E-Series Routers Installation and User Guide Release 5.1.x Juniper Networks, Inc. 1194 North Mathilda Avenue Sunnyvale, CA 94089 USA 408-745-2000 www.juniper.net Part No. 162-00730-00 Rev.
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Before installing the equipment, users should ensure that it is permissible to be connected to the facilities of the local telecommunications company. The equipment must also be installed using an acceptable method of connection. In some cases, the company’s inside wiring associated with a single line individual service may be extended by means of a certified connector assembly (telephone extension cord).
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must return the Software, including any User Documentation, and all copies or portions thereof to Juniper Networks. Termination of this License Agreement shall not prejudice Juniper Networks' rights to damages or other available remedy. 5. Limited Software Warranty: Juniper Networks warrants, for your benefit alone, that for a period of ninety (90) days from the date of shipment from Juniper Networks that the Software substantially conforms to its published specifications.
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Contents About This Guide E-Series Routers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xv Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
x Contents CLI Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . SNMP MIB Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NMC-RX Device Management System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Redundancy Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . SRP Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
xi E-Series Routers Combinations of Line Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4 OC48 Line Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4 Replacing and Managing Modules Using the Software . . . . . . . . . . . . . . . . . . 5-5 Hot-Swapping Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-5 Protecting Modules and Slots . . . . . . . . . . . . . . . . . . . . . .
xii Contents Chapter 7 Powering Up E-Series Routers Before You Power Up the System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Powering Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2 Initialization Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3 Status LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
xiii E-Series Routers LED Activity During Booting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 Abnormal LED Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 Redundancy Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-9 Monitoring Temperatures of Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-9 Resetting Line Modules and SRP Modules . . . . . . . .
xiv Contents Appendix B Installing JUNOSe Software Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1 Identifying the Software Release File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2 Installing Software When a Firewall Exists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2 Task 1: Obtain the Required Information . . . . . . . . . . . . . . . . . . . . . . . .
About This Guide This E-Series Installation and User Guide provides the information you need to install and start the E-series router. Note: If the information in the latest E-series Release Notes differs from the information in this guide, follow the E-series Release Notes. The E-series router is shipped with the latest system software installed. If you need to install a future release or reinstall the system software, refer to the procedures in Appendix B, Installing JUNOSe Software.
xvi About This Guide Audience This guide is intended for experienced system and network specialists working with E-series routers in an Internet access environment. Conventions Table 1 defines notice icons used in this guide, and Table 2 defines text conventions used throughout the book, except for command syntax. Table 3 provides command syntax conventions used primarily in the E-Series Command Reference Guide.
Documentation E-Series Routers Table 2 Text conventions (except for command syntax) (continued) Convention Description Examples Italics • Emphasize words. • • Identify variables. There are two levels of access, user and privileged. • Identify chapter, appendix, and book names. • clusterId, ipAddress. • Appendix A, System Specifications. Table 3 Syntax conventions in Command Reference Guide Convention Description Examples Words in plain text Represent keywords.
xviii About This Guide management access, and general troubleshooting. Describes SRP modules, line modules, and I/O modules available for the E-series routers, and provides information about the compatibility of line modules and I/O modules with software releases. Lists the layer 2 protocols, layer 3 protocols, and applications that line modules and their corresponding I/O modules support.
Comments About the Documentation E-Series Routers MIBS Copies of the MIBs available in a software release are included on the JUNOSe Software CD (formerly ERX Edge Routers Software CD) and on the Web. Release Notes Release notes are included on the corresponding software CD and are available on the Web. In the Release Notes, you will find the latest information about features, changes, known problems, resolved problems, and system maximum values.
xx About This Guide Contacting Customer Support For technical support, contact Juniper Networks at support@juniper.net, or at 1-888-314-JTAC (within the United States) or 408-745-9500 (from outside the United States).
Part 1 Installing and Using E-Series Routers
E-Series Overview 1 This chapter provides introductory information about the E-series routers.
CHAPTER 1 E-Series Overview Where E-Series Routers Fit In Communications with the router can take place over a variety of media. Figure 1-1 and Figure 1-2 illustrate the location of E-series routers as an edge router in an end-to-end Internet network. In Figure 1-1, the customers are businesses using T1/T3 communication lines. In Figure 1-2, the customers are using digital subscriber lines (DSLs) with a DSL access multiplexer (DSLAM).
E-Series Routers E-Series Routers In Figure 1-3, the ERX-310 router is being used as an access router in a small POP location. The router is deployed by the service provider at the customer site as a CPE (customer premises equipment).
1-4 CHAPTER 1 E-Series Overview ERX-14xx Models Note: In the E-series documentation, the term ERX-14xx models refers to both the ERX-1440 router and the ERX-1410 router. The terms ERX-1440 router and ERX-1410 router refer to the specific models. See Figure 1-4 and Figure 1-5. The ERX-1440 router manages an extremely high volume of network traffic, and uses a 40-Gbps switch route processor (SRP) module, either the SRP-40G or SRP-40G+ module.
E-Series Routers E-Series Routers Fan tray behind bezel Line module SRP module PCMCIA slot g013727 Air filter (optional) behind bezel Bezel Figure 1-4 ERX-14xx model, front view Cable management bracket 1-5
CHAPTER 1 E-Series Overview Fan tray I/O module SRP I/O module Power input module Cable management bracket Plenum g013727 1-6 Figure 1-5 ERX-14xx model, rear view ERX-7xx Models Note: In the E-series documentation, the term ERX-7xx models refers to both the ERX-705 router and the ERX-710 router. The terms ERX-705 router and ERX-710 router refer to the specific models. See Figure 1-6 and Figure 1-7. The ERX-7xx models are robust, high-density routers with less capacity than the ERX-14xx models.
E-Series Routers E-Series Routers The ERX-705 chassis is the same as the ERX-710 chassis (see Figure 1-6 and Figure 1-7). The chassis contains seven slots to accommodate modules. Installation procedures and operating procedures are identical for both systems. All ERX-7xx/14xx models use the same SRP I/O module, but different power input modules are used. Note: The router may look different from the routers shown in the figures in this chapter, depending on the line modules in the slots.
CHAPTER 1 E-Series Overview ERX-310 Router The ERX-310 router is a low-end platform that supports all of the same services as the ERX-7xx/14xx models, but with smaller capacity and scaling capabilities. Like the ERX-7xx/14xx models, the ERX-310 router uses the same software architecture, providing a single IP entry point into the network with the same IP-based protocols and services that are available on other E-series routers.
E-Series Routers E-Series Routers I/O module SRP I/O module g013732 ESD grounding jack AC power inputs and switches A and B Grounding posts Figure 1-9 ERX-310 router, rear view (AC model) I/O module SRP I/O module g013733 ESD grounding jack DC power inputs and switches A and B Grounding posts Figure 1-10 ERX-310 router, rear view (DC model) 1-9
CHAPTER 1 E-Series Overview E-Series Modules The system supports an SRP module and a selection of line modules. You can use any line module for access or uplink. Access line modules receive traffic from low-speed circuits, and the system routes the traffic onto higher-speed uplink line modules and then to the core of the network. Each module connects to a corresponding I/O module via a passive midplane. See Figure 1-11.
E-Series Modules E-Series Routers SRP Module Switch route processor (SRP) modules perform system management, routing table calculations and maintenance, forwarding table computations, statistics processing, configuration storage, and other control plane functions. Each SRP module is a PowerPC-based system with its own memory, nonvolatile disk storage, and power supply (see Figure 1-12 and Figure 1-13).
CHAPTER 1 E-Series Overview g013736 1-12 Ejector Midplane connectors Status LEDs PCMCIA NVS card Board reset button NMI button Integrated fabric system processor board Figure 1-13 ERX-310 SRP module Module Details ERX-7xx/14xx models use up to two redundant SRP modules operating in an active/standby configuration. ERX-310 routers use only one SRP module. An SRP module must be present for any system to boot. SRP modules ranging from 5 Gbps to 40 Gbps can be used in ERX-7xx/14xx models.
E-Series Modules E-Series Routers Caution: Do not remove the SRP module while the system is running. For details about installing SRP modules, see Chapter 5, Installing Modules. SRP Module Redundancy SRP module redundancy is available only for ERX-7xx/14xx models. See Redundancy Features, later in this chapter, for more information. Nonvolatile Storage The PCMCIA slot on the front of the SRP module holds a Type II PCMCIA nonvolatile storage (NVS) card (see Figure 1-12 and Figure 1-13).
CHAPTER 1 E-Series Overview For details about installing the SRP I/O module, see Chapter 5, Installing Modules. Line Modules Line modules process data from different types of network connections. For information about available line modules and which SRP modules support specific line modules, see Chapter 12, Module Specifications. Figure 1-14 shows a representative line module. For details about installing line modules, see Chapter 5, Installing Modules.
Network Management Tools E-Series Routers Packet Classification Most line modules support packet classification on ingress (some non-ASIC line modules do not). A classification engine on the line module matches specific fields (such as source and destination IP address, source and destination port, and protocol), the ingress IP interface, layer 2 fields, or some combination of these against user-configured filters at wire speed.
1-16 CHAPTER 1 E-Series Overview NMC-RX Device Management System The NMX-RX application provides a global method of managing all routers, line modules, and ports through a graphical user interface. Redundancy Features The system has the following redundancy features: SRP Modules Note: This section applies to ERX-7xx/14xx models only. ERX-310 routers contain one SRP module and therefore do not offer SRP module redundancy. ERX-7xx/14xx models use a 1:1 redundancy scheme for the SRP module.
Redundancy Features E-Series Routers primary SRP module will hereafter be referred to as the primary NVS card.) If the capacity of the primary NVS card is equal to or smaller than that of the redundant NVS card, the system copies all the files from the primary NVS card to the redundant NVS card.
CHAPTER 1 E-Series Overview The process by which the system switches to the spare line module is called switchover. When switchover occurs, the system: 1 Breaks the connection between the primary I/O module and the primary line module. 2 Connects the primary I/O module to the spare line module via the redundancy midplane and redundancy I/O module. Protocol processing then takes place on the spare line module. Figure 1-15 shows the data flow when a spare line module becomes active.
Redundancy Features E-Series Routers For information about installing modules for line module redundancy, see Chapter 5, Installing Modules. For information about configuring and managing SRP module redundancy, see E-Series System Basics Configuration Guide, Chapter 5, Managing Line Modules and SRP Modules.
1-20 CHAPTER 1 E-Series Overview
Unpacking and Inspecting E-Series Routers 2 This chapter reviews shipping contents and unpacking procedures for E-series routers. Topic Page Before You Begin 2-1 Unpacking ERX-14xx Models 2-2 Unpacking ERX-7xx Models and ERX-310 Routers 2-3 Inspecting E-Series Router Components and Accessories 2-3 If You Detect or Suspect Damage 2-3 Contacting Juniper Networks 2-3 The Next Step 2-4 Before You Begin Before you begin unpacking the router, be sure you have the following tools: • A No.
CHAPTER 2 Unpacking and Inspecting E-Series Routers Unpacking ERX-14xx Models ERX-14xx models come boxed, bolted, and strapped to a skid. For your convenience, Juniper Networks recommends that you unpack the E-series router in the location where you want to install it. Heavy-Equipment Warning: Three people are required to install the E-series router in a rack: two to lift the system into position and one to screw it to the rack.
