Cisco IGX 8400 Series Installation Guide Cisco WAN Switching System Software Release 9.3.30 and Later Releases Corporate Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA http://www.cisco.
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
C ON T E N T S Preface xi Objectives Audience xi xi Organization xii Document Conventions xii Related Documentation xvii Cisco IGX 8400 Series Documentation xviii Cisco WAN Switching System Software and Related Hardware Documentation Cisco IOS Software Documentation xix Accessing User Documentation xxi Accessing Online User Documentation xxi Accessing User Documentation on the Documentation CD-ROM xviii xxii Obtaining Documentation xxii Cisco.
Contents CHAPTER 2 Preparing to Install Power Worksheets 2-1 2-1 Parts Checklist 2-3 IGX 8410 Enclosure 2-4 IGX 8420/8430 Enclosures Plug-In Cards 2-4 2-4 Site Preparation 2-6 Seismic Considerations 2-7 Safety Requirements 2-7 General Requirements 2-8 Power and Grounding 2-9 AC Power Circuit Breakers 2-9 DC Power Circuit Breakers 2-9 Electrical Power for AC Units 2-10 Electrical Power for DC Units 2-10 Bonding and Grounding 2-10 Telecommunications Requirements 2-11 Seismic Anchoring for the Cisco Rac
Contents Making Power and Ground Connections 2-35 Making the Frame Bonding (Ground) Connection Cisco Cabinet Connections 2-36 Standalone Cabinet Connections 2-36 AC Power Connections 2-39 DC Power Connections 2-41 Where to Go Next CHAPTER 3 Installing the IGX 2-35 2-48 3-1 Preparing the Cards 3-1 Tools and Equipment Inserting the Cards 3-8 Making Signal Connections Connecting Trunks 3-2 3-9 3-10 Setting Up a UXM-E 3-10 Bringing Up a UXM-E Trunk 3-10 Inverse Multiplexing over ATM on Trunks 3-13
Contents Making Serial Data Connections 3-33 Configuring the Port Modes of the HDM Back Cards HDM and LDM Redundancy 3-35 Configuring the Mode of an LDI Port 3-35 3-34 Making Frame Relay Connections 3-36 Maximum Connections per Port with Signaling Protocols 3-37 Setting Up Frame Relay on a UFM 3-37 Y-Cable Redundancy on the UFMs 3-37 Connecting UFM Cabling 3-39 Setting Up Frame Relay Ports and Connections (UFM) 3-39 Commands for T1/E1 Frame Relay 3-40 Deleting a Frame Relay Port 3-40 Setting Up Frame Rel
Contents IGX Configuration Summary 3-59 Interworking Connections in a Tiered Network 3-61 Configuring an IGX Switch to Be an Interface Shelf 3-61 Adding Connections in a Tiered Network Through the CLI 3-62 Converting a Routing Node to an Interface Shelf 3-62 Where to Go Next CHAPTER 4 3-62 Troubleshooting the IGX 4-1 Checking AC Power Supplies 4-1 Troubleshooting an IGX Node 4-1 General Troubleshooting Procedures 4-2 Troubleshooting the IGX Console Alarms 4-5 Isolating Alarm Faults 4-5 Troubleshoot
Contents Replacing a Fan Assembly 5-11 Replacing a Fan Assembly in an IGX 8410 Node 5-11 Replacing a Fan Assembly in IGX 8420 or IGX 8430 Nodes Backplane Fuses 5-15 Where to Go Next APPENDIX A 5-17 System Specifications A-1 General IGX 8410 Switch Specifications A-1 General IGX 8420/8430 Switch Specifications IGX Power Consumption by Card Type A-2 A-3 UXM-E Physical and Electrical Specifications ATM Layer Specification for the UXM-E A-4 A-5 OC-3 (STM-1) Interface on UXM-E Back Cards A-5
Contents Peripheral Specifications A-21 Network Management Terminal A-21 StrataView Terminal A-21 Control Terminal A-21 Printer A-22 DIP Switch Settings for Okidata 184 A-22 Modems A-23 Motorola V.34R IGX Dial-In/Out Configuration Modem Cables A-25 A-24 Cabling Summary A-26 UXM-E Cabling A-26 T1 Cabling A-27 E1 Cabling A-27 TTC JJ-20 (J1) Cabling A-29 Y1 Trunk Cabling A-29 Subrate (SR) Cabling A-30 UFM Cabling A-32 Cabling for the UFM-U Back Cards A-32 UFI X.21 and V.
Contents Cisco Cabinet Dimensions Where to Go Next A-52 A-65 INDEX Cisco IGX 8400 Series Installation Guide, Release 9.3.
Preface This section discusses the objectives, audience, organization, and conventions found in the Cisco IGX 8400 Series Installation Guide. The Cisco IGX 8400 series (referred to as “IGX” in this guide) is a WAN switch platform running Cisco WAN Switching System Software Release 9.3.30 or later release (referred to as “switch software” in this guide). Objectives This guide replaces previous Cisco IGX 8400 series platform documentation, and is designed to be used with multiple switch software releases.
Preface Organization Organization This document is organized into the following chapters: Table 1 Cisco IGX 8400 Series Installation Guide Organization Chapter Number and Title Chapter Description Chapter 1, “Cisco IGX 8400 Series Product Overview” Provides a general introduction to the hardware components that make up the Cisco IGX 8400 series. Chapter 2, “Preparing to Install” Provides information on how to plan and prepare for IGX installation.
Preface Document Conventions Table 2 Note Timesaver Caution Tip Document Conventions (continued) Convention Description < > Nonprinting characters, for example passwords, appear in angle brackets in contexts where italic font is not available. [ ] Default responses to system prompts appear in square brackets. This symbol means reader take note. Notes contain helpful suggestions or references to additional information and material. This symbol means the described action saves time.
Preface Document Conventions Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. To see translations of the warnings that appear in this publication, refer to the translated safety warnings that accompanied this device.
Preface Document Conventions Attention IMPORTANTES INFORMATIONS DE SÉCURITÉ Ce symbole d'avertissement indique un danger. Vous vous trouvez dans une situation pouvant causer des blessures ou des dommages corporels. Avant de travailler sur un équipement, soyez conscient des dangers posés par les circuits électriques et familiarisez-vous avec les procédures couramment utilisées pour éviter les accidents.
Preface Document Conventions Advarsel VIKTIGE SIKKERHETSINSTRUKSJONER Dette varselssymbolet betyr fare. Du befinner deg i en situasjon som kan forårsake personskade. Før du utfører arbeid med utstyret, bør du være oppmerksom på farene som er forbundet med elektriske kretssystemer, og du bør være kjent med vanlig praksis for å unngå ulykker. For å se oversettelser av advarslene i denne publikasjonen, se de oversatte sikkerhetsvarslene som følger med denne enheten.
Preface Related Documentation Related Documentation Tip The Universal Router Module (URM) is a dual-processor card, featuring both a modified Cisco IGX 8400 series UXM-E processor and a modified Cisco 3660 router processor. Each processor uses a different operating system; refer to documentation for both Cisco IOS software and switch software while working with the URM. All related technical documentation is available online and on the Documentation CD-ROM.
Preface Related Documentation Cisco IGX 8400 Series Documentation Cisco IGX 8400 series product documentation provides information regarding hardware installation, cabling, basic configuration, and regulatory compliance and safety information.
Preface Related Documentation Cisco IOS Software Documentation Note Cisco IOS software is available only on the Universal Routing Module (URM) front card. Unless you intend to configure the IGX for IP services using the URM, you do not need to refer to Cisco IOS documentation. Cisco IOS software documentation provides information on using the Cisco IOS software required by the IGX for IP services. Note Cisco IOS documentation is organized by Cisco IOS release, then by product type and name.
Preface Related Documentation Or use the following links: • Cisco IOS Configuration Guides and Command References, Release 12.1 • Cisco IOS Configuration Guides and Command References, Release 12.2 • Cisco IOS Configuration Fundamentals Configuration Guide, Release 12.1 • Cisco IOS Configuration Fundamentals Configuration Guide, Release 12.2 • Cisco IOS Wide-Area Networking Configuration Guide, Release 12.1 • Cisco IOS Wide-Area Networking Configuration Guide, Release 12.
Preface Accessing User Documentation Or use the following links: • Release Notes for Cisco IGX 8400 Series URM for Cisco IOS Release 12.1 YA • Cisco IOS Release Notes, Release 12.1 • Cisco IOS Release Notes, Release 12.2 Supporting Documents and Related Documentation Debug commands and other additional information about specific Cisco IOS software releases, platforms, and applications.
Preface Obtaining Documentation Accessing User Documentation on the Documentation CD-ROM To access user documentation on the CD-ROM, you need a computer with an installed graphical Internet browser and a CD-ROM drive. Timesaver Follow the Documentation CD-ROM installation instructions found in the CD package before attempting to access user documentation. CD-ROM installation takes approximately 5-10 minutes, depending on your computer and your installation requirements.
Preface Obtaining Technical Assistance Ordering Documentation You can find instructions for ordering documentation at this URL: http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.htm You can order Cisco documentation in these ways: • Registered Cisco.com users (Cisco direct customers) can order Cisco product documentation from the Networking Products MarketPlace: http://www.cisco.com/en/US/partner/ordering/index.shtml • Nonregistered Cisco.
Preface Obtaining Technical Assistance • Order Cisco learning materials and merchandise • Register for online skill assessment, training, and certification programs To obtain customized information and service, you can self-register on Cisco.com at this URL: http://tools.cisco.com/RPF/register/register.do Technical Assistance Center The Cisco TAC is available to all customers who need technical assistance with a Cisco product, technology, or solution.
Preface Obtaining Additional Publications and Information Cisco TAC Escalation Center The Cisco TAC Escalation Center addresses priority level 1 or priority level 2 issues. These classifications are assigned when severe network degradation significantly impacts business operations. When you contact the TAC Escalation Center with a P1 or P2 problem, a Cisco TAC engineer automatically opens a case. To obtain a directory of toll-free Cisco TAC telephone numbers for your country, go to this URL: http://www.
Preface Obtaining Additional Publications and Information Cisco IGX 8400 Series Installation Guide, Release 9.3.
C H A P T E R 1 Cisco IGX 8400 Series Product Overview This guide describes how to install, troubleshoot, and repair a Cisco IGX 8400 series node running Switch Software Release 9.3.30 or later release. In addition to the chapters that provide these descriptions, the appendix describes system specifications for the operating environment and data transport technologies, supported peripherals, cabling, and the possible arrangements for all series of Cisco WAN switches in a Cisco rack.
Chapter 1 Cisco IGX 8400 Series Product Overview The Cisco IGX 8400 Series The remaining pages of this chapter illustrate the models in the IGX series. Figure 1-1 IGX 8410 Chassis System status LEDs Door Door latch Mounting bracket (stand-alone) H8399 Air intake grille Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 1 Cisco IGX 8400 Series Product Overview The Cisco IGX 8400 Series Figure 1-2 illustrates an IGX 8420 switch in a standalone cabinet. Figure 1-2 IGX 8420 Chassis Exhaust plenum System status LEDs Card cage behind door AC power shelf H8296 Cooling unit Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 1 Cisco IGX 8400 Series Product Overview The Cisco IGX 8400 Series Figure 1-3 illustrates the IGX 8430 in a cabinet supplied by Cisco. IGX 8430 Chassis H8298 Figure 1-3 Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 1 Cisco IGX 8400 Series Product Overview Where to Go Next For descriptions of the hardware in an IGX 8410, IGX 8420, or IGX 8430 node, refer to the Cisco IGX 8400 Series Provisioning Guide. An IGX series switch is installed with the following steps: 1. Enclosure or rack installation This includes procedures for installing all switches in the IGX series in a cabinet or rack, using appropriate tools and mounting rails. 2.
