Corning ONE™ Wireless Platform User Manual
P ref ace Mat eri al CMA -3 31 -AE N P a ge 2
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).
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”).
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.
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. 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.
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.
Table of Contents Preface Material ..................................................................................................................................................... 3 About This Manual ................................................................................................................................................. 3 Hardware ......................................................................................................................................................
1.5 1.6 WEB Management Application.................................................................................................................... 28 User Controlled Service Group Distribution ................................................................................................. 29 1.6.1 Single Service Group Example ........................................................................................................ 30 1.6.2 Dual Service Group Example......................................
3 Unit Descriptions - Ethernet Path ................................................................................................................ 56 3.1 3.2 Ethernet Path Components ......................................................................................................................... 56 CEU ............................................................................................................................................................ 57 3.2.1 CEM .........................
4.9 Power Safety Instructions ........................................................................................................................... 69 5 Appendix E: Specifications.......................................................................................................................... 70 Supported Services ..............................................................................................................................................
Ethernet Coverage Component Specifications (continued) .................................................................................. 85 Gigabit Ethernet Module (GEM) .................................................................................................................. 85 Standalone Gigabit Ethernet Unit (GEU-S) ................................................................................................. 85 Optical: Cabling, Unit/Modules Specifications ...................................
1 Introduction 1.1 About Corning® ONE™ Wireless Platform ® ™ The Corning ONE wireless platform is an all optical converged solution, unifying cellular, Wi-Fi and Ethernet backhaul. The platform provides a flexible in-building cellular and network data coverage solution based on a fiber optic transport backbone. Fiber-to-the edge technology allows for virtually unlimited bandwidth to support today and tomorrow’s growing demands of wireless users.
1.2 Key Features and Capabilities • Comprehensive service support • Supported services - LTE700, ESMR, CELL, PCS, AWS, WCS, and TDD 2500 MHz • Flexible, configurable service distribution - advanced capacity and coverage management for better macro offload and enhanced user experience.; Point-to-point connectivity and BTS hoteling in star topologies (via FCM modules) • Fiber conservation – via FCM solution, enables single fiber transport of all RF services and 10 Gb Ethernet over a distance of 12.
1.3.1.2 Safety and Regulatory Approvals ® The safety and regulatory specifications listed below are relevant to all Corning ONE™ wireless platform 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.
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 Table 1-5. RAU Power and Current Consumption for Secondary Input RAU5 + Add-On Modules Max. Power Consumption Power Input Range RAU5 (alone) 44.5 V; 50 W 37 – 57 V DC RAU5 + GEM 44.5 V; 52 W Table 1-6. RAU5 Power and Current Consumption for Main Power Input Unit Device Input Range Power Consumption RAU5 For two PoE ports of 802.
1.3.2.2 Cable Gauge Requirements Table 1-9 provides the information required to calculate the required power supply for the remote units. Note: Table also applies to RAU5.
1.3.2.3 Power, Heat and Rack Specifications Table 1-10 and Table 1-11 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 1 680 4 7 x 17.3 x 18.9 OIU Optical Interface Unit 100 - 220 300 1 1020 4 7 x 17.3 x 18.
1.3.2.4 Remote End Distance and Power Draw Matrix Note: RAU values apply to RAU5 as well unless RAU5 specifically indicated. Table 1-12, Error! Reference source not found., Table 1-13 and Table 1-14 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 1-12.
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 1-14. Remote End Distance and Power Draw for GEM w/PoE.
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); RAU5 (including mounting bracket) Without external antenna: 3.6* x 12.9 x 10.4 in (90 x 327 x 264 mm) RAU5 only: 10 lbs (4.5 kg) *3.6 in (90 mm) without standard mounting bracket; 4.4 in (111 mm) with standard mounting bracket With external antenna and skirt: 6.
1.4 System Architecture and Topologies ® The Corning ONE™ wireless platform solution fiber-optic infrastructure is used to transmit both RF and Ethernet services: • RF services – Broadband RF distribution over fiber-optics infrastructure transfers converged wireless services from the headend towards remote-end units (e.g. RAU5) deployed at the remote end locations according to user defined configuration.
Acronyms HEU = Headend unit RIM = Radio interface module RAU5 = 5 Band remote access unit GEM = Gigabit Ethernet module RIM = Radio interface module GEU-S = Gigabit Ethernet Unit-Standalone ICU = Interconnect unit IHU = Integrated headend unit CEU = Centralized Ethernet unit OIU = Optical Interface unit OIM = Optical Interface module Table 1-19. Acronyms in System Architecture 1.4.1 RF Path At the headend, RF signals from the RF signal sources (e.g.
