HUAC C27G-CPAL-AB-C Quint Band Signal Booster User Manual Rev3

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Document ID	2462543
Application ID	TKsvrpni2Ix4urFohsXuAg==
Document Description	Users Manual Rev3
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	70.31kB (878817 bits)
Date Submitted	2014-12-03 00:00:00
Date Available	2014-12-19 00:00:00
Creation Date	2014-11-28 23:39:28
Producing Software	Acrobat Distiller 9.5.5 (Windows)
Document Lastmod	2014-11-28 23:39:28
Document Title	Microsoft Word - C27G-CPAL-AB-C User Manual 1127(2014-11-27 19.28.07)
Document Creator	PScript5.dll Version 5.2.2
Document Author:	dwilliams

Consumer signal booster
user manual
Content
What is included ............................................................................ 4
1 HOW IT WORKS .....................................................................................4
2 TOOL REQUIRED ....................................................................................4
3 HOW TO INSTALL YOUR NEW CELLULAR BOOSTER (for Vehicle
installations) ................................................................................................5
3.1 Outside antenna: .........................................................................5
3.2 Wireless vehicle installations: ......................................................5
3.3 Inside antenna: ............................................................................6
3.4 Feeder ..........................................................................................6
3.5 Power supply ................................................................................6
3.6 Install note: ..................................................................................6
4 HOW TO INSTALL YOUR NEW CELLULAR BOOSTER (for Fixed
Installations) ................................................................................................7
4.1 Overview ......................................................................................7
4.2 Plan the layout of your system ....................................................9
4.3 Check for Signal Strength .............................................................9
4.4 Run coaxial cable....................................................................... 10
4.5 Install the Donor (Outdoor) antenna ........................................ 11
4.6 Install the Server (Indoor) antenna .......................................... 11
4.7 Install your cellular booster ...................................................... 12
4.8 Power up your cellular booster ................................................ 12
4.9 Check the Cellular Booster Status............................................. 13
5 UNDERSTAND THE PORTS, MGC DIP SWITCH, LED STATUS ............... 14
5.1 Repeater ports .......................................................................... 14
5.2 LED status .................................................................................. 14
5.3 Device connect .......................................................................... 15
6 Authorized Kitting Options ................................................................ 16
6.1 Donor (Outdoor) default antenna for vehicle installations ...... 16
6.2 Donor (Outdoor) antenna for fixed installations ...................... 17
6.3 Server (Indoor) default antenna for vehicle installations......... 17
6.4 Server (Indoor) antenna for fixed installations......................... 18
6.5 Antenna Kitting Options for vehicle installations ..................... 18
Outdoor default Antenna & Cable Kit Options ................................ 18
Indoor default Antenna & Cable Kit Options ................................... 18
6.6 Antenna Kitting Options for fixed installations......................... 18
Outdoor Antenna & Cable Kit Options ............................................ 18
Indoor Antenna & Cable Kit Options ............................................... 19
7 TROUBLESHOOTING ........................................................................... 20
8 FREQUENTLY ASKED QUESTIONS ....................................................... 22
9 FCC RF Exposure Statement ............................................................... 24
10
Warning ........................................................................................... 24
11
Specification .................................................................................... 25
WHAT IS INCLUDED
1. Booster C27G‐CPAL‐AB‐C
2. Outdoor Magnet Mount 5dbi Whip Antenna
3. Indoor Sticker Mount Panel 3dbi Mobile Antenna
4. DC Power Adapter
1 HOW IT WORKS
The cellular booster provides reliable two‐way cellular coverage by
improving signal strength in homes, buildings, offices, and other areas
where cellular reception is weak or unreliable.
The system amplifies the signal from the nearest cellular tower and
retransmits at a higher power level within a local area.
This manual provides simple installation instructions that will have your
cellular booster kit running in record time.
2 TOOL REQUIRED
Phillips Screwdriver
Drill
Cellular Phone (to check
signal strength)
3 HOW TO INSTALL YOUR NEW CELLULAR
BOOSTER (for Vehicle installations)
3.1 Outside antenna:
 Adopt the car magnetic antenna or chuch antenna.
