Channelized and Electrical Interface Line Card Installation and Configuration Document Order Number: DOC-7816417= This hardware installation and configuration note contains instructions for installing, configuring, and troubleshooting channelized and electrical interface line cards on Cisco 12000 Series Routers.
Important Information Important Information This section contains important information about the following topics: • Channelized and Electrical Interface Line Card Product Numbers, page 2 • Router Hardware Installation, page 2 • Cisco IOS Software Release Requirements, page 3 • Hardware Revision Requirements, page 4 • AC-Input Power Supply Requirements, page 4 • Line Card Memory Options, page 5 • Related Documentation, page 5 Channelized and Electrical Interface Line Card Product Numbers Tab
Important Information Supported Platforms The channelized and electrical interface line cards are supported on all Cisco 12000 Series Routers. Note To support the requirements of this line card, the Cisco 12000 Series Router must have at least one clock and scheduler card (CSC) installed. For additional information, refer to the installation and configuration guide for your Cisco 12000 Series Router.
Important Information Hardware Revision Requirements To ensure compatibility with the software, your channelized and electrical interface line card should have a specific hardware revision number. The number is printed on a label affixed to the component side of the card. The hardware revision number can be displayed by using the show diags slot-number command. Table 3 lists the hardware revision number for all channelized and electrical interface line cards.
Product Overview Line Card Memory Options The channelized and electrical interface line card memory options vary by line card. See the “Line Card Memory” section on page 63 for more information. Related Documentation This publication describes the basic installation and initial configuration of a channelized and electrical interface line card.
Product Overview Figure 1 1-Port Channelized OC-12/STM-4 (DS1/E1) ISE LIne Card 1 2 4 CLASS 1 LASER PRODUCT LASERPRODUKT DER KLASSE 1 PRODUIT LASER DE CLASSE 1 IV CA E RR RX IER PK T CLEAN 3 CONNECTOR AC T WITH ALCOHOL WIPES BEFORE CONNECTING CHOC12DS1-SM-IR 89054 AC TI V CA E RR RX IER PK T 0 PRODUCTO LASER DE CLASSE 1 1 Ejector lever (one at each end) 3 Handle 2 Status LEDs 4 Alphanumeric LEDs 1-Port Channelized OC-48/STM-16 ISE Line Card Product Overview The 1-port channelized O
Product Overview 1-Port Channelized OC-12/STM-4 (DS1/E1) ISE Line Card AC TI CA VE RR RX IER PK T AC TI V CA E RR RX IER PK T Figure 2 3 2 4 1 Ejector lever (one at each end) 3 Status LEDs 2 Port 0 4 Alphanumeric LEDs 116097 1 CHOC48X/DS3-SR-SC RX TX 4-Port Channelized OC-12/STM-4 ISE Line Card Product Overview The 4-Port Channelized OC-12/STM-4 ISE line card provides Cisco 12000 Series Routers with four OC-12c/STM-4c ports that can be channelized to DS3/E3, OC-3c/STM-1c, or OC-12c/STM-
Product Overview 1-Port Channelized OC-12/STM-4 (OC-3) Line Card AC T CA IVE R RX RIE PK R T AC TI V CA E RR RX IER PK T Figure 4 0 3 2 4 1 Ejector lever (one at each end) 3 Status LEDs 2 Port 0 4 Alphanumeric LEDs 116099 1 CH OC-12/STM-4 IR-SC STS3/STM1 1-Port Channelized OC-12/STM-4 (DS3) Line Card Product Overview The 1-port channelized OC-12/STM-4 (DS3) line card provides 12 channels of DS3 multiplexed over a single 622-Mbps OC-12/STM-4 port.
Product Overview 2-Port Channelized OC-3/STM-1 (DS1/E1) Line Card Product Overview The 2-port channelized OC-3/STM-1 (DS1/E1) line card provides E1/DS1 aggregation for the Cisco 12000 Series Router. The 2-port channelized OC-3/STM-1 (DS1/E1) line card interfaces with the router switch fabric and provides two OC-3/STM-1 duplex SC single-mode intermediate-reach optical interfaces.
