Table of Contents
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Table of Contents
Related Manuals for CORNING ONE
Summary of Contents for CORNING ONE
- Page 1 Corning ONE™ Wireless Platform User Manual F EBRUA RY 2 0 1 4 DRAFT...
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Page 2: Preface Material
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”). -
Page 3: Software Warranty
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 Cornings’... -
Page 4: Limitations Of Liabilities
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. -
Page 5: Rf Safety
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. -
Page 6: Company Certification
Licensee Contact Information Industrial Boosters may only be used by FCC licensees or those given express (individualized) consent of license. Corning MobileAccess certifies all of the VARs listed as licensed installers for CMA. For the list of licensed VARs, please contact the CMA Tech Support Hotline: (US) 410-553-2086 or 800-787-1266. -
Page 7: Table Of Contents
Company Certification ............................6 Licensee Contact Information ..........................6 Table of Contents ..............................7 Introduction ..............................15 About 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 ....................... - Page 8 ONE™ WEB Management Application ....................... 26 1.4.1 Overall Device Display - Configuration Tab ..................27 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 ......................
- Page 9 GEM (Gigabit Ethernet Module) ........................51 GEU-S (GEM Standalone) .......................... 52 Installation Guidelines ..........................53 Infrastructure Preparation ........................... 53 Installation Requirements ..........................53 Safety Guidelines ............................53 Rack Installation Guidelines ........................54 4.4.1 Rack Safety Instructions ........................54 Power Requirements ..........................55 4.5.1 Power Safety Instructions ........................
- Page 10 5.1.2.6 RIX to OIX Connections ......................68 5.1.2.7 Coax Connections for HEU-OIU 4X4 Installation Configurations ..........69 5.1.2.8 RIX Pilot Clock Connections ..................... 71 5.1.2.9 Management Connections ......................72 5.1.2.10 Power Up ..........................74 5.1.2.11 Verify Normal operation ......................76 5.1.3 OIU Installation ..........................
- Page 11 5.2.2.2 Package Contents ........................97 5.2.2.3 Routing Connection Cables ...................... 98 5.2.2.4 Mounting RAU Installation Bracket (Wall/Concrete Ceiling) ............99 5.2.2.5 Additional Bracket Installation Options ..................100 5.2.2.6 RAU Mid-Mount Installation Option ..................102 5.2.2.7 Cable Connections ......................... 106 5.2.2.8 Mounting RAU onto Mounting Bracket ..................111 5.2.2.9 Verify Normal Operation ......................
- Page 12 6.2.4 Additional Bracket Installation Options ................... 124 6.2.5 Assembling the GEU-S onto the Bracket ..................125 6.2.6 Connecting Cables ........................126 6.2.7 Verify Normal Operation ........................ 127 6.2.8 Replace Front Panel Cover ......................128 Appendix A: RAU Upgrades ..........................129 Upgrading RAU with an RxU ..........................
- Page 13 Appendix B: Ordering Information ........................146 HEU and OIU Assemblies and Modules ......................146 Remote Units ..............................147 Digital Path Units ............................... 147 Accessories ............................... 148 Hardware ................................148 Cable Ordering Information ..........................149 T a bl e of Co nt en ts P/ N 7 0 9C0 1 18 0 1 P a ge 1 3 DRAFT...
