19k6113

19k6113
Hardware Maintenance Manual
xSeries 340 Model 6RY
IBM
Hardware Maintenance Manual
xSeries 340 Model 6RY
IBM
Note:
Before using this information and the product it supports, be sure to read the general information under
“Notices” on page 177.
Second Edition (November 2000)
The following paragraph does not apply to the United Kingdom or any country were such provisions are inconsistant
with local law:
INTERNATIONAL BUSINESS MACHINES CORPORATION PROVIDES THIS PUBLICATION "AS IS" WITHOUT
WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Some states do not allow
disclaimer of express or implied warranties in certain transactions, therefore, this statement may not apply to you.
This publication could include technical inaccuracies or typographical errors. Changes are periodically made to the
information herein; these changes will be incorporated in new editions of the publication. IBM may make improvements
and/or changes in the product(s) and/or the program(s) described in this publication at any time.
This publication was developed for products and services offered in the United States of America. IBM may not offer the
products, services, or features discussed in this document in other countries, and the information is subject to change
without notice. Consult your local IBM representative for information on the products, services, and features available in
your area.
Requests for technical information about IBM products should be made to your IBM reseller or IBM marketing
representative.
© Copyright International Business Machines Corporation 2000. All rights reserved.
US Government Users Restricted Rights – Use, duplication or disclosure restricted by GSA ADP Schedule Contract with
IBM Corp.
About this manual
This manual contains diagnostic information, a Symptom-to-FRU index, service
information, error codes, error messages, and configuration information for the IBM®
xSeries 340.
Important: This manual is intended for trained servicers who are familiar with IBM
PC Server products.
Important safety information
Be sure to read all caution and danger statements in this book before performing any
of the instructions.
Leia todas as instruções de cuidado e perigo antes de executar qualquer operação.
© Copyright IBM Corp. 2000
iii
Prenez connaissance de toutes les consignes de type Attention et
Danger avant de procéder aux opérations décrites par les instructions.
Lesen Sie alle Sicherheitshinweise, bevor Sie eine Anweisung ausführen.
Accertarsi di leggere tutti gli avvisi di attenzione e di pericolo prima di effettuare
qualsiasi operazione.
Lea atentamente todas las declaraciones de precaución y peligro ante de llevar a cabo
cualquier operación.
Online support
Use the World Wide Web (WWW) to download Diagnostic, BIOS Flash, and Device
Driver files, and documents.
The web address is:
http://www.ibm.com/pc/support
iv
Hardware Maintenance Manual: xSeries 340 Model 6RY
Contents
About this manual . . . . . . . . . . . . . . . . . . . iii
Important safety information . . . . . . . . . . . . . . . . . . . . . . iii
Online support. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iv
General checkout. . . . . . . . . . . . . . . . . . . . . 1
General information. . . . . . . . . . . . . . . . . . . 3
Features and specifications . . . . . . . . . . . . . . . . . . . . . . . . 3
Server features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Reliability, availability, and serviceability features . . . . 6
Controls and indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Operator information panel. . . . . . . . . . . . . . . . . . . . . . . 10
Diagnostics. . . . . . . . . . . . . . . . . . . . . . . . . 11
Diagnostic tools overview . . . . . . . . . . . . . . . . . . . . . . . . 11
Identifying problems using LEDs . . . . . . . . . . . . . . . . . . 11
Power supply LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Light path diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . 11
Diagnostics panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Light path diagnostics table . . . . . . . . . . . . . . . . . . . . 12
POST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
POST error messages . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Event/error logs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Small computer system interface messages . . . . . . . . . 13
Diagnostic programs and error messages . . . . . . . . . . . 13
Text messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Starting the diagnostic programs . . . . . . . . . . . . . . . 14
Viewing the test log . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Diagnostic error message tables . . . . . . . . . . . . . . . . 15
Recovering BIOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Troubleshooting the Ethernet controller . . . . . . . . . . . . 16
Network connection problems. . . . . . . . . . . . . . . . . . 16
Ethernet controller troubleshooting chart . . . . . . . . 17
