Corning Optical Communication 1RAU5 ONE Optical Network Evolution DAS RAU-5 Remote Antenna Unit User Manual ONE Wireless Platform

Corning Optical Communication Wireless ONE Optical Network Evolution DAS RAU-5 Remote Antenna Unit ONE Wireless Platform

User Manual

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Corning
ONE™ Wireless Platform
User Manual
NOV E MBE R 2 01 4
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Preface Material
About This Manual
This user guide provides all the information necessary to understand the architecture and general installation procedures and
requirements of Corning® ONE™ Wireless Platform.
Note: The commissioning procedure, monitoring and management capabilities and configuration options of the ONE™
Wireless Platform elements are described in a dedicated User Manual (ONE™ HCM User Manual).
Hardware
Corning 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 Hardware, unless otherwise agreed in writing by Corning (the “Hardware Warranty Period”), the
Hardware furnished by Corning shall be free in all material respects from defects in material and workmanship, and shall
conform to the applicable portions of the Specifications, as defined below (the “Hardware Warranty”).
If notified by Customer of any such defects in material or workmanship or nonconformity with applicable portions of the
Specifications within the Hardware Warranty Period, Corning shall promptly, at its own election and expense, repair or replace
any such Hardware proven to be defective under the terms of this Hardware Warranty.
Such repair or replacement shall be Customer’s sole remedy and Corning sole obligation in the event this Hardware Warranty is
invoked. If any components comprising a part of the Hardware are replaced or repaired during the Hardware Warranty Period,
the Hardware Warranty Period for such repaired or replaced components shall extend to the longer of (i) the balance of the
Hardware Warranty Period or (ii) three (3) months from the date of repair or replacement. For purposes of this Warranty,
“Specifications” shall mean the specifications and performance standards of the Products as set forth in documents published
by Corning and delivered to Customer which contain technical specifications or performance standards for the Products.
If Customer invokes this Hardware Warranty, it shall notify Corning promptly of the claimed defect.
Customer will allow Corning to inspect the Hardware at Customer’s location, or to return the Hardware to Corning closest repair
facility. For Hardware returned to Corning repair facility, Customer shall be responsible for payment of all transportation and
freight costs (including insurance) to Corning’ repair facility, and Corning shall be responsible for all transportation and freight
costs (including insurance) incurred in connection with the shipment of such Hardware to other repair facilities of Corning and/or
its return to Customer.
Notwithstanding the foregoing, in no event will Corning 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 personnel),
alteration, accident, or for any other cause not attributable to defects in materials or workmanship on the part of Corning.
Corning shall not reimburse or make any allowance to Customer for any labor charges incurred by Customer for replacement or
repair of any goods unless such charges are authorized in advance in writing by Corning.
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Software Warranty
Corning 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 (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 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 to inspect the Software at Customer’s location or to return it to
Corning’s’ closest repair facility.
Notwithstanding the foregoing, Corning 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 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 hereby assigns, transfers and otherwise conveys to Customer, provided, however, that Corning itself provides no
warranty of any kind, express, implied, statutory or otherwise, for any third-party software provided hereunder.
Corning does not warrant any hardware, software or services not provided by Corning.
THIS WARRANTY IS THE ONLY WARRANTY MADE BY CORNING 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 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 SALES AGENTS OR REPRESENTATIVES ARE NOT AUTHORIZED TO MAKE COMMITMENTS ON
WARRANTY RETURNS.
Returns
In the event that it is necessary to return any product against above warranty, the following procedure shall be followed:
1. Return authorization is to be received from Corning prior to returning any unit. Advise Corning of the model, Serial number,
and discrepancy. The unit may then be forwarded to Corning, transportation prepaid. Devices returned collect or without
authorization may not be accepted.
2. Prior to repair, Corning will advise the customer of our test results and any charges for repairing customer-caused problems
or out-of-warranty conditions etc.
3. Repaired products are warranted for the balance of the original warranty period, or at least 90 days from date of shipment.
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Limitations of Liabilities
Corning’s liability on any claim, of any kind, including negligence for any loss or damage arising from, connected with, or
resulting from the purchase order, contract, quotation, or from the performance or breach thereof, or from the design,
manufacture, sale, delivery, installation, inspection, operation or use of any equipment covered by or furnished under this
contact, shall in no case exceed the purchase price of the device which gives rise to the claim.
Except as expressly provided herein, Corning makes no warranty, expressed or implied, with respect to any goods, parts and
services provided in connection with this agreement including, but not limited to, the implied warranties of merchantability and
fitness for a particular purpose. Corning 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.
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 as soon as possible in writing.
N ot e: Keep all packing material until you have completed the inspection
Warnings and Admonishments
There may be situations, particularly for workplace 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 above mentioned 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.
Regulatory Compliance Information
WARNINGS!
• This is NOT a CONSUMER device. It is designed for installation by FCC LICENCEES 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 significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation.
• ANTENNAS: Use only authorized and approved antennas, cables and/or coupling devices! The use of unapproved
antennas, cables or coupling devices could cause damage and may be of violation of FCC regulations. The use of
unapproved antennas, cables and/or coupling devices is illegal under FCC regulations and may subject the user to fines.
See section 4.7 of this document.
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RF Safety
To comply with FCC RF exposure compliance requirement, adhere to the following warnings:
Warning! Antennas used for this product must be fixed mounted on indoor permanent structures, providing a separation
distance of at least 50 cm from all persons during normal operation.
Warning! Each individual antenna used for this transmitter must be installed to provide a minimum separation distance of 50 cm
or more from all persons and must not be co-located with any other antenna for meeting RF exposure requirements.
Warning! Antenna gain should not exceed 12.5 dBi.
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.
ATTENTION!
Compliance with RF safety requirements:
•
Corning 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.
CAUTION!
Use of controls, adjustments or performance of procedures other than those specified herein may result in hazardous radiation
exposure.
Laser Safety
•
Fiber optic ports of the ONE™ system emit invisible laser radiation at the 1310/1550 nm wavelength window.
•
External optical power is less than 10 mW, Internal optical power is less than 500 mW.
•
To avoid eye injury never look directly into the optical ports, patchcords 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 ONE™ devices and the associated cables.
•
ONE™ 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.
•
ONE™ complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice NO. 50 (2007).
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.
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Company Certification
ISO 9001: 2000 and ISO 13485: 2003
Licensee Contact Information
Industrial Boosters may only be used by FCC licensees or those given express (individualized) consent of license. Corning
Optical Communications Wireless certifies all of the VARs listed as licensed installers for Corning. For the list of licensed VARs,
please contact the Tech Support Hotline: (US) 410-553-2086 or 800-787-1266.
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Table of Contents
Preface Material ..................................................................................................................................................... 2
About This Manual ................................................................................................................................................. 2
Hardware ............................................................................................................................................................... 2
Software Warranty ................................................................................................................................................. 3
Returns .................................................................................................................................................................. 3
Limitations of Liabilities .......................................................................................................................................... 4
Reporting Defects .................................................................................................................................................. 4
Warnings and Admonishments .............................................................................................................................. 4
Regulatory Compliance Information ....................................................................................................................... 4
RF Safety ............................................................................................................................................................... 5
Laser Safety........................................................................................................................................................... 5
Company Certification ............................................................................................................................................ 6
Licensee Contact Information................................................................................................................................. 6
Table of Contents................................................................................................................................................... 7
Introduction ................................................................................................................................................. 15
1.1
1.2
1.3
About Corning ONE™ ................................................................................................................................. 15
Key Features and Capabilities .................................................................................................................... 16
General System Specifications and Requirements...................................................................................... 16
1.3.1 Supported Browsers ........................................................................................................................ 16
1.3.2 Environmental and Regulatory Specifications .................................................................................. 16
1.3.2.1 Temperature and Humidity ....................................................................................................... 16
1.3.2.2 Safety and Regulatory Approvals .............................................................................................. 17
1.3.3 Power Specifications ....................................................................................................................... 17
1.3.3.1 Power Input and Consumption .................................................................................................. 17
1.3.3.2 Cable Gauge Requirements ..................................................................................................... 18
1.3.3.3 Power, Heat and Rack Specifications ....................................................................................... 19
1.3.3.4 Remote End Distance and Power Draw Matrix ......................................................................... 20
1.3.4 Dimensions and Weight of Units ...................................................................................................... 21
1.3.5 Optical Specifications ...................................................................................................................... 22
1.3.6 System Architecture and Topologies ............................................................................................... 23
1.3.6.1 RF Path .................................................................................................................................... 24
1.3.6.2 Digital Path ............................................................................................................................... 25
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1.4
Corning ONE™ WEB Management Application .......................................................................................... 26
1.4.1 Overall Device Display - Management Tab ...................................................................................... 27
1.5
User Controlled Service Group Distribution ................................................................................................. 28
1.5.1 MIMO Configurations ....................................................................................................................... 29
1.5.2 Single Service Group Example ........................................................................................................ 29
1.5.3 Dual Service Group Example........................................................................................................... 30
1.5.4 Tri Service Group Example .............................................................................................................. 30
1.5.5 Tri Service Group Example with Two HEUs..................................................................................... 31
Unit Descriptions - RF Path......................................................................................................................... 33
2.1
RF Path - Headend Components ................................................................................................................ 33
2.1.1 HEU (Headend Unit)........................................................................................................................ 34
2.1.1.1 HCM (Headend Control Module) ............................................................................................... 35
2.1.1.2 ACM (Auxiliary Control Module) ................................................................................................ 36
2.1.1.3 RIM/RIM-M (RF Interface Module) ............................................................................................ 37
2.1.1.4 RIX (RF Expander Module) ....................................................................................................... 37
2.1.1.5 ETM (Expander Termination Module) ....................................................................................... 39
2.1.1.6 PSM (Power Supply Module) .................................................................................................... 40
2.1.1.7 PSM-AC (Power Supply Module-AC Power Source)................................................................. 40
2.1.1.8 PSM-DC (Power Supply Module-DC Power Source) ................................................................ 40
2.1.2 OIU (Optical Interface Unit) ............................................................................................................. 41
2.1.2.1 ACM (Auxiliary Control Module) ................................................................................................ 42
2.1.2.2 OIM (Optical Interface Module) ................................................................................................. 42
2.1.2.3 OIX (Optical Expander Module) ................................................................................................ 43
2.1.3 IHU (Integrated Headend Unit) ........................................................................................................ 44
2.2
RF Path Remote End Site Components ...................................................................................................... 45
2.2.1 ICU (Interconnect Unit) .................................................................................................................... 46
2.2.2 RAU (Remote Access Unit) ............................................................................................................. 47
2.2.3 RAU5 (5 Band Remote Access Unit) ............................................................................................... 49
2.2.4 RxU (Remote Expansion Unit) ......................................................................................................... 51
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Unit Descriptions - Digital Path.................................................................................................................... 52
3.1
3.2
Digital Path Components ............................................................................................................................ 52
CEU (Centralized Ethernet Unit) ................................................................................................................. 53
3.2.1 CEM (Centralized Ethernet Module) ................................................................................................ 53
3.3
3.4
GEM (Gigabit Ethernet Module) .................................................................................................................. 55
GEU-S (Standalone Gigabit Ethernet Unit) ................................................................................................. 57
Installation Guidelines ................................................................................................................................. 58
4.1
4.2
4.3
4.4
Infrastructure Preparation ........................................................................................................................... 58
Installation Requirements............................................................................................................................ 58
Safety Guidelines ........................................................................................................................................ 58
Rack Installation Guidelines ........................................................................................................................ 59
4.4.1 Rack Safety Instructions .................................................................................................................. 59
4.5
Power Requirements .................................................................................................................................. 60
4.5.1 Power Safety Instructions ................................................................................................................ 60
4.5.2 Types of Power Supplies ................................................................................................................. 60
4.5.3 Circuit Breakers ............................................................................................................................... 60
4.6
RF Coaxial Cable Guidelines ...................................................................................................................... 61
4.6.1 General Cable Installation Procedures ............................................................................................ 61
4.6.2 RF Rules ......................................................................................................................................... 61
4.6.3 Coax Cable Lengths and Losses ..................................................................................................... 62
4.7
Antenna Specifications and Guidelines ....................................................................................................... 63
4.7.1 Authorized Antennas and Required Specifications .......................................................................... 63
4.7.2 General Installation Guidelines ........................................................................................................ 63
4.8
Fiber Optic Requirements ........................................................................................................................... 64
4.8.1 Authorized Optic Cables .................................................................................................................. 64
4.8.2 Fiber Optic Rules ............................................................................................................................. 64
4.9
Power Safety Instructions ........................................................................................................................... 65
Installation – RF Path Elements .................................................................................................................. 66
5.1
Headend Elements ..................................................................................................................................... 66
5.1.1 HEU Installation ............................................................................................................................... 67
5.1.1.1 Unpacking and Inspection......................................................................................................... 67
5.1.1.2 Mounting the HEU Chassis ....................................................................................................... 69
5.1.1.3 Installing all Modules ................................................................................................................ 70
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5.1.1.4 Grounding HEU Chassis ........................................................................................................... 72
5.1.1.5 RIM Connections to RF Source ................................................................................................ 72
5.1.1.6 RIX to OIX Connections ............................................................................................................ 73
5.1.1.7 Coax Connections for HEU-OIU 4X4 Installation Configurations............................................... 74
5.1.1.8 RIX Pilot Clock Connections ..................................................................................................... 76
5.1.1.9 Management Connections ........................................................................................................ 77
5.1.1.10 Power Up .................................................................................................................................. 78
5.1.1.11 Verify Normal operation ............................................................................................................ 80
5.1.2 OIU Installation ................................................................................................................................ 81
5.1.2.1 Items Required for OIU Installation ........................................................................................... 81
5.1.2.2 Mounting Chassis in 19-in Rack................................................................................................ 83
5.1.2.3 Installing All Modules ................................................................................................................ 85
5.1.2.4 Grounding Chassis ................................................................................................................... 86
5.1.2.5 Fiber Connections..................................................................................................................... 87
5.1.2.6 RF Connections to HEU............................................................................................................ 88
5.1.2.7 Management connections ......................................................................................................... 89
5.1.2.8 Power Up .................................................................................................................................. 89
5.1.3 HEU/OIU Cable Management Tray ................................................................................................. 90
5.1.4 IHU Installation ................................................................................................................................ 94
5.1.4.1 Unpacking and Inspection......................................................................................................... 94
5.1.4.2 Assembling Cable Management Tray onto IHU and Connecting ERFC Cable .......................... 96
5.1.4.3 Mounting the IHU Chassis ...................................................................................................... 101
5.1.4.4 Installing all Modules .............................................................................................................. 102
5.1.4.5 Grounding IHU Chassis .......................................................................................................... 103
5.1.4.6 IHU Expansion Connections to IHU, HEU and OIU Units........................................................ 104
5.1.4.7 RIM Connections to RF Source .............................................................................................. 106
5.1.4.8 RIX 10 MHz Pilot Clock Connections ...................................................................................... 106
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5.1.4.9 Fiber Connections................................................................................................................... 107
5.1.4.10 Management Connections ...................................................................................................... 107
5.1.4.11 Power Up ................................................................................................................................ 107
5.1.4.12 Verify Normal operation .......................................................................................................... 108
5.2
RF Remote-End Installation ...................................................................................................................... 109
5.2.1 ICU Installation .............................................................................................................................. 109
5.2.1.1 Items Required for ICU Installation ......................................................................................... 110
5.2.1.2 Installing Power Supply Module .............................................................................................. 111
5.2.1.3 Installing Edge Module ........................................................................................................... 112
5.2.1.4 Mounting ICU in 19-IN Rack ................................................................................................... 113
5.2.1.5 Mounting ICU on Wall ............................................................................................................. 113
5.2.1.6 Connect MTP Fiber................................................................................................................. 114
5.2.1.7 Composite Cable Connections................................................................................................ 114
5.2.1.8 Power Up ................................................................................................................................ 115
5.2.2 RAU Installation ............................................................................................................................. 116
5.2.2.1 General Information ................................................................................................................ 116
5.2.2.2 Package Contents .................................................................................................................. 116
5.2.2.3 Routing Connection Cables .................................................................................................... 117
5.2.2.4 Mounting RAU Installation Bracket (Wall/Concrete Ceiling) .................................................... 118
5.2.2.5 Additional Bracket Installation Options .................................................................................... 119
5.2.2.6 RAU Mid-Mount Installation Option ......................................................................................... 121
5.2.2.7 Connections............................................................................................................................ 125
5.2.2.8 Mounting RAU onto Mounting Bracket .................................................................................... 131
5.2.2.9 Verify RAU Modules Normal Operation................................................................................... 132
5.2.3 RAU5 Installation ........................................................................................................................... 133
5.2.3.1 General Information ................................................................................................................ 133
5.2.3.2 Package Contents .................................................................................................................. 133
5.2.3.3 Locate Required Connection Cables....................................................................................... 134
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5.2.3.4 Bracket Installation and Mounting RAU5 ................................................................................. 134
5.2.3.5 Cables Ground, F/O and RF connections ............................................................................... 136
5.2.3.6 Main Power Connections ........................................................................................................ 137
5.2.3.7 GEM Connections (for Configurations including GEM Modules) ............................................. 137
5.2.3.8 Verify Normal Operation ......................................................................................................... 138
5.2.4 RAU/RAU5/RxU Cavity Filter Installation ....................................................................................... 140
5.2.4.1 Package Contents .................................................................................................................. 141
5.2.4.2 (Concrete) Ceiling Mounting Option ........................................................................................ 141
5.2.4.3 Acoustic Ceiling Mount Installation ......................................................................................... 142
5.2.4.4 Wall Mount Installation ............................................................................................................ 142
5.2.4.5 Filter Connections ................................................................................................................... 143
Installation – Digital Coverage Elements ................................................................................................... 145
6.1
CEU Installation ........................................................................................................................................ 145
6.1.1 Items Required for CEU Installation ............................................................................................... 145
6.1.2 Installing CEM Module(s)............................................................................................................... 146
6.1.3 Mounting CEU in 19-IN Rack ......................................................................................................... 146
6.1.4 Mounting CEU on Wall .................................................................................................................. 146
6.1.5 Connecting CEM to Main LAN ....................................................................................................... 146
6.1.6 Connecting Fiber ........................................................................................................................... 147
6.1.7 Power Up ...................................................................................................................................... 147
6.1.8 Verifying Normal Operation Status ................................................................................................ 147
6.2
GEU-S Installation .................................................................................................................................... 148
6.2.1 Package Contents ......................................................................................................................... 148
6.2.2 Routing Connection Cables ........................................................................................................... 149
6.2.3 Installing the Mounting Bracket ...................................................................................................... 149
6.2.4 Additional Bracket Installation Options........................................................................................... 151
6.2.5 Assembling the GEU-S onto the Bracket ....................................................................................... 152
6.2.6 Connecting Cables ........................................................................................................................ 153
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6.2.7 Verify Normal Operation ................................................................................................................ 154
6.2.8 Replace Front Panel Cover ........................................................................................................... 154
Appendix A: RAU Upgrades ...................................................................................................................... 155
7.1
Upgrading RAU with an RxU ..................................................................................................................... 155
7.1.1 General Information ....................................................................................................................... 155
7.1.2 Package Contents ......................................................................................................................... 155
7.1.3 Installing the RxU Module in the RAU ............................................................................................ 156
7.2
Upgrading RAU GEM Installation (Upgrade) ............................................................................................. 159
7.2.1 Package Contents ......................................................................................................................... 159
7.2.2 Installing the GEM module in the RAU........................................................................................... 160
Appendix B: RAU Mounting Bracket Installation Template Sheet (Scale 1:1) ............................................ 162
Appendix C: RAU5 Bracket Dimensions ................................................................................................... 164
10
Appendix D: RAU5 Mid-Mount Bracket Assembly ..................................................................................... 165
10.1 General Information .................................................................................................................................. 165
10.2 Package Contents..................................................................................................................................... 165
10.3 Installing Mid-Mount Bracket and Mounting RAU5 .................................................................................... 166
10.3.1 Preparing RAU5 for Mounting ........................................................................................................ 166
10.3.2 Installing Bracket Plate .................................................................................................................. 166
10.3.3 Mounting RAU5 ............................................................................................................................. 167
11
Appendix E: Specifications........................................................................................................................ 168
Supported Services ............................................................................................................................................ 168
RF Parameters per Service ................................................................................................................................ 168
Environmental, Standards and Optical ............................................................................................................... 170
RF Path: Coverage Component Specifications .................................................................................................. 171
Headend Unit (HEU) ................................................................................................................................. 171
Headend Unit (HEU) (continued) .............................................................................................................. 172
Optical Interface Unit (OIU) ....................................................................................................................... 172
Integrated Headend Unit (IHU).................................................................................................................. 173
Interconnect Unit (ICU) ............................................................................................................................. 174
Remote Access Unit (RAU) ....................................................................................................................... 175
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Remote Expansion Unit (RxU) .................................................................................................................. 176
Cavity Duplexer for LTE 700 MHz ............................................................................................................. 177
Cavity Duplexer for 800 MHz .................................................................................................................... 178
Digital Coverage Component Specifications ...................................................................................................... 179
Centralized Ethernet Unit (CEU) ............................................................................................................... 179
Gigabit Ethernet Module (GEM) ................................................................................................................ 180
Standalone Gigabit Ethernet Unit (GEU-S) ............................................................................................... 180
Optical: Cabling, Unit/Modules Specifications .................................................................................................... 181
Cabling ..................................................................................................................................................... 181
Fiber Management .................................................................................................................................... 181
12
Appendix F: Ordering Information ............................................................................................................. 182
HEU and OIU Assemblies and Modules ............................................................................................................. 182
Remote Units ..................................................................................................................................................... 183
Digital Path Units ............................................................................................................................................... 183
Accessories ....................................................................................................................................................... 184
Hardware ........................................................................................................................................................... 185
Cable Ordering Information ................................................................................................................................ 186
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1
Introduction
1.1
About Corning ONE™
The Corning Optical Network Evolution Platform (ONE) by Corning provides a flexible in-building RF and network digital
coverage solution based on a fiber optic transport backbone.
The fiber-optics infrastructure is easily deployable via a wide range of pre-terminated composite cables and advanced
end-to-end equipment. Easy to design, Plug and Play™ connectors, significantly reduce installation cost and deployment time.
The Corning ONE solution is an ideal fit for large, high-rise or campus-style deployments. It generates significant CAPEX
savings and OPEX savings through the use of user configurable service distribution groups and an infrastructure that is simple
to deploy and efficient in usage.
Dynamic service distribution group management allows precise service distribution control to meet changing density needs,
and provides further savings by enabling sharing of equipment at various levels for service providers.
Radio source agnostic, remote units can be used as network extenders. Ethernet capability with dedicated fiber link for Wi-Fi
offload brings a higher level of granularity and support for devices and applications with very high speed requirements.
Corning ONE fiber-optics infrastructure allows various combinations of SISO and MIMO services to be routed from the headend
to specified remote locations on each floor, according to user defined configurations (via the Web Management GUI). This
allows optimizing service coverage and provides equipment savings. While the fiber-optics infrastructure is common, the
services can be routed via service provider shared or dedicated equipment. By default, the system is configured to support a
single service group: all services are transferred to all remote locations. This default configuration can be easily modified
according to site requirements.
The following figure illustrates service distribution from the head-end to various locations on each remote floor. Each color
represents a specific service, where different combinations of services are distributed at various locations on the same floor
according to coverage requirements.
