Corning Optical Communication GXSPA-40 GX HIGH POWER DAS REMOTE UNIT (BOOSTER) User Manual Tri DAS System

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CorningOptical Communications
High Power GX™Tri DAS System
User Manual
APRIL 2014
P/N 709C010702
Draft
Warranties
Hardware
Corning Optical Communications warrants to the original purchaser(“Customer”) that for the duration of the
warranty period,
One (1) year, commencing on the date of shipment of theHardware, unless otherwise agreed in writing by Corning
Optical Communications(the “Hardware Warranty Period”), theHardware furnished by Corning Optical
Communicationsshall be freein all material respects from defects in material and workmanship,and shall conform
to the applicable portions of theSpecifications, as defined below (the “Hardware Warranty”).
If notified by Customer of any such defects in material orworkmanship or nonconformity with applicable portions
ofthe Specifications within the Hardware Warranty Period,Corning Optical Communicationsshall promptly, at its
own electionand expense, repair or replace any such Hardware provento be defective under the terms of this
Hardware Warranty.
Such repair or replacement shall be Customer’s sole remedyand Corning Optical Communications’ sole obligation
in the event thisHardware Warranty is invoked. If any components comprisinga part of the Hardware are replaced
or repaired duringthe Hardware Warranty Period, the Hardware WarrantyPeriod for such repaired or replaced
components shall extendto the longer of (i) the balance of the Hardware WarrantyPeriod or (ii) three (3) months
from the date of repair orreplacement. For purposes of this Warranty, “Specifications”shall mean the specifications
and performance standards ofthe Products as set forth in documents published by Corning
Optical Communicationsand delivered to Customer which contain technicalspecifications or performance standards
for the Products.
If Customer invokes this Hardware Warranty, it shall notifyCorning Optical Communications promptly of the
claimed defect.
Customer will allow Corning Optical Communications to inspect theHardware at Customer’s location, or to return
the Hardwareto Corning Optical Communications’ closest repair facility. ForHardware returned to Corning Optical
Communications ’ repair facility,Customer shall be responsible for payment of all transportationand freight costs
(including insurance) to Corning Optical Communications ’ repair facility, and Corning Optical Communications
shall be responsible for all transportation and freight costs(including insurance) incurred in connection with the
shipmentof such Hardware to other repair facilities of Corning Optical Communications and/or its return to
Customer.
Notwithstanding the foregoing, in no event will Corning Optical Communications be liable for damage to Products
resulting
From improper handling during or after shipment, misuse,neglect, improper installation, operation or repair (other
Than by authorized Corning Optical Communications personnel),alteration, accident, or for any other cause not
attributableto defects in materials or workmanship on the part ofCorning Optical Communications. Corning Optical
Communications shall not
Reimburse or make any allowance to Customer for any laborcharges incurred by Customer for replacement or
repair ofany goods unless such charges are authorized in advance inwriting by Corning Optical Communications.
Warranties
P/N 709C010702
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Software Warranty
Corning Optical Communications warrants to the original purchaser (“Customer”) that for the duration of the
warranty period,
One (1) year, commencing on the date of shipment of the Software, unless otherwise agreed in writing by Corning
Optical Communications(the “Software Warranty Period”), the Software shall conform with, and perform the
functions set
Forth in the Specifications, and shall be free from defects in material or workmanship (the “Software Warranty”).
In the event the Software is proven to be defective under the terms of this Software Warranty, Corning Optical
Communications shall correct such defects or failure and ensure that the Software conforms with, and performs the
functions set forth in, the Specifications. Customer will allow Corning Optical Communications to inspect the
Software at Customer’s location or to return it to Corning Optical Communications’ closest repair facility.
Notwithstanding the foregoing, Corning Optical Communications shall have no obligation under the Software
Warranty if the
Software is modified or used with hardware or software not supplied or approved by Corning Optical
Communications, or if the Software is subject to abuse, improper installation or application, accident, electrical or
environmental over-stress, negligence in use, storage, transportation or handling.
Third-party software distributed with the Software may carry certain warranties which, to the maximum extent
allowed by law, Corning Optical Communications hereby assigns, transfers and otherwise conveys to Customer,
provided, however, that Corning Optical Communications itself provides no warranty of any kind, express,
implied, statutory or otherwise, for any third-party software provided hereunder.
Corning Optical Communications does not warrant any hardware, software or services not provided by Corning
Optical Communications.
THIS WARRANTY IS THE ONLY WARRANTY MADE BY CORNING OPTICAL COMMUNICATIONS
AND IS IN
LIEU OF ALL OTHER WARRANTIES, EXPRESS OR IMPLIED INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
CORNING OPTICAL COMMUNICATIONS SHALL NOT BE LIABLE FOR ANY OTHER DAMAGE
INCLUDING, BUT
NOT LIMITED TO: INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR
IN CONNECTION WITH FURNISHING OF GOODS, PARTS AND SERVICE HEREUNDER, OR THE
PERFORMANCE, USE OF, OR INABILITY TO USE THE: GOODS, PARTS AND SERVICE.
CORNING OPTICAL COMMUNICATIONS SALES AGENTS OR REPRESENTATIVES ARE NOT
AUTHORIZED TO
MAKE COMMITMENTS ON WARRANTY RETURNS.
Returns
In the event that it is necessary to return any productagainst above warranty, the following procedure shallbe
followed:
1. Return authorization is to be received from Corning Optical Communications prior to returning any unit.
AdviseCorning Optical Communications of the model, Serial number,and discrepancy. The unit may then be
forwardedto Corning Optical Communications, transportation prepaid.Devices returned collect or without
authorizationmay not be accepted.
Warranties
P/N 709C010702
Page 3
2. Prior to repair, Corning Optical Communications will advise thecustomer of our test results and any charges for
repairing customer-caused problems or out-of-warrantyconditions etc.
3. Repaired products are warranted for the balance of theoriginal warranty period, or at least 90 days from dateof
shipment.
Limitations of Liabilities
Corning Optical Communications’s liability on any claim, of anykind, including negligence for any loss or damage
arisingfrom, connected with, or resulting from the purchaseorder, contract, quotation, or from the performance
orbreach thereof, or from the design, manufacture, sale,delivery, installation, inspection, operation or use of
anyequipment covered by or furnished under this contact,shall in no case exceed the purchase price of the
devicewhich gives rise to the claim.
Except as expressly provided herein, Corning Optical Communications makes no warranty, expressed or implied,
withrespect to any goods, parts and services provided in connectionwith this agreement including, but not
limitedto, the implied warranties of merchantability and fitnessfor a particular purpose. Corning Optical
Communications shall notbe liable for any other damage including, but not limitedto, indirect, special or
consequential damages arising out
Of or in connection with furnishing of goods, parts and service hereunder, or the performance, use of, or inability
to use the: goods, parts and service.
Reporting Defects
The units were inspected before shipment and found to be free of mechanical and electrical defects. Examine the
units for any damage that may have been caused in transit. If damage is discovered, file a claim with the freight
carrier immediately. Notify Corning Optical Communications as soon as possible in writing.
Note: Keep all packing material until you have completed the inspection. The application antenna and RF cable are
not provided.
Warranties
P/N 709C010702
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Warnings and Admonishments
There may be situations, particularly for work place environments near high-powered RF sources, where
recommended limits for safe exposure of human beings to RF energy could be exceeded. In such cases, restrictive
measures or actions may be necessary to ensure the safe use of RF energy.
The equipment has been designed and constructed to prevent, as far as reasonably, practicable danger. Any work
activity on or near equipment involving installation, operation or maintenance must be, as far as reasonably, free
from danger.
Where there is a risk of damage to electrical systems involving adverse weather, extreme temperatures, wet,
corrosive or dirty conditions, flammable or explosive atmospheres, the system must be suitably installed to prevent
danger.
Equipment provided for the purpose of protecting individuals from electrical risk must be suitable for the purpose
and properly maintained and used. This covers a range of activities including lifting, lowering, pushing, pulling,
carrying, moving, holding or restraining an object, animal or person from the equipment. It also covers activities
that require the use of force or effort, such as pulling a lever, or operating power tools.
Where some of the abovementioned activities are required, the equipment must be handled with care to avoid being
damaged.
Observe standard precautions for handling ESD-sensitive devices. Assume that all solid-state electronic devices are
ESD-sensitive. Ensure the use of a grounded wrist strap or equivalent while working with ESD-sensitive devices.
Transport, store, and handle ESD-sensitive devices in static-safe environments.
WARNING! This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and
QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC Licensee to
operate this device. Unauthorized use may result in signification forfeiture penalties, including penalties in excess
of $100,000 for each continuing violation.
Note: The grantee is not responsible for any changes or modifications not expressly approved by the party
responsible for compliance. Such modifications could void the user’s authority to operate the equipment.
This device complies with Part 15 B, FCC Part 90, FCC Part 24, FCC Part 27, FCC Part 2 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
RF Safety
WARNING! To comply with FCC RF exposure compliance requirements, each individual antenna used for
this transmitter must be installed to provide a separation distance greater than 144.97 cm or more from all persons
during normal operation and must not be co-located with any other antenna for meeting RF exposure requirements.
The design of the antenna installation needs to be implemented in such a way so as to ensure RF radiation safety
levels and non-environmental pollution during operation.
WARNING! Antenna gain should not exceed 12.5 dBi.
WARNING! Each individual antenna used for this transmitter must be installed to provide a separation
distance greater than 400cm or more from all persons and must not be co-located with any other antenna for
meeting RF exposure requirements.
Warnings and Admonishments
P/N 709C010702
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WARNING! The design of the antenna installation needs to be implemented in such a way so as to ensure RF
radiation safety levels and non-environmental pollution during operation.
Compliance with RF safety requirements:

Corning Optical Communications products have no inherent significant RF radiation.

The RF level on the downlink is very low at the downlink ports. Therefore, there is no dangerous RF radiation
when the antenna is not connected.
RF Safety
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Laser Safety
Fiber optic ports of the GX system emit invisible laser radiation at the 1310/1550 nm wavelength window.
The laser apertures /outputs are the green SC/APC Bulkhead adapters located on the front panel of the equipment.
The product is Class 1/Hazard level 1
External optical power is less than 10mW, Internal optical power is less than 500mW.
To avoid eye injury never look directly into the optical ports, patch cords or optical cables. Do not stare into beam
or view directly with optical instruments. Always assume that optical outputs are on.
Only technicians familiar with fiber optic safety practices and procedures should perform optical fiber connections
and disconnections of GX devices and the associated cables.
GX has been tested and certified as a “Class 1” Laser product to IEC/EN 60825-1(2007). It also meets the
requirements for a Hazard Level 1 laser product to IEC/EN 60825-2: 2004 to the same degree.
GX complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice NO.50 (2007).
GX employs a Class 3B laser and therefore the following label is affixed inside the unit adjacent to the laser:
The product itself has been tested and certified as a Class 1 Laser product to IEC/EN 60825-1 (2007). It also meets
the requirements for a Hazard Level 1 laser product to IEC/EN 60825-2: 2004 to the same degree.
Care of Fiber Optic Connectors
Do not remove the protective covers on the fiber optic connectors until a connection is ready to be made. Do not
leave connectors uncovered when not connected.
The tip of the fiber optic connector should not come into contact with any object or dust.
Refer to the cleaning procedure for information on the cleaning of the fiber tip.
Laser Safety
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Standards and Certifications
Corning Optical Communications products have met the approvals of the following certifying organizations:
Category
Safety:
EMC:
Radio:
ISO:
Standards
CB: IEC 60950;
NRTL: UL 60950;
CAN/CSA: C22.2 NO 60950
ETSI: EN 301489;
FCC: Part 15 subpart B
ETSI: EN 301908; EN 301502; EN 300609
FCC: Part 22, 24, 27
ISO 9001: 2000 and ISO 13485: 2003
About this Guide
This Installation Guide describes how to perform the physical installation of the GX unit. The installation
procedures of other units (e.g. RIU, OCH-GX, SC-450) relevant to the system are detailed in their user manuals
(see Additional Relevant Documentation below).
Additional Relevant Documents
The following documents are required if the corresponding units are included in your system.
Document Name
RIU Installation and Configuration Guide
FT350 Installation Guide (includes OCH-GX information)
System Controller User Manual (SC-450 v5.4 and higher)
MA Software Version Update Tool
Standards and Certifications
P/N 709C010702
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List of Acronyms
BDA
Bi-Directional Amplifier
BTS
Base Transceiver Station
BTSC
Base Transceiver Station Conditioner
BU
Base Unit
DL
Downlink
OCH-GX
(Dedicated GX) Optical Central Hub
RU
Remote (Hub )Unit
RIU
Radio Interface Unit
UL
Uplink
List of Acronyms
P/N 709C010702
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Table of Contents
Warranties .................................................................................................................................2
Hardware ........................................................................................................................................... 2
Software Warranty ............................................................................................................................. 3
Returns .............................................................................................................................................. 3
Limitations of Liabilities ....................................................................................................................... 4
Reporting Defects ............................................................................................................................... 4
Warnings and Admonishments................................................................................................4
RF Safety ...................................................................................................................................5
Compliance with RF safety requirements: ............................................................................................. 6
Laser Safety ..............................................................................................................................7
Care of Fiber Optic Connectors ............................................................................................................ 7
Standards and Certifications ...................................................................................................8
About this Guide .......................................................................................................................8
List of Acronyms .......................................................................................................................9
Table of Contents ....................................................................................................................10
Introduction ......................................................................................................................12
1.1 Key Features and Capabilities ..................................................................................................... 13
1.2 System Architecture ................................................................................................................... 13
1.2.1 General Scenario .............................................................................................................. 14
1.2.2 MIMO Scenario ................................................................................................................ 15
1.2.3 Signal Path ...................................................................................................................... 16
1.3 System Monitoring and Management .......................................................................................... 17
1.4 GX-TriUnit Interfaces ................................................................................................................. 18
Installation Guidelines .....................................................................................................21
2.1 Site Considerations .................................................................................................................... 21
2.1.1 Installation Location ......................................................................................................... 21
2.1.2 Environmental ................................................................................................................. 21
2.1.3 Powering ......................................................................................................................... 21
2.1.4 Grounding Requirement ................................................................................................... 21
2.1.5 Cable Routing .................................................................................................................. 21
2.1.6 Manual Handling .............................................................................................................. 21
2.2 Installation Requirements .......................................................................................................... 22
2.3 Fiber Optic Rules ....................................................................................................................... 23
Table of Contents
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3
System Installation ..........................................................................................................24
3.1 Installing External Filter (If Required) ............................................ Error! Bookmark not defined.