® Figure 1-3.
1.4.2 Ethernet Path The digital services from the corporate LAN (received via Ethernet Switch) are converted to optic signals by the centralized Ethernet unit (CEU) and routed over optic fibers towards the GEM units. The optical traffic is then converted to 1 GbE by the Gigabit Ethernet modules (GEM) 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 1.4.1 ).
1.5 WEB Management Application ® ™ The Corning ONE wireless platform headend control module (HCM) enables centralized, system-level element management and provides comprehensive end-to-end, single source setup and management of the Corning ONE wireless platform active RF system components after their physical installation. Note: Refer to the Corning ONE HCM and Management GUI user manual for a complete description of the Web management application.
1.6 User Controlled Service Group Distribution ® Corning ONE™ fiber-optics infrastructure allows various combinations of SISO 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.
1.6.1 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 1-7.
1.6.2 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.
1.6.4 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.
The example in Figure 1-12 illustrates a differentiation of service groups. In addition to all of the configured service groups being transmitted to all of the remote units at the main site, two of the service groups (2 and 3) are transported to the remote site and then to different remote units. Figure 1-12.
2 Unit Descriptions - RF Path ® ™ This chapter provides detailed descriptions of the Corning ONE wireless platform components. The descriptions are organized according to RF and Digital path headend and remote end components. This includes port and LED interface descriptions. 2.
2.1.1 HEU The headend unit (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.
Module Description the RF source; Up to 12 RIMs can be hosted by the HEU; See section 2.1.1.3. FRM Fiber remote module - performs the optic-to-RF conversion of the cellular services at the remote end of the FMM-to-FRM link (FCM solution); interfaces to FMM via SM fiber and Ethernet fiber (for 10 GbE transport) RIX RF expander module; RIM to OIX interface module; See section 2.1.1.5.
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.
LED PWR RUN SYS 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 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 2-5. ACM LED Indicators Description FAN 2.1.1.
LED Description Protect N/A DL High 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 DL Low 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.
Table 2-6 and Table 2-7 provide a description of the RIM ports and LED status indicators. Port Description Optical Transport LC APC SM fiber connector for optical transport 10 GbE LC UPC fiber connector for 10 GbE connection Table 2-8.
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 2-10. RIX Ports Description 2.1.1.6 ETM The ETM is required for HEU/OIU units in which only one corresponding RIX/OIX module is installed.
PSM-AC The PSM-AC includes an AC power connector, on/off switch and Power Status LED. See Figure 2-10. Figure 2-10. PSM-AC Power Supply Module PSM-DC 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 2-11.
2.1.2 OIU 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 Figure 2-12.
Module Description PSM Power supply module: PSM-AC:100 - 240 V AC PSM-DC: 48 V DC Note: If two are installed, both must be powered on. See section 2.1.1.7. Table 2-11. HEU Modules 2.1.2.1 ACM See section 2.1.1.2. 2.1.2.2 OIM 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 2-13.
LED Description Link 1-3 Steady Green - optical link power to/from the connected remote is normal Off - no optical power from remote detected RUN Blinking Green – OIM module SW has initialized and is up and running Off – Power off PWR Steady Green – Input power detected in OIM Table 2-13. OIM LED Descriptions 2.1.2.
LED Description Optical Link Steady green - optical link power to/from the connected remote is normal Off – no optical power from remote detected SW Run Blinking green – FMM software has initialized and is up and running Off – power off PWR On - power input detected in FRM Table 2-15. FRM LED Descriptions 2.1.2.4 OIX 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.
2.1.3 IHU 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 2-16.
Module Description supported in “DUAL”’ slots 6 – 9 (marked in white) FRM Fiber remote module - performs the optic-to-RF conversion of the cellular services at the remote end of the FMM-to-FRM link (FCM solution); interfaces to FMM via SM fiber and Ethernet fiber (for 10 GbE transport). See Section 2.1.1.4.
2.2 RF Path Remote End Site Components The RF coverage solution remote end components comprise the following elements: • Interconnect unit (ICU) - forwards optics along with DC to the RAU and its sub-modules. • 5 band remote access unit (RAU5) - provides RF distribution and includes internal antennas. It can also encase data distribution module (GEM). Figure 2-17.
