Coronal Mass Ejection Causes Storm -- But I Still Hear DX in Hi7

 

So the A index is 27 and the K is 7.  That's pretty bad right? See below.  Lots of red.  Well maybe not so bad in the tropics.  This morning I could hear EA5JZ working a VK on 20 meter SSB.  And yesterday morning I worked a very strong VK3XXY, also on 20 meter SSB.  I note that the Space Weather Center warns (above) of "HF communication degradation at higher latitudes."  So maybe my location at 18 degrees north explains the openings. 

Maybe it is Tropospheric Ducting After All -- 99.5 FM WIDI Puerto Rico Received in the Dominican Republic

 

Invest 94L moved arcoss the Mona Passage yesterday, lowering temperatures, bringing lots of rain and relatively high winds to the area.   I happened to check on reception in the DR of WIDI 99.5 FM (near Mayaguez, Puerto Rico), and was surprised to find that the signal had weakened considerably.  This morning, after the storm passed, signal levels were back to their normal full quieting. This would support the idea that tropospheric ducting is playing a big role in bringing this signal into the Dominican Republic.  I had been surprised by the persistence of the signal -- for weeks it had been full quieting here.  I thought that perhaps I was just receiving it directly, line-of-sight, without the benefit of tropo ducting.  But Invest 94L has made me question this idea. 

I asked Google Gemini AI about the persistence of tropospheric ducting on FM broadcast signals in the tropics.  Here is what it said: 

AI Overview

In the tropics, tropospheric ducting is a frequent, persistent, and often strong phenomenon, especially over and around large bodies of water. Unlike mid-latitudes where ducting is a seasonal event, the meteorological conditions in the tropics are favorable year-round.
Why ducting is persistent in the tropicsHigh temperatures and humidity: Tropical climates are characterized by consistently high temperatures and abundant moisture. These conditions are the primary drivers of atmospheric ducting.

Temperature inversions: Stable high-pressure systems common in the tropics can create temperature inversions, where a layer of warm, moist air sits above cooler air. The sharp change in temperature and humidity with altitude creates the "duct" that traps and bends radio waves over long distances.

Dominance of water paths: Large tropical ocean regions are ideal for ducting. A common ducting phenomenon called the "evaporation duct" is ever-present over the sea surface due to a sharp humidity gradient and is particularly effective for trapping frequencies above 3 GHz. While the FM broadcast band (87.5–108 MHz) is at a lower frequency, coastal areas and islands frequently experience ducting over sea paths.

Atmospheric stability: The general stability of high-pressure systems in the tropics allows ducting conditions to persist for many months at a time. This is observed in areas like the Caribbean and the Persian Gulf, where long-distance radio reception is a common occurrence.

Impact on the FM broadcast band (VHF Band II)Favorable frequencies: The FM broadcast band (VHF Band II) is particularly susceptible to tropospheric ducting. While ducting can occur across a range of frequencies, signals above 90 MHz generally propagate more favorably during ducting events than lower frequencies.

Signal interference: The most noticeable effect of this regular ducting is co-channel interference, where distant stations can override local ones. During an event, a listener may pick up two different stations on the same frequency, or experience temporary loss of reception from a nearby transmitter.

Extended reception: For radio hobbyists, this high frequency of ducting means that signals from FM stations hundreds or even thousands of kilometers away can be received clearly.

Diurnal cycle: Ducting events in the tropics often peak during the evening and overnight hours when surface cooling creates a stable nocturnal boundary layer. Conditions may "burn off" after sunrise, but ducting is common throughout the day during periods of stable weather.

In summary, the specific meteorological and geographical conditions found in tropical regions—consistent heat, humidity, and the presence of large bodies of water—make persistent tropospheric ducting on the FM broadcast band not just possible, but highly probable throughout the year.