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Page 15: Introduction
Easy to design, Plug and Play™ connectors, significantly reduce installation cost and deployment time. The 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. -
Page 16: Key Features And Capabilities
Ready for SON, HetNet and future network requirements. General System Specifications and Requirements 1.3.1 Supported Browsers 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 ·... -
Page 17: Safety And Regulatory Approvals
1.3.2.2 Safety and Regulatory Approvals The safety and regulatory specifications listed below are relevant to all ONE™ devices. Regulation/Standard Approval Category FDA/CE 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice Laser Safety no. 50 and IEC 60825-1... -
Page 18: Cable Gauge Requirements
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 RAU SISO GEU-S GEU-S GEU-S SISO SISO MIMO MIMO MIMO MIMO (ft) Supporting... -
Page 19: Remote End Distance And Power Draw Matrix
Ceilings Description Min-Max Max Power Heat Dimensions (in) Voltage Draw (Watts) (BTU/hr) (VDC) Remote Access Unit 37 - 57 13.1 x 13.1 x 4 Remote Expansion Unit 37 - 57 1.1 x 12.8 x 9.8 Remote Access Unit + Remote RAU + RxU 37 - 57 13.1 x 13.1 x 4... - Page 20 Table 1-11. Remote End Distance and Power Draw for RAU + RxU (MIMO) GEM Supporting PoE 802.3af Composite 16 AWG Draw (Watts) Tether Distance (ft.) 10 - 40 50 - 340 350 - 660 670 - 890 *Min/Max VDC = 43/57 @ 1.49 Amps, 85% efficiency Table 1-12.
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Page 21: Dimensions And Weight Of Units
1.3.4 Dimensions and Weight of Units Table 1-14, Table 1-15 and Table 1-16 describe the physical specifications of the ONE™ headend and remote end units. Unit Dimensions (H x W x D) Weight: 7 x 17.3 x 18.95 in (177.8 x 440 x 481.7 mm) Chassis: 37 lbs (16.8 kg) -
Page 22: Optical Specifications
® OIM: MTP connector Optical Connector RAU: LC APC SM ® ® Fiber Type Corning SMF-28 or Compatible 1310±10 nm (Standard) Wavelength Maximum Distance (headend to remote end) 2 km (SMF) Table 1-17. Optical Specifications I nt rod uct i on... -
Page 23: System Architecture And Topologies
1.3.6 System Architecture and Topologies The 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. -
Page 24: Rf Path
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). Figure 1-3. ONE™ Solution RF Path Architecture I nt rod uct i on... -
Page 25: Digital Path
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. ONE™ Solution Digital Path Architecture I nt rod uct i on... -
Page 26: One™ Web Management Application
ONE™ WEB Management Application The 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 ONE™... -
Page 27: Overall Device Display - Configuration Tab
1.4.1 Overall Device Display - Configuration Tab The Config 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. ·... -
Page 28: User Controlled Service Group Distribution
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. -
Page 29: Mimo Configurations
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). -
Page 30: Dual Service Group Example
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. -
Page 31: Tri Service Group Example With Two Heus
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. -
Page 33: Unit Descriptions - Rf Path
Unit Descriptions - RF Path This chapter provides detailed descriptions of the 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. RF Path - Headend Components ONE™... - Page 34 · 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”.
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Page 35: Heu (Headend Unit)
HCM (Headend Control Module) Overall system management and control capabilities are performed via the HCM, which is installed in an HEU chassis (one HCM per system installation). The HEU hosting the HCM module serves as the Main HEU (any additional HEU chassis is installed with an ACM). - Page 36 Steady Green – Overall status of the managed system is ok Steady Green – Normal operation status for all fans Red – Fault indicated in at least one fan Table 2-3. LED Description Un it Desc ri pt i ons - RF P at h...
