I did a few scans of the beacon band and I heard two...
EI7GL 28243.0 F5ZWE/B 15:49 02 May IO51TU<ES>JN02TW France
EI7GL 28271.0 OZ7IGY 12:07 02 May PI4 -14 dB Q=74 1393 km <es> Denmark
Saturday 1st May 2021: In contrast to the previous day, the 28 MHz band was pretty poor with just a weak Sporadic-E opening to the northern parts of Spain and Portugal.
Surrey Amateur Radio have just released the May-June 2021 issue of the Communicator, their bi-monthly online journal.
It has 110 pages and there is plenty in it of interest. You can get the link from this blog post.
Friday 30th April 2021: This was the first real big Sporadic-E opening on the 28 MHz band for 2021 with a total of 403 stations in 39 countries heard on FT8.
Just 4 of those were outside the normal Sporadic-E range and were probably via F2 propagation.
Update - 16th Feb 2021: The S55ZMS beacon is currently under test. The power output is 4-watts into a multi-band dipole. The plan is to eventually increase this to 10 watts and to move the beacon to the S53M contest location which is situated on top of a hill. A proper 40-MHz dipole is planned for the site but its exact location on the site and its orientation hasn't been finalised.
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More good news for the new 8-metre amateur radio band! A new beacon in Slovenia is now operational on 40.670 MHz.
The callsign of the beacon is S55ZMS and it has an output power of 7 watts into a dipole. The transmissions are in both CW and on PI4, a digital mode designed for beacons.
The beacon is located near Bakovci in the far eastern part of Slovenia near the border with Hungary and its locator is JN86BO.
The licensing authorities first gave permission for 8m beacons in Slovenia back in June of 1998 but not much happened at the time. This new beacon in the 40 MHz ISM band (Industrial, Scientific & Medical) is now the third operational 8m beacon in Europe joining OZ7IGY in Denmark and EI1KNH in Ireland.
The map above shows the location of the 8m beacon in Slovenia and the distances from it. It's very likely that it will be heard around Europe during the Summer months by Sporadic-E propagation. The range is likely to be in the region of 800 to 2100 kms.
The fact that the new beacon from Slovenia is also further south than the beacons in Ireland and Denmark is also significant. As we move further into solar cycle 25 and the flux rises, there will be times when 40 MHz signals will be heard much further away in places like North & South America, Africa and Asia.
It's also highly likely that the 40 MHz signal from Slovenia will be heard in South Africa through a combination of Trans-Equatorial Propagation (TEP) and Sporadic-E (Sp-E).
For more information on the 40 MHz band, visit this page on the blog... https://ei7gl.blogspot.com/p/40-mhz.html
Borut, S50B in Slovenia informs me in an email message that he now has a 4-element Yagi (YU7EF design) for the 40 MHz (8m) band.
During Sporadic-E openings in the Summer, S50B should have a good signal in the region of 1000 to 2200 kms around Europe. As the map shows, Borut should have a very good signal into the UK and Ireland.The South African ZS6WAB beacon on 40.475 MHz has already been heard by several stations in the south of Europe. See previous post.
As the map shows, the ZS6WAB is about 4000kms from the Geomagnetic Equator. Slovenia (S5) or Croatia (9A) seems to be around the same distance to the North so TEP (Trans-Equatorial Propagation) contacts should be possible.
40 MHz is also a band where there are even more Sporadic-E openings than 50 MHz (6m) so multi-hop Sp-E is also a possibility.
It's only a matter of time before we see the first contact between Europe and South Africa on the new 8-metre amateur band.
Thursday 29th April 2021: This was a reasonably quiet day with only 21 stations in 9 countries heard on FT8.
The main Sporadic-E opening was to the west of the Iberian peninsula with 11 stations heard from Spain and Portugal. Like the higher VHF bands, the Sporadic-E footprint on 28 MHz can often be quite localised with a certain area of a country being heard and nothing from the rest.
The only DX station was ZD7JC on St Helena Island in the South Atlantic. It's probably no accident that it lines up exactly with the Sporadic-E opening.
It is probably likely that the signal from St Helena traveled to Spain/Portugal via either F2 or TEP propagation and from there to Ireland via Sp-E.
As we move into May, we can expect the big openings on 28 MHz and above to start.
Frank Donovan, W3LPL is one of the top contesters in the USA and is a key forecaster of upcoming conditions on the HF amateur radio bands.
In a recent forecast (April 2021), he made a forecast about how good upcoming Solar Cycle 25 would be based on the Solar Flux numbers at the end of December 2021. I have put together a graphic which shows this above. The starting point for April 2021 is a solar flux index of 77 which is roughly the average for the month.
W3LPL wrote... “If the SFI persists below 90 through December 2021, then propagation should improve gradually until a solar maximum weaker than Cycle 24’s arrives in 2024.
If the SFI persists above 110 through December 2021, then propagation should improve rapidly until a solar maximum similar to Cycle 24’s arrives in 2024.
