Multiband Vertical
Multiband Vertical
Multiband Vertical
Vertical Antenna
80 through 10 Meters
DXE-MBVE-2
DXE-MBVE-2-INS-Revision 11e
© DX Engineering 2012
P.O. Box 1491 ∙ Akron, OH 44309-1491 USA
Phone: (800) 777-0703 ∙ Tech Support and International: (330) 572-3200
Fax: (330) 572-3279 ∙ E-mail: DXEngineering@DXEngineering.com
Table of Contents
Introduction 2
Features 2
Warning 2
Tools Required 3
DXE-MBVE-2 Parts List 3
Manual Updates 3
Suggested Parts Not Included 4
Additional Material Needed, Not Supplied 5
Installation 6
Site Selection 6
Mounting Pipe 6
Radial System 6
Assembly 7
Radial Plate to Mounting Pipe 8
Attaching Ground Radial Wires to the Radial Plate 9
Tilt Base to Mounting Pipe 10
Vertical Base Section 11
Base Section to Tilt Base 13
Assembling the Vertical Sections 14
Mating the Vertical Sections to the Tilt Base 18
-1-
Introduction
The DX Engineering MBVE-2 is a fast taper 33 feet high multi-band vertical antenna system. The
vertical antenna operates from 80 meters through 10 meters using a good quality outboard customer
supplied tuner. There are no traps, coils or linear loading elements to rob power. Designed with
6063 corrosion-resistant aluminum tubing and stainless steel hardware, this antenna is very durable
and attractive. An extra tubing section is part of the design to provide final length adjustment from
33 feet to 36 feet if necessary.
Features
The DXE-MBVE-2 vertical antenna system includes the antenna elements, stainless steel element
clamps, mounting plate assembly, Tilt Base, and stainless steel hardware.
Full band coverage from 80 through 10 meters - Outboard customer supplied tuner required
33 to 36 ft overall height
Includes the DXE Tilt Base
Fast Taper from rugged base to sleek top for low wind resistance
No Coils or Traps – Maximum Radiation Efficiency
Power Handling up to 5 kW - built to last
WARNING!
INSTALLATION OF ANY ANTENNA NEAR POWER LINES IS DANGEROUS
Warning: Do not locate the antenna near overhead power lines or other electric light or power
circuits, or where it can come into contact with such circuits. When installing the antenna, take
extreme care not to come into contact with such circuits, because they may cause serious injury or
death.
Before you begin working, check carefully for overhead power lines in the area you will be
working. Don't assume that wires are telephone or cable lines: check with your electric utility for
advice. Although overhead power lines may appear to be insulated, often these coverings are
intended only to protect metal wires from weather conditions and may not protect you from electric
shock
Keep your distance! Remember the 10-foot rule: When carrying and using ladders and other long
tools, keep them at least 10 feet away from all overhead lines - including any lines from the power
pole to your home.
-2-
Tools Required
Two 7/16 wrenches, (one of them should be open-end)
5/16 inch, 3/8 inch, 7/16 inch, and 1/2 inch wrenches or
5/16 inch, 3/8 inch, 7/16 inch, and 1/2 inch sockets and drive
Medium size flat blade screwdriver or 5/16 nut driver for the element clamps
Medium size flat blade screwdriver or 1/4 nut driver for the smaller element clamp
Tape measure and Felt-tip marker
Manual Updates
Every effort is made to supply the latest manual revision with each product. Occasionally a manual
will be updated between the time your DX Engineering product is shipped and when you receive it.
Please check the DX Engineering web site (www.dxengineering.com) for the latest revision manual.
-3-
Suggested Parts Not Included
DXE-UN-43 - Multi-Band UNUN for Vertical Antenna Systems
The DXE-UN-43 DX Engineering Multi-Band Vertical UNUN built with proven Maxi-
CoreTM Technology is a matching device specifically designed for application with non-
resonant vertical multi-band antennas.
The DXE-UN-43 assures the best efficiency from your vertical multi-band antenna and
transmission line/tuner installation. Using the DXE-UN-43 results in minimizing the additional
transmission lines losses caused by SWR and allows your antenna to perform to its full
potential. The DXE-UN-43 reduces the stresses on your equipment more efficiently than similar
competitive products.
