Everyone defaults to 20 meters for POTA. It's crowded, competitive, and honestly…boring at this point. So at Alafia River State Park (US-1829), I did something different: I skipped 20 meters entirely and focused on 12 and 15 meters instead. The result? A 72% DX rate on 12 meters, contacts to 10 different countries in under an hour, and some of the best propagation I've experienced from a Florida state park. All at 10 watts.

Let me show you why 12 meters is the band everyone's ignoring while they pile up on 20m.

Why I Skipped 20 Meters Entirely

Look, I get it. 20 meters is the default POTA band. It's where everyone goes, it's where the hunters expect you to be, and it's reliable. But reliable also means crowded, and crowded means QRM, pile-ups, and fighting for frequency space with a dozen other activators doing the same thing.

We're near solar cycle maximum right now, which means the higher bands (10m, 12m, and 15m) are performing like 20m used to during previous cycles. But most POTA activators haven't adapted their band strategy yet. They're still automatically going to 14.061 MHz CW or 20m SSB without even checking what's happening higher up in frequency.

So today at Alafia River State Park with Chas (who was also activating), I made a conscious decision: skip 20 meters completely. Start with 12 meters, see what happens, then move to 15 meters. If those bands produced nothing, I could always drop to 20m as a backup. But I had a feeling 12m was going to surprise me.

Spoiler: it absolutely did.

The Alafia River State Park Setup

Alafia River State Park is designated US-1829 for POTA and it's located in Lithia, Florida, just southeast of Tampa. The park has a really nice covered pavilion with picnic tables, bathrooms, and RV camping area with good tree coverage. Spanish moss everywhere, typical Florida scrub vegetation, and plenty of tall trees for wire antennas.

Chas and I both set up under the pavilion, him at one table, me at another about 20 feet away. This gave us enough separation to avoid too much RF interference between our stations, though we still had to coordinate who was transmitting when to avoid stepping on each other.

My antenna setup was a 65 foot random wire thrown up into one of the larger trees near the pavilion. I'm guessing it got maybe 30-35 feet up into the branches, which isn't spectacular but it's what I could reach with the available trees. The radiator came down to the tuner that is tied up high on the corner column of the pavilion. I also used a larger set of radials so the antenna would be more likely to work on 40 meters. But that didn’t seem to matter as I would come to find out…

Now here's where I need to be honest about the equipment struggles today... I am not immune to making common, simple mistakes and here are a couple from today that I actually did. I started out on 40 meters and wanted to work some stations there since it was supposed to be about 9:30 when I would be starting the activation. Well, that isnt how it went at all. I started out usng the Elecraft T1 antenna tuner with the sBitx. This turns out to be a problem though, you see JJ and the team added a high SWR protection script in the new code and if the SWR goes over 3 to 1 then it automatically turns the output power all the way down to prevent it from killing the finals. Well, it seems that as the Elecraft T1 goes through the tune process, the SWR will rise above 3:1 and this shuts off the RF from the radio and the tuner cant finish the tune…

But before I figured this out, there is another small detail… The sbitx tune feature is simple, hit a button and it will “dead key” the radio and hold that for a time. Both the level of power and the time are adjustable in the menu so I set it to 20 seconds and the level to about 5 watts as the T1 is a QRP tuner. The Elecraft T1 can tune about anything you want to use for an antenna to a usable SWR so I was confident in the little tuner. Soooo, I would hit the tune button on the sBitx then sprint over to the tuner and hit the button on it to activate the tune feature on the tuner. The tune timer on the sBitx would finish right as I would get back to the radio. I would check it with a Morse code key in CW mode and the radio would and SWR of 5 or 6 to 1 and the output power would be turned all the way down… I would turn the power back up to 5 watts and then try again. I performed this comedy act a few more times before seeing the “SPLIT” button was on and that the B VFO was on 15 meters!

Armed with this knowledge, I confidently turned off split and immediately found myself back to the HIGH SWR alarm on the sBitx… No matter what I did, as soon as the Elecraft T1 would start the tune cycle, it would trip the radio SWR protection feature and this would turn off the transmitter in the radio and by extension, also shut down the tuner mid-tune… Frustrated by this revelation, I found myself getting the Penntek TR-35 out of the bag and using it a couple of times to find out it was doing the same thing! After spending 30 minutes doing this, I finally threw in the towel and just went out to the truck and got my MFJ941 manual tuner and the nanoVNA and connected it in place of the Elecraft unit.

But the fun doesn’t stop here! I could not get this one to tune either! What was going on here!!! Well, it turns out that I had at some point switched the MFJ’s antenna selector from wire to the next antenna port and didn’t check it so I was effectively tuning the SO239 connector on the back of the tuner to 40 meters!!! Good grief, this has been a mess! Once I figured this out and set the tuner to the correct antenna, it tuned up almost instantly. This whole debacle took over an hour to sort out, so if you think you are not very good at POTA setup and breakdown because you see these “old pros” doing it effortlessly, just know we are not immune to errors and odd problems either…haha.

