Cisco AS5800 Access Server Hardware Installation Guide
Powering On the Access Server

Table Of Contents

Powering On the Cisco AS5800 and Observing Initial Startup Conditions

Powering On the Cisco AS5800

Observing Access Server LEDs

Nominal LED Readings

Dial Shelf Card LEDs

Observing Power-Entry Module LEDs

Observing Dial Shelf Controller Card LEDs

Blower Assembly LEDs

Starting the Cisco 7206

Observing Router Shelf Port Adapter LEDs

Viewing Your System Configuration

Where to Go Next


Powering On the Cisco AS5800 and Observing Initial Startup Conditions


This chapter explains how to power on the Cisco AS5800 and confirm normal system startup LED readings, and then confirm that the proper software is running on the router shelf and dial shelf.

Powering On the Cisco AS5800

After you have installed your dial shelf and router shelf and connected the cables, you are ready to start up the system by powering on the following components:

Dial shelf

AC-input power shelf, if applicable

Router shelf

Before you power on the Cisco AS5800, you might want to prepare a terminal connection to view the software startup sequence. See the "Connecting to the Router Shelf Console and Auxiliary Ports" section for details on setting up a terminal connection. You should also confirm the LED indications as shown in the "Observing Access Server LEDs" section.

To power on the system, follow these steps:


Step 1 Power ON the circuit breakers for the circuits the Cisco AS5800 will use.

Step 2 If you are using the AC-input power shelf, power ON ( | ) the two power switches located on the AC-input power shelf front panel. (See , or for the enhanced power supply.) Four green power OK LEDS should light.

Figure 4-1 AC-Input Power Shelf—Front View

Figure 4-2 Enhanced AC-Input Power Shelf—Front View

Step 3 Power ON ( | ) the power switches located on each dial shelf PEM front panel. (See .) A green power LED on each PEM should light.

Figure 4-3 PEM Power Switches

Step 4 Power ON ( | ) the two power switches located on the rear of the router shelf. (See .) Both green power supply OK LEDs should light.

Figure 4-4 Router Shelf Power Switches—Rear View

Step 5 Listen for fans in both the router shelf and the dial shelf. You should hear them operating immediately.

During the boot process, the LEDs on most of the port adapters in the router shelf and on the dial shelf cards and dial shelf controller cards light on and off in irregular sequence while the system is running initial self-diagnostic tests. On the router shelf I/O controller, the I/O power OK LED comes on immediately.

For a description of normal dial shelf LED states, proceed to the "Observing Access Server LEDs" section. Normal router shelf startup is discussed in the "Starting the Cisco 7206" section. If everything seems to be normal, complete the startup check with a console connection as described in the "Viewing Your System Configuration" section.

Observing Access Server LEDs

This section describes the normal LED states for the following components:

Power-entry modules (PEMs)

Dial shelf controller card

Blower assembly

Dial shelf interconnect port adapter

Nominal LED Readings

provides a quick reference for nominal LED readings for Cisco AS5800 components. If LED readings vary from those listed, refer to the relevant sections for more details.

Table 4-1 AS 5800 Nominal LED Readings

Component
LED
Color/Condition

DC PEM

POWER

Green/on

MISWIRE

Red/off

Dial Shelf Controller Card

PWR

Green/on

MBUS

Green/on

CLOCK

Green/on

MAST

Green/on

DSI

Green/on

Blower assembly

POWER

Green/on

FAIL

Yellow/off

Router shelf port adapter

LINK

Green/on

ENABLED

Green/on


Dial Shelf Card LEDs

LEDs for the individual CT1/CE1 trunk cards, DMM modem cards, and Voice over IP (VoIP) cards are described in the Cisco AS5800 Universal Access Server Dial Shelf Card Guide. Nominal LED readings are briefly listed in .

