The weather is gorgeous here in the mountains of western North Carolina so I’m plotting a SOTA activation of Elk Knob (W4C/EM-005) and Elk Knob State Park (K-2728) or WWFF (KFF-2728).
Propagation isn’t looking that fabulous despite the amazing weather.
I hope to be on the air sometime between 17:00-18:00 UTC and have announced the following frequencies: 7063, 7197, 14040, and 14313. Of course, all of this is subject to change depending on travel time to the site and how quickly I manage the hike to the summit.
I’m planning to take the KX2 and I’ve yet to decide which antenna. Likely will take a vertical because I’m uncertain if there will be trees on the summit.
I plan to make a video to accompany my future field report (again, if all goes well).
If you happen to be near a radio, I’d love to put you in the logs!
Look for me to appear on the Reverse Beacon Network as I’ll start with CW–click here to search. Also, check out the spots on SOTA, POTA, and WWFF.
Really looking forward to a good hike and good weather!
Many thanks to Frank Lagaet (ON6UU) for sharing the following guest post:
The EGV+ Three Band Transceiver Kit
by Frank Lagaet (ON6UU)
Another EA3GCY kit has seen daylight. The EGV+ is ready for you all.
It was beginning 2021 I got word a new kit from EA3GCY was ready and distribution could start. After a successful build of the DB4020 I did not need much time to decide to buy this kit, a week later the kit arrived at my QTH. As weather was good I did not start immediately building but then winter kicked in, with snowfall and frost, perfect time for some quality time and building the kit.
What do you get ?
The kit has a general coverage receiver from 6 to 16MHz, it has a keyer built in, has RIT without limit, requires only 0.25A on RX and smaller than 2A on TX. Dimensions are 18x14cm and weight is 0.3Kg. It is CW only, able to produce 8W on 40 and some 5-6 on 30 and 20. The kit has an AB class amplifier. Spurious is below -50DBc. The receiver is a heterodyne type balanced mixer, sensitivity is 0.2µV minimum and the CW filter is some 700Hz wide, the AGC is on audio. Furthermore the transceiver is equipped with both output for loudspeaker as for a headset or earbuds.
The kit arrived in a brown envelope and in that envelope I found a well-packed packet of plastic bags and the printed board well packed in bubble wrap. Around that another layer of bubblewrap. Safe!!
All plastic bags were checked, all needed stuff was there, super, well done Javier.
All components were installed in about 10 hours “relax max style”, if you have built some kits already you can easily do this one, all elements are far enough out of each other, the board is not overcrowded at all. Some attention is needed when soldering the IC’s and display but even that is a piece of cake. Be careful when installing the SI5351 module.
Winding the toroids, just follow what is in the manual, it is not that hard to do, I don’t understand what many find so difficult. Just take your time and don’t rush into it.
I got the transceiver up and running quite quick. I didn’t install a speaker in the cabinet but decided to go for a transceiver where no speaker is in. If I want to use it on SOTA or GMA I don’t need the extra weight and can take earbuds with me. So I installed the speaker connector on the board.
I made connections towards the CW key and CMD push button with jumper cables which fit exactly on the headers Javier supplies, a little glue to keep them in place is also added afterward. For easy operation I mounted the CW key connector and CMD pushbutton on the front of the transceiver.
Do to be able to withstand high power nearby stations, I mounted the EGV+ in a homemade box which is made of printboard. The box should be a Faraday cage to keep all QRM out. If you buy a box, buy one in metal. I added a laminated front and back which make the transceiver look kinda cool. Now you can also buy a box from qrphamradiokits.
Alignment
The alignment is done on 40 meters: crank up the volume and start turning the 2 coils (L1 and L2)to maximum volume. Be careful to handle these with caution and don’t use metallic screwdrivers. Connect an antenna after you’ve done that and do the alignment of the coils again for maximum volume. Find a station on 40 and redo the alignment once more. You should already have good results now.
P1 Set sidetone level to your liking.
P2 Set the hangtime of the relay after you’ve been on air–fast fingers will need a quick release. Set this to your liking.
