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EI7GL....A diary of amateur radio activity
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VHF Tropo forecast for the North Atlantic path - Weekend 3rd & 4th April
2021
Posted: 02 Apr 2021 12:10 PM PDT
https://ei7gl.blogspot.com/2021/04/vhf-tropo-forecast-for-north-atlantic.html
According to the tropo forecast website of F5LEN, there is a chance of
enhanced tropo conditions across the North Atlantic on the weekend of
Saturday 3rd & Sunday 4th of April 2021.
While contacts at 144 MHz are probably unlikely, any suitably equipped
stations in Ireland, the UK, France, Spain & Portugal might be interested
in trying.
Frank, VO1HP reports that the following stations will be monitoring from Newfoundland...
VO1IV Aaron - St.Johns Newfoundland - (10el yagi and FT991)
VO1DZA Graham - St.Johns Newfoundland
VO1WEB Matt - St.Johns Newfoundland
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Frank also reports that they plan to get their SDR Transatlantic Beacon Receiver site operational in May of 2021 when the antennas are taken out of storage.
Links...
1) F5LEN tropo prediction website
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Analysis of Paul Logan's Band 2 FMDX log for 2020: Pt 1 - Tropo
Posted: 02 Apr 2021 12:00 AM PDT
https://ei7gl.blogspot.com/2021/04/analysis-of-paul-logans-band-2-fmdx-log.html
In this three part series of posts, I am going to look at the 2020 logs of
a very active Band 2 DXer and what they might suggest about propagation on
the 88 to 108 MHz FM band. The posts are broken up into three parts... 1) Tropospheric Propagation, 2) Sporadic-E & 3) Meteor Scatter.
First off, a big thank you to Paul Logan who very kindly shared his 2020
Band 2 logbook with me and answered numerous questions that I had. Outside
of his usual 'local' FM radio stations which he can hear under flat
conditions, he logged and identified roughly 5,500 long distance signals on Band 2 in the year 2020.
Profile of Paul Logan... Paul is a very active listener of Band 2 radio
(88-108 MHz) signals and has been logging stations that he has heard for
about 30 years. He lives in Lisnaskea in Co.Fermanagh in Ireland and his location is shown in the map below.
Paul's location is far from ideal for listening to distant VHF signals. He
has some local hills to the east as well as the hills and mountains in Scotland, England and Wales as a further obstruction.
Equipment... For the 2020 logs, Paul used an SDRPlay RSP1 & RSP1A.
In recent years, software defined receivers have transformed FMDX listening
as signals can now be seen on a computer screen as well as being heard.
This allows a user to visually check for any unusual signals and can then
go investigate it. One of the most impressive features is the ability to
record sections of the spectrum and a user can then go back later to listen
for anything unusual.
For an antenna, Paul is using a Korner FM9 from Antennenland in Germany.
This antenna which is mounted 8 metres above ground level is highly
regarded by many FMDXers in Europe.
2020 Tropo Log... During the year 2020, Paul heard and identified around 86 signals that were heard via tropospheric propagation. This mode of
propagation occurs when signals are bent over the horizon by sharp changes between air layers with different temperatures and moisture content.
I have picked out 5 groups of signals of note which I have marked from A to
E. Refer to the map below and then the horizon profile further down.
A - This group of signals from the north-west corner of Spain are in the
region of 1200 to 1300 kms. The sea path from the south coast of Ireland to
the north coast of Spain is very good for VHF propagation with marine
ducting happening several times a year. These sea paths are usually the
best for very long paths in excess of 500kms and sometimes the signals can
be amazingly strong.
In the video below, Paul shows how he was able to hear a Spanish radio
station on a small portable radio when the opening was at its strongest.
With his main directional antenna, he was able to hear the Spanish signals
for most of the day.
In the horizon plot below, you can see that the path to NW Spain at Paul's location is largely unobstructed with only a 1 degree elevation. This
allows very low angle signals to arrive at his location.
B - This path to Brittany and Cornwall is similar in that the sea path
helps and the hills on the horizon are quite low at about 1 degree
elevation.
C - This interesting batch of signals came from Norfolk in the east of
England, a distance of 600kms. These signals had a few obstacles to
overcome including Paul's local hills as well as the Pennines running down
the centre of England.
With the signals arriving at least 3.5 degrees above the horizon, the means
of propagation may have been via an elevated duct in the region of 500m to 2000m above the earth's surface. While higher frequency VHF & UHF signals
tend to propagate better inside of ducts, it went as low as 89.7 MHz in
this example.
D - This cluster of signals from the Netherlands and Germany were
interesting for a number of reasons. First off is the sheer distance...
about 1000kms which is unusual for Band 2 tropo. I suspect that the sea
path over the North Sea may have helped for a large part of the journey.
If you examine the horizon plot below, you'll notice that there is a gap in
the hills due east (90 degrees) where the horizon has an elevation of about
2.5 degrees.
What's really interesting is that the paths from the four transmission
sites fit exactly in the gap. The signal from the most northerly German transmitter is exactly at the left hand side of the gap. The signal from
the most southerly Dutch transmitter is exactly at the right hand side of
the gap. The four signals fit exactly like a glove which suggests that they
are coming in just barely above 2.5 degrees above the horizon.
E - These signals from the Newcastle area were at a distance of about
370kms and again are coming in from an obstructed path. This one has the highest angle as it had to clear a local hill that was 4 degrees on the horizon.
Outside of the five examples shown above, most of the other signals were in
the region of 150 to 300kms which is pretty typical for tropospheric propagation on Band 2.
What's also interesting are the signals that weren't heard. For example,
there was no tropo from Scotland which Paul confirms is a very difficult direction for him. As can be seen from the horizon plot above, the local
hill in that direction is 5 degrees and that has the effect of blocking
tropo signals.
In conclusion... I hope this short analysis highlights the importance of
having a low unobstructed horizon for hearing signals on Band 2 (88-108
MHz).
Having obstructions under 1 degree is best, under 2 degrees is acceptable
but beyond that, the signals and paths get rarer.
Any local hill that is at 5 degrees or above is a show stopper for VHF
tropo propagation.
The examples above would also apply to say the VHF aircraft band (118-136
MHz), the 2-metre amateur band (144 MHz) and the VHF marine band (156 MHz). Normally the best advice is to have your antenna mounted as high as
possible on the VHF bands so that the amount of obstruction on your horizon
is reduced to a minimum.
Band 2 is a bit of an paradox in that the higher you put your antenna,
the 'local' signals get stronger which in turn can mask the DX signals.
It's really a case of finding out what height works best for your location. Links...1) Paul Logan's Tropo log for 2020 on the FM List website.2) Paul's YouTube Channel3) Paul's radio website4) Paul's AM/FM DX Twitter account
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