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This chapter provides instructions for preparing the site for one or more Cisco 6160 digital subscriber line (DSL) access concentrators, and for unpacking, installing, and setting up the Cisco 6160.
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Note Before you install the Cisco 6160, you might find it helpful to read "Product Overview." That chapter contains a system overview along with functional and physical descriptions of Cisco 6160 hardware components. |
This chapter covers the following topics. Ensure that the installation follows this sequence:
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Warning For translations of the safety warnings in this chapter, see "Translated Safety Warnings." |
This section describes requirements for the site in which the Cisco 6160 system will be installed. Before you install the Cisco 6160 system, ensure that all the criteria in this section are fully satisfied.
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Warning Only trained and qualified personnel should be allowed to install or replace this equipment. |
The Cisco 6160 system connects to one or two -48 VDC inputs, plus frame ground.
A readily accessible disconnect device must be incorporated into the fixed wiring for the site.
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Warning Only a DC power source that is isolated from AC mains with reinforced insulation, and that complies with the other safety extra-low voltage (SELV) requirements in UL1950, CSA 950 3rd Edition, EN 60950, and IEC950, can be connected to a Cisco 6160 system. This requirement ensures that in a catastrophic power source fault condition, hazardous voltages are not present on power terminals and connectors. |
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Warning Use copper conductors only. |
The Cisco 6160 fans maintain a suitable operating temperature for the internal circuitry. Ensure that the air intake vents at the lower front of the chassis and the air exhaust vents on the top of the chassis are not obstructed in any way.
Proper operation depends upon proper environment. Cisco recommends an ambient temperature between 41° and 104° F (5° to 40° C), and humidity between 5 percent and 90 percent noncondensing. (The system can tolerate a wider range of temperatures for short periods.) For complete environmental requirements for the Cisco 6160, see the "System Specifications and Compliances" section.
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Warning To prevent a Cisco 6160 system from overheating, do not operate it in an area that exceeds the maximum recommended ambient temperature of 104° F (40° C). |
We strongly recommend that you mount the Cisco 6160 in an equipment rack. Using hardware supplied with the chassis, the chassis can be installed in any ETSI 600-mm-wide (23-inch-wide) rack or cabinet.
Vertical hole spacing on the rack rails should meet standard EIA-310-C or ETS300 requirements for 1-inch (2.5 cm) spacing.
Installing Multiple Cisco 6160 Chassis in an Equipment Rack
You can install multiple Cisco 6160 chassis within a telco equipment rack. A standard seven-foot equipment rack can house four Cisco 6160 chassis, stacked one on top of another. This configuration maximizes the DSL density within a seven-foot rack. However, if space is available or if you are interested in using multiservice capabilities that the chassis will support in the future, Cisco recommends that you install no more than three Cisco 6160 chassis within a seven-foot rack. Leave a space of at least 2.5 rack units (4.375 inches, or 11.1 cm) beneath each chassis for future cable management use.
The Cisco 6160 system is shipped assembled in a cardboard box. Follow these steps when you remove the unit from the container.
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Caution Static voltages as low as 30V can cause latent damage to circuitry. Be sure to observe all standard antistatic procedures when you handle this equipment. (For example, wear a grounding strap.) |
Step 2 Carefully remove the chassis from the container.
Step 3 Open the boxes that contain the cables and documentation. (Do not use a knife to open these boxes.)
Step 4 Before proceeding with the installation, carefully examine all assemblies, cards, and cables.
Step 5 Check the packing list to verify receipt of all components. Contact Cisco to report any discrepancies.
Install the Cisco 6160 in compliance with local electrical codes that apply to your site, and with the following national electrical codes:
Review the safety warnings contained in "Translated Safety Warnings."
Using the mounting hardware provided, mount the Cisco 6160 in a rack or cabinet.
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Warning Two people are required to lift a fully configured chassis. Grasp the bottom of the chassis and lift with both hands. To prevent injury, keep your back straight and lift with your legs, not your back. To prevent damage to the chassis and components, never attempt to lift the chassis by the handles on the front of the chassis. These handles were not designed to support the weight of the chassis. |
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Warning To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety: -This unit should be mounted at the bottom of the rack if it is the only unit in the rack. -When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack. -If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit in the rack. |
Cisco provides "ear" brackets with the Cisco 6160. These brackets are designed to support the weight of the chassis in the rack. The two long, L-shaped ear brackets are installed on the sides of the chassis in the factory. Each bracket is held on with four screws.