P3 Connect a power meter between a dummy load and the transceiver, set power on 40 to some 8 Watts. Measure on 30 and 20 meters, you should find some 6-7W there. Don’t set the power to full if you want a long life for the final in the transceiver. Mine is set for 6W on 20, resulting in some 7.5W on 30 and some 8.4W on 40. I think I will reduce even more.
P4 Set to max, it is the RX-attenuator.
P5 Don’t pay too much attention to the signal meter, mine is set at 6/8 of the potmeter’s range. It is only an indication. If you don’t want the S-meter then you can do a start-up sequence with the tuning knob.
These are in fact the alignments you need to do inside the transceiver. You should also check Xtal calibration and BFO, these are settings which you need to do in the set-up. Don’t forget to write all down when you have maximised these settings. If you do a reset, all these values are erased too so be carefull.
The complete CW 3 bander
Well, you get a 3 band transceiver which you build yourself, it has RIT and XIT, has 4 memories on the KB-2 keyer, speed of CW can be set between 0 and 50WPM and you can set the KB-2 as a beacon which can be handy too. The EGV+ provides you with 3 bands which are almost for certain insurance for QSOs when going on SOTA, GMA or POTA.
You may have noticed some resemblance with the DB4020. You are right as some parts are the same on the board. The designer worked on the same platform to make two completely different transceivers. The result is twice the fun for kit builders.
I made a box myself since, at the time of ordering, there were no boxes available, here’s the result.
The naked printboard transceiver.
After adding a laminated front to the trx, it looks now like this. You can see it is not made professionally but I like it.
The paper which is between the plastic was first cut out for the display before placing it in the plastics so giving an extra protection to the display.
I have also made a retractable stand for it, when folded back it is next to the bottom of the transceiver, when folded out the stand is under the front of the transceiver, the retractable stand is also made out of printboard.
It’s an easy-to-make stand–take some old printboard and solder it together. The pictures explain it all, I think.
Meanwhile, I already made a lot of QSOs with this small (16 X 20 X 6 cm) QRP transceiver. The power out is better than expected and even reduced so all bands are within QRP regulations.
Finally, I’d like to say that I’m not sponsored to make this kit, I don’t have any ties with the kit producer, nor do I gain money with building it. If people would like to have this QRP kit built for them I’m willing to help out in populating the board and aligning it. A ready made box is available with qrphamradiokits. This also stands for the DB4020 which I made earlier.
The kit comes for 125€ without shipping costs. Many European countries will have no shipping costs at all. The enclosure comes for 50€ all included. This means you have a complete 3 band radio for about 200€. In my eyes, this is a pretty good deal.
I’ll let you in on a little secret. Don’t tell anyone, but I held off making my first Summits On The Air (SOTA) activation until the stars aligned and I could activate one particular summit completely on foot from my QTH.
Last Thursday (February 25, 2021), my daughter and I hiked to Lane Pinnacle (W4C/CM-018) and performed my first Summits On The Air (SOTA) activation.
Why did I wait so long?
We live in the mountains of western North Carolina where (obviously) there are numerous SOTA summits to activate.
But I wanted Lane Pinnacle to be the first.
Why? Well, it’s the one summit I can hike to directly from my house with my daughter Geneva (K4TLI) and enjoy a proper father/daughter day hike.
I had planned to do this hike last year, but I injured my ankle and let’s just say that the hike to Pinnacle isn’t a beginner’s run. I knew my ankle would need to properly heal before the journey.
This is also more of a late fall to very early spring hike due to the amount of thick foliage we knew we would have to mitigate. It’s so much easier to keep your bearings when there are no leaves on the trees nor on the green briar!
Last Thursday, I felt confident that my ankle was up to the task. We had a break in the weather as well with moderate temps and lots of sunshine (this, after several days of rain). We knew things could be muddy and slippery, but we also knew that with my busy schedule this might be our last chance to hit the summit before the mountains green up.
So we packed a lunch, plenty of water, radio gear, and (of course) emergency/first-aid kits while trying to keep our backpacks as light as possible.