 Function: receive the signal from the base station, through
the feeder to booster. Meanwhile transmit back the signal to
the base station after enlarge the signal.
3.2 Wireless vehicle installations:
Generally, hidden inside the corner nearby the power
supply
 Function: two-way, full-duplex amplifier the inside &outside
signal of the car, and the maximum uplink is to 2W.
3.3 Inside antenna:
 Adopt the car magnetic antenna or chuch antenna.
 Function: Transmit the enlarger signals to the mobile phone,
and receive the uplink car phone signal to booster.
3.4 Feeder
 When install, hide it in the decoration materials or pads.
 Function: Connect the feeder, antenna, and mobile phone
seat.
3.5 Power supply
 Adopt the9V-12V power supply, and it is extremely
convenient for direct feed by the car power, also we support
the car charger.
3.6 Install note:
When install, try to separate the inside &outside antenna to the max
straight distance, and make the inside and outside antenna could
not mutual see (also don't mutual see each other through the roof
skylight)
4 HOW TO INSTALL YOUR NEW CELLULAR
BOOSTER (for Fixed Installations)
4.1 Overview
This guide will help you properly install your cellular booster kit. It is
important to read through all of the installation steps before installing
your equipment. Thoroughly read through the instructions, visualize
where all the equipment will need to be installed and do a soft
installation before mounting any equipment.
• BOOSTER – select location
•Install the booster in an area that is protected from the weather, properly
ventilated and is away from excessive heat and moisture.
• DONOR ANTENNA (OUTDOOR)‐ select location
•Mount the signal (outdoor) antenna in an elevated outdoor location so
that it points towards the cellular tower and away from where the inside
antenna will be located.
• OUTDOOR COAXIAL CABLE ‐ select location
•The outdoor coaxial cable is used to connect the donor (outdoor) antenna
to the booster.
• INDOOR COAXIAL CABLE‐ (if used)
•The indoor coaxial cable is used to connect the server (indoor) antenna to
the booster.
• SERVER ANTENNA (indoor)
！
•The ideal location for the distribution antenna will be the area of your
property where you need to improve the signal most.
•NOTE:The signal strength will be strongest closest to the antenna.
•IMPORTANT: The signal antenna (outdoor)should always be separated from the
distribution antenna (indoor)by at least 20 vertical feet including the separation of
a thick barrier such as a roof or a wall. Depending on the strength of your outdoor
signal, the weaker the signal the less separation distance is required.
•LIGHTNING SURGE PROTECTOR‐ (SOLD SEPARATELY)
•The lightning surge protector connects in between the signal antenna and the
booster.
•IMPORTANT: Lightning surge protector must be grounded.
• COMMISSIONING THE SYSTEM
4.2 Plan the layout of your system
Before you get started you will need to plan the layout of your system.
This involves checking signal strength for signals coming from the cellular
tower, as well as antenna, booster and cable placement.
4.3 Check for Signal Strength
Select a location on the roof of the building to install the signal antenna,
by monitoring your cellular phone’s signal strength (signal bars) to find
the strongest signal from your carrier’s cellular tower.
Mark that area as the installation location for the Donor (outdoor)
IMPORTANT:
Confirm that you have at least 20 feet of vertical distance
between the marked antenna location and the location where you will
place the Server (indoor) antenna. To prevent the system from oscillation
(feedback) you want to ensure that there is enough separation between
the distribution and signal antenna or that they are shielded from each
other to ensure the distribution antenna does not send a signal back into
the signal antenna. If you cannot achieve these separations, either
choose an alternate location for the donor (outdoor) antenna or
determine if there are natural barriers in the building construction itself
that will attenuate signals between the two antennas so that oscillation
can be prevented.
4.4 Run coaxial cable
Loosely run the coaxial cable from your outdoor antenna to your booster.
(After you have tested the system you can permanently secure the
coaxial cable).
As you route and pull cabling, follow these general guidelines:
 Bend cables and route them smoothly, and protect the outer skin
against any damage.
 Keep horizontal cables straight and fasten them with a tie every three
to five feet.
 Bind and fasten vertical cables every six to eight feet.