Figure 1-1. Illustration of Precise Service Distribution over Selected Remote Areas
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1.2
Key Features and Capabilities
• Comprehensive service support - SISO/MIMO services.
• Supported services - CELL, PCS, LTE700 and AWS
• Flexible, configurable service distribution - advanced capacity and coverage management for better macro offload and
enhanced user experience.
• Broadband enabled:
•
A range of ready-made fiber-optic (and power) composite cables simplify installation at all levels
•
Fiber backbone unleashes unlimited RF Spectrum
•
Easy scales to higher speeds requirements
• Ethernet Support - dedicated fiber link for Ethernet backhaul, enables optimal use and offload of Wi-Fi® resources.
• Scalable and customizable - infrastructure can be quickly expanded to support more services or increase coverage without
downtime
• Carrier-grade network management:
•
Single-source, remote end-to-end field upgradable platform
•
Ready for SON, HetNet and future network requirements.
1.3
General System Specifications and Requirements
1.3.1
Supported Browsers
Corning ONE™ system Web GUI Management has been optimized to operate on the following browsers:
•
•
•
•
Microsoft Internet Explorer v7.0 and higher
Mozilla Firefox v3.2 and higher
Sun Solaris Mozilla
Google Chrome 8.0 and higher
1.3.2
Environmental and Regulatory Specifications
1.3.2.1
Temperature and Humidity
The environmental specifications listed below are relevant to all ONE™ solution devices.
Operating
Storage
Temperature
0°C to +50°C (32°F to 122°F)
-20° C to 85° C (-4°F to 185°F)
Humidity
95% (non-condensing)
95% (non-condensing)
Table 1-1. Temperature and Humidity Specifications
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1.3.2.2
Safety and Regulatory Approvals
The safety and regulatory specifications listed below are relevant to all Corning ONE™ devices.
Approval
Regulation/Standard
Category
Laser Safety
FDA/CE 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice
no. 50 and IEC 60825-1
EMC
CE EN 301 489, EN55022, EN 61000
FCC 47 CFR Part 15, 22, 24, 27
Safety
UL 60950
IEC 60825-1:2007
IEC 60825-2:2010
CAN/CSA-C22.2 No.60950-1-03
Fire Safety UL 2043 (applicable for Access Unit only)
Table 1-2. Safety and Regulatory Approvals
1.3.3
Power Specifications
1.3.3.1
Power Input and Consumption
RF Head End Units
Power Input
HEU
AC power source:
100 to 220 V AC
DC power source:
48 V DC
AC power source:
100 to 220 V AC
DC power source:
48 V DC
AC power source:
100 to 220 V AC
DC power source:
48 V DC
OIU
IHU
Power Consumption for Full Chassis
Chassis with 12 RIMs and two RIX: 200 W
Chassis with 12 OIMs and two OIX: 300 W
Fully Loaded chassis: 300 W
Table 1-3. RF Headend Units Power Consumption
RAU + Add-On Modules
Max. Power Consumption
Power Input Range
RAU (alone)
RAU + RxU
RAU + GEM
RAU + RxU + GEM
RAU5 + Add-On Modules
37 V; 35 W
37 V; 60 W
37 V; 39 W
37 V; 64 W
Max. Power Consumption
35 – 57 V DC
RAU5 (alone)
44.5 V; 48 W
37 – 57 V DC
RAU5 + RxU
44.5 V; 73 W
RAU5 + GEM
44.5 V; 52 W
RAU5 + RxU + GEM
44.5 V; 77 W
Power Input Range
Table 1-4. RAU and RAU5 Power and Current Consumption for Main Power Input
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Unit
Device
Input Range
Power Consumption
RAU
For two PoE ports of 802.3af
43- 57 V DC
43 V; 30 W
For two PoE ports of 802.3at
52- 57 V DC
52 V; 62 W
For two PoE ports of 802.3af
43- 57 V DC
46 V; 31.5 W
For two PoE ports of 802.3at
52- 57 V DC
52.5 V; 62 W
RAU5
Table 1-5. RAU and RAU5 Power and Current Consumption for Main Secondary Input
Digital Remote End Units
Power Input Range
Power Consumption
CEU
GEM installed in RAU
110 to 240 V AC
See Table 1-4
(Fully occupied) 50 W
See Table 1-4
GEU-S
42-57 V DC
4.5 W
Table 1-6. Digital Path Remote End Power Specifications
1.3.3.2
Cable Gauge Requirements
Table 1-7 provides the information required to calculate the required power supply for the remote units.
RAU
SISO
(ft)
RAU
SISO
GEM
(ft)
RAU SISO RAU SISO
GEM
GEM
Supporting Supporting
PoE
PoE+
(ft)
RAU
MIMO
(ft)
RAU
MIMO
GEM
(no
PoE)
(ft)
22AWG
540
490
410
20AWG
870
780
16AWG
2200
14AWG
3500
RAU
RAU
GEU-S GEU-S
GEU-S
MIMO
MIMO
(ft)
Supporting Supporting
PoE
PoE+
GEM
GEM
(ft)
(ft)
Supporting Supporting
PoE
PoE+
(ft)
(ft)
100
310
290
290
100
2000
310
80
650
160
500
460
460
160
3200
500
130
1900
1600
400
1200
1100
1100
400
8200
1200
350
3100
2650
650
2010
1800
1800
650
1350
2000
550
Table 1-7. Required Cable Gauge
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1.3.3.3
Power, Heat and Rack Specifications
Table 1-8 and Table 1-9 provide the power, heat and rack specifications for the headend and remote end ceiling equipment.
Headend/Telco Rms
P/N
Description
Min-Max
Voltage
(VAC)
Max Power
Draw
(Watts)
No. of
Units
Heat
(BTU/hr)
Rack
Space
19-in (RU)
Dimensions (in)
HxWxD
HEU
Headend Unit
100 -220
200
680
7 x 17.3 x 18.9
OIU
Optical Interface Unit
100 - 220
300
1020
7 x 17.3 x 18.9
IHU
Integrated Headend Unit
100 – 220
300
1020
7 x 17.3 x 15.5
CEU
Centralized Ethernet Unit
(3 x CEMs – Centralized
Ethernet Modules)
110 - 240
50
170
1.75 x 17 x 8.5
ICU
Interconnect Unit (4 x 200
W PSMs)
110 - 240
930
442
1.75 x 17 x 19.2
Table 1-8. Power, Heat and Rack Specifications for Headend Equipment
Ceilings
Min-Max
Voltage
(VDC)
Max Power
Draw (Watts)
Heat
(BTU/
hr)
Dimensions (in)
Remote Access Unit
37 - 57
35
119
13.1 x 13.1 x 4
5 Band Remote Access Unit
37 - 57
48
Without mounting
bracket: 3.2 x 12.9 x
9.8 in (82.1 x 337.3
x 249.4 mm)
Unit
Description
RAU
RAU5
With mounting
bracket: 5.25 x 13.1
x 13.1 in (133.35 x
332.74 x 332.74
mm)
RxU
Remote Expansion Unit
37 - 57
25
85
1.1 x 12.8 x 9.8
RAU + RxU
Remote Access Unit + Remote
Expansion Unit
37 - 57
60
204
13.1 x 13.1 x 4
GEM
Gigabit Ethernet Module
37 - 57
14
1.3 x 3.8 x 5.9
GEU-S
Gigabit Ethernet Unit - Standalone
37 - 57
14
5 x 10.5 x 3.3
GEM Supporting
PoE
For two PoE ports of 802.3af: 43V; 30W
For two PoE ports of 802.3at: 52V; 62W
Table 1-9. Power, Heat and Rack Specifications for Ceiling Equipment (Remote End)
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1.3.3.4
Remote End Distance and Power Draw Matrix
Table 1-10, Table 1-11, Table 1-12 and Table 1-13 provide the distance and power draw specifications for the remote end units.
RAU SISO
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
10 - 50
36
60 - 270
37
280 - 480
38
490 - 690
39
700 - 850
40
860 - 900
41
*Min/Max VDC = 37/57 @ 1.49 Amps, 85% efficiency
Table 1-10. Remote End Distance and Power Draw for (Standalone) RAU SISO
RAU + RxU (MIMO)
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
10 – 100
62
570 – 610
70
110 – 170
63
620 – 660
71
180 – 240
64
670 – 710
72
250 – 320
65
730 – 750
73
330 – 380
66
760 – 790
74
390 - 440
67
800 – 830
75
450 - 510
68
840 – 860
76
520 - 560
69
870 - 900
77
*Min/Max VDC = 37/57@ 1.49 Amps, 85% efficiency
Table 1-11. Remote End Distance and Power Draw for RAU + RxU (MIMO)
GEM Supporting PoE 802.3af
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
10 - 40
31
50 - 340
32
350 - 660
33
670 - 890
34
900
35
*Min/Max VDC = 43/57 @ 1.49 Amps, 85% efficiency
Table 1-12. Remote End Distance and Power Draw for GEM w/PoE.3af
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GEM Supporting PoE 802.3at
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
Composite 16 AWG
Tether Distance (ft.)
Draw (Watts)
10 - 80
64
590 - 620
73
90 - 170
65
630 - 670
74
180 - 230
66
680 - 710
75
240 - 300
67
720 – 750
76
310 - 370
68
760 – 790
77
380 - 420
69
800 - 820
78
430 - 470
70
830 - 850
79
480 - 530
71
860 - 890
80
540 - 580
72
900
81
*Min/Max VDC = 52/57 @ 1.49 Amps, 85% efficiency
Table 1-13. Remote End Distance and Power Draw for GEM w/PoE.3at
1.3.4
Dimensions and Weight of Units
Table 1-14, Table 1-15 and Table 1-16 describe the physical specifications of the Corning ONE™ headend and remote end
units.
Unit
Dimensions (H x W x D)
Weight: lbs [kg]
HEU
7 x 17.3 x 18.95 in (177.8 x 440 x 481.7 mm)
Chassis: 37 lbs (16.8 kg)
Per RIM: 1.9 lbs (0.9 kg)
Per RIX: 1.54 lbs (0.7 kg)
HCM: 2.2 lbs (1.0 kg)
PSM: 1.98 lbs (0.9 kg)
OIU
7 x 17.3 x 18.95 in [177.8 x 440 x 481.7 mm]
Chassis: : 37 lbs (16.8 kg)
Per OIM: 1.5 lb (0.7 kg)
Per OIX: 1.54 lb (0.7 kg)
ACM: 2.2 lb (1.0 kg)
PSM: 1.98 lb (0.9 kg)
IHU
7 x 17.3 x 15.5 in [177.8 x 440 x 394 mm]
Chassis: 30 lbs (14 kg)
Per RIM: 1.9 lbs (0.9 kg)
Per RIX: 1.54 lbs (0.7 kg)
Per OIM: 1.5 lb (0.7 kg)
Per OIX: 1.54 lb (0.7 kg)
ACM: 2.2 lb (1.0 kg)
PSM: 1.98 lb (0.9 kg)
Table 1-14. RF Path Headend Units
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Unit
Dimensions (H x W x D)
Weight: lbs [kg]
ICU
1.74 x 17 x 19.2 in (44.4 x 431.8 x 11.96 mm)
5.5 lb (2.5 kg) – without PSM
RAU (including
mounting bracket)
13.1 x 13.1 x 4 in (332.7 x 332.7 x 101.6 mm)
RAU only = 7.93 lb (3.6 kg);
RAU + RxU + GEM = 12.2 lb (5.5 kg)
RAU5 (including
mounting bracket)
5.25 x 13.1 x 13.1 in (133.35 x 332.74 x
332.74 mm)
RAU5 only: 10 lbs (4.5 kg)
RAU5 + RXU + GEM: 14.39 lbs (6.5 kg)
Table 1-15. RF Path Remote Units
Unit
Dimensions (H x W x D)
CEU:
Weight: lbs [kg]
CEU 1.71 x 17 x 8.5 in (43.65 x 431.8 x 216 mm)
(with mounting ears: W = 19 in/482.8 mm)
7.55 lb (3.4 kg)
CEM 1.41 x 3.94 x 7.68 in (36 x 100.14 x 195.14 mm)
1.44 lb (0.65 kg)
GEM
1.28 x 3.79 x 5.95 in (32.7 x 96.3 x 151.3 mm)
1.1 lb (0.5 kg)
GEU-S
5.01 x 10.51 x 3.26 in (including mounting bracket)
(127.5 x 267 x 83 mm)
2.64 lb (1.2 kg)
Table 1-16. Digital Path Units
1.3.5
Optical Specifications
Parameter
Specification
Optical Output Power
< 9 dBo
Max. Optical Budget
5 dB
Optical Connector
OIM: MTP® connector
RAU: LC APC SM
Fiber Type
Corning® SMF-28® or Compatible
Wavelength
1310± 10 nm (Standard)
Table 1-17. Optical Specifications
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1.3.6
System Architecture and Topologies
The Corning ONE™ solution fiber-optic infrastructure is used to transmit both RF and digital services:
• RF services – Broadband RF distribution over fiber-optics infrastructure transfers converged wireless services from the
headend towards Remote Access Units (RAU) deployed at the remote end locations according to user defined
configuration.
• Digital services – fiber-optics infrastructure transfers digital services from the corporate LAN to Gigabyte Ethernet Modules
rd
(GEM) and then 3 party equipment deployed on each floor.
Figure 1-2. Corning ONE™ Solution Basic Architecture
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Acronyms
HEU = Headend Unit
GEU-S = Gigabit Ethernet Unit-Standalone
RIM = Radio Interface Module
ICU = Interconnect Unit Unit
RAU = Remote Access Unit
IHU = Integrated Headend Unit
RxU = Remote Expansion Unit
CEU = Centralized Ethernet Unit
GEM = Gigabit Ethernet Module
OIU = Optical Interface Unit
RIM = Radio Interface Module
OIM = Optical Interface Module
Table 1-18. Acronyms in System Architecture
1.3.6.1
RF Path
At the headend, RF signals from the RF signal sources (e.g. BTS/BDA) are conditioned by service specific (conditioner)
modules in the HEU (Headend Unit) and organized into (up to three) user configurable sectors. The conditioned RF signals are
converted to optic signals by the (wideband) OIU (Optic Interface Unit) and specific sectors are routed towards selected remote
locations according to user defined configurations.
The optic fibers at the OIU are routed to the ICU (Integrated Centralized Unit) at the remote end. From the ICU the optic fibers
are distributed along with DC to the Remote Access Units (RAU).
For small/medium size deployments an IHU (Integrated Headend Unit) can be installed at the headend. The IHU is a compact
headend unit that interfaces up to eight RF sources, conditions the signals and performs the RF to optic conversion of the
signals which are then routed towards the remote site.
Note: A fully occupied OIU (12 OIMs) supports up to 36 RAUs; Each IHU can support up to eight OIMs (with four RIMs)
supporting up to 24 RAUs.
Figure 1-3. ONE™ Solution RF Path Architecture
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1.3.6.2
Digital Path
The Digital services from the corporate LAN (received via Ethernet Switch) are converted to optic signals by the CEU
(Centralized Ethernet Unit) and routed over optic fibers towards the GEM units. The optical traffic is then converted to 1GbE by
the GEM (Gigabit Ethernet Modules) modules and distributed to two third party equipment such as Access Points, Ethernet
switch, etc.
Note: GEMs can be connected to the CEU either directly, or via an ICU (described in section 1.3.6.1 ). In that case, the ICU can
also provide DC to the GEMs.
Figure 1-4. Corning ONE™ Solution Digital Path Architecture
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1.4
Corning ONE™ WEB Management Application
The Corning ONE™ solution consisting of the HEU and its hosted elements is managed via a WEB session to the HEU. The
GUI based WEB management application provides all the required configuration, management and monitoring options for the
Corning ONE system. The ONE Web management application consists of the Main Menu bar, where the displayed side-bar and
work area options vary according to the selected menu option.
Note: Refer to the ONE HCM User Manual for a complete description of the Web Management application.
Figure 1-5. Main Window (Config Tab - Default Display)
The Main Menu Bar includes the following tabs:
Tab
Description
Monitor
N/A
Management
Displayed upon login by default. Displays general module information and
device alarms and provides the configuration options for the available
selected site devices. A general overview is given in section 1.4.1.
Events
Displays the events that occurred on the monitored devices and enables
generating reports. Configuration changes that are initiated by the network
manager are not considered events display. See Events Display section.
Config
Set-up tool used for initial system set-up, commissioning of system devices
and adjustment procedure.
Admin
Provides administration options such as firmware upgrade, user
management options and IP settings required for receiving traps.
Help
Provides access to Online Help
Table 1-19. Main Menu Tabs
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1.4.1
Overall Device Display - Management Tab
The Management window is displayed by default upon login and includes the following for each selected element:
• Network Topology Tree - hierarchically displays the connected and available site devices and their status.
• Device Management Tabs - device specific which include the configurable parameters (e.g. service control, RF parameters)
and general information (e.g. device name, Firmware version)
• Device View - visualization of device, with LEDs corresponding to the device status. Device view can be used for fault
sourcing at a glance.
• Alarms - displays the device alarms for fault sourcing and provides alarm masking options
Note the following:
• The device selected in the Network Topology Tree appears green in the Device View Mode area
• Point to module in Device View to display property info
Figure 1-6. Management Tab
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1.5
User Controlled Service Group Distribution
ONE™ fiber-optics infrastructure allows various combinations of SISO and MIMO services to be routed from the headend to
specified remote locations on each floor, according to user defined configurations. This allows optimizing service coverage and
provides equipment savings. While the fiber-optics infrastructure is common, the services can be routed via service provider
shared or dedicated equipment. By default, the system is configured to support a single service group: all services are
transferred to all remote locations. This default configuration can be easily modified according to site requirements.
The following figure illustrates service distribution from the head-end to various locations on each remote floor. Each color
represents a specific service, where different combinations of services are distributed at various locations on the same floor
according to coverage requirements.
Figure 1-7. Illustration of Service Group Distribution
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1.5.1
MIMO Configurations
MIMO topologies provide more density by using two independent RF paths for the same service, where the independent paths
are implemented by dedicated modules along the path.
MIMO configuration is implemented by routing the two RF bands over dedicated RF paths at both the entry point (in the
Headend Unit) and at the exit point (at the Remote Unit). Note that the Optical Interface Unit is wideband and the services are
combined in a single OIM for routing to the same Remote End Unit. At the Remote End Unit, the services are distributed by two
dedicated modules.
Note: MIMO configuration can also be implemented by two separate Remote End Units.
Figure 1-8. Example of MIMO Configuration
1.5.2
Single Service Group Example
In this example, all four services (A,B,C,D) are routed to all (up to 72) remote locations. In the illustrated topology, a single HEU
conditions the services and feeds them to two OIU systems for conversion to optic signals. Each OIU supports up to 36 RAU
(Remote Access Units).
Figure 1-9. Single Service Group Configuration
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1.5.3
Dual Service Group Example
In this example, two service groups are defined: A,B,C and C,D. Note that a service can be allocated to any of the service
groups at the same time. For example, service C is allocated to both service groups. Both service groups are routed to the OIU
for optic conversion. Each OIU module (OIM) can be configured to support either one or (if they do not have a common band) to
both service groups and the corresponding services are routed from the OIM to its hosted RAU units.
NOTE: In the example below, band C is common to both Service groups #1 and #2; therefore, an OIM cannot be assigned both
service groups (i.e. ABC + CD).
Figure 1-10. Example of Dual Service Group Configuration
1.5.4
Tri Service Group Example
In this example, three service groups are defined: ABC, AB, CD. Note that a service can be allocated to any of the service
groups at the same time. For example, services C and B are allocated to two of the service groups. The services are routed to
the OIU for optic conversion. Each Optical Interface Module (OIM) can be configured to be included in either one, two or three
service groups in any combination and the corresponding services are routed from the OIM to its hosted RAU units.
Note: An OIM cannot support two service groups that have a common band (e.g. ABC and BC, or ABC and CD).
Figure 1-11. Example of Three Service Group Configuration
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1.5.5
Tri Service Group Example with Two HEUs
This tri-service group example supports two HEUs. In this topology, the services routed via the two HEUs can be grouped in any
combination between the two, providing up to three service groups. These groups of services are all routed towards a common
OIU. Each OIU module (OIM) can be configured to support any (legal) combination of service groups and the corresponding
services are routed from the OIM to its hosted RAU units.
Note: Multiple service groups allocated to the same OIM cannot share any identical frequency bands.
Figure 1-12. Example of Tri-Service Group Configuration with Two HEUs
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2
Unit Descriptions - RF Path
This chapter provides detailed descriptions of the Corning ONE™ solution components. The descriptions are organized
according to RF and Digital path headend and remote end components. This includes port and LED interface descriptions.
2.1
RF Path - Headend Components
Corning ONE RF Path coverage solution includes the following headend elements:
• HEU – Headend Unit
• OIU – Optical Interface Unit
• IHU – Integrated Headend Unit (IHU performs both HEU and OIU functions)
Figure 2-1. RF Path with HEU and OIU Headend Components
Figure 2-2. RF Path with IHU Headend Component
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2.1.1
HEU (Headend Unit)
The HEU performs the following main functions:
•
•
•
•
Conditions (up to 12) RF sources to a level required for feeding to the Optical Interface Unit (OIM).
Enables the configuration of up to three sectors consisting of groups of RF services.
Main HEU – includes HCM module enabling single source control and management of the ONE™ solution RF path
Auxiliary HEU – includes ACM modules and is managed via the HCM in the Main HEU
Note: Only one HEU per system can be installed with an HCM module and serves as the “Main HEU”. Any additional HEU
chassis are installed with ACM modules and are considered “Auxiliary HEUs”.
Each HEU supports up to 12 services. For additional services or density, two or more HEU units can be cascaded so that the
Auxiliary HEUs are managed from the Main HEU (via the HCM). For HEU installation procedure, see section 5.1.1.
Figure 2-3. HEU Front Panel with Installed Modules
HEU hosts the following modules:
Module
HCM (Headend Control Module)
Description
Provides overall system management and control functions. The
HEU in which the HCM is installed serves as the Main HEU. See
section 2.1.1.1.
ACM (Auxiliary Control Module)
Provides interfaces for management of domestic modules via HCM;
Installed in HEUs’ in configurations with more than one HEU; HEU
chassis with ACM modules are considered Auxiliary HEUs. See
section 2.1.1.2.
RIM (RF Interface Module)
RF source conditioner; Provides the service specific RF interface to
the RF source; Up to 12 RIMs can be hosted by the HEU; See
section 2.1.1.3.
RIX (RF Expander Module)
HEU to OIU interface module; See section 2.1.1.4.
ETM (Expander Termination
Module)
For configurations with one RIX an ETM is required for terminating
PSM (Power Supply Modules)
PSM-AC:100 - 240 V AC
the unused Expander slot. See section 2.1.1.5.
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Module
Description
PSM-DC: 48 V DC
Note: If two are installed, both must be powered on. See
sections 2.1.1.7. (PSM-AC) and 2.1.1.8 (PSM-DC).
Table 2-1. HEU Modules
2.1.1.1
HCM (Headend Control Module)
Overall system management and control capabilities are performed via the HCM, which is installed in an HEU or IHU chassis
(one HCM per system installation). The headend unit hosting the HCM module serves as the Main headend unit (any additional
HEU/IHU chassis is installed with an ACM).