Ethernet controller messages . . . . . . . . . . . . . . . . . . . . . . 19
Novell NetWare or IntraNetWare server ODI driver
messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Network driver interface specification 2.01 (OS/2)
driver messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
NDIS 4.0 (Windows NT) driver messages . . . . . . . . 23
UNIX messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Power checkout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Replacing the battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Temperature checkout . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Configuring the server . . . . . . . . . . . . . . . 29
Using the Configuration/Setup Utility program . . . . . 29
Starting the Configuration/Setup Utility program 29
Choices available from the Configuration/Setup main
menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Using passwords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Power-on password . . . . . . . . . . . . . . . . . . . . . . . . 33
Administrator password . . . . . . . . . . . . . . . . . . . . 35
Using the SCSISelect utility program . . . . . . . . . . . . . . . 35
Starting the SCSISelect utility program . . . . . . . . . . 35
Choices available from the SCSISelect menu . . . . . 36
Installing options . . . . . . . . . . . . . . . . . . . . 39
Exploded view of the xSeries 340 server . . . . . . . . . . . . 39
System board layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
© Copyright IBM Corp. 2000
System board options connectors . . . . . . . . . . . . . . . 40
System board internal cable connectors . . . . . . . . . . 41
System board external port connectors . . . . . . . . . . 41
System board switches and jumpers . . . . . . . . . . . . . 42
System board LED locations. . . . . . . . . . . . . . . . . . . . 44
Before you begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
System reliability considerations . . . . . . . . . . . . . . . . 45
Working inside a server with power on . . . . . . . . . . 46
Handling static-sensitive devices. . . . . . . . . . . . . . . . 46
Removing the cover and bezel. . . . . . . . . . . . . . . . . . . . . 47
Working with adapters . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Adapter considerations . . . . . . . . . . . . . . . . . . . . . . . . 48
Adapter installation instructions. . . . . . . . . . . . . . . . . . . 49
Installing internal drives. . . . . . . . . . . . . . . . . . . . . . . . . . 50
Internal drive bays . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
SCSI drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
SCSI IDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
Installing a hot-swap drive . . . . . . . . . . . . . . . . . . . . . . . 52
Installing a non-hot-swap drive . . . . . . . . . . . . . . . . . . . 53
Installing a microprocessor . . . . . . . . . . . . . . . . . . . . . . . 55
Installing a hot-swap power supply . . . . . . . . . . . . . . . . 57
Replacing a hot-swap fan assembly . . . . . . . . . . . . . . . . 59
Installing the server cover and bezel . . . . . . . . . . . . . . . 60
Connecting external options . . . . . . . . . . . . . . . . . . . . . . 61
Cabling requirements . . . . . . . . . . . . . . . . . . . . . . . . . 61
Setting SCSI IDs for external devices . . . . . . . . . . . . 61
Installation procedure . . . . . . . . . . . . . . . . . . . . . . . . . 61
Input/Output ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
Parallel port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
Viewing or changing the parallel-port assignments
62
Parallel port connector . . . . . . . . . . . . . . . . . . . . . . 63
Video port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
Keyboard port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
Auxiliary-device (pointing device) port . . . . . . . . . . 65
Ultra3 SCSI ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
SCSI cabling requirements. . . . . . . . . . . . . . . . . . . 65
Setting SCSI IDs . . . . . . . . . . . . . . . . . . . . . . . . . . . 66
SCSI connector pin-number assignments . . . . . . 66
Serial ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
Viewing or changing the serial-port assignments 67
Serial-port connectors. . . . . . . . . . . . . . . . . . . . . . . 68
Universal Serial Bus ports . . . . . . . . . . . . . . . . . . . . . . 68
USB cables and hubs. . . . . . . . . . . . . . . . . . . . . . . . 68
USB-port connectors. . . . . . . . . . . . . . . . . . . . . . . . 68
Ethernet port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
Configuring the Ethernet controller . . . . . . . . . . . 69
Failover for redundant Ethernet . . . . . . . . . . . . . . 69
Ethernet port connector . . . . . . . . . . . . . . . . . . . . . 73
Advanced System Management ports . . . . . . . . . . . 73
Cabling the server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
Netfinity Manager . . . . . . . . . . . . . . . . . . . 75
Managing your IBM Netfinity server with Netfinity
Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
Netfinity Manager documentation . . . . . . . . . . . . . . . . . 75
Netfinity Manager system requirements . . . . . . . . . . . . 76
Netfinity Manager for OS/2 system requirements . 76
Netfinity Manager for Windows 95 and Windows 98
system requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76
Netfinity Manager for Windows NT system
requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77
v
Starting the Netfinity Manager installation program . 78
Netfinity Manager database support . . . . . . . . . . . . . . . 83
DB2 database support . . . . . . . . . . . . . . . . . . . . . . . . . 84
System requirements . . . . . . . . . . . . . . . . . . . . . . . 84
Installing and configuring the database . . . . . . . 84
Activating the database . . . . . . . . . . . . . . . . . . . . . 85
Granting and revoking database privileges . . . . 85
Deleting the database. . . . . . . . . . . . . . . . . . . . . . . 87
Lotus Notes database support . . . . . . . . . . . . . . . . . . 88
System requirements . . . . . . . . . . . . . . . . . . . . . . . 88
Installing the database . . . . . . . . . . . . . . . . . . . . . . 88
Browsing the Netfinity Manager Lotus Notes
database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
ODBC database support . . . . . . . . . . . . . . . . . . . . . . . 90
System requirements . . . . . . . . . . . . . . . . . . . . . . . 90
ODBC database configuration . . . . . . . . . . . . . . . 90
Creating the Netfinity Manager tables . . . . . . . . 91
Supported and certified databases. . . . . . . . . . . . 92
Starting Netfinity Manager . . . . . . . . . . . . . . . . . . . . . . . 93
Netfinity Manager Service Manager . . . . . . . . . . . . . 93
Netfinity Manager service descriptions . . . . . . . . . . 94
Advanced System Management. . . . . . . . . . . . . . 94
Alert Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Alert on LAN configuration . . . . . . . . . . . . . . . . . 95
Capacity Management . . . . . . . . . . . . . . . . . . . . . . 95
Cluster Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Critical File Monitor . . . . . . . . . . . . . . . . . . . . . . . . 95
DMI Browser . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
ECC Memory Setup . . . . . . . . . . . . . . . . . . . . . . . . 95
Event Scheduler . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
File Transfer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Power-On Error Detect . . . . . . . . . . . . . . . . . . . . . 96
Predictive Failure Analysis . . . . . . . . . . . . . . . . . . 96
Process Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
RAID Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Remote Session . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Remote System Manager . . . . . . . . . . . . . . . . . . . . 96
Remote Workstation Control . . . . . . . . . . . . . . . . 97
Screen View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Security Manager . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Serial Connection Control . . . . . . . . . . . . . . . . . . . 97
Service Configuration Manager . . . . . . . . . . . . . . 97
Software Inventory . . . . . . . . . . . . . . . . . . . . . . . . . 97
System Diagnostics Manager . . . . . . . . . . . . . . . . 97
System Information Tool . . . . . . . . . . . . . . . . . . . . 98
System Monitor. . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
System Partition Access . . . . . . . . . . . . . . . . . . . . . 98
System Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Update Connector Manager . . . . . . . . . . . . . . . . . 98
Web Manager Configuration . . . . . . . . . . . . . . . . 98
Delaying Netfinity Manager startup on OS/2 systems
99
Getting more information about Netfinity Manager . . 99
Installation options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
vi
Hardware Maintenance Manual: xSeries 340 Model 6RY
Automated installation . . . . . . . . . . . . . . . . . . . . . . . 100
Customized installation . . . . . . . . . . . . . . . . . . . . . . 101
FRU information (service only) . . . . . . . 105
Removing the LED cover . . . . . . . . . . . . . . . . . . . . . . . .
Removing the on/off reset board . . . . . . . . . . . . . . . . .
Removing the diskette/CDROM drive . . . . . . . . . . . .
Removing the LED board . . . . . . . . . . . . . . . . . . . . . . . .
Removing the SCSI backplane assembly . . . . . . . . . . .
Removing the hot-swap hard disk drive backplane .
Removing the power supply backplane. . . . . . . . . . . .
Removing the AC Distribution Box . . . . . . . . . . . . . . .
Removing the system board. . . . . . . . . . . . . . . . . . . . . .
105
106
106
107
107
108
109
109
110
Symptom-to-FRU index . . . . . . . . . . . . . . 111
Beep symptoms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
No Beep symptoms . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Information panel system error LED . . . . . . . . . . . . . .