Product Overview Figure 7 6-Port Channelized T3 (T1) Line Card 6 DOWN CDHNT LOOP RA CD LA 8 7 2 3 5 TX RX 4 TX RX 3 RX TX 2 RX TX 1 RX TX 0 CD LA RX RA TX CDHNT LOOP 6CT3-SMB 5 4 1 Ejector lever (one at each end) 5 Alphanumeric LEDs 2 LED legend 6 Green 3 Port 0 7 Alternates green/yellow 4 Status LEDs 8 Yellow 116102 1 DOWN 6-Port and 12-Port DS3 Electrical Interface Line Card Product Overview The 6-port and 12-port DS3 electrical interface line cards
Product Overview Figure 8 6-Port and 12-Port DS3 Line Cards 6 DOWN CDHNT LOOP RA CD LA 8 7 12 port line card 1 TX RX 11 RX TX 10 9 TX RX 8 TX RX 7 RX TX 6 TX RX 5 TX RX 4 TX RX 3 RX TX 2 TX 12DS3–SMB P/H/F 4 3 2 RX 1 TX RX CD LA 0 RA RX CDHNT LOOP TX DOWN 5 5 TX 6DS3–SMB P/H/F RX 4 TX RX RX 3 TX 2 TX RX 1 TX RX CD LA RX RA 0 CDHNT LOOP TX DOWN 116103 6 port line card 1 Ejector lever (one at each end) 5 Alphanumeric LEDs
Preparing for Installation Figure 9 6-Port and 12-Port E3 Line Cards 6 DOWN CDHNT LOOP RA CD LA 8 7 12 port line card 1 TX RX 11 TX RX 10 9 TX RX 8 RX TX 7 TX RX 6 TX RX 5 RX TX 4 TX RX 3 TX RX 2 RX 4 3 2 TX 1 TX RX CD LA 0 RA TX CDHNT LOOP RX DOWN 12E3–SMB P/H/F 5 6E3–SMB P/H/F RX 5 TX 4 TX RX 3 TX RX RX 2 TX 1 TX RX CD LA 0 RA TX CDHNT LOOP RX DOWN 116104 6 port line card 1 Ejector lever (one at each end) 5 Alphanumeric
Preparing for Installation • Keep the work area clear and dust free during and after installation. Do not allow dirt or debris to enter into any laser-based components. • Do not wear loose clothing, jewelry, or other items that could get caught in the router while working with line cards. • Cisco equipment operates safely when it is used in accordance with its specifications and product usage instructions. See the “Line Card Interface Cables” section on page 25 for information on interface cables.
Removing and Installing a Line Card Removing and Installing a Line Card The following sections describe the procedures for removing and installing line cards: Note • Guidelines for Line Card Removal and Installation, page 14 • Removing a Line Card, page 15 • Installing a Line Card, page 16 Some of the procedures in the following sections use illustrations of a Cisco 12012 Internet Router to support the descriptions of removing and installing line cards.
Removing and Installing a Line Card Caution When you remove a line card, always use the ejector levers to ensure that the connector pins disconnect from the backplane in the sequence expected by the router. Any card that is only partially connected to the backplane can halt the router.
Removing and Installing a Line Card Caution When you remove a line card, always use the ejector levers to ensure that the line card connector pins disconnect from the backplane in the logical sequence expected by the router. Any line card that is only partially connected to the backplane can halt the router. Step 5 Simultaneously pivot the ejector levers away from each other to release the line card from the backplane connector. (See Figure 10b.
Line Card Cable-Management Bracket Step 4 Carefully slide the line card into the slot until the ejector levers make contact with the edges of the card cage, then stop when the ejector lever hooks catch the lip of the card cage. If they do not catch, try reinserting the line card until the ejector lever hooks are fully latched. (See Figure 11.) Figure 11 Ejector Levers H7681 When inserting a card, make sure the ejector lever hooks catch the lip of the card cage.
Line Card Cable-Management Bracket Cisco 12000 Series Routers include a cable-management system that organizes the interface cables entering and exiting the router, keeping them out of the way and free of sharp bends. Caution Excessive bending of interface cables can damage the cables. The cable-management system consists of two separate components: 1. A cable-management tray that is mounted on the chassis.
Line Card Cable-Management Bracket Multiport Line Card Cable-Management Bracket 93238 Figure 13 Note When shipped with spare line card orders, the cable-management bracket is not attached to the line card. You must attach the cable-management bracket to the line card before you insert the line card into the router. Caution Do not use the cable-management bracket as a handle to pull out or push in the line card.
