Analog Low Power Remote Unit (RAU5x) User Manual Corning Restricted Co rn in g O ptic a l Com m un icat io ns Us er Manual I CMA -482 -AEN I P age 1
Corning Restricted Co rn in g O ptic a l Com m un icat io ns Us er Manual I CMA -482 -AEN I P age 2
Warranties Hardware Warranty Corning Optical Communications LLC (“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 be
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.
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.
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.
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. 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.
Additional Relevant Documents The following documents are required if the corresponding units are included in your system (these can be downloaded from the Corning partner portal). Document Name Part Number Five- band remote access unit datasheet CE0009001 Rev A00 and higher Corning optical network evolution (ONE™ ) system installation Headend Control Module (HCM) and Web Management GUI User Manual 709C011801 REV A01 709C014205 Rev.
TABLE OF CONTENTS 1 Introduction .............................................................................................. 13 1.1 1.2 1.3 Key Features and Capabilities .................................................................................................................... 13 Architecture................................................................................................................................................. 14 Web Management Application ............................
3.8 Power Safety Instructions ........................................................................................................................... 30 4 Installation................................................................................................ 31 4.1 Verify Package Contents............................................................................................................................. 32 4.1.1 RAU5x Package ............................................................
5.1.2 (Concrete) Ceiling Mounting Option ................................................................................................. 62 5.1.3 Acoustic Ceiling Mount Installation .................................................................................................. 63 5.1.4 Wall Mount Installation..................................................................................................................... 63 5.1.5 Filter Connections....................................................
9 Appendix D: Ordering Information ........................................................... 84 Accessories .........................................................................................................................................................
1 INTRODUCTION The five-band remote access unit (RAU5x) is a fiber fed, multi-service indoor coverage remote solution for Corning® optical network evolution (ONE™) solutions. It enables multiple wireless technologies and operator services to be distributed over a single broadband infrastructure. The RAU5x supports up to five SISO services (model dependent) in various combinations in addition to two MIMO services via an expansion module.
1.2 Architecture The remote access units distribute the wireless and Ethernet services received over the fiber-optic infrastructure from the Corning® optical network evolution (ONE™) solutions headend. The RAU5x is a service-specific module supporting five SISO services that performs the optical to RF conversion of signals received from the optical interface unit (OIU) at the headend. Signals are automatically filtered, amplified and distributed via external antennas.
1.3 Web Management Application The Corning Optical Network Evolution (ONE™) Solution headend control module (HCM) enables centralized, system-level element management and provides comprehensive end-to-end, single source setup and management of the active RF system components after their physical installation. Management capabilities are provided for both the RAU5x and installed RF expansion module.
2 INTERFACES 2.1 RAU5x Note the following: • The RAU5x can host additional expansions: • RxU67 – expansion module providing expansion of two additional bands: 600MHz and FirstNet 700. • RxU2325 — expansion module providing support for two additional bands: 2300 WCS and 2500 TDD bands • GEM – provides digital coverage. • GEM and RxU67 may not be installed together. • Specific RAU5x models are available with provided external antenna enclosure. GND Bolt Figure 2-1.
Figure 2-2. RAU5x with GEM: Interfaces 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 3.4.1 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 3.4.1 for power input per PoE port and consumption LIST.
Table 2-1. Connection Interface Descriptions LED Description POWER Steady green — power input detected by remote unit Off - no power supplied to remote unit LINK Steady green — Optical link power to/from the remote unit is normal Blinking green — Optical power from remote is lower than required Off — no optical link is detected RUN Blinking green blinking — software initializing Steady green — boot up sequence complete and module software up and running Off — no power supplied to unit Table 2-2.
2.2 RxU2325 The RxU2325 is an add-on module which plugs into the RAU5x and enables support for two additional bands: 2.3 GHz WCS and 2.5 GHz LTE (TDD). Figure 2-3. RxU2325 Interfaces Module Description To RAU QMA RF connector; Connects to RAU5x ANT. QMA RF connector; Connects to external antenna UL/DL External QMA RF ports for external cavity filter use (if required by site planner). For CELL and LTE filters. Table 2-3.