By allowing your wide-range tuner to more easily match the antenna’s complex impedance, low
frequency performance is improved over other devices currently available.
DXE-UN-43 Features
Full band coverage on 160-10 meters with an SWR under 1.5:1*
*Customer supplied wide band tuner required.
Impedance: 200 ohms to 50 ohms - optimized for 43 ft verticals
Ratio: 4:1
Power Handling: 2 KW / 5 KW Peak - Handles rated power with minimal energy loss so
there is no thermal related failure.
Silver / Teflon® SO-239 input connector
Two 1/4-20 feedpoint connection studs with Stainless Steel Flat Washers, Split Washers,
Fender Washers & Wing Nuts
High impact plastic, weather sealed NEMA-spec case - 2-1/2" x 4" x 4" inches (HxWxL)
Shares the same mounting footprint as other similar competitive products, so it may be
easily substituted in existing installations for superior performance.
Qty Description
1 Laser Cut Aluminum Mounting Bracket for the DXE-UN-43
4 # 6 x 1/2" long Stainless Steel Hex Head Bolts
4 # 6 Flat Washer
4 # 6 Nyloc Nut
2 Custom Stainless Steel 90 degree studded Element Clamp
2 5/16" thick x 3/8" OD Aluminum Spacer for #10 Hardware
2 # 10 Nyloc Nut
-4-
DXE-TCB-UNFK - Feed Point Connection Kit
Two 1" wide x 9" long pre-drilled tinned copper braids for feedpoint connection to the vertical
antenna system.
Antenna Mounting - Steel mounting pipe, up to 2.0″ OD, 0.25″ wall thickness, 4 feet long.
The standard 1-1/2" galvanized water pipe (with its 1.9" OD) is just fine for this application
and can usually be found at your local home building supply store.
Quik-Set Concrete - Mounting pipe installation (type depends on your landscape)
DXE-P8A - Penetrox - To ensure good connection for aluminum element sections
UMI-81343 - Anti-Seize compound - used on the threads of Stainless Steel Hardware to
prevent galling and aid in proper tightening torque.
Guy Rope and Anchors – DXE-GUY200-KIT contains 4 screw-in earth anchors and two
100 foot rolls of Dacron/polyester rope.
-5-
Installation
Site Selection
Select a mounting location clear from power lines, structures and other antennas by a minimum of
43 feet ( 33 + 10 foot safety rule). Consider overhead power lines, utility cables and wires. The
further away the vertical is mounted from local noise sources or other metallic objects, which can
re-radiate noise and affect the tuning, radiation pattern and SWR, the better. Determine the direction
you want the antenna to tilt down and make sure there is adequate clearance (at least 43 feet). There
should also be a clear diameter of about 35 feet from the antenna for the guying and radial systems
that will extend away from the antenna.
Mounting Pipe
Use a customer supplied thick-walled galvanized steel mounting pipe
at least 4 feet long. This will allow approximately 2 feet or more to be
below ground and 20 inches above ground. A thick-walled steel pipe
1-3/4" OD to 2" OD maximum is recommended with a minimum
thickness of 1/8" (1/4" preferred) should be used. The standard 1-1/2"
galvanized water pipe (with its 1.9" OD) is just fine for this application
and can usually be found at your local home building supply store. For
permanent mounting, use a post-hole digger to make the hole deep
enough to accommodate at least 2 feet of pipe and a couple inches of
gravel at the bottom for drainage. Set the mounting pipe on the gravel,
use the pre-mix concrete to fill around the pipe, adding water and
mixing as you fill or mix the concrete first, then pour in the hole
(depends on the type of concrete you purchase). Fill the hole until the
concrete is level with the ground around it. Use a level on the
mounting pipe as you fill the hole to be sure is vertically straight.
Allow to set overnight. Your location, landscape and ground
conditions may require different mounting solutions in order to have
the steel mounting pipe and the vertical antenna in a secure position.
Radial System
The use of a radial system is a key requirement for a high
performance quarter wave vertical antenna system. With a vertical
antenna system, the radials are the second half of the antenna. The
radials contribute to the radiation efficiency of the entire vertical
antenna system.
-6-
poor-soil conditions, improve bandwidth, and ensure the best performance possible from the
vertical antenna. DXE-RADW Radial Wire, a 14 gauge stranded copper with a black relaxed PVC
insulation wire is suggested for the best results.
