Benutzerhandbuch für Cisco Systems IGX 8400 Series

Inhaltsverzeichnis

• Card Installation and Node Startup

  1
• Preparing the Cards

  1
  • Figure3-1 W6 Jumper

    2
  • Figure3-2 IGX 8410 Cards, Front View

    3
  • Figure3-3 IGX 8410 Cards, Back View

    4
  • Figure3-4 IGX 8420 Card Shelf, Front View

    5
  • Figure3-5 IGX 8430 Back View

    6
• Inserting the Cards

  7
  • Step1 Attach an ESD-preventive wrist strap to handle the cards.

    7
  • Step2 Using the 5/32-inch Allen wrench, open the Cisco IGX 8400 Series switch door.

    7
  • Step3 Be sure that you are inserting the module into the correct slot.

    7
  • Step4 Grasp the card front panel with one hand and place your other hand under the card to balan...

    7
  • Figure3-6 Inserting Modules

    7
    • Step5 Push down on the ejector levers to properly seat the card.

      7
    • Step6 Using the number 1 Phillips screwdriver, tighten the panel fasteners at the top and bottom...

      7
• Making Signal Connections

  8
• Connecting Trunks

  9
• Setting Up a UXM-E

  9
  • Bringing Up a UXM-E Trunk

    9
    • Step1 Bring each cable through the opening at the top or bottom of the cabinet (however appropri...

      9
    • Step2 If the unit has the optional cable manager, you can use it to help route the cables. (See ...

      9
    • Step3 Connect the cables to the connectors on the back card. (See Figure3-7.)

      9
    • Figure3-7 Cable Management

      10
      • Step1 To verify the correct card locations in both the local and remote nodes, enter:

        11
      • Step2 Configure the cellbus bandwidth allocation for the card if you do not plan to rely on auto...

        11
      • Step3 Activate the trunk by using uptrk. Execute this command on the nodes at both ends of the t...

        11
      • Step4 At each end, configure trunk parameters as required by using cnftrk. Each type of trunk co...

        11
      • Step5 Use addtrk to add the trunk. Adding the trunk makes it a usable resource, so you can subse...

        11
      • Step6 Optionally, you can configure a UXM-E trunk as a clock source. Enter:

        11
      • Step7 Configure the cellbus bandwidth allocation with cnfbusbw if you plan to activate many port...

        11
      • Step8 To configure physical and logical trunk statistics, use cnfphyslnstats and cnftrkstats, re...

        11
  • Inverse Multiplexing over ATM on Trunks

    11
    • Adding an IMA Feeder Trunk

      12
      • Step1 Activate the trunk between the interface shelf and router by specifying the primary link a...

        12
      • Step2 Use the cnftrk command to configure the activated UXM-E feeder trunk:

        12
      • Step3 Use the addshelf command to add the feeder trunk to an IGX routing node:

        12
    • Adding Links to an IMA Feeder Group

      12
      • Step1 Find the nodes configured as trunks connected to the IMA feeder. Enter:

        12
      • Step2 Increase the IMA group members on both trunk and feeder nodes by manually entering the num...

        12
      • Step3 Increase the receive rate using the DS0 calculation on both trunk and feeder nodes.

        12
      • Step4 Increase the number of retained links on both trunk and feeder nodes.

        12
    • Removing Links from an IMA Feeder Group

      13
      • Step1 Find the nodes configured as trunks connected to the IMA feeder by using the dsptrks command.

        13
      • Step2 Reduce the number of retained links on the IMA feeder node.

        13
      • Step3 Reduce the receive rate using the DS0 calculation on the IMA feeder node.

        13
      • Step4 Repeat steps 2 and 3 on the IMA trunk.

        13
      • Step5 Reduce the number of IMA group members on both trunk and feeder nodes by manually entering...

        13
  • UXM-E Inverse Multiplexing ATM IMA Lines

    13
  • Connecting an NTM T1 or Y1 Trunk

    14
    • Step1 Bring each T1 cable through the opening at the bottom of the cabinet (if applicable) and u...

      14
    • Step2 Use the cable management feature to help route the cables.