Diagnostic error codes . . . . . . . . . . . . . . . . . . . . . . . . . .
Error symptoms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply LED errors . . . . . . . . . . . . . . . . . . . . . . . .
POST error codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SCSI error codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Temperature error messages . . . . . . . . . . . . . . . . . . . . .
Fan error messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power error messages . . . . . . . . . . . . . . . . . . . . . . . . . . .
System shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Voltage related system shutdown . . . . . . . . . . . . . .
Temperature related system shutdown. . . . . . . . . .
DASD checkout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Host Built-In Self Test (BIST) . . . . . . . . . . . . . . . . . . . . .
Bus fault messages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Undetermined problems . . . . . . . . . . . . . . . . . . . . . . . .
111
113
114
115
119
119
120
126
126
127
127
128
128
129
129
129
130
130
Parts listing (xSeries 340) . . . . . . . . . . . . 133
Keyboards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135
Power cords. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136
Related service information . . . . . . . . . . 137
Safety information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
General safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrical safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Safety inspection guide . . . . . . . . . . . . . . . . . . . . . . .
Handling electrostatic discharge-sensitive devices
Grounding requirements. . . . . . . . . . . . . . . . . . . . . .
Safety notices (multi-lingual translations) . . . . . . .
Send us your comments! . . . . . . . . . . . . . . . . . . . . . . . .
Problem determination tips . . . . . . . . . . . . . . . . . . . . . .
Notices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trademarks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
137
137
138
139
140
141
141
176
177
177
178
General checkout
The server diagnostic programs are stored in upgradable read-only memory (ROM)
on the system board. These programs are the primary method of testing the major
components of the server: the system board, Ethernet controller, video controller,
RAM, keyboard, mouse (pointing device), diskette drive, serial ports, hard drives,
and parallel port. You can also use them to test some external devices. See
“Diagnostic programs and error messages” on page 13.
Also, if you cannot determine whether a problem is caused by the hardware or by the
software, you can run the diagnostic programs to confirm that the hardware is
working properly.
When you run the diagnostic programs, a single problem might cause several error
messages. When this occurs, work to correct the cause of the first error message.
After the cause of the first error message is corrected, the other error messages might
not occur the next time you run the test.
A failed system might be part of a shared DASD cluster (two or more systems sharing
the same external storage device(s)). Prior to running diagnostics, verify that the
failing system is not part of a shared DASD cluster.
A system might be part of a cluster if:
•
The customer identifies the system as part of a cluster.
•
One or more external storage units are attached to the system and at least one of
the attached storage units is additionally attached to another system or
unidentifiable source.
•
One or more systems are located near the failing system.
If the failing system is suspected to be part of a shared DASD cluster, all diagnostic
tests can be run except diagnostic tests which test the storage unit (DASD residing in
the storage unit) or the storage adapter attached to the storage unit.
Notes:
1.
For systems that are part of a shared DASD cluster, run one test at a time in
looped mode. Do not run all tests in looped mode, as this could enable the DASD
diagnostic tests.
2.
If multiple error codes are displayed, diagnose the first error code displayed.
3.
If the computer hangs with a POST error, go to “POST error codes” on page 120.
4.
If the computer hangs and no error is displayed, go to “Undetermined problems”
on page 130.
5.
Power supply problems, see “Power supply LED errors” on page 119.
6.
Safety information, see “Safety information” on page 137.
7.
For intermittent problems, check the error log; see “Event/error logs” on page 13.
1. IS THE SYSTEM PART OF A CLUSTER?
YES. Schedule maintenance with the customer. Shut down all systems related to the
cluster. Run storage test. NO. Go to step 2.
2.
IS THE SYSTEM NOT PART OF A CLUSTER?
•
© Copyright IBM Corp. 2000
Power-off the computer and all external devices.
1
•
•
•
•
•
•
•
•
•
Check all cables and power cords.
Set all display controls to the middle position.
Power-on all external devices.
Power-on the computer.
Record any POST error messages displayed on the screen. If an error is
displayed, look up the first error in the“POST error codes” on page 120.
Check the information LED panel System Error LED; if on, see “Information
panel system error LED” on page 114.