Line Card Cable-Management Bracket Note It is not necessary to remove the interface cables from the line card cable-management bracket. The bracket (with attached cables) can be hooked to the cable-management tray or a bracket on the chassis until a new line card is installed. Step 4 For multiport line card cable-management brackets, proceed upward and remove the interface from the Velcro strap on the end of the cable standoff. (See Figure 14.
Line Card Cable-Management Bracket Figure 14 Multiport Line Card Cable-Management Installation and Removal (4-Port OC-48c/STM-16c DPT Line Card Shown) a b 1 CONNECTOR CLEAN WITH ALCOHOL WIPES BEFORE CONNECTING CONNECTOR CLEAN WITH ALCOHOL WIPES BEFORE CONNECTING CARRIER CARRIER RX PACKET RX PACKET 2 PA SS TH R WR U AP PA SS TH R WR U AP PRODUCTO LASER DE CLASSE 1 CLASS 1 LASER PRODUCT LASERPRODUKT DER KLASSE 1 PRODUIT LASER DE CLASSE 1 PRODUCTO LASER DE CLASSE 1 3 CLASS 1 LASER PRODUC
Line Card Cable-Management Bracket Figure 15 Single-Port Line Card Cable-Management Bracket Installation and Removal (1-Port OC-192c/STM-64c DPT Line Card Shown) 1 4 2 3 TXTX 80300 RXRX 1 Chassis cable-management tray 3 Interface cable 2 Cable clip 4 Line card cable-management bracket Installing a Line Card Cable-Management Bracket To install a line card cable-management bracket, follow these steps: Step 1 Attach an ESD-preventive wrist or ankle strap and follow its instructions for use.
Cabling and Specifications Step 2 Step 3 Attach the line card cable-management bracket to the line card as follows: a. Position the cable-management bracket over the front of the line card faceplate. b. Insert and tighten the captive screw(s) to secure the bracket to the line card. c. Starting with the bottom port on the line card, connect each interface cable to the intended port. For multiport line card cable-management brackets, carefully wrap the cables with the supplied Velcro strap.
Cabling and Specifications CDRH Class 1 eye safety. Table 5 lists the power budget and signal specifications of the 1-port channelized OC-12/STM-4 (DS1/E1) ISE line card. The actual distance in any given case depends on the quality of the fiber attached to the transceiver.
Cabling and Specifications 1-Port Channelized OC-12/STM-4 (DS3) Line Card Power Specifications The 1-port channelized OC-12/STM-4 (DS3) line card is only available in a single-mode, intermediate-reach configuration providing a full-duplex 622.08-Mbps 1310-nm laser-based SONET-compliant interface. Table 9 lists the power budget and signal specifications of the 1-port channelized OC-12/STM-4 (DS3) line card.
Cabling and Specifications Figure 16 2 66917 1 Simplex SC Cable Connector (Single-mode) 1 SC cable connector 2 Spring-action disconnect latch To remove an interface cable, follow these steps: Step 1 Attach an ESD-preventive wrist strap to your wrist and follow its instructions for use. Step 2 Press on the spring-action disconnect latch to disconnect the cable from the interface ports. (See Figure 16.) Step 3 Slowly pull the connector from the port.
Cabling and Specifications Attaching Fiber Cables TX 2 RX 3 1 1 Simplex fiber cables 2 TX port 3 RX port 80301 Figure 17 Step 4 Insert the connector until it clicks and locks into place. Step 5 Attach the other end of the cable to another node. The TX port on the line card must be connected to the RX port on the next node, and the RX port on the line card must be connected to the TX port on the next node. The labels next to the fiber connectors identify TX and RX.
Cabling and Specifications If you use cables other than those provided by Cisco, it is your responsibility to ensure that you have a compliant system that meets local EMC requirements. To order additional cables, use the product numbers: 2CBLE-SMB-BNC-M (male) and 2CBLE-SMB-BNC-F (female). T3 SMB Cables (SMB terminates into BNC) 25581 Figure 18 Female BNC connector Note Male BNC connector SMB connector When you connect the 10-foot (3.
