Wednesday, April 15, 2009


This antenna article is geared towards new Hams and antenna builders
looking for a very inexpensive 6 band antenna that can be efficiently fed
with 50 ohm coax without a tuner.
The inspiration for this design resulted from a visit to my 82 year old
neighbor’s home who had asked me for some help in dismantling his
amazing and increditably beautiful model train set, and box up for his
grandson. During this process I was intrigued by his use of 5 and 10
conductor 18 gauge flat insulated ribbon cable for all of the L.V. switching
and action devices.
So Begins the Adventure.

To be honest I am getting more and more frustrated with some of the latest
marketing ploys being used by commercial antenna manufacturers and their
incredible, misleading and unsubstantiated miracle “all band” antennas that
will sucker in some poor unsuspecting new ham who will spend his money
on a heavily marketed, overpriced, and in some cases, Amazingly reviewed
antenna // Toaster.
Mt plan was to use this relatively cheap insulated wire and find out if was
actually possible to get 6 bands cleanly matched to 50 ohm coax. As this
antenna was basically built for testing and performance evaluation the
construction details are limited and somewhat primitive by most standards
so I will leave it to others to refine and permatize, hi.
When I envisioned this concept my only real concern was how all the close
spaced wires would inter react. The shorter dipoles will all present high
impedance at the feed point when they are not driven forcing the feed line to
pick the path of least resistance and best match for the frequency. The 40
meter wire will serve well on the 15 meter band as a center fed 1.5 wl wire.
I am aware that a fan dipole uses the same single feed concept but I believe
the Ribbon antenna eliminates all those extra tie off points while maintaining
the resultant extra effective radiated height, especially if used in a flat top
configuration. Certainly less obtrusive and much less work.
Well you have to start somewhere, so I chose the OMISS net frequencies
available at, as my starting point for the band frequencies
and wire lengths. I have built more than enough monoband Inv. Vees at this
location with insulated wire so I use my own formula of 450/ freq. to
achieve what I’m after with minimal pruning.
You need to approach this antenna one side at a time. The ribbon wire I
purchased was only available in 50 ft. lengths so I knew the 75 meter wire
would need about 8 more feet to each end to reach 75 meters. It’s best to
unroll and stretch the wire out to remove the “wire memory”. That
accomplished measure out your 5 chosen ¼ wl lengths and mark or tape off.
As the 75 wire is pretty much done after adding the required wire, separate
the next wire, and carefully peal back to the taped off marker and cut off
excess. Continue this process for the remaining wires up to the 10 meter
point. Yeah I know it seems like a lot of wasted wire but at 6 cents a foot
you’ll get over it !
Repeat the process with the other half of your antenna. I just laid them along
side each other and matched all the lengths. Be careful to use a dull knife or
fingernail file to separate the wires so as to not break the insulation.
After cutting all your wires to length you will need to have some kind of
center support and feedline connector in mind before stripping and soldering
the 5 conductors together. In my case I pushed each one thru a ceramic
insulator and then carefully stripped and soldered together in preparation for
feedline attachment.
The ends of half wave dipoles are at high rf voltage and if too close to others
will add unwanted capacitance and tuning problems. For starters I just
separated the adjacent wires by about a foot and let them dangle down.
My goal with this initial attempt was to see basically where or if ,I would get
full power out. This would give me the best indication of what was actually
radiating and at what frequency. You cannot expect, nor limit yourself, to a
1 to 1 swr as being your goal. The meter will serve only as a guideline to
where your wire length and height works in the real world of your backyard.
A quick look at any antenna book will show the relationship between height
above ground and radiation resistance in ohms. This inv. Vee at 43 ft. is
even a little more tricky to predict especially when the 75 meter antenna is
only at .175 wl high and the 10 meter antenna is at 1.2 wl above real ground.
All 6 antennas should range between 20 and 90 ohms with the ends at 10 ft.
above ground. The results of the first attempt were very interesting in that at
least I was getting full power out somewhere close to the 6 bands of interest.
I had my doubts because of introducing the 17 meter antenna into the mix
which is not an even multiple of the lowest band, usually considered a no no
on multiband antennas
I use an eye hook stuck into the top of the fiberglass pole with a masonry
string to allow easy up and down access for the cutting and tuning process. I
started by adding about 4 ft to each end of the 75 wire and after some
diddling ended up with around 3.95m. the only band affected by this change
when scanning thru the bands was the 40 meter wire which changed it’s
apparent resonant frequency to 6.9M and the 15 meter wire also dropped in
frequency. A quick trip to the backyard to shorten each end of 40 wire by
one foot made no change on the resonance. I then separated the forty from
the 75 by dangling about 3 ft. at each end. Obviously the end effect was
kicking in because I ended up at 7.1m, close enough for my needs and the
15 meter wire was happy in the middle of the SSB portion.
75----------4.179m short
40----------7.290m short
20----------14.190m okay
17----------17.800m long
15----------21.553m long
10----------27.713m long
The only bands left to fine tune were the 17 and 10 meter wires which were
still too long, so I cut off 6 ins. From both ends of each antenna. The 17
meter ended up at 18.135 and the 10 meter at 29.5 in the FM portion of the
band which I actually prefer these days.
The whole tune/recut exercise took about 6 hours and resulted in a 6 band
antenna that will radiate full power out without a tuner. Due to the fact that
there are no traps, no loading coils, no tuners and no ladderline needing a
balun to match, the only losses will be in the feedline due to it’s length and
not the result of any mismatch at the antenna feedpoint. I do not have the
necessary brain power to model this design and would appreciate a peer
review on the modeled radiation resistance and resultant antenna patterns.
Point of interest; The 60,30 and 12 meter bands had around a 3 to 1 swr and
were showing 60 to 70 watts out without a tuner. Probably work well with
auto tuner.
1; A simple Plexiglas T, or equivalent with double slots for the ribbon wire
and two small holes to tie wrap the coax should be more than enough after
waterproofing to ensure stability and strength for a center supported light
weight antenna such as this.
2; The 75 wire ends up holding the whole antenna up, so I would attach
some masonry string to the center insulator and tie wrap at the band end
dangles and a couple of more at the 40 and 80 wires with the string going to
tie off points. By tie wrapping you will also prevent the wires from
separating at band junctions.
3; Attach small non conductive weights at the drop wires after final tuning.
4; Use a tuner at higher powers to attenuate harmonics and any possible
spurious transmitter outputs.
5; If 10 conductor wire is available you can double up the wires for each
band providing an increase in bandwidth and power handling. FYI, I had no
problems with the 5 wire at 500 watts ssb.
I am not going to waste everyone’s time by recounting all my log entries
while testing this antenna. I will tell you it is a joy to run from 75 to 10
meter fm and be able to hear what is going on and respond to a cq without
fumbling around with antenna switches and tuners. This antenna is nothing
more than 6 inv vees at 43 ft. that perform to the laws of physics and will
serve you well if you are committed to a little sweat equity to get it working
You will not be disappointed with this $35 antenna.
Tnx for reading,