Back to the rest of the activation report…

Radio-wise, I was running the sBitx v3 at 10 watts maximum. For those not familiar with QRP POTA operations, 10 watts is pretty normal power level, it is about 1/10th of what most people run. But it's what the sBitx puts out reliably on all bands and that is well within the Elecraft T1 tuner’s power handling capability (remember, I had started with this tuner), and honestly, with propagation conditions this good, power isn't the limiting factor anyway.

I had my Dell laptop for logging contacts in HAMRS (the POTA logging software), a foldable keyboard because typing on a laptop in bright sunlight is annoying, a CW paddle, and the usual field gear—water bottle, clipboard with paper log backup, etc. Pretty standard POTA kit.

12 Meters: The Band Everyone's Ignoring

I fired up the sBitx on 12 meters around 1600 UTC (11:00 AM local time) and started calling CQ on FT8 at 24.915 MHz. Within seconds, I was getting responses. And not just USA stations, I'm talking Greece, France, Netherlands, Spain.

The first contact was PB2A in the Netherlands at 1620 UTC. Signal report was strong both directions. Okay, that's promising! 12m is open to Europe!

Next contact: EA5KB in Spain at 1622 UTC. Also solid copy.

Then SV1GYN in Greece at 1626 UTC, followed by SV8EFJ (also Greece) at 1631 UTC.

This is when I realized 12 meters wasn't just "open" to Europe it was absolutely on fire! In the next hour, I worked:

• Three stations in Greece (SV1GYN, SV8EFJ, SV7FDA)

• Two stations in France (F4IFO, F6BIA)

• Spain (EA5KB)

• Netherlands (PB2A)

• Portugal (CT1FIU)

• Czech Republic (OK1DTC)

• Poland (SP2GCJ)

• Plus Brazil, Dominican Republic, and Canada as bonus DX

That's 10 different countries in less than an hour on 12 meters. With 10 watts. From Florida. To put this in perspective: of the 18 contacts I made on 12m, 13 were DX (non-USA). That's a 72% DX rate.

When was the last time you heard anyone report a 72% DX rate from a POTA activation? This is why solar cycle maximum matters, and this is why you should check 12 meters before defaulting to 20m.

The propagation held solid from about 1606 UTC until around 1657 UTC when it started to fade. That's nearly an hour of wide-open conditions to Europe from a Florida state park with a wire antenna and 10 watts. Just... chef's kiss (I saw someone else use this term and it absolutely applies here, lol). This is what amateur radio is supposed to be.

15 Meters: The Reality Check

After 12 meters started fading around 1700 UTC, I switched to 15 meters to see if the party was still going. Spoiler: it was not.

15 meters wasn't dead as I made 10 contacts between 1738 and 1748 UTC but the DX had evaporated. Out of those 10 contacts:

• 8 were USA stations (domestic)

• 2 were Germany (the only DX and were way down in the noise)

That's a 20% DX rate on 15m compared to 72% on 12m. The contrast was striking and immediate. As soon as I moved from 24 MHz to 21 MHz, I went from European pile-ups to mostly USA stations.

This isn't a knock on 15 meters, it's just propagation and we all know how the sky likes to mess with out brains…. By late afternoon (1730-1800 UTC), 15m was transitioning from long-skip DX to shorter-distance USA contacts. Which is fine if you need domestic QSOs to reach your 10-contact activation threshold, but if you're chasing DX, 12m was clearly the better choice earlier in the day.

The lesson here: timing matters just as much as band selection. 12m was the star of the show from 1600-1700 UTC. 15m was better for domestic contacts after 1730 UTC. If I'd started on 15m at 1600, I probably would've missed the entire European opening on 12m.

The 40m and 10m Bookends

I also made a few contacts on 40 meters and 10 meters to round out the activation, mostly just to see what those bands were doing.

40 meters (4 contacts): Mostly short-skip USA stations. Nothing surprising here as 40m in the afternoon is for regional contacts. It works, it's reliable, but it's not going to give you Greece with 10 watts and a random wire thrown over a tree branch.

10 meters (4 contacts): Had a brief opening but nothing like 12m. A couple of USA stations and some Caribbean/Central America. 10m can be spectacular during solar max, but today it was just "okay." You could just watch the stations fade in and out on the band here on the waterfall…

Final tally for the activation:

• Total: 36 QSOs

• 12m: 18 QSOs (50% of total) - 72% DX rate

• 15m: 10 QSOs (28% of total) - 20% DX rate

• 40m: 4 QSOs (11%)

• 10m: 4 QSOs (11%)

• Modes: 50% CW, 50% FT8

Twelve meters did half the work and delivered nearly all the DX. That's the story.