Table 4-2 Nominal LED Readings for Dial Shelf Cards

Dial Shelf Card
LED
Color/Condition

E1/T1Trunk

Power

Green/on

HCPU

Green/on

FCPU

Green/on

CT3 Trunk

Power

Green/on

HCPU

Green/on

FCPU

Green/on

DMM Modem

Power

Green/on

HCPU

Green/on

Modems

Green/on

VoIP

PWR

Green/on

CPU OK

Green/on

Ports OK

Green/on


Observing Power-Entry Module LEDs

The PEMs contain two LEDs on the front panel—POWER and MISWIRE. (See .)

The power LED should light when the system is powered on. The LED indicates that input voltage is present and the PEM circuit breaker is on.

The miswire LED should remain off, but lights when the two DC conductors entering the PEM terminal block are reversed.

If either of these LEDs functions abnormally, proceed to "."

shows the location of the PEM LEDs.

Figure 4-5 PEM Front Panel LEDs

Observing Dial Shelf Controller Card LEDs

The dial shelf controller card front panel contains several LEDs. Unlike the other dial shelf cards installed in the Cisco 5814 dial shelf, the dial shelf controller card has two power LEDs, one for the dial shelf controller card power and the other for the system MBus power.

shows the dial shelf controller card front panel LEDs, and describes the LED functions.

If the dial shelf controller card LEDs function abnormally, proceed to "."

Figure 4-6 Dial Shelf Controller Card Front Panel LEDs

Table 4-3 Dial Shelf Controller Card Front Panel LEDs  

LED Indicator
Display
Description
Power and Warning LEDs
   

PWR (dial shelf controller power)

Green

Lights when power is ON.

MBUS (system MBus power)

Green

Lights when the dial shelf controller card is supplying +5 VDC to the system MBus.

MAJ (major alarm)

Yellow

Lights to indicate a major1 alarm condition.

MIN (minor alarm)

Yellow

Lights to indicate a minor2 alarm condition.

ACO (alarm cutoff)

Yellow

Lights when the alarm cutoff button has been pressed during a major or minor alarm. Turns off when the original alarm clears or any new alarm occurs.

HIST (history clear)

Yellow

Lights when software recognizes a major or minor alarm situation. LED powers off when the Clear Alarm button is pressed and no alarm condition remains.

Clock and Status LEDs
   

CLK (clock)

Green

Lights to identify the dial shelf controller card active clock; active clock is independent from master dial shelf controller card designation.

MAST (master)

Green

Lights to indicate the system software recognizes the dial shelf controller card is in master mode.

Slot 0

Green

Lights when PCMCIA slot 0 is in use.

Slot 1

Green

Lights when PCMCIA slot 1 is in use.

DSI (dial shelf interconnect)

Green

Lights to indicate a working connection between the dial shelf and router shelf.

10BaseT (Ethernet link)

Green

Lights to indicate a working data transfer link connection between the access server and the system controller.

Liquid Crystal Displays
   

LCDs (upper and lower)

Alphanumeric; 4 characters each

Displays MSTR to indicate master card.

1 A major alarm condition includes router shelf failure, backplane interconnect failure, two-fan failure, power supply failure, dial shelf card failure, or conditional environmental thresholds.

2 A minor alarm condition includes modem SIMM failure, HDLC controller failure, trunk line failure, or conditional environmental thresholds.


Blower Assembly LEDs

Two LEDs—Power and Fault—are mounted on the blower assembly front panel (see ) and function as described in .

Figure 4-7 Blower Assembly—Front View

Table 4-4 Blower Assembly Front Panel LEDs

LED
Color
Description

POWER

Green

Indicates that all three fans are operating normally. If the power LED is off, either the blower assembly is not powered on or a fault has been detected in the blower assembly.

FAIL

Yellow

Remains off during normal operation. If the fault LED is on, one or more fans has failed. This failure could be a complete shutdown of one or more fans, or the blower assembly control card has detected that the speed of one or more fans has exceeded tolerance levels.


If you detect a problem with the blower assembly LEDs, proceed to "."

Starting the Cisco 7206

After installing your Cisco 7206 and connecting the cables, start each router as follows:


Step 1 Check for the following:

Each port adapter is inserted in its slot and its respective port adapter lever is in the locked position.