Chapter 1 Cisco IGX 8400 Series Product Overview Where to Go Next Cisco IGX 8400 Series Installation Guide, Release 9.3.
2 C H A P T E R Preparing to Install Power Worksheets Tip An interactive version of these worksheets also is available at http://www-tac.cisco.com/Support_Library/Hardware/WAN_Switches_and_Modules/IGX_8400/ IGXPowerBudgetWorksheet.html. Before you install the system, verify that you have adequate power for all cards to be installed in the chassis.
Chapter 2 Preparing to Install Power Worksheets Table 2-1 Cisco IGX 8400 Series Power Consumption Worksheet (continued) Line IGX Card Card Power Quantity Total Power 18 UXM-E, all back cards 65 W ____ ____ 19 8420/8430 Fan Tray 160 W ____ ____ 20 Total number of cards 21 Total power demand ____ ____ Fill in the blank cells in Table 2-1 using the following rules: Step 1 For lines 1 to 19, fill in the number of cards to be installed in the Quantity column.
Chapter 2 Preparing to Install Parts Checklist Table 2-2 Cisco IGX 8400 Series Power Supply Worksheet (continued) Line Power Supply Rating Quantity Total Power 31 Total shelf power ____ 32 Total shelf power - total power demand ____ Fill in the blank cells in Table 2-2 using the following rules: Step 1 Determine which power supply option will be used with the system. The following options are available: 8410-AC, 8420/8430-AC, 8410-DC, and 8420/8430-DC.
Chapter 2 Preparing to Install Parts Checklist IGX 8410 Enclosure Check the cabinet for the following inventory: • For rack-mount systems, four permanent mounting brackets are present. Also, for installation purposes only, a pair of temporary mounting brackets and a temporary spacer bracket are present. • The unit has the correct power type (AC or DC) and the factory-installed power-entry back card (PE-BC). For DC-powered systems, DC power entry modules (PEMs) are installed in the PE-BC.
Chapter 2 Preparing to Install Parts Checklist Table 2-3 Inventory Checklist (continued) Front Card Checklist Back Card Checklist Correct number of UXM-Es Correct number of BC-UAI-4-155-MMFs Correct number of BC-UAI-4-155-SMFs Correct number of BC-UAI-4-155-ELs Correct number of BC-UAI-2-155-SMFs Correct number of BC-UAI-6-T3s Correct number of BC-UAI-6-E3s Correct number of BC-UAI-3-T3s Correct number of BC-UAI-3-E3s Correct number of BC-UAI-8-T1-DB-15s Correct number of BC-UAI-8-E1-DB-15s Correct n
Chapter 2 Preparing to Install Site Preparation Table 2-3 Inventory Checklist (continued) Front Card Checklist Correct number of ARMs Back Card Checklist — Correct number of ARIs — Blank faceplates for unused back card slots Site Preparation Warning This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security.
Chapter 2 Preparing to Install Site Preparation • Heat Dissipation A fully loaded, AC-powered IGX 8410 node dissipates up to 3,500 BTUs (1 kw hour). A DC-powered IGX 8410 node can dissipate up to 2720 BTUs. A fully loaded, AC-powered IGX 8420 node dissipates up to 4300 BTUs (1 kw hour). A DC-powered IGX 8420 can dissipate up to 3600 BTUs. A fully loaded, AC-powered IGX 8430 node dissipates up to 8600 BTUs (1 kw hour). A DC-powered IGX 8430 node can dissipate up to 6800 BTUs.
Chapter 2 Preparing to Install Site Preparation General Requirements Warning Before working on equipment that is connected to power lines, remove jewelry (including rings, necklaces, and watches). Metal objects will heat up when connected to power and ground and can cause serious burns or weld the metal object to the terminals. To see translations of this warning, refer to the Regulatory Compliance and Safety Information document that accompanied this product.
Chapter 2 Preparing to Install Site Preparation • For the IGX node and peripheral equipment to function safely and correctly, use only the power cords, cables, and connectors that are specified for the equipment and make sure that they are in good condition. • Use a wrist strap when handling cards. Power and Grounding This section lists the requirements that relate to electrical power and grounding. These requirements cover installations at central office (CO) and private enterprise locations.
Chapter 2 Preparing to Install Site Preparation Electrical Power for AC Units An AC power source must be available within 6 ft (1.8 m) of the system and easily accessible. Before turning on the power, verify that the power supplied to the node comes from a dedicated branch circuit. The power receptacles to which the node connects must be of the grounding type. The grounding conductors that connect to the receptacles should connect to protective earth at the service equipment.
Chapter 2 Preparing to Install Seismic Anchoring for the Cisco Rack Telecommunications Requirements The telecommunications requirements might be relevant to a private network connected to the public, switched networks in some international service areas. • The following port types on the IGX node are approved to carry public-switched, non-voice traffic (OTR001, issue 3, port types 2DN): – BC-E1 ports (G.703 2048 KBps). – SDI-EIA/TIA-232, LDI-EIA/TIA-232, BC-SR, SDI-EIA/TIA-449, FRI-V.
Chapter 2 Preparing to Install Seismic Anchoring for the Cisco Rack Figure 2-1 Stability Plate Dimensions Cabinet outline 34.550 in., 87.76 cm 0.337 in., 0.85 cm 0.663 in., 1.68 cm 6.7 in., 17.02 cm 3.35 in., 8.51 cm C L 9.5 in., 24.13 cm 3.35 in., 8.51 cm 11.55 in., 29.34 cm 18.0 in., 45.72 cm 18.0 in., 45.72 cm H8380 33.875 in., 86.04 cm Step 2 Remove the stability plate from the base of the Cisco cabinet. Save the nuts and bolts.
Chapter 2 Preparing to Install Seismic Anchoring for the Cisco Rack Figure 2-2 Installing a Cisco-Supplied Rack over the Stability Plate H8381 3/8 x 1 in. bolts (4) Stability plate Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install IGX 8410 Enclosure Installation IGX 8410 Enclosure Installation Tools and Equipment Installing an IGX 8410 switch requires the following tools and equipment: • Box knife (or equivalent) • Flat-blade screwdriver set • Phillips screwdriver set, which must include a No.
Chapter 2 Preparing to Install IGX 8410 Enclosure Installation Figure 2-3 IGX 8410 Rack-Mounting Dimensions 17.72 in. (45 cm) 26.3 in. (67 cm) 19 in. (48.3 cm) H8382 24.44 in. (62.1 cm) Step 2 At the front of the rack, attach the temporary spacer bracket and temporary mounting brackets so that the uppermost portion of these pieces are at the bottom of the intended location of the IGX 8410 node. Figure 2-4 shows a temporary spacer and mounting bracket in a cabinet supplied by Cisco.
Chapter 2 Preparing to Install IGX 8410 Enclosure Installation Temporary Spacer Bracket and Mounting Bracket H8383 Figure 2-4 Temporary spacer bracket Mounting bracket Step 3 Position the IGX 8410 node in front of the cabinet. This position should be such that the back of the IGX card cage faces the front of the rack. If you have not already done so, remove the foam strips from the sides, front, and back. Step 4 Remove the attached mounting brackets (filler plates) for the standalone version.
Chapter 2 Preparing to Install IGX 8410 Enclosure Installation Figure 2-5 Rack-Mount Cabinet System status LEDs Mounting bracket Optional mid mount bracket Door H8384 Back mounting bracket Air intake grille Front mounting bracket Step 6 This step requires one person on each side of the IGX card cage. Lift and slide the card cage into the rack at the front of the rack. Slide the IGX 8410 node to the back and rest the rear of the system on the temporary mounting brackets and spacer.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation IGX 8420 or IGX 8430 Enclosure Installation Tools and Equipment Installing an IGX 8420 or IGX 8430 node requires the following tools and equipment: • Box knife (or equivalent) • Flat-blade screwdriver set • Phillips screwdriver set, which must include a No. 1 size for front card installation (the No.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation The rear-mount brackets attach to the rear vertical rail in a Cisco cabinet. Each of these brackets has a horizontal flange upon which the back of each IGX component rests. The front of each assembly chassis has flanges that serve as the front mounting brackets. Caution If an IGX node is mounted in a user-supplied cabinet, be sure that air can flow unrestricted in and out of the cabinet.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Step 5 With one person on each side of the card cage, lift and slide it into the rack. Step 6 Attach the cabinet to the rack with 8 #10-32 machine screws (from the kit). Step 7 For system DC-powered systems, see the “DC Power Connections” section on page 2-41. For AC-powered systems, see the “Installing the IGX 8420 or IGX 8430 AC Power Supply Assembly” section on page 2-26.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-7 IGX 8430 Rack-Mounting Dimensions 17.72 in. 26.3 in. Exhaust plenum 3.5 in. Booster fan 3.5 in. Card shelf and door 17.5 in. 52.5 in. Cooling unit 5.25 in. 26.3 in. H8337 AC power module area 5.25 in. 19 in. Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Step 2 To install the optional AC power supply kit, complete the steps in the “Installing the IGX 8420 or IGX 8430 AC Power Supply Assembly” section on page 2-26. Step 3 To install the cooling unit, complete the steps in the section titled “Installing the Cooling Unit” section on page 2-33. Step 4 Install the brackets for the card cages. Step 5 Position the IGX card cage so the back of it faces the front of the cabinet.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-8 IGX 8430 Backplane Connector Cables Fastener clamp, ribbon cable H8312 Card cage tunnel Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Installing AC Power AC Power in the IGX 8410 Node Tip To develop the most accurate IGX power budget, use Table 2-1 on page 2-1 and Table 2-2 on page 2-2 or the interactive power worksheets. If you decide to use the general guidelines mentioned in this section during network planning stages, confirm your results by using the power worksheets before bringing the node live in an operational environment.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Two types of redundancy exist in the AC-powered system. One redundancy is that of AC power inputs. A redundant AC power source from a building circuit that is independent of the other AC circuit provides backup if one AC circuit at the site fails. The other redundancy is that of the 400 W power supply modules. Redundancy of the 400 W power supplies provides a backup if a power supply fails.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-10 Power Supply Slot Designations, Dual AC System et bin ar Re a fc o Fed by AC input B D Handle for removing supply C AC/DC status okay leads Fed by AC input A H8393 B A et bin nt Fro a fc o AC inputs A B Installing the IGX 8420 or IGX 8430 AC Power Supply Assembly If the IGX 8420 or IGX 8430 node uses an AC power source, proceed with this section.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation • Mounting brackets and screws • Air inlet bezel Power supply installation or replacement requires the following tools: • Flat-blade screwdriver set • Phillips screwdriver set Understanding the AC Power Supply Configuration Tip To develop the most accurate IGX power budget, use Table 2-1 on page 2-1 and Table 2-2 on page 2-2, or the interactive power worksheets.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Power Supply Quantities Table 2-5 shows the required number of power supplies for the different IGX systems. In Table 2-5, the locations for primary (or minimal) power supplies are marked with an X. The primary supplies reflect redundancy of AC inputs and backup supplies. An O indicates a slot that must have a supply, because the card cage contains more than 12 cards.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-12 Front of Rack-Mount System Mounting bracket (marked -00) Release Front flange H8340 Optional midmount brackets Air intake grille Figure 2-13 Power Supply (Viewed from Front and Left) DC DC okay LED AC AC okay LED Handle H8341 Captive screw Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Step 4 Install the power supplies. See Figure 2-13 for an illustration of a power supply. When a power supply almost reaches the end of the slot in the tray, a slight resistance is encountered. Push the power supply slightly farther in to achieve the final position and full connector mating. Step 5 At the front of each supply, secure the supply to the tray by tightening the captive screw at the bottom front of the supply.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-14 Wire Diagrams for Different Power Configurations B B PE-BC PE-BC A Cabling for PS to PE-BC for IGX 8420, single AC input Cabling for PS to PE-BC for IGX 8420, dual AC input UPPER PE-BC 72-215982-00 72-215982-01 B UPPER PE-BC A B 72-215982-02 A 72-215982-01 72-215982-01 LOWER PE-BC B LOWER PE-BC A B A 72-215982-00 72-215982-00 Cabling for PS to PE-BC for IGX 8430, single or dual AC input, three or fewer
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Figure 2-16 Inserting System Power Connector to E-Card, AC-Powered System Connector (fan 2) Power connector Plate for unused connection Power connector System power H8302 Connector (fan 1) Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Installing the Cooling Unit This section describes how to install the main fan tray (Fan Tray 1) in an IGX 8420 or IGX 8430 node and the upper or booster fan tray (Fan Tray 2) in an IGX 8430 node. Figure 2-17 shows the main fan tray. Figure 2-18 shows the locations of Fan Tray 1 and Fan Tray 2 in an IGX 8430 node. Figure 2-17 Fan Tray Assembly Back P1 P2 Front H8308 Airflow Cisco IGX 8400 Series Installation Guide, Release 9.
