Monday, September 20, 2021

5000km+ paths on 144 MHz recorded in South America as the TEP season begins - 20th Sept 2021

It was interesting to note that there were several openings over the last few days on 144 MHz between the Caribbean and South America.


The map above shows the 5155km path that was open on 144 MHz between Aruba and Argentina.

P41E 144300 LU8FLB 00:59 20 Sep 21 Tep Argentina

The DX spot was most likely for a SSB signal and the propagation mode was TEP or Trans-Equatorial Propagation.

At around the same time, the path was open for FG4SU in Guadeloupe to the south of Brazil.



These are the FT8 spots...

20th Sep
Txmtr Rcvr Band Mode Distance Time (UTC)
FG4SU PY2OAL 2m FT8 4566 km 01:04:59
PY2BL FG4SU 2m FT8 4649 km 00:27:44

Notice how the signals from the two locations are different. At 144 MHz, only signals that cross the Geomagnetic Equator at right angles tend to get propagated via TEP. What this means is that stations near Aruba work Argentina while stations further east in Puerto Rico work the south of Brazil.

While I was looking up some information for this post, I noticed that there were also TEP openings on 144 MHz on the 17th and 19th of September.

PY5EW 144174 FM5CS 01:04 17 Sep 21 FT8 -13 dB 1716 Hz Martinique
PY2OAL 144175.2 FM5CS 01:00 17 Sep 21 FT8 TNX 4300KM TEP Martinique
PY2EDY 144174 FM5CS 01:18 17 Sep 21 FT8 -5 dB 1651 Hz FK94 Martinique

PT9FD 144174 NP4BM 00:47 19 Sep 21 FT8 GG27OR TEP FK68LM TU QSO Puerto Rico
PT9FD 144150 WP4KJJ 00:28 19 Sep 21 Q65C TU QSO GG27OR TEP FK68 Puerto Rico


It's likely there are going to be plenty of more openings between the Caribbean and South America on 144 MHz over the next few weeks. It would be interesting to see some reports of similar openings from the south of Europe to Africa.

Irish Amateur Radio Survey & SWOT Analysis Report 2021


The Irish Radio Transmitters Society (IRTS) conducted an online survey a few weeks back and the results are available now. You can view the PDF document HERE

A 64 minute video outlining the findings is shown below...

Opening to South Africa on 28 MHz - Sun 19th Sept 2021


Sunday 19th September 2021: The map above shows the FT8 signals heard on the 28 MHz band during the day. There were signals from the south of Europe which were probably via Sporadic-E and then longer distance signals from South America, St.Helena, South Africa and Namibia.

It's likely that the signals from the southern hemisphere were via TEP (Trans-Equatorial Propagation) with a single Sporadic-E hop at the northern end of the circuit.

The solar flux was down around the 74 mark.

While this was the first day this season that I heard signals from the south of the African continent, I could hardly say that the opening was exceptional. The two things to take from it are 1) There are openings on 28 MHz almost every day and 2) Most of the DX is on North-South paths.

We have a good bit to go yet before we see the East-West openings from Europe to North America on the 10m band for modestly equipped stations.

The DX heard on Sunday...

Txmtr Band Mode Distance Time (UTC)
LU3DI 10m FT8 10763 km 18:36:44
ZS6AF 10m FT8 9411 km 17:18:44
CP6UA 10m FT8 9376 km 20:42:59
PY2DPM 10m FT8 9208 km 18:45:44
V51MA 10m FT8 8619 km 17:50:59
PT2VHF 10m FT8 8436 km 20:03:14
ZD7JC 10m FT8 7542 km 18:48:44

Friday, September 17, 2021

Polish contest station works 134 locators in recent 144 MHz contest


The Polish contest group SN7L were active for the recent IARU 144 MHz contest and it was interesting to see what they worked as it shows the potential of the 2m band.