Hitting the trail!
The first part of the hike requires trailblazing to a ridge line. The distance is short, but the ascent is steep (about 800 feet). We hike this portion regularly, so knew how to pick our path and avoid the steeper, slippery bits.
K4TLI lead the way!
On the ridge line, we intersected an established single track trail and enjoyed the hike across a couple of smaller summits until we intersected the Blue Ridge Parkway.
If I’m being honest, I had some serious concerns that the trailhead to Lane Pinnacle would be closed. This portion of Blue Ridge Parkway is currently closed to motor vehicles (for the winter season) and I had noticed a number of “trail closed” signs on other portions of the parkway.
Guessing this may be a type of shelf fungus?
If the trail was closed, I planned to simply activate the parkway and Pisgah National Forest for the POTA program. I never hike on trails that have been closed by the park service because I like to obey the rules and I certainly don’t want to paint SOTA activators in a bad light.
When we crossed the parkway, we were incredibly pleased to see that the trailhead was open.
The ascent from the parkway to Lane Pinnacle is about 1,000 feet (305 meters) of elevation gain over a pretty short distance. The trail we were taking–turns out–was primitive. It basically lead us straight up the slope (no switch backs following lines of elevation, for example) and simply fizzled out about one third of the way up. We could tell it isn’t traveled often at all (although we did find a massive fresh bear track in the mud on the trail!).
Obligatory SOTA report “foot in snow” photo. 🙂
I bushwhacked our way to the top–at times, the slope was about 45 degrees and slippery, but we easily found our way to the summit where our goat path intersected the Mountains To Sea trail.
We found an amazing overlook and took in views of the Bee Tree Reservoir as we ate our lunches.
Geneva grabbed her dual-band HT and made the first summit contact with our friend, Vlado (N3CZ) on 2 meters FM.
On the Air
I knew there would be short trees on the summit of Lane Pinnacle, but I also knew that I wanted to get on the air as soon as possible to allow extra time for our hike home.
I did pack a super compact wire antenna, but opted instead for the Chameleon CHA MPAS Lite vertical. I paired it with my Elecraft KX2.
The great thing about the CHA MPAS Lite is how quick it is to deploy–it might have taken me all of three minutes.
Since it was noon, I decided to start on the 20 meter band. I found a clear frequency, started calling “CQ SOTA” with the KX2 memory keyer, and spotted myself to the SOTA network via the excellent SOTA Goat app on my phone.
I had also scheduled my activation on the POTA website in advance because Lane Pinnacle is in Pisgah National Forest (K-4510). My buddies Mike (K8RAT) and Eric (WD8RIF) were also helping to spot me in the unlikely event I wouldn’t have cell phone service on the summit.
Within 20 seconds of submitting the spot to the SOTA network I had a CW pileup.
In all of my hundreds of field activations, I can’t think of a single time that I generated a CW pileup on 20 meters in such short order with five watts and a vertical.
The first station I logged was N1AIA in Maine. The second station was F4WBN in France. The race was on!
It took every bit of CW skill I had to pull apart the stations on 20 meters. It was so much fun!
I eventually worked Spain and all of the west coast states (WA, OR, and CA) and numerous stations throughout the Rockies and Midwest.
I then moved to 40 meters where I worked stations in the Mid-Atlantic, Ohio Valley, and in the Southeast.
In the end, I had to keep my total time on the air short because I wanted to take my time finding a path from the summit back down to the Blue Ridge Parkway.
In 30 minutes I worked 30 stations. I’m not a seasoned CW operator, so this was quite the accomplishment.
Here’s a QSOmap of my contacts:
I was chuffed! What a fabulous activation to kick off my SOTA adventures.
Video
This time, I did not make a video of the actual activation. For one thing, I didn’t want to carry a folding tripod for the camera and I didn’t want to ask my daughter to film it either. I wanted to keep things as simple as possible to make the most of the airtime I had.
I did, however, make a short video before and after. You can check it out on my YouTube channel:
Hiking home
I really wish we could have stayed on the summit for an hour longer making contacts, but I knew it would be wise to allow extra time to descend Lane Pinnacle especially since I knew a front was moving through later that day.