Chapter 2 Preparing to Install IGX 8420 or IGX 8430 Enclosure Installation Two cables exist for supplying power to the fans. The short fan power cable is used in both the IGX 8420 and the IGX 8430 nodes. The long Y cable is used in the IGX 8430 only. See Figure 2-18. In an IGX 8420, the short cable connects to connector Fan 1 of the PE-BC.
Chapter 2 Preparing to Install Making Power and Ground Connections In an IGX 8430 node, the short cable goes from the Fan 2 connector of the upper PE-BC to the power connectors on Fan Tray 2. One branch of the Y cable for Fan Tray 1 is significantly longer than the other branch. The longer branch connects to the Fan 1 connector of the upper PE-BC. The shorter branch connects to the “Fan 1” connector of the lower PE-BC.
Chapter 2 Preparing to Install Making Power and Ground Connections The attachment points in the Cisco rack and standalone cabinets for the Cisco IGX 8400 series switches are indicated by a ground symbol on the cabinet near the point of attachment. Cisco Cabinet Connections Cisco recommends the following stacking order for attaching a ground conductor to the frame of a Cisco cabinet: Step 1 Place an external, toothed starwasher onto the stud.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-19 Frame Bonding Connection a in Cisco Rack Frame bonding connection H8215 Frame bonding connection Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-20 Frame Bonding Connections in an IGX 8420 Standalone Switch Exhaust plenum Captive nuts (for frame bonding connection) Cover plate h8348 Mounting rail Side panel Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-21 IGX 8410 Frame Bonding Connections H8387 PE-BC Frame bonding connection AC Power Connections Cisco provides at least one, 8-ft (3-m) power cord with each AC power supply assembly. To make AC power connections to the IGX: Step 1 Make sure that all AC and system power circuit breakers are in the OFF position. Step 2 Make sure that the AC plug wiring has the correct relationship.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-22 IGX 8410 AC Connection Wiring L1 100 - 240 VAC S5895 L2 Step 3 Plug the power cord into the IEC connector and tighten the screw on the clamping ring. See Figure 2-23 for an example of the IGX 8410 AC power area, Figure 2-24 for the IGX 8420 AC power area, and Figure 2-25 for information on IGX 8420 or IGX 8430 AC connection wiring.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-25 IGX 8420 or IGX 8430 AC Connection Wiring L1 200 to 240 VAC H8397 L2 Step 4 Plug the AC power cord into a single-phase wall outlet rated for a nominal voltage. For an IGX 8410 node, the AC voltage should be from 200 to 240 VAC or 100 to 120 VAC. The outlet must also be capable of supplying up to 12 amperes (A) (13 A in the UK). The building circuit should be protected with a 15 A or 20 A circuit breaker.
Chapter 2 Preparing to Install Making Power and Ground Connections • IGX 8430 – Single power source for each shelf – Dual power source for each shelf (a separate branch circuit supplies each source) Wiring is connected from one or two –48-VDC power sources to one or two DC PEMs per shelf. Cisco does not provide the wire between the node and the source. Instead, the installer or customer must supply it. These wires should be capable of carrying 20 A.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-28 IGX 8430 with a Single DC Source Upper PE-BC Return 3 Safety ground 2 -48 VDC 1 -48 VDC SOURCE Lower PE-BC Return 3 Return Safety ground 2 Safety ground -48 VDC 1 -48 VDC H8352 Junction box Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-29 IGX 8430 with Redundant DC Sources Upper PE-BC Return 3 Safety ground 2 -48 VDC 1 Return 3 Safety ground 2 -48 VDC 1 -48 VDC source Lower PE-BC Return 3 Return Safety ground 2 Feed A, 50A -48 VDC 1 -48 VDC Junction box Return 3 Return Safety ground 2 Feed B, 50A -48 VDC 1 Tip H8353 -48 VDC Junction box The single-shelf IGX 8410 and IGX 8420 have a total primary power limitation of 1050 W.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-30 PE-BC and DC PEM with Plug Connector (fan 2) Redundant Primary Circuit breaker DC receptacle for pluggable terminal block Pluggable terminal block Customer-supplied wiring Strain relief mechanism H8303 Connector (fan 1) Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 2 Preparing to Install Making Power and Ground Connections Warning Before performing any of the following procedures, ensure that power is removed from the DC circuit. To see translations of this warning, refer to the Regulatory Compliance and Safety Information document that accompanied this product. To make a DC power connection: Step 1 For both standalone systems, the cable guard (located at the right edge of the chassis) remains off until the system is ready to power up.
Chapter 2 Preparing to Install Making Power and Ground Connections Figure 2-32 Pluggable Terminal Block 3 2 1 48 VDC Return Safety ground 10 - 12 AWG or 4 sq. mm. Warning H8304 - 48 VDC This equipment is intended to be grounded. Ensure that the host is connected to earth ground during normal use. To see translations of this warning, refer to the Regulatory Compliance and Safety Information document that accompanied this product.
Chapter 2 Preparing to Install Where to Go Next Step 6 Leave the cable guard off until power is on. Step 7 Before you turn on the system power, check the supply voltage. Use the screws at positions 1 and 3 on the pluggable terminal block as a convenient measuring point. Also, check the impedance between the safety ground (screw at location 2 on the pluggable terminal block) and the chassis. It should be close to 0.
C H A P T E R 3 Installing the IGX To install the IGX, complete the following tasks: 1. Preparing the Cards 2. Inserting the Cards 3. Making Signal Connections 4. Attaching Peripherals 5. Initial Startup of the IGX 6. Performing basic node configuration tasks (see the “IGX Configuration Summary” section on page 3-59) For more information on node configuration, see the Cisco IGX 8400 Series Provisioning Guide.
Chapter 3 Installing the IGX Preparing the Cards Table 3-1 Note Caution Valid SCM Jumper Settings IGX Node Type Jumper Setting IGX 8410 (8 slots) Connect the W5 jumper. Remove the W6 jumper. IGX 8420 (16 slots) Remove the W5 jumper. Connect the W6 jumper. IGX 8430 (32 slots) Remove the W5 jumper. Remove the W6 jumper. Do not connect both W5 and W6 jumpers. The setting is not supported. Turn off the IGX node before removing or inserting the SCM card.
Chapter 3 Installing the IGX Preparing the Cards Many card sets support Y-cable redundancy. This feature requires an extra set of cards and a Y-cable. A set of commands exists to specify, delete, and display Y-cable redundancy. For instructions on setting up Y-cable redundancy, refer to the setup section for the specific card set. Note Frame Relay module (FRM) and network trunk module (NTM) front cards exist in one and two-piece versions. The two-piece card uses an ACM1.
Chapter 3 Installing the IGX Preparing the Cards Figure 3-2 N P M A R M H8385 N P M IGX 8410 Cards, Front View General purpose card slots Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Preparing the Cards Figure 3-3 IGX 8410 Cards, Back View 8 7 6 5 4 3 2 1 H8386 ARI (recommended location) General purpose card slots SCM Blank Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Preparing the Cards Figure 3-4 N P M IGX 8420 Card Shelf, Front View N P M A R M H8346 General purpose card slots Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Preparing the Cards Figure 3-5 IGX 8430 Back View Exhaust plenum Cable manager Fan tray 2 Fan power/ short cable Connector (fan 2) System power Connector (fan 1) Fan power / long Y cable Connector (fan 1) Cable manager Fan tray 1 H8347 Optional AC power tray Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Inserting the Cards Inserting the Cards To insert a Cisco IGX module: Step 1 Attach an ESD-preventive wrist strap to handle the cards. Note The IGX 8410 cabinet has a wrist strap attached at both the front and back. Step 2 Using the 5/32-in. Allen wrench, open the Cisco IGX 8400 series switch door. Step 3 Be sure that you are inserting the module into the correct slot.
Chapter 3 Installing the IGX Making Signal Connections Step 5 Caution Step 6 Push down on the ejector levers to properly seat the card. Always use the ejector levers when disengaging or seating the modules. Failure to do so can cause erroneous system error messages, and indicate card failure. However, do not use the ejector levers to lift or support the weight of the cards. Using the number 1 Phillips screwdriver, tighten the panel fasteners at the top and bottom of the card front panel.
Chapter 3 Installing the IGX Connecting Trunks Connecting Trunks The sections that follow contain basic information on how to set up the two types of trunks on the IGX node. The two trunk types are FastPacket and ATM. The supported line types are OC3/STM1, T3, E3, T1, Y1, and E1. The card sets described in this section are the network trunk module (NTM).
Chapter 3 Installing the IGX Setting Up a UXM-E Figure 3-7 Cable Management Cable manager Cable manager H7963 Frame bonding connection Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Setting Up a UXM-E Use the following command sequence for bringing up the trunk. You must bring up the trunk before you add connections. For more information on switch software commands, see the Cisco WAN Switching Command Reference. Step 1 To verify the correct card locations in both the local and remote nodes, enter the dspcds command. Step 2 Configure the cellbus bandwidth allocation for the card if you do not plan to rely on automatic increases from switch software.
Chapter 3 Installing the IGX Setting Up a UXM-E Inverse Multiplexing over ATM on Trunks An IMA lets you group physical T1 or E1 lines to form a logical trunk. A logical trunk consisting of more than one T1 or E1 line supports connections with data rates that are much higher than the T1 or E1 rate. System software lets you specify IMA so that one or more physical lines within the logical trunk can serve as backup if a line fails.
Chapter 3 Installing the IGX Setting Up a UXM-E Adding Links to an IMA Feeder Group To add links to an IMA group, you can use either Cisco WAN Manager or the CLI. To add a link to an IMA on the CLI: Step 1 Find the nodes configured as trunks connected to the IMA feeder: dsptrks Step 2 Increase the IMA group members on both trunk and feeder nodes by manually entering the number of group members. Enter: cnftrk slot.
Chapter 3 Installing the IGX Setting Up a UXM-E To specify the range of ports for an IMA line, you can use either Cisco WAN Manager or the command-line interface (CLI). To define an IMA line on the CLI, use the upln command: upln slot.group-member For example, you could enter upln 8.1–4. Subsequently, you would refer to this physical line by using only the slot number and first group member—8.1 in this example—when you use commands, such as upln, dnln, cnfln, and so on.
