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Many thanks to SWLing Post contributor, Mad Radio DXer, who writes:
I said I would share my results for attempting to receive LW signals on the XHDATA D-808, & if I can use a longwire to improve reception on this radio. This was after posting videos when I used around 50 metres of longwire connected to the D-808 for improved Medium Wave reception & to prove it works.
This first video shows that it is not possible for LW, no matter if I connect the 50 metres longwire to the 3.5mm input or the whip antenna. I also compare reception of the same station with the Degen DE1103 PLL using the 3.5mm input. The Degen DE1103 still had better reception even when I used the whip antenna extended at the very minimum when using the LW/MW external antenna trick. I know I should have used the internal ferrite antenna of the Degen compared to the D-808, but in any case I did try off camera & reception was about the same. So unfortunately the D-808 was never going to win this round.
However, there is a solution.
The answer? Build yourself a Long Wave induction antenna as shown in the second video [below]. I made one some time ago, as I grew frustrated at how poor the Tecsun radios were on this part of the band & that there were no LW induction antennas available to buy. I tried a signal on 207 kHz which is RÚV Rás 2 from Iceland. Either a radio with a very good internal antenna or a good external antenna is needed to receive this station at my QTH in southern England.
Placing the D-808 on the induction antenna resulted in a very pleasing result, which was it did get reception of Iceland on 207 kHz. So this shows that it is possible to DX on the LW bands with the D-808 with some “external help”.
For anyone interested making a LW induction antenna as shown above, here is a link to a video that has basic instructions & further results. It may be a very simple build & finish what I did, but for me the most important thing is that it works.
I hope my comments & videos will be a great help to all. Happy DXing.
Regards,
Mad Radio DXer.
Excellent–your comments and videos are most welcome! There are quite a number of SWLing Post readers who are avid longwave DXers. I love the simplicity and efficacy of your longwave antenna–something anyone could build. A clever upgrade to the affordable D-808. Thank you for sharing!
Many thanks to SWLing Post contributor, TomL, who shares the following guest post:
Backpack Shack 2.0
by TomL
Like Audiophile speakers, it could be said that “antennas are forever”. They tend to not become obsolete like all of our favorite electronic gear (a good one is worth the trouble). And antennas don’t care if the signals are digital or analog formats. They are “Digital Ready” (LOL)!
Retain the broadband design of the amplified loop on a sturdy form
Shrink the size to fit into a backpack without heavy stand or long pole
Build a modular platform that would allow quick setup
Be something durable that can last me 20+ years of use
Allow the loop to be rotated and tilted by hand
Be easy to hook up to any kind of radio
and later on, Enhance the design as a true Ferrite Sleeve Loop
The Backpack: The existing photo backpack was slightly too bulky. Found on Amazon was an Adidas Excel II XXL backpack on special sale with plenty of tall compartments and minimal padding. It is surprisingly roomy and comfortable to wear with springy shoulder straps and padded mesh backside!
Sturdy Basic Form: The Backpack Shack loop was originally built on 14-inch quilters loops (three of them) in a parallel configuration. I thought to simplify the whole thing and just use one wide loop. But what should I use for a sturdy form? The quilters loops were too flimsy and PVC pipe was too heavy. I stumbled upon a nice company called FlexPVC which allows sales to the public of various kinds of PVC pipe. Their Thinwalled Air Duct PVC looked promising. It is thinner than regular PVC but having standard inside dimensions and comes in custom-cut lengths. I decided 10-inch diameter would fit best inside the Backpack. FlexPVC even sends you a small booklet of the U.S. Constitution and the Bill of Rights with your order! 🙂
Thinwalled PVC form
The “length” as they call it would be my form width for the copper strip. I thought 3-inch would be nice but decided 4-inch was better. Supposedly, the aperture + the width of the “radiant element” is the main design consideration for loop performance. So, I figured that as wide an element as I could get away with was better.
