Chassis replacement and upgrade instructions (30 pages)
Summary of Contents for Cisco Universal Broadband Router Cisco uBR10012
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Cisco uBR10012 Universal Broadband Router Hardware Installation Guide October 2011 Americas Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 http://www.cisco.com Tel: 408 526-4000 800 553-NETS (6387) Fax: 408 527-0883 Text Part Number: OL-18259-09...
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Modifications to this product not authorized by Cisco Systems, Inc. could void the FCC approval and negate your authority to operate the product. The Cisco implementation of TCP header compression is an adaptation of a program developed by the University of California, Berkeley (UCB) as part of UCB’s public domain version of the UNIX operating system.
Preface Document Revision History Purpose Audience Document Organization Related Documentation Conventions Safety Information Referral Warning Terms and Acronyms Obtaining Documentation and Submitting a Service Request Cisco uBR10012 Universal Broadband Router Overview C H A P T E R Cisco uBR10012 Router Features Comparisons with Other Cisco CMTS Platforms Cisco uBR10012 Router Functional Overview Upstream Data Path...
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Contents PRE2 Modules PRE4 Modules Redundant PRE Modules PRE Module Description Connector Ports PC Media Card Slots LCD Screens PRE LED Indicators and Buttons PRE Module Disposal SIP and SPA Compatibility Timing, Communication, and Control Plus Card DOCSIS Timing, Communication, and Control Card Cable Interface Line Cards Cisco uBR-MC5X20S/U/H Cable Interface Card Cisco uBR10-MC5X20S...
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Environmental Site Requirements Temperature and Humidity Requirements Power Guidelines Power Connection Guidelines for DC-Powered Systems Plant Wiring Guidelines Interference Considerations Cabling Guidelines Ethernet and Fast Ethernet Connections Fiber-Optic Connections Rack-Mounting Considerations Mounting Guidelines Using Power Strips with a Rack-Mount Installation Installing the Cisco uBR10012 Router C H A P T E R Installation Methods...
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Contents Connecting the Lineage Power Shelf to the UBR-PWR-DC= Module Connecting the Lineage Power Shelf to the UBR-PWR-DC-PLUS= Module Connecting the Alarm Monitor Cable Prerequisites Required Tools and Equipment Steps Disconnecting Cables from the Lineage AC-DC Power Shelf and the Cisco uBR10012 Router Connecting DC Power to the Cisco uBR10012 Router Recommended Tools and Supplies Connecting the Cisco uBR10012 Chassis to a DC Power Source...
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Formatting PC Media Cards Troubleshooting the Installation C H A P T E R Troubleshooting Methods Before You Call for Technical Assistance Problem Solving Using a Subsystems Approach Troubleshooting Installation Problems General Troubleshooting Tips Troubleshooting Ethernet Connections Troubleshooting the Console Port Serial Connection Identifying Startup Problems Troubleshooting the Power Subsystem Troubleshooting the AC Power Subsystem...
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Contents Removing and Replacing a Network Line Card Removing the Network Line Card Installing the Network Line Card Removing the Half-Height Gigabit Ethernet Line Card and the Slot Splitter Removing a Half-Height Gigabit Ethernet Line Card Removing the Slot Splitter Replacing the Slot Splitter and Half-Height Gigabit Ethernet Line Card Installing the Slot Splitter Installing the Half-Height Gigabit Ethernet Line Card...
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NTSC (M) Cable Television Channel Frequencies for Japan NTSC Cable Television Channel Frequencies for the Republic of Korea PAL/SECAM Cable Television Channels and Relative Frequencies PAL SECAM (D/K) Cable Television Channel Frequencies for the People’s Republic of China Manufacturers for Hardware Components A P P E N D I X North American Channel Plans European Channel Plans...
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Figure 1-1 Cisco uBR10012 Universal Broadband Router—Front View with Front Cover Figure 1-2 Cisco uBR10012 Router Chassis—Front View without the Front Cover Figure 1-3 Cisco uBR10012 Router Chassis—Rear View Figure 1-4 Cisco uBR10012 Chassis Slot Numbering—Rear View Figure 1-5 Cisco uBR10012 Chassis Slot Numbering—Front View Figure 1-6 Lineage AC-DC Power Shelf - Front and Rear View Figure 1-7...
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Figures Figure 3-11 Ferrite Beads on Ground Cable and Alarm Cable Figure 3-12 Ferrite Beads Attached on DC-input Power Cables Figure 3-13 Ferrite Beads on the Lineage Power Shelf Figure 3-14 Attaching Grounding Wire to the Grounding Lug Figure 3-15 Location of the Ground Lug Connectors Figure 3-16 Lineage AC-DC Power Shelf Connected to UBR-PWR-DC= PEM Module...
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Figure 5-5 Stripping Insulation Figure 5-6 Alarm Terminal Block Connections Figure 5-7 Loosening the Captive Screws Figure 5-8 Opening the Ejector Levers Figure 5-9 Removing the PRE Module from the Chassis Figure 5-10 Inserting the PRE Module in the Chassis Figure 5-11 Closing the Ejector Levers Figure 5-12...
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Table 1-1 DOCSIS and EuroDOCSIS 1.1 Upstream Data Rates Table 1-2 DOCSIS and EuroDOCSIS 2.0 Upstream Data Rates Table 1-3 DOCSIS and EuroDOCSIS Downstream Data Rates Table 4 Specifications of the DC PEM modules Table 1-5 Supported External Power Shelves for Cisco uBR10012 Router Specifications Table 1-6 Cisco uBR10012 Router DC PEM Modules and Lineage Shelves Table 1-7...
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Tables Table B-2 Auxiliary Port Signaling Table B-3 10Base-T RJ-45 Connector Pinouts Table C-1 Analog Television System Baseband Video Parameters Table C-2 Analog Television Chrominance Subcarrier Frequencies Table C-3 Analog Television System RF Parameters Table C-4 NTSC Cable Television Channels and Relative Frequencies Table C-5 Japanese Channel Assignments Table C-6...
Preface This section describes the purpose, audience, organization, and conventions used in this guide. This section also provides a revision history and a list of related documents as well as instructions for obtaining technical assistance and additional information. Document Revision History Date 11/10/2011 20/06/2011...
Date 06/28/2005 10/18/2004 12/20/2003 03/20/2001 Purpose This installation guide explains the initial hardware installation and basic configuration procedures for the Cisco uBR10012 universal broadband router. It contains procedures for installing the router hardware, creating a basic software configuration file, and starting up the router. After you complete the installation and basic configuration procedures covered in this guide, use the appropriate companion publications to more completely configure your system.
Preface Chapter Chapter 5 Appendix A Appendix B Appendix C Appendix D Related Documentation The following is a list of documents and URLs for the Cisco uBR10012 router: • Cisco uBR10012 Universal Broadband Router Software Configuration Guide http://www.cisco.com/en/US/docs/cable/cmts/ubr10012/configuration/guide/scg.html Regulatory Compliance and Safety Information for the Cisco uBR10012 Universal Broadband •...
For information on IP, refer to the Network Protocols Configuration Guide, Part 1 and the – Network Protocols Command Reference, Part 1 publications. You can also refer to the Cisco IOS software release notes for the version of software you are using on your Cisco uBR10012 router.
Preface Terms and Acronyms To fully understand the content of this guide, you should be familiar with the following terms and acronyms: A complete list of terms and acronyms is available in the Internetworking Terms and Acronyms guide, Note available on Cisco.com and the Documentation CD-ROM. Also see the Glossary section at the end of this guide.
OIR—Online insertion and removal • PCI—Peripheral Component Interconnect • PCMCIA—Personal Computer Memory Card International Association • PPP—Point-to-Point Protocol • QoS—Quality of service • rcp—remote copy protocol • RFI—Radio frequency interference • RIP—Routing Information Protocol • RISC—Reduced Instruction Set Computing • RTS—Request To Send •...
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C H A P T E R Cisco uBR10012 Universal Broadband Router Overview The Cisco uBR10012 universal broadband router provides a high-end, high-performance, high-capacity Cable Modem Termination System (CMTS) solution. The Cisco uBR10012 router is an aggregation platform that places a new level of intelligence and performance at the edge of the network, enabling cable service providers to maximize their revenues by delivering more feature-rich services to their customers.
Cisco uBR10012 Router Features Cisco uBR10012 Router Features The Cisco uBR10012 router has the following features: 19-inch rack mount, 22.75-inch depth. See • 31.5-inch height, 18 Rack Units (RU)—2 chassis per 7-foot rack • Twelve card slots: • 8 cable interface line cards –...
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Fan module—Forced-air convection cooling, see • Variable speed levels. The operating speed of the fan is determined by the temperature of the – facility. Multiple fans in the fan assembly provide redundancy to support single failure. –...
Cisco uBR10012 Router Functional Overview Upstream Data Path The following example describes the upstream data path. A request for service is generated by a subscriber. The modem transmits the request as a series of packets to the CMTS on the upstream. The cable line card receives the packets on its upstream interface and forwards them to its onboard processor.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Each ASIC decodes the header to determine if the packet is destined for one of the downstream ports on that card. If so, the downstream header is removed and the 802.3 MAC header is saved. The MAC header is processed to determine how to build the DOCSIS MAC header and what operations to perform on the packet.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview NEBS Level 3 Compliance The Cisco uBR10012 router is Network Equipment Building System (NEBS) Level 3 compliant. This includes the following categories: Filtration and front to back airflow • Transportation and storage •...
Cisco uBR10012 Universal Broadband Router Hardware Figure 1-1 shows the front of the Cisco uBR10012 router with the front cover installed. Figure 1-1 CIS CO 100 00 CIS CO P O W E R 100 00 M IS W IR FA U LT ALA RM S ALA RM S...
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Figure 1-2 shows the front of a fully loaded chassis without the front cover. Figure 1-2 is a sample representation of the Cisco uBR10012 chassis with the DC PEM Note (UBR10-PWR-DC=) modules. Figure 1-2 CIS CO 100 00...
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Cisco uBR10012 Router Slot Numbering Figure 1-4 shows the slot numbering for the line cards and TCC+ cards in the rear of the chassis. The Cisco uBR5X20S/U cable interface line cards are used in this Figure 1-4 Half-height Gigabit Ethernet (HHGE) line cards use slot 3 and slot 4 only.