Chapter 3 Installing the IGX Setting Up a UXM-E Step 8 Optionally, you can use the cnfabrparm command to configure additional parameters for ABR traffic. The cnfabrparm command parameters are CI control and egress explicit rate stamping. Step 9 Optionally, you can configure a UXM-E port as a clock source. Use the cnfclksrc command. Step 10 Configure the cellbus bandwidth allocation with the cnfbusbw command if you plan to activate a large number of ports on the UXM-E.
Chapter 3 Installing the IGX Installing a URM Connecting an NTM E1 or Subrate Trunk The E1 trunk connections use the NTM front card and the BC-E1 back card. Subrate E1 connections use the NTM front card and the BC-SR back card. The E1 trunk interface card BC-E1 contains the E1 trunk connector (G.703 Input/Output) that is located at the top of the back card. The BC-E1 faceplate has four 75-ohm BNC connectors. Note The BC-E1 faceplate provides two connector arrangements for attaching E1 lines.
Chapter 3 Installing the IGX Installing a URM Step 1 Tip Attach an ESD-preventive wrist strap before handling either the front card or the encryption AIM. Use the anti-static bag used to ship the URM as a ground cloth to prevent ESD. Step 2 With the flat-blade screwdriver, remove the three metal screws nearest the AIM connector while holding down the URM front card. Step 3 Place the encryption AIM in the plastic stand-off that comes with the encryption AIM.
Chapter 3 Installing the IGX Installing a URM Step 5 Insert the three metal screws into the holes in the encryption AIM. Tighten each screw with the flat-blade screwdriver. Step 6 Confirm that the encryption AIM is correctly installed, then continue with the “Configuring Internet Encryption” section. Configuring Internet Encryption Note There are no commands specific to configuring the encryption hardware. Both software-based and hardware-based encryption are configured in the same way.
Chapter 3 Installing the IGX Installing a URM Configuring Internet Key Exchange Security Protocol To configure the Internet Key Exchange Security Protocol, complete this procedure: Step 1 Command Purpose Router(config)# crypto isakmp policy priority Creates an Internet Key Exchange (IKE) policy with a unique priority number.
Chapter 3 Installing the IGX Installing a URM Step 4 Step 5 Step 6 Command Purpose Router(config)# crypto map map-name seq-num ipsec-isakmp [dynamic dynamic-map-name] [ discover ] Creates a crypto map. Router(config-crypto map)# set peer hostname/ip-address Specifies a remote IPSec peer. Router(config-crypto map)# set transform-set transform-set-name Specifies the transform set allowed for this crypto map entry.
Chapter 3 Installing the IGX Installing a URM Sample Encryption Configuration Files This section contains sample configuration files for two peer routers set up to exchange encrypted data through a secure IPSec tunnel over a channelized T1 interface channel group, serial 1/0:0. Configuration File for Peer 1 version 12.
Chapter 3 Installing the IGX Installing a URM interface FastEthernet0/1 ip address 10.4.4.1 255.0.0.0 no ip directed-broadcast no ip route-cache no ip mroute-cache load-interval 30 speed 10 ! interface Serial1/0:0 bandwidth 1472 ip address 10.6.6.1 255.0.0.
Chapter 3 Installing the IGX Installing a URM Configuration File for Peer 2 version 12.1 service timestamps debug uptime service timestamps log uptime no service password-encryption ! hostname Peony ! logging buffered 100000 debugging enable password lab ! ! ! ! ip subnet-zero no ip domain-lookup ! ! crypto isakmp policy 10 authentication pre-share crypto isakmp key pre-shared address 10.6.6.
Chapter 3 Installing the IGX Installing Voice Cards interface Serial1/0:0 bandwidth 1472 ip address 10.6.6.2 255.0.0.0 no ip directed-broadcast encapsulation ppp no ip route-cache load-interval 30 no fair-queue crypto map cmap ! interface Serial1/0:1 no ip address no ip directed-broadcast fair-queue 64 256 0 ! interface Serial1/1:0 no ip address no ip directed-broadcast ! interface Serial1/1:1 no ip address no ip directed-broadcast fair-queue 64 256 0 ! router rip network 3.0.0.0 network 6.0.0.
Chapter 3 Installing the IGX Installing Voice Cards Connecting a CVM to a T1 or J1 Line Voice or data connections on a T1 line use the CVM front card and the BC-T1 back card. Japanese J1 connections use the CVM front card and the BC-J1 back card. The procedure for making J1 connections is the same as for T1 connections. Make the T1 connections as follows: Step 1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up the back of the unit.
Chapter 3 Installing the IGX Installing Voice Cards The back slot line numbers correspond to the back slot number in which the BC-E1 card resides. Record the back slot number of each line. These number are necessary for configuring the system after installation is complete. The next section describes a specialized version of data transmission service called TDM Transport. It applies to older WANs not manufactured by Cisco.
Chapter 3 Installing the IGX Installing Voice Cards Connecting a UVM to T1 Lines Voice or data connections on a T1 line use the UVM front card and the BC-UVI-2T1EC back card. The procedure for connecting the T1 lines is as follows: Step 1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up the back of the unit. Install optional Y-cables as needed. You can use the cable management feature to help route the cables.
Chapter 3 Installing the IGX Installing Voice Cards Figure 3-9 Pass-Through and Standard (External) UVM T1 Cabling External UVM A. External line Passedthrough External Passing (transparent) UVM 1 B. One pass-through line UVM 2 Passedthrough External External Passedthrough Passing (transparent) C. Two pass-through lines UVM 2 UVM 3 H9884 UVM 1 Passing (transparent) Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 3 Installing the IGX Installing Voice Cards Connecting a UVM to E1 Lines Voice or data connections on an E1 line use the UVM front card and the BC-UVI-2E1EC back card. The procedure for connecting the E1 lines is as follows: Step 1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up the back of the unit. You can use the cable management feature to help route the cables.
Chapter 3 Installing the IGX Installing Voice Cards Figure 3-10 Pass-Through and Standard (External) UVM E1 Cabling Pass-through Passedthrough Passing (transparent) UVM 1 A. One pass-through line UVM 2 B. External line UVM H9888 External The back slot line numbers correspond to the slot number in which the BC-UVI-2E1EC card resides. Record the back slot number and port number of each line. These numbers are necessary for configuring the system after you complete hardware installation.
Chapter 3 Installing the IGX Installing Voice Cards If the intended compression for voice channels is LDCELP and the number of channels on a J1 line exceeds 16, install cabling for pass-through. For the steps that follow, refer to Figure 3-11 for an illustration of the possible UVM cabling arrangements. Note that, in Example B, the number of channels has not exceeded the UVM capacity, so pass-through is unnecessary. • On port 1 of the primary UVM, connect the cable to the CPE.
Chapter 3 Installing the IGX Making Serial Data Connections Making Serial Data Connections The low-speed data module (LDM) and high-speed data module (HDM) card sets provide serial data service. Each of these front cards uses a variety of back cards. The LDM front card uses the 4- or 8-port version of the low-speed data interface (LDI) back card for EIA/TIA-232C/D (V.24) connections. The connection ports are labeled Port 1 through Port 4 or Port 1 through Port 8.
Chapter 3 Installing the IGX Making Serial Data Connections Configuring the Port Modes of the HDM Back Cards Small jumper boards on the back card determine whether the mode of the port is DTE or DCE. The factory-set modes of the SDI ports alternate DCE with DTE. The steps that follow describe how to change the mode of the port.
Chapter 3 Installing the IGX Making Serial Data Connections Figure 3-13 Changing the Mode on an SDI Card Faceplate DCE position DCE/DTE jumper board SDI 1 2 3 4 5 6 Faceplate DCE/DTE jumper board SDI 1 2 3 4 5 6 H8370 DTE position HDM and LDM Redundancy Optional redundancy for HDM and LDM cards can be provided with a second front and back card set and a Y-cable connection on each port to the customer data equipment. Note A jumper board ships with an impedance of either 100 ohms or 200 ohms.
Chapter 3 Installing the IGX Making Frame Relay Connections Figure 3-14 Connecting a DTE or DCE Adapter Cable to an LDI LDI RS-232 cable DCE* 15-pin connector * Use DTE cable for DTE devices 25-pin connector H8357 xxxxxx xxxx xxx xxxxxx xxx xxxx x xx xx xx xx Making Frame Relay Connections This section outlines how to establish Frame Relay service by setting up a universal frame module (UFM) or a Frame Relay module (FRM). The information includes details for T1, E1, HSSI, V.35, and X.
Chapter 3 Installing the IGX Making Frame Relay Connections Maximum Connections per Port with Signaling Protocols For any Frame Relay card set that has a maximum frame length of 4510 bytes, the type of signaling protocol you can (optionally) specify with the cnffrport command results in a limit on the number of connections per physical or logical port.
Chapter 3 Installing the IGX Making Frame Relay Connections Y-cable redundancy is not allowed between different line types, such as a UFI-8T1-DB-15 and a UFI-8E1-DB-15. The dspyred command display shows any conflict in reverse video. (See the descriptions of the upln (or upcln) and upfrport commands in the Cisco WAN Switching Command Reference.) The commands that relate to Y-cable redundancy are addyred, delyred, dspyred, and ptyred.
Chapter 3 Installing the IGX Making Frame Relay Connections Connecting UFM Cabling For important details on standard cables and Y-cables for the UFI back cards, refer to the cabling description in the UFM-U section of the Cisco IGX 8400 Series Provisioning Guide. Take the following steps after you have inserted the cards according to the information on installing cards in the “Preparing the Cards” section on page 3-1.
Chapter 3 Installing the IGX Making Frame Relay Connections Step 5 For optional Y-cable redundancy, configure the two cards by using the addyred command. For Y-cable redundancy on a HSSI card, you must use port 1 of the cards for the primary and redundant ports. For important information about Y-cable redundancy on a UFM-U, see the description in the UFM-U portion of the Cisco IGX 8400 Series Provisioning Guide. Step 6 Activate the ports using the upfrport command.
Chapter 3 Installing the IGX Making Frame Relay Connections Setting Up Frame Relay on an FRM Four types of interfaces are available for the FRM. The back cards have the following terminations: • The FRI-T1 has a female, subminiature DB-15. • The FRI-E1 has a single 120-ohm, DB-15 connector for a balanced termination and two, 75-ohm BNC connectors for coaxial cables for an unbalanced termination. All connectors are female. • FRI-V.35 has standard 34-pin female MRAC type connectors with a standard V.
Chapter 3 Installing the IGX Making Frame Relay Connections To change the mode of an interface, reposition the jumper board for the port as follows: Step 1 Step 2 If the FRI is already in the node: • Note its slot number. • Loosen the captive mounting screws on both ends of the faceplate. • Operate the card extractor levers and slide the card out. To change to DTE, move the jumper board one row of pins away from the FRI faceplate. (See Figure 3-16.
Chapter 3 Installing the IGX Making Frame Relay Connections to only V.35 or X.21 interfaces.) Make sure that the firmware revision of the FRM in the kit matches the firmware in the installed FRM. Model D firmware supports V.35 and X.21 interfaces. Model E firmware supports T1 and E1 interfaces. When you install a redundant card set with either a V.35 or X.21 interface, you must change the daughter cards on the existing FRI that specify DCE or DTE mode at each port.
Chapter 3 Installing the IGX Making Frame Relay Connections Step 8 For all interface types, activate the port using the upport command. Step 9 Configure the port for speed, clocking, LMI type, and so on, by using the cnffrport command. Alternatively, you can keep the default parameters. If you intend to bundle connections, use the cnffrport command to set the Port ID to the DLCI planned at the near-end connections. Setting the PortID is optional for nonbundled connections.