Operating With Chas: Multi-Operator Coordination

Chas was set up about 20 feet away at another picnic table under the same pavilion, also activating US-1829. We coordinated our operating so we weren't transmitting on top of each other. He started on 30 meters since I was on 40 and after I finished on 40, I jumped all the way to 12 meters so he could move slowly up the band through 20 then 17 and even 15 before he got his 60 and called it a day. He runs 50 watts currently and has great success with it, but the QRP bug has bitten him and he is going to be turning down the power dial soon… or so he says… haha

This coordination is important for multi-operator POTA setups. You can absolutely operate two stations simultaneously from the same park, but you need enough physical separation to avoid RF interference (20-30 feet minimum), and you need to pay attention to who's transmitting when. If both operators key up at the same time on different bands, you'll hear it immediately as front-end overload or mixing products.

It actually works out pretty well though, you have someone to talk to between contacts, you can share band information ("hey, 12m is wide open to Europe right now"), and if one operator needs help with something technical, the other person is right there. Plus it makes the drive more enjoyable when you're carpooling to the activation site (which we didn’t do this time, but this point is still valid). All of this and it is just plain fun to hand out with a like minded person for a while and just have the fellowship.

Chas and I have done several multi-op activations now and we've got the coordination pretty well figured out. As long as you're mindful of the RF environment and don't step on each other's transmissions, it's actually a really fun way to do POTA.

Lessons for Other POTA Activators

If you take away one thing from this activation, let it be this: check 12 meters before you default to 20 meters.

Most POTA guides and YouTube videos focus on 20m and 40m because those bands are "reliable." And they are! You can almost always make contacts on 20m or 40m during a POTA activation. But reliable isn't the same as optimal…or fun..

We're at solar cycle maximum right now (or very close to it), which means the higher bands—10m, 12m, and 15m—are performing better than they have in a decade. But those bands are only open during certain times of day, and you have to actually check them to know.

Here's my recommended POTA band strategy for 2025-2026:

1. Start with 12 meters during daylight hours (1500-1900 UTC / 10 AM - 2 PM local) Check FT8 on 24.915 MHz or CW around 24.900-24.910 MHz. If you see European or South American stations, stay there. Don't move until the band fades.

2. If 12m is dead, try 15 meters next Same time window. 15m opens a bit earlier and stays open a bit later than 12m.

3. If both higher bands are quiet, then drop to 20 or 17 meters You haven't lost anything by checking 12m and 15m first, it only takes 5 minutes to scan FT8 and see if there's activity. But if you skip straight to 20m, you might miss the entire European opening on 12m.

4. Add 40 meters in the evening or early morning 40m is your regional workhorse. Use it to fill in USA contacts if you need to reach your 10-QSO activation threshold.

5. Keep an eye on 10 meters during solar max 10m can be absolutely bonkers during cycle peaks. Sometimes it's dead, sometimes it's a highway to Japan. Worth checking.

Key point: Solar cycle conditions change everything. The band strategy that worked in 2019 (solar minimum) doesn't apply in 2025 (solar maximum). Adapt your approach, check the higher bands first, and you'll be rewarded with DX that most POTA activators never experience because they're stuck in the 20m/40m routine.

The "Skip 20m" Strategy: Does It Always Work?

Okay, let's be realistic here. Will 12 meters always deliver 72% DX rates? No, of course not. Propagation is fickle, solar conditions vary day to day, and sometimes the higher bands are just dead. The sun giveth and the sun taketh away.. lol.

But here's the thing: you don't know until you check. And checking takes 5 minutes to tune to 24.915 MHz on FT8, watch the waterfall for 1 minute, and see if you're decoding any DX stations. If it is a yes, start calling. If no, move down to 20m like you were going to do anyway.

The worst-case scenario is that you "waste" 5 minutes checking a dead band and then go to 20m as your backup. The best case scenario is that you find a wide open band to Europe with zero QRM and work 10 countries in an hour with 10 watts.

I'll take that bet every time.

Also worth noting: 12 meters is way less crowded than 20m. On 20 meters during a weekend, you're competing with dozens of other POTA activators, contest stations, and regular QSOs. On 12 meters? Most of the band is empty. You can call CQ on an open frequency without worrying about stepping on someone else, and when DX stations hear you, you're often the only POTA station they can work on that band.

Less QRM, better propagation, higher DX percentage, what's not to love?

Alafia River State Park: Worth Activating?

As for US-1829 specifically: yeah, it's a nice park. The covered pavilion makes POTA operations comfortable even in Florida weather (sun, rain, whatever), the facilities are clean and modern, there's RV camping if you want to stay overnight, and the trees provide decent antenna support.