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Page 37: Acm (Auxiliary Control Module)
2.1.1.2 ACM (Auxiliary Control Module) The ACM is installed in any additional HEU chassis in installations with more than one HEU (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). -
Page 38: Rim/Rim-M (Rf Interface Module)
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. -
Page 39: Rix (Rf Expander Module)
2.1.1.4 RIX (RF Expander Module) 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. -
Page 40: Psm (Power Supply Module)
Note: The power rating for both PSM types is 300 W. · The PSM modules are installed in HEU and in OIU chassis. · Each HEU and OIU chassis can support two PSM modules, where the second PSM provides redundancy in case one of the supplies fails. -
Page 41: Oiu (Optical Interface Unit)
The OIU interfaces to the HEU, 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). -
Page 42: Acm (Auxiliary Control Module)
2.2.1 ACM (Auxiliary Control Module) See section 2.1.1.2. 2.2.2 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 2-10. -
Page 43: Oix (Optical Expander Module)
2.2.3 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. -
Page 44: Rf Path Remote End Site Components
RF Path Remote End Site Components The RF coverage solution remote end components comprise the following elements: · ICU (Intermediate Centralized 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). -
Page 45: Icu (Intermediate Centralized Unit)
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;... -
Page 46: Rau (Remote Access Unit)
2.3.2 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 2-15. RAU Module Interfaces Note: The RAU enclosure can host two additional modules: RxU for MIMO support (e.g. - Page 47 Figure 2-16. RAU LEDs Description Blinking Green Blinking – RAU Initializing Steady Green – RAU boot up sequence complete and module SW up an running Off – No power supplied to unit POWER Steady Green - Power input detected by RAU Off - No power supplied to RAU LINK Steady Green –...
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Page 48: Rxu (Remote Expansion Unit)
2.3.3 RxU (Remote Expansion Unit) The RxU is an Add-on to the RAU which provides support for MIMO services (i.e. 700MHz LTE, AWS). Figure 2-17. RxU Interfaces Module Description RF Connection to external antenna, used for above-ceiling installation. Antenna must have a return loss of 12 dB. External Antenna (Both the RxU and the RAU antennas are used since this implements a MIMO configuration) -
Page 49: Unit Descriptions - Digital Path
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. ONE™ Digital Path Architecture Un it Desc ri pt i ons - Di git al Pa t h... -
Page 50: Ceu (Centralized Ethernet Unit)
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). -
Page 51: Gem (Gigabit Ethernet Module)
PORT A/PORT B over Ethernet (PoE+) PSE ports capability for connections to remote access points One 1000BASE-X T Copper port to LC UPC fiber connectors (using FC APC SFP –small-form pluggable module) towards CEM module Table 3-2. GEM Port Interfaces... -
Page 52: Geu-S (Gem Standalone)
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 3-6. -
Page 53: Installation Guidelines
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. Infrastructure Preparation The following installation rules are based on the assumption that the site survey and installation planning (including power requirements) have been completed. -
Page 54: Rack Installation Guidelines
· 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 0 for 4x4 HEU-OIU rack installation configurations (maximum configuration including four HEU and four OIU units). -
Page 55: Power Requirements
Power Requirements This section summarizes the power requirements of all 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™... -
Page 56: Rf Coaxial Cable Guidelines
· Use coax RG-223, 50ohm, 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 ·... -
Page 57: Coax Cable Lengths And Losses
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. -
Page 58: Antenna Specifications And Guidelines
4.7.1 Authorized Antennas and Required Specifications · ONE™ RAU (Remote Access Unit) is equipped with an Omni Directional integrated antenna; 0 dBi (15 deg. down from horizon) · External antennas - No limitation on any vendor of available external antennas with respect to the following requirements: ·... -
Page 59: Fiber Optic Requirements
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 Composite Plenum Tether Assemblies MTP Fiber Connectors Fiber: LC APC, 2 – 24 fibers 12 –... -
Page 60: Power Safety Instructions
· 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. I nst al l ati o n G u id e li n es... -
Page 61: Installation - Rf Path Elements
· The components of each system installation are control and managed via a single HCM which is installed in an HEU chassis. In configurations with more than one HEU chassis, the HEU installed with an HCM module serves as the “Main” HEU, whereas each additional HEU unit (Auxiliary) is installed with an ACM (see section 5.1.1). -
Page 62: Heu Main And Auxiliary Configurations
HEU Main and Auxiliary Configurations In a configuration with more than one HEU chassis, one HEU (Main) is installed with an HCM module whereas, the additional HEU units (Auxiliary) are installed with ACM modules, enabling single source management of the ONE™ Wireless Platform from a single HCM. -
Page 63: Heu Installation
6. Open the shipping cartons and carefully unpack each unit from the protective packing material. 7. Verify that all the items required for installing the ONE™ HEU according to the items listed in Table 5-1. If any of the listed items are missing, contact your Corning Cable Systems representative. - Page 64 RIX Module Kit (1 or 2 according to order) Quantity Item Radio Expander Module – expands the RF sources to the OIU 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.