 Waterproof all outdoor connections with silicone caulking
 Be careful when plugging the connector in so as not to damage the
center pins on the connectors.
4.5 Install the Donor (Outdoor) antenna
Connect the supplied coaxial cable to the antenna. We recommend
applying silicone caulking to fully waterproof the connection.
Attach the cable in such a way that a drip loop is formed.
Once mounted, connect one end of the coaxial cable to the donor
(outdoor) antenna and the other end to the cellular booster where it is
marked “outdoor”
4.6 Install the Server (Indoor) antenna
Connect one end of the coaxial cable to the antenna and the other end
to the cellular booster where it is marked “indoor”.
Select the installation location of your supplied server (outdoor)antenna
based on the following:
Omni Ceiling directional antenna
Place in the center of the area where the signal needs to be amplified.
Panel directional antenna
Place in the outer perimeter of the area the signal needs to be amplified.
Whip Omni directional antenna
Mount directly to the connector marked “indoor” on the cellular booster.
4.7 Install your cellular booster
Install the cellular booster in a location that is properly ventilated and
not exposed to excessive heat, moisture and/or direct sunlight. The
optimal area would be on a wall located near a power outlet.
It should be mounted in an easily accessible area so it’s easy to perform
general maintenance with the coaxial cable connections, dip switch
settings and power adaptor.
Make sure all cables and antennas are securely connected before
commissioning the system.
4.8 Power up your cellular booster
Once all the Following precautions have been taken, power on the
cellular booster.
1. Verify that you have left at least 20 feet of vertical separation space between the
indoor and outdoor antennas.
2. Never point the front of the donor (outdoor) antenna towards the inside of the
server (outdoor) antenna.
3. Verify that the supplied coaxial cables from both the donor (outdoor) antenna
and the server (outdoor) antenna are properly connected to the cellular booster
before powering it up.
4. Carefully plug in the supplied power adaptor into the back of the cellular booster
where it is marked ‘power’ and connect the other end to a power outlet.
The LED indicator marked power should light up green.
4.9 Check the Cellular Booster Status
Your cellular booster comes equipped with electronic sensors designed
to identify cellular signal overload or oscillation which can hinder signal
boosting performance. Your cellular booster is specially designed to
automatically decrease gain to compensate for these circumstances. The
device also has a feature to automatically shut down in case of excessive
oscillation. Improper equipment installation and unusable signal quality
can cause oscillation, this is why it is important to fully understand the
LED alarm lights on your booster, as they will help you identify and solve
any potential issues.
The color of the LED indicates the status of the booster system.
5 UNDERSTAND
THE
PORTS,
MGC
DIP
SWITCH, LED STATUS
5.1 Repeater ports
1) Outdoor port: connected with the donor antenna by cable.
2) Indoor port: connected with server antenna directly or by cable.
3) DC IN: connected with power supply.
5.2 LED status
1. Status and definition of POWER indicators:
Status
Definition
Green
Normal
Off
DC power problem
2. Status and Definition of ALARM indicators; Alarm LED only works for
downlink signals
Status
Green
Red
ALARM
It is working in linearity
attention: Input signals may be not enough
There are overloading or self-oscillation, strong input signals,
measures shall be taken
It is working in linearity
Orange
Off
Attention: Please adjust MGC to increase the attenuation value, till you
find the “edge point” (I.E. the Alarm LED shall stay at green color, with
intention of turning Orange), and let the repeater work at this point.
Repeater break down
5.3 Device connect
Required connection as shown in below figure:
1. Connect the magnet Antenna SMA male to the SMA
female with booster.
2. Plug the smaller one of the car booster into the socket
with DC, and another connect to the car power supply.
3. Connect the chuch antenna SMA male to the SMA
female of the adapter which marked “Signal Adapter”.
6 Authorized Kitting Options
6.1 Donor (Outdoor) default antenna for vehicle
installations
The Magnet Mount Whip Antenna
The whip antenna is an omni‐directional antenna with a
360 degree reach. It is designed to distribute the signal
from the center of the affected area. Typically it is
connected directly to the booster.
6.2 Donor (Outdoor) antenna for fixed installations
The Yagi Lpda Antenna
The yagi is a very precise directional antenna with a powerful reach. This
antenna should be installed in an elevated position and must be pointed
towards your carrier’s cellular tower.
