Return-Path: Received: (qmail 9654 invoked from network); 20 Dec 2002 20:27:14 -0000 Received: from netmail02.services.quay.plus.net (212.159.14.221) by mailstore with SMTP; 20 Dec 2002 20:27:14 -0000 Received: (qmail 7132 invoked from network); 20 Dec 2002 20:27:09 -0000 Received: from post.thorcom.com (193.82.116.70) by netmail02.services.quay.plus.net with SMTP; 20 Dec 2002 20:27:09 -0000 X-SQ: A Received: from majordom by post.thorcom.com with local (Exim 4.10) id 18PTj4-00054v-00 for rsgb_lf_group-outgoing@blacksheep.org; Fri, 20 Dec 2002 20:26:30 +0000 Received: from [210.86.15.146] (helo=mta203-rme.xtra.co.nz) by post.thorcom.com with esmtp (Exim 4.10) id 18PTj3-00054m-00 for rsgb_lf_group@blacksheep.org; Fri, 20 Dec 2002 20:26:29 +0000 Received: from mta1-rme.xtra.co.nz ([210.86.15.140]) by mta203-rme.xtra.co.nz with ESMTP id <20021220202545.VCKP1199.mta203-rme.xtra.co.nz@mta1-rme.xtra.co.nz> for ; Sat, 21 Dec 2002 09:25:45 +1300 Received: from xtr743187 ([210.54.99.125]) by mta1-rme.xtra.co.nz with SMTP id <20021220202540.MFZH15912.mta1-rme.xtra.co.nz@xtr743187> for ; Sat, 21 Dec 2002 09:25:40 +1300 Message-ID: <001701c2a866$416eb4a0$81e136d2@xtr743187> From: "Vernall" To: rsgb_lf_group@blacksheep.org References: <5.1.0.14.0.20021220113920.00af1d00@gemini.herts.ac.uk> Date: Sat, 21 Dec 2002 09:27:15 +1300 MIME-Version: 1.0 X-Priority: 3 X-MSMail-Priority: Normal X-Mailer: Microsoft Outlook Express 6.00.2600.0000 X-MimeOLE: Produced By Microsoft MimeOLE V6.00.2800.1106 Subject: LF: Re: Balanced vs. Unbalanced loops Content-Type: text/plain; charset=iso-8859-1; format=flowed Content-Transfer-Encoding: 8bit X-Spam-Status: No, hits=0.2 required=5.0tests=USER_AGENT_OEversion=2.42 Sender: Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group Jim and others, > I also find that external effects affect the depth of null you get - in my > field strength measuring experiments, I found some locations where there > was almost no null - This seemed to occur near overhead wires and power > lines, which were presumably acting as parasitic antennas, inducing signals > in the loop. I am aware that coverage surveys of LF and MF AM transmitters do not conduct field strength measurements in locations near power lines, as they otherwise get false readings. For amateur LF receiving, much of the QRM is associated with power lines and connected appliances, so consideration of conduction, induction and radiation is needed to analyse scenarios. In my view the specific location of a loop receiving antenna, suitably separated from mains wiring, has far more impact on weak signal performance than whether it is unbalanced, partly balanced, floating, or well-balanced. Near fields reduce rapidly with distance (and different rate for E and H component), while radiated (far) fields are basically inverse with distance, so the differential distance with respect to the DX wanted signal is negligible within the choice of options for siting a loop receiving antenna. The LF far field is also vertically polarised. The side-on null of a small loop receiving antenna is only effective in reducing QRM for "point source" emissions. The actual near field situation is that mains wires are the launching mechanism, so the mode of coupling can be modelled on a "line source". A deep null is of little use in minimising coupling with a "line source". The size of the loop is also a compromise between being sufficiently small to maintain useful separation from local QRM sources (induction coupling), while being sufficiently large so that QRN (external fields) dominate thermal noise (internal noise). A square shape with 2 metres each side appears to be about right for the LF bands of interest to amateurs. 73, Bob ZL2CA