3.2 Installing External Combiner ...................................................................................................... 39
3.3 Installing the GX Unit .................................................................... Error! Bookmark not defined.
3.3.1 Unpacking and Inspection ................................................................................................ 25
3.3.2 Required Tools................................................................................................................. 26
3.3.3 Mounting ......................................................................................................................... 26
3.3.3.1 Wall Mount Installation......................................................................................... 26
3.3.3.2 Indoor Wall Mount Installation .............................................................................. 29
3.3.3.3 Pole Mount Installation ......................................................................................... 33
3.3.3.4 Wooden Pole Mount Installation............................................................................ 35
3.4 GX Connections ......................................................................................................................... 39
3.4.1 Grounding Connections ....................................................... Error! Bookmark not defined.
3.4.2 F/O Connections .............................................................................................................. 42
3.4.3 RF Connections ................................................................................................................ 43
3.4.4 Power Connections ........................................................................................................... 44
3.4.4.1 AC Models ........................................................................................................... 44
3.4.4.2 DC Models ........................................................................................................... 45
3.4.5 External Alarm Connections .............................................................................................. 49
3.4.6 System Alarm Pin-Out Description ..................................................................................... 49
3.5 Verifying Normal Operation ........................................................................................................ 50
Appendix A: System Specifications ......................................................................................51
RF Parameters.................................................................................................................................. 51
Supported Services .................................................................................................................... 51
RF Parameters per Service ......................................................................................................... 51
Optical Specifications ................................................................................................................. 52
Physical Specifications ............................................................................................................... 52
Environmental Specifications ...................................................................................................... 52
Appendix B: Ordering Information ........................................................................................53
MobileAccessGX-TriRemote Units ....................................................................................................... 53
Optical Central Hub (OCH) - GX International products ....................................................................... 54
Corning OptiTap™ Cables.................................................................................................................. 54
Table of Contents
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1
Introduction
Corning Optical Communications GX-Tri offers a cost-effective 40W (46dBm) high power remote outdoor coverage solution
for Corning Optical Communications Distributed Antenna Systems (DAS).
GX-Tri is a fiber-fed, multi-frequency, multi-operator remote designed to complement the MA1000 and MA2000 and MA2000
lower power, standard remotes. GX can also be installed as a dedicated solution for new sites, providing complete RF
coverage options for open indoor, tunnel and adjacent outdoor spaces.
Using low loss fiber optic cabling, GX-Tri remote units can distribute multiple BTS signal sources for Spring 800, 1900MHz or
AWS to multiple remote locations from 2 to 15 km from the head end to remotes. GX efficiently supports all operator
modulations with linear MCPA (multi-carrier power amplifier) up to 40 W.
GX-Tri remotes share a common equipment head end and Element Management System (EMS) with other remotes on the
MA1K/MA2K platform.
GX-Tri remotes offer high RF power coverage capabilities with compact design for added spaces savings and weather
resistant enclosures to fit various site needs.
GX Tri-Band Unit
Figure 1-1
Introduction
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1.1 Key Features and Capabilities

Multi-Frequency/Multi-Service RF Transport Platform: Accommodates CDMA, GSM, WCDMA, LTE, EDGE, EV-DO
technologies and more. Four model-dependent bands per enclosure

Cost-Effective Higher Power: Optimizes and reduces the number of antennas required to cover open and outdoor
areas by offering 46dBm composite power per frequency band

Operator-Grade Operation: Advanced signal handling and management ensures operator-grade performance.

Unique, space-saving non-obtrusive design: Blends into the environment and avoids costly tower builds outdoors
when covering campus scenarios, parking lots, tunnels and indoor-adjacent outdoor spaces.

Designed to withstand harsh environments - Fully sealed Remote Unit (RU) enclosure ensures superior performance
in harsh environments and worry-free electronics maintenance. Compliant to NEBS OSP Class 4 rated

Management and control– alarm forward to NOC or standard EMS via SNMP, software controlled output power and
Optical link auto gain control
1.2 System Architecture
GX-Tri provides a complete solution consisting of GX-Tri remote units at the remote locations, and head end elements, which
are shared with any existing or new MA1000/MA2000 deployment.
GX-Tri Remote Unit consists of a uniquely designed, non-obtrusive unit that includes all of the required RF, F/O and power
interfaces. All mobile services are distributed through service/band dedicated RF connection ports over antennas installed at
the remote locations.
Introduction
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1.2.1
SISO Scenario
Figure 1-2 illustrates a scenario including one GX Tri-Band and one GX Tri-Band remote unit remote. Note that all site
elements are managed and controlled via a single SC-450 Controller* that enables local and remote management, and
provides single-source, centralized „common headend‟ controls of all installed elements.
For the GX path, at the Headend, the BTS or BDA signal is conditioned by the RIU, ensuring a constant RF level. The
conditioned RF electrical signal is then converted by the Optical Central Unit (OCH) to an optical signal for transport to/from
multiple GX remotes, over low-loss fiber cabling.
Note: GX Tri-Band is supported by SC-450 Controller v5.4 and higher.
GX Architecture Diagram Figure 1-2
*In installations including a GX supporting the CELL band and a GX supporting the Sprint800 band, the CELL and Sprint service signals must be conditioned
via two independent sectors in the RIU-12 (i.e. Sector A and Sector B in Figure 2) and routed through dedicated optical modules in the OCH. Note the
following:
• Installations with RIU-4 units require a dedicated RIU-4 per GX model
• Either an OCH-4 unit per GX or an OCH-8 (supporting two separate optical modules) is used
• **External Combiner Insertion Loss of 1.0 dB
Introduction
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1.2.2
MIMO Scenario
Figure 1-3illustrates a MIMO scenario supported by two GX Tri-Band units. In MIMO installations each MIMO stream is
supported by a single GX unit. The MIMO1 and MIMO2 services are conditioned via two independent sectors in the RIU-12
(i.e. Sector A and Sector B) and routed through separate optical modules in the OCH. Note the following:

Installations with RIU-4 units require a dedicated RIU-4 per GX model

Either an OCH-8 (supporting two separate optical modules) or an OCH-4 unit per GX is used
GX Architecture Diagram - MIMO
Figure 1-3
*External Combiner Insertion Loss of 1.0 dB
Introduction
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1.2.3
Signal Path
On the DL, combined RF signals (from up to four supported services) from the Radio Interface Unit (RIU) are converted into
optical signals by the Optical Control Hub (OCH). The optical signals are then transmitted to the GX at the remote site via
optical fiber. The signals are filtered and amplified at the GX and transmitted through the service specific output ports to the
broadband antennas.
On the UL, GX converts the RF signals transmitted from the service antennas into optical signals. The signals are transmitted
via optical fiber to the OCH-GX which then converts the optical signals back to RF signals.
The optical DL and UL signal are transmitted in a single optical fiber based on the WDM technology.
GX Functional Block Diagram
Figure 1-4
Introduction
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1.3 System Monitoring and Management
The GX-Tri Remote Unit is centrally managed via the MobileAccess SC-450 Controller.
Note: The GX Tri-Band solution is supported by SC-450 v5.4 and higher.
GX-Tri is not connected directly to the controller; it is connected to the OCH-GX element (that is connected to the controller).
Thus, the controller monitors views and manages the GX-Trivia the OCH-GX, hosting the GX unit.
The following shows the Config [uration] tab of the selected GX unit. The system configuration and management is described
in the SC-450 UM (v5.4 and higher).
Example of GX Tri-Band Configuration Tab
Figure 1-5
Introduction
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1.4 GX-Tri Unit Interfaces
All of the GX interfaces (except for the power connector) are located externally on the underside of the unit (facing down
when unit is mounted). The unit interfaces include the RF, power, optical link and external alarms connections.
The power connector is located in a separate side panel.
Corning optitap port
System status LEDs
RJ-45 LAN port
System alarms port
RF service
connectors
CPL 1-3
External alarms port
Grounding lug
Example of GX Tri-Band(AC)Interfaces – Underside and Side Panels
Introduction
Figure 1-6
P/N 709C010702
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Table 1-1 and Table 1-2provide descriptions of the GX-Tri connectors and LEDs.
INTERFACE
DESCRIPTION
Service Connectors
DIN female connectors to antennas (or external combiner – see section
3.2)
(e.g. Spring 800MHz,
1900MHz, AWS)
OP
Corning OptiTap™ Fiber-optic waterproof connector – connects to
OCHGX-XR using Corning OptiTap™ to SC/APC cable (ordered
separately)
IMPORTANT! OptiTap™ pullot force ranges from a few lbs to 50+ lbs with
the dust cap or connector installed. This prevents damages caused to the
DAS unit.
Power Connector (side
panel)
Power feed option is model dependent:
 Local power feed (AC) option: 100-240 V AC;47-63 Hz;
 Remote power feed (DC) option: -40--57 V DC ; Max 32.5A
Max Power Consumption: 1100 W
LAN
RJ-45 connector for local connection (i.e. debugging, troubleshooting)
EXT_ALM
External Alarm pin-out connectors supporting four external alarm
connections
SYS_ALM
Pin-out connector supporting up to 3 relay alarms used for connecting the
GX-TRIto a network or modem and relaying the status of the GX alarms
CPL_1
Coupler port - 1900MHz 50dB coupling
CPL_2
Coupler port - AWS 50dB coupling
CPL_3
Coupler port - 800MHz 50dB coupling
FILTER_ OUT/ FILTER_
IN*
Connections to external filter – only relevant if External Filter (ordered
separately) is installed on GX-Quad
Table 1-1.LED Descriptions
LED
Description
RUN
Green – power on
ALM
Off – normal operation
Red - fault
COMM.
Rapid flashing green - flashes (rate of flash per second) for the duration of
1 minute upon communication initialization
Rapid/No Flash - indicates communication fault
Table 1-2.LED Descriptions
Introduction
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1.5 (Optional) External Multiplexer
Note: The External Combiner is optional and ordered separately (P/N: AK-GX-FILT-COMB).
The 4 x 1 external multiplexer filters and combines the service specific RF signals received from the GX and transmits the
converged input signals through a single output port to the broadband service antenna.
The multiplexer includes the following interfaces:

Four service specific RF input connectors (one is unused and should be terminated using the DIN terminator) – used for
connecting to the GX service specific RF connectors

One output connector – interfaces to the broadband DAS antenna

One grounding lug

One QMA coupler port – enables users/field engineers to measure and read signals without interrupting service due to
service cable disconnections. The QMA coupling port serves as the coupling measurement port for reading the signal
without affecting services on the main stream.
GX External Combiner
Figure 1-7
Introduction
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2
Installation Guidelines
This chapter provides the general guidelines for installing the GX Tri-band Remote Unit and includes information such as site
considerations and installation requirements.
2.1 Site Considerations

The distance between the GX Tri-Band service antenna and the coverage area should correspond to LOS (Line of Sight)
requirements for maximum coverage area.

The maximum fiber path loss is 6dB.

The system delay of the optical system must be taken into consideration when there are neighboring BTS sites
overlapping in coverage.