The wire radials should placed as symmetrically as possible straight from the feedpoint around the
vertical antenna and spaced evenly, regardless of how many radials are used. Do not cross or bunch
any radial wires as this nullifies their effectiveness. If you have limited space, put in as many
straight radials as you can. The radials must be connected to the shield of your feedline. The DXE-
RADP-3 Stainless Steel Radial Plate is an ideal optional item which provides an excellent system
for attaching radial wires to your vertical antenna system feedpoint.
Radial wires can be laid on the roots of the grass using DXE-STPL Radial Wire Anchor Pins to
hold them down. Using enough staples will ensure the wires will not be snagged by mowers,
people, or animals. Grass will quickly overgrow the radials and it will be virtually impossible to see
them. An article describing this process is available on the DX Engineering website in the Tech
Info section. Radials can also be buried just under the surface by using a power edger to make a slit
in the soil.
Assembly
The DXE-MBVE-2 shipping box contains the vertical tubing sections, an insulated U-channel, two
2" U-Bolts and Saddles, a backing plate, a Tilt Base with two stainless steel V-Clamps, 12 stainless
steel element clamps, a black vinyl cap, and stainless steel hardware.
Carefully un-box the antenna and separate the various parts. All of the element sections are 36"
long. The 36" base section element (2" OD) and the 18" tube inside of it are both drilled to accept
the feedpoint hardware. The added 18" section inside the base element section provides added wall
strength for the base section. The vinyl cap for the top element section should be installed after
assembly of the vertical is complete.
Note: DXE-P8A Penetrox A Anti-Oxidant should be used between all antenna element
sections. Penetrox is an electrical joint compound to affect a substantial electrical
connection between metal parts such as telescoping aluminum tubing or other
antenna pieces. It ensures high conductivity at all voltage levels by displacing moisture
and preventing corrosion or oxidation.
Note: UMI-81343 Never-Seez or DXE-NSBT8 Anti-Seize should be used on all clamps, bolts
and stainless steel threaded hardware to prevent galling and to ensure proper
tightening.
-7-
Note: The following assembly instructions are based on using a 2" OD Mounting
Pipe, with the following options: DXE-RADP-3 Radial Plate, DXE-UN-43
UNUN, DXE-UN-BRKT Mounting bracket for the UNUN, and DXE-TCB-
UNFK Feedpoint kit for the UNUN
-8-
Attaching Ground Radial Wires to the Radial Plate
Using the 20 sets of supplied 1/4" stainless steel hardware (Bolt, Star Washer, Flat Washer, Split
Washer, Nut) connect the optional ground radial wires to the DXE-RADP-3 Radial Plate as shown
in Figure 2. Additional hardware kits are available (DXE-RADP-1HWK) that contain 20 sets of
Radial Plate Hardware.
There are optional DX Engineering Radial Wire Kits available. DXE-RADW-500K/BD contains a
500 foot spool of 14 gauge copper stranded wire with black PVC insulation, 20 Terminal Lugs and
100 Steel or Biodegradable Lawn Staples. The DXE-RADW-1000K/BD Radial Wire Kit contains
a 1,000 foot spool of 14 gauge copper stranded wire with black PVC insulation, 40 Terminal Lugs
and 200 Steel or Biodegradable Lawn Staples. RADW-20RT, -32RT or -65RT contain 20 each
radial wires with 1/4" terminal attached. These kits come in 20 Ft, 32 Ft, or 65Ft lengths.
Depending on the number of radial wires used, space them out evenly around the Radial Plate. The
Radial Plate will accommodate up to 60 radial wires (60 laser drilled holes), or up to 120 radials if
doubled up.
-9-
Tilt Base to Mounting Pipe
Install the patented Tilt Base to the 2" OD mounting pipe using the included DXE-SSVC-2P
stainless steel V-Clamps allowing approximately 4-1/2" clearance between the bottom of the tilt
base plate, to the top of the DXE-RADP-3 Radial Plate as shown in Figure 3. The standard 1-1/2"
galvanized water pipe (with its 1.9" OD) is just fine for this application and can usually be found at
your local home building supply store.