The HCM directly interfaces to the corporate LAN and to up to four ACM modules installed in additional HEU/IHU/OIU chassis
(see section 2.1.2). The HCM includes Local and LAN management ports and LED status indicators.
Figure 2-4. HCM Module
Table 2-2 and Table 2-3 provide a description of the HCM ports and LED status indicators.
Port
Description
INTERNAL (TO ACM)
Four RJ45, 100Mb Ethernet ports - used for management of connected OIU
systems (and/or HEU Slaves).
LAN
RJ-45, 1Gb Ethernet port - connects to the corporate LAN for remote management
LOCAL
RJ-45, 1Gb Ethernet port - local configuration and management
CONSOLE
RJ-45, serial port - local configuration for service personnel
SD Card Slot
Supports uSD cards up to 32 GB (used for saving and importing configuration files
between different HEU chassis)
Table 2-2. HCM Ports
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LED
Description
Steady Green - Power input detected by HCM
Off – No power is supplied to the unit
Blinking Green – HCM Boot up sequence complete and module SW up and running
Off – No power supplied to the unit
PWR
RUN
SYS
Steady Green – Overall status of the managed system is ok
FAN
Steady Green – Normal operation status for all fans
Red – Fault indicated in at least one fan
Table 2-3. HCM LED Description
2.1.1.2
ACM (Auxiliary Control Module)
The ACM is installed in any additional HEU/IHU* chassis in installations with more than one HEU/IHU (one HEU is installed with
the HCM).
The ACM provides the interfaces for remote management and control capabilities of the host chassis and connected modules
via a local connection to the HCM (see section 2.1.1.1).
*Note: The ACM is also installed in each OIU chassis.
Figure 2-5. ACM Module
Table 2-4 and Table 2-5 provide a description of the ACM ports and LED status indicators.
Port
Description
INTERNAL
(TO HCM)
Four RJ45, 100Mb Ethernet ports used for OIU and/or HEU slave management connections
Console
One RJ45, serial port used for basic IP configuration and local connection for service
personnel
Table 2-4. ACM Ports Description
LED
PWR
RUN
Description
Steady Green - Power input detected by ACM
Off – No power is supplied to the unit
Blinking Green – ACM Boot up sequence complete and module SW up and running
Off – No power supplied to the unit
SYS
Steady Green – Overall status of the managed system is ok
FAN
Steady Green – Normal operation status for all fans
Red – Fault indicated in at least one fan
Table 2-5. ACM LED Indicators Description
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2.1.1.3
RIM/RIM-M (RF Interface Module)
The RIM/RIM-M module is a service specific RF conditioning module (up to 12 are installed in an HEU chassis) which interfaces
to the RF signal source. Each RIM supports both Simplex and Duplex RF connectors. LEDs provide status indications on signal
level and module operation.
Note: RIM-M modules support MIMO services (e.g.700 MHz LTE, AWS).
Figure 2-6. RIM Module
Table 2-6 and Table 2-7 provide a description of the RIM ports and LED status indicators.
Port
Description
DL/UL
UL and DL simplex connections to the RF signal source
DUP
Duplexed UL and DL connection to the RF signal source
Table 2-6. RIM Ports Description
LED
Description
Protect
N/A
DL High
DL Low
RUN
PWR
Provides indication on DL RF level in conditioner module:
Off - DL RF input level in threshold range
Steady Red – Signal is 3 dB above max. expected power
Provides indication on DL RF level in conditioner module:
Off - DL RF input level in threshold range
Steady Red – No signal or 15 dB below max. expected power
Blinking Green - Power on and module SW has initialized and is up and
running
Off - No power
On - Input power is within required range
Table 2-7. RIM LED Descriptions
RIX (RF Expander Module)
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The RIX Expander module provides the RF interface to the OIU unit. Up to two RIX Expander modules are installed in each
HEU chassis, providing support for up to four OIU (via OIU Expander modules - OIX).
IMPORTANT! An unoccupied Expander slot must be terminated with an (Expander Termination Module)
Note: The RIX and OIX Expander modules are similar in appearance but are NOT INTERCHANGEABLE. Each Expander
module is indicated as RIX or OIX on the bottom of the module.
Figure 2-7. RIX Expander Module Interfaces
Port
Description
(TO OIX)
Two 9 – pin connectors which serve as the RF interfaces to the OIX (in the
OIU). RIX supports connections to two OIXs via an Expander cable (ERFC).
REF OUT/REF IN
Two QMA connectors used for reference clock signal connections between
RIX modules.
Note: The reference clock passes from the Main HEU to all Auxiliary chassis.
Table 2-8. RIX Ports Description
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2.1.1.4
ETM (Expander Termination Module)
The ETM is required for HEU/OIU units in which only one corresponding RIX/OIX module is installed. The unoccupied RIX/OIX
slot must be terminated with an ETM.
Figure 2-8. Expander Termination Module
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2.1.1.5
PSM (Power Supply Module)
Two types of Power Supply Modules are available:
• PSM-AC: 100 – 240 VAC;
• PSM-DC: 48 V DC; 9 A Max.
Note: The power rating for both PSM types is 300 W.
• Each headend unit chassis (i.e. HEU/OIU/IHU) can support two PSM modules, where the second PSM provides redundancy
in case one of the supplies fails.
• Both types of PSM modules (AC and DC) can be installed in the same chassis.
• If two modules are installed, both must be connected to their respective power source (AC or DC) and turned on at all times.
2.1.1.6
PSM-AC (Power Supply Module-AC Power Source)
The PSM-AC includes an AC power connector, on/off switch and Power Status LED. See Figure 2-9.
Figure 2-9. PSM-AC Power Supply Module
2.1.1.7
PSM-DC (Power Supply Module-DC Power Source)
The PSM-DC power source rating is 48 V DC; 9 A Max.; 300 W. The PSM-DC includes a six pin terminal block connector,
supporting up to three DC wire pairs.
Figure 2-10. DC Power Supply Module
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2.1.2
OIU (Optical Interface Unit)
The OIU interfaces to the HEU/IHU, performs the RF to optic conversion of the received signal and distributes the wireless RF
services to the RAU units over the fiber optic infrastructure to the remote site. Each OIU supports up to 12 SM optic fibers (one
fiber per OIM), which are routed to up to 36 RAU (three Remote Access Units per OIM).
OIU hosts the following modules:
• ACM - Auxiliary Control Unit; provides interfaces for management of OIU modules via HCM (see section 2.1.2.1)
• OIM- Optical Interface Modules; converts the RF to three Optical links (see section 2.1.2.2)
• OIX- Optical Interface Expander; OIU to HEU interface Module (see section 2.1.2.3)
Note: For configurations with one OIX an ETM (Expander termination module) is required for terminating the unoccupied
OIX slot. See section 2.1.1.5.
• PSM (AC/DC) - Power Supply Module; powers the unit (see section 2.1.1.6)
Figure 2-11. OIU Front Panel with Installed Modules
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2.1.2.1
ACM (Auxiliary Control Module)
See section 2.1.1.2.
2.1.2.2
OIM (Optical Interface Module)
The OIM is a wideband RF to F/O (and vice-versa) media conversion module. Up to 12 OIM units can be installed in each OIU,
where each OIM can support up to three Remote Access Unit (RAU) connections.
Figure 2-12. Optical Interface Module
Port
Description
OPTICAL LINK
Female MTP® Connector for optical interface connection; SMF
1:1 INTERFACE
Six Kenpole connector for 1:1 direct signal transportation, three UL and three
for DL Enables (DL and UL) broad band connection to each optical link
Table 2-9. OIM Ports Description
LED
Link 1-3
RUN
PWR
Description
Steady Green - optical link power to/from the connected remote is normal
Blinking Green - optical power from remote is lower than required
Blinking Green – OIM module SW has initialized and is up and running
Off – Power off
Steady Green – Input power detected in OIM
Table 2-10. OIM LED Descriptions
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2.1.2.3
OIX (Optical Expander Module)
Each OIX Expander module provides the RF interface to up to two HEU units via two 9-pin connectors. Two OIX Expander
modules are installed in each OIU chassis. Up to four OIU units can be hosted by an HEU.
Note: The OIU Expander Modules are similar in appearance to the HEU Expander modules but are NOT
INTERCHANGEABLE. Each Expander module is indicated as RIX or OIX on the bottom of the module.
Figure 2-13. OIX Expander Module Interfaces
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2.1.3
IHU (Integrated Headend Unit)
The IHU combines both HEU and OIU functionality in a single compact chassis. The IHU interfaces to the RF sources (via RIM
modules), conditions the signals, performs the RF to optic conversion of the received signal and distributes the wireless RF
services to the RAU units over the fiber optic infrastructure to the remote site.
Figure 2-14. IHU Front Panel with Installed Modules
Note: The IHU also includes a pre-assembled Cable management Tray with routed ERFC cable (not shown in Figure 2-14)
used for connecting the RIX and OIX modules.
IHU hosts the following modules:
1. HCM- Headend Control Module; overall system management module (see section 2.1.1.1)
2. ACM – Auxiliary Control Module; provides interfaces for management of domestic modules via HCM (see section 2.1.1.2);
installed in IHUs in configurations with more than one IHU
3. RIM - Radio Interface Module; RF source conditioner (see section 2.1.1.3); Up to four RIMs in Slots 2-5 (marked in RED); Up
to four additional RIMs in ‘Combo’ Slots 6 – 9 (marked in WHITE)
4. RIX - Radio Interface Expander; RF to optic interface module (see section2.1.1.4); One RIX is installed in the IHU - Slot 1’
RIX installed in IHU supports expansion connections to one additional IHU or HEU.
5. OIM – Optical Interface Modules; converts the RF to three Optical links (see section 2.1.2.2); Up to four OIMs in Slots 10 – 13
(marked in BLUE); Up to four additional OIMs in ‘DUAL’ Slots 6 – 9 (marked in WHITE)
Note: Each IHU supports up to 8 SM optic fibers (one fiber per OIM), which are routed to up to 24 RAU (three Remote
Access Units per OIM).
6. OIX - Optical Interface Expander; RF to optic interface Module (see section 2.1.2.3); One OIX is installed in the IHU - Slot 14;
OIX installed in IHU supports expansion connections to one additional IHU or OIUU.
7. PSM- Power Supply Module; AC or DC power supply (see section 2.1.1.6).
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2.2
RF Path Remote End Site Components
The RF coverage solution remote end components comprise the following elements:
• ICU (Interconnect Unit) - forwards optics along with DC to the RAU and its sub-modules.
• RAU (Remote Access Unit) - provides RF distribution and includes internal antennas. It can also encase data distribution
module (GEM).
• RxU (Remote Expansion Unit) - installed in the RAU. Provides support for two additional RF services for a total of 6 services
per RAU.
Figure 2-15. RF Path Remote End Components
A detailed description of the remote end components is provided in the following sections
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2.2.1
ICU (Interconnect Unit)
Note: The ICU unit is common for the RF and Digital path components.
The ICU is installed at the floor level. It provides the LC APC optical interface along with DC power to the RAU RF (and data)
sub-modules. The optical and DC signals are routed via a composite cable connected between the ICU and hosted RAU
modules. The optics signal is provided via one or two dedicated Edge® modules that convert MTP optic interfaces to LC/APC
interface; the DC power is provided by up to four dedicated power supplies. A single power connection feeds all ICU power
supply modules.
Note: Pretium EDGE® Module – MTP® to LC APC splice module/cassette/field-term cassette
Figure 2-16. ICU Front Panel Interfaces and Modules
Chassis/Module
Interface
Description
ICU Chassis
Power Connectors
Up to eight DC power connectors, depending on
number of power supply modules installed.
PSM
AC Power Input
110-240 V AC power input to unit
Edge® Module
LC APC SM
Optic connectors implemented by up to two Edge®
modules inserted from the rear: six connectors per
Edge® module.
MTP® SM fiber port
Edge® Splice Cassette
LC APC to a (twelve x 250µm
single fiber) pigtail
Edge® Field-Term Cassette
LC APC to LC APC
Table 2-11. ICU Front Panel Interface Descriptions
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Edge® modules and power supplies are extracted and inserted from the rear of the unit.
Figure 2-17. ICU Rear Panel Interfaces and PSM Modules
2.2.2
RAU (Remote Access Unit)
The RAU distributes up to four RF services via internal antennas (external antennas are optional). The RF services are received
over optic cables and converted for distribution over internal (or optionally, external) antennas.
Figure 2-18. RAU Module Interfaces
Note: The RAU enclosure can host two additional modules: RxU for MIMO support (e.g. LTE700 and AWS) and GEM for digital
coverage. See relevant sections for details on these modules.
Interface
Description
MGMT
RJ-45 local management connection
DC power inputs
PWR
F/O
Main - connect to DC (from composite cable)
Secondary – in case of PoE clients. Used when GEM modules are installed
(in addition to Main)
LC APC SM connectors for UL and DL optic connections
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Interface
Description
Listening Mode
N/A
RF Filter (e.g. LTE, CELL)
QMA RF ports for external cavity filter use (In/Out). For CELL and LTE filters.
External Antenna
Optional connection to broadband external antennas. Antenna must have a
return loss of 12dB. Requires GUI configuration (internal antenna is enabled
by default).
Grounding Bolt Location
Use the 8-32X3/8 bolt (supplied with RAU) to connect RAU to earth ground
Table 2-12. RAU Interfaces
The RAU status LEDs are located on the top left (see Figure 2-19).
Figure 2-19. RAU LEDs
LED
Description
RUN
Blinking Green Blinking – RAU Initializing
Steady Green – RAU boot up sequence complete and module SW up
and running
Off – No power supplied to unit
POWER
Steady Green - Power input detected by RAU
Off - No power supplied to RAU
LINK
Steady Green – Optical link power to/from the RAU is normal
Blinking green – Optical power from remote is lower than required
Off – No optical link is detected
Table 2-13. RAU Status LEDs Description
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2.2.3
RAU5 (5 Band Remote Access Unit)
RAU5 is a multi-service remote that distributes up to five RF services. The RF services are received over optic cables and
converted for distribution over external vertical, directional or omni-directional antennas via external QMA antenna ports.
Note: Specific RAU5 models are available with provided external antenna enclosure.
Figure 2-20. RAU5 Interfaces
Note: The RAU enclosure can host two additional modules: RxU for MIMO support (e.g. LTE700 and AWS) and GEM for digital
coverage. See relevant sections for details on these modules.
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Interface
Description
MGMT
RJ-45 local management connection
MAIN POWER
Main DC input; Input range: 37 – 57 VDC; DC power fed from composite
cable; Refer to section 1.3.3.1 for power consumption
SECONDARY POWER
Secondary DC input required for use in addition to ‘MAIN POWER’ with PoE
clients (installations including GEM module); Refer to section 1.3.3.1 for
power input per PoE port and consumption
LIST. MODE
N/A
EXTERNAL ANTENNA
QMA connector for external broadband antenna connection
CELL/LTE FILTER
Two QMA RF connectors (In/Out) per external cavity filter type (i.e. LTE and
CELL)
OPTIC
LC APC SM connectors for UL and DL fiber optic connections
GROUNDING BOLT
8-32 x 3/8 grounding screw used for connecting RAU5 to earth ground
Table 2-14. RAU5 Connection Interface Descriptions
LED
Description
POWER
Steady Green - Power input detected by RAU5
Off - No power supplied to RAU
LINK
Steady Green – Optical link power to/from the RAU 5is normal
Blinking green – Optical power from remote is lower than required
Off – No optical link is detected
RUN
Blinking Green Blinking – RAU5 Initializing
Steady Green – RAU5 boot up sequence complete and module SW up
and running
Off – No power supplied to unit
Table 2-15. RAU5 LED Descriptions
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2.2.4
RxU (Remote Expansion Unit)
The RxU is an Add-on to the RAU/RAU5 which provides support for MIMO services (i.e. 700 MHz LTE, AWS).
Figure 2-21. RxU (Installed in RAU) Interfaces
Module
Description
External Antenna
RF Connection to external antenna, used for above-ceiling installation.
Antenna must have a return loss of 12 dB.
(Both the RxU and the RAU external antenna connections are used since
this implements a MIMO configuration)
External RF Filters
QMA RF ports for external cavity filter use (if required by site planner). For
CELL and LTE filters.
RUN LED
Indicates SW is up and running.
Table 2-16. RxU Front Panel Interface Connections
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3
Unit Descriptions - Digital Path
This chapter provides detailed descriptions of the Digital Path components.
3.1
Digital Path Components
The digital path comprises the following elements - located at the remote end
• CEU – Centralized Ethernet Unit
• GEU-S – Standalone Gigabit Ethernet Unit
Note: The GEM module can also be installed in the RAU enclosure so that the RAU provides both RF and digital services.
Figure 3-1. Corning ONE™ Digital Path Architecture
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3.2
CEU (Centralized Ethernet Unit)
The CEU is a Centralized Ethernet-over-Fiber media and rate converter unit. Located at the remote end, it converts Ethernet
media (from a LAN switch) to fiber media for routing towards GEM modules. The CEU hosts three Centralized Media Converter
Modules (CEMs).
Figure 3-2. CEU Front Panel with Installed CEM Module
Figure 3-3. CEU Rear Panel
3.2.1
CEM (Centralized Ethernet Module)
The CEU supports up to three CEM modules, where each CEM supports four Ethernet ports (LAN switch connections) and four
F/O connectors (towards GEM modules). All interfaces (except for power) are located on the front panel.
Figure 3-4. CEM Interfaces (Installed in CEU)
The CEM module interfaces include Ethernet connections to the Ethernet switch, F/O connections and LED status indicators.
Table 3-1 provides a description of the CEM ports.
Port
Description
ETH
Four 10/100/1000BASE-T RJ-45 connectors (LAN switch connections)
F/O
Four 10/100/1000BASE-T Copper ports to four LC UPC fiber connectors (using SFP –small-form
pluggable module) towards GEM modules
USB port
USB serial port - service port
PWR
Steady Green – Power input detected for corresponding module
Table 3-1. Ports Description
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Figure 3-5. CEM LEDs
Table 3-3 provides a description of the CEM LEDs.
LED
Description
CEM PWR/FAULT Steady Green - short blink
every ~10 sec. (heartbeat):
LINK
ACTIVITY
SFP STATUS
SFP FAULT
CEM On/Normal
Steady Yellow:
Faulty CEM
Steady Green:
Link
Off:
No link
Blinking Yellow:
Activity
Off:
No activity
Blinking Green:
Activity
Steady Green:
Link
Off:
No link
Off:
No fault detected
Steady Yellow:
Fault detected
Table 3-2. CEM LED Description
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3.3
GEM (Gigabit Ethernet Module)
The GEM converts the received optical signal to two Ethernet digital connections, which are then routed along with PoE to two
remote access points. The GEM module can be installed in the following configurations:
• Installed in RAU - as an optional plug-in module (see section 5.2.2)
• As a standalone module (GEU-S) - (see section 6.2)
Figure 3-6. GEM Interfaces
Table 3-3 and Table 3-4 provide descriptions of the ports and LED indicators.
Port
Description
PORT A/PORT B
Two 10/100/1000Base-T copper interface with 802.3at compliant Power
over Ethernet (PoE+) PSE ports capability for connections to remote
access points
FC APC
One 1000BASE-X T Copper port to LC UPC fiber connectors (using
SFP –small-form pluggable module) towards CEM module
Table 3-3. GEM Port Interfaces
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Figure 3-7. GEM LED Description
LED
PoE (PORT A/PORT B)
SFP LINK
RUN
LINK
ACTIVITY
Description
Steady Green:
Indicates power supplied to connected AP; PoE
enabled
Steady Yellow:
Indicates PoE fault
Off:
Off
Steady Green:
Optical link to/from the connected remote
functions within the specifications in both
directions.
Blinking Green:
Indicates activity over the optical link
Off:
No link
Steady Green with
short blink every ~10
sec. (heartbeat):
On/Normal
Steady Yellow:
GEM module fault
Steady Green:
Link
Off:
No link
Blinking Yellow:
Activity
Off:
No activity
Table 3-4. GEM LED Indicator Descriptions
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3.4
GEU-S (Standalone Gigabit Ethernet Unit)
The GEU-S is a GEM Standalone unit and includes the mounting option and DC power supply for the GEM module. See 6.2 for
details on the installation procedure. Allows for the GEM to perform media conversion services from Fiber to Copper and to
supply PoE and PSE services
Figure 3-8. GEU Enclosure: Top (Left) and Open Underside (Right)
Table 3-5 and Table 3-6 provide descriptions of the ports and LED indicators for the GEU module of GEU-S unit. Refer to
section 3.3 for the GEM module ports and LED descriptions.
Port
Description
DC Power Connector
Connector for DC wire pairs (42-57 V DC)
Ethernet
RJ-45 port used for Ethernet connection
Table 3-5. GEM Port Interfaces
LED
Description
GEU PWR
Steady Green – Power input detected in GEU module
Table 3-6. GEU LED Indicator Descriptions
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4
Installation Guidelines
The following installation assumes that site survey and installation planning (including power requirements) have been
completed. This includes planning the distribution of antennas to provide the required coverage, as well as planning the layout
of the devices and cables in the telecom closet or shaft.
4.1
Infrastructure Preparation
The following installation rules are based on the assumption that the site survey and installation planning (including power
requirements) have been completed.
4.2
Installation Requirements
The infrastructure preparation consists of two main phases:
A. Floor Planning: Planning the distribution of the Remote Access Units (RAUs) on each floor to provide the required
coverage.
B. Telecom Closet Planning: Planning the layout of the devices and cables in the telecom closet or shaft. This includes all
cabling and other voice service and digital coverage distribution systems that are relevant to the specific installation.
4.3
Safety Guidelines
Before installing the equipment review the following safety information:
•
•
•
•
•
•
Follow all local safety regulations when installing the equipment.
Only qualified personnel are authorized to install and maintain the Repeater.
Ground specified equipment with the provided grounding bolt
Do not use the grounding bolt to connect external devices.
Follow Electro-Static Discharge (ESD) precautions.
Use low loss cables to connect the antennas
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4.4
Rack Installation Guidelines
These guidelines are relevant to the system components which are installed in 19-inch communication racks: RF Path
components: HEU, OIU and ICU; Digital Coverage components: CEU
• Verify that the rack height can support all the units to be installed, where you may also want to consider future installations.
Figure 4-1 shows an example of a rack configuration for the RF path components at the headend which facilitates and
simplifies the cabling connections.
• The configuration is for a single operator. If the site is serviced by more than one operator, each operator often installs their
equipment in a separate rack. Refer to section 5.1.1.2 for 4x4 HEU-OIU rack installation configurations (maximum
configuration including four HEU and four OIU units).
Figure 4-1. Example of Communication Rack Installation
4.4.1
Rack Safety Instructions
The following guidelines are relevant to the rack installed units. Review the following guidelines to help ensure your safety and
protect the equipment from damage during the installation.
• Only trained and qualified personnel should be allowed to install or replace this equipment.
• Verify that ambient temperature of the environment does not exceed 50°C (122° F)
• To maintain a low center of gravity, ensure that heavier equipment is installed near the bottom of the rack and load the rack
from the bottom to the top.
• Ensure that adequate airflow and ventilation within the rack and around the installed components so that the safety of the
equipment is not compromised. It is recommended to allow for at least about 2 cm of airspace between devices in the rack.
• Verify that the equipment is grounded as required – especially the supply connections.
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4.5
Power Requirements
This section summarizes the power requirements of all Corning ONE™ RF and digital coverage devices.