2.2.1 ICU 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.
Pretium Edge® modules and power supplies are extracted and inserted from the rear of the unit. Figure 2-19. ICU Rear Panel Interfaces and PSM Modules 2.2.2 RAU 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 2-20. RAU Module Interfaces Note: The RAU enclosure can host a GEM for digital coverage. See Section 3.
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 2-18.
2.2.3 RAU5 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 2-22. RAU5 Interfaces Note: The RAU5 enclosure can host a GEM for digital coverage. See Section 3.3 for details on GEM.
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 1.3.2.1 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 1.3.2.1 for power input per PoE port and consumption LIST.
3 Unit Descriptions - Ethernet Path This chapter provides detailed descriptions of the Ethernet path components. 3.1 Ethernet Path Components The Ethernet 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.
3.2 CEU 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.
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 Figure 3-5. CEM LEDs Table 3-3 provides a description of the CEM LEDs.
3.3 GEM 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 Error! Reference source not found.) • As a standalone module (GEU-S) - (see section Error! Reference source not found.) Figure 3-6. GEM Interfaces Table 3-3 and Table 3-4 provide descriptions of the ports and LED indicators.
Figure 3-7. GEM LED Description LED Description PoE (PORT A/PORT B) 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.
3.4 GEU-S The GEU-S is a GEM Standalone unit and includes the mounting option and DC power supply for the GEM module. See Error! Reference source not found. 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.
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.
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; Ethernet 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.
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 system components. • Be sure to disconnect all power sources before servicing.
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.
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.
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.
4.8 Fiber Optic Requirements 4.8.1 Authorized Optic Cables ® The following specified optic cables are authorized for use with Corning ONE™ products: Vertical Horizontal Plug & Play™ Plenum Optical cables Composite Plenum Tether Assemblies MTP Fiber Connectors Fiber: LC APC, 2 – 24 fibers 12 – 144 fibers Cu: 2-sided or 1-sided Armored, non-armored 16AWG, 14AWG, 12AWG; 2 – 12 Conductors Armored, non-armored 4.8.
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.
5 Appendix E: Specifications Supported Services Frequency Range (MHz) Technology Service/Band Uplink (UL) Downlink (DL) LTE 700 MHz Lower ABC 700 MHz Upper C 698-716 777-787 728-746 746-756 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 + G 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
RF Parameters per Service (RAU) Service/Band RF Parameter Frequency Range (MHz) LTE 700 MHz CELL850 MHz PCS AWS 1900 MHz 2100 MHz DL UL DL UL DL UL DL UL 728-746 746-756 698-716 777-787 869-894 824-849 1930-1995 1850-1915 2110-2155 1710-1755 Max Output Power Per Antenna Port (dBm) 15 15 17 18 Max Input Power (dBm) 0 to 37 0 to 37 0 to 37 0 to 37 Mean Gain (dB) -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
RF Parameters per Service (RAU5) Service/Band RF Parameter Frequency Range (MHz) Max Output Power Per Antenna Port (dBm) Max Input Power (dBm) Typical Antenna Gain (dBi) Horizontal Polarization Omni @ 34-45 Degree LTE ESMR800/ PCS AWS 700 MHz CELL850 MHz 1900 MHz 2100 MHz DL UL DL UL DL UL 728-746 746-756 698-716 777-787 862-869 869-894 817-824 824-849 1930-1995 DL 1850-1915 2110-2155 15 15 20 18 0 to 37 -10 to 37/ 0 to 37 0 to 37 0 to 37 0 0.5 3 2.
Optical Specifications OIM to Remotes 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 RAU5: LC APC SM Fiber Type Corning® SMF-28® fiber or compatible Wavelength 1310 ± 10 nm (@ 25◦ C) FMM to FRM Optical Output Power < 14 dBm (over multiple wavelengths) Optical Budget Single hop: Low power remote: 10 dB (maximum)/12.
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 Class 1M (applicable to FMM/FRM) 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.
RF Path: Coverage Component Specifications Headend Unit (HEU) HEU hosts the following modules: 1. RIM - Radio Interface Module; RF source conditioner. 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. FRM – Fiber remote module; See FCM specifications for description 4. HCM - Headend Control Module; overall system management module 5.
RF Path: Coverage Component Specifications (continued) 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.
RF Path: Coverage Component Specifications (continued) Optical Interface Unit (OIU) OIU hosts the following modules: 1. OIM - Optical Interface Modules; converts the RF to three optical links 2. 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. 3. Fiber main module (FMM); See FCM specifications for description 4.