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Cisco uBR10012 Universal Broadband Router Hardware Figure 1-5 shows the slot numbering for the Fast Ethernet interface on the active PRE module. Figure 1-5 FastEthernet slot 0/0 (on active PRE1) The Fast Ethernet interface on the backup PRE is not used unless the primary PRE fails and the backup PRE is activated.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Cisco uBR10012 Universal Broadband Router Modules The following section describes the modules used in the Cisco uBR10012 router. For a list of field replaceable units (FRUs) used in this chassis, see Fan Assembly Module The Cisco uBR10012 chassis uses a fan assembly module containing fans to supply cooling air to the chassis.
Cisco uBR10012 Universal Broadband Router Modules DC Power Entry Modules The Cisco uBR10012 router is shipped with two DC power entry modules (DC PEMs) that provide power to the system. One DC PEM can provide sufficient power for a fully configured chassis. However, if one DC PEM fails, the other automatically begins providing power to the entire chassis, without impacting the system operation.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Supported External AC-Input Power Shelves If 100–120 VAC is the only available power source at the facility, then use the external AC-input power shelf with the Cisco uBR10012 router The AC-input power shelf converts AC power from an external AC power supply source into DC power that is suitable for powering on the Cisco uBR10012 router.
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Cisco uBR10012 Universal Broadband Router Modules way that the power connections reside facing inside the rack when viewed from the front. This allows the DC output terminals of the external AC-input power shelf to be on the same side as the DC-input terminals of the Cisco uBR10012 chassis.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Figure 1-7 DC power supply cables AC power supply cables To meet compliance standards, use the DC power cables (3 m cable supplied along with Lineage power shelf), while cabling the Lineage AC-DC power shelf to the Cisco uBR10012 chassis. Ensure proper rating and fit in the chassis when connecting the cables into the input DC terminal block on the backplane of the Cisco uBR10012 chassis.
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Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Cisco uBR10012 Universal Broadband Router Modules Figure 1-8 LCD Module Display Panel Keypads Note The LCD module functions depend on the release of the Cisco IOS software running on your Cisco uBR10012 router. Refer to the release notes for the Cisco IOS release you are using, and the Cisco uBR10012 Software Configuration Guide, for details.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview LCD Cable The LCD ribbon cable connects the LCD module to the backplane. The folded end is connected to the LCD module. See Figure 1-9 LCD module Fold Performance Routing Engine There are four models of PREs, the original PRE module that was initially shipped with the Cisco uBR10012 router, the PRE1 module that began shipping with Cisco IOS Release 12.2(4)XF, the PRE2 module that is shipping with Cisco IOS Release 12.3(9)BC, and the PRE4 module that is shipping with Cisco IOS Release 12.2(33)SB.
Cisco uBR10012 Universal Broadband Router Modules combination of a general purpose RISC processor with advanced programmable PXF network processors provides the capacity to support the aggregation of thousands of active connections in a single Cisco uBR10012 chassis when supporting IP applications such as access policy filtering, rate-based queuing, and QoS.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Redundant PRE Modules The PRE module supports redundant operation (two PRE modules in a Cisco uBR10012 chassis). If the primary PRE fails, the secondary PRE automatically takes over operation of the chassis. Because all Cisco uBR10012 line cards are physically connected to both the primary and secondary PRE modules, a switchover of PRE modules does not require human intervention to reset the line cards, as they automatically fail over to the redundant PRE.
Cisco uBR10012 Universal Broadband Router Modules Ejector levers Console and Auxiliary ports Network Management Ethernet (NME) port NME Activity and Link LEDs Reset button Alarms: Critical, Major, Minor LEDs Connector Ports The faceplate on the PRE contains three ports with RJ-45 connectors: Console port—This asynchronous EIA/TIA-232 serial port is used to connect a terminal to the PRE •...
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview on the (primary) PRE during an alarm condition shuts off the external alarm, but does not deactivate the alarm LEDs on the PRE faceplate. Alarm LEDs on the faceplate are deactivated only after the condition that caused the alarm is corrected.
Cisco uBR10012 Universal Broadband Router Modules SIP and SPA Compatibility The Cisco uBR10012 router currently supports the following SIPs: Cisco Wideband SIP for the Cisco Wideband SPA • Cisco 10000 Series SPA Interface Processor-600 • The Cisco Wideband SIP can support up to two Cisco Wideband SPAs. The Cisco uBR10012 router can support up to six SPAs.
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Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Cisco uBR10012 Universal Broadband Router Modules Figure 1-13 TCC+ Card Faceplate The faceplate on the TCC+ card has seven LEDs labeled POWER, STATUS, MAINT, PRESENT, and ACTIVE. Separate PRESENT and ACTIVE LEDs are associated with the primary and secondary external clock reference inputs.
DOCSIS Timing, Communication, and Control Card DOCSIS Timing, Communication, and Control Card On the Cisco uBR10012 universal broadband router, the DTCC card acts as a secondary processor that performs the following functions: In the default DTI mode, a 10.24 MHz clock and 32-bit DOCSIS timestamp are generated by the •...
Cable Interface Line Cards Cisco UBR-MC20X20V Cable Interface Card The Cisco UBR-MC20X20V cable interface line card is a 20 by 16 inch card designed specifically for the Cisco uBR10012 universal broadband router. This card transmits and receives RF signals between the subscriber and the headend over hybrid fiber-coaxial (HFC) system.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Network Uplink Cards The following sections describe the network uplink cards used in the Cisco uBR10012 universal broadband router: Cisco Single Port Gigabit Ethernet Line Card, page 1-29 • Cisco Half-Height Gigabit Ethernet Line Card, page 1-31 •...
Network Uplink Cards Figure 1-15 shows the faceplate for the Gigabit Ethernet line card. Figure 1-15 Cisco Gigabit Ethernet Line Card LEDs Table 1-8 describes the LEDs on the Gigabit Ethernet line card. Table 1-8 FAIL RX (receive) TX (transmit) LINK Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 1-30...
Network Uplink Cards Because invisible radiation may be emitted from the aperture of the port when no fiber cable is Warning connected, avoid exposure to radiation and do not stare into open apertures. Statement 1056. Warning Statement for Sweden Warning Osynlig laserstrålning när denna del är öppen och förregleringen är urkopplad.
Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Table 1-11 TX (transmit) CARRIER Cisco uBR10-SRP-OC12SML DPT WAN Line Card The Cisco uBR10 Spatial Reuse Protocol (SRP) OC12 single-mode fiber, long-reach (SML) dynamic packet transport (DPT) WAN line card provides shared IP over SONET capability for the Cisco uBR10012 router platform.
Optical Connectors and Cables Optical Connectors and Cables For single-mode optical fiber connections, use one duplex SC-type cable (see simplex SC-type cables (see For optical connector and cable cleaning information, go to the following URL: http://www.cisco.com/en/US/tech/tk482/tk876/technologies_white_paper09186a0080254eba.shtml Figure 1-17 Figure 1-18 These tables list the proper single-mode or multimode optical fiber cables to use to connect your router to a network: Table...
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Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Table 1-12 Cisco uBR10012 Field-Replaceable Units and Product Order Numbers (continued) Field-Replaceable Unit PRE1 (spare) PRE2 (primary and redundant) PRE2 (spare) PRE4 (primary and redundant) PRE4 (spare) PRE PC media card—64 MB (default) PRE PCM media card—128 MB Blank PRE1 slot cover TCC+ card...
Cisco uBR10012 Router FRU Resources Table 1-12 Cisco uBR10012 Field-Replaceable Units and Product Order Numbers (continued) Field-Replaceable Unit Cisco Half-Height Gigabit Ethernet line card Slot splitter card Half height slot blank cover Full height slot blank cover 1000Base-SX—pluggable transceiver 1000Base-LX/LH—pluggable transceiver 1000Base-TX—pluggable transceiver 1000Base-ZX—...
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Chapter 1 Cisco uBR10012 Universal Broadband Router Overview Table 1-13 Cisco FRU Document Title and URL (continued) Document title DC Power Entry Module for the Cisco uBR10012 Universal Broadband Router http://www.cisco.com/en/US/docs/cable/cmts/ubr10012/installation/field_replaceable_units/ub1 0pem.html Document title 3300 W DC Power Entry Module for the Cisco uBR10012 Universal Broadband Router http://www.cisco.com/en/US/partner/docs/cable/cmts/ubr10012/installation/field_replaceable_un its/ub10dcpem_Hornbill.html Document title...
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Cisco uBR10012 Router FRU Resources Table 1-13 Cisco FRU Document Title and URL (continued) Document title Cisco Half-Height Gigabit Ethernet Line Card http://www.cisco.com/en/US/docs/interfaces_modules/cable/line_cards/ubr_hh_ge/quick/start/ub r_hhge.html Document title Inspection and Cleaning Procedures for Fiber-Optic Connections http://www.cisco.com/en/US/tech/tk482/tk876/technologies_white_paper09186a0080254eba.sht Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 1-38 Chapter 1 Cisco uBR10012 Universal Broadband Router Overview...
Preparing for Installation Before you install the Cisco uBR10012 universal broadband router, consider: The power and cabling requirements that must be in place at your installation sites • The equipment required to install the router • • The environmental conditions your installation site must meet to maintain normal operation This chapter guides you through the process of preparing for your router installation.
Preventing Electrostatic Discharge Damage Do not wear loose clothing, jewelry (including rings and chains), or other items that could get caught • in the chassis. • The Cisco uBR10012 router operates safely when it is used in accordance with its marked electrical ratings and product usage instructions.
Chapter 2 Preparing for Installation Chassis-Lifting Guidelines The Cisco uBR10012 chassis is not intended to be moved frequently. When fully populated, the Cisco uBR10012 system weighs approximately 230 pounds. A depopulated chassis weighs approximately 55 pounds. When moving the chassis, use the following guidelines to prevent injury and damage to the equipment: •...
Electrical Safety Electrical Safety All system components are hot-swappable. They are designed to be removed and replaced while the system is operating without presenting an electrical hazard or damage to the system. Follow these basic guidelines when you are working with any electrical equipment: Before beginning any procedures requiring access to the chassis interior, locate the emergency •...