Cabling and Specifications Building Your Own Cables You can build your own cables for the T3 connectors on your line card by using the cable components listed in Table 11. All three cables have an SMB connector at one end to connect to the line card. The two SMB-to-BNC cables in Table 11 differ only in that one terminates in a male BNC connector, while the other terminates in a female BNC connector. You can use the third cable for directly connecting two closely spaced line cards back-to-back.
Verifying and Troubleshooting the Line Card Installation Table 12 lists some approximate attenuation values from the ANSI standard, and shows the RG-179 attenuation. As you can see, RG-179 has a much higher attenuation, so take this information into account if you plan long runs of RG-179 cable. Table 12 ANSI Standard Cable-Attenuation Values Approximate Cable Attenuation (dB) from ANSI Standard T1.
Verifying and Troubleshooting the Line Card Installation If one of these conditions is not met, refer to the “Advanced Line Card Troubleshooting” section on page 56 to identify any possible problems. Status LEDs After installing the line card and connecting the interface cables, verify that the line card is working properly by checking the following LEDs on the faceplate: • Interface status LEDs show the status of each fiber-optic connector.
Verifying and Troubleshooting the Line Card Installation Table 13 1-Port Channelized OC-12/STM-4 (DS1/E1) ISE Line Card Status LED Descriptions LED Color/Activity ACTIVE Green Off CARRIER Green Off RX PKT Description • A signal is detected. • There is RX synchronization. • The line card is administratively down. • The line card is in diagnostics mode. • Loss of RX synchronization. For example, removing the local TX cable or the remote RX cable can cause loss of synchronization.
Verifying and Troubleshooting the Line Card Installation Table 15 4-Port Channelized OC-12/STM-4 ISE Line Card Status LED Descriptions LED Color/Activity Description ACTIVE Off Port is administratively down, or diagnostics are running. Solid green Port is administratively up. Off Port is up, but is detecting local alarm or is waiting for receive framing. Solid green Port is up, and receive framing was found. Blinking green Line card is receiving data. CARRIER 1 RX PKT 1.
Verifying and Troubleshooting the Line Card Installation Table 18 2-Port Channelized OC-3/STM-1 (DS1/E1) Line Card Status LED Descriptions LED Color/Activity Description ACTIVE Off Port is administratively down, or diagnostics are running. Solid green Port is administratively up. Off Port is up, but is detecting local alarm or is waiting for receive framing. Blinking green Port is up, but is receiving remote alarm. Solid green Port is up, and receive framing was found. CARRIER 1 1.
Verifying and Troubleshooting the Line Card Installation Table 20 6-Port and 12-Port DS3 Line Card Status LED Descriptions LED State Color/Activity Description DOWN None Port is administratively down. CDHNT (carrier detect hunt) Blinking green Port is up and waiting for receive framing. CD (carrier detected) Solid green Port is up, and receive framing was found. RA (remote alarm) Solid yellow Port is up, but receiving remote alarm.
Verifying and Troubleshooting the Line Card Installation Table 22 Alphanumeric LED Messages During a Typical Initialization Sequence LED Display1 Meaning Source MROM nnnn MBus microcode execute; nnnn is the microcode version number. MBus controller LMEM TEST Low memory on the line card is being tested. Line card ROM monitor LROM RUN Low memory test has been completed. Line card ROM monitor BSS INIT Main memory is being initialized.
Verifying and Troubleshooting the Line Card Installation Table 22 Alphanumeric LED Messages During a Typical Initialization Sequence (continued) LED Display1 Meaning Source IOS VGET2 Line card is obtaining the Cisco IOS version. RP IOS software IOS RUN Line card is enabled and ready for use. RP IOS software IOS STRT Cisco IOS software is being launched. RP IOS software IOS TRAN Cisco IOS software is transitioning to active. RP IOS software IOS UP Cisco IOS software is running.
Verifying and Troubleshooting the Line Card Installation Table 23 Other Alphanumeric LED Messages (continued) LED Display Meaning Source CLOK DONE Slot clock configuration done. RP FABL LOAD Loading fabric downloader2 complete. RP IOS LOAD Downloading of Cisco IOS software is complete. RP BMA ERR Cisco IOS software BMA error. RP FIA ERR Cisco IOS fabric interface ASIC configuration error. RP CARV ERR Buffer carving failure. RP DUMP REQ Line card requesting a core dump.