GQRP Convention 2025 -- SolderSmoke Direct Conversion Receiver Presentation

We were really pleased to have been invited to speak to the GQRP club's 2025 convention.  We talked about the SolderSmoke Direct Conversion Receiver project.  There were some recording glitches, but we managed to re-create the presentation.  Video appears above.  Thanks again to GQRP!  

Here is the audio only (podcast) version:  http://soldersmoke.com/DCRXGQRPAUDIO.mp3

Flying in the U-2

So cool.  This was always one of my favorite planes.  

So hey, BE CAREFUL!

 

The vessel "Tally Ho" sailed into San Francisco bay recently.  They went to a very cool machine shop in Sausalito, where they found this warning sign posted near one of the machines.  Yikes! 

Here is the Tally Ho video:  https://www.youtube.com/watch?v=yHf9K_dOgsY&t=422s

Todd W2TEF's FB SolderSmoke Direct Conversion Receiver

 

Admirably, Todd W2TEF proved that you can build this receiver even if you don't have an oscilloscope. He used a lot of simple tests, including listening for the band noise when he had all four boards finished. He got the kind of help from friends that all of us use while homebrewing.  And he tuned in SSB signals for the first time.  FB.  SSB in the video above, CW below. 

Todd writes: 

1. ... thanks to Dean and Bill for putting this together and guiding me into a great beginning project. And to Chris and others offering guidance here in Discord. I love seeing a project through to completion, and am still amazed that twisted up coils of wire can grab intelligence out of the air!

The People Who Hunt Old TVs (Really, Old CRTs)

These are our people. 

 https://www.bbc.com/future/article/20250911-the-people-who-hunt-down-old-tvs

50 Things to Do with an SDR -- The International Beacon Network

 https://blinry.org/50-things-with-sdr/

Lots of good ideas from blinry's site.  It reminded me of the International Beacon Project:  https://www.ncdxf.org/beacon/  I can receive the 20 meter CW signal on my homebrew rig here in the Dominican Republic.  On 17 September before dawn I could hear the station in Madeira (CS3B) and the one at the UN in New York (4U1UN).  This will be a useful way to monitor the band for openings to the South Pacific. 

Hiding a Solar-Powered Mesh Node in Alaska -- Can you find it?

 Even though it deals with some high-tech, SDR, IC stuff, there is a lot to like in this video. 

Some of the guys in Vienna Wireless have been playing around with Mesh nodes.  This video made me think about building one and leaving it on the roof of our apartment overlooking the Mona passage. I already have the solar panels (from the old Volkswagens)...  

Here is a description of his YouTube channel: 

A collection of DIY boats, devices, and other projects built out of junk. Almost everything on this channel is made from scrounged, hoarded, and salvaged parts. I grew up on an island in Alaska, so I know the value of never throwing anything away! I may not be an expert craftsman, but I know my way around a roll of duct tape! I'm also always on the lookout for crazy free or cheap stuff, whether it be electronic parts, boats, aircraft engines, or even a monorail train! Check out www.saveitforparts.com for even more projects!

Here is the YouTube channel: https://www.youtube.com/@saveitforparts

Thanks to Jenny List of Hack-A-Day for alerting me to this. 

A Flight from Chile to Panama: Aeronautical Mobile Contact with KX4WC/AM, with VK3MO in the Group

WA3O sent me an e-mail alerting me to the fact that Mike KX4WC/Aeronautical Mobile would be flying up from Santiago, Chile to Panama City this morning. So I fired up the 20 meter rig and hoped for the best.

Not only was I able to talk to Mike, I was also able to work WA3O, VY2WW, and VK3MO in Melbourne. It was a very FB morning. VK3MO was really booming in. I have worked Ian before -- his 5 over 5 over 5 over 5 array on 20 meters really helps. https://www.qrz.com/db/VK3MO

I was not hearing Mike KX4WC very well until the sun came up over our north-south path. You can see this in the picture below. Thanks to all for this very cool contact.

