0 im-6602b.book
Horizontally Polarized FM
Broadcast Antenna
Model
6602B
Instruction Manual
Installation, Operation, &
Maintenance
Congratulations!
Thank you for purchasing one of the finest FM broadcast antennas on the
market today. The Shively Labs Model 6602B is widely recognized as the topof-the-line in its class for its superior performance and durability.
Your purchase is backed by the best technical support in the industry. Shively
is a leading manufacturer in the broadcast industry, providing an extensive
range of antennas, filters, transmission line and components. Our technical
staff has a wealth of experience in the broadcast industry and is standing by
to serve you in any way.
This manual is intended to give you a basic understanding of your antenna:
its proper and safe installation, startup, and operation, and troubleshooting
and maintenance information to keep it working satisfactorily for years to
come. Please have everyone involved with the antenna read this manual care-
fully, and keep it handy for future reference.
Meanwhile, please feel free to contact your sales representative at Shively
Labs at any time if you need information or help. Call or write:
Publication No. im-6602B (150520)
2
IMPORTANT
Please read this manual in its entirety before beginning
installation of your antenna!
Failure to follow the installation and operation
instructions in this manual could lead to failure of your
equipment and might even void your warranty!
Table of Contents
Chapter 1 Precautions and Preparation ............................................. 1
Precautions........................................................................................... 1
Before beginning installation .................................................................. 1
Storage prior to installation .............................................................. 1
Check the System............................................................................ 1
Chapter 2 Antenna Installation.......................................................... 3
Precautions........................................................................................... 3
Installing the support pipe ..................................................................... 3
Side-mounted support pipe .............................................................. 3
Figure 1 Support pipe installation .................................................... 3
Table 1 Side-mounted support pipe standoff from tower ................... 3
Top-mounted support pipe............................................................... 4
Installing the radiators........................................................................... 4
Figure 2 Formed mount channel ...................................................... 4
Installation procedure...................................................................... 4
Figure 3 Installation of radiator without radome, exploded view......... 5
Figure 4 Installation of radiator with radome, exploded view ............. 5
Installing the interbay cable harness....................................................... 6
Figure 5 Wrapping and securing the interbay cables ......................... 6
Figure 6 Proper and improper application of splicing tape.................. 7
Chapter 3 Installing the De-Icer System (if applicable) .................... 9
Precautions........................................................................................... 9
De-icer system description ..................................................................... 9
Dual-setting thermostat ................................................................... 9
Electric power ................................................................................. 9
Figure 7 De-Icer electrical schematic diagram................................. 10
Table 2 De-Icer specifications ....................................................... 11
De-icer installation .............................................................................. 11
Installing the de-icer harness ......................................................... 11
Figure 8 Bay junction box installation............................................. 12
Installing the thermostat (if applicable) ........................................... 12
Table 3 Thermostat readings......................................................... 13
Chapter 4 Startup and Operation .....................................................15
Precautions......................................................................................... 15
The antenna ....................................................................................... 15
System sweep (recommended) ...................................................... 15
Checkout ...................................................................................... 15
Operation ..................................................................................... 15
The de-icer system.............................................................................. 16
Shively Labs de-icer control system ................................................ 16
i
Table of Contents
Chapter 5 Maintenance and Troubleshooting ..................................17
Precautions......................................................................................... 17
Maintenance log.................................................................................. 17
Physical inspection .............................................................................. 17
Paint .................................................................................................. 17
Radome removal and reinstallation....................................................... 17
Return policy ...................................................................................... 18
Troubleshooting .................................................................................. 18
Internal arcing .............................................................................. 18
Broad spectrum RF noise ............................................................... 18
High VSWR at startup or during operation....................................... 18
Change in coverage....................................................................... 18
Sample maintenance log...................................................................... 20
ii
Precautions and Preparation
1
Precautions
Precautions and Preparation
WARNING
Don't expose personnel to the medical hazards of intense radio frequency (RF) radiation. Whenever working on the tower in the area of
the antenna, turn off all transmitters and lock them out so that they cannot be turned on accidentally.
For reference on RF safety, see CFR 29, Section 1910.97, the OSHA standard
for exposure to non-ionizing radiation.
Before beginning
installation
Storage prior to installation
Check the System
Keep the antenna system dry. Never store it outdoors. If the antenna gets
wet, you will need to dry it before applying transmitter power.