4.5.1
Power Safety Instructions
SAFETY WARNINGS! When installing or selecting the power supplies:
• Use only the power cables (AC and DC) and any other relevant accessories provided with the unit to connect the power
supply to the ONE™ units.
• Be sure to disconnect all power sources before servicing.
• Calculate the required power according to the requirements of the specific installation and then determine the configuration
of the power supplies. The required DC cables will then be determined by the selected PS configuration.
• Use only UL approved power supplies
• Install external over-current protective devices for the system according to the requirements described in section 1.3.3 Power .
rd
• For GEU-S units – 3 party equipment (PoE clients) intended for connection to the PoE outputs must meet the “Resistance
to Fire” requirement (clause 4.7) of the IEC/EN/UL60950-1 standard.
4.5.2
Types of Power Supplies
Corning supplies various power supplies that can be installed in a rack or mounted on a wall, depending on your configuration.
4.5.3
Circuit Breakers
Calculate the required fuse protection while referring to section 1.3.3 - Power . Also, when Install fuse protections for the system
taking into account that there may be other Corning system elements that require external fuse protection.
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4.6
RF Coaxial Cable Guidelines
4.6.1
General Cable Installation Procedures
Note: The installer should be familiar with the ANSI/TIA/EIS-568 Cabling Standard guidelines.
Observe the general cable installation procedures that meet with the building codes in your area. The building code requires
that all cabling be installed above ceiling level (where applicable). The length of cable from the risers to each antenna must be
concealed above the ceiling.
The cable must be properly supported and maintained straight using velcro cable ties, cable trays and clamps or hangers every
10 feet (where practical above ceiling level). Where this is not practical, the following should be observed:
•
•
•
•
•
•
The minimum bending radius of the supplied ½” coax cable should be 7”.
Cable that is kinked or has a bending radius smaller than 7” must be replaced.
Cable runs that span less than two floors should be secured to suitably located mechanical structures.
The cables should be supported only from the building structure.
All cables shall be weather-resistant type.
Cable length - determined by the system installation plan. When calculating the cable length, take into account excess cable
slack so as not to limit the insertion paths.
4.6.2
RF Rules
• Use coax RG-223, 50 ohm, male-to-male N-type to QMA for RF connections from the RIMs to the BTS/RBS and to the
RAUs.
• When using the Corning system in an environment in which other indoor coverage systems are installed, it is recommended
(where possible) that the antennas are placed at least two meters apart
• When bending coax cables, verify that the bending radius does not exceed the coax specifications.
• Use a VSWR meter (i.e. Site Master or equivalent) for checking coax cables, including the antennas. (<2). The VSWR must
be measured prior to terminating the RAUs at the remote locations
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4.6.3
Coax Cable Lengths and Losses
Use coax ½”, 50ohm, male-to-male QMA type, for connecting to RAU and external antenna ports.
Note: The required distance between the antennas (installed in the ceiling) depends on the infrastructure and calculated
path-loss. For example, if there is free space-loss between the antennas, a minimum distance of 100 ft is required; if
there are partitions (loss) between the antennas, a distance of less than 100 ft between them is allowed.
Coax Length
Coax Loss
(900 MHz)
Connector
Loss
Total Loss
30
0.7
1.5
2.2
40
0.9
1.5
2.4
50
1.1
1.5
2.6
60
1.3
1.5
2.8
70
1.5
1.5
80
1.7
1.5
3.2
90
1.9
1.5
3.4
100
2.1
1.5
3.6
110
2.3
1.5
3.8
120
2.5
1.5
130
2.7
1.5
4.2
140
2.9
1.5
4.4
150
3.1
1.5
4.6
160
3.3
1.5
4.8
170
3.5
1.5
180
3.7
1.5
5.2
190
3.9
1.5
5.4
200
4.1
1.5
5.6
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4.7
Antenna Specifications and Guidelines
Determine the antenna installation configuration, according to the transmission and coverage requirements and the installation
site conditions.
4.7.1
Authorized Antennas and Required Specifications
• Corning ONE™ RAU (Remote Access Unit) is equipped with an Omni Directional integrated antenna; 0 dBi (15 deg. down
from horizon)
• Corning ONE™ RAU5 (5 Band Remote Access Unit) requires external broadband antenna. RAU5 can be ordered with
Corning ONE preassembled external antenna enclosure.
• External antennas - No limitation on any vendor of available external antennas with respect to the following requirements:
•
Omni Directional or Directional
•
Supported frequency range: wideband antennas supporting a range of 700 MHz to 2600 MHz
•
Gain: up to 12.5 dBi
•
Impedance: 50 Ohm
•
Return Loss: +12 dB
•
Number of antennas that can be connected (with cables/splitters) – it is not recommended to connect more than one
antenna per connector since 1:1 connectivity is reduced with each split.
•
Types of couplers/splitters – depends on number of splits (not recommended)
4.7.2
•
•
•
•
General Installation Guidelines
The RAU should be installed at a convenient location, free of metallic obstruction (can also be installed in plenum spaces).
Install the RAU at the designated height and tune it roughly toward the service coverage area.
Installation of this antenna must provide a minimum separation distance of 20 cm from any personnel within the area.
Cable and jumper loss is at least 2 dB.
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4.8
Fiber Optic Requirements
4.8.1
Authorized Optic Cables
The following specified optic cables are authorized for use with ONE™ products:
Vertical
Horizontal
Plug & Play™ Plenum Optical cables
MTP Fiber Connectors
12 – 144 fibers
2-sided or 1-sided
Armored, non-armored
Composite Plenum Tether Assemblies
Fiber: LC APC, 2 – 24 fibers
Cu: 16AWG, 14AWG, 12AWG; 2 – 12 Conductors
Armored, non-armored
4.8.2
•
•
•
•
•
Fiber Optic Rules
Use only MTP® or LC APC connectors
UniCam connectors can be used for field termination
Use only fusion splice for connecting two fibers
Use minimum splicing/connectors to achieve minimum losses on the fibers (< 0.5 dB)
Use precaution while installing, bending, or connecting fiber optic cables:
•
Fiber optic cable is sensitive to excessive pulling, bending and crushing forces. Consult the cable specification sheet for
the cable you are installing.
•
Do not bend cable more sharply than the minimum recommended bend radius.
•
Do not apply more pulling force to the cable than specified.
•
Do not crush the cable or allow it to kink. Doing so may cause damage that can alter the transmission characteristics of
the cable. The cable may have to be replaced.
Use an optical power meter and light source for checking the fiber optic cables
Make sure the environment is clean while connecting/splicing fiber optic cables
All fiber optic connectors should be cleaned prior to connecting to the system
Fiber connector protective caps should be installed on all non-terminated fibers and removed just before they are
terminated.
• Pay special attention while connecting the MTP® and/or LC APC connectors – ensure that you hear a “click”, indicating a
secure connection
• Never look directly into the end of a fiber that may be carrying laser light. Laser light can be invisible and can damage your
eyes.
•
•
•
•
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4.9
Power Safety Instructions
SAFETY WARNINGS
• When installing or selecting the power supplies:
• Be sure to disconnect all power sources before servicing.
• Calculate the required power according to the requirements of the specific installation and then determine the configuration
of the power supplies. The required DC cables will then be determined by the selected PS configuration.
• Use only UL approved power supplies
• AC and DC power supply cables – only use the power cords supplied with the units
• Install external over-current protective devices for the system according to the requirements described in section 1.3.3.
Types of Power Supplies
Corning supplies various power supplies that can be installed in a rack or mounted on a wall, depending on your configuration.
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5
Installation – RF Path Elements
This chapter describes the installation of the RF path components. For specific guidelines on infrastructure planning, design
and installation, please consult with a Corning Product Line Manager or Corning approved Installer.
5.1
Headend Elements
The (RF coverage) headend site installation consists of installing the HEU and OIU units.
Note the following information:
• The chassis and modules are supplied separately and must be inserted by the user. Only the fan module is factory installed
in the chassis rear.
• The headend elements are installed at the IDF (Intermediate Distribution Frame), adjacent (or as close as possible) to each
other to facilitate the connections. See section 5.1.1.2 for an optimal 4x4 HEU-OIU rack configuration – in terms of location
in rack where each OIU is connected to each HEU.
• The ERFC cable (Expander Cable interconnecting the (OIU/IHU) OIX and (HEU/IHU) RIX modules) are provided in lengths
ranging from 16 to 59 in so as to accommodate a range of HEU-OIU rack installation configurations.
• Hot-swappable modules: RIM (RF Interface Modules) and Power Supply(ies), Fan Modules and RIX/OIX (Expander
Modules). HCM, ACM modules are not hot-swappable.
• If a redundant power supply is provided, both supplies must be installed, connected to respective AC or DC power and
switched on.
• The 4x4 configuration includes four HEU units connected to four OIU units. This is the maximum number of headend units
that can be managed by a single HCM.
• The components of each system installation are control and managed via a single HCM which is installed in an HEU/IHU
chassis.
Note: The management connections for the Corning ONE™ system elements are detailed in the HCM UM.
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5.1.1
HEU Installation
Note the following information:
• The HEU chassis is supplied empty and only includes the factory assembled FAN Module (FAM). All other modules are
ordered separately and must be installed.
• The RF service interfaces are implemented by service specific RIM/RIM-M modules that are provided separately according
to your order.
• In installations with more than one HEU, the HEU in which the HCM module is installed is determined as the “Main HEU”.
Any additional HEU unit is installed with an ACM module and is managed via the HCM in the Main HEU through an
RJ45/RJ45 connection.
• One HEU supports connections to up to four OIU units (the IHU supports connections to one HEU)
• The Cable management Tray can be assembled either before or after the unit is installed (see section 5.1.3 - HEU/OIU
Cable Management Tray).
5.1.1.1
Unpacking and Inspection
This section describes the installation procedure for the Corning ONE™ Headend Unit (HEU) and relevant modules.
Unpack and inspect the cartons as follows:
8. Open the shipping cartons and carefully unpack each unit from the protective packing material.
9. Verify that all the items required for installing the Corning ONE HEU according to the items listed in Table 5-1. If any of
the listed items are missing, contact your Corning representative.
10. Check for signs of external damage. If there is any damage, call your Corning representative.
Items required for installing the HEU:
HEU Kit
Quantity
Headend Unit Chassis (with blank panels on RIM slots and one PSM
slot) – includes factory installed Fan Module (FAM) in chassis rear
Fan Module (FAM) – single unit hosting 4 fans
(factory installed in chassis rear)
RJ45/RJ45 communication cable L=2m-2.15m (P/N 705900003) –
HCM management cable
RIM Kit (1-12 according to order)
Quantity
Radio Interface Module (service specific)
Item
Item
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RIX Module Kit (1 or 2 according to order)
Quantity
Radio Expander Module – expands the RF sources to the OIU
Item
Item
Pilot Transport Cable (P/N: PCKC47*) – Single QMA to QMA cable;
L = 47 in; used for passing reference clock signal connections
between RIX modules.
*Additional lengths can be ordered:
• PCKC20: L=20 in
• PCKC63: L=63 in
• PCKC79: L=79 in
ERFC Cable Kit (according to order)
Quantity
ERFC (Expander Cable) - RF interface cable used to connect
between RIX and OIX modules; 9 pin SMP to SMP connector
Available in five different lengths:
•
•
•
•
•
Item
ERFC16: L= 16 in
ERFC24: L= 24 in
ERFC34: L= 34 in
ERFC40: L= 40 in
ERFC59: L= 59 in
ETM Kit (according to order)
Quantity
ETM Expander Termination Module (for unoccupied Expander slot)
Item
PSM Kit (AC or DC modules - 1 or 2 kits according to order)
Quantity
PSM-AC: 100-240 VAC Power Supply Module including standard
IEC 60320-1 C13 cable
PSM-DC: 48 V DC Power Supply Module; 9 A Max.; six pin DC input
terminal block connector; includes six terminal rings used for
crimping onto the DC wires
Controller Module Kit (HCM or ACM - according to order)
Quantity
HCM Kit (Headend Control Module) – installed in Main headend unit
(i.e HEU or IHU) unit; enables remote/local management of all
hosted units
ACM Kit (Auxiliary Control Module) – installed in Auxiliary headend
units; provides management connections for the Auxiliary headend
unit (i.e additional HEU/IHU or OIU).
Item
Item
Table 5-1. Items Required for HEU Installation
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5.1.1.2
Mounting the HEU Chassis
Note the following:
• HEU chassis requires 4U rack height availability
• Rack nuts and screws not provided (depend on rack type)
To mount the HEU chassis (in 19-in rack)
1. Determine the location of the HEU in the rack while considering additional headend units and the lengths of the available
ERFC cables. Figure 5-1 and Figure 5-2 illustrate the optimal rack installations for a maximum 4x4 HEU-OIU configuration
in shared and dedicated equipment scenarios.
Figure 5-1. 4x4 Installation Diagram – Dedicated
Figure 5-2. 4x4 Installation Diagram – Shared
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2. Referring to Figure 5-3 secure the units’ rack ears to the rack frame as follows:
•
Insert two screws half-way into the rack frame.
•
Position the chassis on to the screws using the handles and the bottom half slots of the rack ears.
•
Secure the unit in the rack via all applicable bracket holes using the appropriate rack nuts and screws.
Figure 5-3. Installing Chassis in Rack
5.1.1.3
Installing all Modules
To install the HEU modules:
1.
Refer to Figure 5-4 for module locations. Remove blank panel and slide in the relevant module (chassis slots are 100%
mistake proof) as shown in Table 5-2 :
Figure 5-4. Example of occupied HEU
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Module
Quantity
Comment
HCM (for Main HEU units)
In installations with more than one HEU, the HCM is installed in
one of the chassis which will be referred to as the “Main” HEU;
One HCM per system installation.
ACM (for Auxiliary HEU units)
Installed in the HEU in configurations consisting of more than
one HEU chassis
PSM
1-2
• For installations with one PSM module – install module in
left most slot
• For installations with two PSM modules – remove blank
panel from middle slot and insert additional PSM module
RIX
1-2
In installations with only one RIX, the unoccupied RIX slot must
be terminated with an ETM.
RIM
1 - 12
No need to terminate unoccupied RIM slot – leave blank panel
Table 5-2. Modules Required for HEU Installation
2.
Referring to examples of modules shown in Figure 5-5 and Figure 5-6 secure the modules to the backplane by:
•
Closing the ejectors (for relevant modules)
•
Tightening the captive screws
Note: Modules with ejectors (i.e. RIM, RIX and HCM/ACM) the ejectors should be completely open when inserting in
dedicated slot and then push in until the module clicks in to the backplane. Figure 5-5 and Figure 5-6 show examples of
module type captive screws and ejectors.
Figure 5-5. HCM Ejectors and captive Screws
Figure 5-6. RIM Ejectors and captive Screws
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5.1.1.4
Grounding HEU Chassis
The grounding connection is performed via a two-hole, standard barrel grounding lug located on the HEU rear panel (see
Figure 5-7):
• For use with stranded copper wire conductors
• 10-14 AWG
• Holes - 1/4 inch
Figure 5-7. Grounding lug (HEU Chassis Rear)
5.1.1.5
RIM Connections to RF Source
For each service specific RIM - connect (Simplex or Duplex) RF QMA connectors to the service providers’ external RF source.
See Figure 5-8.
Figure 5-8. RIM RF Source Interfaces
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5.1.1.6
RIX to OIX Connections
Note: Each RIX module supports connections to up to two OIX modules (in OIU/IHU).
Using the appropriate length ERFC cable (according to distance of available OIX port) connect the HEU RIX module 9-Pin
connector to the corresponding connector on the OIX module. See Figure 5-9.
Refer to Section 5.1.1.7 for schematic diagram of coax connections in a maximum HEU-OIU configuration of 4x4 where all HEU
units are connected to all OIU units.
Figure 5-9. HEU to OIU Coax Connections
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5.1.1.7
Coax Connections for HEU-OIU 4X4 Installation Configurations
Figure 5-10 and Figure 5-11 illustrate the optimal installation configurations when installing four HEU and four OIU chassis in a
rack so that all HEU units can be connected to all OIU units. The optimal configuration takes into consideration the minimum
and maximum ERFC cable lengths (provided with OIX modules) in either a single 19-inch rack (shared rack equipment
scenario) or two separate racks (dedicated rack per operator).
Figure 5-10. HEU-OIU 4x4 Installation
Figure 5-11. HEU-OIU 4x4 Installation Configuration for Dedicated
Configuration for Shared Provider
Provider Equipment
Equipment
Figure 5-10 illustrates how each HEU is connected to each OIU in a dedicated equipment (single rack) scenario. In Figure 5-11
the port numbers (1-4) indicated on each HEU correspond to the OIUs in the rack and vice versa for the OIU port numbers. For
example, Port 3 in HEU #1 indicates the connection to OIU #3, whereas Port 1 in OIU #3 indicates the connection to HEU #1.
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Figure 5-12. 4x4 HEU-OIU Two Rack Configurations
Figure 5-12 illustrates how each HEU is connected to each OIU in a shared equipment (dual rack) scenario. In Figure 5-12. the
port numbers (1-4) indicated on each HEU correspond to the OIUs in the racks and vice versa for the OIU port numbers. For
example, Port 3 in HEU #1 indicates the connection to OIU #3, whereas Port 1 in OIU #3 indicates the connection to HEU #1.
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5.1.1.8
RIX Pilot Clock Connections
Referring to Figure 5-13 (Shared Rack), use the QMA/QMA jumper cable to connect the REF OUT and REF IN ports of each of
the RIX modules in the HEU (or IHU) chassis.
Note that The REF IN and REF OUT pilot clock ports must be connected in a closed loop as shown in Figure 5-13 and
Figure 5-14 and that both RIX modules of each chassis must be connected.
From
To
Main HEU RIX REF OUT
1 Auxiliary HEU RIX REF IN
(For additional Auxiliary HEUs)
st
1 Auxiliary HEU RIX REF OUT
2 Auxiliary HEU RIX REF IN
nd
2 Auxiliary HEU RIX REF OUT
st
nd
3rd
Auxiliary HEU RIX REF IN
Table 5-3.RIX Pilot Clock Connections
Figure 5-13 and Figure 5-14 show an example of the required pilot clock connections in 4x4 configurations.
Figure 5-13. Pilot Clock Connections Diagram Figure 5-14 Pilot Clock Connections Diagram – (4x4) Dedicated Rack
– (4x4) Shared Rack
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5.1.1.9
Management Connections
Note the following:
• One RJ45/RJ45 management cable is provided with each IHU unit.
• IMPORTANT! Refer to HCM User Manual for instructions on how to correctly perform the management connections.
ATTENTION! Make sure there are no loopback connections to the HCM or ACM modules! An HCM connected to an
ACM cannot have another cable connecting it back to the HCM – doing so may cause alarm flooding resulting in a
system freeze!
Figure 5-15. Example of HCM LAN Connection and a Connection to a Single ACM Module
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5.1.1.10 Power Up
Note the following:
•
•
•
•
The PSM modules are installed in the headend unit chassis in one or both of the dedicated PSM slots (top left and middle)
Two power supplies can be installed in the same chassis in order to provide redundancy.
PSM-DC can be installed in the same chassis along with a PSM-AC module.
For installations with two PSM modules, both modules must be:
•
Connected to their respective power source (AC or DC)
•
Switched ON to begin system operation
•
Turned on at all times after installation
For PSM-AC modules
1. Connect power cable (100-240 VAC) supplied with module to the PSM-AC input connector and to the AC outlet and switch
on. See Figure 5-16
2. Verify that the Power Status LED on each PSM shows green. See Figure 5-16 for PSM-AC LED.
Figure 5-16. AC Power Supply Module LEDs
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For PSM-DC
General information:
• The PSM-DC is provided with six terminal rings (PN: 708A043001)
• Type of terminal ring provided: PMNF2-3R-C or PMV2-3RB-3K (depending on availability)
• PSM-DC power source rating: 48 V DC; 9A max.
To power up the PSM-DC module:
3. Crimp the provided terminal rings onto the DC wire pairs.
IMPORTANT! Make sure to use an appropriate crimper – do not use a plier!
Figure 5-17. Crimping the Terminal Rings onto the DC Wire
Required information:
• Type of terminal ring crimped onto DC wires – PANDUIT ring terminal:
•
Compatible wire size: 1.5 – 2.5mm² wire range/14AWG to 16AWG
•
M3 stud size
• No. of required wire pairs:
•
Remote feed - three pairs; 100 W max. per pair
•
Local Plant feed - two pairs; 100 W max. per pair
4. Connect crimped terminal rings to DC connectors.
IMPORTANT! Verify that the DC power source is OFF before connecting the wire pairs!
Figure 5-18. Connecting PSM-DC Wire Pairs
• Max. current consumption per pair:
•
Remote feed = 1.55 A
•
Plant feed = 4.65 A
• For optimal cable management, route all wire pairs to the left side of the rack
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5. Turn on DC source and verify that power status LED is green.
Figure 5-19. Connected DC Wire Pairs and Green Power LED
5.1.1.11 Verify Normal operation
1. Verify that the Power Status LED on each PSM shows green. See Figure 5-16 (PSM-AC) and Figure 5-19 (PSM-DC).
2. If RF source is operational, verify that the RIM (see Figure 5-20) and HCM/ACM (see Figure 5-21) LEDs indicate normal
operation according to Table 5-4:
Module
LED
Description
RIM
Protect
N/A
DL High
Off - DL RF input level in threshold range
Steady Red – DL RF input level is 3dB above max expected power
DL Low
Off - DL RF input level in threshold range
Steady Red - DL RF input level is 15dB below max expected power
RUN
Blinking Green - RIM module SW has initialized and is up and running
Off – Power off
HCM/ACM
PWR
Steady green - Input power is within required range
PWR
Steady Green - Power input detected by HCM/ACM
RUN
Blinking Green – HCM module SW up and running
SYS
Steady Green - Overall status of the managed system is ok
FAN
Steady Green – Normal operation status for all fans
Table 5-4. RIM and HCM/ACM LED Descriptions
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Figure 5-20. RIM LEDs
5.1.2
Figure 5-21. HCM/ACM LEDs
OIU Installation
Note the following:
• OIU chassis is supplied empty and only includes the factory assembled FAN Module (FAM). All other modules are ordered
separately and must be installed.
• The Cable management Tray can be assembled either before or after the unit is installed (see section 5.1.3 - HEU/OIU
Cable Management Tray).
5.1.2.1
Items Required for OIU Installation
The following items are required for installing the ONE™ OIU. If any of the listed items are missing, contact your Corning
representative.
