A
Ramsey Electronics
DA-1
Looking for an easy to build, solid performing antenna? The
dipole is hard to beat! These inexpensive, high quality
antennas are the time tested solution to price, relative
invisibility, and most of all, performance.
•
•
User tested, proven antenna technology to bring you the best
value.
Clear, concise instructions are just what you won’t find with other
antennas. Our manual teaches you everything that you need to
know, and even points you in the right direction if you want to learn
more!
•
•
•
•
•
•
Can be set up as a typical dipole antenna, or the popular “Inverted
V” configuration, for less space and excellent performance.
Build a home brew antenna... right down to the last soldering
connection.
These dipoles are virtually invisible, but do not compromise
performance, or signal capabilities.
Perfect as a second antenna for those whose antennas won’t
handle a specific band.
High quality components assure you a working antenna every
time... and tuning it is so easy!
The right antenna at the right price.
Ramsey Publication No. DA
Manual Price Only: $5.00
ASSEMBLY
AND INSTRUCTION MANUAL FOR
DIPOLE
ANTENNA KIT
TABLE OF CONTENTS
Introduction ......................................................... 4
Antenna Description............................................ 4
How Does a Dipole Antenna Work? ................... 6
Schematic Diagram............................................. 7
Parts List............................................................. 8
What Kind Of An Antenna Is Best For You?....... 9
Construction Notes ............................................. 10
Antenna Construction ......................................... 13
Tuning Your Antenna.......................................... 15
Other Reading..................................................... 15
RAMSEY ELECTRONICS, INC.
793 Canning Parkway
Victor, New York 14564
Phone (716) 924-4560
Fax (716) 924-4555
RAMSEY DA SERIES DIPOLE ANTENNA
Page 3
INTRODUCTION
Welcome to your new dipole antenna. Dipole antennas are an extremely
popular form of antenna today, because they satisfy the demands of almost
any application! There are not many antenna designs that are so low cost,
simple and “invisible”. You may not know that they are also exceptionally
good radiators, beating many other antennas hands down. Their exceptional
qualities on low frequency bands such as 160, 80 and 40 meters is also a
great advantage over antennas many times their price.
As you may know, living in a neighborhood with other people may
immediately lead to problems with neighbors who are worried about the
effect that your antenna will have on them. Many people are worried about
your ham gear interfering with their television sets or radios. In addition,
many people who simply don’t know enough about your hobby may think
that it could attract lightning to their houses, or even fall off of your roof
(heaven forbid!) This is where the “invisible” properties of a dipole are so
important. In a short day’s work, you can install your antenna that to even
the nosiest neighbor might be strained to see.
But the great thing is that your antenna is also a great radiator. Is it any
wonder why hams who spend over a thousand dollars on beam antennas for
20, 15 and 10 meters also own dipoles to work the 160, 80 and 40 meter
bands? In fact, dipoles are one of the oldest, and most tested antennas in
existence. This is why we are proud to offer you a reliable, time tested
antenna design at low cost.
ANTENNA DESCRIPTION
Your Ramsey antenna has been designed for practicality, performance and
price. Every effort has been made to offer you not only high quality parts,
but also an affordable price that will make beginners starting in the hobby, or
avid hams looking for a second antenna feel good. Because we offer a
range of antennas, each designed for a different band, you will notice that
this book encompasses each of them. In the tables provided, use the data
that best resembles your particular purpose and needs.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 4
HOW DOES A DIPOLE ANTENNA WORK?
A dipole antenna is a long wire that is suspended between two points. The
wire is cut to a specific length, and is fed in the middle with a radio frequency
(RF) signal. One half of the antenna is hooked to the ground wire of the
transmission line, and the other is hooked to the center conductor.
As an RF signal is applied to a piece of wire, both an electric and a
magnetic field is set up around the wire. These waves propagate through
the air (or ether!) without limit. As these magnetic and electric fields reach
another station’s antenna (or about any other metal object in it’s path) the
exact reverse effect takes place on our antenna that our RF signal did. The
rapidly changing fields produce an RF current that your receiver can detect.
Although it is impossible to actually see the waves coming off of a dipole,
we can try to visualize it to understand it better. Take a piece of paper and
push a pen or pencil through the center. Hold it up in front of you. Let’s
pretend that the pencil represents our antenna, and the paper represents
where our signal is concentrated. As you can see, most of the radiation is
given off at a 90 degree angle to the antenna, with very little radiation
occurring parallel to the pencil. It is this property that makes the dipole
directional. Another advantage is that the radiation is at all angles around
the wire, and the signal has a maximum chance to skip through the
atmosphere, making the dipole ideal for DX.