I decided it would be easier to do my own bushwhacking back down the mountain rather than try to retrace our previous steps. We took our time and I followed elevation lines to make it slightly less steep. Since I took a more south westerly descent, when we reached the parkway, we had to hike north to reach the original trailhead.
The rest of the hike was totally uneventful and incredibly fun. The weather held and we took in the views, the wildlife, and invaluable father/daughter time.
That was the first strenuous hike I had done in months due to my ankle, so let’s just say I was feeling “spent” after our 6.5 hour adventure taking in 2,000 feet (610 meters) of elevation to the summit.
I knew it was bad when I even dreaded walking upstairs to take a shower. I think I remember telling my wife, “I’m never building a house with stairs again!”
More SOTA!
Now that I’ve got Lane Pinnacle in the books, I’m ready to start hitting the summits! I’ve got a lot of pent up SOTA energy!
My goal is to activate a total of ten this year. That may sound like a modest number, but since at this point I’m less interested in “drive-up” summits, it’s more difficult to fit SOTA summits into my schedule than, say, typical POTA/WWFF parks.
In fact, I’ve already plotted my next SOTA activation and hope to do it within the next couple of weeks. It’s also a meaningful (to me) summit.
How about you?
Are you a SOTA activator or are you planning your first SOTA activation soon? Please comment!
I’ve received numerous questions from readers and viewers about the computer I use for logging POTA contacts in the field and realize that I have neglected to highlight it even though it’s an integral part of my field kit when space allows.
The Microsoft Surface Go
The Surface Go is essentially a touch-screen Windows 10 tablet with a magnetically-attached keyboard (typically sold separately). It has a fold-out back stand and when the keyboard cover is closed, it stores flat (and is incredibly thin).
In short: I absolutely love the Surface Go and it is an example of the one time when an impulse purchase actually paid off!
In 2019, on the way back from the Huntsville Hamfest, I stopped by the Unclaimed Baggage Center in Scottsboro, Alabama. This center has a wide variety of used portable electronics at discount prices. I felt pretty lucky when I discovered a like-new condition Microsoft Surface Go tablet and keyboard with original charger for $190.
The catch? This unit (like all of their units) was used, had no documented user history, and I had no idea if it would be noisy (in terms of RFI/QRM) when paired with or near my radios.
Another issue was that the only data port on the tablet is a USB-C. But I grabbed a small USB-C to standard USB 3.0 dongle (for $2!) and took a risk that it would work with my portable SDR receivers and transceivers. In short: it did.
One huge bonus? The Surface Go has a dedicated power port. So many other tablet options do not as they’ll use their one data port for both power and data.
I immediately ordered a DC power cable with a standard car lighter plug. In the field, I can hook the Surface Go up to my LiFePo4 battery and power it for ages. Even a modest solar panel will also charge it in short order.
The Surface Go paired with my Airspy HF+ Discover SDR and a homebrew noise-cancelling passive loop antenna. A portable hotel DXing setup!
While this Surface Go is no CPU powerhouse (I’m guessing mine is a first generation–there are faster generations available) it’s fast enough to run my logging software–N3FJP’s Amateur Contact Log–and to even make spectrum recordings with my SDRs up to 2 MHz in bandwidth without stuttering.
The only noise it seems to inject into the mix is a little RFI when I touch the trackpad on the attached keyboard and this is typically only centered around the 20 meter band. That can often be solved by simply moving the tablet further away from the radio or using the touch screen rather than the trackpad.
The Surface Go has ample horsepower to run applications like WSJT-X flawlessly and, as I mentioned, I’ve even made numerous spectrum recordings which is much more demanding on CPU resources. Indeed, I even wrote a piece about portable SDR DXing with the Surface Go for The Spectrum Monitor magazine–click here to read the full article on the SWLing Post.
I recently paired the Surface Go with my IC-705 and made FT8 contacts confirming that it’ll make for a simple digital mode setup in the field.
