AWS 70 Contents: Band 4, 70 dB Adjustable Gain
AWS 70
Band 4, 70 dB
Adjustable Gain
1700/2100 MHz
In-Building Wireless
Smart Technology ™
Signal Booster
Contents:
Antenna Options & Accessories . . . . . . . . . . . . . . . . . . . . . . . . 1
Quick Install Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Installation Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Before Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Outside Antenna Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Installing the Inside Antenna . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Installing a Wilson Electronics Signal Booster. . . . . . . . . . . . . . 8
Powering up a Wilson Electronics Signal Booster . . . . . . . . . . . 8
Finding the Strongest Signal . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Understanding the Signal Booster Lights . . . . . . . . . . . . . . . . 10
Warnings and Recommendations . . . . . . . . . . . . . . . . . . . . . . 12
Guarantee & Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Back Cover
Appearance of device and accessories may vary.
Note: This manual contains important safety and operating information. Please read and
follow the instructions in this manual. Failure to do so could be hazardous and result in
damage to your Signal Booster.
Installation Instructions for the Following
Wilson Electronics Signal Booster:
AWS 70 Band 4, 70 dB Adjustable Gain 1700/2100 MHz
In-Building Wireless Smart Technology ™ Signal Booster
Model # 272365
FCC ID: PWO272365 IC: 4726A-272365
The term “IC” before the radio certification number only signifies that Industry Canada technical
specifications were met.
How it Works
Wilson Electronics Signal Boosters are bi-directional devices that deliver
service levels consistent with what would be expected in areas of high cell
network coverage. They amplify a weak or shadowed signal in mobile,
marine, M2M and in-building applications. When using a Wilson Electronics
Signal Booster in conjunction with Wilson Electronics antennas, the
Outside Antenna will collect the cell tower signal and send it through
the cable to the Signal Booster. The signal is then amplified and retransmitted through the Inside Antenna into the room. Cell phones and
cellular data cards in that area then communicate with the improved
signal. When a cell phone or cellular device transmits, the signal is
received by the Inside Antenna, amplified by the Signal Booster and
transmitted back to the cell tower through the Outside Antenna.
Inside this Package
Note: Kits may contain different accessories
Signal
Booster
AC/DC
Power
Supply
Outdoor Antenna Option
1. Wide Band Directional Antenna
700 MHz - 2700 MHz (part #304411)
See RF Safety Warning (page 12)
for proper installation.
1
Indoor Antenna Options & Accessories
A. Wide Band Panel Antenna 700-2700MHz
(part #304452 & 301135)
B. 50 Ohm Lightning Surge Protector with N-Connector
(part #859902)
Splitter options on page 8
A
B
Quick Install Overview
See Installation Diagram on page 3. Contact Wilson Electronics Technical
Support Team with any questions at 866-294-1660.
1. Select a location to install the Signal Booster that is away from
excessive heat, direct sunlight, moisture and has proper ventilation.
Do not place the Signal Booster in an air-tight enclosure.
2. Select a location on the roof of the building to install the Outside
Antenna. Use a cell phone in test mode to find the strongest signal
from the cell tower. Visit www.WilsonElectronics.com to find test mode
function for your particular cell phone (see page 9).
3. Run the Outside Antenna cable to the Signal Booster and attach it
to the connector labeled “Outside Antenna”. Run the Inside Antenna
cable to the Signal Booster and attach it to the connector labeled
“Inside Antenna” (see page 7 for more information on running
cable). Lightning Surge Protection is recommended for all in-building
installations (see page 6).
4. Select a location for the Inside Antenna, preferably in the center
of where the signal needs to be amplified. A minimum separation
distance of 20 vertical (within the null zone) or 50 horizontal
feet is necessary for proper operation. If the inside coverage is not
sufficient you may need to increase the separation distance even
further (see installation diagram on pages 3 & 4).
5. Before powering up the Signal Booster, verify that both the Outside
Antenna and the Inside Antenna are connected and check that
all connections are tight. Note: Be careful when plugging the
connectors in so as not to bend the center pins on the connectors.
6. The Signal Booster has been packaged with the gain control knobs
adjusted to the highest gain position. If the light is not green, please
refer to pages 10 & 11.
Warning: Connecting the Signal Booster directly to a cell phone with
use of an adapter will damage the cell phone and/or the
Signal Booster.