CAUTION
It is YOUR responsibility to ensure that your installation meets all applicable codes and the centerline-of-radiation requirements of your FCC
construction permit.
Check the parts to be sure that they will fit the support pipe. Have a reliable
tower person, familiar with antennas and coaxial line, inspect the tower and
review the installation drawings before the full rigging crew arrives. If design
problems are found, contact Shively Labs immediately.
Pay particular attention to:
• Frequency of the antenna.
• Freedom from interference by gussets, leg flanges, guy wires and
their attachment points, tower face members, obstruction lights,
and other components.
• Compatibility of coax connectors and and antenna input terminals.
• Use of non-metallic guy sections on the tower in the region to be
occupied by the FM antenna. Ensure that there are no metal guy
wires within ten feet (three meters) of any radiator.
• Proper electrical service for antenna deicers, if applicable.
• The adequacy of the tower structure and guy wires to carry the
windload placed upon them by the antenna, particularly if radomes
are used.
1
Antenna Installation
2
Antenna Installation
Precautions
Installing the support
pipe
WARNING
Don't expose personnel to the medical hazards of intense radio frequency (RF) radiation. Whenever working on the tower in the area of
the antenna, turn off all transmitters and lock them out so that they cannot be turned on accidentally.
The 6602B antenna is designed to mount on a customer-supplied vertical pipe,
which in turn is mounted on the tower. Mounting is a little different for sidemounted poles and top-mounted poles.
The pipe must be between 2-3/8” and 3-1/2” (60 and 89 mm) nominal outside diameter. It must extend at least five feet (1500 mm) above the top bay
and five feet below the bottom bay.
NOTE
Shively can accommodate other pipe sizes if necessary by special order.
Side-mounted support pipe
Mount your support pipe securely as shown in Figure 1. It must stand off from
the tower as described in Table 1.
Figure 1. Support pipe
installation
Important
Improper antenna mounting is a leading cause of
poor
performance
in
6812B antennas.
It is
very important to install
the antenna as indicated
and to position it away
from other metallic structures.
"A"
Support
Pipe
"B"
Tower
Table 1. Side-mounted support pipe standoff from tower
CAUTION
If you don't get good electrical contact between the
mounts, the support pipe,
and
the
tower,
the
antenna may not perform
as designed and may produce stray signals that will
interfere with other services on the tower.
Tower Face "A"
Standoff "B"
less than 24" (610 mm)
12" (305 mm)
24" - 60" (610 - 1500 mm)
24" (610 mm)
over 60" (1500 mm)
36" (915 mm)
Follow these guidelines:
a. To ensure good electrical contact between the support pipe and the tower,
remove the tower paint and any rust at the support pipe mount locations
before installing the mounts. After installing the mounts, be sure to touch up
the paint where you removed it.
b. Starting at the top of the support pipe, mark the location of each bay in
accordance with the installation drawing.
c. Also, mark the specified location of any accessory mounts (eg: de-icer box
mounts), to make sure they will fit as planned.
3
Antenna Installation
Top-mounted support pipe
If your support pipe is mounted on top of a tower or building, locate the
antenna with at least ten feet (3.1 m) of vertical clearance between the bottom antenna bay and the top of the tower or building. Then mount the pipe in
accordance with the guidelines above.
Installing the radiators
Radiators are mounted to the support pipe by means of formed mount channels (Figure 2). One formed mount channel is required for each bay without
radomes (Figure 3 on page 5); two channels for a bay with radomes (Figure 4
on page 5).
Figure 2. Formed mount channel
Notch for Mounting Pole
U-Bolt Holes
Formed Mount Channel
Antenna Mount Holes
Important!
Feedstrap orientation is critical to performance. In general, all the feedstraps in a full-wave-spaced antenna will be oriented the same, while
those in a half-wave-spaced antenna will alternate. Install each radiator
in accordance with its stenciled bay numbers and its "up-arrow" sticker.
Also, be very careful not to disturb or damage the feed strap when handling the radiator.
CAUTION
Radiators are stenciled with their respective bay numbers (bay #1 is the
topmost bay). Install the radiators in accordance with their match-markings. If you don’t, the antenna may not perform as expected.
NOTE
Radomes are pre-installed and need not be removed for installation.
