Tag Archives: Jock Elliott (KB2GOM)

Follow-up to The Great Medium Wave Daylight DX Challenge

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By Jock Elliott, KB2GOM

If the folks who participated in The Great Medium Wave Daylight DX Challenge were on trial for “having fun,” they would be found guilty and sentenced to . . . more DXing challenges!

Results

As nearly as I can tell, 13 people participated, and many had something positive to say about the experience, including they would like to do it again.

I say “as nearly as I can tell” with regard to the number of participants because some people posted the same thing multiple times . . . and there is a simple reason why. When someone posts a comment for the first time, or posts a comment for the first time with a new email address (which is one of the required fields when you post a comment), that comment is sent to moderation for approval before it is posted . . . which causes a delay. Thinking it didn’t work the first time, the commenter reposts again (and perhaps again and again) and after a while, all the posts appear, which confuses the counting process.

A variety of equipment was used: 4 GE Superadios, 2 Belka radios, a Yaesu FT950, an AirSpy SDR, a single-transistor regenerative radio, and a Sangean ATS 909-X2. Some ran barefoot (using internal antennas), some employed loops, dipoles, and even an AFA-200 from Icom.

In terms of station count, Tom Laskowski, in a neighborhood park in South Bend, Indiana, absolutely killed it with a GE Superadio, logging 69 stations with lots of colorful detail. Clearly he was enjoying himself. The total mileage of his top five stations was 1230 miles. He qualified for Chuck Rippel’s generous offer of a Superadio refurb.

13dka “informally reported” his results in miles, furlongs, and attoparsecs. From a dike at the German North Sea Coast (Riddle of the Sands?), his farthest station was 677 miles away and his top five total was 2748 miles . . . that’s 21,968.5 furlongs in case you were wondering. He used a Belka 2022 in combination with an AFA-200 active ferrite antenna (his ultra portable MW rig).

David Mappin in Filey, UK, managed to hear a station in Solt, Hungary, at a distance of 987 miles. His top five total mileage was 1965 miles. He used a Sangean ATS 909X2 with a Cross Country Wireless (CCW) Loop Antenna Amplifier with a one-meter loop made out of coax.

Everyone seemed to have a good time, even those to whom “life happened,” and could only get on for a few minutes.

So, therefore, you are all sentenced to more DX challenges in the future!

My operatives (the upstate irregulars) deep in the underground bunker at El Rancho Elliott tell me that some of the names of future challenges might include “The Midnight Ramble” and “The Grayline Sprint” . . . but these sources are unreliable.

In the meantime, thanks to all for participating, and I am glad you had fun.

PS – Some have suggested that taking station transmit power into account when figuring out scoring might be a thing to do. If you have practical ideas for doing this, post them, with examples in the comments section below. Bear in mind that any calculation of “difficulty factor” will fall on the folks recording their logs.

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Saturday, March 12, 2023: The Great Medium Wave Daylight DX Challenge

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[If you haven’t already, please check out this previous post about The Great Medium Wave Daylight DX Challenge.]

Here are the rules:

  1. Frequency range is the medium wave band: 520-1710 kHz
  2. 10 am to 2 pm your local time today (Saturday, March 11, 2023). . . report the results in the comments to this post.
  3. Any radio with any antenna, but must be the radio at your location (no using remote internet radios)
  4. The listener must hear the signal in real time
  5. The stations must be ID’ed by listening to the signal.
  6. Your report should include:
    • Your name (or Internet handle)
    • Your receiver and antenna (stay with the same setup from beginning to end; if you use multiple setups, provide a separate report for each).
    • Your location
    • The time, the frequency, and the ID of each station heard
    • The total mileage of your top five most distant stations.

A final point: this is not a contest; it is a challenge. The reward for every participant will be fun and fellowship.

Please record your results in the Comments Section to this post below.

UPDATE: Chuck Rippel did sweeten the pot, though! Check out his generous offer here.

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Gentle reminder: The Great Medium Wave Daylight DX Challenge is tomorrow!

Here are the rules:

  1. Frequency range is the medium wave band: 520-1710 kHz
  2. 10 am to 2 pm your local time on Saturday, March 11, 2023 .
  3. Any radio with any antenna, but must be the radio at your location (no using remote internet radios)
  4. The listener must hear the signal in real time
  5. The stations must be ID’ed by listening to the signal.
  6. Your report should include:
    • Your name (or Internet handle)
    • Your receiver and antenna (stay with the same setup from beginning to end; if you use multiple setups, provide a separate report for each).
    • Your location
    • The time, the frequency, and the ID of each station heard
    • The total mileage of your top five most distant stations.

A final point: this is not a contest; it is a challenge. The reward for every participant will be fun and fellowship.

UPDATE: Chuck Rippel did sweeten the pot, though! Check out his generous offer here.

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Chuck Rippel “Sweetens the deal” on The Great Medium Wave Daylight DX Challenge!

by Jock Elliott, KB2GOM

After yesterday’s post appeared, Chuck Rippel reached out to me and offered:

To whomever logs the most stations using a GE SR-I or SR-II, I will donate that person, a >free< SR-I or SR-II restoration.  Includes, parts, alignment, cleaning, etc….   The winner’s only cost will be shipping.  Should the winner already have a radio I restored, I have an alternate “reward” in mind.

That is a very generous offer, Chuck, and I am sure someone will be the delighted recipient.

In the meantime, there is a very slight modification to the procedure for the challenge: I will be posting a reminder about The Great Medium Wave Daylight DX Challenge on Friday, and then on Saturday, I will post another The Great Medium Wave Daylight DX Challenge blog. That Saturday blog will be the place to post your results in The Challenge . . . .in the Comments section.