      14
    • Step3 Connect the trunks to the connectors on the BC-T1s that are part of NTM/BC-T1 card sets. T...

      14
  • Connecting an NTM E1 or Subrate Trunk

    14
    • Step1 Bring each E1 BNC patch cable (or 15-pin cable) through the opening at the top or bottom o...

      14
    • Step2 Use the cable management feature to help route the cables.

      14
    • Step3 Connect the cables to connectors on the BC-E1s that are part of an NTM/BC-E1 card sets.

      14
• Setting Up a UXM-E

  15
  • Bringing Up a UXM-E in UNI or NNI Port Mode

    15
    • Step1 Bring each cable through the opening at the top or bottom of the cabinet (however appropri...

      15
    • Step2 If the unit has the optional cable manager, you can use it to help route the cables.

      15
    • Step3 Connect the cables to the connectors on the back card.

      15
    • Step1 Verify the correct card locations in both the local and remote nodes (dspcds).

      15
    • Step2 Activate each line by using upln. Execute this command on the nodes at both ends of the li...

      15
    • Step3 At the near and far-end nodes, use cnfln to configure line parameters as required. Each li...

      15
    • Step4 Optionally, you can specify Y-cable redundancy with the addyred command.

      15
    • Step5 Use upport at the near and far-end nodes to activate the logical port. Use vt to reach the...

      15
    • Step6 Use cnfport at the near and far-end nodes to configure each logical port. Applicable param...

      15
    • Step7 If you do not want the defaults for the queue depths and high and low discard eligibility ...

      15
    • Step8 Optionally, you can use cnfabrparm to configure additional parameters for ABR traffic. The...

      15
    • Step9 Optionally, you can configure a UXM-E port as a clock source. Use cnfclksrc.

      15
    • Step10 Configure the cellbus bandwidth allocation with cnfbusbw if you plan to activate a large ...

      16
    • Step11 To check the status of the lines, use dsplns.

      16
    • Step12 To configure the duration, sample count and size, and peak values for historical port sta...

      16
• Installing Voice Cards

  16
  • Connecting a CVM to a T1 or J1 Line

    16
    • Step1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up t...

      16
    • Step2 Use the cable management feature to help route the cables.

      16
    • Step3 Connect the trunks to the connectors on the BC-T1s that mate with the CVM (not NTM). The T...

      16
  • Connecting a CVM to an E1 Line or a Subrate Trunk

    17
    • Step1 Bring each E1 BNC patch cable (or 15-pin cable) through the opening at the bottom of the c...

      17
    • Step2 Attach the cabling to connectors on the BC-E1s that mate with the CVM (not an NTM).

      17
    • Step3 Use the cable management feature to help route the cables.

      17
  • TDM Transport on the CVM

    17
  • Connecting a UVM to T1 Lines

    18
    • Step1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up t...

      18
    • Step2 If the intended compression for voice channels is LDCELP and the number of channels on a T...

      18
    • Figure3-8 Pass-Through and Standard (External) UVM T1 Cabling

      19
  • Connecting a UVM to E1 Lines

    20
    • Step1 Bring each cable through the opening at the bottom of the cabinet (if applicable) and up t...

      20
    • Step2 If you use the 120-ohm, DB-15 connectors, you must remove the nuts on the BNC connectors f...

      20
    • Step3 If you use the 75-ohm BNC connectors in a balanced mode, you must remove the nuts from the...

      20
    • Step4 Install optional Y-cables as needed.

      20
    • Step5 If the intended compression for voice channels is LDCELP and the number of channels on a E...

      20
    • Figure3-9 Pass-Through and Standard (External) UVM E1 Cabling

      21
  • Connecting a UVM to J1 Lines

    22
    • Step1 Bring each cable through the opening at the bottom or top of the cabinet (whatever is appl...

      22
    • Step2 Attach each cable according to the cabling requirement (pass-through, external, and so on).