Chapter 3 Installing the IGX Making Frame Relay Connections Making Alarm Relay Output Connections To install an alarm relay module (ARM) card set: Step 1 At the back of the IGX node, identify the slot where the ARI card is to reside. Step 2 Install the ARM in the front slot and use the card extractors to help secure card. Step 3 Install the ARI in the corresponding back slot. Use the extractor handles to help secure the card, then tighten the captive screws by hand.
Chapter 3 Installing the IGX Making Frame Relay Connections Table 3-2 ARM Card Connector Pin Assignments Pin No.
Chapter 3 Installing the IGX Making External Clock Connections Making External Clock Connections The DB-15 connector labeled Ext Clocks on the faceplate of the SCM connects two external sources for a high-stability clock (primary and redundant). One of the trunk or circuit line inputs can also serve as a source of timing for the node. If you do not select a clock source, the node uses the internal IGX clock as the clock source. Two separate clock inputs exist, and can be used simultaneously on the IGX.
Chapter 3 Installing the IGX Attaching Peripherals Figure 3-17 Connecting the Control Terminal SCM External clock (DB-15) Control terminal (DB-25) Cisco WAN Manager or control terminal Auxiliary port (DB-25) LAN AUI (DB-15) PSM H8358 Fail (red) Active (green) Step 3 Tighten the EIA/TIA-232 connector screws to firmly attach the cable to the Control Terminal connector. Step 4 Plug the control terminal power cord into the appropriate wall receptacle.
Chapter 3 Installing the IGX Attaching Peripherals LAN Connection for the Network Management Station If the network is large or extensive network statistics are needed, an Ethernet port (LAN port) should be used. Larger networks produce a greater flow of statistics data between the node and the Cisco WAN Manager workstation, so a higher-speed Ethernet port is suitable. Figure 3-18 illustrates this connection.
Chapter 3 Installing the IGX Attaching Peripherals Configuring the LAN Port Note Configure the LAN parameters before connecting the node to a LAN. Note Refer to the Cisco WAN Switching Command Reference for additional information. Step 1 Contact a system administrator to obtain IP addresses for the workstation and for the IGX node.
Chapter 3 Installing the IGX Attaching Peripherals A cnflan command screen looks like this: D2.cb1 LAN superuser IGX 8410 9.3 Feb. 27 2000 14:23 PST Active IP Address: IP Subnet Mask: TCP Service Port: Default Gateway IP Address: 192.187.207.21 255.255.255.0 5130 192.187.207.1 Maximum LAN Transmit Unit: Ethernet Address: 1500 00.55.43.00.04.
Chapter 3 Installing the IGX Attaching Peripherals Open Socket Descriptor - 2 Last Command: dsplan Next Command: Note “Sockets” is the BSD UNIX name for connections between processes and typically applies to network communication. Note Before switching on the Cisco WAN Manager workstation, refer to Cisco WAN Manager Operations. Figure 3-19 SV+ LAN Connection through Router to an IGX Node Backbone 192.187.207.1 Router 192.187.207.11 192.187.207.21 192.187.207.200 AUI Router 192.187.210.
Chapter 3 Installing the IGX Attaching Peripherals Figure 3-20 SV+ LAN Connection to an IGX Node (No Gateway) 192.187.207.200 AUI SV+ 192.187.207.30 SCM H8375 Note: IP numbers are representative only. Step 6 Switch on the control terminal (or Cisco WAN Manager workstation). Adjust the terminal’s configuration, if necessary, to match the default settings of the control terminal port in the IGX node. See Cisco WAN Manager Operations for settings and operating instructions for the workstations.
Chapter 3 Installing the IGX Attaching Peripherals Figure 3-21 Connecting a Network Printer SCM External clock (DB15) Control terminal (DB25) Network printer Auxiliary port (DB25) RS-232 LAN AUI (DB15) PSM Fail (red) Active (green) Warning label H8360 xxxxxx xxxx xxx xxxxxx xxx xxxx x xx xx xx xx Step 4 Tighten the EIA/TIA-232/V.24 connector screws to firmly attach the cable connector to the AUX port connector. Step 5 Plug the printer power cord into the appropriate wall receptacle.
Chapter 3 Installing the IGX Attaching Peripherals Figure 3-22 Connecting Modems to an IGX Node SCM External clock (DB-15) Control terminal (DB-25) RS-232 Auto-answer modem Auxiliary port (DB-25) RS-232 Auto-dial modem LAN AUI (DB-15) PSM H8361 Fail (red) Active (green) Connecting the Power Supply Monitor The power supply monitor (PSM) is a connector with outputs that signal an AC power supply alarm.
Chapter 3 Installing the IGX Initial Startup of the IGX Initial Startup of the IGX This section describes checkout procedures to follow after the hardware is in place and ready to receive power. The “IGX Configuration Summary” section on page 3-59 summarizes the steps and lists the commands for bringing up the system. Before using the IGX node, be sure that the following procedures are complete: Step 1 If the IGX node uses AC, make sure that the node is connected to the correct AC receptacle.
Chapter 3 Installing the IGX Initial Startup of the IGX Step 15 Step 16 Observe that, after you turn on the IGX node, the cards run diagnostic self-test: • The standby NPM red FAIL light flashes until self-testing and configuration updates are completed. The other NPM immediately becomes active but also performs self-testing and configuration updating. The process can take several minutes. • The remaining cards show “FAIL” for a few seconds then become active or standby.
Chapter 3 Installing the IGX Initial Startup of the IGX Step 3 Wait for the power-up diagnostic to run. Step 4 If the NPM fails the power-up diagnostics again, replace it with a known-good NPM. For card replacement procedures, refer to Chapter 4, “Troubleshooting the IGX.”. Card Self-Test IGX software includes internal diagnostic routines that periodically test a card’s performance. The diagnostics automatically run in background and do not disrupt normal traffic.
Chapter 3 Installing the IGX IGX Configuration Summary Checking the Power Supplies (AC Systems) The means for verifying the correct power supply voltages are the DC Okay and AC Okay LEDs on each power supply. If either of these LEDs is off, a problem exists in relation to that supply. Power supplies are not field-adjustable. If a power supply voltage is out of tolerance, replace the supply with one known to be within tolerance.
Chapter 3 Installing the IGX IGX Configuration Summary • For setting up voice lines: – Activate the line (using the upcln or upln commands). – Configure the line (using the cnfln command). – Configure redundancy (using the addyred command). • For setting up data lines and ports: – Activate the line (using the upcln command). – Configure the line (using the cnfcln command). – Configure redundancy (using the addyred command). • For setting up Frame Relay lines and ports.
Chapter 3 Installing the IGX IGX Configuration Summary Interworking Connections in a Tiered Network Two approaches are available for establishing a Frame Relay-to-ATM interworking connection in a tiered network. The simplest approach is to use the Connection Manager in Cisco WAN Manager. When you specify a connection to a Frame Relay service module (FRSM) on a Cisco MGX 8220 edge concentrator, Cisco WAN Manager directs the node to establish the correct end-to-end connection type.
Chapter 3 Installing the IGX Where to Go Next Adding Connections in a Tiered Network Through the CLI Adding a connection in a tiered network requires that you add local segments and a network segment. The following steps illustrate the setup for each segment for an interworking connection: Step 1 For segment 1: addcon slot.port.DLCI local_nodename slot.vpi1.vci1 where the first slot has a Frame Relay card, and the second slot has a BTM.
C H A P T E R 4 Troubleshooting the IGX This chapter describes how to diagnose problems. When a troubleshooting table in this chapter recommends replacement, refer to the procedures in Chapter 5, “Replacing Parts on the IGX.” The IGX operating system software does most of the IGX monitoring and maintenance. The only action that qualifies as preventive maintenance is checking the power supplies. Checking AC Power Supplies You cannot directly measure voltages on the AC power supplies in an IGX node.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node • Channel loopback and connection tests. • Alarm thresholds for statistical line errors, and line error display reporting. • External test equipment, such as a bit error rate tester (BERT). General Troubleshooting Procedures The IGX node regularly runs self-tests to ensure proper function.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Symptom Probable Cause Solution SDI card FAIL indicator on. SDI card failed: Indicates an error occurred. Check alarm status of card. First, reset the card with the resetcd f command. If the LED comes on again, reseat card. If the LED comes on again, call the Cisco TAC. For more information, refer to the “Obtaining Technical Assistance” section on page xxiii.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Symptom Probable Cause Neither Okay LED on a power supply is on. Verify that fan tray fans are working. If not, Defective fan or fans in cooling replace tray according to instructions in Chapter 5, assembly is allowing the temperature in the enclosure to rise “Replacing Parts on the IGX.” above 40° C. Defective power supply fan in power supply allowing the power supply temperatures to rise above 40° C. Defective SCM card.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Symptom Probable Cause Solution Modem not functioning. Modem switched off. Switch on the modem. Modem power cord disconnected. Reconnect modem power cord. Reconnect the EIA/TIA-232 cable to the Control EIA/TIA-232 cable loose or Terminal port on the SCM back card or the modem disconnected from the Control Terminal port on the SCM, or from itself. the modem. Telephone hookup cable disconnected. Reconnect the telephone hookup cable.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node When a MAJOR/MINOR alarm flashes on the console screen, complete the following steps to determine the probable cause of the alarm: Step 1 Use dspnw command to identify the nodes. Step 2 Use vt command to place yourself at the affected node, and use the dspalms command to identify the alarm type. a. If the alarm display indicates a failed connection, go to the “Troubleshooting Failed Connections” section on page 4-6. b.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node c. If the failure is circuit line frame slips (indicating excessive frame slips on the T1 between the IGX node and the PBX), go to the “Troubleshooting Circuit Line Frame Slips” section on this page. d. If the failure is circuit line bipolar errors (indicating excessive bipolar errors on this circuit line), go to the “Troubleshooting Circuit Bipolar Errors” section on this page.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Troubleshooting Failed Trunks Step 1 Use the dsptrks command to identify the remote end node name, trunk numbers at each end, and the type of failure. a. If the display shows a communication failure, go to the “Troubleshooting Communication Failure and CGAs” section on page 4-8. b. If the display shows a local CGA, go to the “Troubleshooting Communication Failure and CGAs” section on page 4-8. c.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Troubleshooting Bipolar Errors, Frame Slip Errors, and Out-of-Frame Errors A bipolar error indicates excessive bipolar errors on the trunk. a frame slip error indicates excessive frame slips on the trunk. An out-of-frame error indicates excessive out-of-frame errors on the trunk. Step 1 Use the dsplog command to determine the date, time of day, and duration of the alarm.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Step 4 Call the telephone carrier to verify that they are testing the E1 span, and ask them to indicate when they have completed their tests. Monitor the system to ensure that the loopback indication disappears when testing is completed. Step 5 Make a note of the alarm steps taken, and call Cisco TAC. For more information, refer to the “Obtaining Technical Assistance” section on page xxiii.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Displaying a Summary of Alarms The first step in troubleshooting an IGX node is to check the condition of the system by displaying alarm conditions throughout the system. To see a summary of all the alarms on an IGX node, use the dspalms (display current node alarms) command.
Chapter 4 Troubleshooting the IGX Troubleshooting an IGX Node Table 4-2 dspcds Command Status Descriptions dspcds Command Status Description Active Active card. Active—F Active card with nonterminal failure. Standby Standby card. Standby—F Standby card with nonterminal failure. Standby—T Standby card performing diagnostics. Standby—F–T Standby card with nonterminal failure performing diagnostics. Failed Card with terminal failure.