In the MIMO scenario, two remote units shall use a pair of optic fiber for each one. This ensures to avoid the system
delay difference between two units.
2.1.1
Installation Location
Mounting surface shall be capable of supporting the weight of the equipment.
In order to avoid electromagnetic interference, a proper mounting location must be selected to minimize interference from
electromagnetic sources such as large electrical equipment.
2.1.2
Environmental
Humidity has an adverse effect on the reliability of the equipment. It is recommended to install the equipment in locations
having stable temperature and unrestricted air-flow.
The installation location for the system should be well ventilated. The equipment has been designed to operate at the
temperature range and humidity level as stated in the product specifications at temperatures ranging from -40~70 C and a
relative humidity of max. 85%.
2.1.3
Powering
The power supply unit provides power to all modules within the equipment. Depending on the product variant, it is
recommended that the PSU operates on a dedicated AC circuit breaker or fused circuit.
2.1.4
Grounding Requirement
Verify that the equipment has been well grounded. This includes GX Tri-Band unit, external combiner, antennas and all
cables connected to the system. Ensure lightning protection for the antennas is properly grounded.
2.1.5
Cable Routing
Ensure all cables, e.g. power cable, feeder cable, optic fiber, commissioning cable, connecting are properly routed (use driploops) and secured so that they are not damaged.
2.1.6
Manual Handling
During transportation and installation, take necessary handling precautions to avoid potential physical injury to the installation
personnel and the equipment.
Installation Guidelines
P/N 709C010702
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2.2 Installation Requirements

Working space available for installation and maintenance for each mounting arrangement. Ensure unrestricted airflow.

Ensure grounding connector is within reach of the ground wire.

Ensure a power source is within reach of the power cord and the power source has sufficient capacity.

Where appropriate, ensure unused RF connectors are terminated.

Do not locate the equipment near large transformers or motors that may cause electromagnetic interference.

Reduce signal loss in feeder cable by minimizing the length and number of RF connections.

Ensure the equipment will be operated within the stated environment (refer to datasheet).

Where appropriate, confirm available of suitably terminated grade of RF and optical fiber.

Observe handling of all cables to prevent damage.
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2.3 Fiber Optic Rules
ATTENTION!
Please also refer to the Laser Safety section in the document Preface.

Fiber optic cables require proper handling. Do not stretch, puncture, or crush the fiber cable(s) with staples, heavy
equipment, doors, etc.

Always maintain the minimum bending radius specified by the cable manufacturer. The minimum bend radius is usually
ten times the cable's outer diameter. In the case of single optical fiber that is not in a cable, the minimum bending radius
to be observed is 30mm.

WDM, Wave Division Multiplexing, units require SMF

Use minimum splicing/connectors to achieve minimum losses on the fibers.

Use precaution while installing, bending, or connecting fiber optic cables.

Use an optical power meter and OTDR for checking the fiber optic cables.

Make sure the environment is clean while connecting/splicing fiber optic cables.

All fiber optic connections should be cleaned prior to attaching to termination points using a dry cleaning device (i.e.
Cletop or equivalent).

Fiber connector protective caps should be installed on all non-terminated fibers and removed just before they are
terminated.

Check the fiber optic connections.
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3
System Installation
This chapter describes the installation procedure for the GX Quad-bandRemote Units. The installation of the system
components must be in the following order:
1. External Combiner installation (optional). See section 3.2.
2. GX-TriInstallation. See section Error! Reference source not found..
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3.1 Installing the GX unit
3.1.1
Selecting Mounting Location
Select the mounting location (wall/pole):

General surroundings

Ventilated and easy-to-reach area

Proximity to the antenna in order to minimize cable loss
For installations with GX External Multiplexer - take into consideration that the unit must be mounted adjacent to the GX RF
interfaces to facilitate the connections (DIN-DIN cables = 1.2 m).
3.1.2
Unpacking and Inspection
Unpack and inspect the cartons according to the following procedure
1. Open the shipping carton and carefully unpack each unit from the protective packing material.
2.Please verify that the items listed below are included in your package (image size is not proportional):
Item
Quantity
GXTri-BandRemote Unit
Mounting bracket (used for both pole and wall
installations)
M8 Nuts, spring washers Φ8, plain washers Φ8 (used
for securing Remote Unit when hanged on bracket
protrusions)
Image
(per item)
Masonry bolt (set) M10x110 – used for wall mount
installations
Power Supply Cable (AC) – for AC models
Power cable tube gasket (DC) – for DC models
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Item
Quantity
Copper Grounding Wire (2m)
RJ-45 Ethernet communication cable
Image
3.Check for signs of external damage. If there is any damage, call your MobileAccess service representative.
3.1.3
Additional Required Tools
The following tools are the minimum required when installing the GX remote unit or performing routine maintenance:

Electric Drill (Φ12 head for drilling holes for wall mount)

Spanner (0.31 inch for tightening GXTri-BandM8 nuts)

For pole mount installations – the GX bracket supports wooden pole mounting via the a dedicated GX Accessory Kit
(ordered separately): AK-GX-QUAD-BRKT-WDPOLE
3.1.4
Mounting
CAUTION!
The GXQuad-bandunit weighs 147.7 lbs (67kg) take all necessary precautions when mounting. A minimum of two people is
required for installing GX-Quad.
3.1.4.1 Wall Mount Installation
Note: The instructions provided in this section are for solid brick and concrete walls only.
To mount the unit on the wall
1. Select the wall mount location according to the following criteria:
 General surroundings
 Ventilated and easy-to-reach area (for maintenance and on-site inspection)
 Proximity to the antenna in order to minimize cable loss
 For installations with GX External Multiplexer - take into consideration that the unit must be mounted adjacent to the
GX RF interfaces to facilitate the connections (DIN-DIN cables = 1.2 m).
2. Using the mounting bracket top and bottom mounting holes as a guide (refer to Figure 3-1):
 Measure and mark the location for drilling the (supplied) M10 Masonry bolts (Φ12) in the wall (six per bracket and drill
the holes).
Note: The GXTri-Bandunit is mounted vertically with the connectors facing downwards.
 Using an electric drill with a Φ12 head, drill the holes for the Masonry bolts
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GX Mounting Bracket
Figure 3-1
3. Using six(M10x110) Masonry bolts per bracket – secure the Mounting Brackets to the wall with the protruding pinsfacing
towards you. The GXTri-Bandwill be hung on these. See Figure 3-1.
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Mounting Procedure and Zoom In of Hung Unit
Figure 3-2
4. Connectors facing down, carefully fit and hang the GX unit on the Pins(SeeFigure 3-2) protruding from the top, and
middle-bottom parts of the mounting bracket.
5. Using a spanner or wrench, tighten the two M8 nuts on the top and bottom of the mounting bracket as shown in Figure 3-3.
Note: It is recommended to use a threadlocker to tightly seal the nuts.
M8 Bolts
Wall Mounted GX – Bottom View
Figure 3-3
6. Check enclosure position and verify that unit is mounted securely to the wall.
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3.1.4.2 Indoor Wall Mount Installation
This section provides instructions on how to mount the GX Tri-Bandunit on indoor concrete walls using the
AK- AK-GX-QUAD-BRKT-INDOOR accessory kit (ordered separately).
Note the following:

The AK-GX-QUAD-BRKT-INDOOR accessory kit is designed for installations on concrete walls only.