Unpacking ERX-7xx Models and ERX-310 Routers E-Series Routers Unpacking ERX-7xx Models and ERX-310 Routers ERX-7xx models and ERX-310 routers are shipped boxed, but not attached to a skid. For your convenience, Juniper Networks recommends that you unpack the E-series router in the location where you want to install it. To unpack an ERX-7xx model or an ERX-310 router: 1 Open the carton from the top. 2 Remove the box of accessories that sits on top of the system. 3 Remove the router from the box.
2-4 CHAPTER 2 Unpacking and Inspecting E-Series Routers The Next Step • To familiarize yourself with the electrical, environmental, and other guidelines and requirements for installing E-series routers, turn to Chapter 3, Installation Guidelines and Requirements. • If you are familiar with these guidelines and requirements, turn to Chapter 4, Installing E-Series Routers.
Installation Guidelines and Requirements 3 This chapter reviews preinstallation considerations such as electrical, environmental, and safety compliances for E-series routers. For complete system specifications, refer to Chapter 11, System Specifications.
3-2 CHAPTER 3 Installation Guidelines and Requirements • Ensure that all IP environment requirements are met, such as autonomous system (AS) number, port IP address and mask, management Ethernet port IP address and mask, and broadcast address. Environmental Requirements Refer to Chapter 11, System Specifications for complete environmental specifications. Choose a location for the router that is dry, relatively dust free, well ventilated, and air conditioned.
Safety Guidelines E-Series Routers Safety Guidelines For your safety, before installing the system, review all safety warnings in this section. Temperature Warning: The recommended maximum ambient temperature is 50° C (122° F). The internal temperature of the rack should be considered for safe operation. Rack Installation Warning: Install equipment in the rack from the bottom upward. This will maintain the stability of the rack and reduce the chance of the rack’s tipping over.
3-4 CHAPTER 3 Installation Guidelines and Requirements ERX-310 Power Cord Warnings (AC Model) This unit has more than one power-supply cord. Disconnect 2 power cords BEFORE servicing to avoid electric shock. Denne enhed har mere end een strømfordelingsledning. Fjern ledning(er) nummer 2 FØR eftersyn for at undgå elektrisk stød. Waarschuwing! Dit apparaat heeft meerdere netsnoeren. Vermijd elektrische schok! Verwijder 2 netsnoeren ALVORENS onderhoud te verrichten.
Equipment Rack Requirements E-Series Routers ERX-310 router ERX-7xx model Plenum g013740 ERX-14xx model Figure 3-1 E-series routers installed in a rack 3-5
3-6 CHAPTER 3 Installation Guidelines and Requirements Mechanical Requirements Follow these mechanical requirements for your rack: • Select from the following rack options: > Two-post rack – a freestanding enclosed cabinet with two mounting posts in the front > Telco-type rack – two adjacent mounting posts that you must secure to the floor or an overhead structure > Four-post rack – a freestanding open rack, either open or closed • The rack must have at least two mounting posts.
3-7 Equipment Rack Requirements E-Series Routers Air output ERX-310 router and ERX-7xx model Air intake ERX-310 router and ERX-7xx model Air output ERX-14xx model via plenum Air intake ERX-14xx model 3- to 4-ft. (0.9- to 1.2-m) access space g013741 7-ft. (2.
3-8 CHAPTER 3 Installation Guidelines and Requirements Cabling Recommendations You may want to consult the document GR-63 (LSSGR, FD-15): Network Equipment Building System (NEBS) Requirements: Physical Protection, Issue 1, October 1995 for additional cable recommendations. Comply with the following recommendations: • Use only shielded cables. • Ensure that cable distance and rate limits meet IEEE-recommended maximum speeds and distances for signaling purposes.
Installing E-Series Routers 4 This chapter describes how to install E-series routers in a rack. Topic Page Before You Begin 4-1 Freestanding Installation 4-2 Rack-Mounted Installation 4-3 The Next Step 4-6 Before You Begin Before installing E-series routers, be sure you: • Have a plan for installing E-series routers. This plan should consider future expansion of your system. • Have the tools and accessories needed to complete the installation.
CHAPTER 4 Installing E-Series Routers Freestanding Installation When installing the system on a table top or in any other freestanding mode, be sure to leave enough space around the system for adequate ventilation. Position the router with easy access to the connections that it needs for power, local communications, and remote communications. See Chapter 3, Installation Guidelines and Requirements, and Chapter 11, System Specifications, for more information.
Rack-Mounted Installation E-Series Routers Rack-Mounted Installation Juniper Networks recommends that you use a standard EIA distribution rack. Refer to Equipment Rack Requirements in Chapter 3, Installation Guidelines and Requirements, for detailed rack information. Installation Guidelines Before installing the systems in a rack, consider the following guidelines and refer to Figure 4-2: • You can install up to three ERX-14xx models, six ERX-7xx models, or fourteen ERX-310 routers in a single 7-ft. (2.
CHAPTER 4 Installing E-Series Routers ERX-310 router ERX-7xx model Plenum ERX-14xx model g013740 4-4 Figure 4-2 E-series routers installed in recommended order
Rack-Mounted Installation E-Series Routers Safety Guidelines Observe the following safety guidelines when mounting the router in a rack. Rack Installation Warning: Install equipment in the rack from the bottom upward. This will maintain the stability of the rack and reduce the chance of the rack’s tipping over. Heavy-Equipment Warning: Three people are required to install the E-series router in a rack: two to lift the system into position and one to screw it to the rack.
4-6 CHAPTER 4 Installing E-Series Routers Installing the Router To complete the installation of the router in a rack, you need: • A Phillips screwdriver • Depending on the router, up to eight 10-32 x 3/8 Phillips screws (provided with the router ) for each router to be installed Warning: Three people are required to install the E-series router in a rack: two to lift the system into position and one to screw it to the rack. Note: All persons handling an E-series router should wear an antistatic device.
Installing Modules 5 This chapter describes how to install and remove E-series modules. For information about managing installed modules, see E-Series System Basics Configuration Guide, Chapter 5, Managing Line Modules and SRP Modules.
CHAPTER 5 Installing Modules ERX-7xx model g013742 5-2 ERX-14xx model ERX-310 router Figure 5-1 Orientation of line modules in E-series routers For details about available line modules, see Chapter 12, Module Specifications. For information about compatibility between lines modules and SRP modules, see Table 12-2 in Chapter 12, Module Specifications. Slot Groups The slots in the ERX-1410 router and the ERX-7xx models are divided into groups.
Overview E-Series Routers Slot Groups for the ERX-1410 Router A slot group in the ERX-1410 router comprises three adjacent chassis slots. The groups for the ERX-1410 router consist of the following slots (Figure 5-2): • Slot group 1 – slots 0 through 2 • Slot group 2 – slots 3 through 5 • Slot group 3 – slots 8 through 10 • Slot group 4 – slots 11 through 13 Slots 6 and 7 are reserved for the SRP modules.
CHAPTER 5 Installing Modules Slot Groups for the ERX-7xx Models A slot group in an ERX-7xx model comprises one slot or two adjacent slots. The groups for an ERX-7xx model consist of the following slots (Figure 5-3): • Slot group 1 – slots 2 and 3 • Slot group 2 – slot 4 • Slot group 3 – slot 5 • Slot group 4 – slot 6 Slots 0 and 1 are reserved for the SRP modules. E3 ATM CE1 CE1 Slot group 1 g013744 0 Slot group 4 Slot group 3 Slot group 2 SRP 1 SRP 6 5 4 3 2 OC3 .
Overview E-Series Routers Replacing and Managing Modules Using the Software For information about software procedures associated with replacing and managing modules, see E-Series System Basics Configuration Guide, Chapter 5, Managing Line Modules and SRP Modules. Hot-Swapping Modules All E-series routers support hot-swapping of modules. Hot-swapping allows you to add or remove a module without powering down the system.
5-6 CHAPTER 5 Installing Modules To protect the modules and slots when installing modules, observe the following guidelines: Caution: When handling modules, use an antistatic wrist strap connected to the E-series router’s ESD grounding jack. This action helps to protect the module from damage by electrostatic discharge. Caution: Always handle the module by its edges. Do not touch the components, pins, leads, or solder connections.
Safety Guidelines E-Series Routers Safety Guidelines Before and during the installation process, observe the following precautions: Lightning Activity Warning: Do not work on the system or connect or disconnect cables during lightning activity. DC Power Disconnection Warning: Before powering on the E-series router, remove power from the DC circuit by deactivating the circuit breaker on the panel board that services the DC circuit.
5-8 CHAPTER 5 Installing Modules Installing an SRP I/O Module To install an SRP I/O module: 1 Ground yourself by using an antistatic wrist strap or other device. 2 With a Phillips screwdriver, loosen the captive screws that secure the blank faceplate covering the empty chassis slot, if present, and remove the faceplate. 3 Remove the SRP I/O module from its antistatic bag.
Installing SRP I/O and SRP Modules E-Series Routers Opened Closed Opened g013746 Closed Figure 5-5 Ejectors in the open position 6 Slide the module into the chassis by placing it between the guides of the selected slot and pushing the module until it stops. The module stops sliding when the ejectors make contact with the front of the chassis.
5-10 CHAPTER 5 Installing Modules 8 Tighten the module’s captive screws using a Phillips screwdriver. Alternately turn each screw several times before tightening them completely to allow the module to sit correctly. Installing Line and I/O Modules This section describes the procedures for installing line and I/O modules.
Removing a Module E-Series Routers The module stops sliding when the ejectors make contact with the front of the chassis. Caution: If you meet strong resistance when attempting to seat the module using the ejectors, remove it from the chassis and confirm that the slot is one designed to hold the module. Also, be sure that you have aligned the top and bottom edges in the correct matching tracks.
CHAPTER 5 Installing Modules Opened Closed Closed Opened g013747 5-12 Figure 5-6 Ejectors in the closed position 5 Carefully slide the module out of the chassis. 6 Place the module in its antistatic bag. 7 Cover the empty chassis slot with a blank faceplate, and tighten the faceplate’s captive screws using a Phillips screwdriver. Turn both screws several times before tightening them completely.
Installing Components for Line Module Redundancy E-Series Routers Installing Components for Line Module Redundancy A spare line module provides redundancy for a group of identical line modules for ERX-7xx/14xx models only. Note: The ERX-310 router does not support line module redundancy.
5-14 CHAPTER 5 Installing Modules Warning: Turn off the E-series router before you install the redundancy midplane. Working inside the router when it is on can lead to electric shock and serious burns. 2 Turn off the power switches located on the power input module in the rear of the system (see Figure 5-7). 3 Remove the I/O modules from the slots that the redundancy midplane will span.
Redundancy midplane g013748 Installing Components for Line Module Redundancy E-Series Routers Figure 5-7 Installing a redundancy midplane Installing the I/O Modules To install the I/O modules in a redundancy group: 1 Install the redundancy I/O module in the lowest-numbered slot of the redundancy group. Caution: When setting up a redundancy group with line modules, be sure to install the redundancy I/O module in the lowest-numbered slot of the redundancy group.
5-16 CHAPTER 5 Installing Modules Verifying the Installation To verify that the installation is complete: 1 After you have cabled the system for power (see Chapter 6, Cabling E-Series Routers), turn on the power switches. The system reboots. 2 Issue the show redundancy command, and verify that the display shows the redundancy hardware.
Cabling E-Series Routers 6 This chapter describes how to cable an E-series router. Before you cable the router, ensure that you have completed all installation instructions identified in previous chapters.
