X-GM-THRID: 1198594824706992699 X-Gmail-Labels: rsgb lf X-Gmail-Received: 191afd3e3e2d75945b5d64231b6a84f7290cbf8b Delivered-To: daveyxm@gmail.com Received: by 10.54.127.8 with SMTP id z8cs14338wrc; Wed, 22 Mar 2006 15:11:40 -0800 (PST) Received: by 10.65.124.13 with SMTP id b13mr1169007qbn; Wed, 22 Mar 2006 15:11:40 -0800 (PST) Return-Path: Received: from post.thorcom.com (post.thorcom.com [193.82.116.20]) by mx.gmail.com with ESMTP id e14si269036qbe.2006.03.22.15.11.38; Wed, 22 Mar 2006 15:11:40 -0800 (PST) Received-SPF: neutral (gmail.com: 193.82.116.20 is neither permitted nor denied by best guess record for domain of owner-rsgb_lf_group@blacksheep.org) Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1FMCPG-0001ul-SS for rs_out_1@blacksheep.org; Wed, 22 Mar 2006 23:06:22 +0000 Received: from [193.82.116.32] (helo=relay1.thorcom.net) by post.thorcom.com with esmtp (Exim 4.14) id 1FMCPF-0001uc-Uk for rsgb_lf_group@blacksheep.org; Wed, 22 Mar 2006 23:06:21 +0000 Received: from imo-m20.mx.aol.com ([64.12.137.1]) by relay1.thorcom.net with esmtp (Exim 4.51) id 1FME1K-0002fw-9E for rsgb_lf_group@blacksheep.org; Thu, 23 Mar 2006 00:50:04 +0000 Received: from MarkusVester@aol.com by imo-m20.mx.aol.com (mail_out_v38_r7.3.) id l.257.88fa388 (16781) for ; Wed, 22 Mar 2006 18:02:06 -0500 (EST) From: MarkusVester@aol.com Message-ID: <257.88fa388.3153316d@aol.com> Date: Wed, 22 Mar 2006 18:02:05 EST To: rsgb_lf_group@blacksheep.org MIME-Version: 1.0 X-Mailer: 8.0 for Windows sub 6104 X-Spam-Flag: NO X-Spam-Score: -0.8 (/) X-Spam-Report: autolearn=disabled,AWL=-1.499,HTML_20_30=0.504,HTML_MESSAGE=0.001,NO_REAL_NAME=0.178 Subject: LF: TA Loran on 136 kHz Content-Type: multipart/mixed; boundary="part1_257.88fa388.3153316d_boundary" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: * X-Spam-Status: No, hits=1.5 required=5.0 tests=HTML_COMMENT_8BITS, HTML_MESSAGE,HTML_TAG_BALANCE_HTML,NO_REAL_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 Status: O X-Status: X-Keywords: X-UID: 6106 --part1_257.88fa388.3153316d_boundary Content-Type: multipart/related; boundary="part1_257.88fa388.3153316d_rel_boundary" --part1_257.88fa388.3153316d_rel_boundary Content-Type: multipart/alternative; boundary="257.88fa388_alt_bound" --257.88fa388_alt_bound Content-Type: text/plain; charset="ISO-8859-1" Content-Transfer-Encoding: quoted-printable Dear LF Group, a while ago, Peter G3PLX mentioned that it should be possible to receive=20 American Loran sidebands on 136 kHz in time domain, focussing all the availa= ble=20 power of the spectral lines back to short pulses. This is not quite easy as=20= the=20 expected average power within the SSB passband would be less than 50 mW EMRP= ,=20 even for the strongest stations emitting a megawatt peak on 100 kHz. In=20 addition, the wideband reception would make it difficult to evade QRM source= s such=20 as SXV, CFH or DCF39. Peter and I have both worked on software to do the time domain averaging,=20 after rotating phases to align both to the group repetition interval (GRI) a= nd to=20 the one millisecond pulse repetition within the pulsegroups. To deal with=20 frequency and samplerate deviations, we used different approaches: Peter app= lied=20 his elegant GPS-based "ClickLock" technique which he described in another=20 posting, whereas I attempted to aquire and track the stronger European chain= s=20 (Sylt, Eide) and derive absolute TAI time, and then look only around the exp= ected=20 pulse arrival times of the other chains. Last Friday, Peter recorded this graph, showing the first positive reception= =20 of transatlantic Loran spillover on 136 kHz, with a peak of about 15 dB SNR: ____________________________________________________________ ____________________________________________________________ The same night, my modified "LoranView" program managed to pick up the Saudi= =20 Arabia chain (GRI 8830), but no definite TA reception yet. This screenshot i= s=20 from 21:56 to 22:56, with 5 minutes/pixel vertically and 5513 samples/s left= =20 to right: However the next night produced clear traces of several North American=20 stations - http://people.freenet.de/df6nm/LoranView/LoranView_137and100kHz.= htm=20 shows time-domain Loran as seen on 136.75 kHz and on 100 kHz. In general, re= lative=20 levels of the 100 kHz main signal and the 136 kHz sidebands seem to be more=20 or less the same for all stations, with the notable exeption of Simferopol=20 which has unusually high spillover. Shown alongside is a small colour-DF=20 spectrogram of the LF band occupation; obviously most of the noise backgroun= d is=20 associated with SXV (yellow on 135.73 kHz) and CFH (blue on 137.0 kHz). 73 and best wishes Markus In einer eMail vom 02.03.2006 21:24:07 Westeurop=E4ische Normalzeit schreibt= =20 peter.martinez@btinternet.com:=20 > Re: LF: LORAN spurious emission levels >=20 ... I have now extended the coherent software so I can receive the spurious= =20 > LORAN signals as pulses. This is about 25dB more sensitive that looking fo= r=20 > a single spectral line, because I am effectively adding-together ALL the=20 > spurious spectral lines I can hear in the 3kHz SSB receiver. I can, for ex= ample,=20 > copy the Slonim (Belarus) LORAN transmitter, 1800km away, at midday, on=20 > 136.5kHz in a bandwidth of +/-1.5kHz. It's 20dB/noise, but of course that=20= is=20 > after 15 minutes of coherently summing the signal. The nice thing about th= is=20 > technique is that the different transmitters in the chain do NOT mix toget= her. I=20 > can even read the 8-bit BPSK ident code inside each pulse - the modulation= on=20 > the spurious emissions is still perfectly readable. Maybe I could even co= py=20 > some of the USA LORAN transmitters on 136kHz using this idea. No more need= =20 > for beacons, just record the dx LORAN pulses! >=20 --257.88fa388_alt_bound Content-Type: text/html; charset="ISO-8859-1" Content-Transfer-Encoding: quoted-printable Dear LF Group,