IMPORTANT NOTICE
Appearance of device and accessories may vary.
To purchase, call Wilson Electronics Sales Department at: 800-204-4104
1
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
• It is very important to power your Signal Booster using a surge
protected AC Power Strip with at least a 1000 Joule rating.
• Failure to do this will void your warranty in the event of a power surge
or lightning strike.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
2
Installation Diagram
Before Getting Started
Note: Per FCC rules, height not to
exceed 10m (32’ 9”) above ground.
This guide will help you properly install your Wilson Electronics
Signal Booster. It is important to read through all of the
installation steps for your particular application prior to
installing any equipment. Read through the instructions,
visualize where all the equipment will need to be installed and do
a soft installation before mounting any equipment. Contact Wilson
Electronics Technical Support with any questions at: 866-294-1660.
Outside
Antenna
See RF Safety Warning (page 12) for proper
installation.
Preferred Method: Place the Inside
Antenna in the ceiling facing down for
the best coverage.
Note: The Inside Antenna may be
mounted on the wall directly under the
Outside Antenna, in the null zone, if
20 feet of vertical separation can be
maintained.
Null Zone: The area under the
Outside Antenna, where the
Outside Antenna radiates the
least.
Splitter
(if using multiple
Inside Antennas)
coax cable
Inside Antenna
Inside Antenna
(Optional
second
antenna for
additional
coverage).
Signal
Booster
Note: A Lightning Surge Protector is
recommended for all building installations
(sold separately). Make sure the protector
is installed in line between the Outside
Antenna and the Signal Booster.
Power
Supply
Typical Installation
3
Lightning
Surge Protector
(recommended)
Inside Antenna
(Optional
third antenna
for additional
coverage).
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
Surge Protector
Powerstrip
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
4
Reasons for Weak Cellular Signals
Anyone who uses a cell phone or cellular data card knows the frustration
of not being able to connect to or maintain a strong cellular signal. When
this occurs, it is generally due to one of two reasons:
1. Location of the Nearest Cell Tower – Cell towers are situated to
provide broad coverage; however, there are many areas in which
signal strength may be reduced by topographic features or by local
government restrictions on the height or placement of the towers
themselves. Rural areas generally have fewer cell towers than urban
regions.
2. Natural and Man-Made Obstructions – Signal strength can also
be negatively affected by trees, hills, buildings, weather, and other
obstructions. You may be relatively close to a cell tower but still
unable to make a call. This often occurs in homes, offices and other
buildings in which stucco, concrete or metal walls may block the
signal.
The Signal Booster works with two antennas. The Inside Antenna
communicates with your cellular device and the Outside Antenna
communicates with the cell tower. The Outside Antenna receives the
cell tower signal and sends it through the cable to the Signal Booster,
where it is amplified and re-transmitted much stronger through the Inside
Antenna into the room. When the Inside Antenna picks up a signal
from your cellular device, the Signal Booster amplifies that signal and
transmits it through the cable to the Outside Antenna and back to the cell
tower. Note: The Signal Booster will only operate if there is an adequate
signal to amplify.
Warning: Lightning protection is recommended for all installations (sold
separately). Take extreme care to ensure that neither you nor the
antenna comes near any electric power lines.
Installing Lightning Protection
(sold separately)
Install the Lightning Surge Protector
(LSP) close to the Signal Booster. Attach
the cable from the Outside Antenna to
the surge protector, using a short length
of low loss cable; attach one end to
the LSP and the other to the Outside
Antenna connector on the Signal
Booster. Ensure the LSP is properly
grounded. LSP may be purchased at
www.WilsonElectronics.com or call
800-204-4104 (part #859902).
To Outside
Antenna
Lightning
Surge Protector
(sold separately)
Ground Wire
(not included)
To Inside
Antenna
Signal Booster
Surge Protector
Power Strip recommended for all AC power supplies
Selecting a Direction for the Outside Antenna
Outside Antenna Installation
(Wide Band Directional Antenna shown)
Drip hole on bottom
Cell Tower
The Outside Antenna should be mounted as shown in the illustration
above. The mounting bracket, included with Outside Antenna, is
adjustable and will accommodate pipe diameters from 1.25” to 2” (pipe
sold separately Part# 901117). Mount the antenna so that there is at
5
least 3 feet of clearance in all directions around it. Position the antenna
so that it has an unobstructed line of sight to the cell tower’s strongest
signal. Make sure the Outside Antenna is not pointing across your own
roof or at the Inside Antenna as this will cause the oscillation protection
circuitry to shut down the Signal Booster.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
Select a location on the roof of the building to install the Outside Antenna.