The SN7L team were using 4 Yagi antenna system on the summit of a 1603m mountain in the south-west of Poland. Over the 24 hours of the contest, they managed to complete an impressive 1365 contacts with stations across Europe in 135 locator squares and 30 DXCC countries.


Some of the longest distance contacts were to Ireland, Scotland & the Isle of Man with distances in excess of 1500kms being recorded.


How often do we see articles for beginners which tell them that VHF is more or less 'line of sight'?

The reality is that the VHF bands have a lot of potential if people are prepared to put in the time and effort to exploit them.

Wednesday, September 15, 2021

Opening to Indonesia on 28 MHz - 14th Sept 2021


Tuesday the 14th of September 2021 was reasonably quiet on 28 MHz but one single station from Indonesia did manage to get through. It's likely that it was due to a weak Sporadic-E opening from my location to the north of Germany and from there by F2 propagation to Indonesia.

There was also a weak Sporadic-E opening to Spain later in the day. A total of 28 stations were heard on FT8. The solar flux was at 83 on the day.

Tuesday, September 14, 2021

Upper Atmosphere Contracting Due to Climate Change


A recent study by scientists found that that the Mesosphere, the layer of the atmosphere 50 to 80 kms above the surface of the Earth, is cooling and contracting. This was based on 30 years of observations and is due to rising human-made greenhouse gas emissions.

Scott Bailey, an atmospheric scientist at Virginia Tech in Blacksburg, and lead of the study, published in the Journal of Atmospheric and Solar-Terrestrial Physics said... “You need several decades to get a handle on these trends and isolate what’s happening due to greenhouse gas emissions, solar cycle changes, and other effects. We had to put together three satellites’ worth of data.”

Together, the satellites provided about 30 years of observations, indicating that the summer mesosphere over Earth’s poles is cooling about 2.5 degrees Celsius and contracting 150 to 200 metres per decade.

Interesting from a radio point of view, when the mesosphere contracts, the rest of the upper atmosphere above sinks with it including the ionosphere. This could potentially lower the height of the Sporadic-E layer which form during the Summer months at about 105 kms which would result in shorter skip distances. However, if the region is only dropping 200m or 0.2% in height per decade then it's unlikely anyone will see any real difference in the short term.

The contracting atmosphere also means less drag on low orbit satellites which means that more space junk in low-Earth orbit.


The mesosphere is also known for its noctilucent or polar mesospheric clouds near the polar regions. These clouds form in summer, when the mesosphere has all three ingredients to produce the clouds: water vapor, very cold temperatures, and dust from meteors that burn up in this part of the atmosphere. 

These clouds are getting brighter, drifting farther from the poles, and appearing earlier than usual. This area of the mesosphere also reflects radio waves and may well play a significant role in multi-hop VHF openings across the polar regions.

Link: NASA Satellites See Upper Atmosphere Cooling and Contracting Due to Climate Change

Sunday, September 12, 2021

Opening to the south on 28 MHz - Sat 11th Sept 2021


The 28 MHz band was open again on Saturday the 11th of September 2021 with an opening to the south to South America, Ghana and Ascension Island.

9G5FI 10m FT8 5197 km 07:34:03
ZD7JC 10m FT8 7542 km 12:02:44

The solar flux was at 92 which is gradually dropping back from the recent surge to 100.

The key thing to note here is that all of the long distance FT8 signals heard on 28 MHz recently are mostly North-South and not East-West. It's a case of 'Yes, the band is open' but just about.

It's likely to stay like this for a few weeks until hopefully more east-west paths start to open up.

Friday, September 10, 2021

Digital Radio Operating Manual - Sept 2021... by Steve Wright, EI5DD


Steve Wright, EI5DD has now updated his comprehensive manual for anyone in Ireland with an interest in the DMR, C4FM and D-Star digital modes. The 62-page document  is a substantial increase on the 44-page 2020 edition and should be of interest to anyone starting off and even to established users who want to get a better understanding of the various digital systems.