Stable Mounting: Now, how to mount this thing! I eventually went back to my photographic web links and found nice rig equipment for video cameras. The typical construct is made of 15mm tubes of aluminum or carbon fiber (CF) and fit into adapters that allow attachment to other adapters or clamps. Non-metallic CF seemed ideal, so, I ordered a whole bunch of items from eBay to experiment piecing together two 10-inch CF tubes mounted inside the PVC form. Then, I attached two 15-inch CF tubes to the bottom of the PVC with something called a “Cheese Rod” that has multiple holes. Those two tubes are attached to another “Cheese Bar” which is attached to a second Cheese Bar on a cheap two-axis tripod head. This is a simpler photo version with quick release plate that locks pan-tilt separately and only cost $16.
Cheese Rod attached to bottom of PVC
Pan-tilt head assembly with Quick Release plate
For the base, I had an unused Sirui T-2005X 5-Section Aluminum Travel Tripod going to waste, so it was pressed into service. Very good tripod: can hold 26 lbs. (forged aluminum, not cast aluminum), legs can flare out for stability, and folds to 14.5-inches. Now, everything could come apart and fit into the Excel II Backpack!
Critically, the video rig standardization in the DSLR industry allows me to pick and choose parts from any cheap manufacturer but end up with a system that looks and feels coherent, is both sturdy and light, and can come apart if needed. Also, the pan-tilt photo head is really easy to work to get maximum peak or null out of the loop when mounted to a camera tripod.
CF Problem: CF tubes have no internal threads like that of aluminum tubes. So, I attached two, small 3/8-1/4 inch tripod adapters to the ends of a 3/8-inch oak dowel inside each CF tube destined for the inside of the PVC (ridiculously, I used up almost a whole bottle of super glue to get these 4 tiny pieces to attach to the oak dowels). This is definitely a weakness of my design but I could not figure out any other way to get the CF to mount inside the PVC form. Then, added to this is something wonderful I found at Ace Hardware called “speed nuts” to help push ipwards against the incoming stainless steel socket head screws of exact length. With jam nuts, internal lock washers, wing nuts, and strategic use of Thread Locker Blue, I finally had enough confidence that this thing would hold together!!
Speed Nuts pushing upward against incoming screws
Super-glued 3/8-1/4 inch adapter on end of oak dowel inside CF tube
Bottom assembly (Cheese Rod, Cheese Bar, and 15mm Clamp screwed together + wires to a BNC connector)
Ferrite Sleeve Loop: Halfway through this project, I became determined to use the ferrite bars and rods I had purchased from eBay mid-summer 2017 to turn this antenna into a real Ferrite Sleeve Loop but with a broadband design (At that time, I ended up purchasing the very last quantities of 62x12x4mm ferrite bars from the Lithuanian eBay seller, just because they were becoming scarce plus some other 8mm ferrite rods). The Thinwalled PVC is 5mm thick, perfect for this type of application. The video equipment could handle the extra weight. I had just enough ferrites to line the inside of this PVC form with two bars side-by-side all the way around the inside (plus some shorter ferrite rods at the top and bottom). Some quick setting JB WELD Kwik Weld epoxy made quick (and permanent) attachment of these ferrites to the inside of the PVC. Now, the bars stick out from the PVC form by about ½-inch on each side, so I do have to be careful it does not get abused and chip off any of the exposed ferrite.
Soviet ferrite bars and rods, 400 ui (initial permeability).
Note: Using Gary DeBock’s Performance estimate (diameter * length), this calculation predicts that this FSL 10.75-inch loop should perform similarly to Gary’s 10-inch models using 140mm long Russian ferrite bars (mine probably performs less than his since I am not using carefully tuned (to Mediumwave) litz wire on higher permeability 1500 ui ferrites like he does).
Preamplifier: I believe one advantage of building a portable, table-top loop antenna like this is that all the connections are short. This allows me to use a Preamp right at the connection point of the loop. Indeed, this was critical since passive testing (no Preamp, nor ferrites) found that this loop is somewhat deaf at the MW frequencies and uninspiring on the SW bands. This was true even when connected to Antenna A of my SDRPlay RSP-2 and the internal Low Noise Amp cranked all the way up. So, I ordered the DX Engineering RPA-2 Preamp. This adds to the weight somewhat since I also needed a 12V battery supply using a 10-cell holder of NiMH AA batteries and 2.1mm plug.