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Page 65: Mounting The Heu Chassis
5.1.2.2 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 HEU and OIU units and the lengths of the available ERFC cables. -
Page 66: Installing All Modules
2. Referring to Figure 5-4 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 top and bottom half slots of the rack ears. ·... -
Page 67: Grounding Heu Chassis
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. Installed in the HEU in configurations consisting of more than... -
Page 68: Rim Connections To Rf Source
5.1.2.5 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 5-9. Figure 5-9. RIM RF Source Interfaces 5.1.2.6 RIX to OIX Connections Note: Each RIX module supports connections to up to two OIUs. -
Page 69: Coax Connections For Heu-Oiu 4X4 Installation Configurations
5.1.2.7 Coax Connections for HEU-OIU 4X4 Installation Configurations Figure 5-11 and Figure 5-12 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). - Page 70 Figure 5-13. 4x4 HEU-OIU Two Rack Configurations Figure 5-13 illustrates how each HEU is connected to each OIU in a shared equipment (dual rack) scenario. In Figure 5-13. 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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Page 71: Rix Pilot Clock Connections
5.1.2.8 RIX Pilot Clock Connections Referring to Figure 5-14 (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 chassis. Note that The REF IN and REF OUT pilot clock ports must be connected in a closed loop as shown in Figure 5-14 and Figure 5-15 and that both RIX modules of each chassis must be connected. -
Page 72: Management Connections
5.1.2.9 Management Connections Note 1: One RJ45/RJ45 management cable is provided with each HEU and OIU chassis. Note 2: The management connections are also described in the HCM User Manual. HCM to LAN connection Using the provided RJ45/RJ45 communication cable, connect the HCM LAN port to the corporate LAN as shown in Figure 5-16. - Page 73 Make sure that an ACM which is directly connected to the HCM is done so via a single network connection, as to avoid network conflicts (i.e. do not perform more than one connection between an ACM and HCM). Where only HCM INTERNAL ports are available, use RJ45/RJ45 communication cables to perform the Headend management...
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Page 74: Power Up
Note the following: · The PSM modules are installed in the HEU and OIU 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. - Page 75 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: 1.
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Page 76: Verify Normal Operation
3. Turn on DC source and verify that power status LED is green. Figure 5-21. Connected DC Wire Pairs and Green Power LED 5.1.2.11 Verify Normal operation 1. Verify that the Power Status LED on each PSM shows green. See Figure 5-18 (PSM-AC) and Figure 5-21 (PSM-DC). 2. -
Page 77: Oiu Installation
· The Cable management Tray can be assembled either before or after the unit is installed (see section 5.1.4 - HEU/OIU Cable Management Tray). 5.1.3.1 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... - Page 78 MTP-LC APC Harness Cable (P/N 37HP900162-06F) - connector for splitting fibers (6) leading from OIM to (FMU) Edge module PSM Kit (AC or DC modules - 1 or 2 kits according to order) Quantity Item PSM-AC: 100-240 VAC Power Supply Module including standard IEC 60320-1 C13 cable PSM-DC: 48 V DC Power Supply Module;...
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Page 79: Mounting Chassis In 19-In Rack
5.1.3.2 Mounting Chassis in 19-in Rack Note the following: · Up to four OIU chassis can be connected to a single HEU · OIU chassis requires 4U rack height availability · Rack nuts and screws not provided (depend on rack type) To mount OIU chassis 1. - Page 80 Figure 5-25. 4x4 Rack Installation Diagram – Shared 3. Referring to Figure 5-26 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 top and bottom half slots of the rack ears. 4.