In addition, you must provide
Follow these steps to mount a Cisco 6160 chassis in an equipment rack:
Step 2 Use a Phillips screwdriver to remove the following components from the chassis so it will be light enough to lift:
Step 3 Test the weight of the chassis. If it is still too heavy for one person to lift comfortably, use the flat-blade screwdriver to remove the NI-2 and line cards.
Step 4 Check the ear brackets on the sides of the chassis, and if necessary reinstall them. Ear brackets can be installed in two ways:
Step 5 Carefully lift the chassis from the bottom and place it in position in the rack.
Step 6 While your assistant holds the chassis in the rack, screw the ear brackets to the rack, using two screws at the top of each ear bracket and two at the bottom (four screws per bracket). The ear brackets have both round holes and oval slots; for stability, make sure to use at least one round hole at each end of each bracket.
Step 7 Replace all the components that you removed from the chassis to lighten it.
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Caution Read the installation instructions before you connect the system to its power source. |
Connect a VT100-compatible terminal to the system console port on the NI-2 card. Connect the terminal to a power source and set it up using the values shown in Table 2-1.
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Warning The ports labeled "ENET," "CNSL," and "AUX" are safety extra-low voltage (SELV) circuits. SELV circuits should be connected only to other SELV circuits. Because the DSL circuits are treated like telephone-network voltage, avoid connecting the SELV circuit to the telephone network voltage (TNV) circuits. |
Baud rate | 9600 (transmit and receive) |
Character size | 8 bits |
Parity | None |
Stop bits | 1 |
Xon/Xoff | Hardware busy |
Follow the steps given here to connect a Cisco 6160 chassis to system ground. The system ground connection point is on the side of the chassis. Complete this procedure before you connect system power.
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Warning Before connecting or disconnecting ground or power wires to the chassis, ensure that power is removed from the DC circuit. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position. Use a voltmeter to test for 0 (zero) voltage at the power terminals on the chassis. |
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Warning Do not work on the system or connect or disconnect cables during periods of lightning activity. |
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Warning This equipment is intended to be grounded. Ensure that the host is connected to earth ground during normal use. |
Have the following items on hand before you begin the grounding procedure. Except where noted, these items are not provided with the chassis.
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Warning When you are installing or replacing the unit, the ground connection must always be made first and disconnected last. |
To ensure adequate earth ground for the system, perform these steps to attach the grounding wire to the grounding receptacle on the Cisco 6160:
Step 2 Use a wire stripping tool to remove the covering from the end of the grounding wire. The manufacturer of the grounding lug might have a specific recommendation on the length of wire to be stripped.
Step 3 Insert the stripped end of the grounding wire into the open end of the grounding lug. Be careful not to leave any wire strands outside the lug.
Step 4 Use the crimping tool to compress the lug onto the wire.
Step 5 To verify the quality of the crimp, inspect it and tug gently on the wire.
Step 6 Locate the three grounding holes on the Cisco 6160 side panel. (See Figure 2-3.)
Step 7 Match the holes in the grounding lug to the appropriately spaced pair of grounding holes on the side of the chassis. Use the top two holes for a 5/8-inch lug, as shown in Figure 2-3. Use the bottom two holes for a 3/4-inch lug.
Step 8 Insert the screws through the holes in the lug and the chassis. Use the Phillips screwdriver to tighten the screws and secure the grounding lug firmly to the chassis.
Step 9 Prepare the other end of the grounding wire and connect it to an appropriate grounding point in your site.
This procedure tells you how to connect the Cisco 6160 system to a -48 VDC power source. Before attempting this procedure, connect the chassis to earth ground as described in the previous section.
The power connectors are receptacles in terminal blocks located on the back of the chassis, behind each PEM. A separate DC ground connects to each power terminal block. For full power redundancy, each terminal block must be connected to a separate power source. If you do not require power redundancy, you can wire a single terminal block, or connect both terminal blocks to a single power source.
