DX Engineering Hot Rodz DXE-HR-1P, Hot Rodz DXE-HR-1P-INS User Manual

Hot Rodz®

Adjustable Capacity Hat

DXE-HR-1P

DXE-HR-1P-INS Revision 1b

US Patent # 7,002,525

Shown installed on an
optional Hustler resonator

© 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

Introduction

DXE-HR-1P - Parts List

Quantity

Description

6

6" stainless steel rod

6

12" stainless steel rod

6

24" stainless steel rod

1

Hot Rodz® Hub - US Patent # 7,002,525

1

Allen Wrench

3

8-32 x 1/4" - Long Set Screw (includes one spare)

8

8-32 x 1/8" - Short Set Screw (includes 2 spares)

1

Black Cap, for resonator tip

24

Black Tip Cap, for stainless steel rod

The DX Engineering Hot Rodz® is an adjustable capacity hat system that increases the efficiency
and gain of single-band vertical antennas, such as those from Hustler and Pro Am. Hot Rodz® can
even shorten the height of the antenna by eliminating the need for a whip. Hot Rodz® can also be
used on the Hustler 4, 5 and 6-BTV series antennas by experienced antenna practitioners; however,
the directions in this manual are specifically for mobile antennas.

Part List for the DXE-HR-1P Hot Rodz®

Additional Requirements

You may need the following items that are not included in this package:

SWR Meter. The Configuration guide (Table 2 ) will help you get close to the ideal

antenna size, but a SWR meter is necessary to fine-tune the final assembly.

Antenna Matcher. To match the impedance between your feedline and antenna, use a mobile

matcher such as the DXE-MM-1 Dual Impedance Transformer

Guy Ropes. Depending on the configuration of the Hot Rodz®, your antenna system

may require additional support. SYN-DBR-125-100 1/8 in. Diameter, Dbl­Braid Dacron/Polyester Rope may be used.

- 1 -

Theory of Operation

Radiation Resistance of

6-Foot Mobile Whips

Frequency

Radiation Resistance

1.8 MHz

0.05 Ω

3.5 MHz

0.17 Ω

5.0 MHz

0.35 Ω

7.0 MHz

0.69 Ω

10 MHz

1.42 Ω

14 MHz

2.77 Ω

18 MHz

4.59 Ω

21 MHz

6.24 Ω

24 MHz

8.15 Ω

28 MHz

11.1 Ω

The radiation resistance increases dramatically as

the frequency increases

When an antenna is shortened from its natural resonant length, the feedpoint becomes capacitive.
To offset the additional capacitance, it is common to add inductance in the form of a loading coil to
restore the resonance. However, the additional inductor increases the resistance, which increases the
loss of the antenna. Hot Rodz solve this problem by using a capacity hat - a series of horizontal rods
that counters the effects of shortened vertical antennas.

A Capacity Hat Increases Antenna Efficiency

A capacity hat can be thought of as an extension of the Marconi antenna design that adds horizontal
elements to the design of an otherwise vertical antenna. The currents in Hot Rodz horizontal
elements offset one another and preserve the vertical polarization of the radiated wave.

Table 1 illustrates the real radiation resistance of a 6-foot mobile whip. There is a lot of confusion
about radiation resistance, but one definition is "the resistive component of an antenna feedpoint
impedance caused by radiation from an antenna". Mathematically, radiation resistance is the total
electromotive power divided by the square of the net current causing the radiation. In general, the
greater the radiation resistance, the more efficient the antenna.

Table 1 - Radiation Resistance of 6-Foot Mobile Whips

For instance, a 72-inch, 20 Meter whip antenna with a SWR of 1:1 has a feedpoint impedance of

50 Ω. However, Table 1 shows the true radiation resistance of the antenna is somewhere near 3 Ω,
which means the loss in the system is 47 Ω (50 Ω - 3 Ω) and the radiation efficiency is 6%
(3Ω / 50 Ω). Therefore if an operator uses a 100-watt transmitter in the car, 94 watts are used to heat

the air and only 6 watts remain for communication. The loading coil and ground system generate a
loss of 94 watts; but if we remove the loss from the loading coil, then the base impedance drops by
the amount of the loss in the coil.