Make sure the Tilt Base and optional DXE-RADP-3 Radial Plate are oriented correctly for the
direction you wish to tilt the antenna. See Figure 8 which shows the tilt action.
Tighten the clamps evenly so the length of the exposed threads is approximately equal. Any clamp
should be tightened evenly from side-to-side with an equal amount of thread above each nut.
Figure 3
- 10 -
Vertical Base Section
The base section is made up of an insulated mounting channel, a mounting plate with hardware, two
2" x 3/8" U-Bolt assemblies and the base antenna section which is 2" OD thick wall, 36" long with a
hole drilled at bottom end for the feedpoint hardware. Inside the base sections is an 18" length of
1.875" OD tubing that is also drilled at the feedpoint. These two sections must be aligned (feedpoint
holes) so the feedpoint hardware can be installed
Using Figure 4, attach the aluminum backing plate to the back of the insulated channel. The base
hardware kit contains four 2" hex head bolts, four flat washers, four aluminum spacers, four split
washers and four nuts. From the inside of the channel, insert a 2" hex head bolt with a flat washer
through each of the middle four holes, through the backing plate. Put on the aluminum spacer, a
split washer and a plain hex nut. Tighten firmly, but not enough to crush the insulated channel.
Figure - 4
Using the 36" base section tube with the 18" section inside (and the feedpoint holes are aligned),
install the 1/4-20 x 1" long feedline bolt through the hole in the base section from the inside, so the
threads stick out.
Put on a 1/4" star washer, 1/4" flat washer, then a 1/4-20 nut. Tighten securely.
Add another 1/4" star washer, 1/4" flat washer and 1/4-20 nut, but do not tighten. The feedline from
the UNUN attaches to this hardware. Figure 5 shows the completed feedpoint assembly.
Figure 5
- 11 -
Install the lower section to the insulated channel using the two 2" x 3/8" U-Bolts, two saddle
clamps, four 3/8" flat washers, four 3/8" split washers, and four 3/8" hex nuts as shown in Figure 6.
The base section tube should extend 1-3/4" beyond the bottom of the U-bolt clamp.
The feedpoint hardware should be coming out on the left side as you look at the lower section as
shown in Figure 6.
When tightening, observe the split washers. When they fully seat (flatten out), the clamp is tight
enough. Any clamp should be tightened evenly from side-to-side with an equal amount of thread
above each nut.
Figure 6
- 12 -
Base Section to Tilt Base
Place the Lower Base Section into the holes of the mounted Tilt Base and loosely install the Tilt
Base mounting hardware shown in Figure 7. Leave the flange nuts and Nyloc nuts slightly loose.
Figure - 7
Using a wrench or nut driver, securely tighten the two Nyloc Nuts at the bottom of the Tilt Base.
Then loosen them one-half turn each. This will allow proper movement of the Tilt Base while
raising or lowering the antenna. It is not necessary to tighten these nuts more securely unless further
tilt operation is no longer required. They should not be loosened more than one-half turn at any
time.
- 13 -
Test the tilt function to ensure proper clearances. Standing in front of the Tilt Base, lift the antenna
base section, slide it to the right, and let it down slightly until the lower outside bolt is resting in the
pivot point. Then slowly tilt as shown in Figure 8. Make sure when you are tilting the antenna to
lift, slide to the right, and then tilt. Be careful to keep the pivot bolt resting in the pivot point.
Reverse the process when raising the antenna.
It is important to note that the lower, outside bolt becomes the pivot point while raising or lowering
the antenna. This pivot bolt MUST be retained in the pivot point. It seems natural to push the
antenna toward the Tilt Base while raising. Push up while raising, but not toward the base since this
could cause the pivot bolt to lift out of the slot and allow the mechanism to bind up and bend the
lower bolts.
The Tilt Base is not made to support the whole antenna by itself when tilted. When the antenna is
tilted over, ensure you have some sort of table, stand, or saw horse to set the antenna on to aid in
supporting the weight. When the antenna is in the upright position, ensure the mounting hardware
(reference Figure 7) is tightened.
Note: A pair of sawhorses or ladders should be used to support the vertical sections during
assembly with the tilt-base and whenever the vertical is tilted down. Do not allow the
Tilt Base to support the entire weight of the vertical when horizontal.
