tests=HTML_20_30,HTML_MESSAGE, MISSING_OUTLOOK_NAME autolearn=no version=2.63 X-SA-Exim-Scanned: Yes Sender: owner-rsgb_lf_group@blacksheep.org Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group X-SA-Exim-Rcpt-To: rs_out_1@blacksheep.org X-SA-Exim-Scanned: No; SAEximRunCond expanded to false Dies ist eine mehrteilige Nachricht im MIME-Format. ------=_NextPart_000_0038_01CF5CBB.B1489F00 Content-Type: multipart/alternative; boundary="----=_NextPart_001_0039_01CF5CBB.B1489F00" ------=_NextPart_001_0039_01CF5CBB.B1489F00 Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable Hi Edgar, LF, both Hartmut and Jean-Pierre are using K9AY receive antennas with a = cardioid pattern pointing northwest, and their captures of transatlantic = LF stations from America have been superior to anyone else in mainland = Europe by a long shot (probably 10 dB in SNR). I think this is mostly = due to the fact that they can suppress QRN from the southeast and = Mediterranean sea, which is the dominant lightning area and QRN source = during our winters.=20 Several times I have attempted to improve my reception by adding a = signal from the garden loop pair to that of the E-field antenna. Using = an indoor goniometer (made of two orthogonal coils around the outside of = a ferrite ring), I was able to make a virtually rotatable loop, which = could produce a good null to south-easterly QRN and QRM (eg. HGA22). = During noisy nights, the improvement from the QRN reduction was quite = significant. However unfortunately this didn't not hold under quiet = conditions. Compared to the vertical, the noise floor from my loops is = about 10 dB higher due to coupling to adjacent underground ADSL and = power lines. This means that adding in the magnetic contribution often = makes things worse rather than better. As Richard VK7RO has pointed out, the advantage of directivity may not = be quite the same for your location in Tasmania: If thunderstorms are = over the Tasman sea / New Zealand, a cardioid antenna pointing towards = Europe should have a large benefit. If QRN is coming from the side = (Australian East coast), a classic magnetic loop may be better. And if = the noise direction is coinciding with the signal (Northwest), there's = little you can improve using antenna directivity. If I understand you right, you're saying that in Orford the resonated = magnetic loop is not as good as the vertical probe, and the resistively = loaded cardioid is even worse? I'd like to understand why that is so. = Could it be that three is also noise predominantly magnetic from the = vicinity (eg. power supplies, telephone or power lines)? You might want = to try a comparison measurement of daytime noise floor, with the other = end of the EWE shorted (ie closed loop, acting solely as magnetic = antenna) versus open (top wire acting as electric antenna).=20 In my understanding, the flag, EWE and K9AY antennas are all working on = the same basic principle, ie superposition of an omnidirectional pattern = from a vertical electric antenna, and a figure-eight pattern from a loop = with a positive and a negative lobe. This is indeed exactly identical to = the operation of a properly terminated directional coupler, using = simultneous capacitive and inductive coupling to a TEM line. In that = sense, the top wire of an EWE is not simply a feeder to the remote = vertical leg, but both an electrical topload and integral part of the = magnetic loop. On the other hand, you can think about a closed magnetic loop as two = separate pairs of conductors, one vertical pair spaced horizontally, and = one horizontal pair spaced vertically. Witrhin each pair there are = opposed currents, acting as a gradiometer for electric fields. The = vertical legs produce vertically polarized groundwave radiation, with = the desired sine (figure-eight) pattern in the horizontal plane. The = horizontal wires radiate predominantly upwards, which usually does not = contribute to DX reception in a useful manner. So yes, you could do away = with the horizontal conductor, leaving only two verticals with antiphase = currents - very much the same way that an Adcock pair was used to = minimize "night-effect" direction-finding errors from steep skywave. The = only disadvantage would be that the antiphase monopoles have a large = capacitive impedance, which limits the achievable radiation efficiency = to an order of magnitude below that of a same-size closed loop. But = given sufficient size and spacing between the vertical elements, and the = possibility to use a low-noise preamp, this will matter little in a = receive application.=20 So we have seen that a loop can be replaced by two electric monopoles = driven in antiphase. Obwiously we can also (and even at the same time) = drive them in phase, letting them act essentially as a (relatively = efficient) single omnidirectional vertical. To then produce a cardioid, = the omni- and gradiometer- farfield components will have to be made = equally strong. This implies that the antiphase vertical currents (eg. 1 = A, -1 A) would have to be larger and in quadrature to the inphase = currents (+0.1j A, +0.1j A). In other words, the two vertical currents = have to be almost but not exactly in antiphase. This picture naturally = connects to the "quasioptical" view of a short two-element Yagi, where = the back lobe cancellation is caused by 180deg+phi phase from the driven = currents, augmented by - phi from the propagation delay difference. Best 73, Markus (DF6NM) =20 From: edgar=20 Sent: Friday, April 18, 2014 3:27 AM To: Markus Vester=20 Cc: Stefan Sch=E4fer=20 Subject: EWE antenna Hi Markus, On reading the article on EWE antennas I do not think the loop at Orford = is suitable for 2200 m reception in the EWE configuration! For 80 m the wire separations is 0.05 * 80 =3D 4 m. For 160 m the wire separation is 0.05 * 160 =3D 8m For 2200 m the wire separation is 0.05 * 2200 m =3D 110 m!=20 This loop is 16m. >From tests conducted at Orford the reception at frequencies above about = 500 kHz are good. However less than that frequency there are poor. I think I will have to take a different approach. Regards, Edgar ------=_NextPart_001_0039_01CF5CBB.B1489F00 Content-Type: text/html; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable
Hi Edgar, LF,
 
both Hartmut and Jean-Pierre = are using K9AY=20 receive antennas with a cardioid pattern pointing northwest, and=20 their captures of transatlantic LF stations from = America have=20 been superior to anyone else in mainland Europe by a long shot = (probably 10=20 dB in SNR). I think this is mostly due to the fact that they can = suppress QRN=20 from the southeast and Mediterranean sea, which is the = dominant=20 lightning area and QRN source during our winters.
 