The network processing engine and the I/O controller are inserted in their slots and their captive installation screws are tightened.

All network interface cables are connected to the port adapters.

A Flash memory card is installed in its PCMCIA slot.

Each power cable is connected and secured with the cable-retention clip.

The console terminal is turned on.

Step 2 At the rear of the router, place the power switch on the power supply in the ON (|) position. Repeat this if a second power supply is installed. The green OK LED on the power supply goes on.

Step 3 Listen for the fans; you should immediately hear them operating. If not, immediately place the power switch on the power supply in the OFF (0) position and proceed to the "Troubleshooting the Router Installation" section.

Step 4 During the boot process, observe the system LEDs. The LEDs on most of the port adapters go on and off in irregular sequence. Some may go on, go out, and go on again for a short time. On the I/O controller, the IO power OK LED comes on immediately.

Step 5 Observe the initialization process. When the system boot is complete (in a few seconds), the network processing engine begins to initialize the port adapters and the I/O controller. During this initialization, the LEDs on each port adapter behave differently (most flash on and off). The enabled LED on each port adapter goes on when initialization is completed, and the console screen displays a script and system banner similar to the following:

Cisco Internetwork Operating System Software 
IOS (tm) 7200 Software (C5800-p4-mz), 12.0(19970915:09303]
Copyright (c) 1986-1999 by cisco Systems, Inc.
Compiled Mon 01-Dec-99 06:00 by ...

Note   If the system does not complete each of the steps in the startup procedure, proceed to the "Troubleshooting the Router Installation" section for troubleshooting recommendations and procedures.


Step 6 When you start up the Cisco 7206 for the first time, the system automatically enters the setup command facility, which determines which port adapters are installed and prompts you for configuration information for each one. On the console terminal, after the system displays the system banner and hardware configuration, you will see the following System Configuration Dialog prompt:

       --- System Configuration Dialog --- 
At any point you may enter a questions mark '?' for help. 
Use ctrl-c to abort configuration dialog at any prompt. 
Default settings are in square brackets '[]'.
Continue with configuration dialog? [yes]:

You have the option of proceeding with the setup command facility to configure the interfaces, or exiting from setup and using configuration commands to configure global (system-wide) and interface-specific parameters. You do not have to configure the interfaces immediately; however, you cannot enable the interfaces or connect them to any networks until you have configured them.

Many of the port adapter LEDs will not go on until you have configured the interfaces. To verify correct operation of each interface, complete the first-time startup procedures and configuration, then refer to the configuration note for each port adapter for LED descriptions and to check the status of the interfaces.

Observing Router Shelf Port Adapter LEDs

The router shelf port adapters contain enabled LEDs, which must be on for the system to be operational. Refer to the Cisco 7206 Installation and Configuration Guide for a description of router shelf port adapter LEDs.

Unique to the Cisco AS5800 is the interconnect port adapter that installs in the router shelf. The dial shelf interconnect contains two LEDs: an enabled LED and a link status LED, shown in . After system initialization, the enabled LED lights to indicate that the dial shelf interconnect has been enabled for operation.

Figure 4-8 Dial Shelf Interconnect Port Adapter Front Panel

The following conditions must be met before the router shelf port adapters and the dial shelf interconnect are enabled:

The dial shelf interconnect port adapter must be correctly connected to the router shelf midplane and receiving power.

A valid Cisco IOS software image for the adapter has been downloaded successfully.

The system recognizes the adapter.

If any of the above conditions are not met, or initialization fails for other reasons, the enabled LED will remain off. Refer to the chapter "," later in this publication, for router shelf LED troubleshooting tips.

Viewing Your System Configuration

When you start up your access server for the first time, the router shelf console displays the Cisco IOS software information that is loaded on your system if you have connected a terminal as described in the "Connecting to the Router Shelf Console and Auxiliary Ports" section. From this startup software banner (see the following example), you can identify the Cisco IOS software release version, other platform images that support system component functionality, and installed internal hardware components.