Use a cell phone in test mode to find the strongest signal from the cell tower
(see page 9). To get the strongest signal possible, it is very important to set
up your Outside Antenna properly. The Inside and the Outside Antenna must
be mounted in such a way that they are able to pick up the best possible cell
signal on the outside of the building and provide the best possible signal on
the inside of the building. Mount the Outside Antenna as high as possible
(see note on page 3) facing the cell tower in an area with the best possible
signal coverage.
Note: Never point the front of a directional antenna toward the Inside
Antenna. See Figures 1 & 2 on page 10.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
6
Mounting Tips for Running Outside
Antenna Cable
If you are mounting the Outside Antenna on the roof of your building,
we have found that it is easiest to run your cable underneath the down
side of your roof’s flashing. If you have satellite TV service installed at
your home or office, you may be able to follow the same route as the
satellite TV cables that are already running from outside of your building
to the inside. After routing the cable, we recommend sealing any areas
where the cable passes into the building with silicone, cable bushings
or other waterproof sealant to keep your installation from leaking. If you
are mounting the Outside Antenna to the outside wall of your home or
building, the simplest way is to run the cable on the outside of the wall
and attach it to the exterior of your home or office. Then drill a hole
through the wall where you want the cable to appear on the inside of the
building. Before drilling, make sure that there are no electrical outlets,
sewer or water pipes, or electrical wiring in the wall that you are about to
drill through as this could potentially harm you or damage the building.
After drilling the required hole, run the cable through and seal it with
silicone, cable bushings or other waterproof sealant to enclose the hole
that you have created. In some instances, it may be possible to run the
cable up into the fascia of the attic overhang. In this circumstance, the
cable will be accessible in the attic for further routing.
Installing the Inside Antenna
(Included in some kits)
Select a location for the Inside Antenna, preferably in the center of where
the signal needs to be amplified. A minimum separation distance of 20
vertical feet is necessary for operation. If the inside coverage is not
sufficient you may need as much as 75 feet of horizontal separation. See
installation diagram on pages 3 & 4.
Ceiling
Drywall
In some cases, multiple Inside Antennas may be required, for instance if
you have multiple rooms with poor signal. A signal may be split by using
a splitter (sold separately). If using more than one Inside Antenna, a
7
Splitter Options:
(sold separately)
Warning: An Inside Antenna must
have a separation distance
from all persons that is at
least 15 inches for the panel
antenna.
2-way
(859957)
3-way
(859980)
4-way
(859981)
Installing a Wilson Electronics Signal Booster
Select a location to install the Signal Booster that is away from excessive
heat, direct sunlight, moisture and that has proper ventilation. Do
not place the Signal Booster in an air-tight enclosure. Recommended
installation locations for in-building Signal Boosters are near a power
outlet and in a closet, or on a shelf. Note: It is important to have
adequate air ventilation. Maintain at least 6 inches of clearance from
surrounding objects.
Run the Outside Antenna cable to the Signal Booster and attach it to
the connector labeled “Outside Antenna”. Run the Inside Antenna cable
to the Signal Booster and attach it to the connector labeled “Inside
Antenna”. Note: For distances of 20 feet or more, use Wilson low loss cable
to prevent significant signal loss. Be careful when plugging the connector in
so as not to damage the center pins on the connectors.
Powering up a Wilson Electronics
Signal Booster
1. Never point the front of a Directional Outside Antenna toward the Inside
Antenna. See Figures 1 & 2 on page 10.
2. Ensure that both the Outside Antenna cable and the Inside Antenna
cable are connected to the Signal Booster and the connections are
tight.
Inside
Antenna
Ceiling
Rafters
separation up to 75 horizontal feet
may be necessary between Inside
Antennas (see configuration on
pages 3 & 4).
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
3. Plug the power supply into the Signal Booster input marked “6V DC”
(carefully, to avoid damaging the center pin) and then into a surge
protected AC Power Strip with at least a 1000 Joule rating.