The question arises that I “should” impedence-match the output of the loop before anything else to increase “maximum gain”. Well, for one thing, a tuner or matching balun would just introduce loss as soon as the wire comes out at the base of the antenna. The slight net increase in gain does not seem worth it; the signal/noise ratio rarely changes when introducing a device that is meant specifically for matching a transmitter to a load. Receiver circuits don’t care as long as there is enough signal to process. That is what the Preamp is for. The Preselector is for rejecting out-of-band (i.e., increasing signal/noise ratio + eliminate overloading the electronics).
Preselector: Now that the signal level was satisfactory, I added on the Cross Country Preselector, which I like very much since it is passive, lightweight, and well made. I had looked at other amplified preselectors but found the schematics showing the preselector came first in the path. I needed the preamp first, so that is how I ended up with separate units. In fact, the reverse configuration performs with worse signal/noise ratio because of the loss inherent in the preselector. In this case, it is definitely needed to amp the loop first with a high quality preamp (high IP3 rating)!
Automatic Bypass: The Cross Country unit has a great feature in the “off” position as an automatic bypass. This feature is very important since I do not need a Preselector in the circuit all the time. The bypass feature also allows the RSP-2 to monitor a large swath of spectrum without having the Preselector cut the bandwidth. The DX Engineering RPA-2 Preamp also has a circuit bypass when the power is off – very nice feature! So, I can keep all the antenna wires connected if I don’t want to use either device on a certain band – necessary for my broadband antenna design and use with an SDR.
Modular Portability: Another advantage of a table top loop is portability. Because of the modular design, I can put this into checked baggage (except for the AA batteries and laptop) and have it available for DXing in unexpected places. It could be useful when traveling and I cannot string wire into a tree but want something better than a whip antenna on a small radio. Everything fits into the bag and can be setup on a balcony, inside a car with a sunroof, or on a park picnic table.
A third advantage is that a short antenna could be clamped to one of the tubes and then connected directly to Antenna B of the RSP-2 for listening to higher frequencies (like a Comet W100RX). This expands the usefulness of this project as a platform for multiple antennas!
Finished Loop and accessories assembled together
Performance: Good on MW and very good on Shortwave. It is not in the league of Wellbrook antennas but it is useful as long as the RSP-2 LNA is kept down around -7 on MW and -4 on SW, else it overloads. The photo gear makes it easier to use than the original loop. I found that one side has a slightly larger receiving lobe than the other which is OK in practice. The null is very sharp and takes a little finesse to null out an offending station by almost 20 dB on MW and 15 dB on SW (the photo head can lock in place). It is handy to have the pan-tilt arm point directly at a station to maximize the null since the arm is mounted perpendicular to the loop. I will look for a clear plastic bag to cover the antenna and electronics to use in wet environments.
A larger loop would work better but this one is to use wherever I can. Also, my work laptop is noisey and shows birdies and spikes here and there on the bands, so I added a large ferrite bead to the USB computer end which helps. But I don’t have to use an SDR, I just have to change a connector and radio. It was expensive and fun to build – I guess I am just LOOPY!
Happy Listening,
Tom Lebryk
Appendix I, Field Recordings 27-Jan. 2018 between 21.26-22.36 UTC:
Note 1: All Transmitter locations referenced from web site short-wave.info at time of recordings
Note 2: My location in a shelter at Dick Young Forest Preserve (41.84334, -88.38133)
Note 3: Moderate but declining solar wind with no flares, Kp Index = Calm (1)
9.420 MHz – Voice of Greece booming in like it was next door:
10 AA Powerex Precharged NiMH batteries for the Preamp + 10x AA snap battery holder + CCTV 2.1mm snap plug
1 Cross Country Preselector
1 SDRPlay RSP-2 with SDR Console software on Lenovo laptop
1 Belkin USB printer cable with large ferrite bead looped through 3 times on computer end
1 Sirui T2005X travel tripod
1 Adidas Excel II XXL backpack (gaudy Solar Orange color!)
Velcro brand 7/8” x 23” One-Wrap velcro strips
Plus shielded cables, BNC and SMA adapters, Thread Lock Blue, tie wraps, rubber bands, super glue, JB WELD Kwik Weld epoxy, speed nuts, jam nuts, acorn nuts, wing nuts, internal lock washers, nylon nuts and screws, and 1/4”-20 socket head screws of various lengths as needed.