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Warning Only a DC power source that is isolated from AC mains with reinforced insulation, and that complies with the other safety extra-low voltage (SELV) requirements in UL1950, CSA 950 3rd Edition, EN 60950, and IEC950, can be connected to a Cisco 6160 system. This requirement assures that in a catastrophic power source fault condition, hazardous voltages are not present on power terminals and connectors. |
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Warning Use copper conductors only. |
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Warning Before connecting or disconnecting ground or power wires to the chassis, ensure that power is removed from the DC circuit. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position. Use a voltmeter to test for 0 (zero) voltage at the power terminals on the chassis. |
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Warning Before working on equipment that is connected to power lines, remove your jewelry (including rings, necklaces, and watches). Metal objects will heat up when connected to power and ground and can cause serious burns or become welded to the terminals. |
Have the following items on hand before you begin connecting power:
| Conductor size | 6 AWG to 8 AWG (6 AWG recommended) |
| Construction | Multistranded copper |
To prepare the power leads for the Cisco 6160, you must strip a precise amount of insulation from the end of each lead and connect the leads to their power source.
Step 2 Measure 1/4 inch (7 mm) up from the end of each power and ground wire and place a mark at that point. These are the wire ends that will be connected to the Cisco 6160.
Step 3 Use the wire stripping tool to remove 1/4 inch (7 mm) of the covering from the end of each wire. Trim the end of the covering so that it is straight, as shown in Figure 2-4, not slanted.
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Warning Remove the covering from exactly the specified length of each wire. If you strip too much of the covering, exposed wire protruding from the terminal block will create an electrical hazard. If you strip too little of the covering, the wire might not make a good contact with the terminal, or it might not be held securely in place in the terminal block. |
Step 4 Prepare the other end of each wire to be connected to a DC power source, according to the requirements of your site.
Step 5 Connect the power and ground wires to the DC power source or sources.
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Warning When you are installing the unit, the ground connection must always be made first and disconnected last. |
To attach the grounding wire to the grounding receptacle on the Cisco 6160, perform these steps:
Step 2 Identify the correct power terminal block. There are four terminal blocks on the back of the chassis---a large one and a small one behind each PEM. (See Figure 2-5.) Use the larger terminal blocks for power and ground connections. If your system has only one PEM, you must use the large terminal block that is directly behind that PEM.
Step 3 Turn all three screws on the power terminal block counterclockwise to open the terminal connectors. This step ensures that the correct opening is presented for the wires. See Figure 2-6.
Step 4 Insert the end of the grounding wire into the grounding receptacle, which is the bottom receptacle in the terminal block (see Figure 2-7). The stripped part of the wire must be fully inserted into the terminal block, so that no bare wire is exposed.
Step 5 Ensure that no wire strands are left outside the connector.
Step 6 Use the screwdriver to tighten the ground screw in the terminal block to a torque of 10 inch-pounds. Eighteen inch-pounds is the destructive torque. (Tighten in a clockwise direction.) Pull on the wire to ensure that it is held firmly in place.
Step 7 Make sure that the other end of the grounding wire is connected to ground at the DC power source.
Step 8 If you are connecting two power sources to the Cisco 6160 system, repeat this procedure for the second power terminal block.
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Warning Only a DC power source that is isolated from AC mains with reinforced insulation, and that complies with the other safety extra-low voltage (SELV) requirements in UL1950, CSA 950 3rd Edition, EN 60950, and IEC950, can be connected to a Cisco 6160 system. This requirement ensures that in a catastrophic power source fault condition, hazardous voltages are not present on power terminals and connectors. |
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Warning This unit might have more than one power supply connection; all connections must be removed completely to completely remove power from the unit. |
Follow these steps to connect power to the system. Refer to Figure 2-8.
Step 2 Turn the + and - screws on the terminal block counterclockwise to open the terminal connectors. This step ensures that the correct opening is presented for the wires. See Figure 2-6.
Step 3 Insert the battery return wire from the first external power source into the receptacle labeled + (positive) on the first terminal block. The stripped part of the wire must be fully inserted, so that no bare wire is exposed. Use the screwdriver to tighten the terminal screw to a torque of 10 inch-pounds. Eighteen inch-pounds is the destructive torque. (Tighten the screws clockwise.)
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Warning The illustration shows the DC power supply terminal block. Wire the DC power supply as illustrated. The proper wiring sequence is ground to ground, positive to positive, and negative to negative. The ground wire must always be connected first and disconnected last. |
Step 4 Insert the power lead from the first battery -48V power source into the receptacle labeled - (negative) on the first terminal block. The stripped part of the wire must be fully inserted, so that no bare wire is exposed. Use the screwdriver to tighten the terminal screw to a torque of 10 inch-pounds. Eighteen inch-pounds is the destructive torque. (Tighten the screws clockwise.)