      22
    • Figure3-10 Pass-Through and Standard (External) UVM J1 Cabling

      23
• Making Serial Data Connections

  24
  • Figure3-11 SDI and LDI Faceplates

    24
  • Configuring the Port Modes of the HDM Back Cards

    25
    • Step1 At the back of the IGX node, remove the SDI card, as follows:

      25
    • Step2 Move the jumper board one row of pins away from the SDI faceplate. (See Figure3-12.) For ...

      25
    • Figure3-12 Changing the Mode on an SDI Card

      26
  • HDM and LDM Redundancy

    26
  • Configuring the Mode of an LDI Port

    26
    • Figure3-13 Connecting a DTE or DCE Adapter Cable to an LDI

      27
• Making Frame Relay Connections

  28
  • Maximum Connections Per Port with Signalling Protocols

    28
  • Setting Up Frame Relay on a UFM

    28
    • Y-Cable Redundancy on the UFMs

      28
      • Figure3-14 Y-Cable Redundancy with Single and Dual-Port Cabling

        29
    • Connecting UFM Cabling

      30
      • Step1 For the UFM-U/UFI card sets, make sure the cables are the correct DCE or DTE versions. For...

        30
      • Step2 Bring each cable through the opening at the top or bottom of the cabinet (if applicable) a...

        30
      • Step3 Add optional Y-cables as necessary.

        30
      • Step4 Secure the cables to the connectors on the back cards that mate with the correct front car...

        30
      • Step5 Record the slot number of each line for configuration purposes after you install the hardw...

        30
    • Setting Up Frame Relay Ports and Connections (UFM)

      30
      • Step1 If necessary, use the dspcds command to verify the correct UFI back card and UFM front car...

        30
      • Step2 If the card is a UFM-C, “up” (or activate) each line with the Up Line (upln) command. The ...

        30
      • Step3 If the card is a UFM-C, assign logical Frame Relay ports to individual physical lines by u...

        30
      • Step4 If the card is a UFM-U, use the cnfmode command to configure the mode of the card if you d...

        30
      • Step5 For optional Y-cable redundancy, configure the two cards by using the addyred command. For...

        31
      • Step6 Activate the ports using the upfrport command.

        31
      • Step7 Configure the port for DCE or DTE mode, speed, clocking, LMI type, and so on, by using the...

        31
      • Step8 Add connections by using the addcon command. Adding connections requires the slot number, ...

        31
      • Step9 Optionally—for an individual connection—you can configure bandwidth parameters or enable F...

        31
    • Commands for T1/E1 Frame Relay

      31
    • Deleting a Frame Relay Port

      31
  • Setting Up Frame Relay on an FRM

    31
    • Step1 Bring each cable through the opening at the top or bottom of the cabinet (whichever applie...

      32
    • Step2 If needed, use the cable manager to help route the cables.

      32
    • Step3 Secure the cables to the connectors on the cards that mate with the correct front card.

      32
    • Port Mode Selection for V.35 and X.21

      32
      • Step1 If the FRI is already in the node:

        32
      • Step2 To change to DTE, move the jumper board one row of pins away from the FRI faceplate. (See ...

        33
      • Step3 Insert the FRI card and gently slide it in all the way to the rear of the slot.

        33
      • Step4 Insert and tighten the mounting screws.

        33
      • Figure3-15 Setting the Port Mode (DTE/DCE) on an FRI

        33
    • Frame Relay Card Redundancy

      33
    • Setting Up Frame Relay Ports and Connections (FRM)

      34
      • Step1 If not already done, activate the applicable lines with the upln command.

        34
      • Step2 Use the dspcds command to verify that all nodes have the correct FRI back card and FRM fro...

        34
      • Step3 For V.35 and X.21 interfaces, check the mode (DCE or DTE) of each relevant port by using t...

        34
      • Step4 For optional Y-cable redundancy, configure the two slots for redundancy by using addyred.

        34
      • Step5 For T1, E1, and J1 interfaces, bring up the line using the upln command.

        34
      • Step6 For T1, E1, and J1 interfaces, configure the line using the cnfln command.

        34
      • Step7 For T1, E1, and J1 interfaces, add the logical Frame Relay port using the addport command.

        34
      • Step8 For all interface types, activate the port using the upport command.