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Page 81: Installing All Modules
100% mistake proof): Module Quantity Comment · For installations with one PSM module – install module in left most slot 1 - 2 · For installations with two PSM modules – remove blank panel from middle slot and insert additional PSM module... -
Page 82: Grounding Chassis
Figure 5-28. Example of Module Type Captive Screws and Ejectors 5.1.3.4 Grounding Chassis 1. The grounding connection is performed via a two-hole, standard barrel grounding lug located on the HEU rear panel (see Figure 5-29). · For use with stranded copper wire conductors ·... -
Page 83: Fiber Connections
5.1.3.5 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 (3) LC APC connection fibers to the FMU Edge module LC APC connections. -
Page 84: Rf Connections To Heu
5.1.3.6 RF Connections to HEU RF connections between the OIU and HEU are performed using the ERFC cable (included in HEU order) and are described in section 5.1.2.6 - RIX to OIX Connections. See Figure 5-31 for general view of connections. Figure 5-31. -
Page 85: Management Connections
Management connections Using the provided RJ45/RJ45 communication cable, connect the OIU ACM control module as follows: · Referring to Figure 5-32- for configurations with one HCM and up to four ACM modules (e.g. one HEU and four OIU units), directly connect: From any …. -
Page 86: Power Up
Note: Main HEU refers to HEU with HCM, whereas HEU units with ACM modules are referred to as Auxiliary HEUs. 5.1.3.8 Power Up Refer to HEU section 5.1.2.10 for details on connecting the AC/DC PSM modules. Note: The PSM modules are common for both HEU and OIU chassis. Verifying Normal Operation If OIU chassis is powered on, verify that the OIM and ACM (see Figure 5-34) module LEDs indicate normal operation: Module... -
Page 87: Heu/Oiu Cable Management Tray
5.1.4 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. ·... - Page 88 2. Route Connection Cables Through Cable Tray (From the Middle Leftwards/Rightwards) and Pull Up Tray Figure 5-36. Assembling Cable Tray 3. Close Management Tray (as shown in figure) Figure 5-37. Assembling Cable Tray Note: The tray pin must first be pulled towards the left and then released into the hole (shown in figure above). I nst al l ati o n –...
- Page 89 4. Pull Down the Cover Door Figure 5-38. Assembling Cable Tray 5. Assemble Cover onto Chassis Figure 5-39. Assembling Cable Tray I nst al l ati o n – RF P at h E l eme n ts P/ N 7 0 9C0 1 18 0 1 P a ge 8 9 DRAFT...
- Page 90 6. View of Assembled Chassis and Cover – Open Figure 5-40. Assembling Cable Tray 7. View of Assembled Chassis and Cover – Closed Figure 5-41. Assembling Cable Tray I nst al l ati o n – RF P at h E l eme n ts P/ N 7 0 9C0 1 18 0 1 P a ge 9 0 DRAFT...
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Page 91: Rf Remote-End Installation
· 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: ·... -
Page 92: Installing Power Supply Module
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 5-42). Figure 5-42. -
Page 93: Installing Edge Module
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 5-44. -
Page 94: Mounting Icu In 19-In Rack
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. 1. -
Page 95: Mounting Icu On Wall
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 5-48. -
Page 96: Power Up
5. Connect the DC wiring and fibers from the opposite end of the composite cable to the RAU/GEU units - described in corresponding QSG documents. Figure 5-48. 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. -
Page 97: Rau Installation
RAU + RxU + GEM: 12.12 lbs (5.5 kg) · RAU optic fiber connections and DC power are provided via a Corning Composite cable (ordered separately). · External cavity filters 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. -
Page 98: 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) ·... -
Page 99: Mounting Rau Installation Bracket (Wall/Concrete Ceiling)
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 5-51 and Figure 5-52) should always be positioned to face the same direction as the RAU connectors (up or down). -
Page 100: Additional Bracket Installation Options
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) –... - Page 101 Figure 5-55. Below Acoustic Ceiling Installation Figure 5-56. Mid-Mount Acoustic Ceiling Installation 4. Route the connections cables (previously located) through the center of the RAU Mounting Bracket. I nst al l ati o n – RF P at h E l eme n ts P/ N 7 0 9C0 1 18 0 1 P a ge 10 1 DRAFT...
