Monthly Archives: July 2022

The solution for apartment/condo dwellers, perhaps?

By Jock Elliott, KB2GOM

It was research on preselectors that led me to this: Improving HF Reception – The RadioReference Wiki

In that section of the RadioReference Wiki, written by Mike, KA3JJZ, I found the following:

Another way an active preselector could be used is to use it to load a very short dipole – say not more than 1 meter (roughly 3 foot) for each leg. A number of years ago, a company called Datong marketed such an antenna (with a preamp right at the antenna feedpoint) that was popular in Europe and to some lesser extent in the Americas because it’s easy to hide the antenna.

In the magic of my mind, I could picture using the short dipole strung across two windows — or a large window — in an apartment or condo (or anyplace with antenna restrictions) and connected to an MFJ 1020C. I had not yet done the experiment, but I had tested the 1020C and found it to be a worthy piece of gear. So I thought the short dipole/1020C experiment might be worth a shot.

The heart of the short dipole, the LDG 9:1 unun.

So I cut two yard-long lengths of wire and attached them to a 9:1 unun. I created loops at the outer end of each leg of the dipole and hung the whole assembly from a curtain rod covering two windows. A coax links the short dipole to the MFJ 1020C, and a jumper connects the output of the 1020C to my Satellit 800 receiver.

The completed dipole. Not fancy, but it works.

Bottom line: it works. The vast majority of the time, even when the 1020C preselector is in bypass mode, the short horizontal dipole/1020C combo delivers a better signal-to-noise than the Satellit’s vertical telescopic antenna. (In rare cases, they are equal.) And when the preselector amplification circuits are activated and properly tuned, the signal is usually improved, often significantly. The Big Trick is to use the preselector to peak the noise at the frequency you want to hears and then tune slightly to the side of best listening.

Obviously that would be cumbersome for band-scanning, but you could band-scan in bypass mode and then tweak the “hits” with the amplification circuitry. In all, if you are living in an antenna-challenged situation, the short dipole/1020C combo just might make your shortwave listening better.

Final thought: Mike, who wrote the section of Radio Reference wiki that inspired this experiment, said:

You do have to watch your gain otherwise you will get a lot more noise than signal. I did my experiment using an old Palomar preselector. You can also try using a YouLoop as the antenna – it should, in theory, work even better than just a simple whip.

One thing that you could mention in your article is that there is an advantage to having a small dipole like that as the receiving element. Not only is it fairly easy to hide, it can be moved around to find a somewhat quieter location. However the coax should be kept as short as you can, otherwise there is a chance that common mode noise would become an issue – particularly if it runs near computers or other RFI sources

Remember that even a 1 or 2 S unit improvement might make the difference between hearing a signal and not hearing it at all. All we are doing here is trying to improve the signal/noise ratio coming into the unit. That little vertical whip on the 1020c is not likely to be the best choice, and that’s what I am trying to improve upon.

– Mike KA3JJZ

Thanks, Mike!

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Adi spots an Eddystone among other radios in the Netflix series Spycraft

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

Hi Thomas,

I just finished watching “Spycraft” on Netfilx. It’s 8X30min parts documentary.

The last part is “Recruiting the best spy“.

I first spotted this lovely 880 Eddystone receiver but coming into the ~20 min was the story of the ICF-2010 and how an American spy for Cuba used it to receive the “numbered” code massages.

Later on there is nice illustration how the code was used.

There are few other radios pop here and there on this documentary as you can expect from the Spy Craft .

73’s Adi

Thank you so much, Adi!  Some years ago, I actually read the book upon which I believe this series was based. Many thanks for the tip!

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Eton’s New Elite Satellit HD – Consistently Inconsistent (Or… Is There A Proofreader in the House?)

by Guy Atkins

As reported yesterday by Dave Zantow N9EWO and in the SWLing Post, the Eton Elite Satellit HD receiver has left the vaporware zone and arrived in production. Universal-Radio started taking orders on June 28th.

Any new receiver is cause for celebration, but the closer I inspect the available manuals and marketing materials, well, the more questions I have!

I’m sorry Mr. Eton, but it appears your marketing materials are very confused. I’ll need to send you to a proofreading specialist.

I began comparing Eton’s product page for the new receiver, with their own datasheet and owner’s manual… as well as Universal-Radio’s catalog page and photos. The deeper I dug, the less certain I was of the feature set and specifications of this “revival” version of the Eton E1/E1XM receiver.

How best to describe what I was finding? I decided to create a table showing the inconsistencies between the sources / materials.

You can download a PDF version of the above chart here: ELITE SATELLIT HD CHART 
Note that the PDF contains links in the header to the sources of information on Eton’s web site and Universal-Radio’s catalog page.

I’m sure there are more mysteries and puzzlers lurking within the documents and pages referenced above. The biggest question of all, in my opinion, is the circuitry itself. Is the receiver a superheterodyne design as in the original E1/E1XM (with three discrete ceramic I.F. bandwidth filters), or is it a DSP circuit, a la SiLabs-based portable radios with additional (but poorly performing) bandwidths?

I personally hope Eton’s new flagship includes filters that are a copy of those in the original E1/E1XM. They have better shape factors and ultimate rejection prowess than the filters in DSP portable radios on the market today. Coupled with selectable synch-AM and Passband Tuning, they are a powerful combination for fighting interference in a portable receiver.

What do you think about all the conflicts as described in the above table? Perhaps it’s just a jumble of preliminary prototype specs and final features. I hope Eton will take steps soon to bring clarity and consistency to their materials. Also, as Eton’s leading–or only–USA dealer, Universal’s web page should match too.

Please leave your comments below!

Guy Atkins is a Sr. Graphic Designer for T-Mobile and lives near Seattle, Washington.  He’s a regular contributor to the SWLing Post.

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Dave spots a Realistic PRO-16 in WKRP episode

Many thanks to SWLing Post contributor, Dave (N9EWO), who shares the following:

“WKRP In Cincinnati” – “Tornado” S01 E12 (February 1979)

“The station staff finds themselves in danger when Herb unplugs a teleprinter just as it is receiving a local tornado warning.”

Look for the Radio Shack Realistic PRO-16 (cat no. 20-165) scanner receiver at 35:15 in this dual episode “Internet Archive” video. A Midland 13-902 weather radio sits on top of the PRO-16 scanner.

Dave Zantow N9EWO
Janesville WI

Sharp eyes there, Dave!  Thank you for sharing this! WKRP is classic!

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Squeezeboxes on shortwave

Hi SWLing Post community, Fastradioburst23 here letting you know about two transmissions of  WELK, another installment of the imaginary radio stations show to be broadcast this weekend and next by the good folks at WRMI.

The first transmission is on Sunday 3rd July 2022 then Sunday 10th July 2022 both at 2200 utc on 9395 kHz. If you love all things accordian and squeezebox based you’ll love these broadcasts!

The audio of the first broadcast is available here.

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