- 2 -

When we add a capacity hat, the inductor (resonator) can be reduced, which lowers the resistance.
As stated above, a reduction in the resonator resistance is reflected in the feedpoint resistance. In
this case, the base impedance of the antenna drops to about 16-22 Ω when you increase the
efficiency of the antenna with Hot Rodz®.

If the base impedance is reduced from 50 Ω to 20 Ω when the antenna's radiation resistance is really
3 Ω, then the loss is reduced from 47 Ω to just 17 Ω and the efficiency improves from 6% to 15%

(3 Ω / 20 Ω). This improved efficiency more than doubles the RF power radiating from your

antenna. Any matching problems at the feedpoint will be handled by your rig's antenna matcher or
with the DX Engineering DXE-MM-1 Dual Impedance Transformer.

Installation and Maintenance

While DX Engineering Hot Rodz® make it easy to modify Hustler mobile resonators and whips, we
suggest you read these instruction carefully before you begin the process.

Safety Considerations

 Hot Rodz® create additional aerodynamic drag. While Hot Rodz® have been made as

aerodynamic as possible, additional guying of your antenna may be necessary.

 Install the plastic caps over the ends of all exposed rod ends. The ends may be sharp and can

cause injury.

 Keep the end of the rods inside the body lines of your vehicle.
 High voltage exists on your antenna and the Hot Rodz®. Transmit only when people are a

safe distance away.

 Be aware that Hot Rodz® makes your antenna diameter larger. Use caution when driving

near pedestrians, and in crowded or confined areas.

Assembling the Antenna

1. Refer to Table 2 to select the resonator and stainless steel rods for the desired frequency.

2. Mount the patented Hot Rodz® Hub to the Hustler resonator flush with the flat area below the

whip mounting threads as shown in Figure 1.

3. If you are not using the whip, then use the larger plastic cap over the end of the threads.

4. Place the correct number of the smaller caps over one end of the stainless steel rods you have

chosen to use.

5. Insert the stainless steel rods into the hub in the configuration shown in Table 2.

- 3 -

6. Install the resonator and Hot Rodz® assembly to the antenna mast.

7. Adjust the stainless steel rods and the whip (if installed) for the lowest SWR for the desired

frequency.

8. Refer to 'Determining the Length of the Rods" for rod lengths.

Figure 1 - Typical installation - optional RM-40 resonator shown as an example.

- 4 -

Determining the Length of the Rods

To determine the lengths of the rods, refer to Table 2 and do the following:

1. Beginning with the leftmost column of Table 2, read down successive columns of numbers until

you reach the intended frequency or slightly below.

2. Note the configuration in the first column associated with that frequency.

3. If that configuration is acceptable, then build the design as outlined in "Assembling the

Antenna".

4. If that configuration is not acceptable - too many rods or too long, for instance - then read down

the next column to the right to obtain the desired frequency.

5. If the configuration is still not acceptable, then continue reading columns until you find an

acceptable arrangement for the frequency of interest.

Notes:

To achieve the highest efficiency, use the smallest resonator possible for the desired frequency.
To adjust the antenna to a frequency not listed on Table 2, refer to "Selecting the Frequency".

- 5 -

Selecting the Frequency

The rods can be adjusted to nearly any frequency. If the desired
frequency lies outside the listings on Table 2, simply follow the
directions below to fine-tune your system.

Lowering the Frequency

To lower the frequency of a Hot Rodz® equipped antenna, do the
following until you achieve the desired results:

1. Move the rods out from the center to form a larger capacity hat.

2. Add more stainless steel rods (6 maximum).

3. Use longer rods.

4. Add a whip.

5. Extend an existing whip further in length.

Increasing the Frequency

To raise the frequency of a Hot Rodz® equipped antenna, do the
following until you achieve the desired results:

1. Move the rods in toward the center to form a smaller capacity

hat.