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Page 102: Rau Mid-Mount Installation Option
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. - Page 103 To install the mid-mount option: 5. Referring to Figure 5-58, assemble the RAU Frame Cover (provided with the RAU) onto the RAU. Figure 5-58. Assembling RAU Frame Cover 6. 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 5-59.
- Page 104 7. Slide the Spacer (Item 2) in through the RAU mounting bracket and insert into bracket middle hole. Refer to Figure 5-60. Figure 5-60. Inserting Spacer into RAU Mounting Bracket 8. Assemble Flat Bar (Item 3) and Knob (Item 4) as shown in Figure 5-61. Figure 5-61.
- Page 105 9. Tighten knob to secure Flat bar in place. Refer to Figure 5-62. Figure 5-62. Securing Plate to Flat Bar 10. Replace relevant acoustic tile with Mid-Mount assembly. I nst al l ati o n – RF P at h E l eme n ts P/ N 7 0 9C0 1 18 0 1 P a ge 10 5 DRAFT...
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Page 106: Cable Connections
Cable 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 5-63. Figure 5-63. Grounding Bolt Location 3. - Page 107 5. Pull the front panel and remove to access connectors. See Figure 5-64. 6. Connect optic fiber pair to RAU module LC APC connector. See Figure 5-65. 7. RAU optional RF connections: · EXTERNAL ANT. – for RAU installations above acoustic ceiling requiring external antennas; QMA connector ·...
- Page 108 8. For RAU configurations with RxU module (see Figure 5-66) : · 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 5-66.
- Page 109 10. RAU MAIN POWER (for RAU/RAU+RxU) DC input power connections (see Figure 5-68) – connect DC wire pair to the terminal block connector: · Power input range: 37 to 57 VDC · Wire size: 12-30 AWG · Max. consumption: RAU: 35 W RAU + RxU: 60 W RAU + GEM: 39 W RAU + RxU + GEM: 64 W...
- Page 110 B. 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 5-69.
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Page 111: Mounting Rau Onto Mounting Bracket
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. -
Page 112: Verify Normal Operation
5.2.2.9 Verify Normal Operation Verify normal operation via RAU LEDs (located on enclosure cover – see Figure 5-72): Description LINK RAU Only: Blinking Green RAU + RxU Installed: Steady Green POWER Steady Green - Input power within required range detected Steady Green - Module SW has initialized and is up and running Blinking Green –... -
Page 113: Rau Cavity Filter Installation
5.2.3 RAU Cavity Filter Installation The external cavity filters are required when the RAU/RXU modules supporting the corresponding CELL and LTE bands are deployed alongside units supporting the public safety service. · The RAU supports connections to External CELL and LTE Filters ·... -
Page 114: Package Contents
5.2.3.1 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 CVT800 - 836.5MHz; 0.5W; 824-849MHz;... -
Page 115: Acoustic Ceiling Mount Installation
5.2.3.3 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 5-73) and securing the assembly to the grid with the provided safety cable. Refer to Figure 5-75. Figure 5-75. -
Page 116: Filter Connections
3. Hang the Cavity Filter on the anchors/screws and pull down to lock in narrow end of key hole. Refer to Figure 5-77. Figure 5-77. Mounting Cavity Filter on Wall 5.2.3.5 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 RAU/RxU module. - Page 117 Figure 5-79. Example of External LTE Filter Connections to RAU and RxU I nst al l ati o n – RF P at h E l eme n ts P/ N 7 0 9C0 1 18 0 1 P a ge 11 7 DRAFT...