While the guide is primarily aimed at radio amateurs in Ireland, a lot of the material covered should be of interest to radio amateurs in other countries as well.

The online manual can be seen HERE

Opening to South America on 28 Mhz - 9th Sept 2021


There was a nice opening on 28 MHz to South America on Thursday the 9th of September 2021. Distances from here ranged from 7000kms to the north of Brazil to 12400kms to VP8LP in the Falklands.

The Solar Flux was 100.

Thursday, September 9, 2021

Opening on 28 MHz as the solar flux increases - 8th Sept 2021

Now that we are in the month of September, the number of Sporadic-E openings on the 28 MHz band drop away but they can still be there at times. The big change as we head towards the equinox is the appearance of long distance F2 and TEP signals on the 10m band.


The map of FT8 signals heard on the 28 MHz band on Wednesday the 8th of September 2021 bears this out. There were relatively few Sporadic-E signals from around Europe but there were some nice DX signals coming through.

While normally DX signals on 28 MHz are often buried in the noise, I could actually hear the signal from 5B4AMX in Cyprus by ear. I had no doubt that this was via F2 propagation and not some sort of double hop Sporadic-E. Interesting to see that FR4NT on Reunion Island in the Indian Ocean also made it through.

In the evening, FT8 signals from South America and the Caribbean were decoded. J69DS on St Lucia was there until 22:05 UTC which is about 3 hours after my sunset.

Rising Solar Flux... On the 8th of September, the Solar Flux was at 100 which was well above the 73 of a month ago. The chart below shows how the Solar Flux is increasing while we are coming out of the low point of the sunspot cycle.


Back in Sept of 2019, we were in the high 60's. By Sept 2020, it was in the low 70's. We'll have to wait and see what the average is for Sept 2021 but the fact it is up around 100 now is a sure sign of more activity on the sun. 

It's very likely that the last few months of 2021 will be pretty good on 28 MHz for those using FT8 and chasing DX. And if 28 MHz is open, the lower HF bands will be open as well.

The main thing to remember is that it's only September and it's only starting. Expect to see a lot of activity on the band between now and the end of the year.

Tuesday, September 7, 2021

Report claims that there has been 30% growth in digital DAB+ receivers in Germany


According to a recent press release from the 6th of September 2021, the number of digital DAB+ receivers in Germany has reached a record 21.7 million receivers. This is approximately 5 million more radios than before and corresponds to a growth of 30 percent

"More than every fourth household (27 percent) now receives DAB +. That is over 1.1 million more than in the previous year. This means that the number of households in which DAB + can be received is well over 11 million for the first time.

The number of VHF radios continues to decrease. Aided by the digital radio obligation, among other things, the FM share in car radios is falling significantly, reaching a new low of 78.8 percent. Around every fifth car radio is now equipped with DAB + reception."

While the 30% growth sounds impressive, one of the key facts in the press release is that just 20% of cars has DAB+. This is one of the key sectors for radio and it would seem that a switch off of the FM radio network is unlikely until that figure is much higher.

Press release below...

Sunday, September 5, 2021

Video: South African 144 MHz Next Generation Beacon Project


At the South African Radio League workshop in March of 2021, Brian ZS6YZ gave a presentation about the 144 MHz Next Generation Project. This involves moving away from the traditional CW only beacons and combining them instead with digital modes to investigate propagation on the 144 MHz band.

While the initial project seems primarily be for internal use in South Africa, ZS6YZ also raises the possibility of testing other very long distance paths as well.



In the past when only CW and SSB was used on the 2-metre band, beacons on CW would often appear first during a tropo opening. The beacon was then spotted on the cluster and stations were alerted about the opening.

Now, CW only beacons are of limited use with weak digital signals like FT8 making an appearance long before the CW signals can be heard. In todays world where computers can just sit and listen for signals 24 hours a day, a modern mixed mode beacon using CW and a digital mode like PI4 makes a lot more sense.