It's about 30 minutes southeast of Tampa, so it's accessible if you're in the area. Not a destination park like some of the big state parks, but definitely worth activating if you're looking for a Florida POTA location that isn't mobbed with tourists.

The tree I used for the 65-foot random wire was a large pine tree of some variety with good height and thick branches for support. Spanish moss everywhere, typical Florida landscape. Got the wire up to maybe 30-35 feet, which is serviceable if not spectacular.

One note: there were RVs parked in the camping area about 100 feet from the pavilion, so we weren't completely isolated. Nobody bothered us though, and one RV owner came over to chat about amateur radio for a few minutes. Friendly folks just out camping.

Best time to activate: Late morning to early afternoon (local time) if you want to catch the 12m European opening. Earlier in the day if you want 40m to be productive for longer distance USA contacts.

Facilities: Bathrooms, covered pavilion with tables, RV camping, paved parking. Bring your own food/water.

Antenna options: Plenty of trees for wire antennas. A vertical would work too if you prefer.

Final Stats and Conclusion

Let's wrap this up with the numbers:

Total QSOs: 36

• 12 meters: 18 QSOs (50% of total) - 72% DX rate

• 15 meters: 10 QSOs (28%) - 20% DX rate

• 40 meters: 4 QSOs (11%)

• 10 meters: 4 QSOs (11%)

DX Worked: 12 different countries

• Greece (3 QSOs)

• France (2)

• Germany (2)

• Brazil (2)

• Plus Spain, Netherlands, Portugal, Czech Republic, Poland, Canada, Dominican Republic, US Virgin Islands

Modes: 50% CW, 50% FT8 Power: 10 watts QRP Antenna: 65-foot random wire at about 30-35 feet

The takeaway: 12 meters is the secret weapon for POTA DX during solar cycle maximum. While everyone else is fighting on 20 meters, you can have an entire band nearly to yourself with better propagation, less QRM, and DX rates that would make any contester jealous.

So next time you're setting up for a POTA activation, do me a favor: check 12 meters first. You might be surprised what you find.

Thanks and get your radio out!

Have you worked DX on 12 meters during POTA activations? What bands are you checking during solar max? Drop a comment! I'd love to hear what's working for you.

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QRP/Portable Radios:

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2. TruSDX transceiver 5-Band usdx Multimode QRP

3. Xiegu X6100 HF Radio Transceiver

Antennas & Tuning:

1. MFJ-1979 17ft Telescopic Whip Antenna

2. End Fed Half Wave Antenna Kit (EFHW 40m-10m)

3. NanoVNA V2 Plus 4 Vector Network Analyzer

4. JYR8010-150W End Fed Half Wave Antenna

CW Equipment:

1. Putikeeg Mini Morse Code Key - CW Dual Paddle

2. XIEGU VK-5 Mini CW Straight Key

3. HAMCUBE Mini Morse Code Trainer Kit

Power & Accessories:

1. 12V 100Ah LiFePO4 Battery

2. 14.6V 10A LiFePO4 Battery Charger for 12V Lithium Iron Phosphate Batteries

3. HKS Ratchet Powerpole Crimping Tool 31Pcs Kit

Organization & Transport:

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2. Naturehike Tactical Camping Table

BONUS ITEMS

1. RigExpert AA-650 Zoom Antenna Analyzer

2. BNC Cable - 50FT RG58 50 ohm

3. Super Antenna MS135 SuperWire

4. Heil Sound Pro Set 3 Studio Headphones with Closed Back

5. ARRL Antenna Book for Radio Communications 25th Edition

73, David / WK4DS

Activating Hillsborough River State Park (US-1878) with a friend is one thing, making over 100 contacts in a single afternoon using QRP power and a homemade wire antenna is another. That's exactly what Chas (NA2B) and I accomplished using a 65-foot EFHW antenna strung 35 feet up in the Florida pines, a ground mounted vertical, his FT891, a Penntek TR-35, and my sBitx v3 running just 10 watts (Chas was running 50 watts today though). This wasn't just a Parks on the Air activation, it was a field test of how well minimalist gear performs in a multi-operator setup, complete with lessons learned about antenna placement, front-end overload, and working around the Florida sun.

Hillsborough River State Park: Location and Access

Hillsborough River State Park sits about 12 miles north of Tampa and makes for an excellent POTA location. When you arrive at the entrance, the first thing you're greeted with is a ranger station where you pay your four dollar entrance fee. Yes, you read that right—four dollars for the whole day. This is a really nice park with extensive hiking trails, a large loop perfect for biking, and the Hillsborough River running through it where visitors can enjoy boating and fishing.