2. Add fewer stainless steel rods.

3. Use shorter rods.

4. Remove an existing whip.

5. Retract an existing whip (less length).

Installation example for 40 Meters

Ordinarily mobile operation on 40 Meters requires users to install a 40 Meter coil and 32-inch whip
on a Hustler MO-2 mobile mast, resulting in an antenna about 102 inches high (54 inches for the
MO-2 and 48 inches for the resonator and whip). This combination resonates at about 7.16 MHz.
From the chart you can see that by using DX Engineering Hot Rodz® you can install a Hustler 20
Meter coil (RM-20) and the 24-inch rods (supplied) and the 12-inch whip that resonates even lower
at 7.1 MHz, but is only 78 inches high!

As a result, the base impedance drops to 20 Ω, a decrease of approximately 30 Ω resistance from
your antenna system. This may not present a problem for you. This combination successfully was
used with and automatic tuner in an FT-900 radio and excellent reports were received. The DXE-
MM-1 Dual Impedance Transformer will make it easier on your rig's tuner and may increase the
frequency range that you can achieve a low SWR.

- 6 -

Standard Installation - Hot Rodz® Configuration Guide

Standard Hot Rodz Configurations

Frequency (MHz) for RM Resonator and MO-2 Mast

RM10

RM11

RM12

RM15

RM17

RM20

RM20S

RM30

RM40

RM40S

RM80

(3) 6” Rods, Centered

27.1

27.1

25.6

21.4

21.2

15.7

15.6

11.1 — 8.6

—

(6) 6” Rods, Centered

27.0

26.4

25.0

21.0

20.7

15.3

15.3

10.9 — 8.5

—

(3) 6” Rods, Extended

26.1

25.4

24.0

20.2

19.8

14.8

14.8

10.5 — 8.3

—

(3) 6” Rods, Centered, 12” whip

23.6

23.0

21.7

18.0

17.9

13.3

13.7

9.7 — 7.7

—

(6) 6” Rods, Extended

23.5

22.9

21.7

18.0

17.6

13.2

13.7

9.7

7.7

7.7

4.2

(6) 6” Rods, Centered, 12” whip

23.3

22.7

21.4

17.8

17.6

13.2

13.5

9.6 — 7.7

—

(3) 12” Rods, Centered

23.0

22.5

21.2

17.5

17.4

13.0

13.4

9.5

7.5

7.6

4.1

(3) 6” Rods, Extended, 12” whip

22.6

22.1

20.9

17.3

17.0

12.8

13.1

9.4 — 7.5

—

(6) 12” Rods, Centered

22.3

21.7

20.5

16.9

16.7

12.6

13.0

9.2

7.4

7.4

4.0

(6) 6” Rods, Extended, 12” whip

21.2

20.6

19.4

16.1

15.8

12.0

12.5

8.8

7.1

7.1

3.8

(3) 12” Rods, Extended

21.1

20.5

19.3

16.0

15.9

11.8

12.4