6-2 CHAPTER 6 Cabling E-Series Routers 6 Connect the power cables from the power source to the power input module. 7 Connect the line I/O modules to their appropriate network interface. Note: Juniper Networks recommends that you use shielded cables where appropriate.
6-3 Cabling Overview E-Series Routers SRP I/O module (slot positions 6 and 7) Alarm leads External timing ports (Europe) External timing ports (North America) OC3-4 I/O SINGLE MODE OC3-4 I/O SINGLE MODE CT3 I/O CT3 I/O FE-8 I/O MINOR ALARMS MAJOR CRITICAL OC3-4 I/O module (slot 12) + + + - Port 0 E1 75 OHM CLOCK IN EXTERNAL TIMING Port 1 Port 2 A T G R B T G R Port 3 T1 100 OHM CLOCK IN 10/100 BASE T 10/100 BASE T port RS-232 RS-232 terminal port CONSOLE CT3 I/O module (slot 9) P
6-4 CHAPTER 6 Cabling E-Series Routers Required Tools, Wires, and Cables Cabling your system should take only a few minutes. You will need the items listed below and in Table 6-1 for proper installation. • 1/8" flathead screwdriver • 3/8" wrench or 3/8" nut-driver • No. 2 Phillips screwdriver • Ground wires – We recommend a minimum of 10-AWG ground wire. • #10 (ERX-7xx/14xx models) or #8 (ERX-310 router) kep nut to connect the ground (earth) wire to the ground terminal.
Cabling the SRP I/O Module E-Series Routers Cabling the SRP I/O Module Before powering up the E-series router, you must set up a management console. The console enables you to communicate with your system during the power-up process and to manage your system using the command line interface (CLI). When connecting a console directly to the SRP I/O module, use a cable appropriate for your terminal connector. The cable must have a female DB-9 connector to attach to the RS-232 port on the SRP I/O module.
CHAPTER 6 Cabling E-Series Routers • European – Two 75-ohm E1 2.048-Mbps inputs with BNC connectors • North American – Two 100-ohm T1 inputs with three pin wire-wrap connectors. Pins are labeled T (tip), G (ground), and R (ring). We recommend using 26-AWG wire minimum. Note: Use shielded cables to connect the external clock sources to the clock source input ports.
Cabling the SRP I/O Module E-Series Routers To connect the clock source input ports: 1 Depending on the connector type, complete one of the following tasks: • E1: Attach the BNC connector to Clock A’s external timing port. • T1: Wrap the tip wire on pin marked T of Clock A’s external timing port, the ground wire on G pin, and the ring wire on R pin. Note: You can use a wire-wrap gun to attach wires to pins.
CHAPTER 6 Cabling E-Series Routers SRP I/O module RS-232 10/100 BASE T g013751 6-8 Figure 6-3 ERX-310 router SRP I/O module See Chapter 8, Accessing E-Series Routers, for more information about management access. Connecting to the Network To connect the E-series router to the network: 1 Insert an Ethernet cable (RJ-45) connector into the 10/100Base-T (RJ-45) port on the SRP I/O module until it clicks into place.
Cabling the E-Series Router for Power E-Series Routers Cabling the E-Series Router for Power After you have correctly cabled the modules and I/O modules, you must attach grounding and electrical wires before you attempt system power-up. There are three main tasks involved: 1 Switch all E-series router power switches to OFF. Caution: Switches may have inadvertently flipped to ON during shipping and installation. 2 Connect the grounding wires to the chassis.
CHAPTER 6 Cabling E-Series Routers THIS PRODUCT IS EQUIPPED WITH H TWO POWER FEEDS. DISCONNECT NNECT CT BOTH FEEDS PRIOR TO SERVICE. VICE. POWER A POWER B | ON | ON O OFF O OFF POWER A -48VDC RTN TN POWER B PO -48VDC RTN -48VDC -48VDC ! RTN TN RTN WARNING! ARNING! NO OPERATOR ACCESSIBLE COMPONENTS. AUTHORIZED SERVICE PERSONNEL ONLY.
Cabling the E-Series Router for Power E-Series Routers Task 2: Connect the Grounding Cables All E-series routers have two grounding studs located in the rear of the chassis, near the power inputs. Each stud provides grounding for a single power unit. To ground each power unit: 1 Locate the grounding studs on the E-series router (see Figure 6-4 and Figure 6-5). 2 Remove the nuts and locking washers from the grounding studs. Note: We recommend a minimum of 10-AWG ground wire with a ring style terminal.
CHAPTER 6 Cabling E-Series Routers Warning: The wiring color code of the power cables depends on the color coding of the DC power source installed at your site. Color code standards for DC wiring do not exist. To ensure that the correct polarity is connected to the E-series router power units, confirm the connection of the power cables to the + (positive) and – (negative) leads at the power source.
Cabling the E-Series Router for Power E-Series Routers ERX-310 router (AC model) 1 Insert the power cord into the AC power IEC receptacle (see Figure 6-6). 2 Insert the other end of the power cord into an appropriate AC power source. Note: To provide redundancy, Power A and Power B leads should not terminate at the same power source. 3 Repeat steps 1–2 for the other power input module, if needed.
CHAPTER 6 Cabling E-Series Routers Cabling I/O Modules The following section illustrates the common connector types used with E-series I/O modules. For information about the connectors on the different line modules, see Chapter 12, Module Specifications. BNC Connectors .
Cabling I/O Modules E-Series Routers HSSI Connectors The HSSI I/O module uses a standard 50-pin HSSI connector. Caution: Do not terminate HSSI connections with SCSI connectors. Although SCSI connectors look very similar to HSSI connectors, using SCSI connectors on HSSI connections may lead to data loss.
CHAPTER 6 Cabling E-Series Routers RJ-45 Connectors When inserting an RJ-45 connector, be sure it clicks into the port. 10/100 FE-2 I/O g013757 Port 0 Figure 6-9 I/O module with RJ-45 connector RJ-48C Connectors When inserting an RJ-48C connector, be sure it clicks into the port.
Cabling I/O Modules E-Series Routers LC Duplex Connectors In accordance with EN60825-1, Safety of Laser Products - Part 1: Equipment Class, Requirements, and User’s Guide (2001), multimode I/O modules with LC connectors are defined as follows: CLASS 1 LED PRODUCT. In accordance with EN60825-1, Safety of Laser Products - Part 1: Equipment Class, Requirements, and User’s Guide (2001), single-mode I/O modules with LC connectors are defined as follows: CLASS 1 LASER PRODUCT.
CHAPTER 6 Cabling E-Series Routers SC Duplex Connectors In accordance with EN60825-1, Safety of Laser Products - Part 1: Equipment Class, Requirements, and User’s Guide (2001), multimode I/O modules with SC connectors are defined as follows: CLASS 1 LED PRODUCT. In accordance with EN60825-1, Safety of Laser Products - Part 1: Equipment Class, Requirements, and User’s Guide (2001), single-mode I/O modules with SC connectors are defined as follows: CLASS 1 LASER PRODUCT.
Cabling I/O Modules E-Series Routers Cabling X.21/V.35 Connectors Four cables are available for the X.21/V.35 I/O modules: • X.21 DCE cable (terminated with 8 female X.21 connectors) • X.21 DTE cable (terminated with 8 male X.21 connectors) • V.35 DCE cable (terminated with 8 female V.35 connectors) • V.35 DTE cable (terminated with 8 male V.35 connectors) Each 200-pin proprietary socket on the I/O module provides connections to 8 V.35 or X.21 ports.
6-20 CHAPTER 6 Cabling E-Series Routers Redundant Ports Some modules have redundant ports. See Chapter 12, Module Specifications for specifications. Cabling both ports provides a redundant path to the E-series module. Caution: For port redundancy to operate correctly on a GE I/O module that supports SFPs, both the primary and redundant ports on an E-series GE I/O module must use the same type of SFP. The Next Step Turn to Chapter 7, Powering Up E-Series Routers.
Powering Up E-Series Routers 7 This chapter describes how to power up an E-series router and determine if it has booted properly. Topic Page Before You Power Up the System 7-1 Powering Up 7-2 Status LEDs 7-3 Powering Down 7-3 The Next Step 7-3 Before You Power Up the System Before powering up the system, you should complete the tasks shown in Table 7-1. Refer to the appropriate chapters in this guide for information about these tasks.
7-2 CHAPTER 7 Powering Up E-Series Routers Table 7-1 Installation tasks (continued) Installation Task Page Warning: Be sure the power source is turned off and the system is turned off before performing the following task. Connect DC power or AC power to your E-series router. (depending on model) 6-9 Cable all line modules. 6-14 Powering Up Note: This procedure assumes that the system is already connected to a power source. See Chapter 6, Cabling the E-Series Router for Power.
Status LEDs E-Series Routers Initialization Sequence Each E-series line module is initialized independently. As a result, the CLI on the SRP module may become available before the line modules have completed initialization. Commands relating to a line module may fail if the module has not completed initialization. The show version command can be used to display line module status. Do not enter commands for a line module until its state is “online”.
7-4 CHAPTER 7 Powering Up E-Series Routers
Accessing E-Series Routers 8 This chapter discusses how to access the system to manage it. Managing your router includes both configuring and monitoring it. For basic information on the management of the system, see E-Series System Basics Configuration Guide, Chapter 4, Managing the System.
8-2 CHAPTER 8 Accessing E-Series Routers to use the CLI to set an IP address on the system. Once you configure the IP address, you can access the system remotely (for example, via Telnet). Console Port Setup A console terminal (PC, Macintosh, or UNIX workstation) can be connected directly to the SRP I/O module via the RS-232 terminal port. When you connect a console directly to the system, you can configure the system without an IP address.
Console Port Setup E-Series Routers Connecting Directly to the E-Series Router When you connect a console directly to the system, use a cable appropriate for your terminal connector. The cable must have a female DB-9 connector to attach to the RS-232 port on the system. The console port is considered a data terminal equipment interface (DTE). Direct connection to a terminal or PC (which also have DTE interfaces) requires a crossover cable.
8-4 CHAPTER 8 Accessing E-Series Routers Note: Direct access through the RS-232 serial port allows you to monitor the system as it boots. Assigning an IP Address When your console is ready to communicate with the system, power up the system (see Chapter 7, Powering Up E-Series Routers), and set an IP address for the system. The system powers up in User Exec mode. To assign an IP address: 1 Enter the enable command at the User Exec prompt. host1>enable host1# The system is now in Privileged Exec mode.
Telnet Setup E-Series Routers Before you can access the system with Telnet, you must either configure a password for Telnet access or disable the password requirement from the management console. In the following example, you disable the password. 1 Enter the enable command. host1>enable host1# The system is now in Privileged Exec mode. 2 Enter the configure command. host1#configure terminal Enter configuration commands, one per line. End with CNTL/Z.
8-6 CHAPTER 8 Accessing E-Series Routers The system is now in Global Configuration mode, from which you can configure the system. See E-Series System Basics Configuration Guide, Chapter 2, Command Line Interface. Caution: Do not change the IP address for the Ethernet interface that you are using to communicate with the system. If you change the address, you will lose the Telnet session. SNMP The system supports Simple Network Management Protocol (SNMP), a standard management protocol for IP networks.
Maintaining E-Series Routers 9 This chapter lists the tools, items, and steps needed for installing and uninstalling E-series components. Other maintenance procedures must be performed by an authorized Juniper Networks technician.