Check the System Error Log. If an error was recorded by the system,
see“Chapter . Symptom-to-FRU index,” on page 111.
Start the Diagnostic Programs. See “Starting the diagnostic programs” on
page 14.
Check for the following responses:
a.
One beep.
b.
Readable instructions or the Main Menu.
3. DID YOU RECEIVE BOTH OF THE CORRECT RESPONSES?
NO. Find the failure symptom in“Chapter . Symptom-to-FRU index,” on page 111.
YES. Run the Diagnostic Programs. If necessary, refer to “Starting the diagnostic
programs” on page 14.
If you receive an error, go to“Chapter . Symptom-to-FRU index,” on page 111.
If the diagnostics completed successfully and you still suspect a problem, see
“Undetermined problems” on page 130.
2
Hardware Maintenance Manual: xSeries 340 Model 6RY
General information
The xSeries 340 server is a high-performance server that supports symmetric
multiprocessing (SMP). It is ideally suited for networking environments that require
superior microprocessor performance, efficient memory management, flexibility, and
large amounts of reliable data storage.
Performance, ease of use, reliability, and expansion capabilities were key
considerations during the design of your server. These design features make it
possible for you to customize the system hardware to meet your needs today, while
providing flexible expansion capabilities for the future.
Features and specifications
The following table provides a summary of the features and specifications for your
xSeries 340 Model 6RY:
Microprocessor:
•
•
•
Intel® Pentium III
256 KB Level-2 cache
Supports up to two microprocessors
Memory:
•
•
•
Maximum: 4 GB
Type: ECC, SDRAM, Registered DIMMs
Slots: 4 non-interleaved
Drives standard:
•
•
Diskette: 1.44 MB
CD-ROM: 24X IDE
Expansion bays:
•
•
Hot-swap: 3 slim high
Non-hot-swap: Two 5.25-inch
PCI expansion slots:
•
•
Three 33 MHz/64-bit
Two 33 MHz/32-bit
Hot-swap power supplies:
•
270 Watt (115-230 Vac)
•
Minimum: One
•
Maximum: Two, second power supply provides redundant power
Redundant cooling:
•
Three hot-swap fans
Video:
•
•
•
© Copyright IBM Corp. 2000
S3 video controller
Compatible with SVGA and VGA
8 MB video memory
3
Size (Rack Model)
•
•
•
•
Height: 13.4 mm (5.25 in.)
Depth: 66.1 mm (26 in.)
Width: 41.5 mm (16.3 in.)
Weight: 22.7 to 29.5 (50 to 65lbs.) depending upon configuration
Integrated functions:
•
•
•
•
•
•
•
•
•
Advanced System Management processor
Dual channel Ultra SCSI controller (two internal channels)
One 10BASE-T/100BASE-TX AMD Ethernet controller
Two serial ports
One parallel port
Two universal serial bus ports
Keyboard port
Mouse port
Video port
Acoustical noise emissions:
•
Sound power, idling: 5.9 bel maximum
•
Sound power, operating: 6.1 bel maximum
•
Sound pressure, operating: 47.5 dBa maximum
Environment:
•
Air temperature:
•
— Server on: 10º to 35º C (50º to 95º F). Altitude: 0 to 914 m (2998 ft.)
— Server on: 10º to 32º C (50º to 89.6º F). Altitude: 914 m (2998 ft.) to 2133 m
(6998 ft.)
— Server off: 10º to 43º C (50º to 109.4º F). Maximum altitude: 2133 m (6998 ft.)
Humidity:
— Server on: 8% to 80%
— Server off: 8% to 80%
Heat output:
•
Approximate heat output in British Thermal Units (BTU) per hour
— Minimum configuratrion 375 BTU (110 watts)
— Maximum configuration 897.4 BTU (375 watts)
Electrical input:
•
•
Sine-wave input (50-60 Hz) required
Input voltage low range:
— Minimum: 90 V ac
•
— Maximum: 137 V ac
Input voltage high range:
— Minimum: 180 V ac
•
— Maximum: 265 V ac
Input kilovolt-amperes (kVA) approximately:
— Minimum: 0.08 kVA
— Maximum: 0.42 kVA
4
Hardware Maintenance Manual: xSeries 340 Model 6RY
Server features
The xSeries 340 is designed to be cost-effective, powerful, and flexible. Your server
offers:
•
Impressive performance using an innovative approach to SMP
Your server supports up to two Intel Pentium III microprocessors. Your server
comes with one microprocessor installed; you can install an additional
microprocessor to enhance performance and provide SMP capability.