Installation procedure
a. Remove any paint or corrosion on the support pipe where the formed mount
channel will be located, to ensure good electrical contact.
b. Locate radiator #1 at the topmost mark you made on the support pipe. Using
the U-bolt, nuts, and washers, clamp the formed mount channel and the
radiator assembly to the support pipe, as shown in Figure 3 on page 5 or
Figure 4 on page 5.
c. Mount the radiators to the support pipe by means of formed mount channels
(Figure 4 on page 5). Two formed channels are required for each bay.
d. Repeat for the remaining radiators, ensuring they are in the proper sequence
and oriented correctly per the installation drawing.
4
Antenna Installation
Figure 3. Installation of radiator
without radome, exploded view
Formed Mount
Channel
Type "N" Connector
U-Bolt
Feedstrap
Cable Jumper
Cable Harne
ss
Support Pipe
with Marked
Bay Location
Radiator
Optional De-Icer
Radiator Backplate
Figure 4. Installation of radiator
with radome, exploded view
Formed Mount Channel
Spacer
U-Bolt
Type "N" Connector
Support Pipe
with Marked
Bay Location
Cable Jumper
Radiator Encased
in Radome
Interbay Cab
le
Harness
Radiator Centerline
Drain Holes
3/8" Hardware
Radome Backplate
e. Sight vertically along the installation to ensure the radiators are aligned
before finally securing them to the support pipe.
f. Touch up the paint on the support pipe as necessary to protect from
corrosion.
5
Antenna Installation
Installing the interbay
cable harness
CAUTION
Tighten the connector nuts finger-tight only. Using pliers or other
mechanical means to tighten the connectors may damage them.
CAUTION
The minimum bend radius of the RF cable is 1 inch (25.4 mm).
a. Locate the end of the harness that is marked "Bay 1." Attach that end to
radiator #1, using one of the cable jumpers.
b. The rest of the harness should naturally fall into place. Using cable jumpers,
attach the interbay cable harness to the remaining radiators, as shown in
Figure 5 on page 6.
Figure 5. Wrapping and securing
the interbay cables
Cable
Jumper
Tie to Pole
Using Tie-Wraps
(Not Metal Fasteners)
Interbay
Cable
Harness
Not to Scale
Cable
Jumper
CAUTION
Do not use metal ties, which can damage the cable.
c. Fasten the feedline to the pipe with the tie-wraps provided.
CAUTION
If splicing tape is not applied correctly, water can get into the coax connections and affect the performance and reliability of your antenna.
d. Make sure the fittings and coax are clean and dry. Apply Scotch 130C
Linerless Rubber Splicing Tape with the tacky side up (see Figure 6 on page
7).
6
Antenna Installation
e. Stretch tape and apply half-lapped to form a smooth, void-free splice. Wrap
tightly in and around the area where the connection is made. Make sure the
joint is fully covered, but do not seal up against the bulkhead plate.
f. Inspect the connection carefully, ensuring that the joint is fully sealed. If
more splicing tape is needed, simply add it to the existing wrap. It adheres
well to itself.
CAUTION
To prevent damage, secure all coax to minimize wind-induced motion
and chafing.
g. Tie all coax to the mounting pipe to prevent it from damage.
Figure 6. Proper and improper
application of splicing tape
Bulkhead Plate
Seal only this area.
Coax Cable
Water may enter here ... and drain away here.
Radiator
Correct Installation
Do not cover this area.
Coax Cable
Radiator
Water may enter here
and be trapped under the sealant,
migrating into the cable.
Incorrect Installation
7
Installing the De-Icer System (if applicable)
3
Installing the De-Icer System (if applicable)
Precautions
WARNING
Installation should be performed only by personnel
experienced in RF systems, qualified in electrical work, and familiar
with this equipment.
WARNING
Don't expose personnel to the medical hazards of intense radio frequency (RF) radiation. Whenever working on the tower in the area of
the antenna, turn off all transmitters and lock them out so that they cannot be turned on accidentally.
CAUTION
All parts of the de-icer system within approximately 20 feet (6 meters) of
any radiator must be shielded from RF energy, and the entire outdoor
portion of the system must be made waterproof.
CAUTION
An improperly installed de-icer can overheat and damage your antenna.
De-icer system
description
The de-icer system consists of the heating elements in the bays, their branch
cables, and the main harness. The main harness consists of a bay junction box
for each antenna bay, interbay cables, and a "pigtail" of wires about 10 feet (3
meters) long which you will connect to the tower junction box you are to provide. The following will help in installation:
• System electrical schematic: Figure 7 on page 10.
• Electrical specifications: Table 2 on page 11.
• Bay junction box: Figure 8 on page 12.