2.3 RxU67 The RxU67 is an add-on module which plugs into the RAU5x and enables support for two additional bands: 600MHz and FirstNet 700. Figure 2-4. RxU67 and Filter Interfaces Module Description External RF Filters DL600 UL600 DL700 UL700 PWR LED Indicates power ON. Table 2-4.
2.4 GEM The GEM is an add-on module that provides Gigabit Ethernet support - the received optical signal is converted to two Ethernet digital connections, which can then be routed along with PoE to third party equipment. Figure 2-5. GEM Interfaces Table 2-5 and Table 2-6 provide descriptions of the ports and LED indicators. Port Description PORT A/PORT B Two 10/100/1000Base-T copper interface with 802.
Figure 2-6. 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.
3 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. 3.
3.4 Power Requirements This section summarizes the RAU5x power requirements and specifications with and without additional modules. Note: RxU and RxU2325 share the same power requirements and specifications. 3.4.1 Power Input and Consumption RAU5x + Add-On Modules Maximum Power Consumption Power Input Range RAU5x (alone) 44.5 V; 50 W -36 to -57 V DC RAU5x + GEM 44.5 V; 52 W -36 to -57 V DC RAU5x + GEM + RxU2325 44.5 V; 78 W -36 to -57 V DC RAU5x + RxU2325+ RxU67 44.
3.4.3 Power, Heat and Rack Specifications Table 3-4 provides the power, heat and rack specifications for the remote end ceiling equipment. Unit Description Min-Max Voltage (VDC) Max Power Draw (Watts) Heat (BTU/hr ) Dimensions (in) RAU5x 5-band remote access unit 37 - 57 50 171 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) RxU67, RxU2325 Remote Expansion Unit 37 - 57 25 85 1.1 x 12.8 x 9.
RAU5x+ RxU2325 + RxU67 (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 3-6.
3.4.5 Power Safety Instructions SAFETY WARNINGS! When installing or selecting the power supplies: • Only use the power cables 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. • Calculate the required power according to the requirements of the specific installation and then determine the configuration of the power supplies.
3.5.3 Coax Cable Lengths and Losses Use coax ½-in, 50ohm, male-to-male QMA type, for connecting to RAU5x and external antenna ports. Note: The required distance between the antennas (installed in the ceiling) depends on the infrastructure and calculated pathloss. 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.
3.6 Antenna Specifications and Guidelines Determine the antenna installation configuration, according to the transmission and coverage requirements and the installation site conditions. 3.6.1 Authorized Antennas and Required Specifications • RAU5x requires external broadband antenna - can be ordered with preassembled external antenna enclosure.
• • • • 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.
4 INSTALLATION This chapter describes the installation of the RAU5x. For specific guidelines on infrastructure planning, design and installation, please consult with a Corning product line manager or Corning approved Installer.
the public safety service. Installation instructions are provided with each separately ordered filter (AK-CVT700; AKCVT800). 4.1 Verify Package Contents Verify the packages contain all the required elements according to your site deployment: • RAU5x – see RAU5x Package • Accessories related to your site deployment: o RxU67 – see RxU67 Package o RxU2325 – see RxU2325 Package o GEM – see GEM Package Note: Check your package contents to verify that the items in the packing list are included.
4.3 Mount the RAU5x RAUx can be mounted in several methods, as described in the following table. Perform the mounting procedure related to your site deployment. Method name Description Illustration See section… Standard Standoff a single RAU5x is installed (or direct directly on the wall or concrete mounting) – ceiling ceiling or wall Standard Standoff Mount Installation, 4.3.1 Top Bracket RAU5x is connected onto a midmount bracket in an acoustic ceiling Top Bracket (Mid-Mount Installation), 4.3.
4.3.1 Standard Standoff Mount Installation Note the following: • The installation procedure for the standoff mount provided with the RAU5x refers to wall and concrete ceiling installations. • When mounting the bracket on a wall the captive screw (indicated in Figure 4-1) should always be positioned in the same direction as the RAU5x connectors. • In wall-mount installations the connectors should face downwards.
4.3.1.2 For green-field installation with RxU67 Connect the cavity filter BEFORE connecting the unit: 1. Locate the following connection cables leading from the cable infrastructure: • DC wiring (80Watt required): • One pair for MAIN POWER connection • Optional: One pair for SECONDARY POWER (if required, to comply with the required 80Watt) Note: 80 Watt is required. If needed, use the secondary power connection to comply.