Verifying and Troubleshooting the Line Card Installation 1. This LED sequence only appears in Cisco IOS release 12.0(24)S or later. 2. The fabric downloader loads the Cisco IOS software image onto the line card. Troubleshooting the Installation Note Many new line cards are designated as administratively down by default. Status LEDs are off until you configure the interfaces and use the no shutdown command.
Configuring and Troubleshooting Line Card Interfaces SONET/SDH Clocking Issues This section provides an overview of SONET/SDH clocking issues and is applicable to the 1-port channelized OC-48/STM-16 ISE and 4-port channelized OC-12/STM-4 ISE line cards. These line cards support both line and internal clocking functions. Line clocking is derived from the incoming signal from a given port. Internal clocking is derived from the clock that is internal to the line card.
Configuring and Troubleshooting Line Card Interfaces • Configuring the 1-Port Channelized OC-12/STM-4 (DS3) Line Card, page 46 • Configuring the 2-Port Channelized OC-3/STM-1 (DS1/E1) Line Card, page 47 • Configuring the 6-Port Channelized T3 (T1) Line Card, page 49 • Configuring the 6-Port and 12-Port DS3 Line Card Controller, page 53 • Configuring the 6-Port and 12-Port E3 Line Card Controller, page 55 • Advanced Line Card Troubleshooting, page 56 • Line Card Diagnostics Using Cisco IOS Soft
Configuring and Troubleshooting Line Card Interfaces Table 24 1-Port Channelized OC-12/STM-4 (DS1/E1) ISE Line Card Controller Parameters and Default Configuration Values Parameter Configuration Command Default Value AIS shut—send LAIS when shut down [no] ais-shut on APS—modify APS parameters [no] aps ...
Configuring and Troubleshooting Line Card Interfaces A Cisco 12000 Series Router identifies an interface address by its line card slot number and port number, in the format slot/port. For example, the slot/port address of an interface on an 1-port channelized OC-48/STM-16 ISE line card installed in line card slot 2 and port 0 is 2/0. Even if the card contains only one port, you must use the slot/port notation.
Configuring and Troubleshooting Line Card Interfaces Table 25 1-Port Channelized OC-48/STM-16 ISE and 4-Port Channelized OC-12/STM-4 ISE Line Cards Controller Parameters and Default Configuration Values (continued) Parameter1 Configuration Command Default Value Thresholds [no] ber-threshold b1-tca [3..9] 6(10e-6) [no] ber-threshold b2-tca [3..9] 6(10e-6) [no] ber-threshold sd-ber [3..9] 6(10e-6) [no] ber-threshold sf-ber [3..
Configuring and Troubleshooting Line Card Interfaces Step 5 Set the clock source to line or internal: Router(config-controller)# [no] clock source {line | internal} Use the no form of this command to restore the default value, which is line. Step 6 Change the OC-12/STM4 controller loopback mode: Router(config-controller)# [no] loopback {line | internal} Use the no form of this command to clear the loop setting.
Configuring and Troubleshooting Line Card Interfaces Table 26 1-Port Channelized OC-12/STM-4 (OC-3) Line Card Controller Configuration Default Values (continued) Parameter Configuration Command Default Value POS framing [no] POS framing [SDH | SONET] SONET S1S0 bits [no] POS flag S1S0 <0-3> 0 J0 byte [no] POS flag J0 <0-255> 0xCC Alarm reporting [no] POS report [b1-tca | b2-tca| lais | lrdi | sd-ber | sf-ber | slof | slos] sf-ber, slos, slof , b1-tca, b2-tca shutdown [no] shutdown no shu
Configuring and Troubleshooting Line Card Interfaces Use the no form of this command to remove scrambling. The default value is scrambling. Step 5 To change the OC-12 controller loopback mode: Router(config-controller)# [no] loopback {line | internal} Router(config-controller)# Use the no form of this command to remove the loop.
Configuring and Troubleshooting Line Card Interfaces Step 2 In global configuration mode, enter the controller configuration mode by entering the controller command and specifying a OC-12/STM-4 interface, as follows: Router(config)# controller SONET 1/0 Router(config-controller)# Step 3 Set the clock source to line or internal: Router(config-controller)# [no] clock source {line | internal} Use the no form of this command to restore the default value, which is line.