4. If the Signal Booster does not have a green light please see pages
10 & 12.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
8
5. Using multiple Signal Boosters in one installation could cause
interference to the cell tower. Except for the use of the In-Line (806215).
6. Contact Wilson Electronics Technical Support Team with any questions at
866-294-1660 or email [email protected] Technical Support
hours are 7 am to 6 pm MST.
Figure 1
Figure 2
INCORRECT INSTALLATION
Never point antennas toward each other
CORRECT INSTALLATION
Point antennas away from each other
Outdoor
Antenna
Outdoor
Antenna
Inside
Antenna
Inside
Antenna
Finding the Strongest Signal
Cell Signal
Outside
Wide Band
Antenna
Cell Tower
Signal Booster
Signal Booster
Understanding the Signal Booster Light and
Troubleshooting
When installing your Signal Booster’s Outside Antenna, aiming it towards
the best signal source from you service provider is important. After you
have completed the install, the best way of getting the strongest signal
is to have one person on the roof to rotate the Outside Antenna, which
is connected to the Signal Booster. Turning the Outside Antenna about
45 degrees at a time, while the second person is watching the signal
strength on the phone inside the building. This allows you to read the
signal strength from the cell tower. It is preferable to have the phone in
the test mode so the actual signal strength can be read, as bars are not
the most accurate. Go to www.WilsonElectronics.com for help in finding
the test mode for your phone. Always make sure the person inside
the building gives the signal time to arrive and register on the phone
(between 10-30 seconds for phone to reset to the signal reading). Signal
readings usually appear as a negative number (for example, -86). The closer
you get to zero the stronger the signal (see graph below).
Signal Strength Graph
9
-60dB
Mode
Mode
Wilson
®
Electronics, Inc.
SMART
TECHNOLOGY
™
AWS 70
Adjustable Gain Signal Booster
Wilson
40
UL
Gain
70
45
50
55
65
60
40
45
DL
Gain
70
50
55
65
60
For the first 15
minutes the light
will do one of
the following 4
things:
®
This Signal Booster is supplied with separate uplink and downlink gain controls.
Electronics,
Note: If after the initial
15 minutes you Inc.
are not done with the
installation, the Signal Booster can be reset and enter installation
SMART
mode
again by disconnecting
and reconnecting the power supply
™
TECHNOLOGY
from the Signal Booster.
1. BLINKING GREEN
EXCELLENT
-50dB
During installation mode the Signal Booster is resetting itself very quickly
to aid the installer. The Signal Booster is equipped with one indicator
light labeled “Mode”. For the first 15 minutes that the Signal Booster is
plugged in, it is programed for a test and alignment period.
GOOD
-70dB
-80dB
POOR
-90dB
-100dB
NO
SIGNAL
-110dB
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
AWS 70
If the Signal Booster light is blinking green, the Signal Booster is
operating
properly. Gain
If you are
happy with
the coverage area in your
Adjustable
Signal
Booster
building, then you are done. Blinking will stop after the 15 minute
installation
45
45 period.
40
50
50
40
2. BLINKING
ORANGE
UL
DL
55
55
Gain
If the light on the Signal Booster
is blinking orange,
the Signal Booster
Gain
is experiencing
receiver
(cell
tower)
overload.
The
Signal
Booster has
60
70
70
60
65
65
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
10
protection shut off circuits to prevent the disruption of cell towers. If the
light is blinking orange, this indicates that gain should be reduced due
to close proximity to a cell tower. First, turn down the uplink (UL) gain
control until you get a blinking green light. Do not adjust the downlink
(DL) knob at this time. The Signal Booster is now working with reduced
gain on the uplink. If the gain is not adequate for good coverage, you
will need to turn the UL gain to maximum and then rotate the Outside
Antenna until the light turns to blinking green, waiting 5 seconds
between each adjustment for the Signal Booster to reset. If you do not
get a green light, turn the UL gain down 5 dB and rotate the Outside
Antenna. Continue to adjust the UL gain and the Outside Antenna
position until the light turns blinking green. If the UL gain was reduced
and the light is green and you have good signal strength but are unable
to place a call, it may be necessary to lower the DL gain control to the
same setting as the UL. This is because some cell systems require a
balanced gain between UL and DL for proper operation. Contact Wilson
Electronics Technical Support Team for assistance: 866-294-1660.