OIU Kit
Quantity
OIU Chassis (with blank panels) - with FAM Unit on the rear side of
the chassis
Fan Module (FAM) – one unit hosting four fans
(factory installed in chassis rear)
RJ45/RJ45 communication cable L=2m-2.15m (P/N 705900003) –
ACM management cable
OIM Kit (1-12 according to order)
Quantity
Optical Interface Module (OIM)
Item
Item
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MTP-LC APC Harness Cable (P/N 37HP900162-06F) - connector for
splitting fibers (6) leading from OI M to (FMU) Edge module
PSM Kit (AC or DC modules - 1 or 2 kits according to order)
Quantity
PSM-AC: 100-240 VAC Power Supply Module including standard
IEC 60320-1 C13 cable
PSM-DC: 48 V DC Power Supply Module; 9 A Max.; Includes six pin
terminal block connector
OIU Expander Module Kit (1 or 2 according to order)
Quantity
OIX (Optical Interface Expander Module) – connects to the HEU/IHU
RIX Expander module; provides RF interface to HEU/IHU
ETM Kit (according to order)
ACM Kit
Item
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Item
Quantity
ACM (Auxiliary Control Module) – enables remote (via HCM)/local
management of all hosted units
Item
Quantity
ETM (Expander Termination Module) - used for terminating unused
Expander slot
Item
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5.1.2.2
Mounting Chassis in 19-in Rack
Note the following:
• Up to four OIU chassis can be connected to a single HEU (IHU supports connections to one OIU)
• OIU chassis requires 4U rack height availability
• Rack nuts and screws not provided (depend on rack type)
To mount OIU chassis
1. Determine the location of the OIU in the rack while considering additional headend units and the lengths of the ERFC cables
(described in HEU Quick Start Guide).
2. Figure 5-22 and Figure 5-23 describe the optimal rack installations for 4x4 HEU-OIU configurations in dedicated or shared
equipment scenarios.
Figure 5-22. 4x4 Rack Installation Diagram – Dedicated.
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Figure 5-23. 4x4 Rack Installation Diagram – Shared
3. Referring to Figure 5-24 secure the units’ rack ears to the rack frame as follows:
•
Insert two screws half-way into the rack frame.
•
Position the chassis on to the screws using the handles and the bottom half slots of the rack ears.
4. Secure the unit in the rack via all applicable bracket holes using the appropriate rack nuts and screws.
Figure 5-24. Installing Chassis in Rack
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5.1.2.3
Installing All Modules
1. Remove blank panel (where relevant) and slide in the relevant module (chassis slots are 100% mistake proof). Refer to
Figure 5-25 for module locations.
Module
Quantity
Comment
ACM
PSM
1-2
• For installations with one PSM module – install module in left most slot
• For installations with two PSM modules – remove blank panel from middle
slot and insert additional PSM module
OIX
1-2
For single OIX installations, the second OIX slot must be occupied with an
Expander Termination Module (ETM).
OIM
1 - 12
No need to terminate unoccupied OIM slot – leave blank panel
Figure 5-25. Location of OIU Front Panel Modules in Chassis
Note: For modules with ejectors (i.e. OIM, OIX and ACM) – verify that the ejectors are completely open when inserting in
dedicated slot and then push in until the module clicks in to the backplane. Figure 5-26 shows example of module type
captive screws and ejectors.
2. Secure modules into the OIU backplane by:
•
Closing ejectors firmly (for relevant modules)
• Tightening the captive screws
See Figure 5-26.
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Figure 5-26. Example of Module Type Captive Screws and Ejectors
5.1.2.4
Grounding Chassis
The grounding connection is performed via a two-hole, standard barrel grounding lug located on the HEU rear panel (see
Figure 5-27).
•
For use with stranded copper wire conductors
•
10-14 AWG
•
Holes - 1/4 inch.
Figure 5-27. OIU Grounding Lug (Chassis Rear)
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5.1.2.5
Fiber Connections
1. Using the provided Corning MTP-LC APC Harness Cable:
•
Connect the cable MTP® connector to the OIM MTP connector
•
Remove the protective plastic covers and connect the three LC APC connection fibers to the FMU Edge module LC
APC connections. See Figure 5-28.
2. Take note of the fiber numbering (1/2/3). See Figure 5-28.
Figure 5-28. OIM Fiber Connections
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5.1.2.6
RF Connections to HEU
RF connections between the OIU and HEU/IHU are performed using the ERFC cable (included in HEU/IHU order) and are
described in section 5.1.1.6. See Figure 5-29 for general view of connections.
Figure 5-29. Example of OIX to RIX RF Connection
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5.1.2.7
Management connections
Refer to HCM User Manual or Quick Installation Sheet (CMA-348-AEN) for instructions on how to correctly perform the
management connections between HCM and ACM modules.
5.1.2.8
Power Up
Refer to HEU section 5.1.1.10 for details on connecting the AC/DC PSM modules.
Note: The PSM modules are common for both HEU and OIU chassis.
5.1.2.9
Verifying Normal Operation
If OIU chassis is powered on, verify that the OIM and ACM (see Figure 5-30) module LEDs indicate normal operation:
Module
LED
Description
OIM
LINK 1/2/3
Steady Green - Optical link power to/from the connected remote is normal
Blinking Green - Optical power from remote is lower than required
RUN
Blinking Green - OIM module SW has initialized and is up and running
Off – Power off
ACM
PWR
Steady Green - Power input detected in OIM
PWR
Steady Green - Power input detected by ACM
RUN
Blinking Green – ACM module SW up and running
SYS
Steady Green - Overall status of the managed system is ok
FAN
Steady Green – Normal operation status for all fans
Table 5-5. OIM and ACM LED Descriptions
Figure 5-30. OIM and ACM Module Status LEDs
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5.1.3
HEU/OIU Cable Management Tray
The HEU/OIU Cable Management tray is an optional accessory that can be assembled onto the HEU and OIU chassis,
facilitating cable management and providing an aesthetic solution for organizing cable slack.
Note the following:
• The accessory can be assembled either before or after the HEU/OIU module cables are connected.
• The Cable Management Tray consists of two items:
•
Cable Management Tray – Item A in Step 1
•
Door Sleeve – Item B in Step 4
• A Phillips screwdriver is required.
Assemble the Cable Management Tray as follows:
1. Assemble Cable Tray Onto Chassis
Figure 5-31. Assembling Cable Tray onto Chassis
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2. Route Connection Cables Through Cable Tray (From the Middle Leftwards/Rightwards) and Pull Up Tray
Figure 5-32. Routed Connection Cables
3. Close Management Tray (as shown in Figure 5-33)
Figure 5-33. Closed Management Tray
Note: The tray pin must first be pulled towards the left and then released into the hole (shown in figure above).
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4. Pull Down the Cover Door.
Figure 5-34. Opening Cover Door
5. Assemble Cover onto Chassis
Figure 5-35. Assembling Cover Door
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Figure 5-36. View of Assembled Chassis and Cover – Open
Figure 5-37. View of Assembled Chassis and Cover – Closed
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5.1.4 IHU Installation
Note the following information:
• The IHU chassis includes the S-FAM (Fan Module) and preassembled cable management tray routed with a 34 in 9 pin
cable ready for the Expanders (i.e. RIX and OIX) connectivity.
• Each IHU includes 14 slots supporting the following modules:
•
RIX slot (Slot 1)
•
RIM slots (Slots 2-5; marked in RED)
•
Combo slots (Slots 6-9; marked in WHITE) – each slot supports RIMs or OIMs
•
OIM slots (Slots 10-13; marked in BLUE)
•
One OIX slot (Slot 14)
• IHU supports the following expansion connection options:
•
To a single IHU or,
•
To one HEU and one OIU
5.1.4.1
Unpacking and Inspection
This section describes the installation procedure for the Corning ONE™ Integrated Headend Unit (IHU) and relevant modules.
Unpack and inspect the cartons according as follows:
1. Open the shipping cartons and carefully unpack each unit from the protective packing material.
2. Verify that all the items required for installing the Corning ONE HEU according to the items listed in Table 5-6. If any of the
listed items are missing, contact your Corning representative.
3. Check for signs of external damage. If there is any damage, call your Corning representative.
Items required for installing the IHU:
IHU Kit
Quantity
Integrated Headend Unit Chassis
Fan Module (S-FAM) – single unit hosting 4 fans
(installed in the chassis rear)
RJ45/RJ45 communication cable L=2m-2.15m (P/N 705900003) –
HCM management cable
Cable Management Tray - includes management tray with routed
ERFC cable and door sleeve
ERFC (Expander Cable) - RF interface cable between RIX and OIX
modules; 9 pin SMP to SMP connector; L=34 in
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Item
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RIM Kit (up to 8 according to order)
Quantity
Radio Interface Module (service specific)
Item
OIM Kit (up to 8 according to order)
Quantity
Optical Interface Module (OIM)
MTP-LC APC Harness Cable (P/N 37HP900162-006F) - connector
Item
for splitting fibers (6) leading from OI M to (FMU) Edge module
RIX Module Kit
Quantity
Radio Expander Module – expands the RF sources to the OIM
modules via the OIX
Pilot Transport Cable (P/N: PCKC47*) – Single QMA to QMA cable;
L = 47 in; used for passing reference clock signal connections
between RIX modules.
*Additional various lengths are available:
Item
Item
• PCKC20: L=20 in
• PCKC63: L=63 in
• PCKC79: L=79 in
OIX Kit
Quantity
OIU Expander Module - connects to the RIX Expander module;
provides RF interface between RIM and OIMs
PSM Kit (AC or DC modules - 1 or 2 kits according to order)
Quantity
PSM-AC: 100-240 VAC Power Supply Module including standard
IEC 60320-1 C13 cable
PSM-DC: 48 V DC Power Supply Module; 9 A Max.; Includes six pin
terminal block connector
Controller Module Kit (HCM or ACM - according to order)
Quantity
HCM Kit (Headend Control Module) – installed in Main IHU unit;
enables remote/local management of all hosted units
ACM Kit (Auxiliary Control Module) – installed in Auxiliary IHU units;
provides management connections for the Auxiliary IHU.
Item
Item
Item
Table 5-6. Items Required for IHU Installation
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5.1.4.2
Assembling Cable Management Tray onto IHU and Connecting ERFC Cable
Note the following:
• The IHU Cable Management Tray is used for managing the unit connection cables.
• The IHU Cable Management Tray includes a routed ERFC34 cable; Expander Cable - RF interface cable between RIX and
OIX modules; 9 pin SMP to SMP connector; L=34 in
• The Cable Management Tray consists of two items:
•
Cable Management Tray with routed ERFC cable
•
Door Sleeve
• A Phillips screwdriver is required.
Assemble the provided Cable Management Tray and connect ERFC Cable (routed through tray) as follows:
1. Attach Cable Management Tray to IHU chassis:
Figure 5-38. Assembling Cable Tray
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2. Connect ERFC Cable to RIX (Slot 1) 9-Pin connector and OIX (Slot 14) connector
Figure 5-39. Connecting the ERFC Cable
3. Route connected cables and lock tray
Figure 5-40. Routing Connection Cables
Note: The tray pin must first be pulled towards the left and then released into the hole (shown in figure above).
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Figure 5-41. Example of Routed Connection Cables and Locked Tray
Assemble the Door Cover as follows:
4. Pull Down the Cover Door
Figure 5-42. Opening Cover Door
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5. Attach door to IHU Chassis and tighten integrated screws
Figure 5-43. Attaching Cover Door
Figure 5-44. Assembled Cable Management Tray and Door – Open View
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Figure 5-45. Assembled Cable Management Tray and Door – Closed View
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5.1.4.3
Mounting the IHU Chassis
Note the following:
• IHU chassis requires 4U rack height availability
• Rack nuts and screws not provided
To mount the IHU chassis (in 19-in rack)
1. Determine the location of the IHU in the rack while considering additional units (i.e. IHU, HEU, OIU) and the lengths of the
available ERFC cable(s).
2. Referring to Figure 5-46 secure the units’ rack ears to the rack frame as follows:
•
Insert two screws half-way into the rack frame.
•
Position the chassis on to the screws using the handles and the bottom half slots of the rack ears.
•
Secure the unit in the rack via all applicable bracket holes using the appropriate rack nuts and screws.
Figure 5-46.Installing Chassis in Rack
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5.1.4.4
Installing all Modules
For modules with ejectors (i.e. RIM, RIX, OIM, OIX and HCM/ACM) – verify that the ejectors are completely open when inserting
in dedicated slot and then push in until the module clicks in to the backplane. Figure 5-47 shows example of module type captive
screws and ejectors.
Figure 5-47.Module Captive Screws and Ejectors
To install the IHU modules:
1.
Refer to Figure 5-48 for module locations. Remove blank panel and slide in the relevant module (chassis slots are 100%
mistake proof) according to Table 5-7:
•
(One or two) PSM – for single power supply installations, install the PSM in either (PSM) slot
•
(Two) RIX modules
•
(One to 12) RIM – no need to terminate unoccupied RIM slot.
Figure 5-48.IHU (Shown Without Cable Management Tray)
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Module
Quantity
Comment
HCM (for Standalone/Main IHU units)
In installations with more than one IHU, the HCM is installed in
one of the chassis which will be referred to as the “Main” HEU;
One HCM per system installation.
ACM (for Auxiliary IHU unit)
Installed in the IHU in configurations consisting of more than
one IHU chassis
PSM
1-2
For single power supply installations, install the PSM in either
(PSM) slot
RIX
OIX
RIM
1–8
• Up to four in dedicated slots and up to four* in combo slots
• No need to terminate unoccupied RIM slots – leave blank
panel
OIM
1–8
• Up to four in dedicated slots and up to four* in combo slots
• No need to terminate unoccupied OIM slots – leave blank
panel
• *the combo slots may contain any combination of OIMs and RIMs up to four modules in total
Table 5-7. Modules Required for IHU Installation
2. Referring to examples of modules shown in Figure 5-47 secure the modules to the backplane by:
•
Closing the ejectors (for relevant modules)
•
Tightening the captive screws
5.1.4.5
Grounding IHU Chassis
The grounding connection is performed via a two-hole, standard barrel grounding lug located on the IHU rear panel (see
Figure 5-7):
• For use with stranded copper wire conductors
• 10-14 AWG
• Holes - 1/4 inch
Figure 5-49. IHU Grounding Lug (IHU Chassis Rear)
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5.1.4.6
IHU Expansion Connections to IHU, HEU and OIU Units
Note the following:
A single IHU supports expansion connections as follows:
• To one additional IHU unit
• To one HEU and one OIU (see Figure 5-50)
For connections to additional IHU or HEU and OIU units:
Using the appropriate length ERFC cable (according to distance of available OIX/RIX port) connect remaining IHU RIX and OIX
module connectors as follows:
• Connections to additional IHU unit (see Figure 5-50):
•
IHU #1 RIX 9-Pin connector to the corresponding IHU #2 OIX module
•
IHU #1 OIX 9-Pin connector to the corresponding IHU #2 RIX module
Figure 5-50. RIX to OIX Connections between two IHUs
• Connections to additional HEU and OIU units (see Figure 5-51):
•
IHU RIX 9-Pin connector to the corresponding connector on the OIX module of the additional OIU.
•
IHU OIX 9-Pin connector to the corresponding connector on the RIX module of the additional HEU.
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Figure 5-51. RIX to OIX Connections between IHU, HEU and OIU
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5.1.4.7
RIM Connections to RF Source
To connect RIMs to RF source:
1. For each RIM - connect the RF coax cable to the RIM’s Simplex or Duplex QMA connectors. See HEU section 5.1.1.5
Figure 5-52. Example of RIM RF Source Simplex/Duplex Connections
2. Route the connected cables through the Cable Management Tray towards the right or left of the tray (depending on the
module location in the chassis).
3. Connect the RF coax cable from the RIM to the corresponding external RF source.
5.1.4.8
RIX 10 MHz Pilot Clock Connections
Note the following:
•
•
•
•
This section is only relevant for configurations with additional IHU or HEU and OIU units.
The REF IN and REF OUT pilot clock ports must be connected in a closed loop as shown in Figure 5-53.
Both RIX modules of each chassis must be connected.
The jumper cables are routed through the sides of the cable management tray and door.
To perform an RIX pilot clock connection
Referring to Figure 5-53 use the QMA/QMA jumper cable (PCKC47 provided with each RIX) to connect the REF OUT and REF
IN ports of each of the RIX modules in the HEU chassis.
Figure 5-53. Example of Pilot Clock Connections between Two IHU Units
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Fiber Connections
Using the provided Corning MTP-LC APC Harness Cable:
• Connect the cable MTP® connector to the OIM MTP connector
• Remove the protective plastic covers and connect the three LC APC connection fibers to the FMU (Fiber Management Unit)
Edge module LC APC connections. See Figure 5-54.
Figure 5-54. OIM Fiber Connections
5.1.4.9
Management Connections
Refer to HCM User Manual or Quick Installation Sheet (CMA-348-AEN) for instructions on how to correctly perform the
management connections between HCM and ACM modules.
5.1.4.10 Power Up
Note: Max power consumption for fully loaded chassis is 300 W.
The same PSM modules are installed in all of the headend units. Refer to section 0 for instructions on how to connect PSM-AC
and PSM-DC modules.
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5.1.4.11 Verify Normal operation
1. Verify that the Power Status LED on each PSM shows green. See Figure 5-16 (PSM-AC) and Figure 5-19 (PSM-DC).
2. Referring to Table 5-8 and Figure 5-55 - verify that the RIM (if RF source is operational), OIM and HCM/ACM LEDs indicate
normal operation.
Module
LED
Description
RIM
Protect
N/A
DL High
Off - DL RF input level in threshold range
Steady Red – DL RF input level is 3 dB above max expected power
DL Low
Off - DL RF input level in threshold range
Steady Red - DL RF input level is 15 dB below max expected power
RUN
Blinking Green - RIM module SW has initialized and is up and running
Off – Power off
OIM
PWR
Steady green - Input power is within required range
Link 1/2/3
Steady Green - Optical link power to/from the connected remote is normal
Blinking Green - Optical power from remote is lower than required
Run
Blinking Green - OIM module SW has initialized and is up and running
Off – Power off
HCM/ACM
PWR
Steady Green - Power input detected in OIM
PWR
Steady Green - Power input detected by HCM/ACM
RUN
Blinking Green - HCM module SW up and running
SYS
Steady Green - Overall status of the managed system is ok
FAN
Steady Green - Normal operation status for all fans
Table 5-8. RIM/OIM and HCM/ACM LED Descriptions
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Figure 5-55. RIM, OIM and HCM/ACM LEDs
5.2
RF Remote-End Installation
The remote end site (RF coverage) installation consists of installing the ICU and RAU module(s).
5.2.1
ICU Installation
Note the following:
• The ICU is a passive unit installed at the floor level and provides the power and fiber interfaces to the RAU units (and to the
GEU for the digital path).
• Connections between the ICU and the RAU units are performed via Corning composite cables (ordered separately)
consisting of:
•
2 DC wires
•
3 LC APC pairs
• Chassis and modules are supplied separately and must be inserted by the user
• All ICU modules (i.e. PS and Edge) are hot-swappable
• Each ICU chassis hosts up to four Power Supply modules and up to two Edge modules
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5.2.1.1
Items Required for ICU Installation
The following kits and included items are required for installing the ICU. If any of the listed items are missing, contact your
Corning representative.
ICU Chassis Kit
Quantity
ICU Chassis
IEC 60320-1 C13 right angled, AC power cable
110-240V AC, 50-60
Wall mount bracket
Power Supply Kit (1 to 4 according to order)
Power supply module
Edge Module Kit (1 to 2 according to order)
Edge Module
Quantity
Item
Item
Quantity
Item
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5.2.1.2
Installing Power Supply Module
Note: The power supply modules are hot-swappable and can be installed/extracted either before or after power-up.
1. With the lever up, slide the power supply module into any of 1-4 PS slots on the ICU chassis rear (Figure Figure 5-56).
Figure 5-56. Inserting Power Supply Module
2. Push in the module until the lever meets the chassis (Figure 5-57).
Figure 5-57. Securing PS Module in ICU Chassis
3. Secure by pulling the lever downward until it “clicks" and module is flush with chassis rear.
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5.2.1.3
Installing Edge Module
Note: The Edge module can be installed from either the front or the rear of the ICU chassis. This procedure illustrates a front
side installation.
1. Pull one of the Edge module trays all the way out – until it “clicks”.
2. Slide in the Edge module between the guides and fit the module guide into the tray “Push” button slot, as shown in
Figure 5-58.
Figure 5-58. Inserting Edge Module (Chassis Front)
3. Push the module gently in until it “clicks” and is “flush” with the ICU panel - leaving the tray in place. See Figure 5-59.
Figure 5-59. Edge Module Flush with Panel (Chassis Front)
4. Push the tray back in place.
5. Repeat Steps 1-4 for additional Edge module.
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5.2.1.4
Mounting ICU in 19-IN Rack
Note the following:
• Continue to next section if ICU is to be mounted on wall.
• If the ICU is rack mounted, the modules can be inserted either before or after the unit is mounted.
• Mount the ICU in the 19-in communication rack and secure using pre-assembled bracket.
Figure 5-60. ICU Rack Brackets
5.2.1.5
Mounting ICU on Wall
1. Remove the rack mounting brackets and set the screws aside.
2. Using the screws (previously set aside), assemble the wall mount brackets onto the sides of the ICU.
3. Using the wall mount bracket holes as a guide, mark the holes to be drilled on the wall.
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5.2.1.6
Connect MTP Fiber
Note: The fiber connection is performed between the Edge module MTP connector and the FMU (Fiber Management Unit)
using a trunk cable.
1. From the rear panel, pull the tray with the Edge module all the way out.
2. Gently extract the edge module by pressing on the safety latch and pulling slowly outwards. Refer to Figure 5-61.
3. Remove the MTP connector cover and connect the MTP fiber cable.
4. Push in the module tray.
Figure 5-61. Extracting Edge Module
5.2.1.7
Composite Cable Connections
Note: The composite cable connections are connected towards the RAU and/or GEU units.
1. Connect one side of the composite cable DC wiring to any of the ICU DC power connectors (1-8) on the front panel. See
Figure 5-62.
2. Extract the Edge module (see Steps 1-4 of 5.2.1.6), remove the tip covers from the composite cable fiber pairs and connect
to the Edge module LC/APC fiber connectors. See Figure 5-62.
3. Note the cable coding on the fibers.
4. Push Edge module and tray back in place.
5. Connect the DC wiring and fibers from the opposite end of the composite cable to the RAU/GEU units - described in
corresponding Quick Installation Sheet documents.
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Figure 5-62. ICU Fiber and DC Connectors
5.2.1.8
Power Up
1. Connect the ICU power connector (front panel) to the AC power outlet using the provided power cable.
2. Verify that the PS LED indicators (located between the corresponding DC connectors on the front panel) show green. Refer
to Figure 5-63.
Figure 5-63. AC Power Connection and LEDs
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5.2.2
RAU Installation
5.2.2.1
General Information
1. The RAU modules are deployed on the floor level and interface to the RF antennas.
2. The RAU can be provided in a number of configurations:
•
RAU alone (without RxU and GEM); weight = 7.93 lbs (3.6 kg)
•
RAU + RxU
•
RAU + GEM
•
RAU + RxU + GEM; weight = 12.12 lbs (5.5 kg)
Note: Existing RAU units can be upgraded with RxU (for MIMO support) and/or GEM modules (for Ethernet services) – see
Appendix A for instructions on how to upgrade the RAU with these modules.
3. The RAU supports various mounting installation options:
•
Wall-mount installations (vertical); required ambient temperature of 45◦C [113◦F]
•
Ceiling-mount installations (horizontal): required ambient temperature of 45◦C 50◦C [122◦F]
Note: If the RAU is installed below or mid-mount an acoustic ceiling, a support bar (T-Bar) is required (not included).
Acoustical ceiling grid work is not designed to support the weight of the enclosure.
4. The RAU unit is provided with a mounting bracket used for mounting on the wall or concrete ceilings (including above
acoustic ceiling mounts). Additional below/mid-mount acoustic ceiling mounting options are possible using a T-Bar mounting
bracket (not provided).