- 14 -
When assembling any telescoping aluminum tubing sections you should take the following steps:
1. Make sure the edges are smooth and not sharp. Deburring may be necessary, since burrs and
shavings can occur on seams as well as edges. All surfaces need to be completely smooth to
allow easy assembly of tubing sections.
Caution
Aluminum tubing edges can be very sharp.
Take precautions to ensure you do not get accidentally cut.
The raised particles and shavings that appear when the aluminum tubing is machined are
referred to as burrs, and the process by which they are removed is known as deburring.
Deburring is a finishing method used in manufacturing. Our aluminum tubing is machine cut on
both ends and machine slit on one end. Although DX Engineering manufactured aluminum
tubing is deburred, you should further assure that there are no ragged edges or protrusions.
Use the DXE-22166 Slim Grip Deburring Tool, or the DXE-22600 Deburring Tool with
Extending Handle and Extra Blades for this operation.
2. Clean the inside of the aluminum tubing to clear out any dirt or foreign material that would
cause the aluminum tubing sections to bind during assembly. Do not use any type of oil or
general lubricant between the aluminum tubing sections. Oils or general lubricants can cause
poor electrical connections for radio frequencies.
3. Clean the outside of the aluminum tubing to clear any dirt or foreign material that would cause
the clamps to malfunction during assembly.
5. When assembling the aluminum tubing sections, ensure the area is clear of grass, dirt or other
foreign material that could cause problems during assembly of the closely fitted telescoping
sections.
Assemble the vertical sections in an area that is flat and has sufficient room for the length of the
antenna during assembly. Lay the tubing out in descending OD sizes. Orient the slits in the tubes
toward the top of the antenna. The bottom 2" OD base section has the feedpoint connection hole at
the bottom end. All the sections are 36" long.
Each tubing section is inserted 6" into the next larger tube. Assembly is easier if the overlaps in the
tubing sections are pre-marked. A dark color felt-tip marker works well. Measure and mark 6" from
the end of each tube without the slit using a marker so it will be clearly visible.
- 15 -
Locate the 12 Element Clamps.
Refer to Figure 11 for element clamp sizes and locations. Slide the clamps over each section
before putting them together. Align the clamps on each section facing the same direction. For final
assembly, all the clamps should be positioned very close to the top of each section and the body of
the clamp should be positioned between the slits as shown in Figure 9.
Making sure dirt or grass does not adhere to the sections to be joined, insert the marked end of an
element tube into the next sized element tube until the 6 inch mark on the element tube is even with
the top of the larger element tube section. Position one of the element clamps at the very end, but
not hanging over the edge. Make sure the body of the element clamp is positioned between the slits
and tighten securely. Repeat the procedure with the marked end of the elements and the other
element tubes using one of the element clamps as you work your way up the antenna length.
Continue mating the smaller tubes inside the larger ones. Double-check the vertical sections you
have just assembled.
Figure 10
- 16 -
Figure 13 - Finished
Antenna Assembly
- 17 -
Mating the Vertical Sections to the Tilt Base
Note: A pair of sawhorses or ladders should be used to support the vertical sections
during assembly with the Tilt Base and whenever the vertical is tilted down. Do not
allow the tilt-base to support the entire weight of the vertical when horizontal.
When the upper element sections are assembled together install the black vinyl cap in place at the
top of the smallest element section.
Mate the vertical sections to the base tube section by sliding the bottom 1-7/8" OD element of the
vertical into the 2" OD base section element (which was previously mounted to the insulated
channel) to the 6" mark you previously made. See Figure 11. The two sections will have a snug fit,
so use a small amount of Penetrox A on the bottom section to make the fit easier. Slide the band
clamp down between the slits, and tighten.
The tilt-base certainly makes it easier however, this antenna can be challenging to put up the first
time or with gusty winds. If you have properly laid out your optional guy system in advance, it will
help keep the vertical stable as you raise it – and stop you from
going beyond vertical at the apex of the lift.
Make sure the optional guy ropes are in the clear before you
begin.
Starting from the top of the antenna, walk it up slowly using an overhead hand-over-hand motion,
maintaining a slow and steady pace.