• Thermostat readings: Table 3 on page 13.
Your system may also include specially-ordered items, such as a groundmounted main control box, a power cable extending up the tower, or a towermounted dual-setting thermostat.
Dual-setting thermostat
CAUTION
Remember that conditions may be favorable for icing on the tower, even
if they are not on the ground.
Shively Labs deicers are designed to prevent ice from forming on antenna elements and are not designed to melt ice that has already formed. For this reason, Shively Labs recommends that the system be installed with a towermounted dual-setting thermostat assembly (Shively Labs Model 55522-G502)
and de-icer control box (Shively Labs Model 94068) that ensure the deicers
are operated in the temperature range ice is most likely to form.
Electric power
The de-icer system requires 220 VAC, 50 - 60 Hz., single-phase. Table 2 shows
approximate heater leg resistances and current draw, respectively.
9
Installing the De-Icer System (if applicable)
Figure 7. De-Icer electrical
schematic diagram
Cable Shield
is Ground
Antenna Bays
Top Bay
Junction Box
Cable Shield
is Ground
Intermediate
or Bottom Bay
Junction Box
Cable Shield
is Ground
NOTE
Customer-supplied items
are shown in broken lines.
Tower
Junction Box
(by customer)
NOTE
De-Icer Control Box (optional)
A liquid-tight conduit connector (3/8" conduit size
by 1/2" hub size) for the
harness entry to the
tower junction box, is
packed loose with the deicer harness.
A B
Main
T1 T2 S/P Contactor
Thermostat
Circuit Fuses 1A
L1 C
L2 C
240V 1Ø
Main N T1 T2
Switch
30-Amp
Rated N T1 T2
Line Fuses
up to 30A
NOTE
Shively recommends the
use of shielded braided
polyethylene-covered wire
or rubber-sheathed flexible metal conduit or rigid
conduit and weather-tight
fittings at all junctions.
N T1 T2
S
L L C S S P
1 2 O 1 2 A
C C I
R
L
E
Cable Shield
is Ground
Tower-Mounted
Dual-Setting Thermostat
(optional)
ON
OFF
AUTO
SEL
SW
Heat-On
Indicator
P/L
Opens below
Closes below
~10° F (-7° C) ~38° F (3° C)
Control Box Door
10
Installing the De-Icer System (if applicable)
Table 2. De-Icer specifications
Heater Leg
Resistance, 
Heater Leg
(T1 or T2)
Current Draw,
amps
1-Bay
203
0.6
2-Bay
101
1.2
3-Bay
68
1.8
4-Bay
51
2.4
5-Bay
41
3.0
6-Bay
34
3.6
7-Bay
29
4.1
8-Bay, single circuit
25
4.7
10-Bay, single circuit
20
5.9
12-Bay, single circuit
17
7.1
14-Bay, single circuit
14
8.3
16-Bay, single circuit
13
9.5
De-icer installation
Installing the de-icer
harness
a. Install the main de-icer harness with its bay junction boxes as shown in
Figure 7 on page 10 and Figure 8 on page 12. Connect the leads from each
bay’s de-icer pigtail to the main harness in that bay’s junction box as shown.
CAUTION
It is important to ground both the tower junction box and the control
box, as shown in the schematic diagrams.
b. Furnish a tower junction box as shown schematically in Figure 7 to connect
the antenna’s de-icer harness to the main power.
CAUTION
Shively Labs's de-icer
control box, Model 94068,
is designed for interior
installation only.
c. Using tie-wraps, secure the entire length of the de-icer harness to the RF
feedline at about 24" (60 cm) intervals. Run the ten-foot de-icer pigtail along
a feedline mount to the tower junction box and secure it to the mount and
the tower.
11
Installing the De-Icer System (if applicable)
Figure 8. Bay junction box
installation
NOTE
Wire nuts, cover with
screws, and gaskets, and
tie-wraps are provided
with the de-icer cable
harness.
Main de-icer harness
with boxes attached
Top boss at bay #1
has sealed plug.
Junction box
cover
Position hose clamps
over junction box
bosses with adjustment
screw against boss,
not against feedline.
T1 (all
red wires)
O-ring seal washer, ref.
(rubber toward box)
T2 (all
black wires)
De-icer pigtail from
antenna bay radiator
N ( all
white wires)
Junction box
Boss on
junction box
Support pipe
(by customer)
Hose clamp
Main de-icer harness
with boxes attached
Installing the thermostat
(if applicable)
If you are using a thermostat, you may locate and mount it at your discretion.