3. Connect the Filter to the RAU • Insert the 4 shoulder screws located on the RAU’s top into the wide end of the filter bracket dedicated keyholes Figure 4-3. Connect Mounting Filter to RAU; Tighten spring-locker • Slide the filter unit until the screws reach the narrow end of the screw rails. • Secure by manually tightening the captive screw. (Figure 5) 4.3.1.3 Mount the RAU5x onto the standoff mount 1. Insert the four RAU5x pins into the wide ends of the standoff mount key-holes. 2.
4. Close captive screw to secure RAU5x and standoff mount assembly. Figure 4-5. Closing Bracket Captive Screw 5. Using the supplied security cable, attach the RAU5x to a permanent structure within the ceiling (e.g., acoustic ceiling grid or concrete ceiling above).
4.3.2 Top Bracket (Mid-Mount Installation) This section provides instructions on how to assemble the RAU5x onto the mid-mount bracket and install the assembly in an acoustic ceiling. Note: RxU67 cannot be connected on the top panel in this scenario. ATTENTION! • Both the RAU5x and bracket plate must be secured to a permanent structure using safety cables.
4.3.2.2 Installing Bracket Assembly and Mounting RAU5x Note: The figures in this section, illustrate the top bracket installation with an RAU5x which includes the Corning external antenna. To install bracket and mount RAU5x 1. Install the plate in the ceiling and using the two safety cables, pre-connected to the middle safety rings of the plate, secure to secure to a permanent structure. Figure 4-7.
ATTENTION! • Plate must be secured before installing the RAU5x unit! • If the bracket is not secured via the two middle safety rings, it must be secured with safety cables via the four remaining safety rings. • A 3 in clearance is required from the surface above and below the RAU5x unit to allow for proper cooling airflow and for heat dissipation. • The installer is responsible for accommodating the installation to the surface type. 2.
4. Close Lift Bracket captive screw to secure RAU5x in place. Figure 4-10 Closing Lift Bracket Captive Screw Note: it is recommended to perform the RAU5x connections after the unit is secured to the Lift Bracket. 5. MANDATORY! Secure RAU5x using the attached safety cable to a permanent structure. Figure 4-11.
6. Push up and pull down Lift Bracket into plate and verify that connection cables are not subject to kinking. Note: The installer is solely responsible for proper cable wiring and routing of the RAU5x unit per instructions provided in relevant Corning documentation. Figure 4-12 Verifying that Cable Path is not Obstructed 7. Lock “Lift Bracket” into plate - push RAU5x and Lift Bracket back up into plate and lock RAU5x into place by closing the rotary knobs in the indicated direction. Figure 4-13.
Figure 4-14. Complete Assembled RAU5x Note: Refer to Section 4.3.2.3for RAU5x top bracket cap assembly (kit ordered separately) for RAU5x units without Corning external antenna.
4.3.2.3 Top Bracket Cap Assembly This section provides instructions on how to assemble the cap onto an installed RAU5x and “Top Bracket” assembly which does not include the Corning plug-in external antenna. Note the following: • Cap, RAU5x and Top Bracket are each ordered separately.
To assemble the cap 1. Hook wide fasteners onto top bracket plate. Note that the wide fasteners face towards the base of the lift bracket. Figure 4-16. Hooking Cap to Top Bracket plate 2. Lift up cap and hook narrow fasteners onto top bracket plate. IMPORTANT! Before closing cap make sure to secure it to a permanent structure in the ceiling! ATTENTION! The site engineer or contracted installer is responsible for all safety issues and procedures on-site! Figure 4-17.
To remove the cap Refer to following figures for instructions on how to remove cap in order to access the RAU5x. Figure 4-18.
4.3.3 Wall Bracket Mount This section provides instructions on how to assemble up to two RAU5x units onto the wall-mount bracket and mount assembly onto wall. Note: In this scenario, RxU67 can only be connected on the side, after completing the mounting. General Information • The instructions provided are intended for concrete/brick walls. • The RAU5x wall-mount bracket is only used with RAU5x models not including the preassembled external antenna.
Additional required item (not included): ¼ in bolts (x7) for mounting bracket on wall 4.3.3.2 Installing Wall Mount Bracket and Mounting RAU5x 1. Using the provided drilling template, mark a minimum of four holes to mount the bracket (if drilling only four holes, mark the four outer corner holes). Note: Image of drilling pattern with required distances also appears in Appendix A: Bracket Dimensions.