Chapter 2 Preparing for Installation Environmental Site Requirements The environmental monitoring functionality in the Cisco uBR10012 router protects the system and components from potential damage from excessive voltage and temperature conditions. To ensure normal operation and avoid unnecessary maintenance, plan your site configuration and prepare your site before installation.
Site Requirements Figure 2-1 P O W E R CIS CO 100 00 CIS CO M IS W IR 100 00 F A U L T AL AR MS AL AR MS Cisco uBR10012 Universal Broadband Router Hardware Installation Guide Cooling Air Path for the Cisco uBR10012 P O W E R M IS W IR...
Chapter 2 Preparing for Installation Temperature and Humidity Requirements Table 2-1 lists the operating and nonoperating environmental site requirements. The ranges listed are those within which the Cisco uBR10012 router continues to operate; however, a measurement that is approaching the minimum or maximum of a range indicates a potential problem. You can maintain normal operation by anticipating and correcting environmental anomalies before they approach a maximum operating range.
Site Requirements Power Connection Guidelines for DC-Powered Systems The DC-input power supply allows the Cisco uBR10012 router to operate on either –48 or –60 VDC systems. Both these power supplies can operate with an input from –40.5 to —72 VDC with no harm; however, the input should be restricted to the nominal ranges defined in extra-low voltage (SELV) compliance, and to deliver the rated power at the allowed current levels.
Chapter 2 Preparing for Installation Plant Wiring Guidelines When planning the location of the new system, consider the distance limitations for signaling, EMI, and connector compatibility, as described in the following sections. Warning This product requires short-circuit (overcurrent) protection, to be provided as part of the building installation.
Site Requirements Distance limitations for each signal type • The specific cables you need to connect each interface • Any additional interface equipment you need, such as transceivers, hubs, switches, modems, • channel service units (CSUs), or data service units (DSUs) The extent of your network and the distances between network interface connections depend in part on the following factors: •...
Chapter 2 Preparing for Installation Rack-Mounting Considerations The Cisco uBR10012 router should be rack-mounted for proper operation and maintenance. The rack-mounting hardware included with chassis is suitable for standard 19-inch equipment racks and telco-type racks. Optional hardware is available from third-party vendors for mounting in a 23-inch equipment rack.
Site Requirements If you are also using the optional AC-input power shelf, it should be installed immediately below • the Cisco uBR10012 chassis for power cabling convenience. However, install the AC-input power shelf after you install the chassis. Ensure that the router is connected to earth ground during normal use. •...
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Installing the Cisco uBR10012 Router This chapter describes the procedures for installing the Cisco uBR10012 universal broadband router in an equipment rack. It also describes how to connect interface and power cables, the proper way to power on the system, and installation troubleshooting procedures. Installation involves doing the following tasks in the following order: Preparing the Cisco uBR10012 Router for Rack-Mounting, page 3-2 •...
Installation Methods Installation Methods For stability and ease of use, the Cisco uBR10012 router chassis should be mounted in an equipment rack. The chassis can be mounted in a 19-inch (standard) equipment rack (either the 4-post equipment rack or the telco-type equipment rack) or in a 23-inch rack. For 23-inch racks, optional mounting brackets must be ordered from third-party vendors.
Chapter 3 Installing the Cisco uBR10012 Router General Rack Installation Guidelines When planning your rack installation, consider the following guidelines: The Cisco uBR10012 router chassis requires a minimum of 18 rack units (31.5 in. or 80 cm) of • vertical rack space. Measure the proposed rack location before mounting the chassis in the rack. •...
Removing the Chassis Components Before Installation Removing the Chassis Components Before Installation The Cisco uBR10012 router is shipped with all ordered components already installed in the chassis. When fully configured, the Cisco uBR10012 chassis weighs approximately 230 lbs (104.3 kg). Caution You must use a hydraulic lift or forklift to move a fully populated chassis.
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Removing the Chassis Components Before Installation Figure 3-2 US1 0 US1 1 US1 2 US1 3 US1 4 US1 5 US1 6 US1 7 US1 8 US1 9 Do not operate the system unless all slots contain a line card or a blank faceplate. Always install a Caution full-slot blank faceplate into an empty slot.
Chapter 3 Installing the Cisco uBR10012 Router Removing the Slot Splitter Use the following procedure to remove a slot splitter from the chassis: Attach an antistatic wrist strap to your wrist and to the ESD socket on the chassis, or to a bare metal Step 1 surface on the chassis or frame).
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Removing the Chassis Components Before Installation Slide the splitter out of the slot Step 4 If you are not installing a replacement splitter or a line card, install a full-slot blank faceplate in the slot. Step 5 Figure 3-4 US1 0 US1 0 US1 1 US1 0...
Chapter 3 Installing the Cisco uBR10012 Router Attaching the Mounting Brackets The Cisco uBR10012 router is shipped with four mounting brackets that can be attached to either the front or rear of the chassis, depending on your mounting preferences. The brackets can be mounted either flush with the edge of the chassis or set back to allow the chassis to be offset mounted in the rack.
Chapter 3 Installing the Cisco uBR10012 Router Attaching the Mounting Brackets Figure 3-6 Bracket Location for Flush Front-Mounting the Chassis CIS CO 100 00 CIS CO 100 00 AL AR MS AL AR MS Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 3-10 OL-18259-09...
Chapter 3 Installing the Cisco uBR10012 Router Attaching the Mounting Brackets Figure 3-8 Bracket Location for Offset Front-Mounting the Chassis CIS CO 100 00 CIS CO 100 00 AL AR MS AL AR MS You must use three screws to install each large bracket and two screws to install each small bracket. Note To install the optional cable management brackets, proceed to the next section.
Chapter 3 Installing the Cisco uBR10012 Router Installing the Cable Management Brackets (Optional) Installing the Cable Management Brackets (Optional) The Cisco uBR10012 router is shipped with two cable-management brackets that are installed on the rear of the router’s chassis to route the cables connected to the cable interface line cards. Figure 3-9 shows the rear of the Cisco uBR10012 chassis with the two cable-management brackets installed.
Mounting the Chassis in the Rack Use the following procedure to install the optional cable-management brackets on the rear of the Cisco uBR10012 chassis: Position the first mounting bracket immediately above the cable interface line card installation slots. Step 1 Make sure that the portion of the bracket with the slots is above the mounting holes, so that the bracket will not interfere with the insertion and removal of the line cards.
Chapter 3 Installing the Cisco uBR10012 Router If you are installing the chassis in an equipment rack, it is helpful to have a third person available to maneuver the chassis into position and attach the brackets to the rack. Recommended Tools and Supplies Table 3-1 lists the tools, equipment, and supplies necessary to connect the system ground to the chassis.
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Mounting the Chassis in the Rack At least three people are required to mount the shelf in the equipment rack: two people are needed to Warning hold the shelf in place while a third person tightens the mounting screws. Statement 336 Verify that you have removed the fan assembly module, DC PEMs, cable interface line cards, and Step 1 network uplink line cards before attempting to move the chassis (see...
Chapter 3 Installing the Cisco uBR10012 Router Attaching Ferrite Beads on the Cables Figure 3-10 Installing the Chassis in a Rack using the Rear Mounting Brackets Rear mounting brackets — Attaching Ferrite Beads on the Cables Ferrite beads can be clamped on where the beads are attached without wrapping the wires. Two ferrite beads (part number 36-0219-01) are included in the Cisco uBR10012 router accessory kit, and one ferrite bead is shipped with the spare of AC and DC power entry modules.
Attaching Ferrite Beads on the Cables Figure 3-11 Alarm cable Ground cable Attaching Ferrite Beads on DC Power Cables For Class B emission compliance requirements, two ferrite beads must be installed on the DC-input power cables. This is applicable for UBR10-PWR-DC= PEMs. These ferrite beads should be installed (within 6 inches) close to the DC-input power connector (DC-input terminal connector).
Chapter 3 Installing the Cisco uBR10012 Router Figure 3-12 1 Ferrite beads attached to DC-input power cables 2 DC-input terminal connector on midplane of the chassis Attaching Ferrite Beads on the Lineage Power Shelf An additional set of ferrite beads are required if you are using the external Lineage power shelf to supply power to the Cisco uBR10012 router.
Connecting the Chassis to Ground Figure 3-13 DC power cables connected on the Lineage power shelf Ferrite beads attached on the DC power cables Connecting the Chassis to Ground Connecting the Cisco uBR10012 router chassis to earth ground is required for all DC powered installations.
Chapter 3 Installing the Cisco uBR10012 Router Table 3-3 Quantity Description M5 Pan Head screws with captive, lock washers Antistatic mat and ESD-wrist strap Attaching the Grounding Cable The following procedure describes how to attach: The grounding lug to the grounding cable. •...
Connecting the Chassis to Ground Figure 3-15 CIS CO 100 00 CIS CO 100 00 AL AR MS AL AR MS Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 3-22 Location of the Ground Lug Connectors Chapter 3 Installing the Cisco uBR10012 Router Grounding lug points OL-18259-09...
Chapter 3 Installing the Cisco uBR10012 Router Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router The following sections describe how to connect the Lineage AC-DC power shelf to the Cisco uBR10012 router: Cabling the Lineage AC-DC Power Shelf, page 3-23 •...
Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Open the safety cover from above the DC terminal blocks by rotating the safety cover up and off of the Step 1 DC terminal blocks of the power shelves. Loosen and remove the M6 nuts.
Chapter 3 Installing the Cisco uBR10012 Router Connecting the Lineage Power Shelf to the UBR-PWR-DC= Module Prerequisites Connect the DC power cables, alarm cables, and the AC-input cables to the Lineage power shelf, see • “Cabling the Lineage AC-DC Power Shelf” section on page To meet Class A compliance standards, install the ferrite beads on the DC power cables exiting the •...
Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Figure 3-16 DC power cables connected from the Lineage power shelf to the backplane of the router Cisco uBR10012 router Lineage AC-DC power shelf Connect the AC power cables to a standard wall socket (facility power source) to provide power to the Step 5 Cisco uBR10012 router.