“If the SFI persists above 125 through December 2021, then propagation is likely to improve more rapidly until a solar maximum stronger than Cycle 24’s arrives in 2024.”
(SFI = Solar Flux Index)
As with everything on the sun, there is always an amount of uncertainty in solar forecasts but it will be interesting to revisit this at the end of the year and see where we're at.
Wednesday 28th April 2021: This was a reasonably modest day on the 28 MHz band with 71 stations in 21 countries heard on FT8.
There was some Sporadic-E propagation to Europe with EA7GPW in the south of Spain being the last station heard at 21:44 UTC. There was also a modest opening to South America.
I didn't get a chance to do any scans of the band as I was out for a long walk for most of the day. One of the advantages of FT8 is that you can check to see what propagation conditions were like on the band without actually being there.
The solar flux on the day was 79 which is not much above what it was at sunspot minimum.
I came across details of this QSO recently which I thought was interesting. While long distance contacts in the region of 700kms on the 70cms UHF band are probably not that unusual in the Caribbean, this one was of interest as it was via D-STAR, a digital voice mode.
On the 18th of April 2021, Brett PJ2BR on Curacao completed a successful contact with Jose WP4KJJ on Puerto Rico on 432 MHz using D-STAR. See video below.
It's very easy to find videos or information about D-STAR being used for working through local digital repeaters or local contacts but it's unusual to see it being used for a long distance contact on the 70cms UHF band.
When you think you’ve done it all...Opening on 70cm to Puerto Rico. @WP4KJJ and I had a short DV/Dstar QSO on 70cm!! I am ecstatic! Distance 736Km, DV. Breaks the Covid lockdown routine 😁 One for the books. pic.twitter.com/iEVKESi2Re
— Brett Ruiz (@pj2br) April 17, 2021
Just two long distance FT8 reports were uploaded to the PSK Reporter website, LU9FVS in Argentina and ZD7JC on St Helena Island.
The main Sporadic-E opening to Europe was to the south of Spain. I did one scan of the beacon band when the signals appeared modest but heard nothing.
I really got the impression that FT8 signals need to be up around S5 before any CW beacons will be heard. Whatever people think about FT8, it's a great propagation tool.
A total of 45 stations in 13 countries were heard on FT8 and uploaded to the PSK Reporter website.
The Irish 4m beacon EI4RF has now been upgraded and is now transmitting on 70.013 MHz. It was previously operating on 70.130 MHz due to the limits of the older Irish 4m band.
It is still located to the south of Dublin in the locator square IO63VE.
It is running 25-watts into a 3-element Yagi pointing east (90 degrees). The map above shows the beam heading with the -3dB (half power) headings as well.
EI4RF: 3-element Yagi for 70 MHz |
The signal for the beacon comes from a GPS locked RFzero board and it uses the following format per minute: 3 x 15 second FT8 transmission and 1 x CW transmission.
Monday 26th April 2021: This was a pretty modest day on the 28 MHz band with just 46 stations on FT8 in 19 countries heard.
The one surprise was VP8NO on the Falkland Islands who somehow made it through on his own. Other than that, it was Sporadic-E around Europe.
Some of the signals were quiet reasonable. I heard one German station who was S7 on the meter but when I did a scan of the beacon band, I heard nothing. It seems as if the Sp-E footprint was quite small.
The other strong signals were from Norway and Sweden and I heard two CW beacons...
I think I might stay monitoring FT8 on 10m until the end of the month and then move over to WSPR.
I recently read an interesting post on the website of César, EA8CXN about a 'Ship Scatter' contact on 1296 MHz (23cms)!
The map above shows the scenario. EA8CXN and EA8CSB are on the island of Tenerife in the Canary Islands and they cannot complete a contact directly on 1296 MHz due to local mountains.
They did however manage to complete a contact by bouncing the 23cm microwave signals off a passing cruise ship which is about 60kms away! Amazing.
After initially completing a contact on FT8, they managed to complete a QSO on SSB.
EA8CXN was running 100 watts in a 1-metre dish with horizontal polarization. EA8CSB was using just 2.5 watts into a vertical Diamond X-7000.
Check out the post on EA8CXN's website for more info and to see the SSB contacts.
Sunday 25th April 2021: This was a pretty quiet day on the 28 MHz band with 20 stations in 9 countries heard on FT8. The poor conditions may well have been due to some geomagnetic disturbance from the sun.
The one unusual Sporadic-E opening was to Portugal with 7 stations heard from a very small geographic area.
The other unusual signals for me are those from the UK...
I think the first two are probably via tropo but I'm not sure about the signals that are 500kms and above.
For example, I seem to hear G0OYQ near Hull nearly every day. I suspect it may be via meteor scatter and FT8 is digging out signals that are buried in the noise. How to prove it is another matter.
As this Sporadic-E and TEP seasons overlap, it allows for some remarkable contacts to take place on the VHF bands. This is a report from Mark, EI3KD near the south coast of Ireland who managed a contact with the Falkland Islands on the 21st of April 2021.