The GX unit is mounted with the connectors facing UPWARDS (as opposed to all other installation
types).
The accessory kit includes the following items:
Item
Quantity
Image
Top Wall Rack (6 holes)
Bottom Wall Rack (8 holes)
Mounting Ground Support
Sideboard
Spring Washer
Plain Washer
14
M5×12 Hex socket head cap screws –
required for rack assembly
(six for top rack; eight
for bottom rack)
M6×16 Hex socket head cap screws –
required for sideboard assembly
Table 3-1. Kit Items for GX Quad Indoor Bracket
Additional required tools:

Electric Screwdriver with Hexbits

Electric Drill with aΦ12 head

Spanner (0.31 inch for tightening GX M8 nuts)
To mount GX Tri-Bandunit in indoor installation
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1. Determine the installation location so that there is enough free space for proper ventilation and technical
support access.
2. Referring to Figure 3-4, perform the following before mounting:
 Disassemble the mounting hooks from the GX by unscrewing the relevant bolts.
 Assemble the top wall rack on the GX using six M5×12 hex socket head cap screws.
 Assemble the bottom wall rack on the GX using eight M5×12 hex socket head cap screws.
 Place the GX unit on the Mounting Ground Support facing with the connectors upwards.
 Place the GX unit on the Mounting Ground Support facing with the connectors upwards.
 Secure the GX to the mounting ground support with the two sideboards using eight M6x16 hex socket
head cap screws.
Pre-Mounting Procedure
Figure 3-4
Figure 3-5 provides an overview of the mounted GX unit.
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Over View of Mounting Procedure
Figure 3-5
Note: Eight M10 masonry bolts are required (not provided).
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3. Position the GX and Bracket assembly so that the mounting brackets face the wall.Refer to “Side View”
(top-left image) and “Front View” (top-right image) shown in Figure 3-5.
4. Using the screw holes as a template, drill the required holes in the floor and wall (drill directly through the
screw holes). Refer to “Front View” (top-right image) and “Top View” (bottom-left image) shown in Figure
3-5.
5. Insert masonry M10 bolts into drilled holes and tighten. Refer toFigure 3-6.
Location of Inserted M10 Masonry Bolts
Figure 3-6
3.1.4.3 Pole Mount Installation
Note: Refer to section 3.1.4.4 for wooden pole mount installations.
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To mount the unit on a pole (not wooden)
1. Select the appropriate location according to the following criteria:
 Accessibility
 Antenna location and distance
 Proximity to the antenna in order to minimize cable loss
2. Secure the mounting bracket by slipping the 5 hose clamps (provided) through the mounting bracket and
tighten securely. Refer toFigure 3-7 and Figure 3-8.
Bracket Slots for Hose Clamps
Figure 3-7
Bracket Mounted on Pole
Figure 3-8
3. Connectors facing downwards, hook the GXTri-Bandon to the top part of the bracket and then to the
bottom. Refer to Figure 3-9.
4. Using a spanner or wrench, tighten the two M8 nuts on the top and bottom of the mounting bracket as
shown in Figure 3-9 and Figure 3-10.
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Note: It is recommended to use a threadlocker to tightly seal the nuts.
M8 Bolts
Hooking GX-Trito Bracket
Pole Mounted GXQuad
Pole Mounted GX – Bottom View
Figure 3-9
Figure 3-10
Figure 3-11
3.1.4.4 Wooden Pole Mount Installation
This section provides instructions on how to mount the GX Tri-Bandunit on wooden poles using the AK-GXQUAD-BRKT-WDPOLE accessory kit (ordered separately).
To mount a GX unit on a wooden pole
1. Assemble the wooden pole bracket, Using the 8 M6×16 hex socket screws and the relevant washers:
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 Insert the bracket middle part into the bottom part and tighten the four M6x16 hex socket screws.
 Insert the assembled parts into the top part and tighten the four M6x16 hex socket screws. Refer to
Figure 3-12.
Wooden Pole Bracket Assembly
Figure 3-12
2.Select the appropriate location for the bracket according to the following criteria:
 General surroundings
 Make sure that the bracket is installed high enough to ensure convenient access to the GX
connectors located on the underside of the unit when mounted.
 Ventilated and easy-to-reach area
 Proximity to the antenna in order to minimize cable loss
3.Referring to Figure 3-13, mount the wooden pole bracket according to the following steps:
 Drill four holes in the pole according to the distances shown inFigure 3-13.
 Position the bracket onto the wooden pole and screw in the 5/8” screws (provided) into the top and
bottom mounting holes.
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 Screw in the two additional screws into the remaining middle mounting holes and tighten.
Note: The distance between the bracket bottom screw and the ground must be at least 20mm. See
Figure 3-13
Mounting The Bracket
Note:
Figure 3-13
For Single GX unit installations – unit is mounted onto middle of bracket (Figure 3-14);
For Dual GX unit installations – units are mounted on the sides of the bracket (Figure 3-15).
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Single GX Unit Installation (Mounted in
Middle of Bracket) – Top View
Figure
3-14
Dual GX Unit Installation (One on each
Bracket Side) – Top View
Figure
3-15
4. Mount the GX unit onto the bracket:
 Referring Figure 3-16, Hang the GXon the pins protruding from the relevant(see above note) top and
center parts of the bracket. See and Figure 3-17 and Figure 3-22 for final Assembly.
 Insert the two M8 nuts on the bottom of the GX unit (provided with GX) into the appropriate bracket
holes and tighten using a spanner or wrench.
It is recommended to use a thread locker to tightly seal the nuts.
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Hooking GX onto Bracket
Pole Mounted GX – Single Mount
Figure 3-17
Figure 3-16
Pole Mounted GX – Dual Mount
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Figure 3-18
Page 38
3.2 Installing External Combiner
Note: The external combiner is ordered separately and supports up to 4 service inputs. The GX remote unit
supports 3 services, requiring that the unused combiner input be terminated.
The 4x1 external combiner (AK-GX-FILT-COMB) combines the input signals of the four GX supported bands
(e.g. CELL, PCS, LTE700 and AWS) and transmits them through a single output port to the broadband
service antenna.
3.2.1
Unpacking and Inspection
1. Open the shipping carton and carefully unpack each unit from the protective packing material.
2. Check your package contents to verify that the items in the packing list are included and that there are no
signs of external damage. If there is any damage, call your Corning Optical Communications service
representative.
The External Combiner kit includes the following items:
Item
Description
Quantity
External Combiner (Multiplexer)
4 x 1 service specific Tri-Bandcombiner
Grounding Cable; 3 ft. ( ~ 1m)
Used for connecting combiner to earth ground
Hose Clamps
Used for pole mount installations
M6 x 16 anchor Bolts; Spring
washers; Flat washers
Used for wall mount installations
DIN to DIN cables – super flex;
3 ft. ( 1.2 m)
Used to connect the GX RF service ports to the external
combiner input ports
DIN terminator
Used to terminate unused input port (e.g. for installations
with GX tri-band units)
(per item)
Table 3-2. External Combiner Kit
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3.2.2
Mounting the External Combiner
3.2.2.1 Wallmount
1. Using the combiner bracket mounting holes as a guide mark and drill four holes for the provided M6 bolts
2. Mount combiner on wall using the M6 bolts, spring and flat washers (four of each) provided in theExternal
Combiner Kit.
3.2.2.2 Pole mount
Slip a hose clamp through each end of the factory assembled mounting bracket (see Figure 3-19 and Figure
3-20) and secure to pole by tightening.
Hose Clamp Installation Holes
Figure 3-19
Example of Combiner with Hose
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Figure 3-20
Page 40
3.3 GX Connections
IMPORTANT – CABLE DRIP LOOPS!
It is highly recommended that every horizontal cable entry to the equipment forms a 'U' before its entry to the
equipment. Water on the cable will drip down at the bottom of the loop and will not accumulate at the
equipment connectors.
The connections are performed from the underside of the GX unit after it has been mounted.
3.3.1
Grounding Connections
WARNING!
This unit must always be grounded. Consult an appropriate electrical inspection authority or an electrician if
you are uncertain that suitable grounding is available.
DO NOT CONNECT POWER BEFORE GROUNDING!
Note: An internationally acceptable color code of the ground connection wire is green/yellow.
To ground the GX unit:
1. Connect the supplied copper wire (AWG #6) GND cable to the GND connector and the equipment rack or
building EARTH.
2. Ground the GX unit by connecting the provided “earth wire” of the power cord to the ground terminal of the
AC supply.
Recommended
Drip- Loop
GX Grounding Connection
Supplied
grounding wire
Figure 3-21
For installations with external combiner (AK-GX-FILT-COMB) – connect external combiner ground to building
ground. See Figure 3-20 for grounding bolt location.
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3.3.2
F/O Connections
IMPORTANT! OptiTap™ pullot force ranges from a few lbs to 50+ lbs with the dust cap or connector installed.
This prevents damages caused to the DAS unit.
Connect the GX-TriOPOptiTap™ port to one of the OCH-GX front panel Link ports (via F/O patch panel),
using a Corning OptiTap™ cable (ordered separately).
Drip Loop
GX Fiber Optic Connection
Figure 3-22
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3.3.3
RF Connections
To connect GX-TriRF connections
1. Connect each relevant RF output (e.g. 1900MHz, 700MHz, AWS, CELL) to the corresponding service
specific port of the combiner (e.g. GX AWS RF port to Combiner AWS port) using the provided DIN-M to
DIN-M cable.
GX RF Connections with External Combiner
Figure 3-23
2. Ensure lightening protection for each antenna.
3. Waterproof all RF ports.
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3.3.4
Power Connections
CAUTION!
Any open RF port on GX or improper connection between GX RF ports and filter input ports will damage GX
internal power amplifier after the equipment is powered on. Make sure all connections are performed correctly
before powering.
3.3.4.1 AC Models
To connect GX power
1. Unscrew the two screws of the side panel (shown in Figure 3-24) and open to access the power
connector.
GX Power Connector (AC Model)
Figure 3-24
2. Connect the supplied power cable to the power supply port (100-240VAC, 20A maximum).
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3.3.4.2 DC Models
Verify the following before connecting DC power:

DC power suppler is turned off

DC cable (not provided) meets the following requirements:
 Supports required voltage and current specifications: 40-57 V DC; Max 37.5A.
 Cable diameter ranges between 7 and 14mm
 Cable lug specs (refer to Figure 3-25 for example of compliant lug) :
Hole Size: ¼ in
Hole Spacing: 5/8 in
Example of Compliant DC Cable Lug
Figure 3-25
To connect DC power
1. Open DC power chamber panel by loosening four M3 screws, as shown in Figure 3-26.
Opening DC Chamber Panel
Figure 3-26
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2. Referring to Figure 3-27, remove retaining nut, insertDC power cable through tubing gasket (provided),
then carefully route the power cableinto the chamber (through hole) and connect the lug to terminal (make
sure right DC polar is connected).
3. Tighten retaining nuts.
Connecting Power Cord to Terminal
Figure 3-27
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4. Referring to Figure 3-28, use nut to tighten lug to terminal.
Tightening Lug to Terminal
Figure 3-28
Secured Lug and Terminal
Figure 3-29
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5. It is highly recommended to have power cords fixed or tighten with an enclosure type element. Additional
holes are left for that purpose. See Figure 3-30.
Fixed Power cable
Figure 3-30
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3.3.5
External Alarm Connections
The GX-Tri EXT_ALM port supports up to four dry-contact alarm connections from external sources (incoming
outputs). The alarms can be connected any time, before or after the system is powered-on.
NOTE: After being connected, the External Alarms must be enabled from the Web Management application
(see SC-450 v4.5 UM).
3.3.6
Pin No.
Description
EXT_ALM1
EXT_COM1
EXT_ALM2
EXT_COM2
EXT ALM3
EXT_COM3
EXT ALM4
EXT_COM4
System Alarm Pin-Out Description
The GX-Tri System Alarm pin-out connector supports 3 relay alarm connections. GX-Tristatus alarms can be
relayed via a network or modem connection.
Pin No.
Description
EXT_OPEN
EXT_COM
EXT_CLOSE
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3.4 Verifying Normal Operation
Upon powering up the GX-Tri remote unit:

Confirm the fans are working after powering.

