ONECELL® RP5200 Hardware Installation Guide Release 5.5 Document Number: M0304AG Document Revision: 5.5.
Copyright 2021 CommScope, All rights reserved. THIS DOCUMENT HAS BEEN DEVELOPED BY COMMSCOPE, AND IS INTENDED FOR THE USE OF ITS CUSTOMERS AND CUSTOMER SUPPORT PERSONNEL. THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED.
Contents Document revision history About this document Audience ...................................................................................................................... xi Purpose......................................................................................................................... xi What you need to know ............................................................................................... xi Customer documentation ..................................................
Contents Appendix C Specifications Environmental and physical specifications............................................................... C-1 SPF/SPF+ specifications........................................................................................... C-2 Appendix D Cable installation and power separation guidelines DRAFT Overview...................................................................................................................D-2 Cable handling ..................................
Contents DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
List of figures Figure 1-1 Figure 1-2 Figure 2-1 Figure 2-2 Figure D-1 Figure D-2 Figure D-3 Figure D-4 Figure D-5 Figure D-6 Figure D-7 ONECELL solution .........................................................................1-3 Baseband Controller ports ...............................................................1-5 CommScope ceiling mount kit (CommScope PN ????)..................2-3 Drop rail (CommScope PN ?????) ..................................................2-4 Unreel cable ....................
List of tables Table 1 Table 2 Table 1-1 Table A-1 Table C-1 Table D-1 Customer documentation ....................................................................xii Conventions .......................................................................................xiii Baseband Controller physical port assignments.................................1-4 RF exposure for ONECELL at maximum power internal antennas for RP5200 .........................................................................
DRAFT List of tables viii M0304AG 5.5.
Document revision history The following section lists documentation changes in ONECELL® RP5200 Installation Guide, v5.5 (M0304AG). Revision 5.5.01 (April 20, 2021) • Initial document release DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT Document revision history x M0304AG 5.5.
About this document This document provides the procedures for installing RP5200 Radio Points. Audience This document is written for computer hardware installers and administrators, network architects and business planners who are responsible for the planning and design of the CommScope ONECELL deployment environment. Purpose This guide provides the information necessary for installing the RP5200 hardware in the operator’s network.
About this document Table 1. Customer documentation Title Contents ONECELL® Feature Guide, v5.5 (M0304AE) Contains a description of anchor features for the current and previous releases, and a system overview, including CommScope provided components and required components from other vendors. ONECELL® Network Planning Guide, v5.
About this document Conventions This guide uses the following text conventions, as applicable. Table 2. Conventions Convention Description Syntax symbols <> Enclose a required parameter or set of parameters. For example: >band-class is a required parameter. [] Enclose an optional parameter or set of parameters. For example: >activate image [reboot] [reboot] is an optional parameter. | Separates items on a list of parameters, only one of which can be used.
About this document Table 2. Conventions Convention Description Plain italic font Indicates file names, directory paths, book titles, chapter titles, and user accounts. Bold font Indicates text that appears on screen exactly as shown, for example, names of screens, names of buttons, items on menus, and items on pull down lists. blue text Indicates a hypertext link. Other conventions > Indicates graphical user interface (GUI) menu path.
Chapter 1 CommScope ONECELL® overview This chapter contains a high level overview of the ONECELL deployment and the ONECELL components installed in the ONECELL system. Overview 1-2 CommScope ONECELL system 1-2 ONECELL hardware components 1-3 DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 1 CommScope ONECELL® overview Overview ONECELL is a revolutionary wireless system that can deliver the ultimate in wireless performance.
Chapter 1 CommScope ONECELL® overview Figure 1-1. ONECELL solution ONECELL hardware components The ONECELL hardware consists of the following components: • Baseband Controller — Baseband Controller Chassis — Baseband Controller Module — Power/Fan Unit (PFU) • Radio Points — RP2000 series Baseband Controller physical ports DRAFT — RP5000 series The following ports are on the front panel of the Baseband Controller Module. Table 1-1 shows the port assignments.
Chapter 1 CommScope ONECELL® overview Table 1-1. Port Assignment Baseband Controller physical port assignments Network Port Speed Media Type Description MGMT Local Management 1 Gbps RJ45 External Interface to access the WebGUI on the Baseband Controller. 0 Not used 1 Gbps RJ45 Not used 1-6 IQ Data 1 Gbps RJ45 Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via an Ethernet switch on copper (RJ45) port.
Chapter 1 CommScope ONECELL® overview Figure 1-2. Baseband Controller ports Copper wire ports Fiber optic ports DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT Chapter 1 CommScope ONECELL® overview 1-6 M0304AG 5.5.