Step 5 If you are connecting a second power source, repeat Step 3 and Step 4 to wire the second terminal block.
Step 6 If you want to tie down the power and ground wires, thread tie wraps through the small cutouts in the side of the chassis next to each terminal block. Then use the tie wraps to tie down the wires.
Step 7 Turn on power to the DC circuit.
Step 8 Use a voltmeter to check the voltage at the terminal block screw heads. Connect the voltmeter's positive contact to the positive (+) terminal on the Cisco 6160 terminal block. Connect the voltmeter's negative contact to the negative (-) terminal on the Cisco 6160 terminal block. If the power is wired correctly, you will see a reading of +48V on the voltmeter.
Step 9 Install the PEM(s) now if you have not done so previously.
Step 10 At the front of the chassis, flip the circuit breakers on both PEMs to 1 (on).
If the power is properly connected, a green LED labeled "Input OK" on the front of each PEM lights up. The green LED indicates that the PEM is making power available to the chassis. You will also hear the blowers start to turn. A slight delay in blower startup is normal.
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Note The LED might flash red for a moment before it illuminates green. This is normal as the PEM fans speed up. |
This section tells you how to connect subscriber/POTs lines, trunk lines, and, optionally, subtending lines to the Cisco 6160.
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TimeSaver Cisco recommends that you label each data cable at both ends to identify its destination. |
Connect both the 10BaseT RJ-45 port on the NI-2 and the Sun SPARC station running the CDM management application to an Ethernet so that the Cisco 6160 and the management station can communicate. Figure 2-9 shows where to connect the Ethernet cable.
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Warning The ports labeled "ENET," "CNSL," and "AUX" are safety extra-low voltage (SELV) circuits. SELV circuits should be connected only to other SELV circuits. Because the DSL circuits are treated like telephone-network voltage, avoid connecting the SELV circuit to the telephone network voltage (TNV) circuits. |
Connect a terminal, a modem, or another serial device to the RJ-45 auxiliary port on the NI-2. (This step is optional.) Figure 2-10 shows where to connect the auxiliary cable.
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Warning The ports labeled "ENET," "CNSL," and "AUX" are safety extra-low voltage (SELV) circuits. SELV circuits should be connected only to other SELV circuits. Because the DSL circuits are treated like telephone-network voltage, avoid connecting the SELV circuit to the telephone network voltage (TNV) circuits. |
Connect a DS3 or OC-3c WAN trunk to the Cisco 6160. The OC-3c connectors are on the NI-2 card. The DS3 connectors are on the I/O card on the back of the chassis. (If this chassis is subtended, the trunk connection goes to another Cisco 6160.) Figure 2-11 shows where to attach an OC-3c trunk cable to the NI-2 card. Figure 2-12 shows where to attach DS3 trunk cables to the I/O card.
Connect one subtended Cisco 6160 to the subtending interfaces on the NI-2 (OC-3c interfaces), or connect one or two subtended Cisco 6160s to the subtending interfaces on the I/O card (DS3 interfaces). Figure 2-13 shows where to attach an OC-3c subtending cable to the NI-2 card. Figure 2-14 shows where to attach DS3 subtending cables to the I/O card. (Connecting subtended nodes is optional.)
Connect an external alarm device and/or a building-integrated timing source (BITS) clock to the wire wrap connector on the I/O card on the back of the chassis. (This step is optional.) See "Pin Assignments," for information on alarm relay and BITS wiring. Figure 2-15 shows the wire wrap connector on the I/O card.
Connect the small green terminal block behind each PEM to a visual or audible external alarm device if you want to generate an alarm when the circuit breaker on the PEM is tripped by a power fault. (This step is optional.) See "Pin Assignments," for information on circuit breaker alarm relay wiring. Figure 2-16 shows the terminal blocks for the circuit breaker alarm.
Connect the eleven RJ-21 Champ subscriber connectors on the back of the chassis to the POTS splitter (if the line is for both voice and data) or to the subscriber loop (if the line is for data only). Consult the documentation for your POTS splitter for information on its data cabling requirements. Figure 2-17 shows where to attach UTP cables to the Cisco 6160 chassis.
You have completed the hardware portion of the installation process. Cover any empty card or PEM slots with blank faceplates, and make sure the perforated bezel covering the air filter is in place.