9-2 CHAPTER 9 Maintaining E-Series Routers Storing Modules and Components Caution: Failure to store electronic modules and components correctly may lead to damage of these items. Retain the packaging in which a module or component was shipped, and use this packaging to store the item. Modules are shipped in antistatic bags and protective packaging. Components, such as transceivers and NVS cards, are shipped in antistatic plastic containers within an antistatic padded box.
Upgrading NVS Cards on SRP Modules E-Series Routers Upgrading NVS Cards on SRP Modules This section describes how to install higher-capacity NVS cards on SRP modules. The procedure you use depends on the number of SRP modules in the system. A new NVS card will contain the software release you ordered. Note: The new NVS card must contain the same software release that you are running on the system.
9-4 CHAPTER 9 Maintaining E-Series Routers Upgrading a System That Contains Two SRP Modules In a system that contains two SRP modules, you can upgrade the NVS cards on the SRP modules without powering down the system. Warning: Do not insert any metal object, such as a screwdriver, or place your hand into an open slot or the backplane when the E-series router is on. Remove jewelry (including rings, necklaces, and watches) before working on equipment that is connected to power lines.
Upgrading NVS Cards on SRP Modules E-Series Routers Replacing an NVS Card To replace an NVS card on an SRP module: 1 Obtain an antistatic container for the NVS card you will remove (see Storing Modules and Components, earlier in this chapter). 2 With a small flathead screwdriver, remove the faceplate from the NVS card slot on the SRP module (see Figure 9-1). 3 Use the screwdriver to depress the button next to the NVS card (see Figure 9-1). This action releases the NVS card.
9-6 CHAPTER 9 Maintaining E-Series Routers Upgrading Memory on SRP Modules This section describes how to upgrade memory on SRP modules. E-series software releases 3.0.x and higher require at least 512 MB of memory on each SRP module. Note: The ERX-310 SRP module contains two SODIMM banks that use 256-MB memory, and currently is not upgradeable. Four main steps are involved in upgrading memory on SRP modules: 1 Check memory currently installed on the SRP module. 2 Remove the SRP module and the SODIMMs.
Upgrading Memory on SRP Modules E-Series Routers a cream ceramic connector at one edge. Some or all of the sockets may already contain SODIMMs. 1 Push down on the back edge of a SODIMM to release it from the socket (see Figure 9-2). 2 Gently pull up and out to disconnect the SODIMM from the connectors and remove it from the socket. Adding New SODIMMs 1 Locate the four SODIMM sockets on the SRP module (see Figure 9-2 and Figure 9-3). See the previous section to learn how to remove SODIMMs.
CHAPTER 9 Maintaining E-Series Routers Empty SODIMM socket SODIMM g013452 9-8 Figure 9-3 SODIMM sockets on the SRP-40 module 2 Insert a SODIMM from the upgrade kit at an angle of approximately 45 degrees into an empty ceramic connector, so that the notch in the long gold edge of the SODIMM aligns with the notch in the connector. The notch on the long gold edge will no longer be visible when the SODIMM is pressed in far enough.
Replacing SFPs on GE I/O Modules E-Series Routers Replacing SFPs on GE I/O Modules This section describes how to replace small form-factor pluggable transceivers (SFPs) on Gigabit Ethernet (GE) modules that support these devices. A range of SFPs that support different optical modes (multimode and single mode) and cabling distances is available. You can replace the SFPs without disabling the interfaces or removing the module from the system.
CHAPTER 9 Maintaining E-Series Routers Transceiver Release bar, button, or tab Release bar, button, or tab Release ring g013435 Module faceplate Figure 9-4 Possible release mechanisms on the SFP 5 Release the SFP and pull it out of the slot. 6 Place the SFP in an antistatic bag. 7 If you are using the redundant port on the E-series GE I/O module, repeat steps 3 through 6 for the other SFP.
Replacing SFPs on GE I/O Modules E-Series Routers Caution: Be sure to position the SFP correctly before you install it. 3 Hold the SFP so that: • The connection circuitry is adjacent to the TX and RX markings on the module’s faceplate. • The front will be visible when you install the SFP. For a picture of the correct orientation, see Figure 9-6.
9-12 CHAPTER 9 Maintaining E-Series Routers Verifying the Installation When you have replaced the SFPs and connected the cables, issue the show interface gigabitEthernet command for each interface to check that the interface is operational (up).
Replacing Fan Trays E-Series Routers Replacing Fan Trays A tray of cooling fans provides forced air cooling for components in the E-series router. The fan trays are hot-swappable and can be replaced without powering down the system. However, if you do not replace the fan tray within a few minutes, the system enters thermal protection mode. For information about thermal protection mode, see Monitoring Temperatures of Modules in Chapter 10, Troubleshooting.
CHAPTER 9 Maintaining E-Series Routers g013765 9-14 Figure 9-8 Fan tray in ERX-310 router Removing the Fan Tray To remove the fan tray: 1 (ERX-14xx models only) Place a flathead screwdriver in the groove where the top bezel meets the chassis on the top of the system, and lever the top bezel off the front of the system. 2 With an appropriate screwdriver, loosen the captive screws located at the corners of the fan tray. Warning: Do not place your fingers near the fans when removing the fan tray.
Replacing Fan Trays E-Series Routers Installing the Fan Tray To install the fan tray: Caution: Do not use the fan tray handle to carry the fan tray assembly. Use the handle only to push the tray into the chassis. 1 Hold the tray horizontally (ERX-14xx models) or vertically (ERX-7xx models and ERX-310 routers) or so that the captive screws point toward you and you can read text on the labels.
CHAPTER 9 Maintaining E-Series Routers Installing a Cable-Management Bracket on ERX-7xx Models A cable-management bracket can be installed to accommodate cables of different sizes on ERX-7xx models. See Figure 9-10. • For wider X.21/V.35 cables, mount the bracket in the last row of perforation holes in the chassis so that the bracket allows for maximum spacing (A). • For smaller cables, mount the bracket closer to the front of the chassis (B). Use two (2) #10 self-tapping screws to secure the bracket.
Troubleshooting 10 This chapter explains how you can troubleshoot a specific problem, such as abnormal LED activity or no system power, when you power up the router.
10-2 CHAPTER 10 Troubleshooting Initialization Sequence Each E-series line module is initialized independently. As a result, the CLI on the SRP module may become available before the line modules have completed initialization. Commands relating to a line module may fail if the module has not completed initialization. The show version command can be used to display line module status. Do not enter commands for a line module until its state is “online.
Understanding Status LEDs to Troubleshoot E-Series Routers LED Activity During Booting When the system boots, it runs a series of tests for each module installed in the system, and the LEDs display various configurations. Refer to the tables in this section to understand normal and abnormal LED activity. For troubleshooting information, see Table 10-4. LED Identification The system’s modules have two sets of status LEDs. The top set indicates generic router and module status.
10-4 CHAPTER 10 Troubleshooting Table 10-2 LED identification and activity descriptions (continued) LED Location LED Label LED Indicator LED Color OFF to ON ON to OFF Ethernet line modules LINK Ethernet Green Ethernet link up Ethernet link down ACTIVITY Ethernet Green Blinks when Ethernet traffic on link No Ethernet traffic If the port is configured as DTE, the LED lights when both the DCE and the clock source are available.
Understanding Status LEDs to Troubleshoot E-Series Routers • Ethernet line module (Figure 10-2) • Other line modules (Figure 10-3) K O I FA L T E IN AN NL ND DU RE O Status LEDs ER W PO A PO K ER W O B K O N FA N FA K O Status LEDs L I FA g013768 TY VI TI AC NK LI Figure 10-1 SRP module LEDs Note: The primary SRP module illuminates the REDUNDANT LED only when the SRP module detects that there is a secondary or standby SRP module online.
CHAPTER 10 Troubleshooting O K L I FA O Functional status LEDs NL E DU IN RE ND AN T TY LIN VI TI AC K Interface status LEDs 0 g013769 1 Figure 10-2 FE2 module LEDs K O L I FA E IN T AN ND DU RE NL O Functional status LEDs D RE M AL C N SY LM LA YE Interface status LEDs 0 1 2 Figure 10-3 E3 and T3 module LEDs g013770 10-6
Understanding Status LEDs to Troubleshoot E-Series Routers LED Activity During Booting When the system boots, it runs diagnostic tests, and the module status LEDs display various configurations. Observe the scenario presented in Table 10-3 to verify that the system has booted properly. Note: When you reboot the system after installing a new version of the software, the line modules will appear to boot twice.
CHAPTER 10 Troubleshooting 10-8 Table 10-4 Troubleshooting abnormal LED activity on modules (continued) Diagnostic Signs Possible Problems FAIL LED lights • The line module and I/O 1 module are incompatible. Check that the line and I/O modules are compatible; replace if necessary. • A hardware failure, such as a failed module. 2 If you replaced the I/O module only, issue the reload slot slot_number command.
Monitoring Temperatures of Modules E-Series Routers Table 10-4 Troubleshooting abnormal LED activity on modules (continued) Diagnostic Signs Possible Problems Actions None • System temperature is too high. 1 • Vents are blocked. • Fans are not operating. Check your console for a message indicating the problem. If you have the system log set to a severity of WARNING or higher, a Warning message indicating the failure is displayed.
10-10 CHAPTER 10 Troubleshooting Table 10-6 Troubleshooting high-temperature conditions Cause of High Operating Temperature Symptoms Resolution Air vents to system are blocked Space around system does not meet specifications (see Chapter 11, System Specifications). Increase space around system. Ambient temperature exceeds specifications Ambient temperature exceeds specifications (see Chapter 11, System Specifications). Provide extra cooling or heating in the room where the system is located.
Double-Bit Errors on SRP Modules E-Series Routers • If ECC detects a single-bit error, it automatically corrects the error, and operation continues. • If ECC detects a double-bit error, it logs the error, stops the main processor on the controller, and takes the SRP module offline.
10-12 CHAPTER 10 Troubleshooting
Part 2 System and Module Specifications
System Specifications 11 Topic Page ERX-14xx Models Specifications 11-1 ERX-7xx Models Specifications 11-3 ERX-310 Router Specifications 11-5 ERX-14xx Models Specifications Table 11-1 ERX-14xx models specifications Category Specification Weight Chassis only 42 lb 18.9 kg Chassis fully configured 88 lb 39.6 kg Dimensions 22.75 (H) x 19 (W) x 16 (D) inches; 57.78 x 48.26 x 40.
11-2 CHAPTER 11 System Specifications Table 11-1 ERX-14xx models specifications (continued) Category Specification Airflow • An integral air plenum directs router’s exhaust air below the router and out the back. See Figure 3-2 in Chapter 3, Installation Guidelines and Requirements.
ERX-7xx Models Specifications E-Series Routers Table 11-1 ERX-14xx models specifications (continued) Category Specification Telecommunications Certification • ACA TS 016-1997 • CTR13 – Commission Decision of 9 July 1997 on a common technical regulation for attachment requirements for terminal equipment interface for connection to 2048 kbit/s digital structured ONP leased lines: 97/521/EC – OJ No. L215 Vol.
11-4 CHAPTER 11 System Specifications Table 11-2 ERX-7xx models specifications (continued) Category Specification Airflow • Airflow direction is in through the right side and out through the left side. See Figure 3-2 in Chapter 3, Installation Guidelines and Requirements.