2. Align bracket with marked holes and drill anchors through bracket keyholes. ATTENTION! The installer is responsible for accommodating the installation to the surface type. Note: Insert the bolts in anchors and tighten until bolt head is 0.5” in from surface of wall. Figure 4-20. Drilling Anchors through Wall-Mountable Bracket Keyholes 3. Hang bracket on anchors and tighten. Figure 4-21.
4. Mount RAU5x on standoff mount and close captive screw to secure RAU5x to bracket. Figure 4-22. Mounting and Securing RAU5x Unit 5. For Second RAU5x – mount on second standoff mount and close captive screw to secure RAU5x to bracket. Figure 4-23.
6. Open and close bracket door to verify clearance for routing and connecting cables. Note: Installer is solely responsible for proper cable wiring and routing of the RAU5x unit per instructions provided in relevant Corning documentation. 7. Lock wall-mount bracket door. Figure 4-24.
4.4 Connect the Cables Note: This section references RAU5x, however connections are performed the same for both RAU5 and RAU5x models. Note: The cable connections slightly defer for systems with or without add-ons. Refer to the sections relevant to your system deployment. 4.4.
4.4.2 Connect the Cables Route the ground, RF, fiber and power cables located previously, between the standoff mount bracket and the RAU5x towards the interface connectors. Note: for each cable connection, two figures are shown: one indicating a configuration without RxU67, and the other showing a greenfield installation WITH Rxu67. Connect the cables as follows. • • • • • Grounding Connection Optical Fiber Connection Main Power Connections RF Connections Antenna Connections 4.4.2.
4.4.2.2 Optical Fiber Connection Connect the optical fiber pair to RAU5 module LC APC optical connector (see Figure 4-25) 4.4.2.3 Main Power Connections Note: The power consumption is the same for both RxU67 and RxU2325 modules. RAU5x “MAIN POWER” (for RAU5x and RAU5x+RxU67 + RxU2325) DC input power connections (see Figure 4-26) Connect the DC wire pair to the terminal block connector: • Power input range: 37 to 57 VDC • Wire size: 12-30 AWG • Maximum consumption: • RAU5x: 44.5 V; 48 W • RAU5x + RxU67: 44.
Figure 4-26 RAU5x Main Power DC Connections Corning Restricted Co rn in g O ptic a l Com m un icat io ns Us er Manual I CMA -4 82 -AE N I P age 5 5
4.4.2.4 RF Connections The RF connections depend on the specific configuration add-ons (with / without RxU67, RxU2325, GEM). Refer to the section relevant to your deployment: • • • • For Installations that include RxU67 Add-on, 4.4.2.4.1 For Installations without RxU67, 4.4.2.4.2 For RAU5x Installations that include RxU2325, 4.4.2.4.3 For RAU5x Configurations that include GEMs, 4.4.2.4.4 4.4.2.4.1 For Installations that include RxU67 Add-on Connect the cables between the RxU67 and the cavity Filter 1.
4.4.2.4.3 For RAU5x Installations that include RxU2325 • Connect the RxU2325 “ANT.” QMA connector to the external antenna. • Using the RF jumper (P/N 705A052301), supplied with the add-on, connect the RxU2325 “To RAU” QMA connector to the RAU5x “ANT External” QMA connector. Figure 4-29. RF Connections for RAU5x with RxU2325 • If required by site planner – perform (QMA) UL/DL external connections to external filters.
4.4.2.4.4 For RAU5x Configurations that include GEMs GEM Connections 1. Connect DC wire pair to the RAU5x Secondary Power DC input connector (see Figure 4-30): • Wire size: 12-30 AWG • Maximum consumption: • GEM: 4 W (RAU5x: 44.5 V ; 52 W; RAU5x + RxU/RxU2325 + GEM: 44.5 V; 78 W) • For 2 PoE ports of 802.3af: 43 V ; 31 W (Input range: 43 – 57 V DC) • For 2 PoE ports of 802.3af: 52 V ; 62 W (Input range: 52 – 57 V DC) Figure 4-30. RAU5x Main and Secondary DC Input Connections 2.