Chapter 3 Installing the Cisco uBR10012 Router Connecting the Lineage Power Shelf to the UBR-PWR-DC-PLUS= Module Prerequisites Two Lineage AC-DC power shelves are required to supply power to the UBR-PWR-DC-PLUS= • modules to power on the Cisco uBR10012 router. To meet Class A compliance standards, the ferrite beads must be installed on the DC “Y” power •...
Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Figure 3-17 Lugged end of DC Y power cable that connects to Lineage power shelves Lugged end of DC Y power cable that connects to the DC terminal blocks on the UBR-PWR-DC-PLUS= modules.
Chapter 3 Installing the Cisco uBR10012 Router Figure 3-18 Left DC power terminal blocks Alarm monitor cable connected to the J1 connector that connects to external alarm input connector on DC PEM 1 Unused end of the alarm monitor cables Alarm monitor cable connected to the J1 connector that connects to external alarm input connector on DC PEM 0...
Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Figure 3-19 Alarm monitor cables connected to J1 connectors, which in turn are connected to external alarm input connectors on DC PEMs Red Y cables connected to –48 V terminals on DC PEM 0 DC PEM 0 DC PEM 1...
Chapter 3 Installing the Cisco uBR10012 Router Ensure that you lift the handles and route the cables underneath the handles and through the power cord Note clips of the PEM modules so that the front cover fits on the Cisco uBR10012 chassis. Step 5 Connect the AC power cables to a standard wall socket (facility power source) to provide power to the Cisco uBR10012 router.
Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Figure 3-21 PIN end of Alarm monitor cable that connects to the Lineage power shelves. RJ-45 connector end that connects to the alarm input connector on the DC PEM modules.
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Chapter 3 Installing the Cisco uBR10012 Router Figure 3-22 CISCO 10000 ALARMS Alarm input connector on the UBR-PWR-DC= module OL-18259-09 Connecting the External AC-input Power Shelf to the Cisco uBR10012 Router Alarm Monitor Cable Connected From the Lineage AC-DC Power Shelf to UBR-PWR-DC= Module EXT.
Connecting DC Power to the Cisco uBR10012 Router Disconnecting Cables from the Lineage AC-DC Power Shelf and the Cisco uBR10012 Router To disconnect cables from the Lineage AC-DC power shelf and the Cisco uBR10012 router: Ensure that the power is turned off on the power shelf by disconnecting the power supply at the facility Caution before proceeding to disconnect the other cables.
Chapter 3 Installing the Cisco uBR10012 Router Care must be given to connecting units to the supply circuit so that wiring is not overloaded. Warning Statement 51 This product requires short-circuit (overcurrent) protection, to be provided as part of the building Warning installation.
Connecting Alarm Indicators Table 3-4 Quantity Description Tie wraps Antistatic mat and ESD-wrist strap Connecting the Cisco uBR10012 Chassis to a DC Power Source The DC power sources can be present at the site, or they can be provided by an external AC-input power shelf.
Chapter 3 Installing the Cisco uBR10012 Router Connecting the Alarm Indicators Use the following procedure to connect an alarm indicator to the chassis: Obtain sufficient wire for the desired connections. You will need two wires for each set of relays, or six Step 1 separate wires to connect all three relay contacts.
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Connecting Alarm Indicators Figure 3-24 CIS CO 100 00 CIS CO 100 00 AL AR MS AL AR MS Go to the next section, Step 6 installation. Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 3-38 Alarm Terminal Block Connections ALARMS 60 VDC 1A MAX...
Chapter 3 Installing the Cisco uBR10012 Router Installing the Modules To install the modules in the Cisco uBR10012 router: Step 1 Remove the front cover by pulling the cover towards you and carefully set it aside. • Fan assembly module—Align the module with the slot in the chassis. Push the fan module back firmly into the chassis, making sure that the module securely connects to the backplane.
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Installing the Modules Also, do not attempt to remove the Cisco MC28C card or the Cisco MC16x card from their carriers (adapter cards) while the they are installed in the chassis. See the Interface Line Card” section on page 5-41 Step 1 Grasp the faceplate of the first line card with one hand and place your other hand under the card carrier (to support the weight of the card) and position the card in front of the appropriate card cage slot.
Installing the Slot Splitter and Half-Height Gigabit Ethernet Line Card Figure 3-26 Captive screws Installing the Slot Splitter and Half-Height Gigabit Ethernet Line Card This section describes how to install the line card in the Cisco uBR10012 router. This section includes the following tasks: •...
Chapter 3 Installing the Cisco uBR10012 Router You must use slot 3 or slot 4 when installing the slot splitter and HHGE line card in the Cisco uBR10012 Caution router, using slot 1 or slot 2 will cause the router to shut down those slots. Do not install two half-height blank faceplates into the same slot in the slot splitter.
Chapter 3 Installing the Cisco uBR10012 Router Installing the Half-Height Gigabit Ethernet Line Card Use the following procedure to install a HHGE line card into an installed slot splitter. See the the Slot Splitter” section on page 3-43 If you are replacing a line card, see the on page 3-4 before you begin this procedure.
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Installing the Slot Splitter and Half-Height Gigabit Ethernet Line Card Be sure the ejectors are in the open position (as shown) and continue to push the line card into the splitter Step 4 until you can feel it begin to seat in the backplane connectors. Step 5 Verify that the captive screws are properly aligned with the captive screw holes in the splitter.
Connecting the Console Port and Auxiliary Port Connecting the Console Port and Auxiliary Port The PRE module on the Cisco uBR10012 router has two asynchronous serial (EIA/TIA-232) RJ-45 ports that provide connections for a console (an ASCII terminal or PC running terminal emulation software) and modem for remote access.
Chapter 3 Installing the Cisco uBR10012 Router Connecting to the Console Port The console port provides local administrative access to the router and its command-line interface (CLI). Each PRE module must have a console port connection (typically to a terminal server) when running a Note redundant configuration in the chassis.
Connecting the Console Port and Auxiliary Port 9600 baud • 8 data bits • No parity generation or checking • 1 stop bit • No flow control • If also connecting a modem to the auxiliary port, go to the next section, Step 6 Port.”...
Chapter 3 Installing the Cisco uBR10012 Router Make sure that the modem and auxiliary port on the router are configured for the same transmission Step 5 speed (38.4 Kbps and 56 Kbps are typical). Configure the modem for auto-answer and for hardware flow control using the Data Carrier Detect (DCD) and Data Terminal Ready (DTR) signals.
Connecting Network Management Cables Connect one end of the Ethernet cable to the RJ-45 port on the primary PRE, labeled Ethernet (see Step 1 Figure 3-36). Run the other end of the Ethernet cable through the square hole at the left front side of the chassis, and Step 2 connect this end of the cable to any unoccupied port on the Ethernet hub.
Chapter 3 Installing the Cisco uBR10012 Router The same rule applies to pins 2 through 8 on each connector. The color of the wire attached to a pin • on one connector should match the color of the wire attached to the corresponding pin on the other connector.
Connecting Cable Interface Line Cards and Network Uplink Cards Connecting Cable Interface Line Cards and Network Uplink Cards Because there are very specific requirements for cabling the different line cards and uplink cards used with the Cisco uBR10012 CMTS, please review the documentation for the cards that you are installing in your system.
Chapter 3 Installing the Cisco uBR10012 Router If you have completed all cable connections, go to the Note to continue the installation. If you are using Gigabit Ethernet line cards, go to Gigabit Ethernet Line Card” section on page Connecting a Single-Port Gigabit Ethernet Line Card The single-port Gigabit Ethernet (GE) line card provides a trunk uplink running at 1 Gbps in full duplex mode to devices such as content servers and Web caches.
Connecting Cable Interface Line Cards and Network Uplink Cards Make sure your fiber optic connectors are clean and debris free. Refer to Inspection and Cleaning Caution Procedures for Fiber-Optic Connections at the following URL: http://www.cisco.com/en/US/tech/tk482/tk876/technologies_white_paper09186a0080254eba.shtml Attach the fiber optic cable to the GBIC port Step 4 Figure 3-39 US1 0...
Replacing the Front Cover Replacing the Front Cover Use the following procedure to replace the front cover on the chassis: Step 1 Slide the cover onto the four corner posts of the chassis and then push down so that the posts are seated in the grooves above the cover holes Figure 3-41 Step 2...
Rights clause at FAR sec. 52.227-19 and subparagraph (c) (1) (ii) of the Rights in Technical Data and Computer Software clause at DFARS sec. 252.227-7013. cisco Systems, Inc. OL-18259-09 3300 W DC Power Entry Module for the Cisco uBR10012 Universal Broadband...
San Jose, California 95134-1706 Cisco Internetwork Operating System Software IOS (tm) 10012 Software (UBR10K-P6-M), Released Version 12.2(1) Copyright (c) 1986-2001 by cisco Systems, Inc. Compiled Thu 19-Apr-01 13:47 by samants Image text-base: 0x60008960, data-base: 0x612B0000 ROM: System Bootstrap, Version 12.0(9r)SL1, RELEASE SOFTWARE (fc1) BOOTFLASH: 10012 Software (C10K-EBOOT-M), Released Version 12.1(5)
Chapter 3 Installing the Cisco uBR10012 Router If you have experience using Cisco routers, consider configuring the router by using the procedure described in the To cancel the configuration dialog, press Ctrl-C, or you can let the dialog help you perform one of two configuration types: Basic configuration setup configures only enough connectivity for management of the system.
Configuring the Cisco uBR10012 Router at Startup Setting Up the Interface After you respond to the SNMP questions, the setup script lists the interfaces. The following table lists typical interfaces found on a Cisco uBR10012 router. Interface Ethernet0/0/0 FastEthernet0/0/0 GigabitEthernet3/0/0 Cable6/1/0 Cable6/1/1 Cable7/0/0...
Chapter 3 Installing the Cisco uBR10012 Router interface FastEthernet0/0/0 no shutdown media-type 100BaseX half-duplex ip address 172.27.48.209 255.255.0.0 Exit the setup script without saving, start the setup script, or save the configuration file: Step 7 [0] Go to the IOS command prompt without saving this config. [1] Return back to the setup without saving this config.