The video is just over 40 minutes long and it can be seen below...

Saturday, September 4, 2021

Life still on 28 MHz - 4th Sept 2021

Now that have moved into September, the Sporadic-E season is really beginning to wind down and I have changed from monitoring for 10m WSPR signals back to monitoring FT8 signals on 10m instead. The problem with WSPR is that it starts to get less useful once the number of stations fall away and that happens at the end of the Summer. 


On Saturday the 4th of September, there was a small Sporadic-E opening to central Europe as well as a small opening to South America.

I kind of prefer listening for WSPR signals but at the end of the day, all I'm really interested in is knowing what the propagation on the 28 MHz band is like.

The solar flux today was 84.

Friday, September 3, 2021

End of the road for HF contesting???


In a recent blog post, Frank Howell K4FMH did a detailed analysis of entrants to the ARRL Sweepstakes Contests for the past 20 years. The overall result is that those taking part in the contest are getting older rapidly.

The ARRL provided data, including Date-of-Birth, for the study which shows the average age of both CW and SSB contesters has increased by some 15 years since 2000.


The chart above shows the dramatic shift in age of participants and it's not hard to see that there will be a dramatic change in the next two decades.

Whatever about contesting on SSB, contesting on CW is highly skilled at it requires operators to use high speed morse for long periods of time. It takes years for people to get that proficient. 

I suspect the impending demise will be first felt in CW contests and then SSB later on. If I had to guess then I think we'll probably see a rise in contests using digital modes as this will be more attractive to newer contesters.

Looking at the stats in the chart, I suspect we will see big changes in the next decade.

It's probably fair to point out that contesting is a very polarizing subject and many will not see the decline in contesting as a problem.

You can view Frank's original blog post HERE

Wednesday, September 1, 2021

Guidelines for US stations applying for an experimental 40-MHz permit


In the last few months, two US amateur radio stations have applied for and received special experimental callsigns for the 40-MHz band. Lin, NI4Y near Atlanta got the call WL2XUP while John, AE5X in Houston got the call WL2XZQ.

The application form 442 from the FCC is called an Experimental Radio Station Authorization and it costs €125 for two years.

AE5X has a page up on his blog now with guidelines for US stations interested in applying for a permit. Go to http://ae5x.blogspot.com/p/operating-on-40-mhz.html

While the Summer Sporadic-E season is pretty much over for now, there is plenty of time to get ready for when it starts again in May of 2022.

For more information on the 8-metre band, see my 40 MHz page HERE

Friday, August 27, 2021

Switzerland to switch off its FM radio stations at the end of 2024

On the 26th of August 2021, the Swiss Federal Office of Communications (OFCOM) said that all FM radio stations will stop transmitting on December 31, 2024. At the end of 2020, they had announced that they hoped to do it earlier and have it completed by January 2023 but this has now been delayed by almost two years to allow consumers more time to change over to the newer digital format.


In December 2017, Norway became the first country to switch off its analogue FM radio stations on 88-108 MHz as they moved to a digital DAB+ system. Switzerland now intends to do likewise.

A 2020 survey by GfK Switzerland showed that use of digital radio has risen by 22% since 2015 while at the same time, FM usage has dropped by 22% to 29 percent. By June 2020, only 13 percent of the Swiss population were using analogue FM radio only.

A survey also found that only 13 percent of the Swiss population listened exclusively to analogue VHF radio in June 2020.

In the car, DAB+ is now the most popular way of receiving radio programs. Radio usage via DAB+ and Internet radio together now make up 55 percent of total usage in the car. All new cars are now sold with DAB+ fitted as standard.

See press release below...

Sunday, August 22, 2021

FCC issue another experimental permit for the 40 MHz band in the USA (WL2XZQ)


On the 19th of August 2021, the FCC in the USA allocated the callsign WL2XZQ for experiments on the 40 MHz band from Houston in Texas. This was allocated to John, AE5X in the EM20 grid square.