3. SOLID RED
A. A red light indicates that the booster has shut down to prevent an
oscillation, most likely caused by the Inside and Outside Antennas
being physically too close to each other. Without this patented
protection, oscillations could be transmitted to the cell tower,
blocking calls to and from the cell tower. Oscillation occurs just like
in an audio system when you put a microphone next to a speaker
and get a big squeal. When the Inside Antenna is too close to the
Outside Antenna the same type of oscillation occurs. If the booster
has a red light, the following procedure needs to be done for each
affected band.
B. Either there is a problem with the Inside and Outside Antennas
being too close together or there is a loose or bad cable (or
possibly a defective booster). First, check the booster by
unplugging the power cord, then removing the coax cables from
the two connectors of the booster. Adjust the Downlink (DL) Gain
to minimum and plug the booster back in. You should now have a
green light, if not, call Wilson Electronics Technical Support. Next,
unplug the booster, reconnect the coax cables to the booster and
tighten all connections, and plug the booster back in.
C. Increase the DL Gain until you get a red light (for example, it may
be at 50 dB for the red light). This indicates that an oscillation
occurs at gains 50 dB and higher. Separating the antennas is
very important to get the necessary gain* for the system to give
11
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
maximum coverage and a green light. Lowering gain decreases
your coverage area. The Outside Antenna, if directional, needs
to be pointed at the cell tower with its back to the Inside Antenna.
The Inside Antenna needs to have its back facing the back of the
Outside Antenna. Without proper orientation of the antennas, you
will not be able to get maximum gain from the booster.
*Note: If the antennas cannot be sufficiently separated, the booster will
have to operate with reduced performance by decreasing
the Downlink Gain until a green light is obtained.
4. SOLID GREEN
The light on the Signal Booster will be a solid green after the first
15 minute installation period, if the unit is powered up and working
properly.
Warnings and Recommendations
Warning: The Directional Antenna must always be located so the
back or side points to the Inside Antenna. Never point the
front of the Outside Antenna toward the Inside Antenna –
this is to prevent oscillation.
Warning: Connecting the Signal Booster directly to the cell phone with
use of an adapter will damage the cell phone.
Warning: Use only the power supply provided. Use of a non-Wilson
Electronics product may damage your equipment.
Warning: RF Safety: FCC rules limit radiated power of signal
boosters to 1 watt EiRP in the 1710-1750 MHz band. In
order to meet this requirement, the gain of any Outside
Antenna used with this Signal Booster must be offset by
cable loss such that antenna gain less cable loss does not
exceed 2 dBi. The Outside Antenna must be located at
least 8 inches from all people and be installed no higher
than 10 meters (32’9”) above ground. The Inside Antenna
gain less cable loss may not exceed 13.2 dBi, and it must
be located at least 8 inches from all people.
Warning: Verify that both the Outside Antenna and the Inside
Antenna are connected to the Signal Booster before
powering up the Signal Booster.
Recommendation: Lightning Surge Protection is recommended for all
in-building installations.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
12
30-Day Money-Back Guarantee
All Wilson Electronics products are protected by Wilson Electronics 30-day
money-back guarantee. If for any reason the performance of any product is not
acceptable, simply return the product directly to the reseller with a dated proof of
purchase.
1-Year Warranty
Wilson Electronics Signal Boosters are warranted for one (1) year against
defects in workmanship and/or materials. Warranty cases may be resolved by
returning the product directly to the reseller with a dated proof of purchase.
About Wilson Electronics
Wilson Electronics, Inc. has been a leader in the wireless communications
industry for over 40 years. The company designs and manufactures Signal
Boosters, Antennas and related components that significantly improve
cellular phone signal reception and transmission in a wide variety of
applications, both mobile (marine, RV, vehicles) and in-building (home,
office, M2M).
With extensive experience in antenna and Signal Booster research and
design, the company’s engineering team uses a state-of-the-art testing
laboratory, including an anechoic chamber and network analyzers, to finetune antenna designs and performance. For its Signal Boosters, Wilson
Electronics uses a double electrically insulated RF enclosure and cell tower
simulators for compliance testing.
Wilson Electronics Signal Boosters feature patented Smart Technology ™
that enables them to automatically adjust their power based on cell tower
requirements. By detecting and preventing oscillation (feedback), signal
overload and interference with other users, these Smart Technology ™
Signal Boosters improve network cell phone areas without compromising
carrier systems.