An inverted dipole does have a number of advantages over typical dipoles.
For one thing, they take up less space, with some of their wire being used up
to climb a vertical distance, and a five percent reduction in antenna length
over a normal dipole. They also match their impedance more easily to a 50
ohm coaxial cable than a typical dipole, which has an impedance of 65
ohms. The inverted dipole also has a higher angle of radiation — making it
better for sky wave DX.
If you have any questions, we suggest that you look for the ARRL Handbook,
which has all sorts of great information for hanging antennas.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 5
PARTS LIST
3 End Insulators
Length of Coaxial Feedline Cable
Length of Rope
1 PL-259 Connector
1 UG-175/U Reducer
Length of Antenna Wire
2 Wire Cable Ties
REQUIRED, NOT SUPPLIED
Some Good Friends (Suckers)
Soldering Iron Gun with Rosin Core Solder
Waterproof Sealant (Silicone) and Electrical Tape
Radio Transmitter
Sharp Knife
Wire Cutters
WHAT KIND OF ANTENNA IS BEST FOR YOU?
Unlike many antennas that you can find on the market, the Ramsey dipole
antenna is capable on being constructed in two configurations. These are, a
normal dipole, and an “Inverted V” antenna. A normal dipole is just what we
have been talking about. An Inverted V is a variation of a normal dipole that
features slanting wires for easier mounting on small properties, or where you
wish to mount the center of your antenna high without having to build two
high endpoints (see diagram on next page). Antenna critics agree that there
is little difference in performance between the two antennas.
One difference between the two types of antennas is the wire length.
Because of slightly different antenna characteristics, the Inverted V antenna
is slightly shorter. This has to do with a number of physical factors such as
end effect (the magnetic and electric fields at the end of the wire), and the
proximity and angle to the ground. To accommodate this difference in
RAMSEY DA SERIES DIPOLE ANTENNA
Page 6
RAMSEY DA SERIES DIPOLE ANTENNA
Page 7
length, we have included a bit more wire than you should need to build either
antenna. This allows you to decide which antenna will serve you better.
CONSTRUCTION NOTES
Just a few notes before you begin constructing your antenna.
•
Be careful when constructing your antenna! Throwing rocks through
windows, falling from trees, shooting a buddy during the famous bow
and arrow trick and becoming electrocuted are just a few of the hazards
that can ruin your day.
•
•
If the weather looks threatening, wait for it to pass. The last thing that
you want is to be caught on your roof during a storm.
Don’t take chances with your antenna. Secure it as well as you can, and
make sure that nobody will be able to touch it once it is mounted.
Transmitting while someone is touching it can be a shocking experience.
•
When in doubt, have your buddies help you out! A few friends can make
the day a lot more enjoyable and easier... especially if they know a thing
or two about stringing antennas (or own a bow or arrow).
ANTENNA CONSTRUCTION
Now it’s time to begin construction! First, make sure that you have all of
your antenna parts, and they are easily accessible. You’ll also need tools
such as; ladders, electrical tape, waterproof sealant, a knife, wire cutters,
etc.
The first thing to do is to cut the antenna wire to the correct length. The
wire supplied with your kit has been cut somewhat longer than required, but
there is not enough for two antennas, so be careful when you measure! The
following table shows you the proper lengths to cut your antenna wires in
order to tune it to the proper frequency.
Please understand that the calculations that we have made are for a
frequency in the center of the band. If you prefer to use another frequency,
or a band that is not listed, simply find the lengths by using the following
equations. (It doesn’t hurt to add a foot or so to the calculated length to allow
for easier antenna tuning - it’s easier to simply “clip” off a bit of wire at a time
than it is to add wire.)
Total length of a dipole = 468/ frequency (in MHz) (in feet)
RAMSEY DA SERIES DIPOLE ANTENNA
Page 8
Total length or an Inverted V = 445/ frequency (in MHz) (in feet)
Your Frequency_________ Calculated Length___________
Antenna Wire Length (per side)
ANTENNA
BAND
FREQUENCY
(KHz)
NORMAL
DIPOLE
INVERTED
V
> 1850
1850
129’3”
129’3”
63’9”
33’11”
16’9”
8’5”
122’9”
122’9”
60’6”
31’6”
15’8”
7’11”
ALL BAND
160m
80m
3750
7050
40m
14250
28500
20m
10m
NOTE: Measurements indicated for each side of dipole.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 9
For example, to make a dipole antenna on 14.050 MHz, divide 468 by
14.05. The total dipole length be 33.31 feet or approximately 33 ‘4”. Don’t
forget that you need to insert a feedline in the center, so it must be cut into
two pieces that are one half the length (16 feet, eight inches).