I love the Surface Go and will plan to purchase another when this one eventually dies. I’ve found it much more useful than my iPad, Android tablet, or even a full sized laptop. When I’m back to doing ultralight one-bag air travel, the Surface Go will be my travel PC as well.
Where to buy?
Of course, you can find the latest releases of Surface Go at retailers like Amazon.com (affiliate link), or any big box electronics retailer.
If you’re willing to take your chances on a used one, like me, you might check out eBay.com or better yet, Swappa.
Of course, if you can make a detour to Scottsboro, Alabama, check out the Unclaimed Baggage Center!
I recently published my full review of the Icom IC-705 over at the SWLing Post. If you’ve been following QRPer for long, you’ve likely seen this little radio in action.
If you’d like to read the full review, which was originally posted in the February 2021 issue of The Spectrum Monitor magazine, click on this link to visit the SWLing Post.
Last week, we had a glorious break in the weather–it felt almost spring-like.
On my way back home after visiting my parents, I decided I would take in a quick afternoon hike. I originally planned to go to one of my favorite county parks, but I also had a hankering to get on the air and that park wasn’t a part of the POTA network.
Tuttle Educational State Forest (K-4861)
I decided to stop by Tuttle Educational State Forest (K-4861) instead and make February 19, 2021 not only a hiking day, but a Parks On The Air day. Tuttle sports both excellent sites for POTA and a nice little trail system.
I decided to play radio first then go on a hike, so I pulled out an antenna that I thought would give me quick deployment and pack-up: the CHA MPAS Lite.
I also remembered that a reader recently asked if I would include the deployment of the CHA MPAS Lite in one of my real-time, real-life activation videos. So I did just that!
Deployment was quick and the mAT-705 Plus ATU did a fine job finding matches on the CHA MPAS Lite.
I started calling CQ on 40 meters and worked quite a few stations in short order. When the first batch of eight chasers was worked, I moved up to the 20 meter band and started calling CQ. My hope was that I could work at least a couple of stations on 20 meters then pack up and go for a hike.
I started calling CQ on 20 meters and was quickly rewarded six additional contacts.
Without a doubt–if this wasn’t completely obvious in my video–the highlight was working my friend John Harper (AE5X) in Texas. I’ve known John for years now and have followed his excellent blog but we’ve never managed to catch each other on the air!
Turns out, John was using his recently unboxed Icom IC-705 as well. Click here to check out his post which includes a mention of this very activation. In addition, check out his thoughts after taking the IC-705 (all amped-up with the KPA-500) on the ARRL CW contest that weekend.
Another highlight was logging CU3BL in the Azores again. To me, it’s still mind blowing that 5 watts can reach out that far. Here’s a QSOmap of the activation (click to enlarge):
In total, I logged 14 stations with 5 watts and a vertical in very short order, leaving me a full hour of hiking time! Mission accomplished!
Video
Here’s a real-time, real-life video of the entire activation:
The hike afterwards was just what the doctor ordered, too. I’ve mentioned before that my ankle has been healing nicely after twisting it badly in December. This hike was an easy one and gave me a chance to properly test my ankle before the (epic-to-me) SOTA activation I planned with my daughter, K4TLI the following week. (More on that in a future post!)
Here are a few photos from the Tuttle hike:
If you ever find yourself at Tuttle Educational State Forest doing a POTA activation, make time to take in a hike as well. It’s a gentle hike and even the long loop can be completed within an hour at a very leisurely pace.
Thanks for reading this field report and please comment with your experiences on the air and in the great outdoors!
Last week, I squeezed in two activations on the afternoon of February 17, 2021 to test out the MFJ-1984LP end fed half wave antenna that MFJ sent me to evaluate.
The first park was Lake James State Park where I paired the MFJ-1984LP with my Icom IC-705 (click here to read the report and watch the video). The second was South Mountains Game Land where I paired it with the Elecraft KX2.
In both instances, I did not use an ATU because the EFHW is resonant on the bands where I operated. I bypassed the internal ATU in my KX2 and, of course, the IC-705 has no ATU.