Formatting PC Media Cards Formatting PC Media Cards The PC media card that shipped with your PRE contains the default Cisco IOS image for booting your router. This section explains how to format a PC media card, modify its contents, or resolve a problem with the card.
Troubleshooting the Installation This chapter provides basic troubleshooting information to solve the most common installation problems with the Cisco uBR10012 universal broadband router. Your Cisco uBR10012 router went through extensive testing before leaving the factory. However, if you encounter problems starting the router, use the information in this chapter to help isolate the cause of the problems.
Troubleshooting Methods Troubleshooting Methods This section describes the troubleshooting methods used in this chapter and describes how Cisco uBR10012 routers are divided into subsystems for more efficient problem solving. Before You Call for Technical Assistance If you are unable to easily solve the problem, contact a customer service representative for assistance and further instructions.
Chapter 4 Troubleshooting the Installation Troubleshooting Installation Problems This section contains general troubleshooting information to help you solve any problems you might encounter during the installation of the system. General Troubleshooting Tips All Cisco uBR10012 router FRUs (field replaceable units) are hot-swapable. Procedures for removing and replacing the FRUs can be found in List of FRU modules: Fan module...
Troubleshooting Ethernet Connections Table 4-1 General Troubleshooting Tips (continued) Symptom Steps to Take System experiences a major Enter the show facility-alarm status command at the console. alarm (Major LED on the PRE is on) System experiences a minor Enter the show facility-alarm status command at the console. alarm (Minor LED on the PRE is on) You cannot establish a...
Chapter 4 Troubleshooting the Installation Be sure that the cable is not connected to an uplink port. – If the LNK LED is illuminated (green), but the Ethernet port does not seem to be working properly, • make sure that the port in question is configured properly and is not administratively shut down. If you have a working console connection, perform the following steps: –...
Identifying Startup Problems Check the LEDs on the PRE to make sure that it is powered up properly. • If the cable, connections, power, and terminal settings all check out and you still cannot connect to • the console port on the module, you probably need to replace the PRE. Contact the Cisco TAC for further assistance.
Chapter 4 Troubleshooting the Installation The initial system banner displays on the console screen. If it is not displayed, see the verify that the terminal is set up correctly and that it is properly connected to the router’s console port. Troubleshooting the Power Subsystem The AC power entry modules, DC power entry modules, or an AC power shelf combined with the DC power modules are used to power on the Cisco uBR10012 router.
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Troubleshooting the Power Subsystem Verify if the UBR10-PWR-AC-PLUS= AC PEM show environment command output displays a DC PEM module instead of AC PEM. Router# show environment Temperature information: Temperature normal: Inlet sensor Temperature normal: Outlet sensor Voltage information: RP Voltage readings: Channel ====================================== 2.5v...
Chapter 4 Troubleshooting the Installation Verify if the UBR10-PWR-AC-PLUS= AC PEM is powered on, and the V1 POWER and V2 POWER Step 3 LEDs are illuminated (unless they may not be working, as above). The AC power enable switch on the AC PEM is set to the ENABLE (|) position.
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Troubleshooting the Power Subsystem The FAULT LED should illuminate (yellow). If this LED is not illuminated, there could be a possibility that the LED is not working, therefore the LED cannot indicate a valid fault on the PEM. If the above LEDs do not illuminate but you are confident that PEM is receiving power, you can proceed to power on the PEM.
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Chapter 4 Troubleshooting the Installation 3.3v Fan: Power Entry Module 0 type AC status: Power Entry Module 1 type DC status: Try one of the following: Upgrade to a supported Cisco IOS Release and then press the PRODUCT ID LED/switch. •...
Troubleshooting the Power Subsystem Troubleshooting the 2400 W AC-Input Power Shelf Check the following to isolate a problem to the AC-input power shelf. Check to see which version of the PEM you have in the chassis. Step 1 If the Cisco uBR10012 router is running Cisco IOS Release 12.2(4)XF or a later release, you can use the show environment command to monitor the AC-input power shelf.
Chapter 4 Troubleshooting the Installation Check to see if the FAULT LED is illuminated (yellow), if it is then: Step 3 Check that the external AC power source is supplying consistent AC voltage at the proper levels, – without spikes or brownouts. Flip the circuit-breaker for the external AC power source.
Troubleshooting the Cooling Subsystem Verify the Status LEDs on the TCC+ card. Step 3 Is the STATUS LED on the primary TCC+ on (solid green) indicating that it is the primary card? Is the STATUS LED on the secondary TCC+ flashing (green) indicating that it is the redundant card? If no, verify that the version of Cisco IOS on the router supports the TCC+ card.
Chapter 4 Troubleshooting the Installation 00:00:19:%ENVM-2-ENVCRIT:chassis outlet 1 measured at 30C/86F 00:00:19:%ENVM-2-ENVCRIT:chassis outlet 2 measured at 30C/86F Although an over-temperature condition is unlikely at initial startup, ensure that heated exhaust air from other equipment is not entering the inlet vent of the router and that there is sufficient clearance around the sides of the chassis to allow cooling air to flow.
Troubleshooting the HHGE Installation If a port has been enabled but its corresponding enabled LED is still off, reseat the line card in its slot (you do not have to turn off the system power when removing or replacing line card). After the system reinitializes the interfaces, the enabled LED on the line card should go on.
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Chapter 4 Troubleshooting the Installation Table 4-2 Line Card Installation Troubleshooting (continued) Symptom The yellow FAIL LED blinks The green LINK LED does not light when you plug in the Ethernet cable The green LINK LED is on, but does not pass traffic OL-18259-09 Possible Cause...
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Maintaining the Cisco uBR10012 Router The Cisco uBR10012 universal broadband router is configured to your order and ready for installation when it arrives. After you install the system, you may have to perform specific maintenance procedures to ensure the router is operating properly. These procedures can include routine maintenance such as replacing the filter, upgrading system components, or replacing components with field replaceable units (FRUs).
Shutting Down the System Cisco recommends that you create a duplicate PC media card that contains the current boot software Caution image and the current software configuration. You can use the backup card to quickly recover from a major system failure. You can also use a backup card to load a new PRE module and avoid the time-consuming reconfiguration process.
Chapter 5 Maintaining the Cisco uBR10012 Router Removing the Front Cover Use the following procedure to remove the front cover from the chassis. Remove the cover by lifting it up slightly and then pulling it toward you (see Step 1 Figure 5-1 Replacing the Front Cover Use the following procedure to replace the front cover on the chassis.
Replacing the Air Filter Slide the cover onto the four corner posts of the chassis and then push down so that the posts are seated Step 1 in the grooves above the cover holes (see Figure 5-2 Replacing the Air Filter If the air filter is dirty or clogged, the fan assembly module could have a problem providing sufficient cooling airflow throughout the chassis, causing the system to overheat.
Chapter 5 Maintaining the Cisco uBR10012 Router The product order number for a replacement air filter is UBR10-FAN-FILTER=. Note Use the following procedure to replace the air filter: Remove the front cover (see Step 1 Slide the air filter out of its slot. Step 2 Step 3 Discard the old filter.
Removing and Replacing the Fan Assembly Module Figure 5-4 Replace the front cover (see Step 5 Removing and Replacing the Fan Assembly Module The Cisco uBR10012 chassis should not be run without a working fan assembly module for more than Caution three minutes.
Chapter 5 Maintaining the Cisco uBR10012 Router If the failure LEDs—SINGLE FAN FAILURE and MULTIPLE FAN FAILURE—are illuminated, remove and reinsert the fan assembly module. If the failure LEDs are still illuminated, replace the fan assembly module. The fan assembly module supports hot-swapping and can be replaced without interrupting system operation.
Connecting Alarm Indicators If you did not connect the alarm indicators when you originally installed the Cisco uBR10012 chassis, use the following procedure to connect an alarm indicator to the system. For safety and convenience reasons, you need to remove power from the DC PEM on the right side (DC PEM “B”) and remove that DC PEM for easier access to the alarm indicators terminal block.
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-6 Removing and Replacing AC PEM Modules The Cisco uBR10012 router ships with two AC power entry modules (PEMs). In this redundant system, (2 power supplies), one AC PEM provides sufficient power for a fully configured chassis. If one AC PEM fails, the other automatically begins providing power for the entire router, without impacting system operations.
Removing and Replacing the PRE Module You do not need to shut down the Cisco uBR10012 router to replace a redundant AC PEM. If you are Note replacing both AC PEMs, you can replace one, bring it online, and then replace the other one to avoid shutting down the system.
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Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-7 Captive screw Captive screw Simultaneously pivot both ejector levers away from each other to disengage the PRE module from the Step 6 backplane (see Figure OL-18259-09 Loosening the Captive Screws P O W E R CIS CO 100 00 CIS CO...
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Removing and Replacing the PRE Module Figure 5-8 P O W E R M IS W IR CIS CO 100 00 CIS CO 100 00 F A U L T AL AR MS AL AR MS Slide the PRE module out of the slot and place it on an antistatic surface, or in an antistatic bag (see Step 7 Figure 5-9).
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Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-9 CIS CO 100 00 AL AR MS If you are installing a new or replacement PRE module, proceed to the next step. Otherwise, install a Step 8 blank cover over the slot and screw down its captive screws to conclude this procedure. For proper cooling and airflow, a blank PRE module cover should always be installed when a second Note PRE module is not installed.
Removing and Replacing the PRE Module Replacing the PRE Module When replacing a PRE1 module with a PRE2 module, you must also install EMI gaskets and RF absorber material, for more information, go to the following URL: http://www.cisco.com/en/US/docs/cable/cmts/ubr10012/installation/field_replaceable_units/pre2gkit.h Grasp the faceplate of the new PRE module with one hand and place your other hand under the card Step 1 carrier (to support the weight of the module) and position the card in front of the card cage slot.
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-11 P O W E R CIS CO M IS W IR 100 00 CIS CO 100 00 F A U L T AL AR MS AL AR MS When fully inserted, the PRE module cycles through its power-on self-test. The FAIL LED stays on Step 5 briefly (about 5 to 6 seconds) and then shuts off.