- 18 -
The antenna mounting channel must be kept in parallel alignment with the tilt-base plate to prevent
binding until it is positioned in the tilt-base. Once the antenna is vertical, lift and slide the antenna
to the left toward the tilt-base mounting pipe to allow the two parts of the tilt-base to line up and
drop down into the slots. Lightly tighten the top flange nuts on the tilt-base to hold the antenna.
Note: As you raise the antenna to the vertical position, it’s important to
maintain the parallel alignment between the antenna mounting channel
and the Tilt Base backing plate to minimize binding. Make sure the lower
tilt-base bolts are never excessively loose before raising. They should be
first tightened securely and then backed off no more than 1/2 turn
Once the antenna is fully raised, tighten the tilt base hardware (Top: two Nyloc Nuts and two
Flange Nuts, Bottom: two Nyloc Nuts.)
Attach the custom Stainless Steel 90 degree Studded Element Clamps to the UNUN Bracket using
the Aluminum Spacers and #10 Nyloc Nuts as shown in Figure 12. Snug the #10 Nyloc nuts just to
the point that you can still rotate the custom studded element clamps. These Nyloc Nuts will be
tightened later.
Figure 12
- 19 -
Installation of UNUN Assembly to Antenna Lower Section
The completed UNUN and UNUN Mounting Bracket assembly are mounted to the antenna lower
section. To allow easy installation of the UNUN Bracket to the lower base section, open the upper
and lower custom studded element clamps as shown in Figure 13.
Figure 13
Position the UNUN Mounting Bracket so the bottom element clamp is located between the
feedpoint hardware and the U-Bolt as shown in Figure 14. Tighten the element clamps to hold the
assembly in place.
Figure 14
- 20 -
Once in position, re-insert the clamp ends into the worm drive of the clamps and using a flat blade
screwdriver or nut driver, snug them up as shown in Figure 15. Note position of lower clamp is
between the feedpoint hardware and the U-Bolt.
Figure 15
- 21 -
Position the UNUN so it faces forward. Tighten the Upper and Lower Studded Clamps and Tighten
the Nyloc Nuts on the Upper and Lower Clamps Figure 16.
Figure 16
Feedline Connections
The DXE-UN-43 UNUN is attached to the feedline antenna connection using the DXE-TCB-
UNFK - UNUN Feed Point Connection Kit which contains two pre-drilled copper tinned braids for
connection to the vertical antenna system. Both braids are 1" wide by 9" in length. Connect one
braid from the antenna feedpoint located on the base section of the antenna to the terminal on the
DXE-UN-43 UNUN closest to the Red "+" on the label as shown in Figure 17. Do not over
tighten the wing nuts. Hand tighten them only, do not use pliers or other tools to over tighten the
wing nuts.
Connect the other 9" braid from the terminal on the DXE-UN-43 UNUN closest to the Black
"▬" on the label to the closest radial wire bolt on the optional DXE-RADP-3 Radial Plate as
shown in Figure 17. Route both braided cables as shown.
- 22 -
Note: Ensure the braid connection to the Radial Plate does not interfere with the tilting process.
Figure 17
Your coaxial cable from the radio connects direct to the SO-239 connector on the DXE-UN-43
UNUN. Weatherproof this coaxial connection using TRM-06133 - Scotch® Super 33+ and DXE-
3M2155 - 3M Temflex™ 2155 Rubber Splicing Tape.
- 23 -
Figure 18a - Completed Base Assembly for Reference
- 24 -
Figure 18b - Completed Base Assembly for Reference
- 25 -
Tuning the Vertical Antenna System
The use of a customer supplied, high quality, outboard tuner is required for any multi-band trapless
vertical antenna system. The tuner should be capable of tuning the wide range of impedances
presented by the antenna and coaxial cable at all the operating frequencies. Tuners of this type
generally have a good quality variable roller inductor and at least one large variable capacitor for
fine tuning.
There are a number of outboard automatic antenna tuners available that are capable of tuning this
type of high performance vertical antenna system.
Tuners which are built into transceivers lack sufficient impedance tuning range for this type of high
performance vertical antenna system.
The actual impedance of the multi-band antenna is affected by local conditions, including proximity
to structures, other antennas, number of radials, or personal preference for the mounting location. It
may be necessary to adjust the top element section slightly longer or shorter, or to vary the length of
the coaxial cable, if tuning to best SWR is not achieved with your tuner on all bands.