We recommend mounting it as close as practical to the antenna.
CAUTION
When testing the thermostat, be sure to have one or both thermostat
leads disconnected before taking resistance readings. Otherwise, readings may be affected by other components.
a. Before you connect the thermostat, measure the resistance across the
thermostat circuit and from it to ground to ensure that there are no shortcircuits. Thermostat readings should be as shown in Table 3 on page 13.
b. Mount the thermostat near the antenna and connect the thermostat leads to
points S1 and S2 in the control box as shown in the schematic diagram,
Figure 7 on page 10.
12
Installing the De-Icer System (if applicable)
Table 3. Thermostat readings
Reading
Location
Ambient
Temperature
Resistance =
0 ohms
(short circuit)
Resistance =
infinite ohms
(open circuit)
Any
Defective thermostat or shorted
leads
OK
Above about 38° F
(3.3° C)
Defective thermostat or shorted
leads
OK
Between about 10°
and about 38° F
(-6.7° to 3.3° C)
OK
Defective thermostat or broken leads
Below about 10° F
(-6.7° C)
Defective thermostat or shorted
leads
OK
Leg-toGround
Leg-to-Leg
13
Startup and Operation
4
Precautions
Startup and Operation
CAUTION
A high voltage standing wave ratio (VSWR) may indicate damaged transmission line or incorrectly assembled components. This condition will
cause serious damage to your equipment when full power is applied.
The antenna
System sweep
(recommended)
Shively Labs strongly recommends that you perform a system sweep of your
transmission line and antenna while you have the installation crew on site.
Should any problems arise later with your antenna, it will be extremely helpful
to know what the system’s characteristics were when it was new. We recommend you perform a system sweep after installation.
Many riggers can sweep your system after installation or recommend a contractor to perform it. Alternatively, Shively Labs makes available instructions
for system sweep on our Web site, www.shively.com.
Checkout
Before beginning checkout of the antenna system, be sure the following items
have been done:
• The antenna system has been installed in accordance with this
manual and the installation drawing.
• The de-icer system, if purchased, has been checked out in accordance with Chapter 1.
• All radiators are operating and VSWR is low.
• System sweep data, if desired, have been recorded.
Check the system out as follows:
a. Bring up RF power slowly and observe transmitter readings, stability, and
general operation.
b. Run at about half power for at least an hour, reading forward and reflected
power, stability, etc.
c. If the system is stable and seems to be operating properly, bring it up to full
power. Take initial and periodic readings.
d. Performance readings should not change, and there should be no evidence
of heating in the antenna system.
Operation
CAUTION
Don't exceed the rated power capacity of the antenna.
To obtain the best performance and dependability, read and follow the maintenance and troubleshooting recommendations in Chapter 1 of this manual.
15
Startup and Operation
The de-icer system
CAUTION
Don't leave the de-icer on for extended periods when the weather is
above 60° F (16° C); doing so may shorten the life of the heater element(s).
There is a generous margin of safety built into the de-icer system, and operation for prolonged periods below 60° F (16° C) will not harm the system. If
icing conditions are expected, the heaters should be turned on in advance as a
preventive measure. It is much easier to prevent ice formation than to remove
a heavy coating.
Shively Labs de-icer control
system
If you have the Shively Labs de-icer control box and dual-setting thermostat,
you have the choice of manual or automatic operation. There are three switch
settings: AUTOMATIC, OFF, and MANUAL.
• When the switch is set to AUTOMATIC, the thermostat turns the
heaters on and off according to the temperature.
• When the switch is set to OFF, the thermostat is overridden and the
heaters will stay off no matter what the temperature.
• When the switch is set to MANUAL, the thermostat is overridden
and the heaters will stay on no matter what the temperature.
16
Maintenance and Troubleshooting
5
Maintenance and Troubleshooting
Precautions
WARNING
Maintenance should be
performed only by personnel experienced in RF
systems and familiar with
this equipment.
WARNING
Don't expose personnel to the medical hazards of intense radio frequency (RF) radiation. Whenever working on the tower in the area of
the antenna, turn off all transmitters and lock them out so that they cannot be turned on accidentally.



Maintenance log
Shively recommends that you keep a maintenance log, recording important
performance parameters such as VSWR readings, de-icer current draw, maintenance done on the tower and the antenna, and severe weather events. This
information can be valuable for identifying and solving problems. Sample
maintenance log on page 20 shows a suggested log form.