5. RAU optic fiber connections and DC power are provided via a Corning Composite cable (ordered separately).
6. External cavity filters (AK-CVT700; AK-CVT800) are required for installations in which RAU/RXU modules supporting the
corresponding CELL and LTE bands are deployed alongside units supporting the public safety service. See section 5.2.3 for
installation instructions.
5.2.2.2
Package Contents
Check your package contents to verify that the items in the packing list are included. If any of the listed items are missing,
contact your Corning representative.
Item
Quantity
Remote Access Unit (RAU):
RAU-R-G-C85P19L70A17-ME
RAU-R-C85P19L70A17-M
RAU-G-C85P19L70A17-E
RAU-C85P19L70A17
Mounting Bracket (factory assembled on RAU underside)
Image
Note: Mounting Bracket includes holes in various sizes and
locations for flexible installation options. Mounting screws
not provided.
Screw, SEM 8-32X3/8 , Pan Head, Philips - used for
grounding and to secure bracket to RAU
“Skirt” Frame Cover – used for acoustic ceiling cut-out
template and for aesthetic installation
Safety Cable – used to secure RAU to permanent structure
in acoustic ceiling installations; connected to RAU
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5.2.2.3
Routing Connection Cables
1. Locate the following connection cables:
•
•
•
DC wiring:
One pair for MAIN POWER connection
One pair for SECONDARY POWER connection (for RAU models including GEM module)
Fiber pairs:
One fiber pair for RAU module
One fiber pair for GEM module (for RAU models including GEM)
Grounding wire
2. Route the connection cables through center of the Mounting Bracket. See Figure 5-64.
Figure 5-64. Routing Connection Cables through Bracket
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5.2.2.4
Mounting RAU Installation Bracket (Wall/Concrete Ceiling)
Note: If using the RAU mid-mount bracket accessory kit – refer to section 5.2.2.6.
Note the following:
• When mounting the bracket, the Safety tab (circled in Figure 5-65 and Figure 5-66) should always be positioned to face the
same direction as the RAU connectors (up or down).
• When installing above acoustic ceiling, allow for at least 1 inch above the acoustic ceiling for air flow cooling. See
Figure 5-66.
Figure 5-65. Wall Mount Bracket Installation
1. Using the Mounting Bracket Installation Template (see Appendix B), mark and drill appropriate holes for mounting the
bracket. Any of the applicable screw holes can be used.
2. Remove mounting bracket from RAU underside and mount the bracket on the wall (Figure 5-65) or concrete ceiling
(Figure 5-66) using any of the applicable screw holes (screws not provided).
Figure 5-66. Above Acoustic Ceiling Installation
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5.2.2.5
Additional Bracket Installation Options
Note 1: A T-Bar Mounting Bracket can be used (not provided) to mount the RAU below or mid-mount an acoustic ceiling.
Note 2: A mid-mount installation option including a panel for replacing acoustic tile is available using the separately ordered
RAU mid-mount accessory kit (P/N: AK-RAU-BRCK-MM) – refer to section 5.2.2.6.
1. For mid-mount only - using the inner circumference of the RAU Skirt (provided) as a template, cut out an opening in the
acoustic ceiling tile for the RAU. See Figure 5-67.
Figure 5-67. Skirt for Mid-Mount Cut-Out
2. Install the T-Bar on the ceiling above the acoustic tiles (according to manufacturers’ instructions) and route the previously
located connections cables through the center of the RAU Mounting Bracket. See Figure 5-68.
Figure 5-68. Routed Cables and Mounting Bracket Installed on T-Bar (Below Ceiling)
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3. Install RAU bracket on the T-Bar, using any of the applicable bracket installation holes. See Figure 5-69.
Figure 5-69. Below Acoustic Ceiling Installation
Note the following:
•
Safety tab should face the direction of the RAU connectors
•
Below Ceiling – 1-in minimum between ceiling tile and RAU (shown in Figure 5-69)
•
Mid-Mount – 2.5 in (63.5 mm) between ceiling and lowest part of RAU (shown in Figure 5-70)
Figure 5-70. Mid-Mount Acoustic Ceiling Installation
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5.2.2.6
RAU Mid-Mount Installation Option
The RAU mid-mount bracket accessory kit (AK-RAU-BRCK-MM; ordered separately) provide an aesthetic solution for a
installing the RAU in mid-mount of an acoustic ceiling. The kit includes a tile like panel onto which the RAU is mounted and
which replaces a standard acoustic ceiling tile.
Figure 5-71. RAU Mid-Mount Complete Assembly – Top (Right) and Bottom (Left) View
RAU Mid-Mount Bracket Accessory kit Items
Item No.
Description
Quantity
Plate
Spacer
Assembled flat bar
Nylon four arm knob with threaded stud
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To install the mid-mount option:
1. Referring to Figure 5-72, assemble the RAU Frame Cover (provided with the RAU) onto the RAU.
Figure 5-72. Assembling RAU Frame Cover
2. Position the RAU on a flat surface with the mounting bracket facing upwards and lower the plate (Item 1) onto the RAU, as
shown in Figure 5-73.
Figure 5-73. Lowering Plate onto RAU
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3. Slide the Spacer (Item 2) in through the RAU mounting bracket and insert into bracket middle hole. Refer to Figure 5-74.
Figure 5-74. Inserting Spacer into RAU Mounting Bracket
4. Assemble Flat Bar (Item 3) and Knob (Item 4) as shown in Figure 5-75.
Figure 5-75. Assembling Flat Bar and Knob onto Plate
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5. Tighten knob to secure Flat bar in place. Refer to Figure 5-76.
Figure 5-76. Securing Plate to Flat Bar
6. Replace relevant acoustic tile with Mid-Mount assembly.
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5.2.2.7
Connections
1. Hold the RAU near the mounting bracket and routed cables.
2. Connect the earth ground to the RAU using one of the provided 8-32X3/8 screws. See grounding bolt location circled in
Figure 5-77.
Figure 5-77. Grounding Bolt Location
3. Pull the front panel and remove to access connectors. See Figure 5-78.
4. Route the cables over the top of the RAU and towards the front panel connectors, where the bracket will be located. (The
cables will be routed between the RAU and the bracket). See Figure 5-78.
Figure 5-78. Route Cables towards RAU Connectors
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5. Pull the front panel and remove to access connectors. See Figure 5-78.
6. Connect optic fiber pair to RAU module LC APC connector. See Figure 5-79.
7. RAU optional RF connections:
•
EXTERNAL ANT. – for RAU installations above acoustic ceiling requiring external antennas; QMA connector
•
RF FILTER – (QMA) External Filter connections (if required by site planner; refer to section 5.2.3).
Figure 5-79. RAU Front Panel Connections
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8. For RAU configurations with RxU module (see Figure 5-80) :
•
EXTERNAL ANT. – for installations above acoustic ceiling requiring external antennas; QMA connector
•
RF FILTER – (QMA) External Filter connections (if required by site planner; refer to section 5.2.3)
Figure 5-80. RxU module Interfaces
9. RAU MAIN POWER (for RAU/RAU+RxU) DC input power connections (see Figure 5-81) – connect DC wire pair to the
terminal block connector:
•
•
•
Power input range: 37 to 57 VDC
Wire size: 12-30 AWG
Max. consumption:
o RAU: 35 W
o RAU + RxU: 60 W
o RAU + GEM: 39 W
o RAU + RxU + GEM: 64 W
Figure 5-81. RAU MAIN POWER DC Input Connection
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10. For configurations with the GEM module only:
A. Connect DC wire pair to the RAU SECONDARY POWER DC input connector:
o Wire size: 12-30 AWG
o For 2 PoE ports of 802.3af: 43V; 30 W (Input range: 43 - 57 V DC)
o For 2 PoE ports of 802.3at: 52V; 62 W (Input range: 52 - 57 V DC)
Figure 5-82. RAU MAIN and SECONDARY POWER DC Input Connections
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B. Connect fiber to SFP module ports as follows (see Figure 5-83):
If using fiber terminated with LC APC (green) – connect to pre-inserted APC to UPC adapters
If using fiber terminated with LC UPC connector (blue) – remove pre-inserted APC to UPC adapters and connect
directly to SFP module ports
C. Connect the A and B Ethernet ports to the PoE clients using Ethernet cables.
Note: A and B Ethernet ports - 10/100/1000BASE-T with 802.3at compliant Power over Ethernet (PoE+) PSE port
Figure 5-83. GEM Module Interfaces (SFP Module Shown without Adapters)
D. Verify normal operation according to Figure 5-84 and Table 5-9.
Figure 5-84. GEM Status LEDs
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LED
State
(GEM) RUN/STATUS
Steady Green (with short blink every GEM On/Normal
~ 10 sec):
Steady Yellow:
GEM Fault
Steady Green:
Link
Ethernet LINK
Ethernet ACT
(SFP) LINK
PoE
Description
Off:
No link
Blinking Yellow:
Activity
Off:
No activity
Steady Green:
Link
Blinking Green:
Activity
Steady Yellow:
Fault
Off:
No link
Steady Green:
Steady Yellow:
Off:
PoE Enabled
PoE Fault
PoE Off
Table 5-9. GEM LED Status Descriptions
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5.2.2.8
Mounting RAU onto Mounting Bracket
1. For Mid-Mount acoustic ceiling installations (not including installations using the Corning dedicated RAU Mid-Mount
installation option) – attach the RAU Skirt (provided) to the enclosure to cover the rigid edges of the cut-out panel.
2. Referring to Figure 5-85 and Figure 5-86, insert the RAU pins (four) into the bracket key-holes and lock in.
Note: The safety screw tab (circled in Figure 5-86) should be in the same direction of the RAU connectors.
Figure 5-85. RAU and Bracket Assembly
Figure 5-86. Mounting RAU onto Mounting Bracket
3. Secure the bracket safety screw tab to the RAU using an 8-32X3/8, Pan Head, Philips screw (provided). See Figure 5-85.
4. Fit the front panel cover back on.
5. For Acoustic Ceiling Mounts - using the supplied security cable, attach the RAU to a permanent structure within the ceiling
(e.g. acoustic ceiling grid or concrete ceiling above).
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5.2.2.9
Verify RAU Modules Normal Operation
Referring to Table 5-10 and Figure 5-87, verify RAU normal operation via RAU LEDs (located on enclosure cover).
LED
Description
LINK
Steady Green:
Optical link power to/from the RAU is normal
Blinking Green:
Optical power from remote is lower than required
Off:
No optical link detected
Steady Green:
Input power detected by RAU
Off:
No power supplied to RAU
Blinking Green:
RAU boot up sequence complete and module
SW up and running
Off:
No power supplied to the unit
POWER
RUN
Table 5-10. RAU LED Description
Figure 5-87. RAU LEDs
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5.2.3
RAU5 Installation
5.2.3.1
General Information
1. The RAU5 must always be mounted parallel to the ceiling (horizontal) or wall (vertical) with a 1-in clearance from the surface
on the back and front to allow for proper cooling airflow and for heat dissipation.
2. Required ambient temperature:
•
Wall-mount installations (vertical): 45◦C [113◦F]
•
Ceiling-mount installations (horizontal): 50◦C [122◦F]
3. The RAU5 unit is provided with a mounting bracket used for mounting on the wall or concrete ceilings (including above
acoustic ceiling mounts). Additional mounting accessory kits are available (ordered separately):
•
BR-RAU5US-TOP: RAU5 bracket for floating ceilings tile, Mid-Mount installation
•
BR-RAU5US-Wall: RAU5 remote bracket for wall mount installation; Supports up to two RAU5 units back-to-back
4. RAU5 weight:
•
RAU5 Alone: 10 lbs (4.54 kg)
•
RAU5 + RxU + GEM: 14.39 lbs (6.5 kg)
5. A broadband antenna is required for RAU5 models ordered without a preassembled connected antenna (see Table 5-11 for
RAU5 models).
6. External cavity filters are required for installations in which RAU5/RXU modules supporting the corresponding CELL and
LTE bands are deployed alongside units supporting the public safety service. Installation instructions (Quick Start Guide) are
provided with each separately ordered filter (AK-CVT700; AK-CVT800).
5.2.3.2
Package Contents
Note: Check your package contents to verify that the items in the packing list are included. If any of the listed items are missing,
contact your Corning representative.
Item
Quantity
Remote Access Unit (RAU5):
• RAU5US
• RAU5US-A*
• RAU5US-E
• RAU5US-AE*
• RAU5US-ME
• RAU5US-AM*
• RAU5US-M
• RAU5US-AME*
*RAU5 model including assembled external broadband antenna
Mounting Bracket (preassembled on RAU5 underside)
Note: Mounting Bracket includes holes in various sizes and
locations for flexible installation options. Screws for mounting
on surfacMounting screws not provided.
Safety Cable – preconnected to the RAU5
Table 5-11 RAU5 Package Contents
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5.2.3.3
Locate Required Connection Cables
Locate the following connection cables leading from the cable infrastructure:
• DC wiring:
• One pair for MAIN POWER connection
• One pair for SECONDARY POWER connection (for RAU models including GEM module)
• Fiber pairs (Corning® SMF-28® fiber or compatible):
• One fiber pair for RAU module
• One fiber pair for GEM module (for RAU models including GEM)
• Grounding wire
For RAU5 models not including external antenna – RF jumper cables from installed external antenna
5.2.3.4
Bracket Installation and Mounting RAU5
Note the following:
• The installation procedure for the bracket provided with the RAU5 refers to wall and concrete ceiling installations. For
additional mounting options refer to Appendix D: RAU5 Mid-Mount Bracket Assembly.
• When mounting the bracket on a wall the captive screw (indicated in Figure 5-88) should always be positioned in the same
direction as the RAU5 connectors.
• In wallmount installations the connectors should face downwards.
• If installing above acoustic ceiling, allow for at least 1 inch above the acoustic ceiling for air flow cooling.
Figure 5-88.Example of (Concrete) Ceiling Installation of Mounting Bracket (RAU5 with External Antenna)
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To install the RAU5 Bracket
1. Refer to Appendix C: RAU5 Bracket Dimensions for mounting bracket dimensions.
2. Remove the mounting bracket from the RAU5 underside and use to mark and drill appropriate holes for mounting the
bracket on the wall or concrete ceiling. Refer to Appendix for bracket dimensions.
3. Any of the applicable screw holes can be used.
4. Drill the appropriate screws (not provided) through the bracket installation holes and secure to surface.
Note: The RAU5 connectors should face the bracket captive screw.
Figure 5-89. Example of Mounting Bracket Installation and Captive Screw Location (Bottom Right)
Referring to Figure 5-91, perform the following steps:
5.
6.
7.
8.
9.
Insert the four RAU5 pins into the wide ends of the bracket key-holes.
Make sure that the bracket captive screw fits into the designated half-slot on the RAU5.
Lock RAU5 pins into the narrow ends of the bracket keyholes.
Close captive screw to secure RAU5 and bracket assembly. See Figure 5-91.
Using the supplied security cable, attach the RAU5 to a permanent structure within the ceiling (e.g. acoustic ceiling grid or
concrete ceiling above).
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Figure 5-91. Closing Bracket Captive Screw
Figure 5-90. RAU5 pins and Bracket Key-holes
5.2.3.5
Cables Ground, F/O and RF connections
1. Route the cables located in Section 2.
2. Connect the earth ground to the RAU5 8-32 x 3/8 grounding screw. See Figure 5 for example of RAU5 ground connection.
3. Connect optic fiber pair to RAU5 module LC APC optic connector. See Figure 5-92.
Figure 5-92. GND, F/O and RF Cable Connections
4. If required by site planner – perform (QMA) connections to CELL and/or LTE external filters.
Note: Refer to Quick Installation Sheet (CMA-366-AEN) provided with 700/800 Cavity Filter or download from Corning
Resource Center (Product resources) site.
5. For RAU5 models not including external antennas – connect the RAU5 QMA ‘Ext. Ant.’ connector to the external antenna.
Note: Supported external antenna types: vertical, directional or omni-directional antennas. RAU models with RxU module also
require connecting the RxU to external antenna.
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5.2.3.6
Main Power Connections
RAU5 MAIN POWER (for RAU5/RAU5+RxU) DC input power connections (see Figure 5-93) – connect DC wire pair to the
terminal block connector:
• Power input range: 37 to 57 VDC
• Wire size: 12-30 AWG
• Max. consumption:
• RAU5: 44.5 V; 48 W
• RAU5 + RxU: 44.5 V; 73 W
Figure 5-93 RAU5 Main Power DC Connections
5.2.3.7
GEM Connections (for Configurations including GEM Modules)
1. Connect DC wire pair to the RAU5 Secondary Power DC input connector (see Figure 5-94):
• Wire size: 12-30 AWG
• Max. Consumption:
•
RAU5 + GEM: 44.5 V ; 52W
•
RAU5 + RxU + GEM: 44.5 V ; 77W
•
For 2 PoE ports of 802.3af: 43V ; 30 W (Input range: 43 – 57 V DC)
•
For 2 PoE ports of 802.3af: 52V ; 62 W (Input range: 52 – 57 V DC)
Figure 5-94. RAU5 MAIN and SECONDARY DC Input Connections
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2. Connect fiber to SFP module ports as follows:
•
If using fiber terminated with LC APC (green), connect to pre-inserted APC to UPC adapters
•
If using fiber terminated with LC UPC connector (blue), remove pre-inserted APC to UPC adapters and connect directly
to SFP module ports.
3. Connect the A and B Ethernet ports to the PoE clients using Ethernet cables.
Note: A and B ports – 10/100/1000 BASE-T with 802.3at compliant Power over Ethernet (PoE+) PSE ports.
Figure 5-95. GEM Module Interfaces Connections
5.2.3.8
Verify Normal Operation
Referring to Figure 5-96 and Table 5-12 verify normal operation of RAU5, RxU and GEM (if installed) modules.
Figure 5-96. RAU5, RxU and GEM LEDs
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Module
LED
Description
RAU5
LINK
Steady Green:
Optical link power to/from the RAU5 is normal
Blinking Green:
Optical power from remote is lower than required
Off:
No optical link detected
Steady Green:
Input power detected by RAU5
Off:
No power supplied to RAU5
Blinking Green:
RAU5 boot up sequence complete and module SW up and
running
Off:
No power supplied to the unit
Blinking Green:
RxU boot up sequence complete and module SW up and
running
Off:
No power supplied to the unit
Steady Green (with short
blink every ~ 10 sec):
GEM On/Normal
Steady Yellow:
GEM Fault
ETHERNET
LINK
Steady Green:
Link
Off:
No link
ETHERNET
ACT
Blinking Yellow:
Activity
Off:
No activity
(SFP) LINK
Steady Green:
Link
Blinking Green:
Activity
Steady Yellow:
Fault
Off:
No link
Steady Green:
PoE enabled
Steady Yellow:
PoE fault
Off:
PoE off
POWER
RUN
RxU
GEM
RUN
(GEM)
RUN/STATUS
(PortA/B) PoE
Table 5-12. Normal Operation LED Status Descriptions
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5.2.4
RAU/RAU5/RxU Cavity Filter Installation
The external cavity filters are required when the RF services modules supporting the corresponding CELL and LTE bands are
deployed alongside units supporting the public safety service.
• The RAU/RAU5 supports connections to External CELL and LTE Filters
• The RxU supports connections to an External LTE Filter.
• In cases where an LTE External Filter is required and the RAU/RAU5 includes the RxU module – both modules must be
connected to an external LTE filter.
Note the following:
• The Cavity Filter mounting bracket supports wall/ceiling/acoustic ceiling installations. See Figure 5-97.
Figure 5-97.Cavity Filter Dimensions and Mounting Holes
• Consider the length of the RF jumpers (3m) and the distance from the RAU when determining the installation location.
• For acoustic ceiling installations – use provided safety cable to secure the filter assembly to a permanent structure within the
ceiling (e.g. acoustic ceiling grid or concrete ceiling above).
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5.2.4.1
Package Contents
Check your package contents to verify that the items in the packing list are included. If any of the listed items are missing,
contact your Corning representative.
Item
Description
Quantity
Cavity Filter (depends on
order)
CVT800 - 836.5MHz; 0.5W; 824-849MHz;
IL=1.6 dB max.; SMA
CVT700 – LTE; 0.5W; 698-716MHz;
777-787MHz; IL=1.5 dB; SMA
Mounting Bracket
Provides wall mount and ceiling mount
installation options (pre-assembled with filter)
Safety Cable
Required for acoustic ceiling installations
RF Jumpers
SMA to QMA RF jumpers; L=3m; Used for
RAU/RxU filter connections
5.2.4.2
(Concrete) Ceiling Mounting Option
To mount Cavity Filter on Concrete Ceiling
1. Using the two holes (Item B in Figure 5-97) as a guide, mark the location of the holes to be drilled in the ceiling.
2. Drill the holes in ceiling corresponding to the diameter of the toggle anchors to be used (not provided).
3. Mount the Cavity Filter as shown in Figure 5-98.
Figure 5-98. Illustration of Cavity Filter Mounted on Ceiling
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5.2.4.3
Acoustic Ceiling Mount Installation
In acoustic ceiling mount installations, the Cavity Filter can be fastened to the grid by slipping tie wraps through slits on the
bracket (Item C in Figure 5-97) and securing the assembly to the grid with the provided safety cable. Refer to Figure 5-99.
Figure 5-99. Illustration of Cavity Filter Mounted on Acoustic Ceiling Grid
5.2.4.4
Wall Mount Installation
To mount Cavity Filter on Wall
1. Using the four key holes (Item A in Figure 5-97) as a guide, mark the location of the holes to be drilled in the wall.
2. Drill the holes in the wall corresponding to the diameter of the anchors to be used (not provided).
Figure 5-100. Marking and Inserting Anchors in Wall
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3. Hang the Cavity Filter on the anchors/screws and pull down to lock in narrow end of key hole. Refer to Figure 5-101.
Figure 5-101. Mounting Cavity Filter on Wall
5.2.4.5
Filter Connections
Using the provided SMA to QMA RF jumpers, connect the Cavity Filter IN and OUT QMA ports to the corresponding filter
(CELL/LTE) SMA connectors on the RF module.
Note: In installations where additional units are deployed which support the 700MHz band and the RAU/RAU5 is installed with
an RxU – both RAU/RAU5 and RxU modules must be connected to an external LTE filter. See Figure 5-102 and
Figure 5-103.
Figure 5-102. Example of RAU and External CELL Filter Connections
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Figure 5-103. Example of External LTE Filter Connections to RAU and RxU
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6
Installation – Digital Coverage Elements
This chapter describes the installation procedures for each of the Digital Coverage components. It contains only brief
descriptions of the approach of each installation procedure. For specific guidelines on infrastructure planning, design and
installation, please consult with a Corning Product Line Manager or Corning approved Installer. All these elements are installed
at the remote end.
6.1
CEU Installation
General Information
• The CEU interfaces to the main Ethernet switch and to the remote Gigabit Ethernet Modules (GEM).
• The CEU is rack mounted or wall mounted at the IDF (Intermediate Distribution Frame).
• The CEU can host up to three Centralized Ethernet Modules (CEMs), which are not included in the CEU package (ordered
separately).
• The CEM Tx/Rx Ethernet fiber ports, used for interfacing to the GEM modules, require SFP modules (included) and LC-UPC
to LC APC adapter if using LC/APC fiber.
6.1.1
Items Required for CEU Installation
The following items are required for installing the ONE™ CEU. If any of the listed items are missing, contact your Corning
representative.