This is I believe the second experimental permit for the 40 MHz band in the USA with the first one WL2XUP going to Lin, NI4Y near Atlanta, Georgia.

The permit for WL2XZQ allows for experiments in the frequency range of 40.660 to 40.700 MHz which is the 40 MHz ISM band (Industrial, Scientific, Medical).

The permit allows a maximum ERP of 100-watts and the license expires on the 1st of September 2023.


Propagation & Range - What to expect: The band is affected by several propagation modes. Let's have a look at them...

a) Tropo: It's likely that it will have a range of up to 200kms locally but it's unlikely that there will be many listening from that small area.

b) Sporadic-E: This will be main propagation mode from April to August every year and it WILL be heard all over most of the United States. The map above shows the likely range being in the range of 500kms to 2200kms. The most consistent signals should be in the 1200 to 1800km range.


In terms of double hop Sporadic-E, there may be a skip zones in the NE of the USA near New Hampshire and in the NW in the north of California and Oregon. The one issue for the western states may be interference from SNOTEL stations on the same band.

Looking further afield, there will also be times in June and July when there will be multi-hop Sporadic-E to Europe, a distance of about 6000-8000kms.

Trans-Equatorial Propagation (TEP): The experimental station is also well placed for tests to South America in May and November. While it is too far north for TEP, just one Sporadic-E hop is required to the south to open up the path to Argentina (LU), Uruguay (CX) and Brazil (PY).

F2 Propagation: The 40 MHz band will be certainly be impacted by the rising solar flux as we approach the peak of the next sunspot cycle. The 40 MHz band will open a lot earlier than say 50 MHz and it could prove to be a useful resource for European stations monitoring the trans-Atlantic path.

In Conclusion: This second experimental 40 MHz station is a very welcome development and it should mean that there is some amount of activity on the band in the Summer of 2022. This should raise awareness among the amateur radio community in the USA and perhaps more will apply for permits.

Saturday, August 21, 2021

Day 2 of Trans-Atlantic opening on 144 MHz between the Canary Is and the Caribbean - 20th Aug 2021

Following on from the trans-Atlantic opening on 144 MHz on the 19th, the tropo duct between the Canary Islands and the Caribbean remained open on the 20th of August 2021.


César, EA8CXN in Tenerife seems to have had the best path to the Caribbean with seven different stations in Puerto Rico and Guadeloupe listed on the PSK Reporter website.

These are the reports for the EA8 stations...

EA8CXN
Txmtr Rcvr Band Mode Distance Time (UTC)
NP4BM EA8CXN 2m FT8 5237 km 01:59:59
EA8CXN NP4BM 2m FT8 5237 km 23:03:44
KP4EIT EA8CXN 2m FT8 5189 km 00:40:59
EA8CXN KP4EIT 2m FT8 5189 km 19:19:45
EA8CXN WP3DN 2m FT8 5158 km 23:14:14
WP3DN EA8CXN 2m FT8 5158 km 22:37:59
EA8CXN WP4G 2m FT8 5153 km 22:27:41
WP4G EA8CXN 2m FT8 5153 km 11:51:29
EA8CXN FG4ST 2m FT8 4813 km 12:37:14
EA8CXN FG4SU 2m FT8 4811 km 23:03:44
FG4SU EA8CXN 2m FT8 4811 km 22:54:29
EA8CXN FG5GH 2m FT8 4809 km 14:39:11
FG5GH EA8CXN 2m FT8 4809 km 11:31:29


EA8DEC
Txmtr Rcvr Band Mode Distance Time (UTC)
EA8DEC NP4BM 2m FT8 5237 km 22:11:44
NP4BM EA8DEC 2m FT8 5237 km 13:19:56
EA8DEC FG4ST 2m FT8 4813 km 12:39:44
EA8DEC FG5GH 2m FT8 4809 km 13:06:41