NOTE:This antenna is not meant to capture signal from multiple carriers.
The Panel Antenna
The panel is a directional antenna with a 120 degree reach and is designed to
capture the signal from multiple carrier towers. This antenna should be
installed in an elevated position and must be pointed towards your carrier’s
cellular towers.
Yagi Antenna
The yagi is a very precise directional antenna with a powerful reach. This
antenna should be installed in an elevated position and must be pointed
towards your carrier’s cellular tower.
NOTE: This antenna can only support single band signal booster.
6.3 Server (Indoor) default antenna for vehicle
installations
The Sticker Mount Panel Mobile Antenna
The mobile antenna is an omni‐directional antenna with a 360
degree reach. It is designed to distribute the signal from the
center of the affected area. It is connected directly to the
booster.
6.4 Server (Indoor) antenna for fixed installations
The Whip Antenna
The whip antenna is an omni‐directional antenna with a 360 degree reach. It
is designed to distribute the signal from the center of the affected area.
Typically it is connected directly to the booster.
The Omni Antenna
The omni antenna is an omni‐directional antenna with a 360 degree reach. It
is designed to distribute the signal from the center of the affected area.
Typically it is installed in a false or dropped ceiling.
The Panel Antenna
The panel is a directional antenna with a 120 degree reach and is designed to
distribute the signal from a perimeter wall or ceiling.
6.5 Antenna Kitting Options for vehicle installations
Outdoor default Antenna & Cable Kit Options
1.
Kit 66‐295‐0
Outdoor Magnet Mount 5dbi Whip Antenna
Indoor default Antenna & Cable Kit Options
1.
Kit 3‐0
Indoor Sticker Mount Panel 3dbi Mobile Antenna
6.6 Antenna Kitting Options for fixed installations
Outdoor Antenna & Cable Kit Options
1.
2.
3.
4.
5.
6.
Kit 11‐5050
Outdoor Yagi 11dbi Antenna & 50’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 10‐50400
Outdoor Panel 10dbi Antenna & 50’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 10‐7550
Outdoor Panel 10dbi Antenna & 75’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 10‐10050
Outdoor Panel 10dbi Antenna & 100’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 9‐5050
Outdoor Yagi 9dbi Antenna & 30’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 9‐75400
Outdoor Yagi 9dbi Antenna & 75’ 400 Coaxial Cable & SMA male to N female Adapter
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Kit 9‐100400
Outdoor Yagi 9dbi Antenna & 100’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 9‐7550
Outdoor Yagi 9dbi Antenna & 75’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 9‐10050
Outdoor Yagi 9dbi Antenna & 100’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 5‐30400
Outdoor Omni 5dbi Antenna & 30’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 5‐3050
Outdoor Omni 5dbi Antenna & 30’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 5‐50400
Outdoor Omni 5dbi Antenna & 50’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 5‐5050
Outdoor Omni 5dbi Antenna & 50’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 5‐70400
Outdoor Omni 5dbi Antenna & 70’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 5‐100400
Outdoor Omni 5dbi Antenna & 100’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 5‐7550
Outdoor Omni 5dbi Antenna & 75’ 50 Coaxial Cable & SMA male to N female Adapter
Kit 5‐10050
Outdoor Omni 5dbi Antenna & 100’ 5D Coaxial Cable & SMA male to N female Adapter
Indoor Antenna & Cable Kit Options
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
Kit 5‐0
Indoor Whip 5dbi Antenna
Kit 100‐1550
Indoor Panel 10dbi Antenna & 15' 5D Coaxial Cable & SMA male to N female Adapter
Kit 100‐30400
Indoor Panel 10dbi Antenna & 30’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 100‐5050
Indoor Panel 10dbi Antenna & 50’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 100‐7550