8.8

7.0

7.1

3.8

(3) 12” Rods, Centered, 12” whip

21.0

20.3

19.1

15.9

15.6

11.8

12.3

8.7

7.0

7.0

3.8

(6) 12” Rods, Centered, 12” whip

20.5

19.9

18.6

15.5

15.2

9.5

12.0

8.6

6.9

6.9

3.7

(3) 12” Rods, Extended, 12” whip

19.4

18.7

17.6

14.8

14.5

10.8

11.6

8.2

6.5

6.6

3.6

(6) 12” Rods, Extended

17.8

17.2

16.2

13.7

13.4

10.2

10.7

7.6

6.1

6.2

3.3

(3) 24” Rods, Centered

17.2

17.2

16.0

13.8

13.2

10.0

10.7

7.5

6.1

6.2

3.3

(6) 12” Rods, Extended, 12” whip

16.9

16.4

15.5

13.1

12.8

10.5

10.3

7.3

5.9

5.9

3.2

(3) 24” Rods, Centered, 12” whip

16.7

16.4

15.3

13.1

12.9

9.6

10.2

7.1

5.8

5.9

3.2

(6) 24” Rods, Centered

16.5

16.4

15.4

13.1

12.7

9.5

10.7

7.3

5.9

6.0

3.2

(6) 24” Rods, Centered, 12” whip

15.9

15.7

14.9

12.4

12.4

9.2

9.8

7.0

5.7

5.8

3.1

(3) 24” Rods, Extended

15.9

15.3

14.7

12.2

12.2

9.0

9.8

6.7

5.5

5.7

3.0

(3) 24” Rods, Extended, 12” whip

15.2

14.7

13.9

11.6

11.4

8.6

8.5

6.5

5.4

5.4

2.9

(6) 24” Rods, Extended

13.1

12.5

11.8

10.0

9.9

7.3

8.1

5.7

4.6

4.7

2.5

(6) 24” Rods, Centered, 12” whip

12.9

12.3

11.6

9.9

9.6

7.1

7.9

5.6

4.5

4.6

2.5

Optional Hot Rodz® Configurations

(3) 48” Rods, Centered

13.0

12.4

11.8

10.0

9.6

7.4

7.9

5.6

4.6

4.7

2.5

(6) 48” Rods, Centered

12.2

11.8

11.3

9.3

9.4

6.9

7.5

5.4

4.4

4.5

2.4

(3) 48” Rods, Extended 32” whip

12.0

11.5

10.9

9.1

9.0

6.9

7.4

5.3

4.3

4.4

2.3

(3) 48” Rods, Extended

11.8

11.2

10.6

9.0

8.8

6.6

7.3

5.2

4.1

4.3

2.2

(6) 48” Rods, Centered, 32” whip

11.6

11.2

10.5

8.9

8.8

5.0

7.1

5.0

4.1

4.3

2.2

(3) 48” Rods, Extended, 32” whip

11.0

10.4

9.9

8.5

8.5

6.3

6.9

4.8

3.9

4.1

2.1

(6) 48” Rods, Extended

9.0

8.7

8.7

6.8

6.7

5.1

5.6

4.0

3.3

3.4

1.8

(6) 48” Rods, Extended, 32” whip

8.6

8.5

8.1

6.6

6.6

6.7

5.5

3.9

3.2

3.3

1.7

Extended = Adjust the rods away from the Hub as far as possible
Centered = Adjust the centers of the rods so they are at the center of the Hub.

Table 2 - Hot Rodz® Configuration Guide - Standard Installation

To determine the proper configuration for a Hot Rodz® antenna, refer to "Determining the Length
of the Rods" on Page 5.