Wire Length (approximate length packed with indicated antenna kit)
160m or ALL BAND .................. 262’
80m ............................................ 132’
40m ............................................. 72’
20m ............................................. 38’
10m ............................................. 21’
RAMSEY DA SERIES DIPOLE ANTENNA
Page 10
ASSEMBLING THE ANTENNA
Start by finding three locations to attach your antenna. The center location
must be close enough to your ham shack so that the coaxial cable will reach,
but should also be as high as possible. Attaching it to a location on the roof,
or to the chimney is a great place, as long as you are sure that the wires will
not come into contact with trees, power lines (cringe!) or the house.
Remember what that great ham, W2BOZO said, “If you touch a powerline
with that antenna, you’re going to be one sad ham.” Kind of says is all, huh?
Remember, the antenna wire is not insulated (and does not need to be).
The two end locations should also be sufficient so that the antenna stays
somewhat straight, and is a safe distance off of the ground. You should also
make sure that they are sturdy enough. Ripping the aluminum drain piping
off of the side of your house, or pulling your favorite night table out of your
bedroom window by one of the legs not only earns you bad points with the
spouse, but it can get expensive and dangerous quickly. The best items for
this? A sturdy metal pole, tall fence pole, good sized tree, sturdy connection
point on your house or garage, and almost any place that you can trust to
hold the antenna under windy conditions.
When you have found these spots, it is time to prepare the antenna. First,
take one end of each of the wires, and place them on your workbench, or
other suitable area with a high power soldering gun. Next, place one of the
insulators in front of you on the table. Some manufacturers and ham radio
dealers sell center insulators that have various mounting features. If you see
one that you feel would be well suited for this job, you may substitute it for
the center insulator. Be aware, however, that many of them can be
considerably more expensive to perform the same job as the one that you
now have.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 11
Taking the end of one of the wires, pass it through the hole in the insulator
until six inches are through. Next, bend the wire back on itself and
immediately begin to wrap it very snugly and neatly around itself.
Ideally, you should have about six or seven turns. Using your soldering
iron, heat up the wire turns and solder each of them until the wire is secured
very tightly. This way, the loops take up most of the stress, but the solder
keeps it from getting loose. Connect the other wire in the same manner.
Make sure that you look over each connection thoroughly.
Next, take the remaining two insulators and connect the wire to them
using almost the same method. Pull 18 inches through the hole before
securing it. Don’t forget to leave a 1 inch loop! The extra wire allows you to
trim the wire easily, while the extra wire acts as part of the antenna length.
Six inches are used up at each end of the wire to secure it, and the other foot
is used here to hang down for easy tuning.
Now it is time to connect your PL-259 connector to your coaxial cable.
This is the end that will be connected to your radio. Unscrew the large outer
shell from the PL-259 connector and place it onto the coaxial cable with the
threaded end (inside) facing the end of the wire that you are working on.
Next, place the UG-175/U reducer onto the coax cable with the thinner end
towards the end of the cable.
Using a sharp hobby knife, carefully strip the outer insulation off of the
coax cable by cutting all of the way around the wire, one inch from the end.
Under this insulation is a thin layer of braided wire. Be careful not to cut
these wires. Once the insulation is gone, move the UG-175/U reducer up
the wire until it’s end is flush with the spot where the insulation has been
taken off. Gently spread the braid at the top and then fold it back over the
UG-175/U reducer.
Using your knife, strip the insulation off of the center conductor 1/4 inch
past where you stripped the outer insulation. Be careful not to cut the
conductor itself, or you will have to cut down the wire and go through the
whole process again. Twist the wires of the center conductor together and
tin them. You should now trim the outer wire braid at the point where the
threads begin on the UG-175/U reducer. This will keep them from fouling up
the screw threads.
Carefully place the remaining piece of the connector over the end of the
RAMSEY DA SERIES DIPOLE ANTENNA
Page 12
wire. You should make sure that the center conductor fits through the hole in
the center pin, and there are no stray strands being folded backwards. This
will have the unfortunate tendency of shorting out your antenna. The
connector should cover the braided wire and trap it against the reducer.
Snug it down so that it is firmly on the wire. The braided shield should be
caught between the reducer and connector and be held in very tightly.
Before you solder, it is a good idea to use an ohmmeter to check to see if
your center pin may be shorted to the outer braid. To do this, simply place
the ohmmeter across the two pins. Infinite ohms and you’re in the clear!