Indoor Panel 10dbi Antenna & 75’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 102‐7550‐50
2 Indoor Panel 10dbi Antennas & 75’ 5D Coaxial Cable & SMA male to N female Adapter & a 50
Ohm 2‐ways Splitter
Kit 103‐7550‐75
3 Indoor Panel 10dbi Antennas & 75’ 5D Coaxial Cable & SMA male to N female Adapter & a 75
Ohm 3‐ways Splitter
Kit 104‐7550‐50
4 Indoor Panel 10dbi Antennas & 75’ 5D Coaxial Cable & SMA male to N female Adapter & three 50
Ohm 2‐ways Splitters
Kit 100‐10050
Indoor Panel 10dbi Antenna & 100’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 100‐30400
Indoor Panel 10dbi Antenna & 100’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 100‐50400
Indoor Panel 10dbi Antenna & 50’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 100‐75400
Indoor Panel 10dbi Antenna & 75’ 400 Coaxial Cable & SMA male to N female Adapter
Kit 3‐0350
Indoor Omni 3dbi Antenna & 3’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 3‐1550
Indoor Omni 3dbi Antenna & 15’ 5D Coaxial Cable & SMA male to N female Adapter
Kit 3‐30400
Indoor Omni 3dbi Antenna & 30’ 400 Coaxial Cable & SMA male to N female Adapter
16. Kit 3‐5050
Indoor Omni 3dbi Antenna & 50’ 5D Coaxial Cable & SMA male to N female Adapter
17. Kit 3‐7550
Indoor Omni 3dbi Antenna & 75’ 5D Coaxial Cable & SMA male to N female Adapter
18. Kit 3‐10050
Indoor Omni 3dbi Antenna & 100’ 5D Coaxial Cable & SMA male to N female Adapter
19. Kit 3‐30400
Indoor Omni 3dbi Antenna & 30’ 400 Coaxial Cable & SMA male to N female Adapter
20. Kit 3‐50400
Indoor Omni 3dbi Antenna & 50’ 400 Coaxial Cable & SMA male to N female Adapter
21. Kit 3‐75400
Indoor Omni 3dbi Antenna & 75’ 400 Coaxial Cable & SMA male to N female Adapter
22. Kit 3‐100400
Indoor Omni 3dbi Antenna & 100’ 400 Coaxial Cable & SMA male to N female Adapter
23. Kit 32‐50400‐50
2 Indoor Omni 3dbi Antennas & 50’ 400 Coaxial Cable & SMA male to N female Adapter & a 50
Ohm 2‐ways Splitter
24. Kit 33‐50400‐75
3 Indoor Omni 3dbi Antennas & 50’ 400 Coaxial Cable & SMA male to N female Adapter & a 75
Ohm 3‐ways Splitter
25. Kit 34‐50400‐50
4 Indoor Omni 3dbi Antennas & 50’ 400 Coaxial Cable & SMA male to N female Adapter & three 50
Ohm 2‐ways Splitters
7 TROUBLESHOOTING
The LED alarm lights represent the status of the booster on each
frequency. When the lights are green the device is operating normally
meaning that it is not experiencing any oscillation (feedback) and it is
boosting the signal at maximum power. When the LED lights begin to
change color from green to orange to red, it means that particular
frequency is experiencing some oscillation (feedback).
If the oscillation is excessive the booster will shut down for that
particular frequency. The booster will still work for the other frequency
on a multi‐band booster.
Oscillation is caused when the indoor (distribution) antenna sends a
signal back into the outdoor (signal) antenna. Similar to a PA system,
when the microphone gets too close to the speaker it causes feedback.
This will occur if your antennas are too close together, or the indoor
antenna is pointed at the outdoor antenna. Make sure you have
adequate separation and some type of shielding between the antennas
(Usually your roof or a cement wall is good enough).
IMPORTANT NOTES
The 2 most important things to look for when setting up your system is:
A good input signal (the best you can find)
Isolating the outdoor (donor) antenna from the indoor
(server) antennas so they do not feedback into each
other.
By capturing the best input signal you will be able to enjoy the maximum
coverage and best quality signal inside where your Indoor antennas are
located. The better the input signal, the better the output signal. In order
to find the best input signal, you want to place your outdoor antenna as
high as possible with the least amount of obstruction between the
antenna and the cellular base tower. A clear line of site is ideal.