        34
      • Step9 Configure the port for speed, clocking, LMI type, and so on, by using the cnffrport comman...

        34
      • Step10 Determine which Frame Relay class number to use when you add connections to a port. To se...

        35
      • Step11 Add connections to the port by using the addcon command. Enter the slot number and specif...

        35
      • Step12 For an individual connection, you can configure bandwidth parameters or enable ForeSight ...

        35
      • Step13 Optionally, you can set the channel priority by using the Configure Channel Priority cnfc...

        35
    • Commands for T1/E1 Frame Relay

      35
    • Deleting a Frame Relay Port

      35
      • Step1 Delete any connections on the port with delcon.

        35
      • Step2 Delete the logical port with delfrport.

        35
      • Step3 You can deactivate the logical port with dnfrport.

        35
      • Step4 You can deactivate the physical line with dnln.

        35
  • Making Alarm Relay Output Connections

    35
    • Step1 At the back of the IGX node, identify the slot where the ARI card is to reside.

      35
    • Step2 Install the ARM in the front slot and use the card extractors to help secure card.

      35
    • Step3 Install the ARI in the corresponding back slot. Use the extractor handles to help secure t...

      35
    • Step4 Note that the FAIL LED on the ARM is off. The ACTIVE LED is also off.

      35
    • Step5 Attach a 22- or 24-gauge cable with the appropriate number of pairs to a male DB-37 connec...

      35
    • Step1 Verify that the node is equipped with the proper ARM front card and ARI back card by using...

      35
    • Step2 From a control terminal or a Cisco WAN Manager NMS workstation, to the node and enter the ...

      36
    • Step3 Observe that the ACTIVE LED on the ARM card is on.

      36
    • Step4 Testing the operation of the alarm outputs requires you to create an alarm and note the re...

      36
    • Step5 Create an alarm by disconnecting a trunk cable from the connector on a back card.

      36
    • Step6 Observe that a lit MAJOR LED appears on the front of the ARM.

      36
    • Step7 Using a voltage/ohm meter (VOM), make sure continuity exists between pins 16 and 17 and be...

      36
    • Step8 Reconnect the cable that was disconnected in Step5.

      36
    • Step9 With the VOM, check that the reading between pins 16 and 17 and pins 35 and 36 are open an...

      36
      • Table3-1 ARI Alarm Connector PinOuts

        36
      • Table3-2 Unassigned Connector Pins

        37
• Making External Clock Connections

  37
• Attaching Peripherals

  37
  • Connecting a Single Network Management Station

    37
    • Step1 From the back of the cabinet, run the control terminal EIA/TIA-232/V.24 cable through the ...

      38
    • Step2 Locate the Control Terminal connector on the SCM and attach the control terminal EIA/TIA-2...

      38
    • Figure3-16 Connecting the Control Terminal

      38
      • Step3 Tighten the EIA/TIA-232 connector screws to firmly attach the cable to the ControlTermina...

        38
      • Step4 Plug the control terminal power cord into the appropriate wall receptacle.

        38
      • Step5 Set the port function for VT100 (#5) using the cnftermfunc command.

        38
      • Step6 Make sure the Auxiliary port and the terminal are set to the same baud rate and check the ...

        38
  • LAN Connection for the Network Management Station

    39
    • Figure3-17 LAN Connection to SCM

      39
  • Configuring the LAN Port

    40
    • Step1 Contact a system administrator to obtain IP addresses for the workstation and for the IGX ...

      40
    • Step2 Normally, the system administrator updates the NIS database, as applicable (if an NIS is u...

      40
    • Step3 Configure the LAN port on the IGX node using a dumb terminal or an EIA/TIA-232 connection ...

      40
    • Step4 Connect the Cisco WAN Manager workstation and the IGX node to a LAN network. Examples are ...

      41
    • Step5 To make sure a LAN connection on the IGX LAN port is good, an example hostname of “sanfran...

      41
    • Step6 After the workstation and IGX node interface have been set up, Cisco WAN Manager can be st...

