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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
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Subject: LF: TA Loran on 136 kHz
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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

<HTML><FONT FACE=3Darial,helvetica><HTML><FONT  SIZE=3D2 PTSIZE=3D10 FAMILY=
=3D"SANSSERIF" FACE=3D"Arial" LANG=3D"2">Dear LF Group,<BR>
<BR>
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.<BR>
<BR>
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.<BR>
<BR>
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=
:<BR>
____________________________________________________________<BR>
<IMG SRC=3D"cid:X.MA1.1143068523@aol.com"   ID=3D"MA1.1143068523" WIDTH=3D"4=
00" HEIGHT=3D"256" BORDER=3D"0" DATASIZE=3D"3464"></FONT><FONT  COLOR=3D"#00=
0000" BACK=3D"#ffffff" style=3D"BACKGROUND-COLOR: #ffffff" SIZE=3D2 PTSIZE=
=3D10 FAMILY=3D"SANSSERIF" FACE=3D"Arial" LANG=3D"2"><BR>
____________________________________________________________<BR>
<BR>
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:<BR>
<BR>
<IMG SRC=3D"cid:X.MA2.1143068523@aol.com"   ID=3D"MA2.1143068523" WIDTH=3D"5=
28" HEIGHT=3D"119" BORDER=3D"0" DATASIZE=3D"11184"></FONT><FONT  COLOR=3D"#0=
00000" BACK=3D"#ffffff" style=3D"BACKGROUND-COLOR: #ffffff" SIZE=3D2 PTSIZE=
=3D10 FAMILY=3D"SANSSERIF" FACE=3D"Arial" LANG=3D"2"><BR>
<BR>
However the next night produced clear traces of several North American stati=
ons -&nbsp; <A HREF=3D"http://people.freenet.de/df6nm/LoranView/LoranView_13=
7and100kHz.htm">http://people.freenet.de/df6nm/LoranView/LoranView_137and100=
kHz.htm</A> 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).<BR>
<BR>
73 and best wishes<BR>
<BR>
Markus<BR>
<BR>
<BR>
In einer eMail vom 02.03.2006 21:24:07 Westeurop=E4ische Normalzeit schreibt=
 peter.martinez@btinternet.com: <BR>
<BR>
<BLOCKQUOTE TYPE=3DCITE style=3D"BORDER-LEFT: #0000ff 2px solid; MARGIN-LEFT=
: 5px; MARGIN-RIGHT: 0px; PADDING-LEFT: 5px">Re: LF: LORAN spurious emission=
 levels<BR>
</BLOCKQUOTE><BR>
 ... I have now extended the coherent software so I can receive the spurious=
 <BR>
<BLOCKQUOTE TYPE=3DCITE style=3D"BORDER-LEFT: #0000ff 2px solid; MARGIN-LEFT=
: 5px; MARGIN-RIGHT: 0px; PADDING-LEFT: 5px">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.&nbsp; 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!<BR>
</BLOCKQUOTE><BR>
<BR>
</FONT></HTML>
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