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The Great Medium Wave Daylight DX Challenge

By Jock Elliott, KB2GOM

First a word of acknowledgement and thanks: it was Chuck Rippel who said (in part) — in response to this post — “We could make this interesting by restricting listening to the period 10AM – 2PM maybe 3PM.” And that got me to thinking that maybe a daylight DXing challenge might be fun.

It was Bill Hemphill, who said, responding to the same blog post:

Every year the New Jersey Antique Radio Club has a BCB DX contest for its club members. The main purpose is to encourage the members to put into operation some of the many old am radios that they own. This year’s contest was just completed this past Sunday. For any 24 hour period, using the same radio, you attempt to log the most distant stations. The contest score is the total mileage of the ten stations that are most distant.”

Reading that, I rather liked the idea of using mileage as one way to keep score.

Combining the two ideas, the result is The Great Medium Wave Daylight DX Challenge.

Here are the rules:

  1. Frequency rang is the medium wave band: 520-1710 kHz
  2. 10 am to 2 pm your local time on the Saturday after the post appears (Saturday, March 11, 2023).
  3. Any radio with any antenna, but must be the radio at your location (no using remote internet radios)
  4. The listener must hear the signal in real time
  5. The stations must be ID’ed by listening to the signal.
  6. Your report should include:
    • Your name (or Internet handle)
    • Your receiver and antenna (stay with the same setup from beginning to end; if you use multiple setups, provide a separate report for each).
    • Your location
    • The time, the frequency, and the ID of each station heard
    • The total mileage of your top five most distant stations.

A final point: this is not a contest; it is a challenge. The reward for every participant will be fun and fellowship.

UPDATE: Chuck Rippel did sweeten the pot, though! Check out his generous offer here.

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The CCrane Skywave SSB 2 and long wire antennas

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By Jock Elliott, KB2GOM

Frequently when people write about attaching a long wire to a portable shortwave receiver, readers will comment that you need to worry about desensitizing or overloading the receiver or ever harming the front end of the receiver. Clearly that can be a concern.

But recently I noticed something on the CCrane website in the FAQ section that shows clearly that CCrane has thought about and dealt with this consideration:

Q: When  using the 2-wire adapter and wire attached, why am I not noticing any improvement on shortwave?

A: To see any difference using the 2-wire adapter you will need to have a wire that is more than 30 feet long (we recommend 60-100’) with a good ground wire. Insulated wire will last longer and should be stranded so it is more flexible. If you do not have a good ground, you are actually inputting noise. If you look at the 2-wire adapter (included) you will see an antenna icon and a ground (G) marking. You need to connect them properly when using an external antenna. When a plug is inserted into the antenna jack of the radio the internal rod antenna is disconnected. (See page 30 of the Instruction manual.)

If you check out my review of the CCrane Skywave SSB 2 you will read that I heard a noticeable improvement when connecting the SSB 2 to a 45-foot end fed wire.

Note, though, that if you plan to attach a wire to the SSB 2’s whip antenna, use the 23-foot reel antenna that comes with the radio.

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A “knobs and switches” oldster investigates the SDRplay RSPdx . . . Wow!

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By Jock Elliott, KB2GOM

It is hard to imagine a less spectacular looking piece of radio gear than the SDRplay RSPdx. It is literally a black box. Aside from the printing on top of the box, the most exciting thing about the RSPdx are the two red plastic covers on the antenna connectors on the side. There are no switches, no knobs . . . you can’t do anything to it except connect an antenna (or antennas) on one side and a USB cable on the opposite.

But once you connect the USB cable to your laptop and fire up the SDRuno software (that you have previously downloaded and installed), you are now in command of a listening post that covers from 1 kHz to 2 GHz.

We’ll get to the important stuff in just a minute, but first a little background.

For an oldster retrocrank like me, a proper radio has knobs and switches . . . preferably a knob or switch for every job. Lately, however, I have noticed that a lot of DXers and ordinary listeners are reporting good success with SDRs – software-defined radios. So I started to wonder about them.

There are three elements to a software-defined radio like the SDRplay RSPdx:  the SDR box itself, which is the part of the system that actually receives the radio signals; a Windows computer (laptop or desktop), which provides the command and control for the SDR; and whatever antennas are required to receive the signals that the listener would like to hear. And, just to be absolutely clear, you need all three elements for the SDR system to work at all.

With my curiosity about SDRs rising, I inquired of Thomas, SWLing’s Maximum Leader, whether SDRplay – one of SWLing Post’s sponsors – might like me to take a look at one of their SDRs. Their answer was an emphatic Yes, and I had an RSPdx in my hands just a couple of days later at no cost to me or the SWLing Post.

I have to admit I had some trepidation about the process of bringing the RSPdx online because any time you have three different elements from three different sources that must work together for a system to function properly, there is always the possibility that some of the elements might not “play well together.”

Installation is easy and fast. Connect the RSPdx to the computer using a USB A-male to B-male cable (which the user must supply; often called a printer cable), then connect the antennas using the appropriate cable. In my case, I connected an MFJ 1886 Receive Loop to the Antenna C connector and an off-center fed dipole to the Antenna A connector.

To SDRplay’s great credit, they have produced an excellent video for first-timers and folks not familiar with SDRs — https://youtu.be/Oj_-dOLVzH8 . I recommend watching it, perhaps a couple of times, before you get started.

When you first fire up the SDRuno software, you will see the main panel:

Click on the “RX” button, and the Receive panel will be displayed. After you slide it over, it will look something like this:

Click on SP1 or SP2 in the main panel, and one of the peak displays will appear:

Finally, click on the PLAY button in the main panel, and whatever frequency you have selected will begin to play. Continue reading

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