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Warning Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous voltages and currents inside the chassis; they contain electromagnetic interference (EMI) that might disrupt other equipment; and they direct the flow of cooling air through the chassis. Do not operate the system unless all cards, faceplates, and covers are in place. |
When you turn on the Cisco 6160 for the first time, an interactive dialog called the System Configuration Dialog appears on the console screen. The System Configuration Dialog guides you through the initial configuration process. (You can run the dialog at any time by entering the setup command in privileged EXEC mode.)
When you complete the dialog, the system displays the configuration command script that you have created. It then offers you three options:
[0] Go to the IOS command prompt without saving this config. [1] Return back to the setup without saving this config. [2] Save this configuration to nvram and exit.
If you enter 2, the configuration is saved and used. If you answer 0 or 1, the configuration you created is not saved. Enter 1 if you wish to discard the configuration and restart the System Configuration Dialog.
Take these steps before you run the System Configuration Dialog:
Step 2 If you plan to configure inband management, also determine the IP address for the ATM interface that will be used for inband management (ATM0/0).
Step 3 Find out what the password strategy is for your environment. The System Configuration Dialog prompts you for three passwords, plus an SNMP community string. The three types of password required are enable secret, enable, and virtual terminal.
Step 4 Choose a name for the Cisco 6160. (This step is optional.)
When you power up a Cisco 6160 for the first time, you are offered the option of running the System Configuration Dialog. The System Configuration Dialog offers two configuration options: basic management setup and extended setup.
An example of the use of each option follows the "Interface Numbering" section, below. In each example, an arrow marks the point in the dialog where basic management setup and extended setup diverge.
The System Configuration Dialog and the command line interface use the following interface numbering scheme:
For line card interfaces, the number before the slash indicates the slot number. The number after the slash indicates the interface or port number. For example, ATM6/4 is port 4 in slot 6.
This is the basic management setup example:
--- System Configuration Dialog ---
Would you like to enter the initial configuration dialog? [yes/no]: y
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
Basic management setup configures only enough connectivity
for management of the system, extended setup will ask you
to configure each interface on the system
Would you like to enter basic management setup? [yes/no]: y
Configuring global parameters:
Enter host name [DSLAM]:
The enable secret is a password used to protect access to
privileged EXEC and configuration modes. This password, after
entered, becomes encrypted in the configuration.
Enter enable secret: beansoup
The enable password is used when you do not specify an
enable secret password, with some older software versions, and
some boot images.
Enter enable password: beansoup
% Please choose a password that is different from the enable secret
Enter enable password: lab1
The virtual terminal password is used to protect
access to the router over a network interface.
Enter virtual terminal password:
% No defaulting allowed
Enter virtual terminal password: lab
Configure SNMP Network Management? [yes]: y
Community string [public]:
Current interface summary
Any interface listed with OK? value "NO" does not have a valid configuration
Interface IP-Address OK? Method Status Protocol
ATM0/0 unassigned NO unset up up
Ethernet0/0 unassigned NO unset up up
ATM0/1 unassigned NO unset down down
ATM0/2 unassigned NO unset down down
Enter interface name used to connect to the
management network from the above interface summary: Ethernet0/0
Configuring interface Ethernet0/0:
Configure IP on this interface? [yes]: y
IP address for this interface: 172.27.144.141
Subnet mask for this interface [255.255.0.0] :
Class B network is 172.27.0.0, 16 subnet bits; mask is /16
The following configuration command script was created:
hostname DSLAM
enable secret 5 $1$pR/1$0zH7ohDaUKNML3SC2.RF5.
enable password lab1
line vty 0 4
password lab
snmp-server community public
!
no ip routing
!
interface ATM0/0
no ip address
!
interface Ethernet0/0
no shutdown
ip address 172.27.144.141 255.255.0.0
!
interface ATM0/1
shutdown
no ip address
!
interface ATM0/2
shutdown
no ip address
!
end
[0] Go to the IOS command prompt without saving this config.
[1] Return back to the setup without saving this config.
[2] Save this configuration to nvram and exit.
Enter your selection [2]: 2
% Shutdown not allowed for ATM0/0.
Building configuration...
Use the enabled mode 'configure' command to modify this configuration.
Press RETURN to get started!