Ian VK3MO's 20 meter array

Peter VK3TPM had done a very nice profile of Ian and his station: 

https://www.mrarc.org.au/member-profile-ian-vk3mo/

Do I really NEED Tropo to hear the Puerto Rican FM Broadcast Station? Or are we just close enough to do this line-of-site?

 

WIDI 99.5 FM from western Puerto Rico continues to put a full quieting signal into the eastern Dominican Republic.   The station is so regularly strong that this made me wonder if I am really using tropospheric ducting to hear it.  If I was using tropo ducting, I think there should be some variation in signal strength over the course of 24 hours right?  But it is always strong.  Why?  

I checked the distance:  97 miles.   With its antenna at 2800 feet, its visual horizon will be 64.8 miles away.  I am about 98 feet above the ocean.  This means my horizon is 12.22 miles away.  There appears to be a gap, right?  I mean 64.8 + 12.22 = 77.02 miles.   So it looks like there is a gap of about 20 miles.  

But wait!  Mike WN2A reminded me that there is a difference between radio line of sight and visual line of sight.   Radio line of sight = 4/3 of visual line of sight. 

AI explains where the 4/3 factor comes from: 

The radio horizon appears longer than the visual horizon by a factor of about 4/3 due to atmospheric refraction, which bends radio waves slightly downward. To simplify calculations, this effect is modeled by treating radio waves as if they travel in a straight line over a larger, "effective" Earth with a radius 4/3 times the actual radius. This increased effective radius allows radio waves to "see" further over the Earth's curvature, extending the line-of-sight range compared to what is seen by the human eye, which is not affected by atmospheric bending to the same degree. 

So that puts WIDI's radio horizon at 86.4 miles.  My radio horizon is 16.16 miles.   86.4 + 16.16 =  102.56 miles No gap.  We should be able to hear WIDI, even without tropospheric ducting.   

Philippe F1GMA's Fantastic SolderSmoke Direct Conversion Receiver

SSB

Wow, congratulations to Philippe F1GMA for his wonderful build of the SolderSmoke Direct Conversion Receiver. Phillipe deserves extra credit for achieving this goal while working in a foreign language, and with parts acquisition even more of a challenge for him.  That AF transformer was hard to get in France.  And I see that a companion CW transmitter may be in the works.  FB.

The SSB signal that Philippe provides includes a clip from special event station TM120ESP.  That station commemorates the 120th anniversary of the first Esperanto congress.  FB.  TRGHS! 

Congratulations Philippe and welcome to the Hall of Fame.  I think you are our very first French builder.  

Click here for a CW clip

Puerto Rico -- Dominican Republic Tropo on 99.5 FM? Yes, probably

 

Our friend Todd K7TFC in Portland found this in the 1950 ARRL Handbook at an, uh, opportune moment.  TRGHS.  This seems to describe what a I am hearing, especially that "airmass boundary" in the lower left of the diagram above.  

I'm not a VHF guy, and I am a bit surprised at the persistence of this propagation path.  It is 4:30 am here and the adult contemporary rock from Puerto Rico (Kokomo by the Beach Boys!) is full quieting here in the Dominican Republic.  And it is of the same strength during daylight hours. I don't remember this from the winter months, but I may have just missed it. 

Here is what AI (Gemini) says about this: 

https://share.google/aimode/M1HvC7Y893eE5gAcn\

One other factor to consider:   The island of Mona is about halfway across the path.  There are few people there, and there is almost certainly not a repeater of any kind.  But there may be a metal tower or two... 

Gianfranco IU1DZZ and Mike WN2A  both support the tropo hypothesis.  Mike mentions the Hepburn Index.  I will have to read up on that.  Hamilton is also looking at this propagation path.  Thanks guys.  