Configuring and Troubleshooting Line Card Interfaces Configuring the 6-Port Channelized T3 (T1) Line Card The following procedure describes how to perform a basic controller configuration. After you verify that the new line card is installed correctly, enter the privileged EXEC mode with the enable command. The system prompts you for a password if one is required. Use the configure command to configure the controller.
Configuring and Troubleshooting Line Card Interfaces • Using T3 Controller Loopback Modes, page 51 • Shutting Down the T3 Controller, page 52 • Configuring the T3 Controller to Respond to Remote T3 Loopback Commands, page 53 Selecting a T3 Controller You must enter the controller T3 slot/port command before any other configuration commands to select the T3 controller you want to configure.
Configuring and Troubleshooting Line Card Interfaces Setting the Clock Source for the T3 Controller To set the selected T3 controller, use the clock source {internal | line} controller configuration command. The default is clock source internal.
Configuring and Troubleshooting Line Card Interfaces • Remote loopback sends a command to loop the T3 line at the far end. It can be used to diagnose problems with cables. The following example shows how to configure the T3 controller for remote loopback. The T3 controller is on a 6-port channelized T3 (T1) line card in slot 6 and port 0 of the Cisco 12000 Series Router.
Configuring and Troubleshooting Line Card Interfaces Configuring the T3 Controller to Respond to Remote T3 Loopback Commands This section explains how to use the equipment [customer|network] loopback controller configuration command. To enable the 6-port channelized T3 (T1) line card to respond to remote T3 loopback commands from the remote T3 equipment, use the equipment customer loopback command.
Configuring and Troubleshooting Line Card Interfaces • To address the 12-port DS3 line card, which has twelve ports, in slot 6, the valid port numbers are 0 through 11 inclusive. The serial interface slot/port configuration format range is 6/0 through 6/11. To configure a 6-port or 12-port DS3 line card interface: Step 1 Use the enable command to enter privileged EXEC mode. The system prompts you for a password if one is set.
Configuring and Troubleshooting Line Card Interfaces Configuring the 6-Port and 12-Port E3 Line Card Controller This section provides basic information to configure an interface and to specify IP routing. You can also enter other configuration commands and options, depending on the requirements of your system. To configure the 6-port and 12-port E3 line cards interfaces, you must identify the router slot where the line card is installed (for example, slot 7).
Configuring and Troubleshooting Line Card Interfaces Table 31 6E3-SMB or 12E3-SMB Line Card Serial Interface Default Values Parameter Configuration Command Default Value BERT errors range 1 to 255 inclusive 1 BERT pattern interval bert pattern {0s | 1s | 2^15 | 2^20 | 2^23 | qrss } interval interval_value [no] bert Clock source clock source [internal | line] line Cyclic redundancy check crc [16 | 32] 16 DSU mode [no] dsu mode [cisco | digital-link | kentrox] cisco DSU subrate bandwidth
Configuring and Troubleshooting Line Card Interfaces • Console Logs and Syslog Information—This information is crucial if multiple symptoms are occurring. If the router is configured to send logs to a Syslog server, you may see some information on what has occurred. For console logs, it is best to be directly connected to the router on the console port with logging enabled.
Configuring and Troubleshooting Line Card Interfaces .Traceback= 602ABCA8 602AD8B8 602B350C 602B3998 6034312C 60342290 601A2BC4 601A2BB0 5d16h: %LINK.5.CHANGED: Interface GigabitEthernet1/0, changed state to administratively down 5d16h: %LINEPROTO.5.UPDOWN: Line protocol on Interface GigabitEthernet1/0, changed state to down 5d16h: %GRP.3.CARVE_INFO: Setting mtu above 8192 may reduce available buffers on Slot: 1. SLOT 1:00:00:09: %SYS.5.RESTART: System restarted ..
Configuring and Troubleshooting Line Card Interfaces (remainder of output omitted) The type of failure that has occurred in the show context slot 2 example is identified by the underlined SIG= value. The three most common types of line card failures are: • Software Forced Crash (SIG=23) • Bus Error (SIG=10) • Cache Parity Exception (SIG=20) In the example above, the line card has failed and has caused a reload because of a software forced crash exception.