Chapter 4 Troubleshooting the IGX Where to Go Next Loopback Tests Loopback tests are available to help diagnose the state of the IGX system. The CLI commands for activating these tests are: • CVM/NTM for implicit internal loopback. • Voice: addloclp, addrmtlp • Data: addloclp, addrmtlp • Frame relay: addloclp For detailed information on these commands, see the Cisco WAN Switching Command Reference.
Chapter 4 Troubleshooting the IGX Where to Go Next Cisco IGX 8400 Series Installation Guide, Release 9.3.
C H A P T E R 5 Replacing Parts on the IGX This chapter covers replacing a single card, a power supply, or a complete node. Warning Ultimate disposal of this product should be handled according to all national laws and regulations. To see translations of this warning, refer to the Regulatory Compliance and Safety Information document that accompanied this product. Warning When installing or replacing the unit, the ground connection must always be made first and disconnected last.
Chapter 5 Replacing Parts on the IGX Replacing Front Cards Replacing Front Cards This section describes how to perform a hot replacement of a front card. Read the following list before proceeding with front card replacement: Caution • The FRM and NTM frond cards come in either a one- or two-piece version. The versions are interchangeable; nevertheless, make sure that sufficient parts are available.
Chapter 5 Replacing Parts on the IGX Replacing Back Cards Note For an illustrated view of removing and inserting cards, see the “Inserting the Cards” section on page 3-8. Replacing Back Cards This section describes how to remove and replace a back card such as the SCM. Note Step 1 Note that no connections are to be deleted prior to replacing an SCM. Visually inspect the replacement SCM to verify that it is in good working order.
Chapter 5 Replacing Parts on the IGX Board-Level Revision Number Note If there are any bent pins or defects, contact the Cisco TAC before proceeding. For more information, refer to the “Obtaining Technical Assistance” section on page xxiii. Step 12 Insert the replacement IGX SCM into the empty slot. Step 13 Tighten captive mounting screws on the top and bottom of the IGX SCM faceplate. Step 14 Operate the extractor levers and slide the SCM into the cabinet.
Chapter 5 Replacing Parts on the IGX Replacing a DC Power Entry Module Replacing a DC Power Entry Module A DC power entry module (PEM) contains few active components, so it rarely needs replacement. To replace a PEM, refer to Figure 5-1 and proceed as follows: Step 1 Remove the cable guard: Loosen the captive screw at its base and, holding the cable guard at its top and bottom, swing the guard away from the system at the base. Step 2 Switch the circuit breaker on the PEM to the OFF position.
Chapter 5 Replacing Parts on the IGX Replacing a DC Power Entry Module Figure 5-1 PEM Faceplate Features and Surrounding Area Connector (fan 2) Redundant Primary Circuit breaker DC receptacle for pluggable terminal block Pluggable terminal block Customer-supplied wiring Strain relief mechanism H8303 Connector (fan 1) Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 5 Replacing Parts on the IGX Replacing an AC Power Supply Replacing an AC Power Supply This section contains separate descriptions for replacing an AC power supply in IGX 8410, IGX 8420, and IGX 8430 nodes. Replacing an AC Power Supply in an IGX 8410 Node When a power supply has failed, a red FAIL light on the SCM comes on and one or more “okay” LEDs on the power supply go off. Before replacing a power supply, check if it needs only to be reseated.
Chapter 5 Replacing Parts on the IGX Replacing an AC Power Supply Note Step 5 If the DC and AC okay LEDs do not come on or the dsppwr command still indicates a failure, proceed with the replacement. Pull out the power supply with one hand under the supply.
Chapter 5 Replacing Parts on the IGX Replacing an AC Power Supply Installing an AC Power Supply in an IGX 8410 Node To install a power supply, perform the following steps: Step 1 Slide a replacement power supply into the power supply tray and push it to the back. When a supply reaches the end of the slot in the tray, a slight resistance is encountered. Push the power supply slightly farther in to seat the supply correctly. Step 2 Install the power supply cover plate.
Chapter 5 Replacing Parts on the IGX Replacing an AC Power Supply Step 7 Loosen the captive screw at the front bottom of the power supply. See Figure 5-5. Step 8 Move the supply slightly out, then reseat it and tighten the captive screw. This resets the supply’s internal power-monitoring circuit. Step 9 Check the supply-monitoring circuit on the SCM. First, enter the resetcd 0 command at the control terminal (this resets the power supply monitor on the SCM).
Chapter 5 Replacing Parts on the IGX Replacing a Fan Assembly Installing an AC Power Supply in an IGX 8420 or IGX 8430 Node To install a power supply, do the following: Step 1 Slide a replacement power supply into the power supply tray and push it to the back. When a supply reaches the end of the slot in the tray, a slight resistance is encountered. Push the power supply slightly farther in to seat the supply correctly. Step 2 Tighten the captive screw until it is finger-tight.
Chapter 5 Replacing Parts on the IGX Replacing a Fan Assembly in IGX 8420 or IGX 8430 Nodes Figure 5-6 Fan Tray Assembly Fan power connection (below, not visible) H8394 5A fast blow fuse (8 total) Step 7 Push a finger or thumb through the square holes in the chassis to start the fan tray toward the front of the system. Go to the front of the system. Step 8 Remove the cooling unit and slide in the replacement unit. Step 9 Plug the power connectors into the fan tray.
Chapter 5 Replacing Parts on the IGX Replacing a Fan Assembly in IGX 8420 or IGX 8430 Nodes To replace the cooling unit assembly: Step 1 Have the replacement fan tray and tools ready and located near the front of the node. Step 2 For the bottom fan tray, remove the air intake grille at the front of the system by turning the internal screw at the top center of the grille a quarter turn, tilting the grille forward, and lifting it out.
Chapter 5 Replacing Parts on the IGX Replacing a Fan Assembly in IGX 8420 or IGX 8430 Nodes Figure 5-7 Fan Tray Assembly Back P1 P2 Front H8308 Airflow Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 5 Replacing Parts on the IGX Backplane Fuses Backplane Fuses Backplane fuses rarely, if ever, need replacement. Backplane fuses are intended to prevent catastrophic damage to the backplane in the event of accidental shorting of –48 VDC on the backplane to chassis ground. This type of event could be caused by bent backplane pins, contact of conductive elements (EMI cans, EMI gaskets, and so on) to power pins.
Chapter 5 Replacing Parts on the IGX Backplane Fuses Figure 5-9 IGX 8420/8430 Fuse Locations, Back of Current Backplane SPARE SPARE F16 F15 F14 F13 F12 F11 F10 F9 F7 F8 F6 F5 F4 F2 F3 F1 System power connection Figure 5-10 IGX 8420/8430 Fuse Locations, Front of Early Backplane 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 H9887 Fuses Cisco IGX 8400 Series Installation Guide, Release 9.3.
Chapter 5 Replacing Parts on the IGX Where to Go Next Where to Go Next For an introduction to the Cisco IGX 8400 series, see Chapter 1, “Cisco IGX 8400 Series Product Overview.” For installation and basic configuration information, see the Cisco IGX 8400 Series Provisioning Guide, Chapter 1, “Introduction to the Cisco IGX 8400 Series.” For more information on switch software commands, refer to the Cisco WAN Switching Command Reference, Chapter 1, “Command Line Fundamentals.
Chapter 5 Replacing Parts on the IGX Where to Go Next Cisco IGX 8400 Series Installation Guide, Release 9.3.
A P P E N D I X A System Specifications This appendix contains system specifications for all models and communications types for the node. General IGX 8410 Switch Specifications This section provides general system information on the IGX 8410 node. System capacity: 1 shelf with 8 card slots. Slots 1 and 2 are dedicated to NPM front cards and the SCM back card. Up to 32 trunks (physical or virtual). Up to 48 lines (any T1, IMA NxT1, E1, IMA NxE1, T3, E3, or OC3/STM1 interfaces that are not trunks).
Appendix A System Specifications General IGX 8420/8430 Switch Specifications Current requirements: Configuration-dependent: use Network Design Tool for exact requirements.
Appendix A System Specifications IGX Power Consumption by Card Type Power input voltage: AC system: Normal operating range is 200–240 VAC, 47 to 63 Hz. The under and over-voltage range is 180–254 VAC. DC system: –42 to –56 VDC. Each AC supply can provide up to 875W to a card shelf. Cabinet has space for six AC power supplies. Note Current requirements: Three of the six available AC power supply slots should be used for power redundancy.
Appendix A System Specifications UXM-E Physical and Electrical Specifications BTM 56W CVM 44W FRM-B 50W FRM 55W FTM 43W HDM 51W LDM 34W NPM 43W NTM 37W UFM-C 66W UFM-U (HSSI) 93W UFM-U (V.32, X.21) 72W URM 73W UVM 55W UXM 73W UXM-E 65W FAN TRAY 160W UXM-E Physical and Electrical Specifications This section provides physical and electrical specifications for the UXM-E card set. Dimensions Front card: 15.25 by 16.25 in. Back card: 6.5 by 16.25 in.
Appendix A System Specifications ATM Layer Specification for the UXM-E ATM Layer Specification for the UXM-E This section list items that apply to the UXM-E’s implementation of the ATM layer. ATM layer management protocol: Interim Local Management Interface (ILMI) or none Standards: ATM Forum UNI 3.1, TM 4.0 Virtual path identifier (VPI) range: 1–255 Virtual circuit identifier (VCI) range for user traffic: VCC: 0–65535 VPC: 32–65535 Frame-to-ATM interworking: Network interworking (FRF.
Appendix A System Specifications OC-3 (STM-1) Interface on UXM-E Back Cards Wavelength: 1310 nm for SMF, MMF; 1550 nm for XLR Cable length: 15 km for IR SMF 100 km for XLR 2 km for MMF Physical framing: STS-3c, STM-1 Port interface: Local Management Interface (LMI), ILMI Maximum ATM cell rate per port: 353208 cps per port Impedance: STM-1: 75 ohms ATM layer protocol: LMI, ILMI Port alarm processing: LOS, LOF, LOP, path AIS, path yellow Line errors counted: Section BIP8, line BIP24, line
Appendix A System Specifications T3 Interface on BC-UAI-6T3 or BC-UAI-3T3 T3 Interface on BC-UAI-6T3 or BC-UAI-3T3 These specifications apply to the UXM-E’s six and three-port T3 back cards. Line rate: 44.736 Mbps ± 20 ppm, asynchronous Line code: B3ZS Clock source mode: Internal (asynchronous) Signal level: DSX-3 Framing formats: ANSI T1.
Appendix A System Specifications E3 Interface on BC-UAI-6E3 or BC-UAI-3E3 E3 Interface on BC-UAI-6E3 or BC-UAI-3E3 These specifications apply to the UXM-E’s six and three-port E3 back cards. Line rate: 34.468 Mbps ± 20 ppm, asynchronous Line code: HDB3 Clock source mode: Internal (asynchronous) Signal level: ITU-T G.703 Framing formats: ITU-T G.804, G.
Appendix A System Specifications T1 Interface on BC-UAI-8T1 or BC-UAI-4T1 T1 Interface on BC-UAI-8T1 or BC-UAI-4T1 These specifications apply to each port of the UXM-E’s eight and four-port T1 back cards. Line rate: 1.
Appendix A System Specifications E1 Interface on BC-UAI-8E1 or BC-UAI-4E1 E1 Interface on BC-UAI-8E1 or BC-UAI-4E1 These specifications apply to the UXM-E’s eight and four-port E1 back cards. Line rate: 2.
Appendix A System Specifications UFM Physical and Electrical Specifications UFM Physical and Electrical Specifications This section contains physical and electrical specifications for the UFM cards. Dimensions: Front card: 15.25 by 16.25 in. Back card: 6.5 by 16.25 in. Weight: Front card: 8 lb (3.6 kg). Back card: 4 lb (1.8 kg). Input voltage: –48 VDC Power consumption: UFM-C: 66 W. UFM-U: 72 W (V.35/X.21) or 93 W (HSSI).