Several times I have attempted = to improve my=20 reception by adding a signal from the garden loop pair to that of = the=20 E-field antenna. Using an indoor goniometer (made of two = orthogonal=20 coils around the outside of a ferrite ring), I was able to make a = virtually=20 rotatable loop, which could produce a good null to south-easterly=20 QRN and QRM (eg. HGA22). During noisy nights, the=20 improvement from the QRN reduction was quite significant. = However=20 unfortunately this didn't not hold under quiet conditions. Compared to = the=20 vertical, the noise floor from my loops is about 10 dB higher due=20 to coupling to adjacent underground ADSL and power lines. This = means that=20 adding in the magnetic contribution often makes things worse rather = than=20 better.
 
As Richard VK7RO has pointed out, the = advantage of=20 directivity may not be quite the same for your location in Tasmania:=20 If thunderstorms are over the Tasman sea / New Zealand, = a cardioid=20 antenna pointing towards Europe should have a large benefit. If QRN = is=20 coming from the side (Australian East coast), a classic magnetic loop = may be=20 better. And if the noise direction is coinciding with the=20 signal (Northwest), there's little you = can improve using=20 antenna directivity.
 
If I understand you right, you're=20 saying that in Orford the resonated magnetic loop is not as good as = the=20 vertical probe, and the resistively loaded cardioid is even worse? I'd = like to=20 understand why that is so. Could it be that three is also = noise=20 predominantly magnetic from the vicinity (eg. power = supplies, telephone or=20 power lines)? You might want to try a comparison measurement = of=20 daytime noise floor, with the other end of the EWE shorted (ie closed = loop,=20 acting solely as magnetic antenna) versus open (top wire acting as = electric=20 antenna).
 
In my understanding, the flag, EWE and = K9AY=20 antennas are all working on the same basic principle, ie superposition = of an=20 omnidirectional pattern from a vertical electric antenna, and a=20 figure-eight pattern from a loop with a positive and a negative = lobe. This=20 is indeed exactly identical to the operation of a properly = terminated=20 directional coupler, using simultneous capacitive and inductive coupling = to a=20 TEM line. In that sense, the top wire of an EWE is not simply a = feeder to=20 the remote vertical leg, but both an electrical topload and integral = part of the=20 magnetic loop.
 
On the other hand, you can think about = a closed=20 magnetic loop as two separate pairs of conductors, one vertical pair = spaced=20 horizontally, and one horizontal pair spaced vertically. Witrhin = each pair=20 there are opposed currents, acting as a gradiometer for = electric=20 fields. The vertical legs produce vertically polarized = groundwave=20 radiation, with the desired sine (figure-eight) pattern in the = horizontal=20 plane. The horizontal wires radiate predominantly upwards,=20 which usually does not contribute to DX reception in a useful = manner.=20 So yes, you could do away with the horizontal conductor, leaving = only two=20 verticals with antiphase currents - very much the same way = that an=20 Adcock pair was used to minimize "night-effect" direction-finding errors = from=20 steep skywave. The only disadvantage would be that the = antiphase monopoles=20 have a large capacitive impedance, which limits the achievable = radiation=20 efficiency to an order of magnitude below that of a same-size = closed=20 loop. But given sufficient size and spacing between the vertical = elements, and=20 the possibility to use a low-noise preamp, this will matter little = in a=20 receive application.
 
So we have seen that a loop can be = replaced=20 by two electric monopoles driven in antiphase. Obwiously = we can also=20 (and even at the same time) drive them in phase, letting them act=20 essentially as a (relatively efficient) single omnidirectional = vertical. To=20 then produce a cardioid, the omni- and gradiometer- farfield components = will=20 have to be made equally strong. This implies that the = antiphase=20 vertical currents (eg. 1 A, -1 A) would have to be larger = and in=20 quadrature to the inphase currents (+0.1j A, +0.1j A). In = other words,=20 the two vertical currents have to be almost but not exactly in = antiphase.=20 This picture naturally connects to the "quasioptical" view of=20 a short two-element Yagi, where the back lobe cancellation = is caused=20 by 180deg+phi phase from the driven currents, = augmented by - phi=20 from the propagation delay difference.
 
Best 73,
Markus (DF6NM)
  
 

From: edgar
Sent: Friday, April 18, 2014 3:27 AM
To: Markus Vester
Cc: Stefan = Sch=E4fer
Subject: EWE antenna

Hi = Markus,

On=20 reading the article on EWE antennas I do not think the loop at Orford is = suitable for 2200 m reception in the EWE configuration!

3D""=20

For 80 m the wire separations is 0.05 * 80 =3D 4 = m.
For 160=20 m the wire separation is 0.05 * 160 =3D 8m
For 2200 m the wire = separation is=20 0.05 * 2200 m =3D 110 m!

This loop is 16m.

From tests = conducted at=20 Orford the reception at frequencies above about 500 kHz are = good.
However=20 less than that  frequency there are poor.

I think I will = have to=20 take a different approach.

Regards, Edgar
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