All products are engineered and assembled in the company’s
55,000-square-foot headquarters in St. George, Utah. Wilson Electronics
has product dealers in all 50 states as well as in countries around the world.
Signal Boosters may also be returned directly to the manufacturer at the
consumer’s expense, with a dated proof of purchase and a Returned Material
Authorization (RMA) number supplied by Wilson Electronics. Wilson Electronics
shall, at its option, either repair or replace the product. Wilson Electronics
will pay for delivery of the repaired or replaced product back to the original
consumer if located within the continental U.S.
This warranty does not apply to any Signal Booster determined by Wilson
Electronics to have been subjected to misuse, abuse, neglect, or mishandling
that alters or damages physical or electronic properties.
Failure to use a surge protected AC Power Strip with at least a 1000 Joule rating
will void your warranty.
RMA numbers may be obtained by phoning Technical Support at 866-294-1660.
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference and (2) this device
must accept any interference received, including interference that may cause undesired
operation. Changes or modifications made that are not expressly approved by Wilson
Electronics could void authority to operate this equipment.
Disclaimer : The information provided by Wilson Electronics, Inc. is
believed to be complete and accurate. However, no responsibility is assumed
by Wilson Electronics, Inc. for any business or personal losses arising from its
use, or for any infringements of patents or other rights of third parties that may
result from its use.
Copyright © 2012 Wilson Electronics, Inc. All rights reserved.
One or more of the following U.S. Patent numbers may apply to the Signal Booster in this
product – D596,614; D596,615; D563,381;7,729,669; 7,486,929; 7,729,656; 7,409,186;
7,783,318; 7,684,838; 12,714,994.
13
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
Contact Wilson Electronics Technical Support Team with any questions at 866-294-1660
or email: [email protected] Hours: 7 am to 6 pm MST.
14
AWS 70 Specifications
AWS 70 Specifications
Model Number
272365
Antenna connectors
N-Female
Antenna impedance
50 ohms
Dimensions
5.7 x 4.2 x 1.5 inch (14.0 x 10.8 x 3.9 cm)
Weight
1.27 lbs (0.544 kg)
1710-1755 MHz uplink
2110-2155 MHz downlink
Frequency
1
Passband Gain (nominal)
65 dB Typical,
70 dB Maximum
1700 MHz - 2100 MHz
2
3
4
20 dB Bandwidth (nominal)
1700 MHz Band
85 MHz
2100 MHz Band
91 MHz
Maximum power output for
single cellular device (uplink)
Power Output
LTE
27.9 dBm
22.0 dBm
WCDMA
26.1 dBm
21.7 dBm
HSDPA
26.0 dBm
21.7 dBm
HSUPA
26.0 dBm
21.6 dBm
Power output for multiple channels
The maximum power is reduced
by the number of channels:
Noise Figure (typical downlink/uplink)
Isolation
Power Requirements
Maximum power output
for single received
channel (downlink)
Maximum Power
Number of channels
1700 MHz Band
(uplink)
2100 MHz Band
(downlink)
2
18.4 dBm
23.6 dBm
3
18.3 dBm
18.3 dBm
4
12.3 dBm
17.6 dBm
5
10.4 dBm
15.7 dBm
6
8.8 dBm
14.1 dBm
3.5 dB nominal
> 90 dB
110-240 V AC, 50-60 Hz, 8 W
Notes:
1. Nominal gain is the maximum gain at any frequency in the passband.
2. Nominal bandwidth is the difference between two frequencies that are adjacent to the passband where the amplification is
20 dB lower than the passband amplification. One of the frequencies is lower than the passband and the other is higher.
3. The Manufacturer’s rated output power of this equipment is for single carrier operation. For situations when multiple carrier
signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re-radiated and
can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction
and not by an attenuator at the output of the device.
4. The maximum power for 2 or more simultaneous signals will be reduced by 6 dB every time the number of signals is doubled.
3301 East Deseret Drive, St. George, UT 84790
For additional Technical Support visit www.WilsonElectronics.com
or email at: [email protected]tronics.com
Phone: 866-294-1660 Local: 435-673-5021 Fax: 435-656-2432
www.twitter.com/WilsonCellular
www.facebook.com/WilsonCellular
AIG #110998_Rev03_01.12.12
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