ERX-310 Router Specifications E-Series Routers Table 11-2 ERX-7xx models specifications (continued) Category Specification Telecommunications Certification • ACA TS 016-1997 • CTR13 – Commission Decision of 9 July 1997 on a common technical regulation for attachment requirements for terminal equipment interface for connection to 2048 kbit/s digital structured ONP leased lines: 97/521/EC – OJ No. L215 Vol.
11-6 CHAPTER 11 System Specifications Table 11-3 ERX-310 router specifications (continued) Category Specification Space Requirements • 3 feet (90 cm) behind router or rack • Do not block air vents on sides of the router. • Do not place equipment that exhausts hot air to left on the right of the router. • Be aware that router exhausts hot air from its left side. • Airflow direction is in through the right side and out through the left side.
ERX-310 Router Specifications E-Series Routers Table 11-3 ERX-310 router specifications (continued) Category Specification Telecommunications Certification • ACA TS 016-1997 • CTR13 – Commission Decision of 9 July 1997 on a common technical regulation for attachment requirements for terminal equipment interface for connection to 2048 kbit/s digital structured ONP leased lines: 97/521/EC – OJ No. L215 Vol.
11-8 CHAPTER 11 System Specifications
Module Specifications 12 This chapter provides information about line modules, SRP modules, and I/O modules available for E-series routers. All line modules, with the exception of the IPSec Service and Tunnel Service module, combine with I/O modules to provide particular capabilities and connections. Note: In this chapter, the term module assembly is used to describe the combination of a line module and an I/O module.
single mode long reach cOC3/STM1 single mode intermediate reach OC3/STM1 channelized to DS3, DS1, E1, and DS0 OC3/STM1 channelized to DS3, DS1, E1, and DS0 cOC3/STM1 multimode OC3/STM1 channelized to DS3, DS1, E1, and DS0 Channelized E1 Description cOC3/STM1 cOC3/STM1 CE1 CE1 Module Assembly Name Table 12-1 Module functionality HDLC Framing DS0 T1, E1 DS3 OC3/STM1 HDLC Framing DS0 T1, E1 DS3 OC3/STM1 HDLC Framing DS0 T1, E1 DS3 OC3/STM1 HDLC framing E1 Capability cOCx/STMx
single mode long reach cOC12/STM4 single mode intermediate reach cOC12/STM4 multimode with APS/MSP redundancy cOC12/STM4 multimode without APS/MSP redundancy cOC12/STM4 cOC12/STM4 Module Assembly Name OC12/STM4 channelized to DS3, DS1, E1, and DS0 OC12/STM4 channelized to DS3, DS1, E1, and DS0 OC12/STM4 channelized to DS3, DS1, E1, and DS0 OC12/STM4 channelized to DS3, DS1, E1, and DS0 Description Table 12-1 Module functionality (continued) HDLC Framing DS0 T1, E1 DS3 OC3/STM1 OC12/STM4
Unchannelized E3 for Frame Unchannelized E3 for Frame E3 FRAME (3 ports) E3 FRAME (12 ports) Fast Ethernet Fast Ethernet FE-2 (2 ports) FE-8 (8 ports) FE Unchannelized E3 for ATM E3 ATM E3 Channelized and unchannelized T3 DS3, DS1, DS0 10/100Base-T Ethernet (IEEE 802.3) 10/100Base-T Ethernet (IEEE 802.
Gigabit Ethernet Gigabit Ethernet GE 1000 Base-ZX GE IPSec Service IPSec Service HSSI HSSI single modee GE IPSec Tunnel Service High Speed Serial Interface Gigabit Ethernet Gigabit Ethernet GE 1000 Base-SX multimodee Gigabit Ethernet Description GE 1000 Base-LH GE Module Assembly Name Table 12-1 Module functionality (continued) IPSec Tunnels HDLC Framing Up to 44.736 MHz data rate Ethernet (IEEE 802.3z) Ethernet (IEEE 802.3z) 1000 Base-ZX Ethernet (IEEE 802.
single mode, intermediate reach with APS/MSP redundancy OC3/STM1 ATM single mode, intermediate reach without APS/MSP redundancy OC3/STM1 ATM multimode with APS/MSP redundancy OC3/STM1 ATM multimode without APS/MSP redundancy OC3/STM1 ATM OC3/STM1 ATM single mode OC3 (dual port) multimode OC3 (dual port) OC3/STM1 Module Assembly Name Unchannelized, concatenated OC3/STM1 for ATM Unchannelized, concatenated OC3/STM1 for ATM Unchannelized, concatenated OC3/STM1 for ATM Unchannelized, concatena
OC3-4 I/O LONG HAUL OC3-4 I/O I/O Module Label single mode, long reach OC3/STM1 POS single mode, intermediate reach with APS/MSP redundancy OC3/STM1 POS single mode, intermediate reach without APS/MSP redundancy OC3/STM1 POS multimode with APS/MSP redundancy Unchannelized, concatenated OC3/STM1 for POS Unchannelized, concatenated OC3/STM1 for POS Unchannelized, concatenated OC3/STM1 for POS Unchannelized, concatenated OC3/STM1 for POS HDLC Framing OC3/STM1 HDLC Framing OC3/STM-1 HDLC Fram
single mode, long reach without APS/MSP redundancy OC12/STM4 ATM single mode, intermediate reach with APS/MSP redundancy OC12/STM4 ATM single mode, intermediate reach without APS/MSP redundancy OC12/STM4 ATM multimode with APS/MSP redundancy OC12/STM4 ATM multimode without APS/MSP redundancy OC12/STM4 ATM OC12/STM4 ATM Module Assembly Name Unchannelized, concatenated OC12/STM4 for ATM Unchannelized, concatenated OC12/STM4 for ATM Unchannelized, concatenated OC12/STM4 for ATM Unchannelized, co
single mode, intermediate reach with APS/MSP redundancy OC12/STM4 POS single mode, intermediate reach without APS/MSP redundancy OC12/STM4 POS multimode with APS/MSP redundancy OC12/STM4 POS multimode without APS/MSP redundancy OC12/STM4 POS OC12/STM4 POS single mode, long reach with APS/MSP redundancy OC12/STM4 ATM Module Assembly Name Unchannelized, concatenated OC12/STM4 for POS Unchannelized, concatenated OC12/STM4 for POS Unchannelized, concatenated OC12/STM4 for POS Unchannelized, conca
Switch route processor (5 Gbps) Switch route processor (5 Gbps) SRP-5G+ Tunnel Service for IP tunnels, L2F tunnels and LNS termination Unchannelized, concatenated OC48/STM16 for POS Unchannelized, concatenated OC12/STM4 for POS Unchannelized, concatenated OC12/STM4 for POS Description SRP-5Ge SRPs SM SM single mode, intermediate reach OC48/STM16 POS OC48/STM16 single mode, long reach with APS/MSP redundancy OC12/STM4 POS single mode, long reach without APS/MSP redundancy OC12/STM4 POS Mod
Switch route processor (40 Gbps) Switch route processor (40 Gbps) Switch route processor for ERX-310 router (10 Gbps) SRP-40G SRP-40G+ SRP-SE10G Unchannelized T3 for ATM Unchannelized T3 for ATM Unchannelized T3 for Frame T3 ATM (3 ports) T3 ATM (4 ports) T3 FRAME (3 ports) T3 Switch route processor (10 Gbps) Description SRP-10G Module Assembly Name Table 12-1 Module functionality (continued) HDLC Framing Subrate DS3 DS3 ATM/AAL5 ATM/AAL5 RS-232 10/100Base-T Ethernet (IEEE 802.
X.21/V.35 synchronous serial interface HDLC LNS termination IP Tunnels HDLC Framing Subrate DS3 DS3 Capability X.21/V.3516 TUNNEL SERVICE COCX-F3 Line Module Label I/O X.21/V.35-16 No I/O module CT3/T3 12 I/O I/O Module Label 2.10.1, 3.3.2 3.0.2 4.0.2 N/A N/A N/A First Final Supporteda Supported Release Information a. A release may support multiple versions of a module.
Module Specifications E-Series Routers Module Specifications See Table 12-2 on the following pages for module details such as E-series model compatibility, SRP module compatibility, module type, redundancy support, and power use.
12-14 CHAPTER 12 Module Specifications Table 12-2 Module specifications (continued) Line Module or SRP Module Label Type Model Compatibility SRP Module Compatibility Redundancy Supporta Power Use FE-2 Non-ASIC ERX-7xx models SRP-5G N/A 60 W ERX-1410 router SRP-5G+ N/A 130 W N/A 130 W N/A 60 W Multiple IPSec Service modules provide redundancyc 130 W 1:N redundancy 130 W 1:N redundancy 130 W 1:N redundancy 120 W N/A 120 W SRP-10G GE/FE (128 MB) ASIC ERX-7xx models SRP-5G+ ER
Module Specifications E-Series Routers Table 12-2 Module specifications (continued) Line Module or SRP Module Label SERVICE MODULE Type Model Compatibility SRP Module Compatibility Redundancy Supporta Power Use ASIC ERX-7xx models SRP-5G+ 130 W ERX-14xx models SRP-10G ERX-310 router SRP-40G Multiple SMs provide redundancyc SRP-40G+ SRP-SE10G SRP-5Gb N/A ERX-705 router SRP-5G 1:1 redundancy 100 W SRP-5G+ N/A ERX-705 router SRP-5G+ 1:1 redundancy 125 W SRP-10G N/A ERX-710 router
CE1 FULL I/O MULTI MODE cOC3 STM1 F0 I/O cOC3/STM1 CE1 I/O Module Labela ASIC Non-ASIC Type Table 12-3 I/O module specifications SRP-5G+ • Rx input power: Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Center wavelength: 1310 nm › min: –19 dBm › max: –14 dBm Tx power: • • The transmitted signal complies with ITUT G.
LONG HAUL cOC3 STM1 F0 I/O ASIC ASIC cOC3 STM1 F0 I/O SINGLE MODE Type I/O Module Labela SC full duplex Rx input power: Fiber type: 9-micron core Rated for 40 km (24.8 miles) of 9-micron core cable • • › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm • › min: –5.0 dBm › max: 0 dBm Tx power: • SRP-40G ERX-310 router • SRP-SE10G SRP-10G ERX-14xx models Rated for 15 km (9.
MULTI MODE cOC12 F0 APS MULTI MODE cOC12 STM4 F0 I/O cOC12/STM4 I/O Module Labela ASIC ASIC Type SC full duplex • Rx input power: Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Center wavelength: 1310 nm › min: –19 dBm › max: –14 dBm Tx power: • • • SRP-40G ERX-310 router 1 redundant SRP-SE10G SRP-10G ERX-14xx models Rated for 2 km (1.2 miles) over 62.
cOC12 STM4 LONG HAUL ASIC ASIC cOC12 STM4 F0 I/O SINGLE MODE Type I/O Module Labela SC full duplex Rx input power: Fiber type: 9-micron core Rated for 40 km (24.8 miles) of 9-micron core cable • • › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm • › min: –5.0 dBm › max: 0 dBm Tx power: • SRP-40G ERX-310 router • SRP-SE10G SRP-10G ERX-14xx models Rated for 15 km (9.
