Category Archives: Accessories

The new Stampfl MWS-1 Standing Wave Barrier

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Many thanks to SWLing Post contributor, Markku (VA3MK), who notes that Swiss manufacturer Stampfl has introduced the MWS-1 Standing Wave Barrier.

Stampfl notes (translated from German):

A standing wave barrier can improve reception. The standing wave barrier interrupts the ground loop and suppresses the interference caused by the cable shield.

This is designed only to work with receivers (not transmitters) between 0.15 – 30 MHz.

I suppose this might be a form of an RF choke, although I’m sure someone else might know better.

Thank you for the tip, Markku!

Click here to check out the MWS-1 at Stampfl.

Giuseppe’s Homemade “Magic Tablet” Antenna System

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Many thanks to SWLing Post contributor, Giuseppe Morlè, who writes:

Dear Thomas,

This is Giuseppe Morlè, from Formia central Italy on the Tyrrhenian Sea,

I built this “Magic Tablet. during a rainy afternoon to test various portables I have.

The tablet is composed of 2 separate circuits: one for the short waves, a single coil along the entire perimeter of the tablet, and another with 2 ferrites wrapped around 36 turns of telephone cable for the medium waves.

The heart of the system is a 1050 pf variable capacitor with its old wheel.

To listen to medium wave I have to exclude the short wave loop with a switch on the loop.

I also added another small switch to connect it to a capacitor for more or less capacity, but this I will do later.

I can test my portables like this because the tablet tunes very well from 500 kHz to 18 MHz. I spent very little to make all this as it is all recycled stuff.

You can see the first tests on the balcony of my house with a Tecsun H-501 via my YouTube channel:

Note: this video is in Italian, but you can turn on closed captions and have it translate into the language of your choice.

As I always say, I am not a technician and I have little manual skills in building things, not having a proper laboratory. When I get an idea, I put it on paper and I start to find all the materials and then see if they work. Not all of us are of the experts in electronics–what drives me is a passion for radio listening. Now being retired, I have more time to devote to it.

Thanks to you and hello to the whole SWLing Post community …

73. Giuseppe Morlè (IZ0GZW)

I love this, Giuseppe! What a clever all-in-one portable antenna system for your shortwave radios. I especially love the fact you were able to create all of this from parts you have at your home. You’ve got a winning attitude, too: build and experiment!  Thank you for sharing.

Jock explores “The Essential Listening Post”

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Many thanks to SWLing Post contributor, Jock Elliott, who shares the following guest post:

The Essential Listening Post

By Jock Elliott, KB2GOM

Listening to shortwave radio (or any radio, for that matter) is just plain fun.

So what do you need to get in on the fun?

A radio. With today’s crop of portable SW radios, many of which have search and store capabilities, a newbie SWL can get started quickly without a lot fuss and bother and no extra stuff. Just hit the search and store function (it has different names on different radios), let the search function do its thing, and step through the memories to see what’s out there. If your radio doesn’t have search and store, you can just tune around to see what’s currently broadcasting or, if you have a computer or smart phone, use it to explore one of the online directories like https://shortwaveschedule.com/

What follow next are some things that I’ve found increase my enjoyment of SWLing. Continue reading

Radio applications for an Oiiwak Digital Endoscope

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Many thanks to SWLing Post contributor, Mario Filippi (N2HUN), who writes:

Hi Thomas,

I recently purchased an Oiiwak Digital Endoscope [affiliate link] for household use.

It consists of a 33 foot optical cable and handheld four inch monitor It has an internal battery that can take photos and videos of areas that are hard to get to. I bought it to check things such as chimneys, inside walls, dryer vents, pipe clogs (this one has a waterproof lens), range hood vents, roof vents, etc. The price of endoscopes has gone down precipitously and you can save even more if you have a Smartphone as there are endoscopes probe cables that attach directly to them. I purchased mine for about $100 from Amazon. There are many makes and models to choose from though.

This gadget might be of interest to hams, SWLs or anyone needing to route antennas through walls, or other dark spaces. For example, you could drill a test hole through a wall then thread the probe cable into the space to see if there are any wires, pipes or other hidden obstructions. I’ve drilled completely through the siding of my home to an inside wall on many occasions while keeping my fingers crossed that no electrical wires or pipes would be damaged. Now, with my endoscope, it won’t be such a worrisome procedure.

Thanks and 73’s,

Mario Filippi, N2HUN

Thank you for sharing this, Mario! The pricing on household borescopes or endoscopes has really fallen over the past few years. I have one persistent plumbing issue in our house and this gadget could help me identify the location. To have a pro come out to the house with a commercial grade camera, it’s an instant $300 plus taxes. As a bonus, I could use it to inspect my antenna conduit!