Chapter 2 RP5200 installation This chapter describes installing RP5200 Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. RP5200 installation overview 2-2 Ceiling mount 2-3 DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation RP5200 installation overview The RP5200 is the Radio Point for indoor solutions. There are two configurations for installing the RP5200, which are dependent on the ceiling type. NOTE NOTE • Ceiling mount • Wall mount Once the Radio Point is installed and powered on, it may take up to 20 minutes for the frequency to stabilize and lock. If the MR port is connected to a switch that does not provide IEEE802.
Chapter 2 RP5200 installation Ceiling mount Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope: • Radio Point plate and screws • 4" octagon box, 1-1/2" deep with 1/2" side cutouts • Clamp and screw Figure 2-1. CommScope ceiling mount kit (CommScope PN ????) DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation Figure 2-2. Drop rail (CommScope PN ?????) Drop rail DRAFT Clamp 2 screws 2-4 M0304AG 5.5.
Chapter 2 RP5200 installation Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. 2 Place the RP plate on the tile and mark the four holes on the tile. DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation 3 Cut the opening according to the dimensions in the following drawing. 4 Attach the octagon box to the ceiling bracket using a clamp and screw. Clamp DRAFT Drop ceiling rail 2-6 Octagon box Screws M0304AG 5.5.
Chapter 2 RP5200 installation 5 Replace the ceiling tile with the cutout. 6 Install the drop rail/octagon box assembly over the modified tile. DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation 7 Attach the mounting plate onto the octagon box on the RP side of the tile. DRAFT Need drawing 2-8 M0304AG 5.5.
Chapter 2 RP5200 installation 8 Attach base plate to the Radio Point. 9 Install the blue and red Ethernet cables provided in the mounting kit on the RP as shown below. DRAFT 10 Is there a step for connecting the RP Ethernet cables to the switch Ethernet cables? 11 Attach the RP to the octagon plate. ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT Chapter 2 RP5200 installation 2-10 a Align the keyhole opening on the octagon mounting plate with the button on the RP mounting plate. b Lift the RP vertically and slide it into the locked position. 12 Mount the Radio Point on the octagon box plate. Is this the correct location for this step? Delete this this step M0304AG 5.5.
Chapter 2 RP5200 installation Need drawing 13 Replace the ceiling tile next to the Radio Point. DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation Mounting the Radio Point above the ceiling tile Remove ceiling tile from the overhead. DRAFT 1 2-12 M0304AG 5.5.
Chapter 2 RP5200 installation 2 Attach the octagon box to the bracket. NOTE: CommScope recommends an Eaton B-line – BA50A adjustable bracket. Clamp Drop rail Octagon box Screw DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation 3 Attach the bracket to the mounting plate to the octagon box. DRAFT Need revised drawing 2-14 4 Attach plate to the Radio Point. 5 Install the blue and red Ethernet cables provided in the mounting kit on the RP as shown below. M0304AG 5.5.
Chapter 2 RP5200 installation 6 Is there a step for connecting the RP Ethernet cables to the switch Ethernet cables? 7 Attach the RP to the octagon plate. Align the keyhole opening on the octagon mounting plate with the button on the RP mounting plate. b Lift the RP vertically and slide it into the locked position. ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation 8 Mount the Radio Point on the octagon box plate. Is this the correct location for this step? DRAFT Need drawing 2-16 M0304AG 5.5.
Chapter 2 RP5200 installation 9 Install drop rail above the ceiling tile. Need revised drawing with new plates DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter 2 RP5200 installation Need revised drawing 3” Ceiling tile NOTE: Replace the ceiling tile next to the Radio Point. The minimum clearance for cooling is 3 inches. DRAFT 10 Replace the ceiling tile. 2-18 M0304AG 5.5.
Chapter 2 RP5200 installation DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT Chapter 2 RP5200 installation 2-20 M0304AG 5.5.
Appendix A Safety This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Radiation Exposure Statement A-2 Human exposure limits for ONECELL deployments A-2 FCC ID A-5 DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Chapter A Safety Radiation Exposure Statement Important: Changes or modifications not expressly approved by CommScope LLC could void your authority to operate the equipment. FCC Part 15 The Baseband Controller and RP5100 have been tested and found to comply with the limits for Class A equipment, pursuant to Part 15 of the FCC Rules. NOTE This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
Chapter A Safety Table A-1 includes values for one RP5200 Radio Point and four Radio Points per chassis. Table A-1. RF exposure for ONECELL at maximum power internal antennas for RP5200 RPM-A5A11B66 RPM-A5A11B02 RPM-I5A11B01 RPM-I5A11B03 RPM-I5A11B07 24.13 24.23 24.25 24.00 24.70 Tx Loss (dB) 0 0 0 0 0 Tx Antenna Gain (dBi) 4 4 4 4 4 100 100 100 100 100 2 2 2 2 2 Contribution due to multiple antennas (dB) 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW) 1.