There's plenty of infrastructure here for families… playgrounds, picnic areas with covered pavilions, and well-maintained facilities. For POTA activators, the key feature is the abundance of tall trees throughout the park, making it ideal for wire antennas. The main loop road has several pull-off areas with picnic tables that work perfectly as operating positions. Cell phone coverage is good throughout the park, which helps for spotting yourself on the POTA network and coordinating with other operators.

After paying the entrance fee, I drove around the loop a couple of times while talking to Chas on the phone, trying to figure out where he'd set up. Here's the kicker, though, he decided to drive over to my location so we could operate together from adjacent tables. This gave us the multi-operator experience but also taught us some valuable lessons about antenna placement and RF interference, which I'll get into later.

The Antenna Setup: 65-Foot EFHW in the Trees

Today saw the use of a 65-foot long wire antenna, an End-Fed Half-Wave from Reliance Antennas. This antenna isn't rated for high power, so I held all of my transmit power to 10 watts or less throughout the day to prevent potential damage to the matching transformer. We deployed it using throw lines to get it about 35 feet up into a large oak tree, then Chas loaned me his 10-foot push-up pole and stand to support the feed point end of the antenna and get it a little higher off the ground as well.

I believe this additional height aided propagation dramatically. Getting the whole 40-meter EFHW that high off the ground, with the far end even higher in the tree, made a noticeable difference compared to previous activations where I'd run antennas lower. I made many contacts all over the United States, into Mexico, and even worked some European stations on the higher bands with just 10 watts. That's the magic of getting a wire antenna up high… height matters more than power in many cases.

The EFHW is resonant on 40m, 20m, 15m, and 10m without needing an antenna tuner, which keeps the station setup simple. I specifically avoided the WARC bands (30m, 17m, 12m) during this activation because the antenna isn't cut for those frequencies and I didn't want to deploy a tuner. Sometimes keeping things simple is the better approach, especially when you're testing equipment and learning how gear performs in the field.

Radio Gear: Penntek TR-35 and sBitx v3 Performance

Once I had the antenna set up and tested, I decided to use the Penntek TR-35 transceiver first. I really enjoy using this tiny little radio, the CW break-in is phenomenal, and the keying from the internal keyer circuit works flawlessly. It's a true QRP radio putting out 5 watts maximum, and I've made some additional accessories for it to turn it into a more complete field station. But even as it sits stock, it's a wonderful little radio that's almost impossible to damage from bad antennas or other field mishaps. Plus, it just works really well at making contacts.

I started on 40 meters and after working through a good run of stations, I decided to move up to 20 meters where activity was heating up. Chas started on 30 meters and worked his way through the WARC bands, eventually ending up on 10 meters where we made a park-to-park contact with each other from 30 feet apart. That was pretty funny, logging a P2P (park-to-park) contact when we could literally see each other across the operating area. I turned my output power all the way down, it showed literally zero output and I was still booming into Chas’ radio!!! Haha!

After finishing my run on 20 meters with the Penntek TR-35, I swapped it out for my sBitx v3. I throttled the output power on the sBitx for two reasons: first, to prevent damage to the antenna which isn't rated for high power, and second, to keep from running down my battery too quickly. I'd brought an 8 amp-hour LiFePO4 battery, and if I'd run the sBitx at full output power I could have easily depleted that battery in an hour or so, especially running FT8 on the lower bands which requires more transmit time. As it turned out, limiting power to 10 watts kept the battery happy all day and I still had plenty of capacity left when we packed up.

The first thing I did with the sBitx was get on 15 m and attempt to make contacts there on FT8. This went pretty well and I made several contacts on 15 m before moving to 10 m to see what I could make on that band. The reason I skipped the WARC bands today was because this antenna is not resonant on any bands other than 40, 20, 15, and 10 m. So I stayed on those bands as I did not want to try and deploy an antenna tuner as well.

Contact Statistics:

Between Chas and me, we logged 118 total QSOs during the activation! 66 in my log and 52 in Chas's log(I did operate a little longer than him and we were not in a race either). Here's my detailed breakdown:

David's Stats (WK4DS):

• 40 meters: 5 QSOs (all CW)

• 20 meters: 50 QSOs (all CW)

• 15 meters: 1 QSO (CW)

• 10 meters: 10 QSOs (8 FT8, 2 CW)

Total: 66 QSOs

• CW: 58 contacts

• FT8: 8 contacts

Geographic Breakdown:

• Domestic (USA): 56 QSOs across the continental United States

• DX (International): 10 QSOs reaching six countries:

  • Spain: 2 contacts (EA4T, EA5BCO)

  • Germany: 2 contacts (DL4JCP, DJ9HX)

  • Mexico: 2 contacts (XE2BCS, XE2IF)

  • Austria: 1 contact (OE2IGP)

  • Canada: 1 contact (VE1ZZ)

  • Poland: 1 contact (SQ9JS)

  • Czech Republic: 1 contact (OL26WRTC - special event station)

NA2B Chas's Stats: Chas logged 52 QSOs throughout the day, primarily working 30m, 17m, and 10m (he might have done more but that is all I know of) while I focused on 40m, 20m, 15m & 10m. This band coordination helped us avoid stepping on each other while maximizing total contacts for the activation.