a while ago, Peter G3PLX mentioned that it should be possible to receive Ame= rican Loran sidebands on 136 kHz in time domain, focussing all the available= power of the spectral lines back to short pulses. This is not quite easy as= the expected average power within the SSB passband would be less than 50 mW= EMRP, even for the strongest stations emitting a megawatt peak on 100 kHz.=20= In addition, the wideband reception would make it difficult to evade QRM sou= rces such as SXV, CFH or DCF39.

Peter and I have both worked on software to do the time domain averaging, af= ter rotating phases to align both to the group repetition interval (GRI) and= to the one millisecond pulse repetition within the pulsegroups. To deal wit= h frequency and samplerate deviations, we used different approaches: Peter a= pplied his elegant GPS-based "ClickLock" technique which he described in ano= ther posting, whereas I attempted to aquire and track the stronger European=20= chains (Sylt, Eide) and derive absolute TAI time, and then look only around=20= the expected pulse arrival times of the other chains.

Last Friday, Peter recorded this graph, showing the first positive reception= of transatlantic Loran spillover on 136 kHz, with a peak of about 15 dB SNR= :
____________________________________________________________

____________________________________________________________

The same night, my modified "LoranView" program managed to pick up the Saudi= Arabia chain (GRI 8830), but no definite TA reception yet. This screenshot=20= is from 21:56 to 22:56, with 5 minutes/pixel vertically and 5513 samples/s l= eft to right:



However the next night produced clear traces of several North American stati= ons -  http://people.freenet.de/df6nm/LoranView/LoranView_137and100= kHz.htm shows time-domain Loran as seen on 136.75 kHz and on 100 kHz. In= general, relative levels of the 100 kHz main signal and the 136 kHz sideban= ds seem to be more or less the same for all stations, with the notable exept= ion of Simferopol which has unusually high spillover. Shown alongside is a s= mall colour-DF spectrogram of the LF band occupation; obviously most of the=20= noise background is associated with SXV (yellow on 135.73 kHz) and CFH (blue= on 137.0 kHz).

73 and best wishes

Markus


In einer eMail vom 02.03.2006 21:24:07 Westeurop=E4ische Normalzeit schreibt= peter.martinez@btinternet.com:

Re: LF: LORAN spurious emission= levels

... I have now extended the coherent software so I can receive the spurious=
LORAN signals as pulses. This i= s about 25dB more sensitive that looking for a single spectral line, because= I am effectively adding-together ALL the spurious spectral lines I can hear= in the 3kHz SSB receiver. I can, for example, copy the Slonim (Belarus) LOR= AN transmitter, 1800km away, at midday, on 136.5kHz in a bandwidth of +/-1.5= kHz. It's 20dB/noise, but of course that is after 15 minutes of coherently s= umming the signal. The nice thing about this technique is that the different= transmitters in the chain do NOT mix together. I can even read the 8-bit BP= SK ident code inside each pulse - the modulation on the spurious emissions i= s still perfectly readable.  Maybe I could even copy some of the USA LO= RAN transmitters on 136kHz using this idea. No more need for beacons, just r= ecord the dx LORAN pulses!


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