Configuring and Troubleshooting Line Card Interfaces Fabric Ping Failure Fabric ping failures occur when either a line card or the secondary RP fails to respond to a fabric ping request from the primary RP over the switch fabric. Such failures are a problem symptom that should be investigated.
Configuring and Troubleshooting Line Card Interfaces The following partial output example from the show controllers sonet privileged EXEC command shows alarm and event information for the second SONET controller in slot 3 of a Cisco 12000 Series Router (4-port channelized OC-12/STM-4 ISE line card): router# show controllers sonet 3/1 SONET3/1 Current state of the controller is up Framing is SONET Clock source is INTERNAL, Loopback is NONE SECTION LOF = 0 LINE AIS = 0 LOS = 0 RDI = 0 BIP(B1) = 0 FEBE =
Configuring and Troubleshooting Line Card Interfaces FD 3> GSR Field Diagnostics V4.0 FD 3> Compiled by award on Thu May 18 13:43:04 PDT 2000 FD 3> view: award.conn_isp.FieldDiagRelease FD 3> ***************************************************** FD 3> BFR_CARD_TYPE_1P_GE testing... FD 3> running in slot 3 (83 tests) Executing all diagnostic tests in slot 3 (total/indiv. timeout set to 600/200 sec.
Line Card Memory 5d20h: %GRP.4.RSTSLOT: Resetting the card in the slot: 7,Event: EV_ADMIN_FDIAGLoading diagnostic/award/c12k.fdiagsbflc.mz.120-25.s from 223.255.254.254 (via Ethernet0): !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! 5d20h: Downloading diags from tftp file tftp://223.255.254.254/diagnostic/award/ c12k.fdiagsbflc.mz.120-25.s !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! [OK . 13976524 bytes] FD 7> ***************************************************** FD 7> GSR Field Diagnostics V6.
Line Card Memory Table 32 Channelized and Electrical Interface Line Card Engine Types Channelized and Electrical Interface Line Card Line Card Engine Type 1-Port Channelized OC-12/STM-4 (DS1/E1) ISE Internet Services Engine (ISE) 1-Port Channelized OC-48/STM-16 ISE Internet Services Engine (ISE) 4-Port Channelized OC-12/STM-4 ISE Internet Services Engine (ISE) 1-Port Channelized OC-12/STM-4 (OC-3) Engine 0 1-Port Channelized OC-12/STM-4 (DS3) Engine 0 2-Port Channelized OC-3/STM-1 (DS1/E1) E
Line Card Memory Engine 0 and Engine 1 Line Card Memory Locations Figure 21 shows the dual in-line memory module (DIMM) socket locations on an Engine 0 or Engine 1 line card.
Line Card Memory Figure 22 ISE Line Card Memory Locations 4 3 84998 3 TX AN 1 TX TX ACTIV E CARR IER PKT RX WR AP THRU RX B PASS RX PKT 1 THRU A ACTIV E CARR IER RX WR AP CLAS LASE S 1 LA PRODRPRODUSER PR UIT LA KT DE ODUC SER R KLAS T PROD DE CL SE UCTO ASSE 1 LASE 1 R DE CLAS SE 1 PASS ACTIV E CARR IER RX 2 THRU WR AP PKT RX B PASS RX TX THRU PKT 0 WR AP ACTIV E CARR IER RX A PASS CLE WIT CO H WIP ALC NN ES OHO EC CON BEF L TO NEC ORE R TIN G 4O C1 4 2X
Line Card Memory Line Card Memory Options Table 34 lists the available route memory options for channelized and electrical interface line cards. Table 34 ISE Channelized Line Card Route Memory Total Route Memory 512 MB DIMM Module MEM-LC-ISE-512= 1 Cisco Product Number SODIMM Sockets 2 256-MB SODIMM DIMM0 and DIMM1 1. This order number is used whether you are replacing or upgrading the route memory.
Line Card Memory Remove Retaining Clip from Memory Module Socket 75779 Figure 23 Step 5 Remove the SODIMM by gently moving the plastic latches in an outward direction, parallel to and away from the memory module, until it releases and rotates to a 45-degree angle. (See Figure 24 and Figure 25a.) Caution The plastic latch on the SODIMM socket is enclosed by the metal strain-relief latch. The plastic latch should never be moved past the metal strain-relief latch.