Removing and Installing a PC Media Card Removing and Installing a PC Media Card Use the following procedure to remove and install a PC media card. The Cisco uBR10012 router uses PC media cards that are a minimum of 64 MB in size. For information Note about formatting media cards and disks, see the Loosen the captive screw on the PC media card cover on the PRE (see...
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-13 Insert the new PC media card into one of the card slots on the PRE (see Step 3 Figure 5-14 Close the cover and tighten the captive screw to maintain proper EMI emissions levels (see Step 4 OL-18259-09 Removing the PC Media Card...
Removing and Replacing a Timing, Communication, and Control Plus Card Removing and Replacing a Timing, Communication, and Control Plus Card Use the following procedure to install a new Timing, Communication, and Control Plus (TCC+) card or to replace an existing TCC+ card. If two TCC+ cards are installed for redundant operation, one of the cards can be removed and replaced without interrupting system operations.
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-16 Step 7 If you are installing a replacement card, proceed to the next step. Otherwise, install a blank cover over the slot and screw down its captive screws to conclude this procedure. Note For proper cooling and airflow, a cover must always be installed in a blank TCC+ card slot.
Removing and Replacing a Timing, Communication, and Control Plus Card Figure 5-17 Secure the line card in the chassis by tightening the top and bottom captive screws (see Step 10 Caution Always tighten the captive screws on each TCC+ card. These screws prevent accidental removal and provide proper grounding for electromagnetic interference (EMI) shielding.
Chapter 5 Maintaining the Cisco uBR10012 Router Removing and Replacing a Network Line Card Use the following procedure to install a new network line card, or to remove or replace an existing network line card in the Cisco uBR10012 chassis. The following cards are supported: Cisco OC-12/STS12c/STM4 POS (UBR10-OC12/P-SMI=) •...
Removing and Replacing a Network Line Card Figure 5-18 Captive screws If installing a new line card in a blank slot, remove the blank slot cover and discard. Otherwise, Step 3 disconnect the cables from the network line card. Unscrew the top and bottom captive screws on the card (see Step 4 Simultaneously pivot both ejector levers away from each other to disengage the line card from the Step 5...
Chapter 5 Maintaining the Cisco uBR10012 Router Installing the Network Line Card For proper cooling and airflow, a blank card cover must always be installed in a blank line card slot. The Note product order number for the blank card cover is ESR-LC-Cover=. Grasp the faceplate of the new card with one hand and place your other hand under the card carrier (to Step 1 support the weight of the card) and position the card in front of the card cage slot.
Removing and Replacing a Network Line Card Simultaneously pivot both ejector levers toward each other (until they are parallel to the faceplate) to Step 3 firmly seat the card in the backplane (see Figure 5-22 US1 0 US1 0 US1 1 US1 0 US1 1 US1 2...
Chapter 5 Maintaining the Cisco uBR10012 Router When fully inserted, the card cycles through its power-on self-test. The Fail LED stays on briefly (about Step 5 5 to 6 seconds) and then shuts off. If the Fail LED remains on or is flashing, go to the the Line Cards”...
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Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-24 US1 0 US1 1 US1 2 US1 3 US1 4 US1 5 US1 6 US1 7 US1 8 US1 9 Do not operate the system unless all slots contain a line card or a blank faceplate. Always install a Caution full-slot blank faceplate into an empty slot.
Removing the Half-Height Gigabit Ethernet Line Card and the Slot Splitter Removing the Slot Splitter Use the following procedure to remove a slot splitter from the chassis: Attach an antistatic wrist strap to your wrist and to the ESD socket on the chassis, or to a bare metal Step 1 surface on the chassis or frame).
Chapter 5 Maintaining the Cisco uBR10012 Router Slide the splitter out of the slot Step 4 If you are not installing a replacement splitter or a line card, install a full-slot blank faceplate in the slot. Step 5 Figure 5-26 US1 0 US1 0 US1 1...
Replacing the Slot Splitter and Half-Height Gigabit Ethernet Line Card Replacing the Slot Splitter and Half-Height Gigabit Ethernet Line Card This section describes how to install the line card in the Cisco uBR10012 router. This section includes the following tasks: Installing the Slot Splitter, page 5-32 •...
Chapter 5 Maintaining the Cisco uBR10012 Router Installing the Half-Height Gigabit Ethernet Line Card Use the following procedure to install a HHGE line card into an installed slot splitter. See the the Slot Splitter” section on page 5-32 If you are replacing a line card, see the on page 5-27 before you begin this procedure.
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Replacing the Slot Splitter and Half-Height Gigabit Ethernet Line Card Be sure the ejectors are in the open position (as shown) and continue to push the line card into the splitter Step 4 until you can feel it begin to seat in the backplane connectors. Step 5 Verify that the captive screws are properly aligned with the captive screw holes in the splitter.
Removing and Replacing an SFP Module Removing and Replacing an SFP Module Your HHGE line card is shipped with an SFP module installed. Use the procedures in this section if you need to change the SFP module: Removing an SFP Module, page 5-38 •...
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-33 C IS C O 1 0 0 0 0 Disconnect the fiber-optic cable connector from the SFP module Step 2 Note which cable connector plug is TX and which is RX for reattachment. Figure 5-34 OL-18259-09 Disconnecting the LC-type Fiber-Optic Cable...
Removing and Replacing an SFP Module Unlock and remove the SFP module as follows: Step 3 Mylar Tab SFP Modules—Gently, but firmly pull the plastic tab to free the locking pin and remove the SFP module Do not twist the Mylar tab when you remove the SFP module. Twisting the tab may disconnect Caution it from the module.
Chapter 5 Maintaining the Cisco uBR10012 Router Gently insert the SFP module into the line card port until the edge connector is fully seated in the Step 2 connector. You will hear a click as the triangular pin on the bottom of the SFP module snaps into place (Figure 5-35).
Removing and Replacing a Cable Interface Line Card To prevent alarms from activating, you must administratively shut down a cable interface line card before hot-swapping it. Otherwise, inform the network administrator that this portion of the network will be temporarily interrupted. If the maintenance LED is lighted, you can remove the line card without affecting systems operations.
Chapter 5 Maintaining the Cisco uBR10012 Router Figure 5-36 Captive screws Step 5 Simultaneously pivot both ejector levers away from each other to disengage the cable interface line card from the backplane. Step 6 Slide the cable interface line card out of the slot and place it on an antistatic surface, or in an antistatic bag (see Figure OL-18259-09...
Removing and Replacing a Cable Interface Line Card Figure 5-37 ESD-preventive strap US1 0 US1 1 US1 2 US1 3 US1 4 US1 5 US1 6 US1 7 US1 8 US1 9 Step 7 If you are installing a new or replacement cable interface line card, proceed to the next step. Otherwise, install a blank cover over the slot and screw down its captive screws to conclude this procedure.
Chapter 5 Maintaining the Cisco uBR10012 Router Installing a Cable Interface Line Card Grasp the faceplate of the new cable interface line card with one hand and place your other hand under Step 1 the card carrier (to support the weight of the card) and position the card in front of the card cage slot. Carefully align the upper and lower edges of the cable interface line card with the upper and lower guides Step 2 in the chassis, and slide the cable interface line card into the slot until you can feel it begin to seat in the...
Removing and Replacing a Cable Interface Line Card Figure 5-39 Captive screws Secure the cable interface line card in the chassis by tightening the top and bottom captive screws (see Step 4 Figure 5-36). If you are installing more then one card, wait until all the cards are installed before tightening the captive screws.
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Chapter 5 Maintaining the Cisco uBR10012 Router Connect all downstream and upstream coaxial cables to the cable interface line card as necessary. Step 6 Configure the cable interface line card if necessary (refer to the Cisco uBR10012 Router Software Step 7 Configuration Guide for information about configuring the line card).
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Chapter 5 Maintaining the Cisco uBR10012 Router Removing and Replacing a Cable Interface Line Card Cisco uBR10012 Universal Broadband Router Hardware Installation Guide 5-48 OL-18259-09...
Technical Specifications This appendix provides specifications information about the Cisco uBR10012 router, router components, and cards used in the router. Cisco uBR10012 Chassis and Chassis Components, page A-1 • Network Uplink Cards and Cable Interface Line Cards, page A-8 • Cisco uBR10012 Chassis and Chassis Components Table A-1 lists the physical specifications for the Cisco uBR10012 universal broadband router and its...
Cisco uBR10012 Chassis and Chassis Components Table A-1 Cisco uBR10012 Router and Router Components Physical Specifications (continued) Description Specifications DC Power entry modules Part Number: UBR10-PWR-DC (Primary) (PEM)— 34-1651-04, 34-1651-05 Power supply monitoring Part Number: UBR10-PWR-MON-CAB cable Part Number: UBR10-PWR-MON-CAB= (Spare) •...
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Appendix A Technical Specifications Table A-1 Cisco uBR10012 Router and Router Components Physical Specifications (continued) Description Specifications AC Power entry modules Part Number: UBR10-PWR-AC (Primary) (PEM) 34-1966-02 Part Number: UBR10-PWR-AC= (Spare) 100—120 VAC operation is • not supported • • •...
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Cisco uBR10012 Chassis and Chassis Components Table A-1 Cisco uBR10012 Router and Router Components Physical Specifications (continued) Description Specifications AC Power entry modules Part Number: UBR10-PWR-AC-PLUS (Primary) (PEM) 341-0387-01 Part Number: UBR10-PWR-AC-PLUS= (Spare) 100—120 VAC operation is • not supported •...
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Appendix A Technical Specifications Table A-1 Cisco uBR10012 Router and Router Components Physical Specifications (continued) Description Specifications AC power shelf UBR10-PWR-AC-EXT= 2400W AC-input power shelf • and DC PEM bundle • • • • • Visual alarm indicator relay Rated for a maximum of 60 VDC and 1 A. contacts Timing, Communication, and Part Number:UBR10-TCC+-T1...
Network Uplink Cards and Cable Interface Line Cards Table A-1 Cisco uBR10012 Router and Router Components Physical Specifications (continued) Description Specifications PRE PC media card options • PRE4 CompactFlash Disk • options PRE DRAM memory options • 1. cfm = Cubic feet per minute 2.