Combined Performance: For QRP power (my 10 watts maximum and Chas running 50 watts) and simple antennas, 118 total contacts in one afternoon represents excellent POTA performance. The 10 DX contacts on 10 meters with just 10 watts and the EFHW antenna particularly stand out, working Spain and Germany on FT8, then switching to CW for additional European contacts, demonstrates what's possible when propagation cooperates and you get your antenna up high.

Twenty meters was the workhorse band, delivering 50 contacts in my log alone. The concentration of activity on 20m CW (14.061 MHz) is typical for POTA activations, as this is where most hunters are listening for parks. The handful of 40m contacts at the start of the activation caught the tail end of daytime propagation before that band shifted to primarily short-skip domestic contacts.

Operating Challenges - Sun and Glare

Both Chas and I learned pretty quickly that the Florida sun was not our friend today, even though the temperature was pleasant. The glare from the sun continuously made us struggle to see our displays and adjust settings. I think Chas literally just toughed it out and lived with squinting at his screen. I, on the other hand, kept deploying improvised sunshades and repositioning my station to create shade for my equipment as the day wore on, as you can see in the photos. This is something to think about when planning a POTA activation, a simple popup canopy or umbrella can make the difference between comfortable operating and constantly fighting the sun. Add that to my growing list of field operation lessons learned.

sBitx v3 CW Keying: Improvements and Remaining Issues

The CW keying in the sBitx has been dramatically improved as the software revisions continue. The developers keep optimizing the scan time of the Raspberry Pi processor and how the program executes, making the keyer more responsive with each update. It's almost like using a regular radio now, though there are still quirks you need to work around.

I've learned that I have to pay very close attention to my sending cadence when working CW with the sBitx. The keyer isn't as forgiving as a traditional Curtis-style keyer circuit, and it will send errors if you're not careful with your timing. Knowing this limitation, I work much harder to stay at one speed setting throughout a contact when possible. It's easier to develop muscle memory and consistent sending rhythm at one speed rather than constantly adjusting the keyer speed up and down as I might do with other radios.

With a traditional Curtis keyer, minor variations in your paddle timing get smoothed out by the keyer circuitry and everything sends cleanly. The sBitx will occasionally miss characters if you vary your speed too much, if you slow down suddenly, you can actually outrun the radio's keyer circuit and it won't register that you asked for a "dit," so it leaves it out. This isn't a deal breaker, but it does mean the sBitx requires more disciplined sending technique than most modern transceivers.

I do tend to make more mistakes with the sBitx than I do with other more traditional Morse code radios, and I think all of this traces back to the timing limitations from the Raspberry Pi's scan cycle. But it's getting better with each software update, and for a radio that does CW, SSB, and all digital modes in a package this small and affordable, I'm willing to work around the keyer quirks.

20-Meter Band Issues: IRF520 vs IRF510 Amplifier Problems and Receiver Front End Overload"

The final two photos show a couple issues I've been wrestling with on my sBitx. The first image shows my sBitx operating on 10 meters with lots of noise lines visible in the waterfall display. These noise lines are coming from Chas transmitting Morse code on a different band, his signal is getting into my receiver and creating visible interference. I don't remember exactly what band he was on, but the important lesson here is that antenna placement matters tremendously when you're running multi-station setups like this one.

Be mindful of where you place antennas if you're operating a multi-operator event. We were only 30 feet apart, which is far too close for optimal isolation. I was still able to work many contacts even with this persistent noise coming through, though. This is something you learn to work around if you're going to be an amateur radio operator in a multi-operator event of any kind…think Field Day here. It's just part of the game, so you expect it and adapt. We could have used bandpass filters to eliminate most of this interference, but I didn't bring mine to the park.

The next photo shows my sBitx on 20 meters, and on 20 meters my radio has a persistent issue that I'm still troubleshooting. I'm beginning to believe it has to do with the IRF520 MOSFET transistors that I used in the power amplifier section when I built this radio. These IRF520 transistors have significantly more internal capacitance than the IRF510 transistors that Farhan originally specified in the revised amplifier design. I think this extra capacitance is causing the amplifier to oscillate, and that oscillation is what you're seeing as the noise signal in the photo.

Here's the interesting part: as the radio warms up during operation, this spurious noise signal moves down in frequency within the 20-meter band. If I want to push it out of the way temporarily, I'll switch to 40 meters or 80 meters and run FT8 for a few minutes. You generate more output power on those lower bands, which heats up the amplifier section faster. Usually, if I just run FT8 first thing when setting up, it warms up the transmitter enough to push the oscillation down to below where I normally work CW on 20 meters anyway, giving me a temporary workaround.