System Bootstrap, Version 12.0(4)XJ, RELEASED SOFTWARE
Copyright (c) 1994-1999 by Cisco Systems, Inc.
AS5800 processor with 32768 Kbytes of main memory

Restricted Rights Legend

Use, duplication, or disclosure by the Government is
subject to restrictions as set forth in subparagraph
(c) of the Commercial Computer Software - Restricted
Rights clause at FAR sec. 52.227-19 and subparagraph
(c) (1) (ii) of the Rights in Technical Data and Computer
Software clause at DFARS sec. 252.227-7013.
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, California 95134-1706
Cisco Internetwork Operating System Software 
IOS (tm) 7200 Software (C5800-p4-mz), 12.0(19970915:09303]
Copyright (c) 1986-1999 by Cisco Systems, Inc.
Compiled Mon 01-Dec-99 06:00 by 
Imagetext-base: 0x600088C0, data-base: 0x60940000

ROM: System Bootstrap, Version 12.0(4)XJ [dschwart 10], RELEASE SOFTWARE (fc1)

Cisco 7206 (NPE200) processor with 57344K/8192K bytes of memory.
R4700 processor, Implementation 33, Revision 1.0 (512KB Level 2 Cache)
Last reset from power-on
Channelized E1, Version 1.0.
X.25 software, Version 3.0.0.
Primary Rate ISDN software, Version 1.0.
4 Ethernet/IEEE 802.3 interface(s)
1 FastEthernet/IEEE 802.3 interface(s)
31 Serial network interface(s)
72 terminal line(s)
12 Channelized E1/PRI port(s)
1 FE interface(s) for dial shelf to router shelf interconnect
125K bytes of non-volatile configuration memory.
1024K bytes of packet SRAM memory.
16384K bytes of Flash PCMCIA card at slot 0 (Sector size 128K).
4096K bytes of Flash internal SIMM (Sector size 256K).
Configuration register is 0x0

Your Cisco AS5800 should be running the following software:

Cisco IOS Release 12.04 XJ or later

Router shelf image (c5800-p4-mz)

Router shelf boot image (c5800-boot-mz)

Dial shelf controller image (dsc-c5800-mz)

If you find you have a different Cisco IOS software release on the router shelf or dial shelf, reload the correct software version. If you need to reload the software, refer to the Cisco AS5800 Software Installation and Configuration Guide that shipped with your Cisco AS5800. The Cisco AS5800 Universal Access Server Software Installation and Configuration Guide will be replaced by the Cisco AS5800 Universal Access Server Operation, Administration, Maintenance, and Provisioning Guide, available later this year.

If you established a terminal connection after initial startup, you can verify that the correct software is loaded by issuing the following commands at the terminal:


Step 1 Enter the username and password:

User Access Verification

Username: admin
Password: 

Step 2 Enter enable mode:

5800> enable
Password: 

Step 3 View the router Cisco IOS release, dial shelf controller image, and boot image:

5800# sh ver
Cisco Internetwork Operating System Software 
IOS (tm) 5800 Software (C5800-P4-M), Version 12.0(4)XJ 
TAC:Home:SW:IOS:Specials for info
Copyright (c) 1986-1999 by Cisco Systems, Inc.
Compiled Thu 12-Aug-99 13:16 by ayeh
Image text-base: 0x60008900, data-base: 0x611A6000

ROM: System Bootstrap, Version 12.0(19990210:195103) [12.0XJ 105]
BOOTFLASH: 7200 Software (C7200-BOOT-M), Version 12.0(4)XJ

nas-5800-01 uptime is 22 minutes
System returned to ROM by power-on
System image file is "slot0:c5800-p4-mz.120-4.XJ1.bin"

Cisco 7206VXR (NPE300) processor with 253952K/40960K bytes of memory.
R7000 CPU at 262Mhz, Implementation 39, Rev 1.0, 256KB L2, 2048KB L3 Cache
6 slot VXR midplane, Version 2.0

Last reset from power-on
X.25 software, Version 3.0.0.
Bridging software.
SuperLAT software (copyright 1990 by Meridian Technology Corp).
Primary Rate ISDN software, Version 1.1.
8 Ethernet/IEEE 802.3 interface(s)
1 FastEthernet/IEEE 802.3 interface(s)
52 Serial network interface(s)
288 terminal line(s)
12 Channelized T1/PRI port(s)
96 DSP(s), 192 Voice resource(s)
125K bytes of non-volatile configuration memory.