CEU KIT
Quantity
Central Ethernet Unit (CEU) with power supply
Standard IEC right angle 110-240VAC, 50-60 Hz cable
Wall mount brackets
CEM KIT
Quantity
Central Ethernet Module (CEM)
SFP modules (pre-inserted in Tx/Rx ports)
ATT. LC/HAP 0dB – used for APC cable
Table 6-1. Items Required for CEU Installation
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6.1.2
Installing CEM Module(s)
4. Remove the blank panel.
5. Slide in the CEM and hand tighten the captive screws. Refer to Figure 7-1.
Figure 6-1. Inserting CEM Module(s)
6.1.3
Mounting CEU in 19-IN Rack
Note: Continue to next section if CEU is to be mounted on wall.
Mount the CEU (1U) in the 19-in communication rack and secure using pre-assembled brackets.
6.1.4
Mounting CEU on Wall
6. Remove the rack mounting brackets and set aside screws.
7. Assemble wall mount brackets on to the sides of the CEU using the screws.
8. Using the bracket holes as a guide, mark the holes to be drilled on the wall and mount with appropriate screws.
6.1.5
Connecting CEM to Main LAN
Connect any of the CEM RJ45 (1-4) Ethernet ports to the Main LAN Ethernet switch. See Figure 7-2.
Figure 6-2. CEM LAN and Fiber Connection Ports
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6.1.6
Connecting Fiber
1. Verify the fiber type:
•
If LC/APC (Green), use an LC-APC to UPC adapter
•
If LC/UPC (Blue), no adapter is needed
2. Connect the corresponding SFP module connectors (i.e. Tx/Rx port 1 corresponds to fiber port 1) to the GEM LC/APC fiber
connector. See Figure 7-3.
Figure 6-3. CEM to GEM Fiber Connections
6.1.7
Power Up
1. Make sure the power switch is off.
2. Connect supplied 110-240 VAC power cable to the power connector located at the rear of the unit. See Figure 7-4.
3. Switch power on.
Figure 6-4. CEM Power Connector
6.1.8
Verifying Normal Operation Status
Referring to the CEM LED description in section 3.2.1, verify F/O, ETH and PWR LED status on CEM module.
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6.2
GEU-S Installation
This section describes the installation procedure for the GEU-S installed at the remote site.
Note the following:
• The GEU-S unit must always be mounted parallel to the ceiling or wall with a 1-in (minimum) clearance from the surface on
the back and front to allow for proper airflow cooling and heat dissipation.
• The GEU- is provided with a mounting bracket used for mounting on the wall or concrete ceilings (including above acoustic
ceiling mounts). Additional below/mid-mount acoustic ceiling mounting options are possible using a T-Bar mounting bracket
(not provided).
• GEU-S weight: 2.64 lbs (1.2 kg)
6.2.1
Package Contents
Check your package contents to verify that the items in the packing list are included. If any of the listed items are missing,
contact your Corning representative.
Description
Quantity
Standalone Gigabit Ethernet Unit (GEU-S)
Mounting Bracket with CADDY® “Twist On” Fixture Support
SFP – Fiber UPC Module (pre-inserted)
UPC to APC Adapter
Screw, SEM 8-32X3/8 , Pan Head, Philips - used to secure bracket to
GEU-S
Table 6-2.GEU-S Package Contents
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6.2.2
Routing Connection Cables
1. Locate DC, fiber, Ethernet and grounding wiring connections.
2. Route the connection cables through the center of the Mounting Bracket. See Figure 7-5.
Figure 6-5: Mounting Bracket on Wall
6.2.3
Installing the Mounting Bracket
Note the following:
• For wall mount installations - GEU-S must be installed parallel to the wall with the connectors facing downwards. See
Figure 7-7
• For above acoustic ceiling installations:
• Allow for at least 1 inch above the acoustic ceiling for air flow cooling.
• Safety screw tab (shown in Figure 7-8) should be positioned to face the same direction as the GEU-S connectors.
• Refer to Figure 7-6 for bracket dimensions.
Figure 6-6: Mounting Bracket Dimensions
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To install the mounting bracket
Mount the bracket on the wall (Figure 7-7) or concrete ceiling (Figure 7-8) using any of the screw hole sets and the appropriate
screws (not provided).
Figure 6-7: Mounting Bracket on Wall (Routed Cables Not Shown)
Figure 6-8: Bracket Installation and Routed Cables
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6.2.4
Additional Bracket Installation Options
Note: A T-Bar Mounting Bracket can be used (not provided) to mount the GEU-S below an acoustic ceiling.
1. Referring to Figure 7-9, install the T-Bar on the ceiling above the acoustic tiles (according to manufacturers’ instructions).
2. Make sure to allow for a minimum of 1-in between ceiling tile and GEU-S.
Figure 6-9: Below Ceiling Installation
3. Route the connections cables through the center of the GEU-S Mounting Bracket.
Note: The safety screw tab (circled in Figure 7-10) should face the same direction as the GEU-S connectors.
Figure 6-10: Routing Cables and Mounting GEU-S on Bracket
4. Install GEU-S bracket on the T-Bar, using any of the appropriate bracket installation holes.
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6.2.5
Assembling the GEU-S onto the Bracket
Note: The safety screw tab (circled in Figure 7-11) should be in the same direction of the connectors.
1.
2.
3.
4.
Hold the GEU-S near the mounting bracket and routed cables.
Route the cables towards the front panel connectors, where the bracket will be located as shown in Figure 7-11.
Insert the four GEU-S pins into the wide end of the bracket holes and then pull towards the narrow end to lock in.
Using the provided screw (SEM 8-32X3/8), secure the bracket to the GEU-S via the safety screw tab.
Figure 6-11: Locking GEU-S
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6.2.6
Connecting Cables
Referring to Figure 7-12, connect as follows:
1. Pull out front panel cover to access connectors. See Figure 7-11.
2. Connect the optic fiber to the SFP module:
•
Fiber terminated with LC UPC connector (blue) – connect directly to SFP module
•
Fiber terminated with LC APC (green) – connect using the provided APC to UPC adapters
3. Connect the RJ45 PoE output ports to (2) PoE clients using Ethernet cables.
4. Reach under bracket, and connect the earth ground to the GEU-S grounding bolt (32 x 3/8 screw).
5. Connect DC wire pairs (46 – 57 VDC).
Figure 6-12: GEU-S Connection Ports (Bracket Not Shown)
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6.2.7
Verify Normal Operation
Verify GEU-S normal operation via the GEM and GEU module LEDs. Figure 7-13 and Error! Reference source not found.
provide a description of the GEU LEDs. For complete description of GEM and GEU-S LEDs, refer to section 3.3 (GEM) and 3.4
(GEU-S).
Figure 6-13: GEU-S LEDs
6.2.8
Replace Front Panel Cover
Refer to Figure 7-14.
Figure 6-14: Replacing Front Panel
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7
Appendix A: RAU Upgrades
7.1
Upgrading RAU with an RxU
This section describes how to upgrade an RAU with an RxU, providing MIMO support for the LTE700 and AWS bands..
7.1.1
General Information
• The RxU expands the RAU band support to additional two MIMO bands.
• The RxU can either be pre-installed in the RAU module (according to order) or easily added at a later stage when required.
• The installation of the RxU module is hot-swappable and does not require disconnecting cables or power.
7.1.2
Package Contents
The package content includes one RxU module. Check the item for external damage.
Item
Remote Expansion Unit (RxU)
Quantity
Image
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7.1.3
Installing the RxU Module in the RAU
Note: There is no need to disconnect the cables leading from the ceiling.
To install RxU module in RAU enclosure:
1.
Referring to Figure 8-1, remove RAU enclosure cover:
A. Remove the Safety Tab Screw, securing the bracket to the RAU (located above MGMT port).
B. Slide the RAU back into wide end of bracket screw holes, so that it “clicks” and remove unit.
C. Unscrew the five screws securing the RAU enclosure cover and remove cover.
D. Remove front flap in direction of arrows.
Figure 7-1. Removing RAU Enclosure Cover
2.
Assemble the RxU in the RAU enclosure:
A. Plug the RxU in to the right side of the RAU as indicated in Figure 8-2.
B. RxU and RAU interface ports should face the same direction.
C. Replace the cover except for the front access panel.
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Figure 7-2. RxU Module Assembly
3.
If required by site planner - connect the filter to the RF filter connectors on the RxU. Refer to Figure 8-3 for location of RxU
filter connections.
Note: Refer to section 5.2.3 for Cavity Filter installation and connections.
Figure 7-3. Assembled RxU Interfaces
4.
Verify that RAU LEDs on, on front cover (see Figure 8-4) indicate normal operation status:
LED
Description
LINK
Steady Green - Optical link power to/from the RAU is normal
Blinking Green - Optical power from remote is lower than required
Off – No optical link detected
POWER
Steady Green - Input power within required range detected
Off – No power supplied to RAU
RUN
Blinking Green – RAU boot up sequence complete and module SW up and running
Off – No power supplied to unit
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Figure 7-4. RAU Enclosure LEDS
5.
Assemble RAU front access panel and remount.
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7.2
Upgrading RAU GEM Installation (Upgrade)
The GEM module provides Ethernet Data coverage distributed through 3rd party equipment - supports PoE connection for up to
two Access Points (APs).
This section describes how to upgrade an RAU with a GEM module enabling the distribution of RF and Ethernet data coverage
from a single unit.
Note: If digital coverage is required during Greenfield deployment then the GEM is pre-installed in the RAU.
7.2.1
Package Contents
Check your package contents to verify that the items in the packing list are included. If any of the listed items are missing,
contact your Corning representative.
Description
Quantity
Gigabit Ethernet Module (GEM)
SFP – Fiber UPC Module (pre-inserted)
UPC to APC Adapter
Table 7-1.GEM Package Contents
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7.2.2
Installing the GEM module in the RAU
1. Remove RAU front panel and then cover by removing the five screws indicated in Figure 7-5
2. Plug GEM into the left side of the RAU, as shown in Figure 7-6 and secure the four GEM screws.
3. Replace the cover except for the front panel so that the interface ports are accessible, as shown in Figure 7-7.
Figure 7-5. Removing RAU Enclosure Cover
Figure 7-6. GEM Module Assembly
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Figure 7-7. RAU and GEM with Assembled Cover
Refer to section 5.2.2.7 (Step 10) for GEM connections.
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8
Appendix B: RAU Mounting Bracket Installation
Template Sheet (Scale 1:1)
Figure 8-1. RAU Mounting Bracket Template
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Figure 8-2 RAU5 Mounting Bracket Dimensions
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9
Appendix C: RAU5 Bracket Dimensions
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10
Appendix D: RAU5 Mid-Mount Bracket Assembly
10.1
General Information
1. This Quick Installation Sheet provides instructions on how to assemble the RAU5 (ordered separately) onto the mid-mount
bracket and install the assembly in an acoustic ceiling.
2. The RAU5 mid-mount bracket assembly is designed to replace a standard acoustic ceiling tile.
3. The mid-mount bracket assembly accessory kit is only used with the following RAU5 models including the plug-in
external antenna:
•
•
•
•
RAU5US-A
RAU5US-AE
RAU5US-AM
RAU5US-AME
4. It is recommended to perform the RAU5 connections after the unit is secured to the ‘Dumper’ (section 5).
10.2
Package Contents
The RAU5-BRCK-MM accessory kit consists of an assembled plate (corresponding to a standard acoustic ceiling tile) and
Dumper.
Figure 10-1 Acoustic Ceiling Tile and Dumper Arm
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10.3
Installing Mid-Mount Bracket and Mounting RAU5
10.3.1 Preparing RAU5 for Mounting
5. Open the captive screw of the preassembled bracket securing the RAU5 to the mounting bracket.
6. Hold the RAU5 firmly with one hand and the bracket with the other and push the four RAU5 unit pins into the wide ends
of the bracket keyholes.
7. Remove bracket.
Figure 10-2 Removing Bracket and Antenna Skirt
10.3.2 Installing Bracket Plate
1. Place the Bracket Plate in the acoustic ceiling.
2. Secure the plate to the grid via the eight slots (see Figure 11-3)
Figure 10-3 Securing Bracket Plate
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3. Pull down the Dumper to a vertical position.
Figure 10-4. Lowered Dumper Arm
10.3.3 Mounting RAU5
1. Fit the four Pins on the RAU5 Underside into Wide End of Corresponding Dumper Keyholes and Pull down into Narrow Ends
to Secure.
Note: Dumper captive screw must face the RAU5 connectors
Figure 10-5.Fitting RAU5 onto Dumper Bracket
2. Close Dumper Captive Screw to Secure RAU5 in Place.
Note: it is recommended to perform the RAU5 connections after the unit is secured to the Dumper.
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11
Appendix E: Specifications
Supported Services
Frequency Range (MHz)
Technology
Service/Band
LTE
Uplink (UL)
700 MHz
Downlink (DL)
698-716
728-746
777-787
746-756
CDMA/WCDMA**/ TDMA/GSM/LTE*
ESMR800
817-824
862-869/
CDMA/WCDMA**/ TDMA/GSM/LTE*
CELL 850
824-849
869-894
CDMA/WCDMA**/TDMA/GSM/LTE*
PCS 1900
1850-1915
1930-1995
WCDMA**/LTE*
AWS 2100
1710-1755
2110-2155
*WCDMA service is based on 3GPP standards, LTE service may deployed in the future due to frequencies re-farming planned by the Carriers as well
**WCDMA service is based on 3GPP2 CDMA2000 standards.
RF Parameters per Service (RAU)
LTE
700 MHz
Service/Band
RF Parameter
Frequency Range
(MHz)
Max Output Power Per
Antenna Port (dBm)
Max Input Power (dBm)
DL
PCS
1900 MHz
CELL850 MHz
UL
728-746
698-716
746-756
777-787
AWS
2100 MHz
DL
UL
DL
UL
DL
UL
869-894
824-849
1930-1995
1850-1915
2110-2155
1710-1755
15
15
17
18
0 to 37
0 to 37
0 to 37
0 to 37
-19 to 15
-19 to 15
-19 to 15
-19 to 15
Input IP3 (dBm) AGC
OFF Min
-7
-7
-7
-7
Input IP3 (dBm) AGC
ON Min
SFDR** (dB)
59
63
63
59
Mean Gain (dB)
Max Intermod
Distortion (dBm)
-13
-13
12
UL NF*(dB)
Gain Flatness/Ripple
(dB)
-13
±2.0
-13
12
±2.0
12
±2.0
12
±2.0
*Typical for single remote antenna
** SFDR calculated with BW of 1.23MHz for the CELL and PCS and with 5MHz for the LTE and AWS
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RF Parameters per Service (RAU5)
LTE
700 MHz
Service/Band
RF Parameter
Frequency Range
(MHz)
Max Output Power Per
Antenna Port (dBm)
Max Input Power
(dBm)
Typical Antenna Gain
(dBi)
Horizontal Polarization
DL
ESMR800/
CELL850 MHz
UL
DL
UL
728-746
698-716
862-869
817-824
746-756
777-787
869-894
824-849
PCS
1900 MHz
AWS
2100 MHz
DL
UL
DL
UL
1930-1995
1850-1915
2110-2155
1710-1755
15
15
20
18
0 to 37
0 to 37
0 to 37
0 to 37
-2 to 0
-2 to 0
-1 to 1
-1 to 1
Omni @ 34-45 Degree
-19 to 15
-19 to 15
-19 to 15
-19 to 15
Input IP3 (dBm) AGC
OFF Min
-5
-5
-5
-5
Input IP3 (dBm) AGC
ON Min
SFDR** (dB)
60
64
64
60
Mean Gain (dB)
Max Intermod
Distortion (dBm)
-13
-13
12
UL NF*(dB)
Gain Flatness/Ripple
(dB)
-13
±2.0
-13
12
±2.0
12
±2.0
12
±2.0
*Typical for single remote antenna
** SFDR calculated with BW of 1.23MHz for the CELL and PCS and with 5MHz for the LTE and AWS
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Environmental, Standards and Optical
Environmental
Operating Temperature
0°C to +50°C (32°F to 122°F)
Storage Temperature
-20°C to 85°C (-4°F to 185°F)
Standards and Approvals
Laser Safety
FDA/CE 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice no.
50 and IEC 60825-1
EMC
CE EN 301 489, EN55022, EN 61000
FCC 47 CFR Part 15, 22, 24, 27
Safety
UL 60950
IEC 60825-1:2007
IEC 60825-2:2010
CAN/CSA-C22.2 No.60950-1-03
Fire Safety UL 2043 (applicable for Access Unit only)
Optical
Optical Output Power
< 9 dBo
Max. Optical Budget
5 dB
Back Reflectance
- 60 dB
Optical Connector
OIM: Female MTP® connector;
RAU: Single Mode; LC APC Duplex
Fiber Type
Corning® SMF-28® fiber or compatible
Wavelength
1310 ± 10 nm (@ 25◦ C)
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RF Path: Coverage Component Specifications
Headend Unit (HEU)
HEU will host the following modules:
3. RIM - Radio Interface Module; RF source conditioner.
4. Up to 12 RIMs can be hosted by the HEU.
5. RIX - Radio Interface Expander; HEU to OIU interface module
Note: For configurations with one RIX an ETM is required for terminating the
unused Expander slot.
6. HCM - Headend Control Module; overall system management module
7. ACM – Auxiliary Control Module; provides interfaces for management of
domestic modules via HCM; installed in HEUs’ in configurations with more
than one HEU
8. PSM - Power Supply Module; AC or DC Power Supply
9. ERFC - RF interface cable, 9-PIN (various cable lengths available)
RIM
RIX
Interfaces:
Three QMA RF ports; UL, DL and
Duplex
No. of supported
bands:
Single band
Interfaces:
Two 9-pin connectors (one per OIX)
ERFC
Two QMA ports for reference clock
connections between RIX modules
No. of supported OIU
interfaces:
Two OIUs
ETM
ETM (Expander Termination Module) - used for terminating
unused Expander slot
HCM
Interfaces:
To four ACM RJ-45 INTERNAL ports
Remote Management:
One RJ-45 LAN port
Local Management:
One RJ-45 LOCAL port
Local Configuration:
One CONSOLE port
System LEDs:
PWR, RUN, SYS, FAN
Interfaces:
Four RJ-45 INTERNAL ports
One RJ-45 CONSOLE port
System LEDs – PWR, RUN, SYS, FAN
ACM
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Headend Unit (HEU) (continued)
PSM-AC
PSM-DC
Power Input:
100-220 V AC
Power Rating:
300 W
HEU Power
Consumption
(Full Chassis):
ON/Off Switch
200 W
Optional:
Additional PSM-AC for redundancy
Power Input:
48 V DC; 9 A Max.
Power Rating:
300 W
HEU Power
Consumption
200 W
(Full Chassis):
Physical
Characteristics
(Chassis +
Modules)
Connector:
Six pin terminal block connector
Optional:
Additional PSM for redundancy
Mounting:
Rack-mount – 19 in and 4U
Dimensions
7 x 17.3 x 18.95 in (177.8 x 440 x 481.7 mm)
(H x W x D):
Weight:
Chassis: 37 lbs (16.8 kg)
Per RIM: 1.9 lbs (0.9 kg)
Per RIX: 1.54 lbs (0.7 kg)
HCM: 2.2 lbs (1.0 kg)
PSM: 1.98 lbs (0.9 kg)
Optical Interface Unit (OIU)
OIU will host the following modules:
10. OIM - Optical Interface Modules; converts the RF to three optical links
11. OIX - Optical Interface Expander; OIU to HEU interface module
Note: For configurations with one OIX an ETM is required for terminating the
unused Expander slot.
12. ACM - Auxiliary Control Module; manages unit domestic modules, "Slave"
controller to the HCM
13. PSM - Power Supply Module; AC or DC power supply
OIM
Interfaces:
Optical Interface: One Female MTP® Connector
Six Kenpole connector for 1:1 direct signal
transportation, three UL and three for DL
OIX
RF interfaces:
Two 9-pin connectors
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Optical Interface Unit (OIU) (continued)
ETM
(See ETM in HEU section for description)
ACM
(See ACM in HEU section for interfaces)
PSM-AC
(See PSM-AC in HEU section for interfaces)
Power Consumption (Full Chassis): 300 W
PSM-DC
(See PSM-DC in HEU section for interfaces)
Power Consumption (Full Chassis): 300 W
Physical
Characteristics
(Chassis +
Modules)
Mounting:
Rack-mount – 19 in and 4U
Dimensions
Chassis:
7 x 17.3 x 18.95 in
( H x W x D):
Weight:
(177.8 x 440 x 481.7 mm)
Cable Management
Tray:
6.96 x 20.02 x 4.35 in
Chassis :
37 lbs (16.8 kg)
Per OIM:
1.5 lbs (0.7 kg)
Per OIX:
1.54 lbs (0.7 kg)
ACM:
2.2 lbs (1.0 kg)
PSM:
1.98 lbs (0.9 kg)
(176.9 x 508.6 x 110.6 mm)
Integrated Headend Unit (IHU)
IHU will host the following modules:
1. RIX - Radio Interface Expander; RF interface to OIX module
2. RIM - Radio Interface Module; RF source conditioner.
Up to eight (four in RIM slots [2-5] and four in combo slots [6-9]) RIMs can be
hosted by the IHU
3. OIM- Optical Interface Modules; converts the RF to three optical link
Up to eight (four in OIM slots [10-13] and four in combo slots [6-9])
4. OIX- Optical Interface Expander; OIU to IHU interface Module.
5. HCM- Headend Control Module; overall system management module
6. ACM – Auxiliary Control Module; provides interfaces for management of IHU
modules via HCM; installed in IHUs’ in configurations with more than one
headend unit (i.e. HEU/IHU)
7. PSM- Power Supply Module; AC or DC power supply
14. ERFC – RF interface cable, 9-PIN; L= 34 in (*routed in provided Cable
Management Tray)
RIM
(See RIM in HEU section for description and interfaces)
RIX
(See RIX in HEU section for description and interfaces)
OIM
(See OIM in HEU section for description and interfaces)
OIX
(See OIX in HEU section for description and interfaces)
HCM
(See HCM in HEU section for description and interfaces)
ACM
(See ACM in HEU section for description and interfaces)
Cable Management tray with Routed
ERFC Cable*
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PSM-AC
(See PSM-AC in HEU section for description and interfaces)
IHU Max Power Consumption (Full Chassis): 300 W
PSM-DC
(See PSM-DC in HEU section for description and interfaces)
IHU Max Power Consumption (Full Chassis): 300 W
Physical
Characteristics
(Chassis and
Modules)
Mounting:
Rack-mount – 19 in , 4U
Dimensions (H x W X D): Chassis:
Weight:
Chassis:
Per RIM:
Per OIM:
RIX:
OIX:
ACM:
PSM:
7 x 17.3 x 15.5 in
(177.8 x 440 x 394 mm)
30 lbs (14 kg)
1.9 lbs (0.9 kg)
1.5 lbs (0.7kg)
1.54 lbs (0.7 kg
1.54 lbs (0.7 kg)
2.2 lbs (1.0 kg)
1.98 lbs (0.9 kg)
Interconnect Unit (ICU)
ICU will host the following modules:
15. PSM-I; Power Supply Module, up to four PSM-I modules can be installed.
16. Pretium EDGE® Module – MTP® to LC APC splice module/cassette/field-term cassette. Up to two EDGE® Modules
can be installed.