Chapter A Safety RPM-I5A11B17 RPM-A5A11B12 RPM-A5A11B14 RPM-A5A11B05 RPM-A5A11B30 100 100 100 100 100 2 2 2 2 2 Contribution due to multiple antennas (dB) 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW) -1.290 -1.110 -1.540 -3.410 -1.000 12 12 14 5 30 Frequency Range (MHz) 734-746 729 - 746 758 - 768 869-894 2350-2360 Point Source Total EIRP (watts) 0.743 0.775 0.702 0.456 0.794 Power Density (W/m2) @ 20 cm 1.478 1.541 1.396 0.907 1.
Chapter A Safety FCC ID The FCC ID is available on the information labels attached to the RPs. RP5200 For the RP5200, the FCC ID for each of the installed radio modules is visible when the cover is removed. The drawing below shows the label on the radio module. DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT Chapter A Safety A-6 M0304AG 5.5.
Appendix B Installation troubleshooting This section contains information on troubleshooting the ONECELL installation. It includes the LED patterns for the Baseband Controller and Radio points. Radio Point RP5200 LED patterns B-2 DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Appendix B Installation troubleshooting Radio Point RP5200 LED patterns The Radio Point RP5200 supports six LEDs on the front cover. DRAFT Indicators are for B-2 • four radios (one for each) • ETH 1 – MR PORT:POE++, POE+, Ethernet link • ETH 2– SR PORT:POE++, POE+, Ethernet link ETH 1, 2 RADIO 1, 2, 3, 4 The following table shows: • Display pattern for each LED • What the pattern indicates M0304AG 5.5.
Appendix B Installation troubleshooting • Action to take, if any, to resolve the issue Display Pattern Indicates Action to Take RADIO 1 RADIO 2 RADIO 3 RADIO 4 Green, solid Power On, transmitting None Amber, solid • RFTxState OFF • No Controller Assigned • No Timing • Check 1588 VLAN configuration • Verify that the Radio Point is in STANDBY because more than 32 RPs are connected Red, solid • No connection to Controller • HW error • Low Power Hardware error – replace Radio Point Green, blinki
DRAFT Appendix B Installation troubleshooting B-4 M0304AG 5.5.
Appendix C Specifications This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Environmental and physical specifications C-1 SPF/SPF+ specifications C-2 Environmental and physical specifications The following table lists the electrical ratings and technical data for the RP5200. Table C-1.
Appendix C Specifications SPF/SPF+ specifications The following table lists the SPF and SPF+ specifications required for the Baseband Controller. 1G SFP LC SX Transceiver; 220M to 1K M 1G SFP LC LX transceiver, 550M 10K M 10G SFP+ LC SR Transceiver; Multi mode 26M to 300M SFP-10G-LR Transceiver; Single mode 10KM 10G Direct attach SFP+ cable; Twin ax Cable; 7M (must be compatible with HP & Cisco DRAFT switches C-2 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines This section contains best practices for installing Ethernet cables and connecting them to RPs. Overview D-2 Cable handling D-2 Cable termination D-3 Lightning protection D-12 Ceiling connector D-15 Patch panel D-17 Power separation guidelines D-17 DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Appendix D Cable installation and power separation guidelines Overview When installing Rugged RPs, cables that can withstand temperature extremes and inclement weather should be used. In outside environments, avoid contamination or damage to plugs. Plugs must be protected from sunlight and water in a suitable equipment housing or NEMA 4 rated box. It is also important to avoid exposure to water at cut ends of unfilled cables and cords.
Appendix D Cable installation and power separation guidelines Figure D-2. Cable with sock attached using tie wrap Sock Conduit Tie-wrap Feed the sock through the conduit and secure the sock on the terminal end of the cable with the tie-wrap. Once the sock and tie-wrap are in place, pull the cable through the conduit. Cable termination Before installing the Rugged RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. Figure D-3.