Mark, EI3KD writes... "50MHz TEP (Trans-Equatorial Propagation) was very good on the 21st of April, mostly at latitudes closer to the geomagnetic equator than Ireland. However, we did have a brief opening here; I was lucky enough to complete a QSO with VP8A in the Falkland Islands (GD18BH) at about 12,464kms.
I always look for TEP, especially after solar events, but I wasn't expecting that at all! VP8A was in/out here between 17:33z and 17:45z, peaking -14dB on FT8, and also seen working CE8, PY5, LU6 and EA7 (nothing from any of those here).
Apart from him, the only other signal I decoded was one sequence from PY3KN, GF49, after VP8A had faded, at 17:54z. The "Magic Band", indeed! 73, Mark EI3KD IO51vw"
For this contact, Mark was using a 6-element LFA2 Yagi 15-metres above ground level.
Analysis: As Mark notes, Trans-Equatorial Propagation (TEP) was the main reason for this remarkable contact but it doesn't fully explain the 12,400+km contact. It would seem likely that there was a Sporadic-E hop at the northern end of the path to Ireland and possibly also at the southern end for the final jump to the Falklands.
Prior to the use of digital modes like FT8, there were probably openings like this in the past but with signals down around -14dB, they would hand gone largely unnoticed on SSB or CW as the signals would be buried in the noise.
The signals to Europe were strong at times but I couldn't do a scan of the band at those times.
The one beacon I did hear was PI7BXM beacon in the Netherlands...
EI7GL 28254.0 PI7BXM/B 15:50 24 Apr IO51TU<ES>JO21WF Netherlands
The map above show the extent of the Sporadic-E opening to Europe. For the first time this year, there was a good number of signals from Finland and the Baltic states.
A total of 169 stations were heard on FT8 in 20 countries. The solar flux was down at 77.
The diagram above shows the new solar cycle running ahead of schedule. If it continues like this then Solar Cycle 25 may peak in 2024, a year earlier than expected.
As with all solar predictions, only time will tell how accurate they are.
Friday 23rd April 2021: This was a pretty reasonable day on the 28 MHz with a modest Sporadic-E opening to Europe. As can be seen from the map above, signals from Brazil and St Helena did mange to get through but the Sporadic-E was the main feature of the day.
As can be seen from the map, most of the signals were concentrated in one band stretching from the Netherlands to Austria. This was probably the best day so far of the 2021 Sporadic-E season.
Two signals made it through from an area near Moscow... F2 propagation? Double hop Sporadic-E? Probably Sp-E but you can never be certain on 28 MHz.
I did three scans of the band when the FT8 signals seemed reasonable and I heard two beacons...
EI7GL 28245.3 DB0TEN/B 14:18 23 Apr IO51TU<ES>JO42UV Fed. Rep. of Germany
EI7GL 28188.0 OE3XAC/B 11:38 23 Apr IO51TU<ES>JN78SB Austria
A total of 232 stations in 30 countries were heard on FT8. The Solar Flux was 84.
Dave N7BHC (Also PJ4VHF & ZR2BI) left a comment on a post recently about VHF propagation in the South Atlantic. There was so much interesting info in it that I have put it up here as a guest post. There is plenty in there as food for thought.
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Back in 2007-2010, I was trying to drum up trans-Atlantic tropo ducting interest. I am very pleased to see more progress now. A contact from ZD7 (St.Helena Is) to PY (Brazil) on 144 MHz (2m) is 100% probable.
I introduced John Turner at Saint FM, the local FM radio station, back in 2008-2010 to tropo ducting on the FM broadcasting band. He successfully logged many Angolan, Namibian, and Cape Town FM stations. One December he emailed that he was unsuccessful identifying an Angolan FM radio station as he had interference from a Brazilian station on the same frequency. This was using just a car radio with its whip antenna.
Back in March 2008, ZD8I on Ascension Island reported that they sometimes heard Cape Town Marine Radio (ZSC) on 156.8 MHz FM. That is an omni antenna to an omni antenna on FM at a range of 4400 km.
ZD8S on Ascension Island reports listening to Brazilian FM stations with indoor portable radios.
Since then, I spent the next ten years on Bonaire as PJ4VHF. My biggest tropo ducting success across the North Atlantic was the initial reception of D4C/b on the Cape Verde Islands at a range of 4,694km. I strongly encourage any stations on ZD7 and ZD8 to be active on both 2m and 70cm.
I have been studying trans-ocenic ducting for many decades (I started out as ZR2BI in East London). The South Atlantic may be the BEST location worldwide for long-haul ducting, both for range and how often the openings occur. FM vertical polarization works well bit SSB or FT8 on horizontal is even better.
Maybe someday we may be allowed to and able to travel again, and I can afford to visit ZD7 in person. Until then, all I can do is strongly encourage others.
73, Dave N7BHC/PJ4VHF/ZR2BI dpedersen AT drasticom DOT com