This is the extended setup example:
--- System Configuration Dialog ---
Continue with configuration dialog? [yes/no]: yes
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
Basic management setup configures only enough connectivity
for management of the system, extended setup will ask you
to configure each interface on the system
Would you like to enter basic management setup? [yes/no]: no
First, would you like to see the current interface summary? [yes]: yes
Interface IP-Address OK? Method Status Protocol
ATM0/0 70.0.0.2 YES NVRAM up up
Ethernet0/0 172.27.32.156 YES NVRAM up up
ATM0/1 unassigned YES unset down down
ATM0/2 unassigned YES unset administratively down down
ATM18/0 unassigned YES unset initializing down
ATM18/1 unassigned YES unset initializing down
ATM18/2 unassigned YES unset initializing down
ATM18/3 unassigned YES unset initializing down
ATM21/0 unassigned YES unset administratively down down
ATM21/1 unassigned YES unset administratively down down
ATM21/2 unassigned YES unset administratively down down
ATM21/3 unassigned YES unset administratively down down
ATM26/0 unassigned YES unset down down
ATM26/1 unassigned YES unset down down
ATM26/2 unassigned YES unset down down
ATM26/3 unassigned YES unset down down
Configuring global parameters:
Enter host name [DSLAM]: sw-ni2-2
The enable secret is a password used to protect access to
privileged EXEC and configuration modes. This password, after
entered, becomes encrypted in the configuration.
Enter enable secret: lqb
The enable password is used when you do not specify an
enable secret password, with some older software versions, and
some boot images.
Enter enable password [lab]: lab
The virtual terminal password is used to protect
access to the router over a network interface.
Enter virtual terminal password [lab]:
Configure SNMP Network Management? [no]:
Configure IP? [yes]:
Configure IGRP routing? [yes]: no
Configuring interface parameters:
Do you want to configure ATM0/0 interface? [yes]:
Configure IP on this interface? [yes]:
IP address for this interface [70.0.0.2]:
Subnet mask for this interface [255.0.0.0] :
Class A network is 70.0.0.0, 8 subnet bits; mask is /8
Do you want to configure Ethernet0/0 interface? [yes]:
Configure IP on this interface? [yes]:
IP address for this interface [172.27.32.156]:
Subnet mask for this interface [255.255.0.0] :
Class B network is 172.27.0.0, 16 subnet bits; mask is /16
Do you want to configure ATM0/1 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM0/2 interface? [no]:
Do you want to configure ATM18/0 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM18/1 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM18/2 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM18/3 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM21/0 interface? [no]:
Do you want to configure ATM21/1 interface? [no]:
Do you want to configure ATM21/2 interface? [no]:
Do you want to configure ATM21/3 interface? [no]:
Do you want to configure ATM26/0 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM26/1 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM26/2 interface? [yes]:
Configure IP on this interface? [no]:
Do you want to configure ATM26/3 interface? [yes]:
Configure IP on this interface? [no]:
The following configuration command script was created:
hostname sw-ni2-2
enable secret 5 $1$12Lo$vGKa1wlRcNyw06j1bgGQd0
enable password lab
line vty 0 4
password lab
no snmp-server
!
ip routing
!
interface ATM0/0
ip address 70.0.0.2 255.0.0.0
!
interface Ethernet0/0
ip address 172.27.32.156 255.255.0.0
!
interface ATM0/1
no ip address
!
interface ATM0/2
shutdown
no ip address
!
interface ATM18/0
no ip address
!
interface ATM18/1
no ip address
!
interface ATM18/2
no ip address
!
interface ATM18/3
no ip address
!
interface ATM21/0
shutdown
no ip address
!
interface ATM21/1
shutdown
no ip address
!
interface ATM21/2
shutdown
no ip address
!
interface ATM21/3
shutdown
no ip address
!
interface ATM26/0
no ip address
!
interface ATM26/1
no ip address
!
interface ATM26/2
no ip address
!
interface ATM26/3
no ip address
!
end
[0] Go to the IOS command prompt without saving this config.
[1] Return back to the setup without saving this config.
[2] Save this configuration to nvram and exit.
Enter your selection [2]:2
Building configuration...
Use the enabled mode 'configure' command to modify this configuration.
Press RETURN to get started!
You have completed the installation process for the Cisco 6160.
Posted: Thu Jul 6 14:52:48 PDT 2000
Copyright 1989-2000©Cisco Systems Inc.