•
Large data-storage and hot-swap capabilities
All models of the server support up to three hot-swap hard disk drives. This hotswap feature enables you to remove and replace hard disk drives without turning
off the server. A 3-Pack hard-disk drive option is available to add an additional
three drive bays.
•
Optional PCI adapters
Your server uses peripheral component interconnect (PCI) bus architecture to
provide compatibility with a wide range of existing hardware devices and
software applications. Your server supports up to five PCI adapters in the
expansion slots on the system board.
•
Redundant cooling capability
The redundant cooling capability of the hot-swap fans in your server allow
continued operation if one of the fans fails. You can also replace a failing hot-swap
fan without turning off the server.
•
Optional redundant power capability
You can install an additional 270-watt power supply in your server to provide
redundant power for your server. The Power Non-Redundant light emitting
diode (LED) in the group of diagnostic LEDs on the system board is lit when the
power load is 270 watts or greater with two power supplies installed.
•
Large system memory
The memory bus in your server supports up to 4 GB of system memory. The
memory controller provides error correcting code (ECC) support for up to four
industry standard PC133, 3.3 V, 168-pin, 8-byte, registered, synchronousdynamic-random access memory (SDRAM) dual inline memory modules
(DIMMs) (Intel PC-Registered SDIMM Specifications, Revision 1.0 or later).
•
System-management capabilities
Your server comes with an Advanced System Management Processor on the
system board. This processor, in conjunction with the Netfinity Manager™
software provided on your ServerGuide CDs, allows you to manage the functions
of the server locally and remotely. The Advanced System Management Processor
also provides system monitoring, event recording, and dial-out alert capability.
Note: The Advanced System Management Processor is sometimes referred to as
the service processor.
•
Integrated network environment support
Your server comes with an Ethernet controller on the system board. This Ethernet
controller has an interface for connecting to 10-Mbps or 100-Mbps networks. The
server automatically selects between 10BASE-T and 100BASE-TX. The controller
provides full-duplex (FDX) capability, which allows simultaneous transmission
and reception of data on the Ethernet local area network (LAN).
•
Redundant network-interface card
The addition of an optional, redundant network interface card (NIC) provides a
failover capability to a redundant Ethernet connection. If a problem occurs with
General information
5
the primary Ethernet connection, all Ethernet traffic associated with this primary
connection is automatically switched to the redundant NIC. This switching occurs
without data loss and without user intervention.
•
Optional digital linear tape drive
The addition of an optional digital linear tape drive (DLT) allows quick backup of
large amounts of data.
•
IBM ServerGuide CDs
The ServerGuide CDs included with your xSeries 340 provide programs to help
you set up your server and install the network operating system (NOS). The
ServerGuide program detects the hardware options installed, and provides the
correct configuration programs and device drivers. In addition, the ServerGuide
CDs include a variety of application programs for your server. See
SERVERGUIDE for more information.
Reliability, availability, and serviceability features
Three of the most important features in server design are reliability, availability, and
serviceability (RAS). These factors help to ensure the integrity of the data stored on
your server; that your server is available when you want to use it; and that should a
failure occur, you can easily diagnose and repair the failure with minimal
inconvenience.
The following is an abbreviated list of the RAS features that your server supports.
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Menu-driven setup, system configuration, RAID configuration, and diagnostic
programs
Power-on self-test (POST)
Integrated Advanced System Management Processor
Predictive failure alerts
System auto-configuring from configuration menu
Remote system problem-determination support
Power and temperature monitoring
Fault-resilient startup
Hot-swap drive bays
Error codes and messages
System error logging
Upgradable BIOS, diagnostics, and Advanced System Management Processor
code
Automatic restart after a power failure
Parity checking on the SCSI and PCI buses
Error checking and correcting (ECC) memory
Redundant hot-swap power supply option
Redundant hot-swap cooling option
Redundant Ethernet capabilities (with optional adapter)
Vital Product Data (VPD) on processor complex, system board, power backplane,
SCSI backplane, and each power supply
Operator information panel and group of diagnostic LEDs on the system board
Remote Connect
Statement 5
6
Hardware Maintenance Manual: xSeries 340 Model 6RY
CAUTION:
The power control button on the device and the power switch on the power supply
do not turn off the electrical current supplied to the device. The device also might
have more than one power cord. To remove all electrical current from the device,
ensure that all power cords are disconnected from the power source.