Chassis Interfaces
Power Input: 110-240 V AC, 50-60 Hz power
Output: Eight DC ports- 57 V DC, Max. 60V (UL limit)
Pretium Edge® Module
Interfaces
Pretium EDGE® Module, 12 F, LC APC to MTP®
APC Connector, Single-mode (OS2)
Pretium Edge® Splice
Cassette Interfaces
12 F, LC duplex, Single-mode APC, single-fiber
Pretium Edge® Field-Term 12 F, LC duplex, Single-mode APC, No Pigtail
Cassette Interfaces
Power Consumption
ICU with four PSM-I: 942 W
Physical Characteristics
Mounting:
Rack-mount – 19 in 1U
(Chassis)
Dimensions
1.74 x 17 x 19.2 in
(H x W x D):
(44.4 x 431.8 x 11.96 mm)
Weight:
5.5 lbs (2.5 kg) – without PSM
CMA -3 31-AE N P a ge 17 4
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Remote Access Unit (RAU)
RAU will host the following modules:
17. RxU; Remote Expansion Module, for additional LTE and AWS MIMO service. One module per RAU.
18. GEM; Giga bit Ethernet Module – upgrade module for the RAU. One module per RAU
Supported Services
SISO: CELL, PCS, AWS, 700LTE
MIMO: AWS/ 700LTE
(with Expansion Module - RxU)
Interface Connections
Two LC APC SM fiber connectors; UL and DL
Two DC power Inputs ports; Main and secondary in case
of PoE clients.
Two QMA RF Ports; for External cavity filter (In/Out) use
- LTE and CELL filters
One Broadband External antenna QMA connector
(connected antenna must have a return loss of 12 dB)
One RJ-45 MGMT (local) connection
RxU module interface – power, digital and RF
GEM module Interface – power and digital
Antenna
Omni Directional; 0 dBi (15◦ down from horizon)
Power Consumption
For Main Power Input:
Input Range: 37-57 V DC
RAU: 37 V; 35 W
RAU + RxU: 37 V; 60 W
RAU + GEM: 37 V; 39 W
RAU + RxU + GEM: 37 V; 64 W
For Secondary Power
Input:
Management
For 2 PoE ports of 802.3af: 43 V; 30 W (Input range: 43 - 57 V DC)
For 2 PoE ports of 802.3at: 52 V; 62 W (Input range: 52 - 57 V DC)
Managed via the HCM
Physical Characteristics Mounting:
(Enclosure and Modules)
Wall/ceiling (Horizontal mount)
Mounting bracket included in installation kit
Dimensions
4 x 13.1 x 13.1 in (including mounting bracket)
(H x W X D):
(101.6 x 332.7 x 332.7 mm)
Weight:
RAU only: 7.93 lbs (3.6 kg)
RAU + RXU + GEM: 12.12 lbs (5.5 kg)
Environment
Ambient Temperature: Wall-mount installations: 45◦C (113◦F)
Ceiling-mount installations: 50◦C (122◦F)
CMA -3 31-AE N P a ge 17 5
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Remote Access Unit (RAU)
RAU will host the following modules:
1. RxU; Remote Expansion Module, for additional LTE and AWS MIMO service. One module per RAU5.
2. GEM; Giga bit Ethernet Module – upgrade module for the RAU5. One module per RAU5
Supported Services
SISO: CELL/ESMR, PCS, AWS, 700LTE
MIMO: AWS/ 700LTE
(with Expansion Module - RxU)
Interface Connections
Two LC APC SM fiber connectors; UL and DL
Two DC power Inputs ports; Main and secondary in case
of PoE clients.
Two QMA RF Ports; for External cavity filter (In/Out) use
- LTE and CELL filters
One Broadband External antenna QMA connector
(connected antenna must have a return loss of 12 dB)
One RJ-45 MGMT (local) connection
RxU module interface – power, digital and RF
GEM module Interface – power and digital
Antenna
Omni Directional; 0 dBi (15◦ down from horizon)
Power Consumption
For Main Power Input:
Input Range: 37-57 V DC
RAU: 44.5 V; 48 W
RAU + RxU: 44.5 V; 73 W
RAU + GEM: 44.5 V; 52 W
RAU + RxU + GEM: 44.5 V; 77 W
For Secondary Power
Input:
Management
For 2 PoE ports of 802.3af: 46 V; 31.5 W (Input range: 43 - 57 V DC)
For 2 PoE ports of 802.3at: 52.5 V; 62 W (Input range: 52 - 57 V DC)
Managed via the HCM
Physical Characteristics Mounting:
(Enclosure and Modules)
Wall/ceiling (Horizontal mount)
Mounting bracket included in installation kit
Mid-mount (acoustic ceiling) – separately ordered kit
Dimensions
(H x W X D):
Weight:
Without mounting bracket: 3.2 x 12.9 x 9.8 in (82.1 x 337.3 x 249.4 mm)
With mounting bracket: 5.25 x 13.1 x 13.1 in (133.35 x 332.74 x 332.74
mm)
R RAU5 only: 10 lbs (4.5 kg)
RAU5 and RXU and GEM: 14.39 lbs (6.5 kg)
Environment
Ambient Temperature: Wall-mount installations: 45◦C (113◦F)
Ceiling-mount installations: 50◦C (122◦F)
CMA -3 31-AE N P a ge 17 6
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Remote Expansion Unit (RxU)
Services
Upgrade module supporting two services
AWS MIMO and LTE 700 MIMO
Interfaces
Three pins for integration with RAU (power, control and RF)
Management
Management via host RAU
Physical Characteristics
Mounting:
Installed in the RAU enclosure
Dimensions
1.09 x 12.8 x 9.8 in
(H x W x D):
(27.7 x 327.5 x 250 mm)
Weight:
3.08 lbs (1.4 kg)
Cavity Duplexer for LTE 700 MHz
LTE 700 MHz external cavity duplexer for RAU/RxU modules supporting the LTE band
and which are deployed alongside units supporting the public safety service.
Frequency Range
777 MHz ~ 787 MHz
Bandwidth
10 MHz
Insertion Loss (Max.)
1.5 dB
Passband Ripple (Max.)
0.8 dB
Return Loss (Min.)
8.0 dB, all ports
Rejection
55 dB Min @ DC ~ 620 MHz
40 dB Min @ 698 MHz ~ 716 MHz
35 dB Min @ 728 MHz ~ 757 MHz
30 dB Min @ 765 MHz ~ 775 MHz
30dB Min @ 793 MHz ~ 1000 MHz
25 dB Min @ 1396 MHz ~ 1432 MHz
40 dB Min @ 1800 MHz ~ 2700 MHz
Average Power Rating
0.5W CW Max.
In/Out Impedance
50 Ohms Nominal
Operating Temperature
-20◦ C to +85◦ C
Environmental
RoHS Compliant
Interfaces
Two RF SMA connectors
Physical Characteristics
Mounting:
Wall, ceiling, acoustic ceiling
Dimensions (H x W X D): 5.6 x 3.8 x 1.8 in (144 x 98 x 46 mm)
CMA -3 31-AE N P a ge 17 7
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Cavity Duplexer for 800 MHz
CELL 800 MHz external cavity duplexer for RAU/RxU modules supporting the CELL
band and which are deployed alongside units supporting the public safety service.
Frequency Range
817 MHz ~ 849 MHz
Insertion Loss (Max.)
1.4 dB Typical
1.6 dB Max.
Ripple
0.9 dB Typical
1.1 dB Max.
Return Loss (Min.)
15 dB
Rejection
55 dB Min @ DC ~ 620 MHz
40 dB Min @ 728 MHz ~ 757 MHz
30 dB Min @ 777 MHz ~ 787 MHz
23 dB Min @ 815 MHz
23 dB Min @ 851 ~ 866 MHz
45 dB Min @ 1000 MHz ~ 1300 MHz
50 dB Min @ 1800 MHz ~ 2700 MHz
Average Power Rating
0.5W CW Max.
In/Out Impedance
50 Ohms Nominal
Operating Temperature
-20◦ C to +85◦ C
Environmental
RoHS Compliant
Interfaces
Two RF SMA connectors
Physical Characteristics
Mounting:
Wall, ceiling, acoustic ceiling
Dimensions (H x W X D): 6.0 x 2.9 x 1.68 in (159 x 75 x 42 mm)
CMA -3 31-AE N P a ge 17 8
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Digital Coverage Component Specifications
Centralized Ethernet Unit (CEU)
CEU will host the following module:
Three CEMs; Centralized Ethernet Module; media and rate converter, Ethernet (copper) to fiber.
Interfaces
CEM supports four 10/100/1000BASE-T RJ-45 connectors
to four LC UPC fiber connectors
Four 10/100/1000BASE-T Copper ports
Four 1000BASE-X fiber SFP
Throughput
Eight Gbps forwarding per CEM
Power
Input: 110-240 V AC, 50-60 Hz power
Power Consumption (fully occupied): 50 W
Physical
Characteristics
Mounting:
Dimensions
Rack-mount 19 in; 1U
CEU:
(43.66 x 431.8 / 482.8 with mounting ears x 216 mm)
(H x W x D):
Weight:
1.71 x 17/19 (with mounting ears x 8.5 in
CEM
Module:
1.41 x 3.94 x 7.68 in
(36 x 100.14 x 195.14 mm)
CEU:
7.55 lb (3.4 kg)
CEM
Module:
1.44 lb (0.65 kg)
CMA -3 31-AE N P a ge 17 9
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Gigabit Ethernet Module (GEM)
GEM – Ethernet over fiber to copper
10/100/1000BASE-T Ethernet 1000BASE-X fiber.
Two 802.3at compliant Power over Ethernet (PoE) PSE ports
Interfaces
GEM – L2 switch contains:
One 1000BASE-X fiber SFP
Two 10/100/1000BASE-T with 802.3at compliant Power over
Ethernet (PoE+) PSE ports
Throughput
Six Gbps forwarding rate
Power
Installations with RAU - powered via RAU Secondary power
input (see RAU power consumption spec)
Installations with GEU-S – powered via GEU power input (see
GEU-S power consumption spec)
Switching
IPv4 and IPv6 transparent
MAC table 512 entries
VLAN - unfiltered forwarding between ports
IGMP forward to all ports, no snooping
Physical
Characteristics
Mounting:
Dimensions
(H x W x D):
Standalone: GEU-S
Add-on: RAU Upgrade Module
1.28 x 3.79 x 5.95 in
(32.7 x 96.3 x 151.3 mm)
Weight:
1.1 lbs (0.5 kg)
Standalone Gigabit Ethernet Unit (GEU-S)
GEU-S will host the following module:
GEM; Gigabit Ethernet Module; Media converter, Ethernet over fiber to Copper.
Services
Supplies power and management port for hosted modules.
When it hosts a GEM it allows it to perform media
conversion services from Fiber to Copper and to supply
PoE + PSE services
Interfaces
DC PWR connector
Service Port – RJ-45 (to GEM)
Power Input
42-57 V DC
Physical
Characteristics
Mounting:
Wall/ceiling mount
Dimensions
5.01 x 10.51 x 3.26 in (including mounting bracket)
(H x W x D):
(127.5 x 267 x 83 mm)
Weight:
2.64 lbs (1.2 kg)
CMA -3 31-AE N P a ge 18 0
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Optical: Cabling, Unit/Modules Specifications
Cabling
Vertical
Plug & Play™ Plenum Optical cables
MTP® Fiber Connectors
12 – 144 fibers
Two-sided or one-sided
Armored, non-armored
Horizontal
Composite Plenum tether assemblies
Fiber: LC APC, 2 – 24 fibers
Cu: 16AWG, 14AWG, 12AWG; 2 – 12
Conductors
Armored, non-armored
Fiber Management
FMU
1U: 144 Fibers
2U: 288 Fibers
4U: 576 Fibers
Plug & Play™ Modules or Splice Cassettes
CMA -3 31-AE N P a ge 18 1
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12
Appendix F: Ordering Information
HEU and OIU Assemblies and Modules
Part Number
Description
HEU:
HEU-2-00-1-A-H
Headend Unit assembly (without RIMs); support for 1-12 RIMs:
Hosts two RIX modules; one PSM-AC module and one HCM module
HEU-2-00-1-D-H
Hosts two RIX modules; one PSM-DC module and one HCM module
HEU-2-00-1-A-A*
Hosts two RIX modules; one PSM-AC module and one ACM module
HEU-2-00-1-D-A*
Hosts two RIX modules; one PSM-DC module and one ACM module
HEU-1-00-1-A-H
Hosts one RIX module; one ETM module; one PSM-AC and one HCM module
HEU-1-00-1-D-H
Hosts one RIX module; one ETM module; one PSM-DC and one HCM module
HEU-1-00-1-A-A
Hosts one RIX module; one ETM module; one PSM-AC and one ACM module
HEU-1-00-1-D-A
Hosts one RIX module; one ETM module; one PSM-DC and one ACM module
HEU Modules:
HCM
Head End Control Module; Includes two RJ-45 cables (2 m)
RIX
Radio Interface Expander – HEU expansion module; two must be ordered
RIM:
Radio Interface Module for HEU chassis
RIM-L70
LTE 700 MHz service
RIM-C85
CELL 850 service MHz service
RIM-P19
PCS 1900 MHz service
RIM-A17
AWS 1700 MHz service
RIM-L70-M
LTE 700 MHz MIMO service
RIM-A17-M
AWS 1700 MHz MIMO service
OIU
Optical Interface Unit assembly (without OIMs); support for 1-12 Optical Interface
Modules
Hosts two OIX modules, one PSM-AC module and one ACM module
OIU-2-00-1-A-A
OIU-2-00-1-D-A
OIU-1-00-1-A-A
OIU-1-00-1-D-A
OIU Modules:
OIM
OIX
IHU
IHU-2-11-1-A-H
IHU-2-11-2-A-H
IHU-2-11-1-A-A
IHU-2-11-2-A-A
IHU-2-111-D-H
IHU-2-11-2-D-H
IHU-2-11-1-D-A
IHU-2-11-2-D-A
Hosts two OIX modules, one PSM-DC module and one ACM module
Hosts one OIX module; one ETM module; one PSM-AC and one ACM module
Hosts one OIX module; one ETM module; one PSM-DC and one ACM module
Optical Interface Module for OIU Chassis; three Optical links
Optical Interface Expander – OIU expansion module
Integrated Headend Unit assembly (without RIMs and OIMs); support for four RIMs,
four OIMs and four additional RIMs/OIMs in dual slots
Hosts one RIX; one OIX; one ERFC cable; one PSM-AC module and one HCM
module
Hosts one RIX; one OIX; one ERFC cable; two PSM-AC modules and one HCM
module
Hosts one RIX; one OIX; one ERFC cable; one PSM-AC module and one ACM
module
Hosts one RIX; one OIX; one ERFC cable; two PSM-AC module and one ACM
module
Hosts one RIX; one OIX; one ERFC cable; one PSM-DC module and one HCM
module
Hosts one RIX; one OIX; one ERFC cable; two PSM-DC modules and one HCM
module
Hosts one RIX; one OIX; one ERFC cable; one PSM-DC module and one ACM
module
Hosts one RIX; one OIX; one ERFC cable; two PSM-DC modules and one ACM
module
Additional HEU, OIU and IHU Modules
ACM
Auxiliary Control Module; Includes two RJ-45 cables (2 m)
PSM-AC
AC Power Supply – installed in HEU and OIU chassis; includes US plug power cords
PSM-DC
DC Power Supply - installed in HEU and OIU chassis; includes 48 V DC six pin
terminal block connector
ETM**
Expander Termination Module; 50 Ohm; used for terminating unoccupied RIX/OIX
slot; only relevant for HEU and OIU chassis
* Use t his PN w it h ACM w hen it is a second HEU connect ed t o t he Prime HEU;
* * Support ed from SW Rel. 1.2 only
Remote Units
Part Number
RAU:
Description
Remote Access Unit
RAU-C85P19L70A17
RAU supporting SISO CELL850, PCS1900, LTE700 MHz and AWS1700; SMF
RAU-R-C85P19L70A17-M
RAU supporting SISO CELL850 and PCS1900; MIMO for LTE700 and AWS bands;
SMF
RAU-G-C85P19L70A17-E
RAU supporting SISO CELL850, PCS1900, LTE700 MHz and AWS1700; two PoE
and Ethernet ports; support for Ethernet services; SMF
RAU-R-G-C85P19L70A17-ME
RAU supporting SISO CELL850 and PCS1900; MIMO for LTE700 and AWS bands;
two PoE and Ethernet ports; support for Ethernet services; SMF
RAU5:
5 Band Remote Access Unit
RAU5US
Remote Access Unit, five band Remote supporting: ESMR 800/CELL 850, LTE 700,
AWS 1700 and PCS 1900
RAU5US-E
Remote Access Unit, 2 PoE+ ports and five band Remote supporting: ESMR
800/CELL 850, LTE 700, AWS 1700 and PCS 1900
RAU5US-ME
Remote Access Unit, 2 PoE+ ports, five band
Remote and MIMO bands
supporting: ESMR 800/CELL 850, MIMO-LTE 700, MIMO-AWS 1700 and PCS 1900
RAU5US-M
Remote Access Unit, 5 band
Remote and MIMO bands supporting: ESMR
800/CELL 850, MIMO-LTE 700, MIMO-AWS 1700 and PCS 1900
RAU5US-A
Remote Access Unit, five band Remote supporting: ESMR 800/CELL 850, LTE
700, AWS 1700, and PCS 1900 + Ant assembled with the RAU5 - PN:RAU5US-ANT
RAU5US-AE
Remote Access Unit, 2 PoE+ ports and five band Remote supporting: ESMR
800/CELL 850, LTE 700, AWS 1700, and PCS 1900 + Ant assembled to the RAU5 PN:RAU5US-ANT
RAU5US-AM
Remote Access Unit, five band
Remote and MIMO bands supporting: ESMR
800/CELL 850, MIMO-LTE 700, MIMO-AWS 1700, and PCS 1900 + Ant assembled
to the RAU5 - PN:RAU5US-ANT
RAU5US-AME
Remote Access Unit, 2 PoE+ ports, five band
Remote and MIMO bands
supporting: ESMR 800/CELL 850, MIMO-LTE 700, MIMO-AWS 1700 and PCS 1900
+ Ant assembled with the RAU5 - PN:RAU5US-ANT
ICU:
Interconnect Unit; US power cord included
ICU-24-P-12-AF-H-4
24 fibers; hosts two splice cassette modules and four PSM-I modules
ICU-24-P-12-AF-H-3
24 fibers; hosts two splice cassette modules and three PSM-I modules
ICU-12-P-12-AF-H-2
12 fibers; hosts one splice cassette module and two PSM-I modules
ICU-12-P-12-AF-H-1
12 fibers; hosts one splice cassette module and one PSM-I module
ICU-24-M-12-AF-0-4
24 fibers; hosts two EDGE® modules and four PSM-I modules
ICU-24-M-12-AF-0-3
24 fibers; hosts two EDGE® modules and three PSM-I modules
ICU-12-M-12-AF-0-2
12 fibers; hosts one EDGE® module and two PSM-I modules
ICU-12-M-12-AF-0-1
12 fibers; hosts one EDGE® module and one PSM-I module
PSM-I
ICU Power Supply Module
Digital Path Units
Part Number
Description
GEU-S
Standalone Gigabit Ethernet Unit
CEU
Centralized Ethernet Unit; hosts up to three CEM modules
CEM
Centralized Ethernet Module; includes SFP and UPC to APC adapter
Accessories
Part Number
RAU5US-ANT
Description
HEU/OIU Cable management tray and door sleeve; chassis sleeve for managing
cables and door for covering front panel
Accessory kit used for mid-mount acoustic ceiling installations of the RAU; includes
flat bar and plate for assembling the RAU; assembly replaces standard acoustic tile
(RAU ordered separately)
Broad Band Antenna Module for RAU5-Remote Access Unit
M-RAU5US-AME
RAU5US Mockup, includes Ant, GEM & RxU - Not functional, mechanical only
BR-RAU5US-Wall
RAU5 remote bracket for wall mount installation; Supports up to two RAU5 units
back-to-back
BR-RAU5US-TOP
RAU5 bracket for floating ceilings tile, Mid-Mount installation
37HP900162-006F
MTP-LC APC Harness Cable; Connector for splitting fibers (six) leading from OI M to
(FMU) Edge module
ERFC:
Expander RF Cable; SMP to SMP connector
ERFC16
L= 16 in; 9 pin
ERFC24
L= 24 in; 9 pin
ERFC34
L= 34 in; 9 pin
ERFC40
L= 40 in; 9 pin
ERFC59
L= 59 in; 9 pin
PCKC:
Pilot Transport Cable; Single QMA to QMA
PCKC20
L=20 in
PCKC47
L=47 in
PCKC63
L=63 in
PCKC79
L=79 in
CblTray
AK-RAU-BRCK-MM
Hardware
Part Number
EDGE-01U-SP
ECM-UM12-18-89
EDGE-CS12-AF-P00RE
EDGE-CS12AF
CDF-RJ12-BKT
FMU:
ED1-12M12AF-0R0000
ED1-24M12AF-0R0000
ED1-48M12AF-0R0000
ED1-72M12AF-0R0000
ED1-96M12AF-0R0000
ED1-E4M12AF-0R0000
Description
1U Rack-Mount Fiber Housing, holds 12 Pretium EDGE® modules or splice
cassettes
12-Fiber LC APC EDGE PnP Module
Pretium EDGE® Splice Cassette
Pretium EDGE® Field-Term Cassette
12-in Rack Bracket for managing cables
Fiber Management Unit; EDGE® -01U-SP housing; hosts EDGE® module
12 Fibers
24 Fibers
48 Fibers
72 fibers
96 Fibers
144 Fibers
Cable Ordering Information
Cable Configurations
10
Connector.
Cu conductor count.
Fiber type.
13 = MTP® Connector, SM
Elite
0 = 0 conductors
U = ZBL Fiber
Select cable length.
004 – 999 ft.
18 = LC/APC Duplex
4 = 4 conductors
G = XB fiber
11
Connector.
Cu connectors.
Jacket type.
Pulling grip type.
13 = MTP® Connector, SM
Elite
18 = LC/APC Duplex
Cu = With connectors
8 = Plenum Indoor
P = One-sided pulling grip
12
Select cu wire gauge
Fiber count.
Armored/non-armored
Kit type
0 = No Cu Wire
06 = 6 fibers
20 = Non-armored
K = 2 Strain relief trunk holders
F = 12AWG
24 = 24 fibers
G = 14AWG
48 = 48 fibers
H = 16AWG
72 = 72 fibers
K = 20AWG
96 = 96 fibers
N = No connectors
E4 = 144 fibers
Corning Optical Communications Wireless. • 13221 Woodland Park Rd, Suite 400 • Herndon, VA 20171 USA
866-436-9266 • FAX: 703-848-0280 • Tech Support Hotline: 410-553-2086 or 800-787-1266 • www.corning.com/mobileaccess
Corning reserves the right to improve, enhance and modify the features and specifications of Corning Optical Communications Wireless products without prior notification. ONE™ is a trademark of
Corning Cable System Brands, Inc. MTP is a registered trademark of USConec, Ltd. All other trademarks are the properties of their respective owners. Corning is ISO 9001 certified. © 2013 Corning
MobileAccess. All rights reserved. Published in the USA. CMA-331-AEN
UM_ONE_709C011801_23november2014

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