SIP and SPA SIP and SPA Table A-3 lists the SPAs used with the Cisco uBR10012 router. Table A-3 SPA used with the Cisco uBR10012 router Description Cisco Wideband SPA Cisco uBR10012 Universal Broadband Router Hardware Installation Guide A-12 Appendix A Specifications Part Number: SPA-24XDS-SFP •...
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Appendix A Technical Specifications Table A-3 SPA used with the Cisco uBR10012 router Description 1-Port 10-Gigabit Ethernet SPA 5-Port Gigabit Ethernet SPA OL-18259-09 Specifications Part Number: SPA-1X10GE-L-V2 • Per port Bandwidth: 10 Gbps • Number of ports: 1 • Total Bandwidth: 10 Gbps •...
SIP and SPA Table A-4 lists the SIPs used with the Cisco uBR10012 router Table A-4 SIP used with the Cisco uBR10012 router Description Cisco Wideband SIP Cisco SIP-600 Cisco uBR10012 Universal Broadband Router Hardware Installation Guide A-14 Appendix A Specification Part Number: UBR10-2XDS-SIP •...
Cable Specifications This appendix provides the following cabling and pinout information for the Cisco uBR10012 routers. Coaxial Cables, page B-1 • Console and Auxiliary Port Cables and Pinouts, page B-2 • • Fast Ethernet Port Cables and Pinouts, page B-5 •...
Console and Auxiliary Port Cables and Pinouts Any of the three of the coaxial cables listed can be used to connect a Cisco cable interface card to the Note HFC network; however, the consistent use of 59-series cable is preferred. If you connect an 59-series cable to a cable interface card that was previously connected using 6-series cable, the difference in the center connector diameter might cause intermittent connectivity loss.
2 and 7, 3 and 6, 4 and 5, 5 and 4, 6 and 3, 7 and 2, 8 and 1). A straight-through cable wires are in the same sequence at both ends of the cable. Note If your cable was purchased from Cisco Systems, pin 8 is white. OL-18259-09 Rollover Cable...
Console and Auxiliary Port Cables and Pinouts Console Port Cables and Pinouts Use the RJ-45-to-RJ-45 rollover cable and RJ-45-to-DB-9 female DTE adapter (labeled TERMINAL) to connect the console port to a PC running terminal emulation software. pinouts for the asynchronous serial console port, the RJ-45-to-RJ-45 rollover cable, and the RJ-45-to-DB-9 female DTE adapter.
• Use a Category 5 UTP straight-through cable when connecting to a PC or other Ethernet device. • Cisco Systems does not supply Category 3 or Category 5 UTP RJ-45 cables; these cables are available Note commercially. How to Identify an RJ-45 Crossover Cable You can identify a crossover cable by comparing the two modular ends of the cable.
Fast Ethernet Port Cables and Pinouts Figure B-5 Pin 1 Pin 2 How to Identify an RJ-45 Straight-Through Cable You can identify a Straight-through cable by comparing the two modular ends of the cable. Hold the cables side-by-side with the tab at the back. A straight-through cable wires are in the same sequence at both ends of the cable.
Appendix B Cable Specifications Figure B-7 Pin 1 If your cable was purchased from Cisco Systems, pin 1 is white. Note Table B-3 lists the pinouts for the two Fast Ethernet ports. Table B-3 RJ-45 Pin Connecting a Cable to an RJ-45 Connector Use the following information to build your own cables with RJ45 connectors.
Fiber-Optic Cables and Connectors After arranging the wires in the correct order, cut them back so there is about 1/2 inch available to install Step 3 in the connector. Step 4 Push the cable into the connector so that the jacket is past the plastic wedge at the rear of the connector and the wires are at the end of the connector underneath the gold crimping pins.
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In general, multimode cables are gray or orange, and single-mode cables are yellow. Single-mode and multimode fiber-optic cables are not available from Cisco Systems, Inc. Note For SONET or SDH single-mode and multimode fiber-optic connections, use one duplex SC-type...
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Appendix B Cable Specifications Fiber-Optic Cables and Connectors Figure B-11 Attaching Simplex or Duplex Fiber-Optic Cables SONET/SDH with simplex or duplex SC connectors RX TX Simplex Duplex To network Cisco uBR10012 Universal Broadband Router Hardware Installation Guide B-10 OL-18259-09...
Frequency Allocation This appendix provides information on broadcast and cable television NTSC and PAL/SECAM standards and frequencies used around the world. There are three standards for transmitting video. They are defined by the method of encoding color onto a monochrome signal. The methods are defined as: NTSC—National Television System Committee.
Standards Comparisons Standards Comparisons The following tables BT.470.6, Conventional Television Systems (1998) and provide a comparison of the different standards. Table C-1 Analog Television System Baseband Video Parameters Lines per frame Field rate (Hz) Monochrome: 60 Color: 59.94 Horizontal rate (Hz) Monochrome: 15,750 Color: 15,734.264 Video bandwidth (Mhz)
Appendix C Frequency Allocation NTSC Cable Television Channels and Relative Frequencies Table C-4 provides information on the NTSC frequency map for standard 6-MHz channels in North, Central, and South America as well as parts of Asia. Table C-4 NTSC Cable Television Channels and Relative Frequencies Channel Channel Bandwidth...
NTSC (M) Cable Television Channel Frequencies for Japan NTSC (M) Cable Television Channel Frequencies for Japan Japan uses NTSC (M) with different channel assignments. Table C-5 Channel Number Cisco uBR10012 Universal Broadband Router Hardware Installation Guide Japanese Channel Assignments Bandwidth Visual Carrier (MHz) (MHz)
NTSC Cable Television Channel Frequencies for the Republic of Korea NTSC Cable Television Channel Frequencies for the Republic of Korea Korea uses NTSC (VHF, UHF) with different channel assignments. Table C-6 Channel Bandwidth Number (MHz) 5.75-41.75 54.0-60.0 60.0-66.0 66.0-72.0 76.0-82.0 82.0-88.0 88.0-108 Cisco uBR10012 Universal Broadband Router Hardware Installation Guide...
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Appendix C Frequency Allocation Table C-6 Channel Bandwidth Number (MHz) 120.0-126.0 126.0-132.0 132.0-138.0 138.0-144.0 144.0-150.0 150.0-156.0 156.0-162.0 162.0-168.0 168.0-174.0 174.0-180.0 180.0-186.0 186.0-192.0 192.0-198.0 198.0-204.0 204.0-210.0 210.0-216.0 216.0-222.0 222.0-228.0 228.0-234.0 234.0-240.0 240.0-246.0 246.0-252.0 252.0-258.0 258.0-264.0 264.0-270.0 OL-18259-09 NTSC Cable Television Channel Frequencies for the Republic of Korea Korean Channel Assignments (continued) Visual Carrier (MHz)
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NTSC Cable Television Channel Frequencies for the Republic of Korea Table C-6 Channel Bandwidth Number (MHz) 270.0-276.0 276.0-282.0 282.0-288.0 288.0-294.0 294.0-300.0 300.0-306.0 306.0-312.0 312.0-318.0 318.0-324.0 324.0-330.0 330.0-336.0 336.0-342.0 342.0-348.0 348.0-354.0 354.0-360.0 360.0-366.0 366.0-372.0 372.0-378.0 378.0-384.0 384.0-390.0 390.0-396.0 396.0-402.0 402.0-408.0 408.0-414.0 414.0-420.0 420.0-426.0 426.0-432.0...
PAL/SECAM Cable Television Channels and Relative Frequencies Table C-6 Channel Bandwidth Number (MHz) 690.0-696.0 696.0-702.0 702.0-708.0 708.0-714.0 714.0-720.0 720.0-726.0 726.0-732.0 732.0-738.0 738.0-744.0 744.0-750.0 1. Aeronautical channels visual carrier frequency tolerance +/–5 kHz. PAL/SECAM Cable Television Channels and Relative Frequencies Table C-7 provides information on the Phase Alternating Line (PAL) and SEquential Couleur Avec Memoire (SECAM) frequency map for standard 7and 8 MHz channel bands in Europe.
Appendix C Frequency Allocation Table C-7 Channel Number OL-18259-09 PAL/SECAM Cable Television Channels and Relative Frequencies Cable Television Channels and Relative Frequencies, PAL B and G (continued) Bandwidth Visual Carrier Aural Carrier (MHz) (MHz) (MHz) 125.0-132.0 126.25 131.75 132.0-139.0 133.25 138.75 139.0-146.0 140.25...
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PAL/SECAM Cable Television Channels and Relative Frequencies Table C-7 Channel Number Cisco uBR10012 Universal Broadband Router Hardware Installation Guide C-16 Cable Television Channels and Relative Frequencies, PAL B and G (continued) Bandwidth Visual Carrier Aural Carrier (MHz) (MHz) (MHz) 382.0-390.0 383.25 388.75 390.0-398.0...
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Appendix C Frequency Allocation Table C-7 Channel Number OL-18259-09 PAL/SECAM Cable Television Channels and Relative Frequencies Cable Television Channels and Relative Frequencies, PAL B and G (continued) Bandwidth Visual Carrier Aural Carrier (MHz) (MHz) (MHz) 662.0-670.0 663.25 668.75 670.0-678.0 671.25 676.75 678.0-686.0 679.25...
PAL SECAM (D/K) Cable Television Channel Frequencies for the People’s Republic of China PAL SECAM (D/K) Cable Television Channel Frequencies for the People’s Republic of China The downstream frequency plan includes all center frequencies between 112 and 862 MHz in 250 kHz Note increments.
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Appendix C Frequency Allocation Table C-8 Channel Number DS13 DS14 DS15 DS16 DS17 DS18 DS19 DS20 DS21 DS22 DS23 DS24 DS25 DS26 OL-18259-09 PAL SECAM (D/K) Cable Television Channel Frequencies for the People’s Republic of China Cable Television Channels and Relative Frequencies, PAL D and K (continued) Bandwidth Visual Carrier Aural Carrier...
Manufacturers for Hardware Components Table D-1 offerings required to prepare and provision a North American cable headend site for two-way data. Table D-3 offerings required to prepare and provision a European cable headend site for two-way data. Table D-5 provides a list of parts and manufacturers used with the cable interface line card. Table D-6 provides a list manufacturers for the external AC-input power shelves that are used with the Cisco uBR10012 router.