Isolating the signal from the antennas is done by ensuring that the
antennas are not pointing to each other and by having enough distance
or barrier shielding in between them. The signals travel like rays of
sunlight, a directional antenna will send the signal in the direction that it
is pointing. An omni directional antenna will send the signal in every
direction around it. So depending on your equipment it’s important to be
sure that your Indoor antenna is not sending the signal back into the
outdoor antenna.
THINGS TO CHECK WHEN EXPERIENCING WEAK CELLULAR SIGNAL
1. Ensure the outdoor antenna is pointing in the correct direction and is
capturing adequate signal for the booster.
2. Check all connections on the cable, antennas, and booster.
3. Check cable for bends and or cuts.
4. All LED lights on the booster should be green.
5. Outdoor antenna and the indoor antennas have adequate separation
and are not causing feedback.
8 FREQUENTLY ASKED QUESTIONS
WHY ARE THE LED LIGHTS TURNING ORANGE,RED OR
SHUTTING OFF?
There are certain cases where your system could be experiencing
oscillation. This can be attributed to either the quality of your input
signal or having your outdoor antenna and indoor antenna too close
together. Please review the following guidelines to help resolve this
issue:
1. Adjust the direction of the outdoor antenna. If the system is
receiving a very high input signal, you can point your outdoor
antenna away from the cellular tower to reduce the strength of the
input signal and therefore, reduce the oscillation. Alternatively if
your system is receiving a very poor quality signal (weak and
unusable signal), you can point your outdoor antenna more directly
towards the cellular tower to increase the strength of the input signal.
Sometimes this may require completely repositioning the antenna to
a location where you can achieve a line of site to the tower.
2. Increase the separation between the outdoor antenna and the
indoor antenna. This can be achieved by increasing the distance
between the two antennas or by placing barriers between them,
such as moving the indoor antenna to an adjacent room where there
would be an additional wall separating them from the outdoor
antenna.
3. Manual Gain Control. Adjust the gain with the manual gain control
function using the dip switches on the side of the booster.
9 FCC RF Exposure Statement
This equipment complies with FCC radiation exposure limits set forth for
an uncontrolled environment. End users must follow the specific
operating instruction for satisfying RF exposure compliance. This
transmitter must not be co‐located or operating in conjunction with any
other antenna or transmitter.
10 Warning
Warning:
The Inside Antennas for vehicle installations must have 1.5
feet of separation distance from all active user devices.
Warning:
The Inside Antennas for fixed installations must have 6 feet of
separation distance from all active users.
Warning:
The Outdoor Antennas for fixed installations must be
installed no higher than 10 meters above ground.
11 Specification
C27G-CPAL-AB-C
Electrical specification
LTE (A+B)
LTE C
Frequency
Range
CDMA
PCS
AWS
Uplink
704～716MHz
734～746MHz
776～787MHz
746～757MHz
824～849MHz
869～894MHz
1850～1910MHz
1930～1990MHz
1710～1755MHz
2110～2155MHz
12MHz
LTE (A+B)
11MHz
LTE C
Band width
25MHz
CDMA
60MHz
PCS
45MHz
AWS
LTE (A+B)
LTE C
Max .Gain
CDMA
PCS
AWS
LTE (A+B)
Max .Output
LTE C
Power
CDMA
PCS
Downlink
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤50dB
≤25dBm
≤7dBm
≤23dBm
≤3dBm
≤23dBm
≤5dBm
≤23dBm
≤5dBm
≤23dBm
AWS
Automatic Level Control
Inter-modulation
Spurious
Emission
LED
≥15dB, auto shut off after 15dB
9KHz~12.75GHz
≤-19dBm
≤-19dBm
9KHz～12.75GHz
≤-13dBm
≤-13dBm
Alarm
Standard
Power LED
Power Indicator
Orange @ ALC1~5dB, Red @ ALC15dB
ALC LED
Mechanical
≤0dBm
LED off after 5 seconds red color.
Specifications
Standard
I /O Port
SMA-Female
Impedance
50 ohm
Operating Temperature
10ºC~+55ºC
Environment Conditions
IP40
Dimensions
120*200*30
Weight
≤2.5Kg
Power Supply
Input AC90~264V,outputDC12V / 3A

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