      42
    • Figure3-18 SV+ LAN Connection via Router to an IGX Node

      43
    • Figure3-19 SV+ LAN Connection to an IGX Node (No Gateway)

      43
      • Step7 Switch on the control terminal (or Cisco WAN Manager workstation). Adjust the terminal’s c...

        43
  • Connecting a Network Management Station to Multiple Networks

    43
  • Connecting the Printer

    44
    • Step1 Check the printer EIA/TIA-232/V.24 cabling pinout and, if required, adjust the DIP switche...

      44
    • Step2 At the back of the cabinet, run the printer EIA/TIA-232/V.24 cable through the opening at ...

      44
    • Step3 Locate the AUX port connector on the SCM and attach the printer EIA/TIA-232/V.24 cable to ...

      44
    • Figure3-20 Connecting a Network Printer

      44
      • Step4 Tighten the EIA/TIA-232/V.24 connector screws to firmly attach the cable connector to the ...

        45
      • Step5 Plug the printer power cord into the appropriate wall receptacle.

        45
  • Connecting a Modem

    45
    • Figure3-21 Connecting Modems to an IGX Node

      45
  • Connecting the Power Supply Monitor

    46
• Initial Startup of the IGX

  46
  • Step1 If the IGX node uses AC, make sure the node is connected to the correct AC receptacle. For...

    46
  • Step2 Check the record for the correct switch status for switch W6 on the SCM. See the recommend...

    46
  • Step3 The full complement of cards for the node are mounted in the correct slots, correctly seat...

    46
  • Step4 The T1 cables are attached to the correct BC-T1, BC-UVI-2T1EC, or UFI-8T1 card.

    46
  • Step5 The E1 cables are attached to the correct BC-E1, BC-UVI-2E1EC, or UFI-8E1 card.

    46
  • Step6 The Fractional E1 or T1 connections are attached to the BC-E1 or BC-T1 card connector if t...

    46
  • Step7 The Subrate connections connect to the BC-SR card if the IGX node is providing Subrate E1 ...

    46
  • Step8 E3 cables connect to the correct BC-UAI-1E3 card.

    46
  • Step9 T3 cables connect to the correct BC-UAI-1T3 card.

    46
  • Step10 The data connections are attached to the appropriate SDI/LDI cards.

    46
  • Step11 A control terminal connects to the Control Terminal port on the SCM in back slot 1, or a ...

    46
  • Step12 If specified, a printer connects to the AUX port on the SCM in back slot 1, and the power...

    46
  • Step13 If specified, one or more modems connect to the Control Terminal port or AUX port, as app...

    46
  • Step14 At the back of the unit, turn the circuit breakers to the ON position. In a system using ...

    47
  • Step15 Observe that, after you turn on the IGX node, the cards run diagnostic self-test:

    47
  • Step16 If an alarm exists for a T1 or an E1 line that is physically connected to the IGX node, t...

    47
  • NPM Startup Diagnostic Test

    47
    • Step1 Remove the failed NPM from its slot.

      48
    • Step2 Install the NPM in the same slot again.

      48
    • Step3 Wait for the power-up diagnostic to run.

      48
    • Step4 If the NPM fails the power-up diagnostics again, replace it with a known-good NPM. For car...

      48
  • Card Self Test

    48
  • Inspecting Status Lights

    48
    • Table3-3 Component Status After Power-Up

      48
  • Checking the Power Supplies (AC Systems)

    49
• IGX Configuration Summary

  49
  • Interworking Connections in a Tiered Network

    51
  • Configuring an IGX Switch to Be an Interface Shelf

    51
    • Step1 Activate the trunk between the interface shelf and routing hub. On the CLI, use uptrk. (No...

      51
    • Step2 Configure the trunk for STI cell headers and BPX Addressing Mode (BAM).

      51
    • Step3 Add the IGX/AF to the hub (after the TAC has enabled this feature) by using addshelf. You ...

      51
    • Figure3-22 Add an Interface Shelf from the Hub

      52
  • Adding Connections in a Tiered Network through the CLI

    52
    • Step1 For segment 1:

      52
    • Step2 The network segment:

      52
    • Step3 For segment 2:

      52
  • Converting a Routing Node to an Interface Shelf

    52