CT3 CT1 CT3/T3 I/O CT1 FULL I/O I/O Module Labela Non-ASIC Non-ASIC Type SRP-5G+ SRP-5G+ ERX-1410 router SRP-10G SRP-5G ERX-7xx models SRP-10G SRP-5G ERX-1410 router SRP Module Compatibility ERX-7xx models Model Compatibility Table 12-3 I/O module specifications (continued) 3 24 No. of Ports BNC 75 ohm RJ-48C 100 ohm Connector Type Signal strength is software controlled. The transmitted signal complies with ANSI T1.
E3 E3-12 FRAME I/O ASIC Non-ASIC ASIC CT3/T3 12 I/O E3 I/O Type I/O Module Labela SRP-10G SRP-40G ERX-310 router SRP-40G ERX-310 router SRP-SE10G SRP-40G+ SRP-10G SRP-5G+ ERX-14xx models ERX-7xx models SRP-5G+ ERX-1410 router SRP-10G SRP-5G ERX-7xx models SRP-SE10G SRP-40G+ SRP-5G+ ERX-14xx models SRP Module Compatibility ERX-7xx models Model Compatibility Table 12-3 I/O module specifications (continued) 12 3 12 No.
GE FE ASIC ASIC FE-8 I/O GE I/O SFP b,c Non-ASIC Type FE-2 I/O I/O Module Labela SRP-5G+ SRP-10G SRP-40G ERX-14xx models ERX-310 router Rx input power: Rated for 275 m (300 yards) over 62.5-micron core cable Rated for 550 m (601 yards) over 50-micron core cable • • › min: –17 dBm › max: –3 dBm Center wavelength: 850 nm • › min: –9.5 dBm › max: –4 dBm Tx power: The transmitted signal complies with IEEE 802.3/802.3u for cable lengths up to 100 m (328 feet).
ASIC ASIC ASIC GE I/O SFPb,d GE I/O SFPb,e GE I/O MULTI MODEc Type I/O Module Labela SRP-10G ERX-14xx models 1 active SC full duplex 1 redundant Rx input power: • Rated for 275 m (300 yards) over 62.5-micron core cable Rated for 550 m (601 yards) over 50-micron core cable • • › min: –17 dBm › max: –3 dBm Center wavelength: 850 nm • › min: –9.5 dBm › max: –4 dBm Tx power: SRP-SE10G • Rated for 70 km (43.
HSSI-3 I/O OC3 I/O MULTI MODE OC3/STM1 No I/O module IPSec Service HSSI Connector Type SRP-5G+ ERX-1410 router SRP-10G SRP-40G ERX-14xx models ERX-310 router SRP-SE10G SRP-40G+ SRP-5G+ ERX-7xx models SRP-10G SRP-5G ERX-7xx models N/A N/A Rx input power: N/A 50 feet (15.24 m) maximum cable length Rated for 5 km (3.1 miles) over 10-micron core cable • • Rated for 550 m (601 yards) over 62.
Model Compatibility SC full duplex Connector Type MULTI MODE ASIC 4 active LC full duplex • Rx input power: Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Center wavelength: 1310 nm • › min: –19 dBm › max: –14 dBm Tx power: • • SRP-SE10G SRP-40G ERX-310 system 4 redundant Rated for 2 km (1.2 miles) over 62.
LONG HAUL OC3-4 I/O SINGLE MODE APS I/O ASIC SRP-10G ERX-14xx models SC full duplex • Rx input power: • Rated for 40 km (24.8 miles) of 9-micron core cable › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm • › min: –5.0 dBm › max: 0 dBm Tx power: SRP-SE10G • Rated for 15 km (9.
MULTI MODE ASIC • Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Rx input power: • SRP-SE10G › min: –19 dBm › max: –14 dBm Tx power: Center wavelength: 1310 nm • • SRP-40G ERX-310 system 4 redundant Rated for 2 km (1.2 miles) over 62.
LONG HAUL OC3-4 I/O SINGLE MODE APS I/O ASIC SC full duplex Rx input power: • Fiber type: 9-micron core Rated for 40 km (24.8 miles) of 9-micron core cable • • › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm • › min: –5.0 dBm › max: 0 dBm Tx power: SRP-SE10G • Rated for 15 km (9.
MULTI MODE OC12 STM4 APS MULTI MODE OC12 STM4 I/O OC12/STM4 I/O Module Labela ASIC ASIC Type SC full duplex • Rx input power: Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Center wavelength: 1310 nm › min: –19 dBm › max: –14 dBm Tx power: • • • SRP-40G ERX-310 router 1 redundant SRP-SE10G SRP-10G ERX-14xx models Rated for 2 km (1.2 miles) over 62.
LONG HAUL OC12 STM4 I/O SINGLE MODE OC12 STM4 APS ASIC ASIC ASIC OC12 STM4 I/O SINGLE MODE Type I/O Module Labela SC full duplex SC full duplex Rx input power: Fiber type: 9-micron core Rated for 40 km (24.8 miles) of 9-micron core cable • • › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm • › min: –5.0 dBm › max: 0 dBm • SRP-40G ERX-310 router Tx power: SRP-SE10G SRP-10G ERX-14xx models • Rated for 15 km (9.
MULTI MODE OC12 STM4 I/O OC12/STM4 POS ASIC ASIC OC12 STM4 APS LONG HAUL Type I/O Module Labela SC full duplex • Rx input power: Rated for 2 km (1.2 miles) over 62.5-micron core cable with an optical loss of 0–9 dB or 50-micron core cable with an optical loss of 7 dB › min: –30 dBm › max: –14 dBm Center wavelength: 1310 nm • › min: –19 dBm › max: –14 dBm • SRP-40G ERX-310 router Tx power: SRP-SE10G SRP-10G ERX-14xx models • SRP-40G+ SRP-5G+ ERX-7xx models Rated for 40 km (24.
SINGLE MODE OC12 STM4 I/O ASIC ASIC OC12 STM4 APS MULTI MODE Type I/O Module Labela • Rx input power: Rated for 15 km (9.3 miles) of 9-micron core cable › min: –31 dBm › max: –8 dBm Center wavelength: 1310 nm • › min: –15 dBm › max: –8 dBm Tx power: • SRP-40G ERX-310 router • SRP-SE10G SRP-10G ERX-14xx models Rated for 2 km (1.2 miles) over 62.
LONG HAUL OC12 STM4 APS LONG HAUL OC12 STM4 I/O ASIC ASIC ASIC OC12 STM4 APS SINGLE MODE Type I/O Module Labela SC full duplex 1 active SC full duplex • Rx input power: Rated for 40 km (24.8 miles) of 9-micron core cable › min: –34 dBm › max: –7 dBm Center wavelength: 1310 nm › min: –5.0 dBm › max: 0 dBm Tx power: • • • SRP-40G ERX-310 router 1 redundant SRP-SE10G SRP-10G ERX-14xx models Rated for 40 km (24.
No I/O module SRP I/O SRP-5G+ SRP I/O SRP-5Ge SRPs SM OC48 FRAME APS OC48/STM16 I/O Module Labela N/A N/A N/A ASIC Type SRP-40G ERX-310 router ERX-705 router ERX-705 router SRP-10G SRP-5G+ SRP-5G SRP-SE10G SRP-40G+ SRP-5G+ ERX-14xx models SRP-40G+ SRP Module Compatibility ERX-7xx models ERX-1440 Model Compatibility Table 12-3 I/O module specifications (continued) 7 7 N/A 1 No.
SRP-SE10G ERX-310 router SRP-SE I/O N/A SRP-40G+ ERX-1440 router SRP-40G N/A SRP I/O SRP-40G+ SRP-40G SRP-40G+ ERX-1440 router N/A SRP-10G SRP Module Compatibility SRP I/O SRP-40G ERX-710 router Model Compatibility ERX-1410 router N/A Type SRP I/O SRP-10G I/O Module Labela Table 12-3 I/O module specifications (continued) 2 7 7 7 No.
T3 ASIC 4xDS3 ATM I/O Non-ASIC Type CT3/T3 I/O I/O Module Labela SRP-40G SRP-SE10G SRP-40G+ SRP-10G ERX-310 router SRP-5G+ ERX-14xx models ERX-7xx models SRP-5G+ SRP-10G SRP-5G ERX-1410 router SRP Module Compatibility ERX-7xx models Model Compatibility Table 12-3 I/O module specifications (continued) 4 3 No. of Ports BNC 75 ohm BNC 75 ohm Connector Type Signal strength is software controlled. The transmitted signal complies with ANSI T1.
TSM N/A ASIC CT3/T3 12 I/O No I/O module Non-ASIC Type CT3/T3 I/O I/O Module Labela SRP-5G+ SRP-10G SRP-40G ERX-14xx models ERX-310 router SRP-10G SRP-40G ERX-14xx models ERX-310 router SRP-SE10G SRP-40G+ SRP-5G+ ERX-7xx models SRP-SE10G SRP-40G+ SRP-5G+ ERX-7xx models SRP-10G SRP-5G ERX-1410 router SRP Module Compatibility ERX-7xx models Model Compatibility Table 12-3 I/O module specifications (continued) N/A 12 3 No.
Non-ASIC Type ERX-1410 router ERX-7xx models Model Compatibility SRP-10G SRP-5G+ SRP-5G SRP Module Compatibility 16 No. of Ports DB15 X.21 or DB34 V.35 at remote end 200-pin proprietary socket on I/O module Connector Type See Table 12-4. Cabling Specifications a. A release may support multiple versions of a module. For information, see Software Compatibility in E-Series System Basics Configuration Guide, Chapter 5, Managing Line Modules and SRP Modules. b.
I/O Module Specifications E-Series Routers Cable Lengths for X.21/V.35 Cables Serial signals can travel a limited distance without significant degradation. Slower serial signals can travel farther without degradation than faster serial signals. Table 12-4 shows the maximum cable lengths you can use to prevent signal degradation at various transmission speeds. Table 12-4 Maximum cable lengths for X.21/V.
12-40 CHAPTER 12 Module Specifications
Protocol Support 13 This chapter lists the layer 2 and layer 3 protocols and applications that line modules and their corresponding I/O modules support. Modules are identified by their physical labels. See Chapter 12, Module Specifications, for a list of modules and their identifying labels.