I’ve got a very busy few days ahead including a presentation tomorrow at the Virtual Winter SWL Fest (the topic being QRP transceivers). In lieu of writing a full field report, I’ll simply share the (partial) video I made at the activation.
I’ll admit it, I was not on my “A Game” at that activation. Not only did I forgot to press the start button on the camera, but I also struggled copying CW more than I usually do. I had a lot on my mind that afternoon, though, and really felt pressed for time.
I don’t mind sharing this experience, however, because we all have days like these.
I’ve been a ham radio operator since 1997, but until 2016, I had never purchased a pre-made portable antenna–I had always built my own.
During the 2016 NPOTA (National Parks On The Air) program, however, I purchased the EFT Trail-Friendly end fed 40, 20, and 10 meter resonant antenna and it quickly became my favorite field antenna. I found that it was simply built better than I could have built a similar antenna at home.
Pre-made antennas, though, come at a cost. Most time-tested, trail-friendly, portable antennas will typically set you back $90 US or more. You can make similar antennas much cheaper especially if you already have some of the parts (wire, toroids, RF ports, enclosures, etc).
That price point is very attractive because I believe if I built this antenna myself and needed to buy new parts, I might easily sink $20-25 in it.
Most MFJ products are manufactured in the USA and the company has an incredibly extensive and diverse selection of items in their catalog. Why I had forgotten they also sell antennas is a mystery to me.
MFJ is well-known for offering products that are basic, affordable, and accessible (they’re available directly from the manufacturer and through most major radio retailers across the globe). I wouldn’t expect their antennas to be engineered like Chameleon Antenna, for example, but I would expect them to work well and get the job done.
I know the folks at MFJ and (in the spirit of full disclosure) they even sponsor QRPer.com, so I reached out to them and asked if I could evaluate their MFF-1984LP which is their most affordable field wire antenna. They kindly sent one my way and I took it to the field last week.
I should add here that MFJ welcomes critical reviews, which is one of the reasons I asked them to be a sponsor. That and, well before they knew me, I was an anonymous customer and they repaired my MFJ roller inductor tuner for free a good two or three years after the warranty expired. My experience with MFJ has only been positive.
First impressions
The antenna looks exactly like the product photo in their catalog (see above).
For a field antenna, the coil enclosure is a little on the large side (especially compared with my EFT Trail-Friendly), but it’s still very backpack-able. Knowing MFJ, they kept costs at bay by using one of their standard enclosure boxes for this antenna.
The enclosure also has an open grill to allow the coil to dissipate heat (see above). I found that a bit surprising since the core is so large inside, but I assume some heat must be generated if you’re running 50% duty at a full 30 watts (the maximum rated power). The matching network impedance ratio is 49:1, so there will be loss and heat.
The 66 foot radiator wire has a dark jacket that glides nicely over tree limbs and doesn’t encourage tangling when unwinding.
The end insulator is made of a thin plastic/composite material that is lightweight and shaped so that it won’t snag on tree limbs.
To the field!
Hey–the proof is in the pudding, right? Let’s put this antenna on the air and make a real-time video of the activation!
Last Wednesday (February 17, 2021), there was a break in the weather so I made a detour to Lake James State Park (K-2739) en route to visit my parents for a few days. I left the house without deciding what park to activate, but picked Lake James because I knew I would have access to tall trees and my pick of operating locations.
Deploying the MFJ-1984LP is no different than deploying any other wire antenna. It was super easy using my arborist throw line. That thin, rounded end insulator did certainly glide through the tree branches with ease. No hint of snagging.
On The Air
I connected the antenna directly to my IC-705 with no ATU in-line. Hypothetically, I knew this antenna should be resonant on 20 meters where I planned to start the activation.
Keep in mind that pre-made antennas are often designed to be a tad long and need to be trimmed so the operator can tweak the resonant point for their preferred spots on the band. Since I tend to use the lower part of the band for CW, I typically leave my antennas with a resonant point somewhere on the upper side of the CW portion of the bands. It’s not super critical for EFHW antennas because they tend to have ample bandwidth to give a full meter band good matches.