This isn't a permanent solution, obviously. I'm convinced I'm going to have to address this capacitance issue when I get back home, probably by swapping out the IRF520s for the specified IRF510s or adding additional filtering to the amplifier circuit. But for now, knowing the workaround lets me keep the sBitx operational in the field for POTA activations, which is what matters most.

Multi-Operator Challenges: RF Interference and Antenna Placement

Operating two stations in close proximity taught us several valuable lessons about multi-operator setups. The biggest challenge was RF interference between our stations. With antennas only 30 feet apart, we experienced significant front-end overload, when Chas was transmitting on his station, I could see his signal bleeding through into my receiver on completely different bands.

The sBitx has a somewhat easy-to-overload front end compared to more expensive commercial receivers, which made this problem more pronounced. But even with a better radio, operating this close together without bandpass filters or careful band coordination is asking for trouble. The solution for future multi-op activations is simple: either space antennas much farther apart (100+ feet minimum if possible), or operate on bands that are far enough apart in frequency that filter roll-off provides natural isolation.

The position of your antennas matters just as much as the distance between them. If we'd oriented our antennas at right angles to each other instead of parallel, we might have achieved better isolation through pattern nulls. These are the kinds of things you learn by doing, and they apply equally to Field Day operations where you might have multiple stations running simultaneously.

Despite the interference challenges, we still made excellent contact numbers. Multi-operator POTA activations are worthwhile because you can cover more bands simultaneously, operate different modes at the same time, and keep the activation going continuously while one operator takes a break. Just be prepared to work around the RF challenges that come with the territory.

Who Should Activate This Park?

Hillsborough River State Park is an excellent choice for both first-time and experienced POTA activators. Here's why:

For beginners: The $4 entrance fee is minimal, facilities are excellent with clean restrooms and covered picnic areas, and the tree coverage makes wire antenna deployment easy. You don't need to hike to reach good operating locations…everything is accessible by car right off the main loop road.

For experienced activators: The park's location north of Tampa puts you in a good spot for both domestic and DX contacts. The tall pines support wire antennas at significant heights, and there's plenty of space to spread out if you're running a multi-operator activation.

Best practices for K-1488:

• Arrive early morning (8-10 AM) or late afternoon (3-5 PM) to avoid midday heat and sun glare

• Bring sunshade or canopy, there's limited natural shade at the picnic tables

• Plan for 2-3 hours of operating to get a good contact count

• Cell coverage is good for self-spotting on the POTA network

• Spring and fall offer the best weather conditions

If you're in the Tampa Bay area and looking for an easy, productive POTA park with good facilities, Hillsborough River State Park should be on your list.

Activating Hillsborough River State Park proved to be a highly productive POTA outing. Between Chas and me, we logged well over 100 contacts using QRP power and simple wire antennas…proof that you don't need high power or expensive gear to have success in Parks on the Air. The 65-foot EFHW at 35 feet worked exceptionally well, the Penntek TR-35 remains one of my favorite field radios for CW, and the sBitx v3 continues to impress despite some remaining amplifier quirks on 20 meters.

Key lessons learned: antenna height matters more than output power, multi-operator setups require thoughtful antenna placement to avoid interference, and limiting transmit power to 10 watts keeps your batteries happy all day. If you're looking for a beginner-friendly POTA park in Florida with good tree support and easy access, Hillsborough River State Park (K-1488) is an excellent choice.

Have you activated K-1488 or other Florida state parks? Share your experiences in the comments below, I'd love to hear about your favorite POTA locations and antenna setups.

Want more POTA activation reports and technical amateur radio content? Check out my other WK4DS blog posts for detailed equipment reviews, antenna builds, and field operation tips.

Frequently Asked Questions About POTA Activations

What is Parks on the Air (POTA)?

Parks on the Air is an amateur radio operating activity where hams set up portable stations in state and national parks to make contacts. Activators (operators in parks) try to make at least 10 contacts to qualify the activation, while hunters (operators at home) try to contact as many parks as possible. It's similar to Field Day but focused on public parks and conservation areas. POTA encourages hams to get outdoors, test portable equipment, and promote amateur radio to park visitors. The program started in 2016 and has grown to include thousands of parks across the United States and internationally.

How do you activate Hillsborough River State Park for POTA?

To activate Hillsborough River State Park (K-1488), you need to set up your amateur radio station within the park boundaries and make at least 10 contacts. Pay the $4 entrance fee at the ranger station when you arrive, then find a suitable operating location with trees for antenna support. Most activators set up at picnic tables near the main loop. Operate from battery power or a generator, no AC mains allowed for POTA activations. Log your contacts using a smartphone app like HAMRS or POTA Logger, then upload your log to the POTA website within a few days. The park has excellent tree coverage for wire antennas and is open from 8 AM to sundown year-round.

What is an EFHW antenna and why use it for POTA?

An End-Fed Half-Wave (EFHW) antenna is a wire antenna that's fed at one end through a matching transformer (typically a 49:1 unun), making it incredibly easy to deploy in the field. For POTA activations, EFHWs are popular because they require no ground radials, work on multiple bands without a tuner if cut for harmonically-related bands, and can be thrown into trees using a throw line and weight. My 65-foot EFHW works on 40m, 20m, 15m, and 10m, covering the most productive POTA bands. Getting it 35 feet high significantly improved propagation compared to running the same antenna closer to the ground. A properly deployed EFHW antenna at height will often outperform a vertical antenna at ground level for DX contacts.

Can you run two stations at the same POTA activation?

Yes! Running multiple operators at the same park location is allowed and encouraged in POTA. Each operator logs their own contacts and submits their own activation log. Chas and I each operated our own stations about 30 feet apart, which let us cover different bands simultaneously and maximize the total contact count. However, you need to be mindful of RF interference between stations. With our antennas so close together, I experienced front-end overload on my sBitx when Chas was transmitting on nearby bands. Solutions include better antenna separation (100+ feet apart if possible), using bandpass filters on receivers, or coordinating to operate on widely separated bands like 40m and 10m simultaneously.

What's the best QRP radio for POTA activations?

For CW-only POTA activations, the Penntek TR-35 is exceptional. It's lightweight (under a pound), battery-efficient, has outstanding CW break-in, and is nearly indestructible, perfect for field operations. For multi-mode operation covering CW, SSB, and digital modes, the sBitx v3 offers incredible value and capability in a portable package, though the CW keying requires careful technique and practice. Other popular POTA QRP rigs include the Elecraft KX2/KX3 (premium price but premium performance and battery efficiency), QRP Labs QCX-mini (CW-only, ultra-portable and inexpensive), and the Xiegu G90 (good SSB performance, acceptable CW, built-in tuner). Choose based on your preferred modes, budget, and how much weight you want to carry into the field.

How many contacts should you expect from a POTA activation?

Contact numbers vary widely based on propagation conditions, time of day, your operating skill, and whether you're spotted on the POTA network. A successful activation requires at least 10 contacts to count, but most activations yield 20-40 QSOs in an hour or two of operating. Our 100+ contacts in one afternoon between two operators was excellent, partly because we covered multiple bands and modes (CW, FT8) and had good propagation to Europe on the higher bands. If you're new to POTA, expect 15-30 contacts on your first few activations. Using CW typically yields more contacts than SSB due to pile-ups from hunters chasing parks, and FT8 can be productive when propagation is marginal or when SSB isn't getting through.

My 66 contacts plus Chas's 52 gave us 118 total QSOs from K-1488 on February 17, 2026. Ten of mine reached six countries across two continents, all at 10 watts or less.

You can help support this channel by using these Amazon Affiliate Links as well:

QRP/Portable Radios:

1. Xiegu G90 HF Transceiver (20W QRP)

2. TruSDX transceiver 5-Band usdx Multimode QRP

3. Xiegu X6100 HF Radio Transceiver

Antennas & Tuning:

1. MFJ-1979 17ft Telescopic Whip Antenna

2. End Fed Half Wave Antenna Kit (EFHW 40m-10m)

3. NanoVNA V2 Plus 4 Vector Network Analyzer

4. JYR8010-150W End Fed Half Wave Antenna

CW Equipment:

1. Putikeeg Mini Morse Code Key - CW Dual Paddle

2. XIEGU VK-5 Mini CW Straight Key

3. HAMCUBE Mini Morse Code Trainer Kit

Power & Accessories:

1. 12V 100Ah LiFePO4 Battery

2. 14.6V 10A LiFePO4 Battery Charger for 12V Lithium Iron Phosphate Batteries

3. HKS Ratchet Powerpole Crimping Tool 31Pcs Kit

Organization & Transport:

1. Koah Weatherproof Hard Case with Customizable Foam (18 x 14 x 7 Inch)

2. Naturehike Tactical Camping Table

BONUS ITEMS

1. RigExpert AA-650 Zoom Antenna Analyzer

2. BNC Cable - 50FT RG58 50 ohm

3. Super Antenna MS135 SuperWire

4. Heil Sound Pro Set 3 Studio Headphones with Closed Back

5. ARRL Antenna Book for Radio Communications 25th Edition

73

David / WK4DS

Overall, today we had a wonderful day and made many contacts and was able to test antennas and enjoy ourselves in the warm Florida sun far from home where all the cold weather and dreariness is at. So until next time, get your radio out and go power it up and make a contact on it. That’s why you bought it after all.