What a brilliant project, Tom! What I love is the fact that you consider your unique requirements prior to starting a project and base your design on your specific needs. Additionally, you see each design as an iteration. Fantastic job! No doubt, you’ll log numerous hours with this antenna in the field! Thank you for sharing your detailed design notes, process, list of materials and even audio clips with us.
Many thanks to SWLing Post contributor, Kenneth Wigger, who writes:
One Friday evening I contacted Larry W6LVP and asked a question about the kind of coax that he would recommend for his Magnetic Loop antenna. I was surprised to get a response with technical information within an hour or so. With this kind of customer service I decided to go ahead and order one of his antennas later that evening. I actually received the antenna on Monday afternoon within a couple days.
I have extreme electrical noise that was S-8 most of the time on my Carolina Windom and made my radio almost unusable. I temporarily installed the Magnetic Loop antenna on a short 5 FT pole in the backyard. With the XYL as the null monitor at the radio I called her on my cell phone and rotated the antenna by hand and was able to get a sharp noise null of about S-1. Very tight null when rotating just a few degrees one way or the other. Went in the house and couldn’t believe the clear signals that were hidden by the previous high noise level. It reminded me of SWLing 50 years ago as a kid back in the good old days before the electrical noise environment turned so bad!
As I mentioned, the antenna arrived within a couple days and was of high quality construction and packed extremely well for shipment. I had read the previous reviews about Larry’s product quality and customer service and my experience was also very good!!
I am planning to mount the antenna on a Channel Master rotator one of these days to get the full effect of the excellent directionally of this Magnetic Loop antenna. I even read where Broadcast Band Listeners use this antenna to pick up and select between multiple stations on the exact same AM frequencies.
I highly recommend Larry W6LVP and his Magnetic Loop antenna to other Hams and SWL listeners. He responds personally to emails within a business day usually just an hour or two. What more could a customer ask for?
Thank you, Kenneth, for sharing your review! It’s nice to have an alternative to the pricier Wellbrook and Pixel Loop antennas. Someday, I’ll get around to reviewing the W6LPV loop antenna as well.
SWling Post contributor, Ron, recently noted that Jay Allen reviewed one of Paul’s inductively-coupled mediumwave magnetic loop antennas. Jay gave it good marks on performance as it compares favorably with the Grundig AN-200, Select-A-Tenna M, and Terk Advantage AM–even having a performance edge due to it’s larger loop diameter. (Note that Paul makes a number of loop sizes–click here to download PDF of catalog.)
In Canada last summer, I used the PK Loop on a number of field radio listening sessions.
But what really sets the PK Loop apart from its competitors is its durability. PK’s Loops are built to be incredibly rugged. I routinely throw my PK Loop antenna in bags/packs and–unlike most of my other radio components–never worry about how it’s padded or protected. There’s little to damage unless you’re intentionally abusive to this antenna. My Grundig AN-200 antenna, on the other extreme, has exposed coated wires around its loop that I’m constantly concerned about harming in transit.
Following up…
Ron’s message reminded me that I never followed up after posting a preliminary review of the PK Loop C-LOOP-HDSW6-18 in 2016.
Shortly after publishing the review, I had a fantastic opportunity to evaluate how well the PK Loop would perform in a typical hotel room. My buddies Eric (WD8RIF), Miles (KD8KNC) and I stayed overnight in a hotel on Wright-Patterson Air Force Base during our mini National Parks On The Air DXpedition.