Verify normal operation:
LED
Description
RUN
Flashing Green -
Flashes green for the duration of a minute upon system initialization
Off -
System initialized
Flashing Green -
Flashes (rate of flash per second) for the duration of 1 minute upon
communication initialization
Rapid/No Flash -
Indicates communication fault
Steady Red -
Fault
Off -
Normal operation
COMM.
ALM
GX Status LEDs
Figure 3-31
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Appendix A: System Specifications
RF Parameters
Supported Services
Technologies
Band
CDMA / WCDMA* / GSM /LTE
CDMA / WCDMA* / GSM /LTE
WCDMA* / HSPA / LTE
LTE
CDMA/LTE
CELL850
PCS1900
AWS2100
700MHz
S-800
Frequency Range
Uplink
Downlink
824-849
869-894
1850-1915
1930-1995
1710-1755
2110-2155
698-716 and 776-787
728-757
817-824
862-869
(*)WCDMA service is based on 3GPP standards, LTE service may deployed in the future due to Frequencies re-farming planned by the
operators as well
RF Parameters per Service (40 W)
CELL GSM /
CDMA /
WCDMA/ LTE
850MHZ
LTE
700MHz
RF Parameters
DL
Max Output Power
UL
DL
UL
PCS GSM / CDMA
/ WCDMA / LTE
1900MHz
DL
UL
AWS CDMA /
WCDMA / LTE
2100MHz
DL
UL
CDMA / LTE
S-800 MHz
DL
46
46
46
46
46
2 Carriers
43
43
43
43
43
4 Carriers
40
40
40
40
40
8 Carriers
37
37
37
37
12 Carriers
35
35
35
35
32
32
32
32
1 Carrier (Composite)
24 Carriers
UL
46
50
46
50
46
50
46
50
46
50
Gain Range (dB)
30
30
30
30
30
30
30
30
30
30
Max Pin (dBm) at
AGC Threshold
-54
-54
-54
-54
-54
Max Intermod
Distortion (dBm)
-13**
Mean Gain (dB)
NF (dB) Typical
VSWR
Gain Flatness/Ripple
(dB)
-13**
-13**
-13**
-13**
1.5:1
+/- 2.0
* WCDMA compiles with 3GPP TS 25.106 V5.0.0 (2002-03) table 9.4 spectrum emission mask.
** Out of band and spurious emissions compliant to FCC.
***Default Conditioner (BTSC) UL Gain=+3dB
Factory set mean gain OCH-WDM without RIU (OCH GUI set in “Active Mode”). May be field adjusted using controller system.
Gain Flatness/Ripple is specified for the non-duplexed port of the system.
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Optical Specifications
Max. Optical Budget
6.0dBo
Optical Return Loss
> 50dB
Optical Loss per Mated-pair
Connectors
0.5dB (maximum)
Optical Connector
Corning OptiTap® Fiber-optic waterproof connector
Optical Automatic Gain Control
Range
-2~-10dBm
Fiber Type
Single-mode: 9/125um
Wavelength
1310nm, 1550nm + WDM
Physical Specifications
Ports
Corning OptiTap™ Fiber-optic waterproof connectors
RF DIN Female connectors
Tri-Band Remote
S800 Remote
1450W
1100W
1450W
1150W
Weight kg (lbs)
147.7 lb. (67kg)
146.16 lb. (66.3 kg)
Mounting
Wall or Pole
Dimensions (H x W x D)
53 x 12.4 x 8.9 in (1350 x 315 x 225 mm)
AC:
Power
VAC 100-240/47-63
Hz
Max Power
consumption
VDC (-40) to (-57)
DC: Max Power
consumption
Physical Characteristics
Cooling Feature
Active heat dissipation (Fan)
Environmental Specifications
Operating Temperature
-40 to +70°C (-40 to +158°F)
Humidity
≤95 %
Enclosure
NEBS OSP Class 4 rated(Enclosure protected from elements
and waterproofing)
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Appendix B: Ordering Information
Note: The information listed below is updated up to the document publishing date. Refer to the GXQuaddatasheet for the most updated ordering information.
GX-TriRemote Units
Service Supported
Part Number
Description
CELL/PCS/700LTE/AWS
40W
GX-C85P19L70A17-40
GX Quad-Hardware with service CELL,
PCS, AWS and 700 MHz LTE solution
supporting 40W output power.
GX-C85P19L70A17-40-DC
GX Quad-Hardware with service CELL,
PCS, AWS and 700 MHz LTE solution
supporting 40W output power, for DC
powering.
GX-LIC-C85P19L70-40
GX Quad-Hardware with licensed service
CELL, PCS and 700 MHz LTE solution
supporting 40W output power.
GX-LIC-C85P19L70-40-DC
GX Quad-Hardware with licensed service
CELL, PCS and 700 MHz LTE solution
supporting 40 W output power, for DC
powering
AWS 40W
GX-LIC-AO-A17-40
GX licensed service Add on for AWS
solution supporting 40 W output power.
S800/PCS/AWS
GX-P19S80A17-40
GX Tri-service PCS, S800 and AWS solution
supporting 40W output power for AC
powering.
GX-P19S80A17-40-DC
GX Tri-service PCS, S800 and AWS solution
supporting 40W output power for DC
powering.
CELL/PCS/700LTE 40W
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Optical Central Hub (OCH) - GX International products
Part Number
Description
OCH-4-WDM
Optical Central Hub for SISO services, supporting (4) SISO Remote
units, SMF (WDM)
OCH-8-WDM
Optical Central Hub for SISO or MIMO services, supporting (8) SISO
or (4) MIMO Remote units, SMF (WDM)
Accessories
Part Number
Description
AK-GX-FILT-COMB
GX Accessorized 4 to 1 external multiplexer
AK-GX-QUAD-PWR-CABLE
GX AC electrical power cable for US GX Quadband
AK-3COUPLER-DINM-DINF
Male DIN-Type to Female DIN-Type Coupler with QMA port, Qty of
three
AK-RIU4-OCH-CABLES
Accessory Kit Cables for RIU4 to OCH, four QMA to QMA R/A cables
1m
AK-GX-FILT-850
GX Accessories CELL Cavity External filter
AK-GX-QUAD-BRKT-INDOOR
GX Accessory Kit including bracket for wooden pole mounting option
AK-GX-QUAD-BRKT-WDPOLE
GX Accessory Kit including bracket with ground support for indoor
concrete wall mounting option
Corning OptiTap® Cables
Part Number
Description
434401EB4R2005M-P
OptiTap® to SC APC 5 meters
434401EB4R2030M-P
OptiTap® to SCAPC 30 meters
434401EB4R2100M-P
OptiTap® to SC APC 100 meters
Corning Optical Communications, Inc. • 13221 Woodland Park Road, Suite 400 • Herndon, Virginia 20171 USA866-436-9266 •
FAX: 703-848-0280 • Tech Support Hotline: 410-553-2086 or 800-787-1266 • www.corning.com/mobileaccess
Corning Optical Communications reserves the right to improve, enhance and modify the features and specifications of Corning Optical
Communications products without prior notification.
OptiTap is a registered trademark of Corning Cable Systems Brands, Inc. All other trademarks are the properties of their respective
owners. Corning Optical Communications is ISO 9001 certified. © 2013 Corning Optical Communications. All rights reserved. Published in
the USA.
UM_GX_US_QUAD_709C013201_06APRIL2014
System Installation
P/N 709C010702
Page 54

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