2
1
Controls and indicators
The most commonly used controls and status indicators are on the front panel of the
server.
Ñ1Ö
AC power light
Ñ2Ö
Hard Disk Status light
Ñ3Ö
Hard disk Activity light
Ñ4Ö
System power light
Ñ5Ö
Power control botton
Ñ6Ö
Reset button
System Power Light: When this green light is on, system power is present in the
server. When this light flashes, the server is in standby mode (the system power
supply is turned off and AC current is present). When this light is off, either a power
supply, AC power, or a light has failed.
Attention: If this light is off, it does not mean there is no electrical current present in
the server. The light might be burned out. To remove all electrical current
from the server, you must unplug the server power cords from the
electrical outlets or from the UPS.
Power Control Button: Press this button to manually turn the server on or off.
General information
7
Statement 5
CAUTION:
The power control button on the device and the power switch on the power supply
do not turn off the electrical current supplied to the device. The device also might
have more than one power cord. To remove all electrical current from the device,
ensure that all power cords are disconnected from the power source.
2
1
You can start the server in several ways:
•
You can turn on the server by pressing the Power Control button on the front of
the server.
Note: After you plug the power cord of your server into an electrical outlet, wait
20 seconds before pressing the Power Control button. During this time the
system-management processor is initializing and the Power Control
button does not respond.
•
If the server is turned on, a power failure occurs, and unattended- start mode is
enabled in the Configuration/Setup utility program, the server will start
automatically when power is restored.
•
If AC power is present, the server is off, and the wake-up feature is enabled in the
Configuration/Setup utility program, the wake-up feature will turn on the server
at the set time.
•
If AC power is present, the server is off, and ring signal detect is enabled in the
Configuration/Setup utility program, you can turn on the server by telephone
input.
•
The Advanced System Management Processor can also turn on the server.
The server can be turned off as follows:
8
Hardware Maintenance Manual: xSeries 340 Model 6RY
•
You can turn off the server by pressing the Power Control button on the front of
the server. Pressing the Power Control button starts an orderly shutdown of the
operating system, if this feature is supported by your operating system, and
places the server in standby mode.
Note: After turning off the server, wait at least 5 seconds before pressing the
Power Control button to power the server on again.
•
You can press and hold the Power Control button for more than 4 seconds to
cause an immediate shutdown of the server and place the server in standby
mode. You can use this feature if the operating system hangs.
•
You can disconnect the server power cords from the electrical outlets to shut off
all power to the server.
Note: Wait about 15 seconds after disconnecting the power cords for your
system to stop running. Watch for the System Power light on the operator
information panel to stop blinking.
Reset Button: Press this button to reset the server and run the power-on self-test
(POST).
AC Power Light: This light provides status information about the power supply.
During normal operation, both the AC and DC Power lights are on. For any other
combination of lights, see “Power supply LED errors” on page 119.
Operator Information Panel: The lights on this panel give status information for your
server. See “Operator information panel” on page 10 for more information.
DC Power Light: This light provides status information about the power supply.
During normal operation, both the AC and DC Power lights are on. For any other
combination of lights, see “Power supply LED errors” on page 119 .
Hard Disk Status Light: Each of the hot-swap drive bays has a Hard Disk Status light.
When this amber light is on continuously, the drive has failed. When the light flashes
slowly (one flash per second), the drive is being rebuilt. When the light flashes rapidly
(three flashes per second), the controller is identifying the drive.
Hard Disk Activity Light: Each of the hot-swap drive bays has a Hard Disk Activity
light. When this green light is flashing, the controller is accessing the drive.
General information
9
Operator information panel
LINK
OK
TX
RX
c1 d
SCSI Hard Disk Drive Activity light
c2 d
Ethernet Link Status light
c3 d
Ethernet Transmit/Receive Activity light
c4 d
Information light
c5 d
System Error light
SCSI Hard Disk Drive Activity Light: This green light is on when there is activity on
a hard disk drive.