I had not trimmed the MFJ-1984LP, but decided it should be “resonant enough” for my purposes.
I found a clear frequency on 20 meters and checked the SWR. It was spot on at 1.3:1 on 14,031 kHz! Woo hoo!
I started calling CQ and collected several stations in short order despite the poor propagation that day.
I then moved to the 40 meter band and discovered the antenna also gave me an excellent match there. I started calling CQ POTA and was rewarded with a steady stream of contacts.
I imagine I could have racked up a lot of contacts at that activation, but I made up my mind that I wanted to fit in another quick activation afterwards, so cut it a bit short.
In the end, here’s a map of my 18 contacts made in 26 minutes of on-air time:
Not bad for five watts and a wire!
Video
I made a real-time, real-life, no edit video of this activation which starts shortly after I deployed the MFJ-1984LP and ends a few moments after my last QSO. Against my better judgement, it includes all of my mistakes (including my inability to form the number 4 that day!):
No antenna is perfect and each time I start a product review, I keep a list of pros and cons. Here’s my list for this EFHW antenna:
Pros:
Very affordable at $49.95
Effective: results so far have been excellent
EFHW is a proven field antenna design and resonant on several bands
No coil on the radiator to snag in trees (see con)
Backed by MFJ warranty
Purchase supports US manufacturing
Cons:
Bulkier than comparable low power field antennas
No built-in winder (MFJ should consider altering the design to include one!)
Radiator is 66 feet long since there is no in-line coil to electrically shorten the length (see pro)
End insulator is effective, but feels slightly flimsy
In the end, there’s no magic here: the end fed half wave is a time-tested, proven antenna design and the MFJ-1984LP delivers. In terms of performance, I couldn’t be more pleased with it right out of the box. This isn’t a military-grade antenna, but it should last for years with proper use.
POTA activators that have access to trees in the field will appreciate the MFJ-1984LP. I should think you could also make an effective “V” shaped antenna if you have a telescoping support that’s 29-33′ tall.
I’m not so sure the average SOTA operator would find this antenna design as convenient–especially on high summits where you’re near or above the tree line. It could be difficult deploying a 66′ wire. That and this antenna is bulkier than other designs. If you’re backpacking it in, you typically want the most compact solution possible (this is where the EFT Trail-Friendly, Packtenna, and QRPguys designs really shine).
I will certainly employ the MFF-1984LP regularly–especially on days with less-than-stellar propagation. I think this might become a go-to antenna for the MTR-3B, LD-11, and IC-705 since all of them lack an internal ATU.
If you’re looking for an affordable, effective wire antenna, I can certainly recommend the MFJ-1984LP.
Do you have an MFJ end fed half wave antenna? What are your thoughts?
I thought I would drop you a line to say how much I am enjoying your posts – so much so I have subscribed.
I came across your posts while researching POTA (it is now available to hams in the UK and I have signed up for it). […]Most of my QRP sessions are pedestrian mobile but as I get older (I’m 82) I think they will become more /P.
What is quite different for me is that almost all of my operating is done from salt water marsh areas – so no trees at all for antenna supports. Of course, there are ways of getting around this problem by using masts with verticals, and mag loops. Using the readily available salt water amplifier, I’ve had quite a bit of DX success with SSB QRP. I’m now busy getting my CW up to scratch to get along better with POTA.
Here is a link to a YouTube video I made last year which shows a couple of my type of activity. It was made for a presentation so it is a bit long at 30 minutes:
73. ( or maybe that should be 72?). and Keep safe
Tom G0SBW
Thank you, Tom! Brilliant presentation! Thank you so much for sharing (although you’re making me homesick for the UK). I love the idea of the sea water amplifier effect and have employed that in the past to my advantage. I wish the coast were a little closer to my QTH, but sadly it’s a good 4.5 hour drive at minimum.
Thank you and please let us know if you post new videos.
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The weather is gorgeous here in the mountains of western North Carolina so I’m plotting a SOTA activation of Elk Knob (W4C/EM-005) and Elk Knob State Park (K-2728) or WWFF (KFF-2728).