Line Card Memory Moving the Plastic Latch Away from the SODIMM 75799 Figure 24 Step 6 As the SODIMM is released, it positions itself at a 45-degree angle. Gently pull the SODIMM module out of the socket. Continue to keep the module at a 45-degree angle until it is completely removed from the socket guides. (See Figure 25b.) Figure 25 Removing a 144-pin SODIMM Module a b 75780 45º Step 7 Immediately place the SODIMM in an antistatic bag to protect it from ESD damage.
Line Card Memory Note Some line cards do not require a retaining clip. SODIMM Socket Retaining Clip 75757 Figure 26 Caution If the retaining clip is damaged, do not use it. This can damage the SODIMM socket. Step 4 Locate the route memory socket on the line card. Step 5 Remove the new SODIMM from its protective antistatic bag. Caution Step 6 Grasp the edges of the SODIMM only.
Line Card Memory Step 7 Note Step 8 The SODIMM must be lined up at a 45-degree angle. (See Figure 28a.) When the key is in the face-up position, the metal traces on the left side of the key measure 0.9 inch (23.20 mm). The metal traces on the right side of the key measure 1.29 inches (32.80 mm). The SODIMM can not be inserted until the keys are lined up properly. Place both thumbs at the end of the socket and use your index fingers to guide the module into the socket until it is fully seated.
Line Card Memory Inserting the Retaining Clip 75758 Figure 29 The clip is properly installed when the clip detente protrudes below the strain relief and plastic latch. (See Figure 30.
Line Card Memory Retaining Clip Completely Installed into Module Latch 75781 Figure 30 Checking the Installation of Line Card Memory After you install line card memory and reinstall the line card in the router, the router reinitializes the line card and detects the memory change as part of the reinitialization cycle. The time required for the router to initialize can vary with different router configurations and memory configurations. A router with larger SODIMMs, for example, might take longer to boot.
Regulatory, Compliance, and Safety Information Step 3 Reinstall the line card in the card cage as described earlier in this publication and perform another installation check. If the card fails to restart properly after several attempts and you are unable to resolve the problem, access Cisco.com or contact your Cisco service representative for assistance.
Regulatory, Compliance, and Safety Information CISPR 22 This apparatus complies with CISPR 22/EN55022 Class B radiated and conducted emissions requirements. Canada English Statement of Compliance This class A digital apparatus complies with Canadian ICES-003. French Statement of Compliance Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
Regulatory, Compliance, and Safety Information Class A Notice for Taiwan and Other Traditional Chinese Markets Warning This is a Class A Information Product, when used in residential environment, it may cause radio frequency interference, under such circumstances, the user may be requested to take appropriate countermeasures.
Regulatory, Compliance, and Safety Information VCCI Class A Notice for Japan Warning This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions.
Obtaining Documentation Warning Class 1 laser product. General Laser Warning The following warning applies to the channelized and electrical interface line card: Warning Invisible laser radiation can be emitted from the aperture of the port when no cable is connected. Avoid exposure to laser radiation and do not stare into open apertures.
Documentation Feedback Documentation Feedback You can submit e-mail comments about technical documentation to bug-doc@cisco.com. You can submit comments by using the response card (if present) behind the front cover of your document or by writing to the following address: Cisco Systems Attn: Customer Document Ordering 170 West Tasman Drive San Jose, CA 95134-9883 We appreciate your comments.
Obtaining Additional Publications and Information For a complete listing of Cisco TAC contacts, go to this URL: http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml TAC Case Priority Definitions To ensure that all cases are reported in a standard format, Cisco has established case priority definitions. Priority 1 (P1)—Your network is “down” or there is a critical impact to your business operations. You and Cisco will commit all necessary resources around the clock to resolve the situation.
Obtaining Additional Publications and Information • Internet Protocol Journal is a quarterly journal published by Cisco Systems for engineering professionals involved in designing, developing, and operating public and private internets and intranets. You can access the Internet Protocol Journal at this URL: http://www.cisco.com/ipj • Training—Cisco offers world-class networking training. Current offerings in network training are listed at this URL: http://www.cisco.com/en/US/learning/index.
Obtaining Additional Publications and Information Channelized and Electrical Interface Line Card Installation and Configuration 82 78-16417-02