Thanks again, Mario.

Jock reviews the BHI Compact In-Line Noise Eliminating Module

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Many thanks to SWLing Post contributor, Jock Elliott, who shares the following guest post:

The noise, the neighbor, and the box

By Jock Elliott, KB2GOM

Imagine the annual meeting of an international corporation called SWLing Inc. (or SWLing LTD). The CEO, looking splendid in his custom-tailored suit, is addressing the assembled multitudes. On the giant screen is an equation showing signal-to-noise ratio. The CEO aims his laser pointer at the word “signal.” We want ALL of this, he says. Then he points at the word “noise,” and says, “and NONE of this.”

Then he looks at the audience and says, “Got it?” And he walks off the stage.

That, whether they want to admit it or not, is the mindset of every single SWL, international music fan, overseas program listener, and DXer. Period. They want as much signal as they can get, and as little noise as possible. That’s what drives radioheads to buy amplified loops, to string long wires, to build towers and yagi antenna arrays, to lay out beverage antennas hundreds of feet long, and to build ferrite sleeve loop antennas . . . it’s all about the signal to noise radio. More signal, less noise.

And it was noise that was bothering me . . . a kind of hiss, hash, eggs-frying sound. It was that noise that prompted me to create the horizontal room loop to try to boost the signal coming into my Grundig Satellit 800 over the noise normally received on the Satellit’s whip antenna.

And it worked; there was more signal on top of the noise . . . but that hiss, hash, whatever you want to call it, was still there. I could hit the attenuator, and some of the noise would go away, but it was still there. After a while, it was just plain tiring on the ears. Poking around the internet, the wisdom seemed to be that the source of the noise was likely electric/electronic gear in my radio room. So I killed the power to everything in my radio room, powered the Satellit 800 off internal batteries, and the noise was still there.

So I called my neighbor. He’s (a) a really good neighbor, (b) a ham with a serious station, and (c) technically knowledgeable. I explain the problem. He says, “Meet me outside.”

We meet between the yards, and he has a Sony 7600 portable shortwave radio in his hand. He switches it on. “Is this the noise you’re talking about?”

“Yup,” I say. “That’s the atmosphere,” he says. Well, nuts.

More poking around the internet reveals that an amplified receive-only magnetic loop antenna might be significantly quieter, and there are several manufacturers of them. I’m thinking about one of those loops when I run across a review of a relatively inexpensive ham transceiver that is reported to be excellent at pulling difficult signals out of the noise because of the superior “digital signal processing” (DSP) that is built into the transceiver.

Digital signal processing . . . that sounds promising . . . after all, if you take a step back and think about it, there are two ways to improve signal-to-noise ratio. One way is to improve the signal with better antennas and the like. The other way is to reduce the noise, and one way to achieve that might be through digital signal processing.

So, are there any companies that make external digital signal processors that could be used with an HF receiver? There are several, it turns out. Some of the units are large, studded with knobs and look complicated to operate, and almost all of the offerings require an external power supply.

But I wanted something that could be easily transferred between receivers and might even be used with a portable receiver when I was doing my horizontal DXing in bed. A big box that requires an external power supply was going to be awkward, cumbersome, and inconvenient. And that’s when I ran into a British company called BHI. They make noise cancellation products, gizmos that use digital processing to remove noise from an audio signal. They serve amateur radio, commercial, marine, medical, and even covert surveillance markets.

One of their products is the Compact In-line Noise Eliminating Module. It can be run off AA batteries and isn’t much bigger than a deck of cards (in fact, its footprint is almost exactly the same as my CCrane Skywave SSB). It has just two knobs and is easy to set up: you just plug it in between your HF receiver and your headphones or external speaker. It even comes with a cable to connect your receiver to the Noise Eliminating Module.

I order one from DX Engineering in Ohio. The cost, delivered to my door, including tax, is just over $260 American dollars. It arrives two days later, just in time for the bands to be sizzling with noise (apparently) produced by a solar coronal mass ejection (CME). The amount of noise is brutal, about as bad as I have ever heard in decades of hamming and SWLing.

Plugging the BHI in-line module into my Satellit 800 and clamping the headphones over my ears, I begin tuning the 20-meter ham band. Part way up the band, I run into a Canadian ham chatting with someone. His signal is barely above the noise and copyable, but the noise is really annoying. I punch the button for the BHI device, and . . . the noise disappears. Wow! I press the right-hand button (to bypass the BHI device), and the noise comes back full force.