Appendix A System Specifications E1 Interface for UFI-8E1 Back Card Input jitter tolerance: Meets AT&T PUB 62411 specifications Output jitter generation: Meets AT&T PUB 62411 using normal mode synchronization Connector: DB-15 female E1 Interface for UFI-8E1 Back Card This section applies to each E1 line on the UFI-8E1. The UFI-8E1 is the eight-port E1 interface card for the UFM. The information applies whether the UFM front card supports four or eight ports.
Appendix A System Specifications UFM Unchannelized Interface UFM Unchannelized Interface This section contains specifications for the V.35/X.21 and HSSI interface cards for the UFM-U. V.35 or X.21 HSSI Line rate: 56 kbps–10.24 Mbps 1.-24–16.384 Mbps Clock rate: N x 64 KHz, where 1 <= N <= 32 1.024 + N x 0.512 MHz N x 1.
Appendix A System Specifications T1 Interface on FRI Back Card Bundled connections: 252 virtual circuits per card 1024 virtual circuits per node Billing time accuracy: Upon request from a user-device, an IGX node provides GMT from any node accurate to within one second. T1 Interface on FRI Back Card The BC-FRI-T1 is the T1 interface for the FRM Frame Relay card. Line Rate: 1.544 Mbps, ± 50 bps (± 200 bps VCO lock range). Line Code: Bipolar AMI or B8ZS.
Appendix A System Specifications Voice Circuit Support Minimum pulse density: Zero-code suppression via HDB3 coding Frame format: Unframed: 32-channel (G.703). Framed: 30 or 31-channel multiframe per ITU-T G.704. VF signaling: Channel-associated signaling (CAS) or common channel signaling (CCS) Maximum line lengths: 100 meters. The E1 output complies with G.703, so cabling must not exceed –6dB/1000 ft at 1024 KHz (applies to 75 ohm coaxial or 120 ohm twisted pair up to 350 meters or 1000 ft).
Appendix A System Specifications UVM Physical and Electrical Standards Quantizing distortion added: 2.5 quantizing distortion units (QDUs) with 32 kbps ADPCM over 1 hop plus 0.7 QDUs with digital loss PAD (mu-law or a-Law). Nominal transmission loss: 0 dB at 1 KHz. UVM Physical and Electrical Standards This section lists physical and electrical characteristics for the UVM card sets. Dimensions: Front card: 15.25 by 16.25 in. Back card: 6.5 by 16.25 in. Weight: Front card: 8 lb (3.6 kg).
Appendix A System Specifications E1 Interface on the BC-UVI-2E1EC E1 Interface on the BC-UVI-2E1EC The BC-UVI-2E1EC is the two-port E1 interface for the UVM voice card. Line Rate: 2.048 Mbps, ± 50 ppm Line Code: HDB3, AMI Line Impedance: 120 ohms on BNC (balanced), 75 ohms on DB-15 Frame Format: CEPT VF Signaling: CAS or CCS Signaling conditioning: Configurable Idle code: Hex 54 Max. Line Lengths: 100 meters Jitter: ± 50 ppm Standards: ITU-T G.703, G.704, G.706, G.732, G.735-9, G.
Appendix A System Specifications J1 Interface on the BC-J1 Jitter: ± 50 ppm: transmit output jitter, receive jitter tolerance, and jitter gain meet G.823. Standards: Applicable JATE standards Connector: Two DB-15, female J1 Interface on the BC-J1 The BC-J1 is a J1 interface card for both the NTM trunk card and the CVM voice card. Line Rate: 2.
Appendix A System Specifications ATM Interface Control leads supported: SDI back card: Per interface standards SDI back card: Up to 7 in each direction for fast EIA LDI back card: 3 in each direction for DCE and DTE for each port Control lead sync w/data: Control leads are sampled every 50 ms. A change normally follows data within 100 to 1000 msec. Fast EIA lead is within 1 byte.
Appendix A System Specifications Network Synchronization Network Synchronization External Clock Sources: The IGX switch synchronizes to the nearest, highest-stratum clock available. Any T1, E1, T3, E3, OC3 (STM-1) line, trunk, or optional external clock inputs can serve a clock source. Internal to Node Source: T1: 1.544 MHz, ± 10 ppm (stratum 4) E1: 2.
Appendix A System Specifications Peripheral Specifications Peripheral Specifications Note EIA/TIA-232 and EIA/TIA-449 existed as recommended standards RS-232 and RS-449 before the Electronics Industries Association (EIA) and Telecommunications Industry Association (TIA) accepted them as standards. Network Management Terminal StrataView Terminal A Cisco WAN Manager workstation is required for managing an IGX network.
Appendix A System Specifications Printer Printer The maintenance printer that is currently being shipped with the IGX node is the Okidata Model 184. Refer to Table A-2 for interface requirements. Table A-2 Printer Interface Requirements Parameter Requirements IGX port used The AUX port on the SCM is the interface with the maintenance printer.
Appendix A System Specifications Printer Table A-4 Settings for DIP Switch 1 (SW1) (continued) Switch 1 Setting Description 4 On Ready/busy protocol 5 On Test select circuit 6 On Print mode 7 On Busy line selection 8 On DTR pin 2 enabled Table A-5 Settings for DIP Switch 2 (SW2) Switch 2 Setting Description 1 Off Transmission 2 On speed = 3 On 9600 baud 4 On DSR active 5 On Buffer = 32 bytes 6 On Timing = 200 ms 7 On Space after power on 8 Don’t care Not use
Appendix A System Specifications Printer Motorola V.34R IGX Dial-In/Out Configuration IGX Auto-Answer Auto-answer is a setup in which the Cisco TAC can dial into the switch. Using the cnfterm command, set the IGX Control port speed to 9600 bps. Using the cnftermfunc command, set the terminal type to VT100/StrataView. To program the modem, temporarily attach a terminal to the modem using a null modem cable. The modem EIA port automatically matches the 9600 bps setting of the terminal.
Appendix A System Specifications Printer Table A-8 Steps for Attaching a Terminal to the Autodial Modem (continued) Step Command Function 10 AT&V Verifies entries. 11 AT&W Saves current settings to nonvolatile memory. Connect the modem to the IGX AUX port using the cable shown in Figure A-1. Ask the Cisco TAC to assist in the modem testing (see the “Obtaining Technical Assistance” section on page xxiii).
Appendix A System Specifications Cabling Summary Cabling Summary Note EIA/TIA-232 and EIA/TIA-449 existed as recommended standards RS-232 and RS-449 before the Electronics Industries Association (EIA) and Telecommunications Industry Association (TIA) accepted them as standards.
Appendix A System Specifications Cabling Summary T1 Cabling Trunk cables connect the customer DSX-1 crossconnect point or T1-E1 channel service unit (CSU) to the IGX node at the BC-T1 or BC-E1 back card. Refer to Table A-10 for details. For information on T1 connector pin assignments, see Table A-11. Table A-10 T-1 Cabling Cable Parameter Description Cable Type Western Electric 22 AWG, ABAM individually shielded twisted pair. Two pair per T1 line (1 transmit and 1 receive).
Appendix A System Specifications Cabling Summary Table A-12 E1 Cabling Cable Parameter Description Cable Type 75-ohm coaxial cable for balanced line or 100–120-ohm twisted pair for unbalanced line. Balanced lines use two cables per E1 port. Cable Connector Two female BNC for balanced connection; male DB-15 for unbalanced connection. See Table A-13, Table A-14, and Table A-15 for pinouts. Max. Cable Length E1 output complies with G.
Appendix A System Specifications Cabling Summary TTC JJ-20 (J1) Cabling Table A-16 and Table A-17 describes the J1 cabling and the TTC connector pinouts, respectively. Table A-16 J1 Cabling Cable Parameter Description Cable type 110-ohm, twisted pair for balanced; 2 cable pairs (1 transmit, 1 receive) per TTC. Cable connection Male DB-15 for balanced connection. See Table A-17 for pinouts. Maximum cable length Maximum length depends on signal attenuation, which cannot exceed 13 dB.
Appendix A System Specifications Cabling Summary Subrate (SR) Cabling This section lists general data for the subrate cabling and the pinouts for different types of interfaces that support subrate operation. Table A-20 contains general specifications for the subrate cabling. Table A-21, Table A-22, and Table A-23 list the pinouts for V.11, V.35, and EIA/TIA-449 interfaces, respectively. Table A-24 lists T3 connector pin assignments.
Appendix A System Specifications Cabling Summary Table A-22 V.35 Connector Pinouts Pin No. Name Source Description A Gnd. Both Protective (shield) ground B Sig. Gnd.
Appendix A System Specifications Cabling Summary Table A-23 EIA/TIA-449 Connector Pinouts (continued) Pin No. IGX Name EIA Name Source Description 18 TM TM DCE Test mode 19 Sig. Gnd.
Appendix A System Specifications Cabling Summary The connectors on the UFI cards are high density. Each UFI-12V.35 and UFI-12X.21 card has six 60-pin connectors. Each of these connectors has two ports. If your specification dictates that both ports on a connector are active, you must have a cable with wiring for two ports. If a part number in Table A-26 has the form “CAB-2...,” the cable has wiring for two ports.
Appendix A System Specifications Cabling Summary Figure A-3 Y-Cabling with a UFI-4HSSI, UFI-12V.35, or UFI-12X.21 Port Standard cable Y-cable UFI-4HSSI, UFI-12V.35, or UFI-12X.21 Standard cable with 2 ports (cab2-) H10047 Y-cable UFI-12X.21 or UFI-12V.35 UFI X.21 and V.35 DTE Port Pin Assignments Table A-27 lists the UFI X.21 and V.35 DTE pin assignments at the DB-60 connector on the card. Table A-27 UFI X.21 and V.35 DTE Connector Pinouts Pin No.
Appendix A System Specifications Cabling Summary Table A-27 UFI X.21 and V.35 DTE Connector Pinouts (continued) Pin No.
Appendix A System Specifications Cabling Summary V.35 DCE Female Cable Pin Assignments Table A-29 lists the V.35 DCE female cable pin assignments. Table A-29 V.35 DCE Female Cable Pinouts Note Signal Pin No. (from J3) Wire Pin No.
Appendix A System Specifications Cabling Summary V.35 DTE Male Cable Pin Assignments Table A-30 V.35 DTE Male Cable Pinouts Note Signal Pin No. (from J3) Wire Pin No.
Appendix A System Specifications Cabling Summary UFI HSSI Port Pin Assignments Table A-31 UFI HSSI Connector Pinouts Pin No.
Appendix A System Specifications Cabling Summary Table A-32 Wiring Details for the HSSI-DTE Cable (continued) Pin No.
Appendix A System Specifications Cabling Summary Table A-33 FRI V.35 Pinouts (continued) Pin No. Name Source Description U/W XTC DTE External Transmitter Clock V/X RxC DCE Receiver Clock Y/a TxC DCE Transmitter Clock Data Cabling This section describes the cables for the LDM and HDM card sets. The HDM and LDM are high-speed and low-speed data cards. Table A-34 HDM and LDM Cabling Cable Parameter Description Cable Type Standard EIA/TIA-232C/D (V.24), V.
Appendix A System Specifications Cabling Summary Table A-35 HDM EIA/TIA-232 Connector Pinouts (continued) Pin No.
Appendix A System Specifications Cabling Summary Table A-36 HDM EIA/TIA-232C (V.24) Connector Pin Assignments (continued) Pin No.