Physical inspection
The antenna system should operate for years if properly installed and maintained. Shively Labs recommends that as a minimum, the antenna should be
physically inspected at least once a year.
In addition, inspect the antenna after severe weather events, and after climbers have been on the tower working on equipment above the antenna.
Important
Give your antenna a full
inspection at least once
per year!
In addition to checking the general condition of the antenna and coax:
• Replace dented, broken or bent components.
• Inspect radomes for cracks and plugged drain holes.
• Re-tighten all hardware, hose clamps, and U-bolts to installation
specifications.
• Inspect hose clamps and U-bolts carefully for signs of wear or
fatigue caused by vibration or tower movement.
Paint
The radiators should never be painted (a coating of paint affects VSWR), and
they need no surface protection, since they are made of copper and brass.
This includes Teflon or other "ice-prevention" coatings.
It is not necessary to paint the feedline, although no harm will result from
doing so.
Radome removal and
reinstallation
If it becomes necessary to remove a standard radome to gain access to the
radiator, first remove the radiator as described above and bring it to the
ground. If the antenna is to be operated without that radiator, be sure to
observe all precautions.
On the ground, merely remove the ten bolts that secure the radome halves
together, and the four additional 3/8” bolts securing the formed channel to the
radome backplate, and lift the radome away from the radiator. Reinstall the
radome and the radiator in the reverse order of removal. Re-seal the radome,
using Dow Corning 732 Multipurpose RTV or equivalent.
17
Maintenance and Troubleshooting
Return policy
When returning any material to the factory, be sure to call your salesman and
obtain an authorized return (AR) number first. Use this number in all correspondence. This number helps us to track your returned item. It will expedite
repair or replacement and prevent loss of your material.
Troubleshooting
Cantact Shively Labs if necessary to help find the cause of your problem. Outside of 8:00 AM to 5:00 PM Eastern Time, call (207) 329-5118.
Internal arcing
Internal arcing is caused by physical damage to transmission line, feedline, or
radiators. Damage may have been caused by ice, lightning, tower work, or
many other factors. Replace damaged components.
Broad spectrum RF noise
Any metal part in poor contact with the tower will constitute a non-linear junction and cast a broad-spectrum signal. This includes antennas, transmission
line, mounts, ladders, and other electrical components. Check your antenna
mounts and other tower components to be sure that the tower paint was
scraped away during installation and that all mounting hardware is tight.
High VSWR at startup or
during operation
High VSWR (Voltage Standing Wave Ratio) is caused by any factor which
changes the impedance match between the transmitter and the antenna system. Possible causes include:
• Wrong antenna for the application and frequency. Occasionally
incorrect frequency information is provided to Shively or an antenna
designed for another application is used.
• Defective cable connector in the cable harness.
• Incorrect assembly of the antenna (for example, an upside-down
radiator; radiators out of sequence). The assembly must be exactly
as shown in the installation drawing.
• Damaged radiator feed strap(s). The feed strap is the metal strip
that extends back from the end seal. The length, angle, and
straightness of the feed strap are critical to the radiator's performance.
• Components of other services in the RF field (later installations or
broken components).
• Physical damage to the transmission line, feedline, or radiators.
This may be from ice, lightning, tower work, or any other source.
(Check with the tower owner to see whether anyone has been
working on the tower.)
• Paint applied to the radiators, for example during a recent tower
painting.
• De-icer failure may have allowed ice buildup or melted the solder
from the domes, spacers, and bushings at the ends of the vertical
arms.
Change in coverage
Changes in broadcast coverage may be caused by the same factors that produce VSWR changes. If coverage seems to have changed, look for VSWR
changes and use High VSWR at startup or during operation on page 18 for
troubleshooting.
18
Maintenance and Troubleshooting
It is important to recognize, however, that apparent changes in coverage may
be due to subjective factors or faults of the receiving equipment. Before doing
more than checking the VSWR, be sure that an actual coverage change has
occurred.
19
Maintenance and Troubleshooting
Sample maintenance
log
DATE
DE-ICER CURRENT
(or resistance)
BLACK
(b-neut)
NEUT
(red-bl)
RED
(r-neut)
VSWR
OBSERVATIONS
Visual Inspection of Antenna, Obstruction Lighting; Hardware Checked; Tower Repairs Accomplished; etc.
20
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