North American Channel Plans Table D-1 Manufacturers for North American Headend Provisioning Requirements (continued) Manufacturer White Sands Engineering, Inc GPS Receivers Agilent Symmetricom 1. The lead times for upconverters can run from 2 to 18 weeks. Contact the upconverter manufacturers listed above for current information on lead times. 2.
Appendix D Manufacturers for Hardware Components European Channel Plans Table D-3 Manufacturers for European Headend Provisioning Requirements Manufacturer Upconverters Barco Motorola Scientific Atlanta Vecima Networks, Inc. Diplex Filters Eagle Comtronics Microwave Filter Company, Inc. PCI Technologies Viewsonics Coaxial Jumpers, Attenuators, Splitters, and Taps Viewsonics Vecima Networks, Inc.
Cable Kits and Tools Table D-4 Manufacturers for European Headend Measurement Devices Manufacturer Digital Signal Level Meters/QAM Analysers Acterna Agilent Sunrise Telecom Swires Research Telsey Trilithic Spectrum Analyzers Agilent Tektronix Sunrise Telecom Vector Signal Analyzers Agilent 1. Formerly Hewlett-Packard Test and Measurement Division 2.
Appendix D Manufacturers for Hardware Components External AC-Input Power Shelves Table D-6 AC-input Power Shelves Manufactures Manufacturer Web Site or Phone Number Lineage http://www.lineagepower.com 1. For ordering, visit www.arrow.com OL-18259-09 Products/Model Lineage Power AC-DC Power Supply J85480S1 L30 Cisco uBR10012 Universal Broadband Router Hardware Installation Guide External AC-Input Power Shelves...
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Appendix D Manufacturers for Hardware Components External AC-Input Power Shelves Cisco uBR10012 Universal Broadband Router Hardware Installation Guide OL-18259-09...
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Symbols See APS. 1+1 APS 10-Mbps baseband Ethernet specification using two pairs of twisted-pair cabling (Category 3, 4, or 5): 10Base-T one pair for transmitting data and the other for receiving data. 10Base-T, which is part of the IEEE 802.3 specification, has a distance limit of approximately 328 feet (100 meters) per segment. See also IEEE 802.3 and Ethernet.
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Glossary ATM adaptation layer. Service-dependent sublayer of the data link layer. The AAL accepts data from different applications and presents it to the ATM layer in the form of 48-byte ATM payload segments. AALs consist of two sublayers:the convergence sublayer and the segmentation and reassembly sublayer.
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The circuit board at the back of the chassis that all components plug into. It provides the physical Backplane connection between an interface processor or line card, and the data and power distribution buses inside a chassis. Bell Communications Research. Former name of the organization that performs research and Bellcore development on behalf of the Regional Bell Operating Companies (RBOCs).
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Glossary Central office. The local telephone company office to which all local loops in a given area connect and in which circuit switching of subscriber lines occurs. See CLI. Command Line Interface Data terminal equipment (DTE) through which commands are entered into a host. Console An alarm condition that might affect most or all subscribers that connect to the reporting node.
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Wide-area digital transmission scheme used predominantly in Europe that carries data at a rate of 2.048 Mbps. E1 lines can be leased for private use from common carriers. Compare with T1; see also DS1. See ESR. Edge Services Router See EMI. Electromagnetic interference See ESD.
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Glossary Industry-standard, switched data link layer protocol that handles multiple virtual circuits using HDLC Frame Relay encapsulation between connected devices. Frame Relay is more efficient than X.25, the protocol for which it is generally considered a replacement. Field replaceable unit. A component that can be removed from a network device and replaced in the field.
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Internet Operating System. See Internet Protocol. Network layer protocol in the TCP/IP stack offering a connectionless internetwork service. IP provides features for addressing, type-of-service specification, fragmentation and reassembly, and security. Defined in RFC 791. Routing technique that allows IP traffic to be propagated from one source to a number of destinations IP multicast or from many sources to many destinations.
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Glossary Generic term for equipment that multiplexes DS1s into DS3s. Sometimes used to describe a specific DS3 multiplex format. Some standards use this term to describe a synchronous multiplexing format also know as SYNTRAN. In many cases M13 does not refer to the SYNTRAN format, but instead refers to the format also known as M23.
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Single packets copied by the network and sent to a specific subset of network addresses. These Multicast addresses are specified in the Destination Address field. Compare with See MLP. Multilink Point-to-Point See MMF. Multimode fiber An activity in which multiple logical signals are transmitted simultaneously across a single physical Multiplexing channel.
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Glossary See OC. Optical carrier Fiber-optic Optical fiber Logical grouping of information that includes a header containing control information and (usually) Packet user data. Packets are most often used to refer to network layer units of data. The terms datagram, frame, message, and segment are also used to describe logical information groupings at various layers of the OSI reference model and in various technology circles.
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Performance routing engine. The central routing unit for the Cisco uBR10012 universal broadband router. The PRE performs all Layer 2 and Layer 3 packet manipulation related to routing and forwarding through the Cisco uBR10012 routers. Use dual PREs in a single chassis for redundancy. See also PXF Network Parallel eXpress Forwarding network processors.
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Glossary Segmentation and reassembly. One of the two sublayers of the AAL common part convergence sublayer, responsible for dividing (at the source) and reassembling (at the destination) the protocol data units (PDUs) passed from the convergence sublayer. The SAR sublayer takes the PDUs processed by the convergence sublayer and, after dividing them into 48-byte pieces of payload data, passes them to the ATM layer for further processing.
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Digital WAN carrier facility. T3 transmits DS3-formatted data at 44.736 Mbps through the telephone switching network. A Cisco Technical Assistance Center. There are four TACs worldwide. Terminal Access Controller Access Control System. Authentication protocol, developed by the DDN TACACS community, that provides remote access authentication and related services, such as event logging. User passwords are administered in a central database rather than in individual routers, providing an easily scalable network security solution.
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Glossary Universal Broadband Clear channel Unchannelized DS3 A message sent to a single network destination. Compare with Unicast A Cisco Cable Modem Termination System (CMTS) and carrier-class router that provides broadband Universal high-speed data, broadband entertainment, and IP telephony solutions over a coaxial cable network. Broadband Router Another name used in the software screens for the Timing, Communication, and Control Plus (TCC+) Utility Card...
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See WAN. Wide-area network Weighted Random Early Detection. RED uses an algorithm to randomly discard packets.The result of WRED the drop is that the source detects the dropped traffic and slows its transmission. WRED combines the capabilities of the RED algorithm with IP precedence. This combination provides for preferential traffic handling for higher-priority packets.
Numerics 1000Base-LX/LH 1-31, A-8, A-9 1000BASE-SX 1000Base-SX 1-31, A-8 1000Base-ZX 1-31, A-8, A-9 10BASE-T RJ-45 connector pinouts (table) AC-input power shelf installation installing after installing the main chassis AC PEM description 1-13, 5-9 acronyms, list of air filter air filter (figure) in the front cover (figure) product order number for spare replacing...
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Index cable length, factors determining 2-10 cable management brackets, installing cables attaching optional cable management brackets simplex or duplex fiber-optic cables (figure) B-10 auxiliary port Category 3 or 5 UTP RJ-45 console port crossover 3-50, B-5, B-6 Ethernet 3-53, 3-54 Fast Ethernet ports requirements...
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Ethernet port on PRE module 1-22 fan assembly module 1-34 features front view with front cover(figure) front view without front cover (figure) functional overview general rack-mounting guidelines Gigabit Ethernet line card 1-29 ground connection 2-4, 2-7 grounding lug 3-20 hardware description identifying startup problems LCD display panel 1-17...
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Index OC-12 POS 1-31 optical SC-type (simplex and duplex) RJ-45 3-64 console port, PRE1 module 3-61 cables configuring the attached terminal DB-9 connector 3-51 pinouts problems system banner display troubleshooting console port, PRE module 1-22, 3-51 connecting 3-50 console port signaling and cabling using a DB-9 adapter (table) cooling subsystem description...
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faceplate Cisco OC-12 POS (figure) 1-32 Cisco TCC+ card (figure) 1-25 gigabit Ethernet (figure) 1-30 PRE1 module (figure) 1-21 PRE2 module (figure) 1-21 fan assembly module airflow airflow cautions description 1-34 multiple or single fan failure preventing overheating replacing troubleshooting 4-2, 4-14 Fast Ethernet 100BASE-T connection...
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Index requirements specifications inserting cable interface line card (figure) GBIC (figure) 3-57 network line card (figure) 5-25 PC media card (figure) 5-17 PRE module in the chassis (figure) the TCC+ card (figure) 5-20 installing 5-16 air filter cable interface line cards 5-41 fan assembly module front cover...
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captive screws on the PRE1 module (figure) ground lug connectors (figure) manufacturers European headend provisioning requirements (table) North American headend provisioning requirements (table) media cards formatting 3-66 memory devices on the Cisco uBR10012 router modules Cisco uBR10-LCP2-MC28C 1-27 Cisco uBR-MC28C 1-27 DC PEM 1-34...
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Index Performance Routing Engine, see PRE module physical description pinouts auxiliary port console port Fast Ethernet port plant wiring guidelines ports Fast Ethernet port on active PRE gigabit Ethernet GBIC 1-29 OC-12 POS SC connector 1-31 PRE auxiliary 1-22, A-7 PRE console 1-22, A-7 PRE Ethernet...
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safety guidelines electricity lifting the chassis preventing electrostatic discharge damage translated warnings 1-iv SECAM frequency allocation C-14 standard, description setup command 3-65 setup facility 3-61 SFP module inserting 5-40 removing 5-38 types 5-38 SFP modules 5-38 show environment command 2-5, 4-15 show facility-alarm status command show int fast0/0 command simplex SC-type cable and connector (figure)
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Index terminal server connections 3-61 terms and acronyms Timing, Communication, and Control Plus card, see TCC+ card tools and supplies connecting DC power 3-35, 3-36, 3-50 connecting ground 3-20 for maintenance and replacing modules transmission distance, fiber-optic 2-10 troubleshooting console port cooling subsystems 4-2, 4-14 Ethernet connections...