Quickly, I grab my Tecsun PL-880, extend the whip antenna, tune to the same frequency, and plug the BHI in-line module into the 880. The noise sounds even worse on the 880 (the Canadian ham is barely copyable), probably because of the shorter antenna. But when I engage the BHI device, the result is even more dramatic; a very pleasant signal emerges as the BHI unit suppresses the noise, with just a bare hint of hiss still audible.

Then I take hold of my CCrane Skywave SSB to see how the BHI in-line module will behave with that. It doesn’t take long to realize that, apparently because of the solar activity, all the bands are noisy on the Skywave. Not just shortwave, but AM, FM, weather, and Air were all uncharacteristically affected by hiss or noise. The BHI Compact In-line Noise Eliminating Module reduced the noise and made each of them more pleasant to listen to, without exception. I am “officially” impressed.

As I experiment with the BHI device in following days, during which atmospheric conditions improve, I continue to be impressed. Why? Because the BHI Compact In-line Noise Eliminating Module is effective at substantially reducing noise without a lot of fuss and bother.

As good as the BHI module is, though, it is not a miracle device; it does have some limitations. Sometimes it will not eliminate all the noise, even though the noise will be reduced substantially. If you crank up the level of filtering/noise cancellation too high, it can distort speech and make tuning single sideband difficult. Further, you sometimes hear artifacts of the digital signal processing. These artifacts sound to me like trickling water, and, frankly, I don’t find these sounds objectionable (they sure beat the heck out of the atmospheric noise), but some people, I suppose, might not like them.

Image via DX Engineering

The module is easy to operate. There are two knobs. Press the left one in to power up the unit, then turn the knob to adjust the volume. Press the right knob to activate noise reduction and then turn the knob to adjust the level of noise reduction. Sometimes, I find, the sweet spot for listening is with the noise substantially reduced – perhaps 85-90 percent – but not completely gone. Press the right knob again to bypass noise reduction and hear what the signal sounds like without the BHI module online.

Because the two knobs on the face of the BHI module are also push-buttons, if you are going to pack the device in your luggage, remove the batteries to prevent the unit from inadvertently turning on and draining the batteries.

Bottom line

The BHI Compact In-line Noise Eliminating Module is highly effective at reducing or eliminating noise. It works on international broadcasters, ham single-sideband signals, and utility stations, as well as AM, FM, and even NOAA weather radio when conditions are horrible. It can make weak signals easier to hear and strong signals more pleasant for long-term listening. It reduces audio fatigue. It is not a cure-all for all signal-to-noise or audio problems, but it is a big help. Further, it can be readily moved from location to location and from radio to radio and adds a new capability to receivers that do not have built-in digital signal processing.

I think it is a worthwhile addition to any shortwave listening post.

Mario recommends LED strip light headlamps for nighttime SWLing

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Many thanks to SWLing Post contributor, Mario Filippi (N2HUN), who writes:

I recently purchased a pair of LED strip light headbands from Amazon for use while doing jobs around the house in areas where the lighting is poor.

These might be helpful also for SWLs and hams, especially for listening at night when in the field. They boast a 220 degree arc of light, high/low/flasher settings, rear red flasher, USB rechargeable, weigh about 5 ounces and are more comfortable than the older bulky headlamps.

There are many different versions of these strip LED lights available so you can shop around for the one that best fits your needs.

Click here to view on Amazon.com (affiliate link).

This is excellent, Mario. Thank you for sharing. I’m a huge fan of headlamps, but I’ve never seen an LED strip headlamp–I see where that wide arc of light would be useful.

Paul wants to know: How do you store your radios?

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Many thanks to SWLing Post contributor, Paul, who writes:

This may be a good discussion question on your great blog.

Basically, I am curious to learn where and how do people store their various radios – I think it’s safe to say that many of us have more than 5 or 10. Do you use bookshelves? TV stands? Those storage cube organizers? Custom shelving on the walls? It will be interesting to know …

All the best
Paul

I think this is a great question, Paul.

Personally, I have a lot of portables, so storage is definitely an issue. Since I do radio reviews, many models aren’t ones I use daily but I keep them for comparison reviews and for using in rotation.

The first thing I do when I store a radio is remove its batteries if it takes traditional cells (like AA, AAA, C, or D batteries). I remove them to prevent them from leaking and corroding the battery terminals. Even though I’ve migrated the Eneloop batteries (for AA and AAA), I still remove them for storage.

I built custom shelves into my office to accommodate large standard size clear storage containers; I believe the ones I have originally came from IKEA. I store all of my portables in those containers with a little padding or their original box to keep them from getting scratched up.

This system has worked for me very well over the years, but I’ll admit that I wish my small office had more shelf area for radios on display!

Readers: How do you store your radios when not in use? Please comment!