16384K bytes of Flash PCMCIA card at slot 0 (Sector size 128K).
4096K bytes of Flash internal SIMM (Sector size 256K).
Configuration register is 0x102

5800#sh dial-shelf
Slot    Board     CPU       DRAM          I/O Memory   State         Elapsed
         Type     Util    Total (free)   Total (free)                Time
 0        CT1                  0(  0%)        0(  0%)  Resetting     00:03:20
 2 Modem(DMM)    0%/0%  46764800( 86%) 16777216( 74%)  Up            00:21:13
 3 Modem(DMM)    0%/0%  46764800( 86%) 16777216( 74%)  Up            00:21:13
 4      Voice    0%/0%  46764800( 91%) 16777216( 71%)  Up            00:21:12
12        DSC    0%/0%  19097792( 79%)  8388608( 66%)  Up            00:22:28
Dial shelf set for auto boot

Step 4 View the dial shelf controller image (must match the one listed on the router).

5800#execute-on slot 12 show ver

DA-Slot12>
Cisco Internetwork Operating System Software 
IOS (tm) 5800 Software (C5800-DSC-M), Version 12.0(4)XJ 
TAC:Home:SW:IOS:Specials for info
Copyright (c) 1986-1999 by Cisco Systems, Inc.
Compiled Thu 12-Aug-99 18:48 by ayeh
Image text-base: 0x600088F0, data-base: 0x60520000

ROM: System Bootstrap, Version 12.0(4)XJ SOFTWARE (fc)
ROM: 5800 Software (C5800-DSC-M), Version 12.0(4)XJ 
DA-Slot12 uptime is 24 minutes
System returned to ROM by power-on
System image file is "slot0:dsc-c5800-mz.120-4.XJ1.bin"

Cisco c5800 (R4K) processor with 24576K/8192K bytes of memory.
R4700 CPU at 150Mhz, Implementation 33, Rev 1.0, 512KB L2 Cache
Last reset from power-on
1 Ethernet/IEEE 802.3 interface(s)
2 Dial Shelf Interconnect(DSI) FE interface(s)
123K bytes of non-volatile configuration memory.
8192K bytes of Flash PCMCIA card at slot 0 (Sector size 128K).
4096K bytes of Flash internal SIMM (Sector size 256K).
Configuration register is 0x2102

Refer to the Cisco AS5800 Universal Access Server Software Installation and Configuration Guide that shipped with your system for additional software configuration information. The Cisco AS5800 Universal Access Server Software Installation and Configuration Guide will be replaced by the Cisco AS5800 Universal Access Server Operation, Administration, Maintenance, and Provisioning Guide, available later this year.

Where to Go Next

Your access server is now installed, and all components are operative. When you power ON the access server for the first time, messages appear on your console screen. When the initialization process is complete, the console screen displays a script and system banner. At this point, you can begin to configure the software. The software configuration information is contained in the Cisco AS5800 Universal Access Server Software Installation and Configuration Guide. Proceed to this publication for information on how to run the initial setup script and create a basic configuration.The Cisco AS5800 Universal Access Server Software Installation and Configuration Guide will be replaced by the Cisco AS5800 Universal Access Server Operation, Administration, Maintenance, and Provisioning Guide, available later this year. The Cisco AS5800 Universal Access Server Operations, Administration, Maintenance, and Provisioning Guide provides information needed for ongoing hardware and software maintenance and operation tasks.

The remainder of this document includes reference material for troubleshooting your system and Cisco AS5800 specifications.