4.4.2.5 Antenna Connections For RAU5x models not including Corning external antenna: 1. Connect the RAU5x QMA “Ext. Ant.” connector to the external antenna, as illustrated in Figure 4-32. Note: for RAU5x units installed with RxU2325, the external antenna is connected to the RxU2325 “ANT.” port. Figure 4-32.RAU5x External Antenna Connection Note: See Section 3.6 for supported external antenna types. 4.
Module LED Description RAU5x LINK Steady green: Optical link power to/from the RAU5x is normal Blinking green: Optical power from remote is lower than required Off: No optical link detected Steady green: Input power detected by RAU5x Off: No power supplied to RAU5x Blinking green: RAU5x boot up sequence complete and module software up and running Off: No power supplied to the unit Blinking green: RxU2325 boot up sequence complete and module software up and running Off: No power supplie
5 RAU5X/RXU2325 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 RAU5x supports connections to external CELL and LTE Filters • The RxU2325 supports connections to an external LTE Filter. • In cases where an LTE External Filter is required and the RAU5x includes the RxU2325 module – both modules must be connected to an external LTE filter.
5.1.1 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 1 CVT700 – LTE; 0.5W; 698-716MHz; 777787MHz; IL=1.
5.1.3 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 5-1) and securing the assembly to the grid with the provided safety cable. Refer to Figure 5-3. Figure 5-3. Illustration of Cavity Filter Mounted on Acoustic Ceiling Grid 5.1.4 Wall Mount Installation To mount Cavity Filter on Wall 5.
7. Hang the Cavity Filter on the anchors/screws and pull down to lock in narrow end of key hole. Refer to Figure 5-5. Figure 5-5.
5.1.5 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 700 MHz band and the RAU5x is installed with an RxU – both RAU5x and RxU must be connected to an external LTE filter. See Figure 5-6 and Figure 5-7. Figure 5-6. Example of RAU5x External CELL Filter Connections Figure 5-7.
6 APPENDIX A: BRACKET DIMENSIONS Standoff Mount Figure 6-1.
Top Bracket Figure 6-2 RAU5x Top Bracket Dimensions Corning Restricted Co rn in g O ptic a l Com m un icat io ns Us er Manual I CMA -482 -AE N I P age 6 7
Wall- Mountable Bracket Figure 6-3.
Wall-Mountable Bracket - Drilling Pattern Dimensions Note: The drilling pattern template is provided with the wall-mountable bracket kit (P/N: BR-RAU5US-WALL). Figure 6-4.
7 APPENDIX B: UPGRADES This section describes how to upgrade the RAU5x with an RxU67, RxU2325, and/or GEM plug-in module for units ordered initially without these modules installed. 7.1 Package Contents Each plug-in module is ordered separately. Check the package contents for external damage. 7.1.
7.1.2 RxU2325 Package Item Description Quantity Remote Expansion Unit supporting 2300 MHz and 2500 MHz bands (RxU2325) Picture 1 Table 7-2. RxU2325 Package Contents 7.1.3 GEM Package Item Description Quantity Gigabit Ethernet module (GEM) 1 SFP – Fiber UPC Module (pre-inserted) 1 UPC to APC Adapter 2 Picture Table 7-3. GEM Package Contents 7.2 Installing the Plug-in Module in the RAU5x General Information • There is no need to dismount the RAU5x from mounting surface.
Figure 7-1.
7.2.1 Connect RxU2325 and/or GEM to the RAU5x To install RxU2325 and/or GEM plug-in module in RAU5x : 1. Plug-in module as follows: • RxU2325 – plug-in RxU2325 into right side of the RAU5x as indicated in Figure 7-2 (area highlighted in green in inset) and close the two screws to secure in place. • GEM - plug-in GEM into left side of the RAU5x as indicated in Figure 7-2 (area highlighted in blue in inset) and close the screw to secure in place. Figure 7-2.
7.2.2 Connect an RxU67 to the RAU5x For existing (brown-field) installations, where RxU67 is added to an already installed unit: follow the steps below to connect the RxU67 to the RAU5x. Note: When RxU67 is added to an already installed RAU5x, the cavity filter is connected differently: on the RAU5x side panel. For this scenario, refer to the on-site expansion instructions. To install RxU67 plug-in module in RAU5x : 7.2.2.1 Connect the RxU67 unit to the RAU5x 1.