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Page 118: Installation - Digital Coverage Elements
· 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... -
Page 119: Installing Cem Module(S)
6.1.2 Installing CEM Module(s) 1. Remove the blank panel. 2. Slide in the CEM and hand tighten the captive screws. Refer to Figure 6-1. 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 in the 19-in communication rack and secure using pre-assembled brackets. -
Page 120: Connecting Fiber
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. -
Page 121: Geu-S Installation
· 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 Gigabit Ethernet Unit Standalone (GEU-S) ®... -
Page 122: Installing The Mounting Bracket
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 6-7 · For above acoustic ceiling installations: ·... - Page 123 To install the mounting bracket Mount the bracket on the wall (Figure 6-7) or concrete ceiling (Figure 6-8) 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 A p pe n di x A: RA U Upg ra des P/ N 7 0 9C0 1 18 0 1...
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Page 124: Additional Bracket Installation Options
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 6-9, install the T-Bar on the ceiling above the acoustic tiles (according to manufacturers’ instructions). 2. -
Page 125: Assembling The Geu-S Onto The Bracket
6.2.5 Assembling the GEU-S onto the Bracket Note: The safety screw tab (circled in Figure 6-11) should be in the same direction of the connectors. 1. Hold the GEU-S near the mounting bracket and routed cables. 2. Route the cables towards the front panel connectors, where the bracket will be located as shown in Figure 6-11. 3. -
Page 126: Connecting Cables
6.2.6 Connecting Cables Referring to Figure 6-12, connect as follows: 1. Pull out front panel cover to access connectors. See Figure 6-11. 2. Connect the optic fiber to the SFP module: · Fiber terminated with LC UPC connector (blue) – connect directly to SFP module ·... -
Page 127: Verify Normal Operation
6.2.7 Verify Normal Operation Referring to Figure 6-13, verify normal operation via GEU-S (GEM and GEU modules) LEDs - located adjacent to the respective connectors: Indication Expected Description of expected indication SW & CPU running normally, GEM OK, no Fault OK\Fault\Run Flashing GREEN... -
Page 128: Replace Front Panel Cover
6.2.8 Replace Front Panel Cover Refer to Figure 6-14. Figure 6-14: Replacing Front Panel A p pe n di x A: RA U Upg ra des P/ N 7 0 9C0 1 18 0 1 P a ge 1 2 8 DRAFT... -
Page 129: Appendix A: Rau Upgrades
· The installation of the RxU module is hot-swappable and does not require disconnecting cables or power. 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... -
Page 130: Installing The Rxu Module In The Rau
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 6-15, remove RAU enclosure cover: A. Remove the Safety Tab Screw, securing the bracket to the RAU (located above MGMT port). B. - Page 131 Figure 6-16. RxU Module Assembly 3. If required by site planner - connect the filter to the RF filter connectors on the RxU. Refer to Figure 6-17 for location of RxU filter connections. Note: Refer to section 5.2.3 for Cavity Filter installation and connections. Figure 6-17.
- Page 132 Figure 6-18. RAU Enclosure LEDS 5. Assemble RAU front access panel and remount. A p pe n di x A: RA U Upg ra des P/ N 7 0 9C0 1 18 0 1 P a ge 1 3 2 DRAFT...
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Page 133: Upgrading Rau Gem Installation (Upgrade)
Note: If digital coverage is required during Greenfield deployment then the GEM is pre-installed in the RAU. 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 –... -
Page 134: Installing The Gem Module In The Rau
Installing the GEM module in the RAU 1. Remove RAU front panel and then cover by removing the five screws indicated in Figure 6-19 2. Plug GEM into the left side of the RAU, as shown in Figure 6-20 and secure (4) GEM screws. 3. - Page 135 Figure 6-21. RAU and GEM with Assembled Cover Connect the cables as follows: A. Connect the fiber to the SFP module (pre-inserted in F/O port): 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 B.
- Page 136 C. Connect the Secondary 48V feed to the RAU and Wait 1-2 seconds. Verify status of GEM LEDs according to Table 6-4: Expected Description of expected indication SW and CPU running normally Flashing GREEN (10/Sec) Ethernet LINK Ethernet ACTIVITY SFP LINK 48V feed to PoE circuitry exist and PoE OFF Table 6-4.GEM Secondary Power LED Status D.