Appendix A System Specifications Cabling Summary Table A-37 HDM EIA/TIA-449/422 Connector Pin Assignments (continued) Pin No. IGX Name 20 EIA Name Source Description RC DCE Receive common 21 Spare 28 BSY IS DTE Busy (in service) 32 SS SS DTE Select standby 33 SQ SQ DCE Signal quality detect 34 NS NS DTE New synchronization 36 SB SB DCE Standby indicator SC DTE Send common 37 See Table A-38 and Table A-39 for Wire Lists for adapter cables for the X.21 application.
Appendix A System Specifications Cabling Summary Table A-39 X.21 Adapter Cable Pin Assignments (continued) DB-37 Pin No. (SDI) IGX Name DB-15 Pin No. (User) Description 24 RxD-B 11 Receive data to DTE 7 RTS-A 3 Request to send 25 RTS-B 10 Request to send 9 CTS-A 5 Clear to send 27 CTS-A 12 Clear to send 5 TxC-A 6 Transmit clock 23 TxC-B 13 Transmit clock 19 SG 8 Signal ground 5 to 8 TxC-A Receive clock1 23 to 26 TxC-B Receive clock 1 1.
Appendix A System Specifications Cabling Summary LDM EIA/TIA-232 Port Pin Assignments Table A-41 lists the EIA/TIA-232 port pin assignments at the DB-15 connector on the LDM’s LDI back card. The LDM card supports a limited subset of EIA control leads. The LDI always uses a DCE or DTE DB-15-to-DB-25 adapter cable. Refer to Table A-42 and Table A-43 for wiring lists and the pin-outs for the standard male DB-25 connector to the user data device. Table A-41 LDM EIA/TIA-232 Connector Pin Assignments Pin No.
Appendix A System Specifications Cabling Summary Table A-42 LDM Adapter Cable Pin Assignments (continued) DB-15 Pin No. (LDI) IGX Name DB-25 Pin No. (User) Description 13 DCD 8 Data carrier detect (RLSD) 14 RL 21 Remote loop output 15 MOD n.c. Connects internally to DB-15-8 (3) LL 18 Local loop output 2 1. You can use one of these pins to force a control pin to stay high or low. 2. No LDI local loop output is available. Try using DTR output: DB-15-9.
Appendix A System Specifications Cabling Summary Redundancy Cabling Table A-44 Y-Redundancy Cabling Cable Used On Cisco Part No. EIA/TIA-232C SDI 5624 EIA/TIA-232D SDI 5624 EIA/TIA-232 LDI 5629 V.35 SDI 5635 V.35 SDI Special DTE/DCE jumper EIA/TIA-422/449 SDI 5644 T1 BC-T1 5607 E1 BC-E1 5685 Power Cabling This section describes AC and DC power cabling between the IGX node and the power source.
Appendix A System Specifications Cabling Summary Table A-46 DC Power Cabling Piece Standard Cable You provide a 3-conductor cord. The other end of the power cord should be a grounding-type attachment. The wire gauge is 10 to 12 AWG or 4 sq. mm. Connector At the system end, Cisco provides a pluggable wire block with screw-type clamping for the three conductors. The customer or installer attaches the customer-supplied wiring to this block.
Appendix A System Specifications Cabling Summary Null Modem Cable Figure A-4 shows a null modem cable that connects some of the 1200 and 2400 baud modems to the IGX control and auxiliary ports. Null Modem Cable 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 20 20 H8377 Figure A-4 External Clock Input Cabling Two separate clock inputs exist, and can be used simultaneously on the IGX. They are labelled External-1 and External-2.
Appendix A System Specifications Cabling Summary Table A-49 External Clock Connector Pin Assignments (continued) Pin No. Description 11 External Clk 2-B 4 Shield ground pair 1 5 8.192 MHz test output (factory use only) External Alarm Cabling This cable connects network alarm outputs to either the DTI Faceplate or the ARI card alarm connector. Table A-50 lists particulars for the physical interface. Table A-51 lists the pinouts for the network alarm outputs.
Appendix A System Specifications Cabling Summary Table A-51 External Alarm Connector Pin Assignments (continued) Pin No.
Appendix A System Specifications Cisco Cabinet Dimensions Table A-52 Standard IGX Cables Model Description Usage 5608 T1, pigtail to RJ48 CSU to telco demarc 5614 T1/M15-M15 turnover E1 trunk to CSU 5616 T1/M15-M15 – 5680 BNC-DB-15 E1 trunk 5685 T1/M15-M15 turnover, Y-cable E1 trunk redundancy 5630 V.35/M34-F34 Subrate trunk or data circuit 5636E V.35 Y-cable Subrate trunk or data circuit redundancy 5645 EIA/TIA-422/X.21 adapter-DTE IGX is DTE 5646 EIA/TIA-422/X.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-5 Back View of Cisco Cabinet Frame bonding connection H8215 Frame bonding connection Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-6 Cable Management Cable manager Cable manager H7963 Frame bonding connection Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-7 IGX 8430 Switch, AC and DC-Powered Exhaust plenum Exhaust plenum Cooling unit Cooling unit IGX switch (upper shelf) IGX switch (upper shelf) IGX switch (lower shelf) IGX switch (lower shelf) Cooling unit Cooling unit AC power supply 8.75 DC-powered IGX 8430 switch H8220 3.50 AC-powered IGX 8430 switch Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-8 IGX 8420 Switch, DC-Powered and AC-Powered Exhaust plenum Exhaust plenum IGX switch IGX switch Cooling unit Cooling unit 8.75 H8364 8.75 AC power supply DC-powered IGX 8420 switch AC-powered IGX 8420 switch Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-9 IGX 8410 Switch, AC or DC-Powered IGX 8410 switch H8365 8.75 AC or DC-powered IGX 8410 switch Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-10 Single BPX Switch, AC and DC-Powered BPX 8620 switch BPX 8620 switch AC power supply 8.75 DC-powered BPX 8620 node H8217 3.50 AC-powered BPX 8620 node Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-11 Single BPX Node and MGX 8220 Edge Concentrator, AC and DC-Powered Exhaust plenum Exhaust plenum MGX 8220 MGX 8220 Cooling unit Cooling unit AC power supply BPX 8620 switch BPX 8620 switch AC power supply 8.75 DC-powered BPX 8620 and MGX 8220 units H8218 3.50 AC-powered BPX 8620 and MGX 8220 units Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-12 BPX Node, MGX 8220 Edge Concentrator, and ESP, AC and DC-Powered Exhaust plenum Exhaust plenum MGX 8220 MGX 8220 Cooling unit Cooling unit AC power supply BPX 8620 switch BPX 8620 switch AC power supply 8.75 WAN service node BPX 8620/MGX 8220/ESP DC power H8219 3.50 WAN service node BPX 8620/MGX 8220/ESP AC power Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-13 BPX Node With 2 ESP Systems and 3 MGX 8220 Shelves, DC-Powered Exhaust plenum MGX 8220 MGX 8220 booster MGX 8220 MGX 8220 Cooling unit ESP ESP H8221 BPX 8620 WAN service node BPX 8620/MGX 8220/ESP DC power Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-14 Six MGX 8220 Edge Concentrators, DC-Powered Exhaust plenum MGX 8220 MGX 8220 MGX 8220 booster MGX 8220 MGX 8220 MGX 8220 booster MGX 8220 MGX 8220 3.50 H8222 Cooling unit Six MGX 8220 edge concentrators Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Figure A-15 BPX Node With Three MGX 8220 Edge Concentrators, DC-Powered Exhaust plenum MGX 8220 Concentrator MGX 8220 booster MGX 8220 Concentrator MGX 8220 Concentrator Cooling unit BPX 8620 switch H8223 3.50 One BPX 8620 and three MGX 8220 units Cisco IGX 8400 Series Installation Guide, Release 9.3.
Appendix A System Specifications Cisco Cabinet Dimensions Unit Height Components Inches Centimeters RMUs MGX 8220 card cage 8.75 22.225 5 MGX 8220 AC power supply shelf 5.25 13.335 3 MGX 8220 booster fan assembly 3.5 8.89 2 MGX 8220 cooling assembly 5.25 13.335 3 MGX 8220 exhaust plenum 3.5 8.89 2 BPX AC power supply shelf 5.25 13.335 3 BPX card cage 22.75 57.785 13 IGX AC power supply shelf 5.25 13.335 3 IGX booster fan assembly 3.5 8.89 2 IGX card cage 17.5 44.
Appendix A System Specifications Where to Go Next Figure A-16 Mounting Brackets (BPX Example) Rear rail BPX shelf Bottom of support bracket is mounted even with bottom of BPX shelf Front rail H8205 19.86 Ref Additional bracket for AC power supply Where to Go Next For software configuration and service provisioning information, see the Cisco IGX 8400 Series Provisioning Guide, Chapter 1, “Introduction to the Cisco IGX 8400 Series.
Appendix A System Specifications Where to Go Next Cisco IGX 8400 Series Installation Guide, Release 9.3.
I N D EX command, switch software A addalmslot auto-answer modem cable pinout auto-dial modem A-25 addchan A-24 3-61 addcon auto-dial modem cable pinout A-25 3-12, 3-15, 3-27, 3-37, 3-39, 3-40, 3-43, 3-44, 3-60, 3-62 addfrport 3-39, 3-40, 3-44 addloclp cabling auto-dial modem A-48 external alarms A-49 HDM EIA/TIA-232C (V.
Index cnfdclk 3-60 dspalms cnffrcls 3-40, 3-44 dspbob 4-6, 4-11 4-10 cnffrcon 3-40, 3-44 dspbusbw cnffrport 3-37, 3-39, 3-40, 3-44 dspcd 3-12, 3-16 3-58 cnfict 3-60 dspcds cnflan 3-49, 3-50, 3-51, 3-59 dspchstats 4-10 dspclnerrs 4-7 dspclnhist 4-7 cnfln 3-15, 3-39, 3-43, 3-60 cnflnpass 3-60 3-12, 3-15, 3-39, 3-43, 3-45, 3-59, 4-10, 4-11, 4-12 cnfmode 3-39, 3-60 dspclns 4-6, 4-11 cnfname 3-59 dspcon 4-10 cnfphyslnstats cnfport 3-12 3-15, 3-40, 3-60 cnfportq cnfpref
Index resetcd fan tray assembly 3-58 2-33, 5-12, 5-14 resetcd 0 5-7 frame bonding connection resetcd f 4-2, 4-3 frame bonding connections for IGX 8410 2-37 tstcon 4-12 frame bonding connections in IGX 8420 tstport 4-12 fuse locations for the IGX 8420 and 8430 upcln upfrport upln IGX 8410 chassis 3-38, 3-40, 3-43, 3-44, 3-60 uptrk 3-15, 3-44, 3-60 3-10, 3-12, 3-13, 3-59, 3-61 IGX 8410 switch A-57 IGX 8420 chassis 1-3 2-15 2-40 IGX 8420 rack-mounting dimensions IGX 8420 switch D
Index SV+LAN sample topology (no gateway) 3-53 UFI-4HSSI, UFI-12V.35, and UFI-12X.
Index T tables ARI alarm connector pinouts document conventions xii document organization xii 3-46 external clock connector pin assignments IGX 8410 system specifications A-49 A-1 IGX 8420 and 8430 system specifications modem interface specifications OC-E interface specifications A-23 A-5 power consumption worksheet power supply worksheet 2-1 2-2 switch 1 settings for the Okidata 184 printer synchronous data cable specifications UXM-E cables A-2 A-22 A-40 A-26 timesaver symbol, meaning of
Index Cisco IGX 8400 Series Installation Guide, Release 9.3.