7.2.2.2 Assemble the Cavity filter Note: When performing RAU5x green-field standoff installation (either ceiling or wall), the cavity filter is connected to the RAU5x top. For wall bracket mount, the cavity filter is connected to the side, after mounting the RAU5x. 7.2.2.2.
7.2.2.2.2 1. 2. 3. 4. 5. Connect the RXU67-on-RAU Mounting Bracket to the RAU Access the RAU (if needed – e.g. for dual-mounted RAUs – open the mounting door). Selected the optimal mounting position (see previous section) Open the RXU67-on-RAU Mounting Bracket by releasing the screw. Slide the bracket on the RAU unit, on top of the fins. Secure the bracket to the RAU by closing the screw manually and firmly. Figure 7-5. Attach cavity filter 7.2.2.2.3 1. 2. 3. 4.
5. Release the plunger pin and verify it enters its slot and holds the bracket in its place 6. Secure the bracket in its place by tightening the screw using a flat head screw-driver. Note: Ensure the RAU connectors are facing the same direction as the RAU connectors! Figure 7-7.
8 APPENDIX C: SPECIFICATIONS System Level RF Parameters per Service Service/Band RF Parameter Frequency Range (MHz) Maximum Output Power Per Antenna Port (dBm)** 600 MHz LTE & FN 700 MHz DL DL 617652 UL 663698 UL 729768 ESMR800/ CELL850 MHz DL UL PCS 1900 MHz DL UL AWS 1700 MHz DL UL 862817- 1930 - 1850 2110 1710 699869/ 824/ 1995 1755 716 869-894 8241915 2155 849 777798 AWS+AWS3‡ 1700 MHz DL UL 2110 2180 WCS 2300 MHz DL 1710 - 2350 1780 2360 UL 2305 2315 LTE 2500 MHz TDD DL UL 249
Optical Optical Output Power < 9 dBm Maximum Optical Budget 5 dB Back Reflectance - 60 dB Optical Connector LC APC SM Fiber Type Corning® SMF-28® fiber or compatible Wavelength 1310 ± 10nm (@ 25◦ C) Environmental Specifications Operating Temperature 0C to +50C (32F to 122F) Storage Temperature -20C to 85C (-4F to 185F) Standards and Approvals Laser Safety FDA/CE 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice no.
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 RJ45 MGMT (local) connection RxU/RxU2325 module interface – RF GEM Interface –fiberand digital Antenna Omni-Directional (15◦ down from horizon) Power Consumption For Main Power Input: Input Ra
Ambient Temperature: Environment Wall-mount installations: 45◦C (113◦F) Ceiling-mount installations: 50◦C (122◦F) Remote Expansion Unit (RxU67) Supported Services Upgrade module supporting two services AWS MIMO and LTE 700 MIMO Interfaces Three pins for integration with RAU5/RAU5x(power, control and RF) Management Management via host RAU5/RAU5x Physical Characteristics Mounting: Plugs into RAU5/RAU5x Dimensions (H x W x D): 1.09 x 12.8 x 9.8 in (27.7 x 327.5 x 250 mm) Weight: 3.08 lbs (1.
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 maximum 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 5.6 x 3.8 x 1.
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 1.6 in (159 x 75 x 42 mm) Gigabit Ethernet Module (GEM) GEM –Ethernet over fiber-to-copper. 10/100/1000BASE-T Ethernet 1000BASE-X fiber. Two 802.3 at compliant Power over Ethernet (PoE) PSE ports Interfaces GEM – L2 switch contains: One 1000BASE-X fiber SFP Two 10/100/1000BASE-T with 802.
9 APPENDIX D: ORDERING INFORMATION RAU5x Remotes Part Number Description RAU5XUS Remote access unit, five band remote supporting: ESMR 800/CELL 850, LTE 700, AWS+AWS3 1700 and PCS 1900 RAU5XUS-A Remote access unit, supporting five bands and broad-band antenna. ESMR 800/CELL 850, LTE 700, AWS+AWS3 1700, and PCS 1900; With antenna assembled (P/N: RAU5US-ANT) Note: for add-ons ordering information (RxU67, RxU2325, GEM), refer to the relevant specs.