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Page 137: Appendix B: Specifications
Appendix B: Specifications Supported Services Frequency Range (MHz) Technology Service/Band Uplink (UL) Downlink (DL) 700 MHz 698-716 728-746 777-787 746-756 CDMA/WCDMA**/ TDMA/GSM/LTE* CELL 800 824-849 869-894 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. -
Page 138: Environmental, Standards And Optical
® Optical Connector OIM: Female MTP connector; RAU: LC APC SM ® ® Fiber Type Corning SMF-28 fiber or compatible 1310 ± 10 nm (@ 25 ◦ C) Wavelength Maximum Distance 2 km (SMF) (Headend to Remote) A p pe n di x B: S p ecif ic ati o ns... -
Page 139: Rf Path: Coverage Component Specifications
Up to 12 RIMs can be hosted by the HEU. 2. 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. 3. HCM - Headend Control Module; overall system management module ERFC 4. -
Page 140: Headend Unit (Heu) (Continued)
3. ACM - Auxiliary Control Module; manages unit domestic modules, "Slave" controller to the HCM 4. PSM - Power Supply Module; powers the unit ® Interfaces: Optical Interface: One Female MTP Connector Six Kenpole connector for 1:1 direct signal transportation, three UL and three for DL... -
Page 141: Optical Interface Unit (Oiu) (Continued)
Optical Interface Unit (OIU) (continued) Physical Mounting: Rack-mount – 19 in and 4U Characteristics Dimensions Chassis: 7 x 17.3 x 18.95 in (Chassis + ( H x W x D): (177.8 x 440 x 481.7 mm) Modules) Cable Management 6.96 x 20.02 x 4.35 in Tray: (176.9 x 508.6 x 110.6 mm) Weight:... -
Page 142: Remote Access Unit (Rau)
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 RAU. 2. GEM; Giga bit Ethernet Module – upgrade module for the RAU. One module per RAU... -
Page 143: Digital Coverage Component Specifications
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):... -
Page 144: 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 GEM – L2 switch contains: Interfaces One 1000BASE-X fiber SFP Two 10/100/1000BASE-T with 802.3at compliant Power over Ethernet (PoE+) PSE ports Six Gbps forwarding rate Throughput... -
Page 145: Optical: Cabling, Unit/Modules Specifications
Cabling Vertical Plug & Play™ Plenum Optical cables ® 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... -
Page 146: Appendix B: Ordering Information
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;... -
Page 147: Remote Units
24 fibers; hosts two splice cassette modules and three PSM-I modules ICU-24-P-12-AF-H-2 24 fibers; hosts two splice cassette modules and two PSM-I modules ICU-24-P-12-AF-H-1 24 fibers; hosts two splice cassette modules and one PSM-I module ICU-12-P-12-AF-H-4 12 fibers; hosts one splice cassette module and four PSM-I modules ICU-12-P-12-AF-H-3 12 fibers;... -
Page 148: Accessories
Accessories Part Number Description Expander Termination Module; 50 Ohm; used for terminating unoccupied Expander slots HEU/OIU Cable management tray and door sleeve; chassis sleeve for managing CblTray cables and door for covering front panel AK-RAU-BRCK-MM Accessory kit used for mid-mount acoustic ceiling installations of the RAU; includes flat bar and plate for assembling the RAU;... -
Page 149: Cable Ordering Information
Cu connectors. Jacket type. Pulling grip type. 13 = MTP® Connector, SM Cu = With connectors 8 = Plenum Indoor P = One-sided pulling grip Elite 18 = LC/APC Duplex N = No connectors Armored/non-armored Kit type Select cu wire gauge Fiber count. - Page 150 Corning MobileAccess reserves the right to improve, enhance and modify the features and specifications of Corning MobileAccess 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 MobileAccess is ISO 9001 certified. © 2013 Corning MobileAccess.
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