EA8RH
Txmtr Rcvr Band Mode Distance Time (UTC)
NP4BM EA8RH 2m FT8 5204 km 21:14:59
EA8RH NP4BM 2m FT8 5204 km 21:12:44
EA8RH WP3DN 2m FT8 5125 km 14:18:42
WP3DN EA8RH 2m FT8 5125 km 14:15:59
EA8RH WP4G 2m FT8 5120 km 14:18:41


EA8TL
Txmtr Rcvr Band Mode Distance Time (UTC)
NP4BM EA8TL 2m FT8 5196 km 14:52:26
EA8TL NP4BM 2m FT8 5196 km 14:31:14

EA8RCP
Txmtr Band Mode Distance Time (UTC)
NP4BM 2m FT8 5107 km 14:49:26

EA8TX
Rcvr Band Mode Distance Time (UTC)
NP4BM 2m FT8 5221 km 18:51:44
KP4EIT 2m FT8 5173 km 18:51:45
WP3DN 2m FT8 5141 km 18:53:42
WP4G 2m FT8 5136 km 18:51:41

DX-Cluster: As the spots below show, there was some SSB activity as well...

 Spotter Freq. DX Time Info Country
EA8CSB 144250.0 KP4EIT 23:53 20 Aug swl rx 3/1 x-7000 signal very Puerto Rico
EA8BPX 144250.0 KP4EIT 23:36 20 Aug hrd in il18 again Puerto Rico
EA8CXN 144174.0 FG4SU 23:11 20 Aug FK96 TR IL18 Cqing Guadeloupe (FT8)
KP4EIT-@ 144250.0 EA8BPX 22:20 20 Aug 5/7 now good prpagation ssb Canary Islands
EA8CTK 144250.0 NP3XF 22:04 20 Aug 51 il18ni tr fk58 Puerto Rico
NP3XF 144250.0 EA8CXN 21:58 20 Aug 5/7 fk68 Canary Islands
NP3XF 144250.0 EA8BPX 21:41 20 Aug 5/6 Canary Islands
NP3XF 144300.0 EA8BPX 21:41 20 Aug 5/6 Canary Islands
EA8BPX 144250.0 NP3XF 21:40 20 Aug 53 fk68 il18 Puerto Rico 
EA8BPX 144250.0 NP4BM 21:29 20 Aug 53 second qso Puerto Rico
EA8CTK 144250.0 NP4BM 21:27 20 Aug il18 tr fk68 53 Puerto Rico
EA8CTK 144250.0 KP4EIT 21:11 20 Aug 5/2 il18ni Puerto Rico
KP4EIT-@ 144250.0 EA8BPX 21:10 20 Aug calling Caribbean Canary Islands
EA8CTK 144300.0 KP4EIT 21:09 20 Aug 5/2 il18ni Puerto Rico
KP4EIT-@ 144250.0 EA8CTK 21:05 20 Aug 5/3 tnx ssb Canary Islands
KP4EIT-@ 144250.0 EA8BPX 21:01 20 Aug 5/5 tnx Canary Islands
EA8CXN 144250.0 KP4EIT 19:25 20 Aug FK68 TR IL19 59++ Big SSB Sign Puerto Rico
EA8TX 144260.0 KP4EIT 19:23 20 Aug Il18 tr FK68 ssb Puerto Rico 
KP4EIT-@ 144260.0 EA8TX 19:22 20 Aug 5/5 tnx Canary Islands
EA8TX 144174.0 NP4BM 19:19 20 Aug Hrd 4 pse 144.260 Puerto Rico (FT8)
KP4EIT-@ 144250.0 EA8CXN 19:15 20 Aug 5/910db tnx Cesar Canary Islands
NP4BM-@ 144174.0 EA8TX 19:11 20 Aug +8 ur best Canary Islands (FT8)
KP4EIT-@ 144174.0 EA8CXN 18:59 20 Aug -01 tnx Cesar Canary Islands (FT8)
EA8CXN 144174.0 KP4EIT 18:57 20 Aug FK68 TR IL18 Puerto Rico (FT8)
KP4EIT-@ 144174.0 EA8TX 18:52 20 Aug -10 tnx Canary Islands (FT8)
FG4ST 144174.0 EA8CXN 12:31 20 Aug FT8 TROPO Canary Islands (FT8)
EA8CXN 144350.0 FG4ST 12:23 20 Aug FK96 TR IL18 SSB Guadeloupe
EA8CXN 144174.0 WP4G 11:53 20 Aug FK68 TR IL18 Puerto Rico (FT8)
EA8CXN 144174.0 FG5GH 11:48 20 Aug FK96 TR IL18 Guadeloupe (FT8)
EA8CXN 144174.0 WP3DN 11:19 20 Aug FK68 TR IL18 Puerto Rico (FT8)
EA8CXN 144174.0 NP4BM 11:04 20 Aug FK68 TR IL18 Puerto Rico (FT8)