13-2 CHAPTER 13 Protocol Support Channelized OCx/STMx Modules Table 13-1 Channelized OCx/STMx modules cOCx Line Module with cOC3/STM1 Modules cOCx Line Module with cOC12/STM4 FO I/O Modules Acceptance of traffic for IP tunnels Yes Yes APS/MSP No Multimode I/0 module only ATM (point-to-point) No No BERT Yes Yes BGP Yes Yes Bridged Ethernet No No Bridged IP No No CBF No No Cisco HDLC Yes Yes DHCP local server No No Dynamic interfaces No No F4 OAM (ATM Administration) No
Channelized T1 and E1 Modules E-Series Routers Table 13-1 Channelized OCx/STMx modules (continued) Protocol or Application cOCx Line Module with cOC3/STM1 Modules cOCx Line Module with cOC12/STM4 FO I/O Modules Yes Yes PPP PPPoE No No Remote loopback Yes Yes (T3 layer) RIP Yes Yes SMDS (trunk encapsulation) No No Subscriber interfaces (static) No No Subscriber interfaces (dynamic) No No Transparent bridging No No VRRP No No CT1 Line Module with CT1 Full I/O Modules CE1 lIne M
13-4 CHAPTER 13 Protocol Support Table 13-2 Channelized T1 and E1 modules (continued) CT1 Line Module with CT1 Full I/O Modules CE1 lIne Modules with CE1 Full I/O Modules IS-IS Yes Yes LAC Support – access side No No LAC Support – peer side No No LNS Support – Internet side No No LNS Support – peer side No No Yes (T1 layer with AIS) No MPLS No No Multilink Frame Relay Yes Yes Multilink PPP Yes Yes NBMA (multipoint ATM) No No OSPF Yes Yes Protocol or Application Local loo
Channelized T3 Modules E-Series Routers Table 13-3 Channelized T3 modules (continued) CT3 line Modules with CT3/T3 I/O Modules CT3/T3-F0 Line Modules with CT3/T3 12 I/O Modules BGP Yes Yes Bridged Ethernet No No Bridged IP No No CBF No No Cisco HDLC Yes Yes DHCP local server No No Dynamic interfaces No No F4 OAM (ATM Administration) No No FDL (facilities data link) Yes Yes Frame Relay Yes Yes IP Yes Yes IP Multicasting No Yes IPv6 No No IS-IS Yes Yes LAC Support
13-6 CHAPTER 13 Protocol Support Table 13-3 Channelized T3 modules (continued) CT3 line Modules with CT3/T3 I/O Modules CT3/T3-F0 Line Modules with CT3/T3 12 I/O Modules Transparent bridging No No VRRP No No Protocol or Application Ethernet Modules Table 13-4 Ethernet modules FE-2 Line Module with FE-2 I/O Modules GE/FE Line Module with FE-8 I/O Modules GE/FE Line Modules with GE I/O Modules Acceptance of traffic for IP tunnels Yes Yes Yes APS/MSP No No No ATM No No No BERT No N
HSSI Modules E-Series Routers Table 13-4 Ethernet modules (continued) FE-2 Line Module with FE-2 I/O Modules GE/FE Line Module with FE-8 I/O Modules GE/FE Line Modules with GE I/O Modules LNS Support – peer side Yes Yes Yes Local loopback No No No MPLS Yes Yes Yes Multilink Frame Relay No No No Multilink PPP No No No NBMA (multipoint ATM) No No No OSPF Yes Yes Yes Packet over SONET No No No PPP No No No PPPoE Yes Yes Yes Remote loopback No No No RIP Yes Yes
13-8 CHAPTER 13 Protocol Support Table 13-5 HSSI modules (continued) Protocol or Application HSSI-3F Line Modules with HSSI-3F I/O Modules CBF Yes Cisco HDLC Yes DHCP local server No Dynamic interfaces No F4 OAM (ATM Administration) No Frame Relay Yes IP Yes IP Multicasting No IPv6 No IS-IS Yes LAC Support – access side No LAC Support – peer side No LNS Support – Internet side No LNS Support – peer side No Local loopback No MPLS No Multilink Frame Relay No Multilink PP
OCx/STMx ATM Modules E-Series Routers OCx/STMx ATM Modules Table 13-6 OCx/STMx ATM modules OCx/STMx ATM Line Modules with OC3-4 I/O Modules OCx/STMx ATM Line Modules with OC12/STM4 I/O Modules Acceptance of traffic for IP tunnels Yes Yes APS/MSP No Yes ATM Yes Yes Protocol or Application BERT No No BGP Yes Yes Bridged Ethernet Yes Yes Bridged IP Yes Yes CBF No No Cisco HDLC No No DHCP local server Yes Yes Dynamic interfaces Yes Yes F4 OAM (ATM Administration) Yes Yes
13-10 CHAPTER 13 Protocol Support Table 13-6 OCx/STMx ATM modules (continued) OCx/STMx ATM Line Modules with OC3-4 I/O Modules OCx/STMx ATM Line Modules with OC12/STM4 I/O Modules Packet over SONET No No PPP Yes Yes PPPoE Yes Yes Remote loopback No No RIP Yes Yes SMDS (trunk encapsulation) No No Subscriber interfaces (static) Yes (over bridged Ethernet and IPoA) Yes (over bridged Ethernet and IPoA) Subscriber interfaces (dynamic) Yes (over bridged Ethernet) Yes (over bridged Ether
OCx/STMx POS and OC48 Modules E-Series Routers Table 13-7 OCx/STMx POS and OC48 modules (continued) OCx/STMx POS Line Modules with OC3-4 I/O Modules OCx/STMx POS Line Modules with OC12/STM4 I/O Modules OC48 Line Module with OC48 Frame APS I/O Module F4 OAM (ATM Administration) No No No Frame Relay Yes Yes Yes IP Yes Yes Yes IP Multicasting Yes Yes Yes IPv6 No No No IS-IS Yes Yes Yes LAC Support – access side No No No LAC Support – peer side Yes Yes Yes LNS Support – Inte
13-12 CHAPTER 13 Protocol Support Table 13-7 OCx/STMx POS and OC48 modules (continued) OCx/STMx POS Line Modules with OC3-4 I/O Modules OCx/STMx POS Line Modules with OC12/STM4 I/O Modules OC48 Line Module with OC48 Frame APS I/O Module Subscriber interfaces (dynamic) No No No Transparent bridging No No No VRRP No No No Protocol or Application Tunnel Service Modules Table 13-8 Tunnel Service modules Protocol or Application Tunnel Service Line Module (TSM) Service Line Module (SM) IPSec
Unchannelized E3 Modules E-Series Routers Table 13-8 Tunnel Service modules (continued) Protocol or Application Tunnel Service Line Module (TSM) Service Line Module (SM) IPSec Service Line Module LAC Support – peer side No No No LNS Support – Internet side Yes Yes No LNS Support – peer side Yes Yes No Local loopback No No No MPLS No No No Multilink Frame Relay No No No Multilink PPP No No No NBMA (multipoint ATM) No No No OSPF Yes Yes Yes Packet over SONET No No N
13-14 CHAPTER 13 Protocol Support Table 13-9 Unchannelized E3 modules (continued) E3 ATM Line Modules with E3 I/O Modules E3 FRAME Line Modules with E3 I/O Modules COCX-F3 Line Modules with E3-12 FRAME I/O Modules APS/MSP No No No ATM (point-to-point) Yes No No BERT No No No BGP Yes Yes Yes Bridged Ethernet Yes No No Yes (over bridged Ethernet) No No No Yes Yes Cisco HDLC No Yes Yes DHCP local server Yes No No Dynamic interfaces Yes No No F4 OAM (ATM Administratio
Unchannelized T3 Modules E-Series Routers Table 13-9 Unchannelized E3 modules (continued) E3 ATM Line Modules with E3 I/O Modules E3 FRAME Line Modules with E3 I/O Modules COCX-F3 Line Modules with E3-12 FRAME I/O Modules NBMA (multipoint ATM) No No No OSPF Yes Yes Yes Packet over SONET No No No Yes Yes Yes Yes (over bridged Ethernet) No No Protocol or Application PPP PPPoE Remote loopback No No No RIP Yes Yes Yes SMDS (trunk encapsulation) No Yes Yes Subscriber interface
13-16 CHAPTER 13 Protocol Support Table 13-10 Unchannelized T3 modules (continued) T3 ATM Line Modules with CT3/T3 I/O Modules T3 FRAME Line Modules with CT3/T3 I/O Modules COCX-F3 Line Modules with CT3/T3 12 I/O Modules OCx/STMx ATM Line Modules with 4xDS3 ATM I/O Modules CT3/T3-F0 Line Modules with CT3/T3 12 I/O Modules Yes No No Yes No Yes (over bridged Ethernet) No No Yes No CBF No Yes Yes No No Cisco HDLC No Yes Yes No Yes DHCP local server Yes No No Yes No Dynamic in
X.21/V.
13-18 CHAPTER 13 Protocol Support Table 13-11 X.21/V.35 modules (continued) Protocol or Application Bridged IP X.21/V.35-16 Line Modules with X.21/V.
Part 3 Appendixes
Cable Pinouts A This appendix lists the cables and connector pinout assignments for the cables used with the ERX-7xx models and ERX-14xx models. Topic Page SRP I/O Module A-1 CT1 and CE1 I/O Modules A-4 SRP I/O Module The SRP I/O module provides two management ports. You can connect a console directly to the RS-232 serial port using a shielded straight-through cable with a female DB-9 connector on one end and a male DB-25 with a crossover adapter on the DB-25 end.
APPENDIX A Cable Pinouts 10/100 BASE T CONSOLE PIN 1 RS-232 PIN 9 g013771 A-2 DB-9 Figure A-1 SRP I/O module serial port Table A-2 lists the pinout for the serial cable’s RS-232 connector. Table A-1 SRP I/O module – RS-232 serial connector pinout Pin Signal 1 DCD 2 RXD 3 TXD 4 DTR 5 GND 6 DSR 7 RTS 8 CTS 9 RNG Once you have configured an IP address on the system, you can connect using a host running Telnet over the 10/100Base-T Ethernet port on the SRP I/O module.
SRP I/O Module E-Series Routers PIN 8 PIN 1 10/100 BASE T CONSOLE RJ-45 PIN 8 PIN 1 g013772 RS-232 Figure A-2 SRP I/O module Ethernet port Table A-2 lists the pinouts for the Ethernet cable’s RJ-45 connector. Table A-2 SRP I/O module – RJ-45 connector pinout Pin Signal 1 TX + 2 TX – 3 RX + 4 n/ca 5 n/c 6 RX – 7 n/c 8 n/c a.
A-4 APPENDIX A Cable Pinouts Table A-3 DB-9 – RJ-45 crossover adapter pinout DB-9 Pin Signal RJ-45 Pin 1 DCD 1 2 RXD 3 3 TXD 2 4 DTR 6 5 GND 5 6 DSR 4 7 RTS 8 8 CTS 7 9 RNG n/ca a. n/c=no connect Table A-4 lists the pinout for the straight-through adapter.
CT1 and CE1 I/O Modules E-Series Routers CT-1 I/O PIN 8 PIN 1 Port 0 Port 1 Port 3 g013773 Port 2 Figure A-3 CT1 I/O module ports Table A-5 lists the pinout for the CT1/CE1 connector. Table A-5 CT1/CE1 I/O module – RJ-48C connector pinout Pin Signal 1 RX Ring 2 RX Tip 3 n/ca 4 TX Ring 5 TX Tip 6 n/c 7 n/c 8 n/c a.
APPENDIX A Cable Pinouts CE1 I/O 0-9 PIN 1 PIN 26 PIN 25 PIN 50 g013774 Figure A-4 CE1 I/O module with Telco connectors Figure A-5 shows the location of the 20 pairs of BNC connectors on a balun panel. The cables from the CE1 I/O module are plugged into the two 50-pin Telco connectors on the other side of the panel.