Puerto Rico FM Broadcast Station Heard in the Dominican Republic -- But How? WIDI 99.5 FM

WIDI 99.5 FM. Booming in during daylight here on the eastern tip of the Dominican Republic. Their antenna is about 2100 feet above average surrounding terrain. That would put the horizon at about 56 miles. But the path is about 100 miles. What do you folks think is the likely propagation mode?

https://en.wikipedia.org/wiki/WIDI

Chris KN4GAH's 100th! SolderSmoke Direct Conversion Receiver

This was the 100th SolderSmoke receiver!     It was really cool to see Chris KN4GAH's  receiver inhaling CW (sbove)  and SSB (below).  I especially like the ink pen markings on the pine board.  FB.  Maybe make note of memorable QSOs heard, or -- later -- contacts made with this receiver.  

Chris is an electrical engineer, so it was particularly useful for us to get his perspective on this project.  We started this at the High School knowing full well that most of the students would spend their careers in the high tech, digital world, and might never again touch a soldering iron.  But we thought it would be good for them to build something like this at least once.  Chris comments on this idea below.  

Chris writes: 

Thank you for putting this all together for all of us and creating such a great community full of knowledgeable and helpful people. I work as an RF engineer and mentor a few junior RF engineers and will be proposing this challenge to them as a learning opportunity. As this challenge provides a lot of insight into how common blocks used in RF designs operate. It is just too easy to go on mini-circuits and find a filter, amp or mixer that meets ones needs. Actually building these components provides valuable knowledge that all us RF engineers should have.

Thanks Chris, Congratulations and welcome to the Hall of Fame!

Chris KD4PBJ's FB SolderSmoke Direct Conversion Receiver

Chris KD4PBJ is one of SolderSmoke's most loyal fans.  Over the years Chris has supplied many of the parts and ideas used in SolderSmoke projects.  We were really delighted when Chris took on the Direct Conversion challenge.  As you can see,  his build was superb. 

Chris had promissed to have the receiver completed by September 2, 2025.  As it happens, that was the day of some very powerful solar activity and very poor band conditions.  So the video above doesn't really do justice to Chris's receiver.   We hope he will send us some more video, perhaps under better conditions, and perhaps with some more SSB. 

As you can see from this message from Chris in mid-July, he is a busy guy.  We were pleased that he found time to build this receiver.  Chris wrote

Good Morning guys!
I spent my July 4 weekend and 1200 round trip miles heading up to Richmond to pick up two 50 watt decommissioned airport non directional beacons that I hope to get working on either the 630m or 2200m bands. I'll most likely just use the amplifier, power supply and matching sections as they are modulated CW which isn't permitted. 
At least I have a nice high current power supply, outdoor enclosure and inner workings. I was told one worked and one doesn't.
I got them off eBay and the seller is a television engineer in Richmond named Greg. He listens to Soldersmoke too and is a builder like I am.
He said these are government surplus from a place called Camp Peary in VA.

The DC receiver is still coming along, I've just been overwhelmed with things on my to do list as well as a new job (learning lots about  high power lasers) so I promise it will get done soon. 

Chris 

Here are a couple of pictures of Chris's receiver.  Thanks Chris, and Welcome to the Hall of Fame.     

 

Dave K5YFO's FB Texas SolderSmoke Direct Conversion Receiver

The pine board is key.  Frank Jones (W6AJF) would approve. FB Dave.    CW video above and SSB below. 

Dave writes:  

Bill,

After many diversions from the work bench I finally got the Solder Smoke Challenge Receiver to operate.  There were the usual problems with the audio amp but my main problem was a faulty trimmer in the BP filter.

 

I hope I’m in the first 100 to complete the project. 

 

Hopefully the attached videos make it.  One is a CW and the other is SSB. 

 

73 de Dave K5YFO

Robert Sutton's Amazing SolderSmoke Direct Conversion Receiver

It is amazing that Robert (who is not yet licensed) got this receiver to work.  Check out his homebew coil form.  Excellent work Robert.  Congratulations and welcome to the Hall of Fame.  

Here is a Dicord exchange with Robert.  I think we see the true homebrew spirit here: