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A Practical, 5-Band Homebrew Wire Beam

from Don Keith, N4KC on May 12, 2011
View comments about this article!

"Editor's Note: Due to the popularity of some of eHam's older articles, many of which you may not have read, the team has decided to rerun some of the best articles that we have received since eHam's inception. These articles will be reprinted to add to the quality of eHam's content and in a show of appreciation to the authors of these articles." This article was originally published on: 12/06/2008

A Practical, 5-Band Homebrew Wire Beam -- the Upside-Down Umbrella

By Don Keith N4KC

Experimenting with antennas -- God love ‘em -- is still one area of amateur radio where we can all test, concoct, homebrew, and then see the results of our labors almost instantly. For many of us, it is a real thrill to string some wire from some trees or bolt together some aluminum and noticeably improve our ability to snag signals out of the sky or fling RF into the ether.

Let’s all agree that there is little that is new in the area of antennas. And what there might be is probably beyond the reach -- technically, economically, and engineering-wise -- of most of us. But we can always borrow, filch, modify, and just plain steal from work that has gone on before us and adapt and develop antennas that meet our specific needs. Antennas that give us that thrill when they work better than whatever we were using before. Or teach us something if they are not.

So, I wanted an HF beam. My vertical, my G5RV, my skywire horizontal loop, and my multi-band dipole all do a reasonably good job from 160 through 6 meters. They enabled me to work more than 200 countries with only 100 watts since I returned to being active in 2005. But I yearned for more. And I craved a new project.

I actually purchased a used Cushcraft MA-5B mini-beam and planned to put it atop a 50-foot Rohn 20G tower I acquired. The MA-5 covers 10 through 20 with two elements on 10, 15 and 20 and is a rotatable dipole on 12 and 17. But the lure of building something on my own kept tugging at me. The MA-5 is still wrapped in the package the OM from whom I bought it shipped it to me. Instead, I decided to go out and build myself a “beam.”


I had a few specifics in mind when I started researching the various possibilities for building an HF beam antenna.

Some signal gain in a specific direction

Side and front-to-back signal rejection

Small wind load -- less than 10 pounds (the 20G is light duty tower)

As small a rotation radius as possible (trees, trees, trees!)

Multi-band capability, hopefully for 10 through 20 meters including WARC bands

Reasonable cost by using readily available materials

And the biggie, something I could build myself, since I don’t have access to a machine shop and I do have five thumbs on each hand

The Internet provides all the information one could want for researching various possibilities, plus there are many good antenna books that have suggestions as well. I looked at Moxons, quads, spider beams, vertical arrays, and more. Each had its good points and several of them seemed to be within my capabilities to build. Then, as I learned more, my interest returned to a particular antenna I had considered when I first returned to the air three years ago.

The commercial version of that antenna is called a “hex-beam” and it is manufactured by Mike Traffie N1HXA. ( The antenna gets very good reviews on the various ham radio web sites, as does the company’s customer service. They are manufactured in monoband and 5-band versions. Some of Traffie’s models are specifically designed for portable operation and are great solutions for those who like to operate from distant mountaintops and want a good directional antenna to carry along and quickly set up. The specs on Mike’s web site are quite interesting and seem to be honestly depicted. I see no reason to doubt their accuracy. The venerable Lew McCoy W1ICP (SK) wrote a glowing report on the antenna in CQ Magazine.

N4KC’s upside-down umbrella antenna, mounted at about 47 feet.

Well, the “hex” seemed to meet all my criteria. Now, I had to decide if it was something I could build myself or if I should start hinting to the proper people about what a great Christmas present Traffie’s creation would make.

As designed by N1HXA, the 5-band hexbeam consists of three pieces of wire for each band. Two of the wires are deployed as a center-fed radiating element and the other acts as a director, making it a two-element beam for each band on which it is designed to operate. The elements are strung around six Fiberglass spreaders that act as supports. The longest wires, the 20-meter elements, carry the tension and pull the spreaders up into a configuration that looks for all the world like an upside-down umbrella without the fabric covering. The shorter wires that make up the elements for the other bands are strung around the upturned spreaders, spaced a distance apart so there is little or no interaction between them. The 10-meter ones are at the bottom, about six inches above the baseplate that holds the bottom ends of the spreaders. In order to keep the turning radius as small as possible, the elements are horizontally arrayed in the shape of the letter W up and down the spreaders (See the graphic below that shows a top-looking-down view of the shape of the wire elements. The spreaders are not shown).

Note that the driven element is fed in the middle and offers about a 50-ohm load. The center of the W for each band’s driven element attaches to two points on a center post, arrayed from the 10-meter wires nearest the baseplate to the point near the top of the post that lines up with the 20-meter element. The antenna itself is fed from the top and Traffie’s version runs a feedline down the middle of the center post, connecting each band’s feed point together. Yes, the beam uses a single feedline for all five bands. Traffie’s reflector is also shaped in the form of a W, presenting a mirror image of the driven element. The point where the ends of the driven element and reflector approach each other is critical in its spacing and employs a spreader to help establish the correct distance and keep it constant.

As I researched farther, though, I learned that several hams had been experimenting with their own homebrew versions of the beam. Steve Hunt G3TXQ had been modeling and building versions of it for some time and had been generous enough with his work to publish it on the Internet ( as well as in some amateur radio publications. He had also done considerable work in an effort to get even better front-to-back ratio and increase the already broad bandwidth of the Traffie’s hex-beam. Steve had found that by making the reflector a broad U shape around the outside of the spreaders instead of the mirror-image W shape, and by changing the dimensions of the elements, he could make considerable improvement. From his models, the antenna achieved a less than 2:1 SWR throughout all the design bands. 10 meters did not quite manage less than 2:1 across the entire band but it was within reach of the internal tuner in most rigs. The only compromise was that the turning radius increased from about 9 feet to a little less than 11 feet and added a pound or so to the weight.

Back in the USA, Leo Shoemaker K4KIO was taking Steve’s modeling results and developing techniques for turning them into a real in-the-air antenna. In addition, like Steve, he was willing to share his detailed construction recommendations on his well-done web site. ( The more I studied Leo’s site and read the results of his experimenting, the more excited I became about trying to string this baby together and see how it played. I already had some of the parts I would require including wire and rope. I needed some of the rest -- paint, liquid electrical tape, liquid nails, wire lugs, tie wraps—for other projects anyway -- including some which are decidedly non-ham-radio in case the wife reads this.

By the way, there is a very active hex-beam Yahoo group ( that talks about the commercial version as well as the homebrew types. The members were encouraging and helpful. And the way Leo described things, building one of these things actually seemed doable.

Doable and worth the trouble! This is not a four-element, wide-spaced mono-band beam. It will not work miracles. It won’t blow holes in pileups. Anyone who thinks it will perform as well as a SteppIR or a full-size Yagi is due to be disappointed. That being said, the thing does appear to do a very good job, considering its size, weight and cost. Many claim it will do far better than it ought to, but I don’t know.

It also seems forgiving of being deployed at low heights and even performs best for most applications at around 50 feet above the ground. Its wind load -- as built following K4KIO’s suggestions -- is less than 6 pounds. Since it is a uniform size and weight and circular in shape, it is not nearly as wind resistant as a conventional beam. As typically constructed, the broadband version of the six-spreader wire beam weighs in at around 20 pounds. That makes it possible to launch it on a push-up mast and rotate it with a light-duty rotator.

On his web site, G3TXQ does an interesting comparison between his broadband antenna (as modeled), the Cushcraft MA-5B two-element beam (like the one still in the shipping package out in my basement), and the HyGain TH11DX, which is, by all accounts, a fine HF antenna. He shows the following comparison measurements for 20 meters and also takes a look at their turning radii, weight, and wind load (commercial beam specs based on material published by the manufacturers, prices the lowest I could find advertised for each):

HyGain TH11DX

G3TXQ Broadband Wire beam

Cushcraft MA5B

Gain (dBd)




F/B (dB)




2:1 SWR B/W (khz)


350 <1.7


Turning radius (ft)




Weight (lbs)




Wind area (sq ft)







Well, much as I would love to have the gain and front-to-back ratio of the HyGain, I simply do not have the area to rotate it (remember my trees, trees, trees?). I am also not quite ready to invest in a tower that would safely hold it. Though there are no antenna restrictions in my town, I still want to remain relatively transparent to neighbors. Being stealthy is another plus of the upside-down umbrella (see below). By the way, some builders maintain the gain of the hexagonal wire beam is somewhere north of 5 dBd on some bands. But even at G3TXQ’s modeled gain predictions, the upside-down umbrella has considerably more gain than the 2-element Cushcraft (especially on 17 and 12 where the MA5B has NO gain…it IS a dipole). It certainly appeared to me that the antenna was worth building.

Preparing for Construction:

Okay, I admit it right here in front of everybody. I am not that handy. Not only have I always been a klutz, but an auto-immune neurological disorder I contracted a few years ago left me with limited fine motor skills. I have trouble holding things like nuts and bolts. Still, looking at Leo’s suggested construction notes, ( I decided I could do it. I started gathering the additional stuff I needed.

Two areas had me just a little skittish. One was the spreaders. Some have used PVC pipe, which is cheap and readily available, but they found it tended not to be able to maintain the umbrella shape of the beam. PVC also needs lots of paint to protect it from UV rays. Others have tried cane poles but they, too, have trouble holding up under the strain of maintaining the distinctive shape that keeps the wire elements optimally spaced. On his site -- and for no compensation -- Leo mentions Max-Gain Systems in Atlanta. ( I will also mention them -- for no compensation -- because they offer a fiberglass spreader kit, already specifically cut to the dimensions recommended by K4KIO. That also saves money on shipping. You may be able to find another source for lower price, but this seemed like a reasonable deal to me. I see the Max-Gain guys at hamfests and know they offer good quality merchandise, so I decided to buy the fiberglass spreaders for this project from them. They arrived as promised two days after ordering, all nicely cut and fitting together perfectly. I also have a bunch of 4-foot fiberglass sections left over for other projects, too.

The second concern was the baseplate, the device onto which the spreaders are mounted. This is the true “heart” of the antenna, where the spreaders spread out from, and where the center post passes through. Some hams use plastic-type or tough polyurethane plates or even plywood. These can work, depending on the amount of stress the spreaders and mast put on it or how much weight it adds to the antenna. However, I did not feel that “cutting board” type plastic would be sturdy enough and plywood would eventually succumb to the weather, no matter how much paint I used. I located a supplier who sold aluminum, cut to any shape I wanted, but I had no idea how I would drill out the holes. I only have a cordless hand drill, and I suppose I could have accomplished the task with lots of patience, bit replacement, and battery recharging, but I was worried about getting the holes in the right place. I really wanted this crucial part of the antenna to be precise and tight.

Enter Ron Mott W4RDM. ( I saw on the Yahoo hexbeam reflector that he was offering a pre-drilled aluminum baseplate and all the U-bolts and hardware a guy needed for K4KIO’s version. That included a pair of floor flanges that Leo discovered that nicely reinforce the point where the center post runs through the baseplate. (Some people only use one of the flanges but again, that seems like a pretty crucial point for the antenna and two is better.) At first blush, I thought the cost for Ron’s plate and accessories was a little high. Then I priced aluminum plates -- before doing all that measuring and marking and drilling -- and the big-box-hardware-store prices on U-bolts, floor flanges, and the bolts, washers, and nuts to do the job right. I quickly got on Ron’s web site and ordered a plate before he realized he was selling them too cheap. He was kind enough to deliver the whole package to me at the Huntsville, Alabama, Hamfest to save shipping.

(Max-Gain now offers a parts kit ( for this antenna that includes pre-cut fiberglass spreaders, wire, and rope. WI4USA ( is selling a full kit and instructions for building the G3TXQ version, too. I have not tried either kit so I can’t give recommendations, but they certainly seem worth checking out if you don’t want to gather up all the necessary parts yourself.)

Building the Beast

Once I had everything gathered up, actual construction went very quickly. The wire elements are attached to the center post and the feedline using bolts and nuts that are stuck through holes I measured and drilled in the Fiberglass. Getting those nuts poked through the holes, using K4KIO’s coat-hanger idea for sticking them through from inside the pipe, proved to be a bit tough for me. I did better when I got a stronger coat hanger to use and got it done, though.

The antenna also uses a single coax feedline and short coax jumpers are employed to connect the center-post bolts where each set of driven-element wires are hooked up to be fed. I made my jumpers from RG-8U since I planned on running some power at some point. Getting them cut to the exact length and bolted in place was quite a challenge. RG-8X would have been much easier but I wanted to use the bigger coax.

Otherwise, following Leo’s suggestions and photos, I had no trouble at all putting the beam together. I married and glued the three sections of each spreader one rainy day inside the basement. I also did the center post assembly that day. When the rain stopped, I sprayed everything with primer and black paint, the better to make it disappear in the trees.

Then, on a beautiful late-summer day, I got an early start and attached the spreaders to the baseplate, measured, cut and attached the antenna wires to the center post and spreaders, and cut and tied the support ropes. The antenna was basically built and shaped, the elements connected and checked with a volt/ohm meter, and set up in about eight hours. Upside-down umbrella or not, it was a beauty to behold!

My upside-down umbrella, seen from my backyard. The tower is bracketed to the house at the 20-foot level. The bracket is lag-bolted through the exterior wall through a 2X6 board on the opposite side of the studs in the attic. With the beam and rotator mounted, it is solid and has practically no sway.

One suggestion: if you follow Leo’s plans, pay attention to his notes about the importance of 128 inches. He offers a nice little geometry lesson on his website. If the spreaders and the 20-meter wire elements are in the correct positions, each dimension from center post to the 20-meter element and between each spreader end will be close to 128 inches.

I built the antenna with the center post mounted on a 5-foot mast that I stuck into the center hole (for the umbrella) in a metal patio table. I had the table in a clear spot in the backyard, hopefully out of sight of neighbors. I piled rocks and other weight onto the table to make sure it did not turn over if we got some wind. That made stringing the antenna wires and support rope relatively easy. A neighbor’s young kids came over and, after watching me work and staring at the beam for a while, they asked me what it was.

“It’s a rose trellis,” I told them. I hope that they relayed the lie to their parents. I told another curious kid it was a digital TV antenna. That’s not totally a falsehood. I guess it could pick up a TV signal, though maybe not efficiently enough to be used for that purpose.

Once the beam was built and everything tightened down, I wanted to get it a little higher off the ground so I could look at the SWR and do any tuning that might be necessary. I lifted the antenna out of the patio table “stand” and placed it gently on the ground. Although it only weighs about 20 pounds as I built it, nd can easily be lifted by anyone of average strength, it still is a little unwieldy and should be handled by the baseplate, not the spreaders or wire elements. I inserted a 10-foot mast into the center post, drilled a hole through mast and center post, and inserted a bolt. Then I tightened on a nut to keep the antenna from turning freely on the mast. I then proceeded to try to lift everything -- antenna and mast -- and poke the end of the mast down inside the middle hole in the patio table. I intended to simply walk it up and drop it down into the table.

I had not anticipated how heavy 20 pounds gets out on the end of a ten-foot mast. I almost lost it a couple of times but finally got it into the opening. I then walked it up until the pipe slid down through the umbrella hole to the ground and everything was upright. The fellow from across the street came running up about then and said, “I saw you doing the Iwo Jima thing and tried to get over here to help!” So much for not letting the neighbors see what I was up to! At any rate, he was fascinated to learn that this was an antenna that could talk to the world. Or at least I hoped would! This particular neighbor knows I am a ham so I spared him the fictional use for all that wire and Fiberglass.


I checked continuity of the feedline and element connections to the center post and to the coax pigtail I was using to feed it while the antenna was on the ground. Now that it was marginally higher in the air, I was anxious to check SWR. I had about eight feet of the pigtail RG-8U hanging down from the feedpoint (at the top of the center post for a number of good reasons) and I couldn’t wait to hook up my MFJ 259B antenna analyzer and see what I had. Very high SWR would indicate a serious problem somewhere. Or that Leo and Steve were exaggerating how broadbanded the antenna was.

Well, I was impressed. The antenna was mostly better than 2:1 across all bands. 20 meters was a bit high at the upper end of the band. Still, I thought that was acceptable considering that the antenna was only about ten feet off the ground, five feet above the deck, and seven feet above a metal patio table.

Without expecting much, I hooked up my 100 feet of RG-8X that I keep on a run from the shack to outside, just to try out various projects. Then I went inside to give it a whirl on the air. Well, I could easily see directionality and front-to-back. On some signals, it was already the best antenna, but on others, one of the wires or the vertical did better. Still, it seemed to work on all five bands without sparks or smoke. I worked a couple of stations, just to make sure, including the Slovak Republic on 17 SSB barefoot and Croatia on 20 SSB with 600 watts.

Stealth? Can you see the hexagonal beam and tower in this photo, taken from my driveway, almost in my neighbor’s yard? Hint: look straight up from the area between the two windows. You can also see the tip end of one of the spreaders just sticking out from the upper left quadrant of the tree.


I compare antenna performance to the first time I saw color TV as a kid. I was perfectly happy with my old black-and-white TV picture until I saw the Tournament of Roses parade on my grandmother’s new RCA. Never mind that the “colors” were mostly red and green and the picture was swirling all over the place. It was so much better than what I had before that I thought it was the best it could possibly be.

Anecdotal evidence of an antenna’s performance is shaky, too. If we spend thousands of dollars on a sky full of metal, we tend to think it is the best aerial ever erected by man. Same if we bleed and sweat building something from scratch. Still, I have really tried to remain subjective, and to compare my homebrew hex to the other antennas.

On a dreary October day, we raised the antenna to the top of the 43-foot tower (I decided not to use all the sections I had and mounted a damaged section in the concrete base for a base section.) I hired a ham who is also a professional tower guy to help me. We raised it with a pulley and rope with me pulling from the ground and him guiding it up the side of the tower and preventing it from snagging. This is a relatively delicate operation, so have help who know what they are doing. Standing on the rotor plate (and with his climbing belt safely attached to the tower), my friend lifted the beam up and set it down onto the original five-foot mast. He replaced the bolt beneath the baseplate, through the mast and center post, and bolted it tightly.

I use a Ham IV rotator, which is very much overkill, but it happened to be the one I had. The installation as I did it puts the baseplate at about 47 feet and the 20-meter element at about 50 feet.

So, does it work? Absolutely! I used the beam as much as I had time to in the CQWW SSB contest, listening to stations with the beam and then switching, in turn, between the G5RV, the vertical (ground-mounted Hustler 4BTV with 85 radials under it), the skywire horizontal loop, and the ladderline-fed dipole. The beam, when properly aimed, beat the latter two antennas every time on 20 through 10. The G5RV was typically 2 to 3 S units below the beam on 20 and 17 but not even that close on other bands. The vertical was about the same as the G5RV on 10, 15 and 20 for DX but was considerably below the beam stateside and into the Caribbean and South America.

I had been trying to snag the VU7 in Lakshadweep since they first fired up but had not even been able to hear them well enough to work them. With the beam, I got them on the second call on 17-meter CW. Better propagation? Maybe, but I still could not hear him well enough to work him -- much less break the pileup -- on any of the other antennas. The same thing happened with VK9DWX on Willis Island in the South Pacific. When I log a contact, I note which antenna I’m using and whether or not I’m running the amp -- 600 watts PEP SSB, 400 watts CW. On the entry for VK9DWX I wrote next to “Hex” the note, “Thank goodness…could not even hear him with other antennas.”

I have also had several very nice ragchews with stations all over Europe. I know propagation has been better lately, but again, I checked the other antennas and the wire beam was better -- both ways, transmitting and receiving. Just today, as I was writing this article and in the middle of the day, I heard VQ9RD on Chagos Island in the Indian Ocean on 20 meter SSB. There was a pretty good pileup already but I called once and got him.

Seems like that happens more and more lately. My imagination? Maybe. But some of it has to be my funny-looking rose trellis digital TV antenna.

So there’s the hated “anecdotal” report on the antenna’s performance. It seems that many of the guys who build this antenna become almost evangelical about it, and I’ll avoid claiming it to be any more than a small, two-element compromise antenna. But somehow, it does seem to perform better than it has any right to do, considering its size, weight, cost, wind load, and ease of construction.

Another stealth photo. See the beam? It is to the right of the house. This is the view from the top of my driveway at the mailbox.

Let me make this suggestion, though. If you want a good, light, small antenna that offers excellent SWR, good front-to-back and side rejection, and decent gain over a dipole or vertical across five ham bands, and one that will not have you standing at the window, breathlessly watching it every time the wind blows, then consider this one.

If you don’t feel like building one, read the reviews on the Traffie Hex-beam and decide if it is for you.

If you want to build one yourself, go to the sites of K4KIO for instructions and G3TXQ for the theory behind the antenna.

If you don’t have any of the parts and want to buy a full kit, visit the Max-Gain or WI4USA site and learn more.

If you have or can acquire everything else and want to get a good deal on spreaders and/or baseplate, visit the Max-Gain or W4RDM web sites. If you want to gather the stuff together yourself, do not hesitate.

Put one of these things together, put it up on a push-up mast or light tower, rotate it with a TV rotator, and join the rest of us “hex nuts” having a blast with our odd-looking, upside-down umbrellas.

Member Comments:
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A Practical, 5-Band Homebrew Wire Beam  
by W4HKL on May 12, 2011 Mail this to a friend!
Yet another well-written article by N4KC...

I was cracking-up at the "rose trellis" and "digital TV antenna" comments... and appreciated the detailed construction and on the air usage notes.

Thanks, Don!

ps. I noticed DX Engineering sells full and partial hex beam kits as well.
RE: A Practical, 5-Band Homebrew Wire Beam  
by AF6AU on May 12, 2011 Mail this to a friend!
Even though this is a vintage article, it's a neat one.

However, it never fails that these and some other antennas use "$5 Crappie fishing poles". I can find $20, and once a $12 16 foot pole, never a $5 pole. You can come close if you buy a lot of 25 poles, but not for a few.

If anybody finds a place where I can buy an under ~$8 each 16 foot crappie pole in quantities under 10 pieces, let me and everybody thinking of making antennas know...

Would be very nice to post it right on the face page of E-ham in strays or ? so it's seen by all. I'm certain I'm not the only cheap ham that would like to buy $5 crappie poles.

The hexbeam has an updated version, where the "M" shape wire reflector is opened into a "C". This adds bandwidth. If you web search the hexbeam you will find it. The widebanded version is slightly larger (if I remember correctly).

These are reminiscent of the old square and hexagon single post clothes lines (remember clothes lines?).
RE: A Practical, 5-Band Homebrew Wire Beam  
by KE5KDT on May 12, 2011 Mail this to a friend!
Got the K4KIO version and this article is spot on. Very nice antenna and quiet when compaired to my other wire antennas. On the end of a tilt-over 35 foot pole with a Radio Shack TV rotor it gets pretty heavy to deal with when trying to walk it up. My only problem has been the black plastic wire clamps that hold the wire and are then clamped to the fiberglass poles with SS hose clamps. I've had at least 7 or 8 of them tear out but only on the 20 meter portion. I'm changing all those to SS with the rubber inside. That should fix it. The RS rotor works fine for this antenna. Leo has been great in helping and even suggested I add the additional freqs myself using his instructions, and save myself some money, so I did and it works great. Now how many businesses would suggest you not buy their product in order to save you money. Leo, for one!! You will like the antenna. Bob
RE: A Practical, 5-Band Homebrew Wire Beam  
by KE7FD on May 12, 2011 Mail this to a friend!
Just an inquiry; How well do these type of beams do in winter conditions such as freezing rain & ice? Does the weight of even the least amount deform the configuration? Survivability? Very good article and information.

Glen - KE7FD
RE: A Practical, 5-Band Homebrew Wire Beam  
by W4VR on May 12, 2011 Mail this to a friend!
Sounds like a great antenna for someone in a no-ice zone; however I do not believe this antenna would survive in a moderate to severe ice storm.
RE: A Practical, 5-Band Homebrew Wire Beam  
by KE5KDT on May 12, 2011 Mail this to a friend!
The question on standing up to ice would depend on the materials it was constructed out of if homebuilt. Since there are three commercial sources buildings hexbeams, including Traffie, who lives in the frozen northland, they make them so they will take the weight. My K4KIO uses something like Philystrand to go between the fiberglass rod tips to the center post and the factory supplied wire is very strong, has heavy insulation and is extremely flexible, almost like nylon rope.
RE: A Practical, 5-Band Homebrew Wire Beam  
by N4KC on May 13, 2011 Mail this to a friend!
In the spirit of full disclosure, I did have problems with my homebrew hex after several years in the sky. I wrote an article here on eHam about it:

That failure was due to a couple of shortcuts the builder (N4KC) took and some decidedly none-stainless stainless steel hardware. That and a dang hawk who kept perching on the thing. As noted in the article, I opted for a K4KIO version and replaced mine rather than repair it. The new one also added six meters and I'm anxiously awaiting a good e-skip session to try it out.

I still compare regularly to my other antennas and it still beats them solidly. Yes, I'd love to have four or five elements at 100 feet to do THAT comparison, but I don't and can't. And never will at this QTH.

Survivability? The tie wraps I used on my home-built version failed. They were black, UV-resistant, according to the packaging. Something broke several on the 20-meter element (which had too much tension on them the way I built it anyway). And "stainless steel" bolts and nuts rusted horribly. The baseplate and u-bolts were still beautiful. The Fiberglas spreaders were fine, too. The "silky" antenna wire had begun to show some rust and a bit of fraying, though.

The K4KIO version did withstand a good icing a week after I put it up. And you all know what happened to our area two weeks ago. No, thankfully we did not have F4 tornado winds at my place, but we did experience winds in excess of 70 mph with no damage to anything but my nerves.

Anecdotally, I stand by statements in the article. I've confirmed over 200 countries now with almost 300 worked. I still enjoy ragchews with guys in foreign lands. And last night, for the first time in my 48-year ham radio career, I hooked up a SignaLink USB and worked PSK31. Running 20 watts on 14.170, I worked all over Europe.

Upside-down umbrella or the low-power wonders of PSK31? I don't know or care. I just love it!

73, and see you on the wind!

Don Keith N4KC

RE: A Practical, 5-Band Homebrew Wire Beam  
by N4KC on May 13, 2011 Mail this to a friend!
Yikes! Make that 14.070! I'm new to the digital modes, but I'm not that clueless...

Don Keith N4KC

RE: A Practical, 5-Band Homebrew Wire Beam  
by KE7FD on May 13, 2011 Mail this to a friend!
Thanks Don for the updates. I have the very Cushcraft beam you wrote about. It works fine but I make no claim to being a contester either. I like to dabble with antennas so much I do very little actual on-the-air work it seems, a practice I admit that I need to change. The MA5B seems content rain or shine, sun or ice. Your antenna seems like type an operator such as myself should have up to leverage all advantages.

Glen - KE7FD
RE: A Practical, 5-Band Homebrew Wire Beam  
by KC8QMF on May 14, 2011 Mail this to a friend!
Was wondering if a standard TV tower would hold this array? The lot is a postage stamp size so this might be the beam for me. Am looking to try a different type of antenna other than a dipole.
RE: A Practical, 5-Band Homebrew Wire Beam  
by N4KC on May 15, 2011 Mail this to a friend!
KC8QMF: many guys use push-up masts and light-duty towers. Depending on construction and number of bands included, this antenna weighs 20 to 25 pounds and has about 6 square feet of wind load. Being symmetrical and with wire elements, it offers less resistance to wind.

All that being said, you want to make sure anything you use is strong enough to support even that much weight/wind load. Remember the weight of your rotator, too. Many who use a mast have the rotator at ground level and turn mast, beam and all.

I'd think most light-duty TV towers would do fine, assuming it is properly installed and guyed, if necessary. I use Rohn 20, which is a much lighter version of the venerable Rohn 25.

Good luck with whatever you choose.


Don Keith N4KC
A Practical, 5-Band Homebrew Wire Beam  
by OZ6ABM on May 15, 2011 Mail this to a friend!
I built one of these at least 5 years ago and it is still in daily use. I used the absolute cheapest materials I could find. The fishing poles were 5 meters long and I discarded thinnest two sections - and they cost me abt. 10 US$ each here in expensive Scandinavia.

The base plate was cut from a plastic board and I used the remainder used to make "doughnuts" that can slide on the center pole to hold the radiator and director wires to the correct position. The whole antenna cost less than 100 US$.

The only time I ever had a failure was when tensioning the fishing poles and then only one of the thinner sections splintered. I reinforced all rod section overlaps with self-amalgamating tap and even in winters of freezing temps I have never had anything snap. That said, the thickest ice I have seen on the wiring was abt. ½" diameter and it was not in gale conditions.

Of the 5 bands it covers I am not amazed with the 10 and 12m bands, but the others do a cracking good job. It is so leightweight I can lift it with one hand and it's a dream to work on if that's ever necessary. I wouldn't hesitate building another.

A Practical, 5-Band Homebrew Wire Beam  
by K9CTB on May 15, 2011 Mail this to a friend!
I have seen these antennas used in the military (U.S. navy) .... I always wondered how they worked, exactly. Thanks for a great article!!!

RE: A Practical, 5-Band Homebrew Wire Beam  
by K8AF on May 16, 2011 Mail this to a friend!
I've had this antenna up over 3 years. I used the plans from K4KIO and purchased the fiberglass spreaders. It is mounted on the second story using a 4 ft TV tripod mount and a TV rotor. The antenna has made it through 3 Michigan winters with no problems. Love the antenna.
RE: A Practical, 5-Band Homebrew Wire Beam  
by W3NRL on May 17, 2011 Mail this to a friend!
Nice article.. I build all my own antennas but i never tackled one of these, now you got me thinking and getting the bug for a new summer project.... Hmmmm !!!!!
I've seen these antennas from the sources you mentioned in your article and seeing their reviews that they are a performer and of course the price tag that they sell for...wooo, building is cheaper and you get that satisfaction when you make that first contact knowing this works and something you made with your own two hands..
Thanks again
RE: A Practical, 5-Band Homebrew Wire Beam  
by W6ONV on May 17, 2011 Mail this to a friend!
Thanks for the article, Don. I love this hex beam! I have had mine up since Oct. 2009 and while it's only at 20' (due to the HOA) I still have worked my DXCC. Since I don't have the space for a yagi, this was the next best antenna I could fit within my backyard.

I have been very pleased with this antenna from building it to maintaining it.
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