Appendix D Cable installation and power separation guidelines Use the split grommet provided. Once it is in place, coat it with silicone to ensure the connector is sealed. Figure D-4. Assembling the connector on the RP end Cable splicing DRAFT Some cables are run in one piece from source to destination and have connector terminations. In other cases, two shorter pieces of cable need to be spliced together.
Appendix D Cable installation and power separation guidelines 2 Position the filled tube to overlap the end of the inner jacket and seal the gel. Clean off all excess sealant. NOTE: Tape can be used to stabilize the tube for immediate termination before the sealant sets. DRAFT Cable termination Shielded cables must be properly terminated, either grounded or isolated. For exposed installations requiring protection, the end of the shield can be bonded in various ways.
Appendix D Cable installation and power separation guidelines Pull back the jacket along the slit and remove. DRAFT 2 D-6 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines 3 Fold back the foil shielding and drain wire to expose the inner jacket. 4 Prepare the inner jacket for blocking the gel and direct burial. a Cut back the inner jacket b Trim the flute c Clean the excess gel NOTE: The flute can be cut longer to match the blocking tube length. DRAFT ONECELL® RP5200 Hardware Installation, Release 5.
Appendix D Cable installation and power separation guidelines Fill all space inside the tubing with B-sealant and position the filled tube to overlap the end of the inner jacket and seal the gel. 6 Fold the drain wire and foil back over the tube and position the foil to be folded back over the tube. DRAFT 5 D-8 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines An extra piece of foil can be used to cover the foil seam. 8 For an HGS620 termination, wrap the drain wire at least two times around and position it where the spring clips will capture them. 9 Tape over the foil for stability. 10 Trim the wire ends. ONECELL® RP5200 Hardware Installation, Release 5.
Appendix D Cable installation and power separation guidelines Cable grounding For CAT-6A cables, the shield termination method is to use the ground lug and Bbond clip that are available in the 12A1 Grounding Kit. Fold the foil back over the jacket end and wrap the drain wire around the end and push the ground lug over the wrap. DRAFT 1 D-10 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines Open the B-bonding clip to be placed and closed over the grounding lug. 3 The lug tail can be cut off or used for ground attachment. 4 Treat the inner jacket as described in step 4 on page D-7. ONECELL® RP5200 Hardware Installation, Release 5.
Appendix D Cable installation and power separation guidelines For an isolated shield termination, the 1572A and 1592A outer jacket foil and drain wire are removed a short distance back from the termination and electrical tape is used to isolate the foil end. Lightning protection CommScope recommends including lightning protection in your ONECELL system to isolate equipment from surge damage.
Appendix D Cable installation and power separation guidelines Figure D-5. CAT6-A lightning protector Outdoor protection The following is an example of a pole mounted CAT-6A configuration for protecting remote equipment installed outdoors. Table D-1 lists the recommended parts for installing the protection equipment. Table D-1.
Appendix D Cable installation and power separation guidelines Figure D-6. Remote equipment protection for outdoor devices Back panel NEMA 4x enclosure Bottom Mounted Liquid Tight Cordgrips Ground Buss Enclosure should be mounted close to the equipment for the best protection. DRAFT NOTE Bottom Mounted Liquid Tight Bushing D-14 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines Figure D-7. Protector box mounted to pole Pole Mount kit Minimize excess cord length DRAFT Ceiling connector If surge protection is not needed, gel flooded cables can be blocked and transitioned to indoor cable using a ceiling connector. The following link is for the recommended CommScope part. Ceiling connector 1 Terminate the indoor cable first – then lay down a bed of B sealant. ONECELL® RP5200 Hardware Installation, Release 5.
Appendix D Cable installation and power separation guidelines Clean all gel from the end of the OSP cable. 3 After the cable and conductors are positioned, fill the area around the cable end with sealant and close the connector housing. DRAFT 2 D-16 M0304AG 5.5.
Appendix D Cable installation and power separation guidelines Patch panel CommScope recommends installing a patch panel in the NOC to connect and manage CAT-6A cables. The following is a list of recommended CommScope 24 and 48 port patch panels and high density information outlets. • 760163436_HFTP-HD6B-1U-24 • 760163444_HFTP-HD6B-2U-48 • 760163451_HFTPA-HD6B-1U-24 • 760163469_HFTPA-HD6B-2U-48 • 760163519_HFTP-J6 • 760163527_HFTP-J10G For more information, go to CommScope.
DRAFT Appendix D Cable installation and power separation guidelines D-18 M0304AG 5.5.
B ONECELL® RP5200 Hardware Installation, Release 5.
DRAFT ONECELL® RP5200 Hardware Installation, Release 5.5 M0304AG 5.5.