- 7 -

Dual Installation - Hot Rodz® Configuration Guide

Dual Rod Configurations

Frequency (MHz) for RM Resonator and MO-2 Mast

RM10

RM11

RM12

RM15

RM17

RM20

RM30

RM40

RM80

(3) 6" Rods, Centered

25.7

25.4

24.3

19.8

19.7 - 10.4 - -

(6) 6" Rods, Centered

25.1

24.8

23.7

19.2

19.1

14.2

10.3

8.1

4.4

(3) 6" Rods, Extended

23.2

22.9

21.8

18.0

17.6 - 9.6 - -

(3) 6" Rods, Centered, 12" whip

22.6

22.3

21.1

17.2

17.0 - 9.3 - -

(6) 6" Rods, Centered, 12" whip

22.2

22.1

21.0

17.1

16.8

12.6

9.2

7.4

4.0

(6) 6" Rods, Extended

21.1

21.0

19.8

16.1

15.9

11.9

8.9

7.1

3.9

(3) 6" Rods, Extended, 12" whip

20.9

20.7

19.3

16.1

15.9 - 8.8 - -

(3) 12" Rods, Centered

20.5

20.3

18.9

15.7

15.8

11.6

8.6

7.0

3.8

(6) 12" Rods, Centered

19.9

19.9

18.4

15.2

15.1

11.2

8.4

6.8

3.7

(6) 6" Rods, Extended, 12" whip

19.4

19.1

18.0

14.9

14.8

11.0

8.3

6.7

3.6

(3) 12" Rods, Centered, 12" whip

19.0

18.6

17.6

14.6

14.8

10.8

8.1

6.6

3.6

(6) 12" Rods, Centered, 12" whip

18.6

18.1

17.2

14.3

14.2

10.6

7.9

6.4

3.5

(3) 12" Rods, Extended

17.6

18.8

16.4

13.6

13.4

10.0

7.5

6.1

3.4

(3) 12" Rods, Extended, 12" whip

16.7

17.8

15.7

12.9

12.8

9.5

7.2

5.9

3.2

(6) 12" Rods, Extended

15.4

15.1

14.5

11.8

11.7

8.8

6.7

5.5

3.0

(3) 24" Rods, Centered

15.1

14.8

14.1

11.7

11.8

8.6

6.6

5.4

2.9

(6) 12" Rods, Centered, 12" whip

14.9

14.6

13.9

11.5

11.4

8.5

6.5

5.3

2.9

(3) 24" Rods, Centered, 12" whip

14.7

14.4

13.8

11.3

11.2

8.4

6.4

5.3

2.9

(6) 24" Rods, Centered

14.5

14.4

13.6

11.3

11.4

8.3

6.4

5.3

2.9

(6) 24" Rods, Centered, 12" whip

14.3

14.0

13.3

11.0

10.9

8.2

6.2

5.2

2.8

(3) 24" Rods, Extended

12.7

12.5

11.8

9.8

9.7

7.2

5.6

4.6

2.5

(3) 24" Rods, Extended, 12" whip

12.4

12.2

11.6

9.6

9.5

7.1

5.5

4.6

2.5

(6) 24" Rods, Extended

10.8

10.6

10.0

8.3

8.2

6.1

4.8

4.0

2.2

(6) 24" Rods, Centered, 12" whip

10.7

10.5

10.0

8.3

8.2

6.1

4.7

3.9

2.1

(6) 24" Rods, adjusted to 18"

14.0 - - - -

7.0 - -

-

(6) 24" Rods, Extended, 32" whip

-

10.6

9.6

7.9

7.9 - 4.6

3.8

2.1

Extended = Adjust the rods away from the Hub as far as possible.
Centered = Adjust the center of the rods so they are at the center of the hub.

Table 3 - Dual Hot Rodz® Configuration Guide

To determine the proper configuration for a Hot Rodz® antenna, refer to "Determining the length of
the Rods on Page 5.

- 8 -

Optional Items

DXE Part Number

Description

HSR-3774-4

Replacement Ferrules for 10,12,15,17,20,30,40,60,75,75(S) and 80(S) Meter
Hustler Resonator's

HSR-377HDW

Replacement Nut & Ferrules for 10,12,15,17,20,30,40,60,75,75(S) and 80(S)
Meter Hustler Resonators

HSR-49-04-40S

Whip Replacement for RM-40S Super Resonator, Equipped with Corona Ball

HSR-49-04-80S

Replacement Whip for 75 & 80m Super Resonators, Equipped with Corona Ball

DXE-MM-1 - Transformer Dual Impedance

The MM-1 is a dual ratio UN-UN (unbalanced to unbalanced transformer). Great for coupling your
50Ω coax to an antenna with a feed point impedance of either 25 or 12.5Ω, typically found in a
mobile environment. Ideal for antennas that have been enhanced with a Hot Rodz® Capacity
Hat. Unit is housed in an aluminum enclosure and uses Silver/Teflon® SO-239 connectors.
MM-1 Power handling capability depends on the match:

Using the 25Ω to 50Ω port, with SWR below 2:1 on the 50Ω side, 750 watts PEP
Using the 12.5Ω to 50Ω port, with SWR below 2:1 on the 50Ω side, 500 watts PEP

SYN-DBR-125-100 - 1/8 in. Diameter, Dbl-Braid Dacron/Polyester Rope, 100 ft. Roll

Synthetic Textile Industries Double-braided Dacron/Polyester ropes are not weakened by decay or
mildew and provide excellent resistance to abrasion. The color sealed black polyester yarn used in the
braided jacket also protects the cord from damage due to ultra-violet light.