CT1 and CE1 I/O Modules E-Series Routers Table A-6 Pinout of 50-pin Telco connector to ports 0–9 (continued) Pin Signal Pin Signal 4 Port 1 TX TIP 29 Port 1 TX RING 5 Port 2 RX TIP 30 Port 2 RX RING 6 Port 2 TX TIP 31 Port 2 TX RING 7 Port 3 RX TIP 32 Port 3 RX RING 8 Port 3 TX TIP 33 Port 3 TX RING 9 Port 4 RX TIP 34 Port 4 RX RING 10 Port 4 TX TIP 35 Port 4 TX RING 11 Port 5 RX TIP 36 Port 5 RX RING 12 Port 5 TX TIP 37 Port 5 TX RING 13 Port 6 RX TIP 38 Port 6 R
A-8 APPENDIX A Cable Pinouts Table A-7 Pinout of 50-pin Telco connector to ports 10–19 (continued) Pin Signal Pin Signal 9 Port 14 RX TIP 34 Port 14 RX RING 10 Port 14 TX TIP 35 Port 14 TX RING 11 Port 15 RX TIP 36 Port 15 RX RING 12 Port 15 TX TIP 37 Port 15 TX RING 13 Port 16 RX TIP 38 Port 16 RX RING 14 Port 16 TX TIP 39 Port 16 TX RING 15 Port 17 RX TIP 40 Port 17 RX RING 16 Port 17 TX TIP 41 Port 17 TX RING 17 Port 18 RX TIP 42 Port 18 RX RING 18 Port 18 TX TI
Installing JUNOSe Software B Caution: Check the Release Notes for extra information about installing and upgrading the software. The E-series software resides on an NVS card located in the SRP module. We ship every SRP module with an NVS card that contains a software release. We ship new software releases on a CD. This appendix provides information on how to install a new software release on an E-series router.
B-2 APPENDIX B Installing JUNOSe Software router in the network. Depending on the network configuration, you can copy the release files from either the network host or the first E-series router to the other E-series routers in the network (see Copying Release Files from One E-Series Router to Another). Identifying the Software Release File The JUNOSe software CD contains two software releases: one for the ERX-1440 model and one for all other E-series routers.
Installing Software When a Firewall Exists E-Series Routers To install the software, perform the following tasks: 1 Obtain the required information for the installation. 2 For routers that are currently operating, divert network traffic to another router. 3 Access the Privileged Exec CLI command mode. 4 Configure IP on an interface. 5 Mount the CD on the network host. 6 Configure access to the network host. 7 Enable the FTP server on the E-series router. 8 Identify the files to transfer.
B-4 APPENDIX B Installing JUNOSe Software Task 3: Access Privileged Exec Mode To access this mode via the CLI: 1 Issue the enable command. host1>enable 2 Type the password if the system prompts you. Task 4: Configure IP on an Interface Typically, you configure IP on the Fast Ethernet interface of the SRP module. To configure IP on an interface: 1 Determine the slot number of the module. host1#show version 2 Determine the port number of the module.
Installing Software When a Firewall Exists E-Series Routers Task 6: Configure Access to the Network Host To configure access to the network host: 1 Use the ping command to determine whether the E-series router can reach the network host. host1#ping hostname If the E-series router can reach the network host, go to the next section. Otherwise, go to step 2. 2 Determine whether a route exists between the E-series router and the network host.
B-6 APPENDIX B Installing JUNOSe Software If the E-series router cannot reach the network host, verify that you performed the previous steps in this procedure correctly and that the network host is operational. Task 7: Enable the FTP Server on the E-Series Router The E-series router divides its vty resources among Telnet, SSH, and FTP services. Each FTP session requires one vty line, and the FTP service uses the authentication method configured for the vty line.
Installing Software When a Firewall Exists E-Series Routers The software release will be copied from the user space to the system space. This process can take several minutes. Task 11: Save the Current Configuration To save the current configuration, use the copy running-configuration command: host1#copy running-configuration filename.cnf Task 12: Reboot the System To reboot the system using the newly installed software: 1 Access Global Configuration mode.
B-8 APPENDIX B Installing JUNOSe Software acquire the new version from the SRP module, and reinitialize. When you observe the LEDs on the line modules, the line modules appear to boot twice. Installing Software When a Firewall Does Not Exist If there is no firewall between the E-series router and the network host on which you mount the software CD, you can transfer the software release files from the network host to the E-series router via the E-series FTP server or by issuing the copy command.
Installing Software When a Firewall Does Not Exist E-Series Routers Task 1: Obtain the Required Information Before you install the software, obtain the following information: • The password (if one is configured) that allows you to access Privileged Exec mode on the E-series router • The IP address of the network host • The IP address of the E-series router • The IP address of the next hop to reach the destination network (for example, a gateway) • The login name and password for the FTP server • The proc
B-10 APPENDIX B Installing JUNOSe Software 4 Set an IP address on the interface. host1#configure Configuring from terminal or file [terminal]? Enter configuration commands, one per line. End with CNTL/Z. host1(config)#interface fastEthernet 6/0 host1(config-if)#ip address ipAddress [ mask ] 5 Press to return to Privileged Exec mode.
Installing Software When a Firewall Does Not Exist E-Series Routers host1#configure Configuring from terminal or file [terminal]? Enter configuration commands, one per line. End with CNTL/Z. host1(config)#host hostName ipAddress ftp loginname password 7 Press to return to Privileged Exec mode. 8 Use the ping command to determine whether the E-series router can now reach the network host.
B-12 APPENDIX B Installing JUNOSe Software Task 9: Reboot the System To reboot the system using the newly installed software: 1 Access Global Configuration mode. host1#configure Configuring from terminal or file [terminal]? Enter configuration commands, one per line. End with CNTL/Z. host1(config)# 2 Run the boot system command, specifying the .rel filename of the software release. For example: host1(config)#boot system x-y-z.
Installing Software When a Firewall Does Not Exist E-Series Routers Installing Software in Boot Mode To install the E-series software in Boot mode, you must access the CLI via the local console. To install the software: 1 Obtain the required information for the installation. 2 Divert network traffic to another router. 3 Access the Boot mode. 4 Assign an IP address to the E-series router. 5 Configure access to the network host. 6 Mount the CD on the network host.
B-14 APPENDIX B Installing JUNOSe Software Note: If you do not press the key sequence before the countdown ends, the reloading process continues and returns the CLI to the normal User Exec mode. Task 4: Assign an IP Address When you assign an IP address to the E-series router in Boot mode, the address is configured on the Fast Ethernet port of the primary SRP module. To assign an Internet address to the E-series router, use the ip address command.
Copying Release Files from One E-Series Router to Another E-Series Routers For example: :boot##copy hostname:/cdrom/x-y-z/x-y-z.rel x-y-z.rel The software release will be copied from the network host to the E-series router. This process can take several minutes. Task 8: Reboot the System To reboot the system using the newly installed software: 1 Run the boot system command, specifying the .rel filename of the software release. For example: :boot##boot system x-y-z.
B-16 APPENDIX B Installing JUNOSe Software The procedures for transferring release files from a source E-series router to a destination E-series router are almost identical to transferring release files from a network host to an E-series router on the same side of the firewall. Note: You must enable the FTP server on the source E-series router.
Upgrading Systems That Are Operating with Two SRP Modules E-Series Routers • If no firewall separates the E-series router from the network host, copy the files to the E-series router (see Installing Software When a Firewall Does Not Exist, earlier in this appendix). host1#copy hostname:/cdrom/x-y-z/x-y-z.rel x-y-z.
B-18 APPENDIX B Installing JUNOSe Software
Customer Support C For your convenience, we provide multiple options for requesting and receiving technical support from the Juniper Networks Technical Assistance Center (JTAC). See the Juniper Networks Web site for complete customer service information: • http://www.juniper.net/support/guidelines.html Contact Information A valid router serial number is required to initiate a request for service.
C-2 APPENDIX C Customer Support Information You Need to Supply When requesting technical support from the JTAC by phone, be prepared to provide the following information when prompted. For existing cases: • Enter your 11 digit case number followed by the # sign. You will be routed to your case owner; if your engineer is not available, your call will be routed to the general queue and will be answered by the next available engineer.
Returning Products for Repair or Replacement E-Series Routers Returning Products for Repair or Replacement In the event of a hardware failure, please contact Juniper Networks to obtain a Return Material Authorization (RMA) number. This number is necessary to ensure proper tracking and handling of returned material at the factory. Do not return any hardware until you have received an RMA. Juniper Networks reserves the right to refuse shipments that do not have an RMA.
C-4 APPENDIX C Customer Support
D Declaration of Conformity Declaration of Conformity according to ISO/IEC Guide 22 and EN4514 Manufacturer’s Name: Juniper Networks, Inc. Manufacturer’s Address: Juniper Networks, Inc. 10 Technology Park Drive Westford, Massachusetts 01886 USA Declares, that the product(s) Product Name: Edge Switching Router Model Number(s): ERX-310, ERX-700, ERX-705, ERX-1400, ERX-1440 Product Options: All Modules Conforms to the following Product Specifications: Safety: IEC 60950-1(2001-10) Ed. 1.
D-2 APPENDIX D Declaration of Conformity
Index Numbers 10/100Base-T port 6-5, 6-7 A access, management 1-15, 8-1 setting up console 8-2 to 8-4 SNMP 1-15, 8-6 Telnet setup 8-4 accessing an FTP server.
2 Index current (electrical) requirements 11-2, 11-4, 11-6 customer premises equipment 1-3 customer support xx D DCE status 10-4 Declaration of Conformity, EC D-1 detecting double-bit error 10-11 Device Management System, NMC-RX 1-16 diagnosing problems.
3 E-Series Routers H L hardware cable configuration 3-8, 6-1 redundancy features 1-16 repairing and replacing 5-7 heat dissipation 3-2, 11-1, 11-3, 11-5 hot-swapping fan trays 9-13 modules 5-5 HSSI connectors, cabling 6-15 HSSI modules, protocols 13-7 HyperTerminal 8-2 LEDs 10-2 line modules 1-10 normal activity 10-7 redundancy status 10-9 SRP modules 1-10, 10-5 lifting E-series router 2-2, 2-3, 4-5, 4-6 line build-outs 12-20, 12-21, 12-36, 12-37 line modules 1-14 to 1-15 access 1-10 allowed combination
4 Index installing 5-1, 5-7 order of installation 5-6 managing 5-5 protocol support 13-1 removing 5-11 repairing and replacing 5-7 replacing 5-5 self-testing 10-3 storing 9-2 See also I/O modules; line modules; SRP modules monitoring LEDs 10-2 monitoring temperature 10-9 mounting a CD on an FTP server B-4, B-11, B-14 mounting kits 3-6 mounting posts for rack 3-6 N network management 1-15, 8-1 setting up console 8-2 to 8-4 SNMP 1-15, 8-6 Telnet setup 8-4 NMC-RX Device Management System 1-16 notice icons de
5 E-Series Routers removing components 9-1 modules 5-11 to 5-12, 5-13 SFPs 9-9 repairing hardware components 5-7 replacing components 9-1 modules 5-5 NVS cards 9-3 to 9-5 SFPs 9-9 to 9-11 RJ-45 connectors, cabling 6-16 RS-232 port 6-5, 6-7, 8-2, 8-3 S safety agency certification 11-2, 11-4, 11-6 guidelines 3-3, 3-4, 4-5 saving the software configuration B-7, B-11 SC duplex connectors, cabling 6-18 self-testing, modules 10-3 SFPs (small form-factor pluggable transceivers) 9-9 installing 9-10 removing 9-9 s
6 Index safety guidelines 3-3, 3-4, 4-5 Tunnel Service modules, protocols 13-12 U uninstalling modules. See removing modules updating the system software xv, B-1 upgrading software systems with one SRP module B-1 systems with two SRP modules B-16 uplink line modules 1-10 V ventilation. See airflow W weight of E-series router 11-1, 11-3, 11-5 of rack 3-2, 3-6 X X.21/V.35 cables 12-39 X.21/V.35 connectors, cabling 6-19 X.21/V.