The performance of this versatile, rugged antenna is highly dependent on the ability of your tuner to
deliver a low SWR when tuned. Refer to your tuner user's manual for correct tuner operation.
- 26 -
Guying a Vertical Antenna System
Guying of vertical antennas is always recommended for stability. However, if your area encounters
severe wind velocities or icing conditions, simple guying will reduce the possibility of failure.
Using the DXE-GUY-Kits, you can install four guy ropes starting approximately 1/2 the way up
the vertical antenna system to ground level. Guying should be tightened just enough to permit the
antenna to swing a few inches. The ends of the ropes are tied to the earth anchors that are screwed
into the ground at about the same angle as the ropes will be. When using the Tilt Base, position the
guy wires as shown below. This will make it easy to raise or lower the antenna and only one guy
line needs to be loosened. The other guy lines will help guide the antenna on the way up. Depending
on your antenna system, additional guys at points higher on the antenna may be required.
Typical No Slip
Knot for DXE-SYN-DBR
Double-Braided Dacron DXE-GUY200-Kit
Polyester Rope
Side View
The earth anchors
are approximately
25 feet from the
antenna base
Top View
- 27 -
Optional Accessory Items
DXE-UN-43 - UNUN - 4:1, High Power, for use with Non-Resonant Verticals
DX Engineering high power transmission line transformers with Maxi-CoreTM Technology allow your antenna to
perform to its full potential and reduces the stresses on your equipment more efficiently than similar competitive
products. This UNUN is specifically designed for application with 43-foot non-resonant multi-
band antennas - assuring the best efficiency from your antenna and transmission
line/tuner installation. This results in minimizing the additional transmission lines losses
caused by SWR. It can be added to any existing 43-foot antenna installation, or used to replace
an older competitive UNUN for a performance increase.
1.8 – 30 MHz operating range to cover popular amateur bands.
Handles rated power with minimal energy loss so there is no thermal related failure.
Ratio - 4:1
Impedance: 200 ohms to 50 ohms - optimized for 43 ft verticals
Power Level – 2 KW / 5 KW PEP
Frequency Range – 1.8 to 30 MHz
Weatherproof NEMA enclosure
Silver / Teflon SO-239 input connector
2-3/8" x 4" x 4" inches (HxWxL)
DXE-RADP-3 - Radial Plate, Stainless Steel with 20 Sets of SS Radial Attachment Hardware
The patented DX Engineering Radial Plate is meant for those of you that have or are building a quarter wave
vertical antenna and who want an easy, neat and effective way to connect those essential radial wires and the coax
to your vertical antenna for the lowest takeoff angle and strongest signals. DX Engineering Radial Plate is laser
cut from tough stainless steel so that it has smooth edges, won’t corrode and will always look good. You will be
proud of how good your installation looks. This plate will work perfectly with most commercially available
vertical antennas such as the Hustler BTV series (4-BTV thru the 6-BTV), the SteppIR (BiggIR or SmallIR) or
one of your own construction
- 28 -
DXE-SSVC-2P - Stainless Steel V-Clamp for steel pipe, 2 inch V-bolt
This V-Clamp is made in one size that fits Steel tubing or pipe from 1" to 2'' OD as used in antenna construction. The supplied V-
bolt is long enough to attach tubing to thick plates and is made with anti-corrosive properties. The special Stainless Steel saddle has
serrated teeth will clamp to the pipe securely by biting into the surface. For this reason, it is not recommended for
softer aluminum tubing or pipe. Ideal for fastening a radial plate and antenna mounting to a steel pipe.
Used to clamp 1 to 2'' (OD) steel tubing or pipe
Designed for attachments that don't require resistance to torque
V-bolt and saddle made from high-strength 18-8* stainless steel
The use of an anti-seize compound is HIGHLY recommended to achieve proper torque and prevent galling.
- 29 -
DXE-RADW-500KBD or 1000KBD - Bulk Radial Wire Kits and Components
To achieve optimal performance with a ground-mounted vertical, install as many radials as possible. These bulk radial
wire kit use insulated wire that is UV resistant, hard to see and lays down easily, unlike the wire that is commonly
available at the big box stores. It will last much longer in contact with soil than bare wire. The biodegradable anchors
allow easy installation of radial wires, and will degrade and disappear in a year or so when they are no longer needed. The
DXE-RADW-500 or 1000KBD kit provides everything you will need to build the perfect radial system!