 100' spool - 1/8'' diameter rope - Double-braided Dacron/Polyester rope - Excellent resistance to

abrasion - NOT weakened by decay or mildew - UV-Resistant - Rated for a load of 420 lbs

Hustler Standard and Super Resonator Parts

HSR-3774-4 HSR-377HDW
For older resonators For older resonators

HSR-49-04-40S

HSR-49-04-80S

DXE-HR-2P - Screwdriver Antenna Hot Rodz®, Hub & 3 Sets of Rods
The DX Engineering Hot Rodz® is an adjustable capacity hat system that increases the
efficiency and gain of single-band vertical antennas. Hot Rodz® can even shorten the
height of the antenna by eliminating the need for a whip.

When an antenna is shortened from its naturally resonant length, the feedpoint becomes
capacitive. To offset the additional capacitance, it is common to add inductance in the
form of a loading coil to restore the resonance. However, the additional inductor
increases the resistance, which increases the loss in the antenna. Hot Rodz® solve this
problem by using a capacity hat-a series of horizontal rods that counters the effects of
shortened vertical antennas.

- 9 -

Hustler Standard and Super Resonators

DXE Part #

Part Name

Body OD

Length

Whip Length

HSR-RM-10

10 Meter Hustler HF Resonator 150-250 kHz

5/8"

10-1/4"

12-1/2"

HSR-RM-12

12 Meter Hustler HF Resonator 100-150 kHz

5/8"

11-3/8"

18-1/4"

HSR-RM-15

15 Meter Hustler HF Resonator 100-150 kHz

5/8"

11-3/8"

12-1/2"

HSR-RM-17

17 Meter Hustler HF Resonator 120-150 kHz

5/8"

11-3/8"

22-1/2"

HSR-RM-20

20 Meter Hustler HF Resonator 80-100 kHz

13/16"

13"

18-1/2"

HSR-RM-30

30 Meter Hustler HF Resonator 50-60 kHz

1-3/8"

13-1/4"

18-1/2"

HSR-RM-40

40 Meter Hustler HF Resonator 40-50 kHz

1-3/8"

17"

32"

HSR-RM-60

60 Meter Hustler HF Resonator 40-50 kHz

1-3/8"

18-3/8"

40-1/4"

HSR-RM-80

80 Meter Hustler HF Resonator 25-30 kHz

1-3/8"

19-3/4"

40-1/4"

HSR-RM-40S

40 Meter Super HF Resonator 50-80 kHz

3-1/8"

16-3/4"

32-1/2"

HUS-RM-80S

80 Meter Super HF Resonator 50-60 kHz

2-1/8"

22-1/4"

40-3/4"

Individual Hustler Resonators are available for 10, 12, 15, 17, 20, 30, 40, 75 and 80 Meters. The standard
resonators can handle 400 watts P.E.P. The Super Resonators, (S) which can handle 1 kW P.E.P. and have
slightly more bandwidth, are available for 40 and 80 Meters. Use these resonators with Hustlers' mounts,
mobile masts and other accessories to build a custom mobile antenna.

Whips:

- 10 -

Aluminum Mast, 3/8 x 24 Female Threads

DXE Part Number

Description

DXE-MT-24

24 in. Aluminum Mast, 3/8 x 24 Female Threads

DXE-MT-36

36 in. Aluminum Mast, 3/8 x 24 Female Threads

DXE-MT-48

48 in. Aluminum Mast, 3/8 x 24 Female Threads

DXE-MT-54

54 in. Aluminum Mast, 3/8 x 24 Female Threads

DXE-MT-60

60 in. Aluminum Mast, 3/8 x 24 Female Threads

DXE-MT-72

72 in. Aluminum Mast, 3/8 x 24 Female Threads

24 to 72 in. long, heavy duty 1/2 in. thick OD, 6061 Aluminum mast

 6061 thick wall Aluminum mast
 Both ends threaded 3/8"-24 female
 Both ends knurled to offer better grip when tightening
 Can be used to construct custom mobile or base vertical antennas

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 r eplace 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®, DX Engineering THUNDERBOLT™, DX
Engineering Yagi Mechanical®, EZ-BUILD®, TELREX® 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.

Specifications subject to change without notice.

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