Video clips: This first one is an SSB contact between EA8CXN on Tenerife and KP4EIT in Puerto Rico...

This second video clip is of Franck, FG4ST on Guadeloupe working EA8CXN...

It's pretty amazing to when you consider that you are listening to a trans-Atlantic signal on 144 MHz.

Distances: Like the previous day, the distances were in the region of 4800 to 5200kms.


It's interesting to see the distances plotted out on a map and how parts of North & South America are closer to the Canary Islands than the Caribbean.

Propagation Mode: The map below from Pascal, F5LEN shows the predicted tropo conditions...


It looks as if there is a large tropo duct across the Atlantic. It may well be that a layer of dust from the Sahara may be playing a role in this opening as well as it travels west.

Links...

* * *

Update: Day 3 - 21st of Aug 2021
This day was similar to previous days except the number of stations was lower.

FT8 spots
Txmtr Rcvr Band Mode Distance Time (UTC)
EA8CXN NP4BM 2m FT8 5237 km 18:02:14
NP4BM EA8CXN 2m FT8 5237 km 15:31:59
KP4EIT EA8CXN 2m FT8 5189 km 21:39:59
EA8CXN KP4EIT 2m FT8 5189 km 21:39:15
EA8CXN FG4ST 2m FT8 4813 km 21:39:14
EA8CXN FG5GH 2m FT8 4809 km 21:39:11

KP4EIT EA8DEC 2m FT8 5189 km 12:46:56

DX-Cluster spots
 Spotter Freq. DX Time Info Country
EA8CXN 144174.0 FG4ST 21:51 21 Aug FK96 TR IL18 Guadeloupe
KP4EIT-@ 144174.0 EA8CXN 21:41 21 Aug NOW VERY STRONG INTO FK68 Canary Islands
KP4EIT-@ 144174.0 EA8CXN 19:54 21 Aug -9 TNX cESAR Canary Islands
EA8DEC 144174.0 KP4EIT 13:07 21 Aug FK 68 CQ Puerto Rico
KP4EIT-@ 144260.0 EA8TX 12:55 21 Aug 5/3 tnx Canary Islands 
KP4EIT-@ 144174.0 EA8DEC 12:53 21 Aug -23 tnx Canary Islands
EA8TX 144174.0 KP4EIT 12:53 21 Aug Hrd 0db pse 144.260 Puerto Rico

Thursday, August 19, 2021

5000km+ opening on 144 MHz between the Canary Islands and the Caribbean - 19th Aug 2021


On the 19th of August 2021, there was an impressive opening on 144 MHz between the Canary Islands and the Caribbean, a distance well in excess of 5000kms. It's interesting to note that there was a similar opening from the Canary Islands to the Caribbean on the 29th of August 2020.