Using your soldering gun, solder the center conductor onto the pin, and trim
off any extra. Be sure that the solder flows easily into the hole, and does not
bead on the outside. This indicates a cold solder joint (more heat needed),
and also will not allow the connector to plug into your radio easily. Next,
solder into each of the holes on the side of the connector. You should be
able to see the braided wire through at least some of the holes. Once more,
check with your ohmmeter to see if there is a short. Please note that it is not
recommended that you leave the connector unsoldered. Moisture will
quickly cause all of your connections inside to go bad.
Screw the large outer ring onto the PL-259 connector. (Now you see the
importance of placing it onto the wire with the threads out!) Your connector
is now finished. Next, we will talk about connecting the wire to the center
connector.
Begin by stripping the outer insulation off of the coaxial cable like you have
done before. Bend the braid back, and twist it together to form a thick
RAMSEY DA SERIES DIPOLE ANTENNA
Page 13
stranded lead about one inch long. Next, strip the center conductor 1/4 inch
closer to the end. Tin both leads.
Wrap the coax wire around the center insulator making sure that it is snug
in one of the two grooves. The end of the coax should loop around and fold
back on itself, overlapping about one inch. Fasten the coax to itself using
the nylon wire ties supplied.
You should still have a short length of wire coming from each antenna wire
connection. Connect one of these to the center conductor, and one to the
outside conductor of the coax. Be sure to solder them well. If the wires have
a lot of slack in them, you may want to cut off some excess wire and then
connect them. The solder connections should not support any weight, if
possible. This will help their longevity. You should now add waterproof
sealant such as silicone caulking (Silastic, RTV). After you have done this,
seal it further using electrical tape.
After you have ensured that the coaxial cable is snugly attached, it is time
to mount your antenna. First, identify where you would like the center of
your antenna (as a general rule, the higher the better). Although it is better
to find a place where you can secure it, you may also suspend it using the
strength of the ends to hold it in the air. If you need to secure the antenna,
tie a length of rope to the object that you are securing it to. Next, tie the rope
to the center insulator very tightly (short of breaking it, please!). If you have
some patience, the rope will fit between the fins of the insulator, and will
secure itself very nicely. We suggest that you use a knot that will not loosen
with time. (A Boy Scout may be handy for tying knots and climbing trees.)
Once the center is at the proper location, make sure that your coaxial cable
will easily reach your radio. Next, stretch out one of the wires and bring the
end up to where you wish to secure it. If the location is difficult to reach
easily, you may wish to consider securing it to a lower spot until after you
have finished tuning it up. Using more rope, tie one end to the object, and
one end to the hole in the free end of the insulator. Again, use knots that will
not come loose with time. If you think that the object that you are tying your
antenna to is going to move due to winds or other factors, you may wish to
consider using a pulley or similar system of compensating for this. Connect
the other end of the dipole in the same fashion. Be sure that the dipole does
not sag too much, but also be aware that tightening it up too much may put
undue strain on it.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 14
TUNING YOUR ANTENNA
Hook up your radio to an SWR meter and the antenna. Set it for a portion
of the band that you think you will be using most often. Since all of our
antenna length calculations are for the center of the band, the antenna
should be slightly longer if you wish to work below this frequency, and
slightly shorter if you work above it. Reduce your power down to it’s lowest
setting and transmit on a clear frequency. Your SWR meter should now be
measuring the SWR of your antenna. You will notice that if you tune up or
down, this will change. Try this, and note whether or not the SWR gets
higher or lower as you go up in frequency. If it gets higher as you go up, the
antenna needs to be shortened.
Back outside again (or get a buddy to stand out there), cut about one inch
off of each end of the antenna wire. Rekey your transmitter and repeat the
same test over. If the antenna still needs to be shortened, cut off a bit more.
Over and over, perform this test until the frequency that you wish to tune the
antenna at has a lower SWR than the frequencies above or below it. Now
that your antenna has been successfully tuned, you are ready to try making
a few contacts.
RAMSEY DA SERIES DIPOLE ANTENNA
Page 15
DA DIPOLE ANTENNA
Quick Reference Page Guide
Introduction......................................................... 4
Antenna Description ........................................... 4
How Does a Dipole Antenna Work? ................... 6
Schematic Diagram ............................................ 7
Parts List............................................................. 8
What Kind Of An Antenna Is Best For You?....... 9
Construction Notes ............................................. 10
Antenna Construction ......................................... 13
Tuning Your Antenna.......................................... 15
Other Reading .................................................... 15
Manual only price: $5.00
Ramsey Publication No. MDA
Assembly and Instruction manual for:
RAMSEY DA SERIES
DIPOLE ANTENNA
RAMSEY ELECTRONICS, INC.
793 Canning Parkway
Victor, New York 14564
Phone
Fax
(716) 924-4560
(716) 924-4555
Printed on
Recycled Paper
|