500/1000 ft. spool of 14 AWG, stranded copper wire with vinyl insulation
20/40 lugs
100/200 biodegradable radial wire anchor pins- Eliminating the need to bury your radials!
Build up to 20/40 radials, 25 feet long
DXE-RADW-500KBD Bulk Radial Wire Kit, 500 ft Spool of Wire, 20 Lugs, 100 Biodegradable Staples
DXE-RADW-1000KBD Bulk Radial Wire Kit, 1000 ft Spool of Wire, 40 Lugs, 200 Biodegradable Staples
DXE-STPL - Radial Wire Anchor Pins, 100/pack - No need to bury your radials!
DX Engineering Radial Wire Anchor Pins are perfect for fastening radials below the grass line to eliminate the risk of damaging your
radials during lawn maintenance.
100 count - 6'' Pins
11-Gauge
DXE-STPL-100P Radial Wire Anchor Pins, 100/pack
DXE-STPL-300P Radial Wire Anchor Pins, 300/pack
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DXE-22600 - Deburring Tool with Extending Handle and 2 Blades
Handy for cleaning burrs after cutting or drilling aluminum or steel. This rugged hand tool features an adjustable length blade holder
to allow access to burrs deep inside tubing or other hard to reach places. Extremely versatile and handy.
Includes one blade for aluminum and steel and one blade for cast iron and brass. Holder
telescopes from 1⁄2" to 5" for long reach inside objects. Handle has storage compartment for spare
blades. Blade can be inserted at 90° for deburring cross holes.
Technical Support
If you have questions about this product, or if you experience difficulties during the installation, contact DX Engineering at (330)
572-3200. You can also e-mail us at:
DXEngineering@DXEngineering.com
For best service, please take a few minutes to review this manual before you call.
Warranty
All products manufactured by DX Engineering are warranted to be free from defects in material and workmanship for a period of one (1) year from date of shipment. DX
Engineering’s sole obligation under these warranties shall be to issue credit, repair or replace any item or part thereof which is proved to be other than as warranted; no
allowance shall be made for any labor charges of Buyer for replacement of parts, adjustment or repairs, or any other work, unless such charges are authorized in advance by
DX Engineering. If DX Engineering’s products are claimed to be defective in material or workmanship, DX Engineering shall, upon prompt notice thereof, issue shipping
instructions for return to DX Engineering (transportation-charges prepaid by Buyer). Every such claim for breach of these warranties shall be deemed to be waived by
Buyer unless made in writing. The above warranties shall not extend to any products or parts thereof which have been subjected to any misuse or neglect, damaged by
accident, rendered defective by reason of improper installation, damaged from severe weather including floods, or abnormal environmental conditions such as prolonged
exposure to corrosives or power surges, or by the performance of repairs or alterations outside of our plant, and shall not apply to any goods or parts thereof furnished by
Buyer or acquired from others at Buyer’s specifications. In addition, DX Engineering’s warranties do not extend to other equipment and parts manufactured by others
except to the extent of the original manufacturer’s warranty to DX Engineering. The obligations under the foregoing warranties are limited to the precise terms thereof.
These warranties provide exclusive remedies, expressly in lieu of all other remedies including claims for special or consequential damages. SELLER NEITHER MAKES
NOR ASSUMES ANY OTHER WARRANTY WHATSOEVER, WHETHER EXPRESS, STATUTORY, OR IMPLIED, INCLUDING WARRANTIES OF
MERCHANTABILITY AND FITNESS, AND NO PERSON IS AUTHORIZED TO ASSUME FOR DX ENGINEERING ANY OBLIGATION OR LIABILITY NOT
STRICTLY IN ACCORDANCE WITH THE FOREGOING.
©DX Engineering 2012
DX Engineering®, DXE®, DX Engineering, Inc.®, Hot Rodz™, Maxi-Core™, THUNDERBOLT™, Antenna Designer™, Yagi Mechanical™, and Gorilla Grip®
Stainless Steel Boom Clamps, are trademarks of PDS Electronics, Inc. No license to use or reproduce any of these trademarks or other trademarks is given or implied. All
other brands and product names are the trademarks of their respective owners.
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