My Elecraft KX2 connected to an external random wire antenna.
The hotel room was indeed dense with RFI.
We hooked my Electraft KX2 to both the PK Loop and to a simple random wire antenna.
Without a doubt, the PK Loop was much better at mitigating radio noise than the wire antenna we hung on the inside of the hotel window.
Unlike most modern hotels, however, this one actually had operable windows, so we tossed the random wire out the window and made another comparison. In this case, the external wire antenna consistently outperformed the PK Loop, no doubt because it had the advantage of being outside the radio noise cloud within the hotel’s walls. It goes to show that outdoor antennas–even if simply hanging from a room window–will almost always outperform comparable indoor antennas.
A late evening listening session on the condo balcony.
Last summer, I also spent two months in a condo near Québec City. The condo was dense with RFI–the PK Loop made the experience much more bearable. The loop couldn’t completely eliminate all of the persistent wideband noise, of course, but it did reduce noise to a level that I could enjoy some of my favorites like RRI, VOG, VOT, REE, WRMI, RNZI and even weaker stations in North America like the BBC and DW.
Even the shortwave version of the PK Loop can null out QRM to some degree by rotating the loop perpendicular to noise. I became quite adept at this by the end of our stay.
Summary
Since I purchased the PK Loop, it’s been a constant travel companion and I highly recommend it. I don’t believe you’ll find a more durable or effective portable mag loop antenna on the market.
PK Loops are built by Paul Karlstrand in Australia who has a stellar reputation with his customers. For those of us living outside Australia, there will be additional shipping costs, but they’re negligible and Paul has been exporting these loops for many, many years. I believe I received my loop within a couple of weeks of ordering it.
This year, I plan to purchase PK’s largest mediumwave loop, the model HDXLTAM that boasts a 20″ diameter. Please comment if you have experience with this loop or any of Paul’s loops!
One of our SWLing Post contributors recently sent the following message with a request:
I have a suggestion/challenge for a post: what’s out there for low cost, off-the-shelf HF antennas?
I simply can’t drop $500 on a Wellbrook. The AirSpy HF+ and the new $100 RSP1A SDR are super enticing, but then I look at the antenna connectors and think, “What do I have to connect to that…!?!”
Googling takes you down the rabbit hole of home brew antennas. I’ll admit that I don’t have the skill or patience to dig through hundreds of DIY posts of antenna construction. For my first proper outdoor antenna, I’d like to purchase one that’s rugged, well-tested and optimized for HF and MW listening. Something easy to install.
You know? I get it.
Many listeners simply don’t have the free time or enthusiasm to explore home brew antenna options especially if they’re seeking one optimized antenna for their location and listening habits.
Like it or not, antennas can become a barrier of entry to proper, low-noise radio listening and DXing.
I have built almost all of the antennas I use so I’m not an expert in this area, therefore I asked Fred Osterman at Universal Radio for a couple of suggestions. He and I have talked about antennas in the past and he’s the most knowledgeable person I know on the topic. I’m willing to bet Universal Radio stocks more SWL antennas than any other radio retailer. Fred also has the added benefit of hearing customer feedback daily.
I asked Fred specifically for wire antennas that are easy to install, require no soldering or tuning/cutting and work well right out of the box. Something under $200.
Fred replied with two recommendations–I include his comments in quotes:
Alpha-Delta DX-SWL Sloper $129.95
“[The Alpha-Delta DX-SWL Sloper] is very well built. Actually, over-built for listening. Easy to erect with the feed point being up high. And really works well on the SW bands (including Tropical) and MW too. Fully preassembled. Down-side is it is kinda obtrusive with the heavy wire and large coils.”
“[The EF-SWL is very popular] these days. It does work best with a ground, but still usable without. It is interesting, as it can be configured many different ways. I suspect it is popular because it is very easy to erect, and very, very stealthy. (Increasingly important these days). And the wire is flexible, not too thick and not obtrusive. Seems more immune to noise than others. Priced right.”