RF Path: Coverage Component Specifications (continued) Optical Interface Unit (OIU) (continued) Physical Characteristics (Chassis + Modules) Mounting: Dimensions ( H x W x D): Weight: Rack-mount – 19 in and 4U Chassis: 7 x 17.3 x 18.95 in (177.8 x 440 x 481.7 mm) Cable Management 6.96 x 20.02 x 4.35 in Tray: (176.9 x 508.6 x 110.6 mm) 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.
RF Path: Coverage Component Specifications (continued) Interconnect Unit (ICU) ICU hosts the following modules: 1. PSM-I; Power Supply Module, up to four PSM-I modules can be installed. 2. 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.
RF Path: Coverage Component Specifications (continued) Remote Access Unit (RAU) (continued) Interface Connections (continued) One RJ-45 MGMT (local) connection 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 + GEM: 37 V; 39 W For Secondary Power For 2 PoE ports of 802.3af: 43 V; 30 W (Input range: 43 - 57 V DC) Input: For 2 PoE ports of 802.
RF Path: Coverage Component Specifications (continued) 5 Band Remote Access Unit (RAU5) (continued) Interface Connections (continued0 One Broadband External antenna QMA connector (connected antenna must have a return loss of 12 dB) One RJ-45 MGMT (local) connection GEM module Interface – power and digital Antenna Omni Directional (15◦ down from horizon) Power Consumption For Main Power Input: Input Range: 37-57 V DC RAU: 44.5 V; 50 W RAU + GEM: 44.5 V; 52 W For Secondary Power For 2 PoE ports of 802.
RF Path: Coverage Component Specifications (continued) Cavity Duplexer for LTE 700 MHz LTE 700 MHz external cavity duplexer for RAU 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.
RF Path: Coverage Component Specifications (continued) Cavity Duplexer for LTE 700 MHz (continued) 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) Cavity Duplexer for 800 MHz CELL 800 MHz external cavity duplexer for RAU 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.
Fiber Connectivity Module (FCM) Specifications Fiber Main Module (FMM) Interfaces Two QMA ports for reference clock connections between FMMs One LC APC SM fiber connector for optical transport One LC UPC fiber connector for 10 GbE connection Weight 2.42 lbs (1.1 kg) Fiber Remote Module (FRM) Interfaces One LC APC SM fiber connector for optical transport One LC UPC fiber connector for 10 GbE connection Weight 2.42 lbs (1.
Ethernet Coverage Component Specifications (continued) 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.
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 A p pe n di x E: S p ecif ic ati o ns CMA -3 31 -AE N P a ge 8 6
6 Appendix F: Ordering Information HEU and OIU Assemblies and Modules Part Number Description HEU: Headend Unit assembly (without RIMs); support for 1-12 RIMs: HEU-2-00-1-A-H 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
IHU-2-11-2-D-H Hosts one RIX; one OIX; one ERFC cable; two PSM-DC modules and one HCM module IHU-2-11-1-D-A Hosts one RIX; one OIX; one ERFC cable; one PSM-DC module and one ACM module IHU-2-11-2-D-A 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
FCM Solution Modules Part Number Description FCM One FMM and one FRM supporting distances up to 4.3 miles; 47-in single QMA-toQMA pilot transport cable (P/N: PCKC47*) FCM0408 One FMM and one FRM; dispersion compensation fiber cassette supporting distances of 4.
Ethernet 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 Description CblTray HEU/OIU Cable management tray and door sleeve; chassis sleeve for managing 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 ass
Hardware Part Number Description EDGE-01U-SP 1U Rack-Mount Fiber Housing, holds 12 Pretium EDGE® modules or splice cassettes ECM-UM12-18-89 12-Fiber LC APC EDGE PnP Module EDGE-CS12-AF-P00RE Pretium EDGE® Splice Cassette EDGE-CS12AF Pretium EDGE® Field-Term Cassette CDF-RJ12-BKT 12-in Rack Bracket for managing cables FMU: Fiber Management Unit; EDGE® -01U-SP housing; hosts EDGE® module ED1-12M12AF-0R0000 12 Fibers ED1-24M12AF-0R0000 24 Fibers ED1-48M12AF-0R0000 48 Fibers ED1-72M12AF-0R00
Cable Ordering Information Cable Configurations 1 4 7 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 2 5 8 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 3 6 9 12 Select cu wire gauge Fiber count.