It looks as if the mode of propagation is tropospheric ducting over the North Atlantic as shown by the forecast below from F5LEN - 19th Aug 2021 @12:00 UTC.


FT8 & SSB: The opening on the 19th seems to have been mostly via the FT8 digital mode but a few SSB contacts were made.

These are the paths and reports that I could find for three stations in the Canary Islands...

EA8CXN
Txmtr Rcvr Band Mode Distance Time (UTC)
EA8CXN NP4BM 2m FT8 5237 km 18:22:14
NP4BM EA8CXN 2m FT8 5237 km 15:50:29
EA8CXN KP4EIT 2m FT8 5189 km 10:50:15
EA8CXN WP3DN 2m FT8 5158 km 12:19:12
WP3DN EA8CXN 2m FT8 5158 km 12:17:29
EA8CXN WP4G 2m FT8 5153 km 10:04:41
EA8CXN FG4ST 2m FT8 4813 km 17:20:14
EA8CXN FG5GH 2m FT8 4809 km 18:22:41  

EA8RH
Txmtr Rcvr Band Mode Distance Time (UTC)
NP4BM EA8RH 2m FT8 5204 km 14:24:29
EA8RH NP4BM 2m FT8 5204 km 12:49:14

EA8DEC
Txmtr Rcvr Band Mode Distance Time (UTC)
EA8DEC NP4BM 2m FT8 5237 km 11:23:14
NP4BM EA8DEC 2m FT8 5237 km 11:22:56

DX-Cluster: As you can see from the spots below, there were at least two SSB contacts

EA8CXN 144174.0 NP4BM 15:33 19 Aug Fk68 IL18 Puerto Rico
EA8BPX 144250.0 NP4BM 11:16 19 Aug 55 fk68 il18 Puerto Rico
NP4BM-@ 144174.0 EA8DEC 10:57 19 Aug tnks ft8 qso Canary Islands
EA8CXN 144174.0 WP3DN 10:07 19 Aug FK68 TR il18 Puerto Rico
EA8CXN 144250.0 NP4BM 09:50 19 Aug fk68 tr IL18 THANKS SSB Puerto Rico 
EA8CXN 144174.0 NP4BM 09:45 19 Aug FK68 IL18 Puerto Rico


Path between FG & CT: It also seems as if there was a path open on 144 MHz between Guadeloupe and Portugal.


This is the first time a signal from mainland Europe has been heard in the Caribbean on 144 MHz. Note that EB1DJ did hear KP4EIT in Puerto Rico in August of 2020 so this more northerly path has been open before. See LINK

This is the FT8 screen from FG4ST showing two FT8 decodes from CT1ETL/1 at -20dB. No QSO was completed.


It looks as if this tropo duct might open up again so it would be worthwhile for stations in Spain and Portugal to beam towards the Caribbean.

More reports on previous 144 MHz openings across the Atlantic can be found on my 144 MHz page HERE

Sunday, August 15, 2021

New Amateur TV activity proposed for the 10m band in 2022


I was informed recently that some radio amateurs in Europe will be experimenting with ATV on the 10-metre band in the Summer of 2022. It is likely to be mostly confined mainly to stations in England, the Netherlands and Germany.

While ATV (Amateur TV) is normally associated with the 70cms and 23 cms bands, there have been experiments in recent years on 146 MHz, 71 MHz and 51.7 MHz. This new experiment on 29 MHz will allow much more use of Sporadic-E propagation for contacts.

From what I understand, it will be DVB-T digital TV operating on 29.250 MHz with a 300 kHz bandwidth. This is below the input frequencies of the various FM repeaters around Europe.

I am told that the numbers involved are likely to be small with perhaps something like 20-30 stations taking part. Special boards are being developed at present and no doubt, these will be be got ready for the Sporadic-E season next May.

The photo at the top of the post is of an ATV signal on 10m that was upconverted to 149.250 MHz.