I have some experience with the Par EF-SWL antenna. It offers excellent performance and the antenna line has a durable black coating that makes it nearly impossible to spot from a distance. I’ve even taken the EF-SWL on travels and posted a review a few years ago. I agree that it performs very well.
I have a friend that’s relied on the Alpha-Delta DX-SWL Sloper as his main SWL antenna for years. He lives in an urban area and I’ve been favorably impressed with its performance. I agree with Fred–it’s incredibly durable and beefy! Built like a tank.
Of course, there are also incredibly low-profile antennas like the Bonito Mini Whip (check out some of Oxford Shortwave’s posts) but note that some versions don’t handle a noise-rich environment very well.
Post readers: Please comment if you know of other off-the-shelf antenna options–especially those you have personal experience using and installing.
Many thanks to SWLing Post contributor, Larry Thompson (WPE8EKM), who writes:
I’ve just finished building a variation of the W6LVP amplified magnetic loop antenna. I was able to purchase the preamplifier, power inserter, and the power supply separately. I then created my own loop antenna using LMR400Max coax and designed my own knock-down PVC support. I wanted something extremely compact and portable to take on sae-kayaking expeditions and to DXpeditions to Africa.
I spent many years teaching in the DRC Congo and hope to return.
I’ve used a 6’ loop, a 9’ loop, a 12’ loop, and an 18’ loop. All do very well, but the 6’ and the 9’ seem to do the best. I’ve been using the 9’ length of coax doubled into two loops and that seems be be doing extremely well.
The signal strength from the W6LVP variation is equal to my Parr EF-SWL End-Fedz 45’ dipole, but the reduced noise level on the bands is amazing. I live in a central city high-rise with no possibility of an exterior antenna. The EF-SWL is strung out a 5th floor window down the side of the building. It performs well, but with a high degree of noise. My QTH is rampant with QRM and RFI noise. The W6LVP amplified magnetic loop has really resolved that in a big way.
The bands are horrible at the moment, so evaluating the loop antenna is difficult. But the cleaner, stronger signals of CHU Canada on 3339 kHz and 7850 kHz, as well as WWV on 10,000 kHz is impressive.
I’m impressed with the reduced noise level on the bands tuning across them, as well as the noise-free signal once you lock into a station. I’ve heard hams on the 17 mb for the very first time.
So far, I’m very impressed with the performance of this amplified magnetic loop.
Very cool Larry! You’ve build a compact loop that can bring the RFI down to a tolerable level–I’d say that’s a complete success. Thanks for sharing!
Many thanks to SWLing Post contributor, John Minor, who writes:
I am going to set up a rig to start DXing, and getting my technical license. My plan is to buy a Kenwood TS-590 SG transceiver and a discone antenna.
My home’s previous owner had satellite TV, and my question to you is, can I use the existing cabling for my antenna?
There is a connector in my living room, and the cable runs to the connector/splitter box for the dish. Could I run a cable from the end of the existing cable at the splitter box, to the antenna?
I’ve attached some pictures to show you what the existing cables look like.
Picture 6 has a circle drawn on it to show where I’d like to mount the antenna.
I remember back when I was 9 or 10, laying under the covers at night slowing turning my AM transistor radio dial and seeing what I could pick up. It was a thrill to hear stations from Chicago, Cincinnati or Little Rock. I look forward to the same thrill listening to voices from across the country and around the world……
Thank you for your time, and for the wonderful website.
Thank you, John, for your question and for the kind compliment!
I’m publishing this question here, though, in hopes the SWLing Post community can help you. I have very little experience matching antenna impedance this way especially when transmitting will be involved–there will be a mis-match, I’m pretty sure. With that said, I know many mag loop receive-only antennas actually use RG6. It would certainly be great to use an existing penetration for this application.
Post readers: If you can help John, please do comment. Quite frankly, this isn’t the first time I’ve been asked this question, so I’ll follow comments as well.
John, I’m sure you’ll soon have your radio on the air receiving the world just like when you were nine–or even better! Great choice in that Kenny TS-590SG–it has a brilliant general coverage receiver for broadcast listening!
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