Ethernet Link Status Light: When this green light is on, there is an active connection
on the Ethernet port.
Ethernet Transmit/Receive Activity Light: When this green light is on, there is
transmit or receive activity to or from the server.
Information Light: This amber light is on when the information log contains
information about certain conditions in your server that might affect performance. For
example, the light will be on if your server does not have redundant power. A light on
the diagnostic LED panel on the system board will also be on.
System Error Light: This amber light is lit when a system error occurs. An LED on the
diagnostic LED panel will also be on to further isolate the error.
10
Hardware Maintenance Manual: xSeries 340 Model 6RY
Diagnostics
This section provides basic troubleshooting information to help you resolve some
common problems that might occur with your server.
Diagnostic tools overview
The following tools are available to help you identify and resolve hardware-related
problems:
•
POST beep codes, error messages, and error logs
The power-on self-test (POST) generates beep codes and messages to indicate
successful test completion or the detection of a problem. See “POST” on page 12
for more information.
•
Diagnostic programs and error messages
The server diagnostic programs are stored in upgradable read-only memory
(ROM) on the system board. These programs are the primary method of testing
the major components of your server. See “Diagnostic programs and error
messages” on page 13 for more information.
•
Light path diagnostics
Your server has light-emitting diodes (LEDs) to help you identify problems with
server components. These LEDs are part of the light-path diagnostics that are
built into your server. By following the path of lights, you can quickly identify the
type of system error that occurred. See “Light path diagnostics” for more
information.
Identifying problems using LEDs
Your server has LEDs to help you identify problems with some server components.
These LEDs are part of the light path diagnostics built into the server. By following the
path of lights, you can identify the type of system error that occurred. See the following
sections for more information.
Power supply LEDs
The AC and DC Power LEDs on the power supply provide status information about
the power supply. See “Power supply LED errors” on page 119.
Light path diagnostics
You can use the light path diagnostics built into your server to quickly identify the
type of system error that occurred. The diagnostics panel is under the "wind tunnel."
Your server is designed so that any LEDs that are illuminated remain illuminated
when the server shuts down as long as the AC power source is good and the power
supplies can supply +5V dc current to the server. This feature helps you isolate the
problem if an error causes the server to shut down. See “Light path diagnostics table”
on page 12.
© Copyright IBM Corp. 2000
11
Diagnostics panel
The following illustration shows the LEDs on the diagnostics panel on the system
board. See “Light path diagnostics table” for information on identifying problems
using these LEDs.
PS1
PS2
PS3
NON
OVER
NMI
TEMP
FAN
MEM
CPU
PCI A
PCI B
VRM
DASD1
DASD2
Light path diagnostics table
The System Error LED on the operator information panel is lit when certain system
errors occur. If the System Error LED on your server is lit, use the following table to
help determine the cause of the error and the action you should take. See table in
“Information panel system error LED” on page 114.
POST
When you turn on the server, it performs a series of tests to check the operation of
server components and some of the options installed in the server. This series of tests
is called the power-on self-test or POST.
If POST finishes without detecting any problems, a single beep sounds, the first screen
of your operating system or application program appears, and the System POST
Complete (OK) light is illuminated on the operator information panel.
If POST detects a problem, more than one beep sounds and an error message appears
on your screen. See “Beep symptoms” on page 111 and “POST error messages” on
page 13 for more information.
Notes:
12
1.
If you have a power-on password or administrator password set, you must type
the password and press Enter, when prompted, before POST will continue.
2.
A single problem might cause several error messages. When this occurs, work to
correct the cause of the first error message. After you correct the cause of the first
Hardware Maintenance Manual: xSeries 340 Model 6RY
error message, the other error messages usually will not occur the next time you
run the test.
POST error messages
The table,“POST error codes” on page 120, provides information about the POST error
messages that can appear during startup.
Event/error logs
The POST error log contains the three most recent error codes and messages that the
system generated during POST. The System Event/Error Log contains all error
messages issued during POST and all system status messages from the Advanced
System Management Processor.
To view the contents of the error logs, start the Configuration/Setup Utility program;
then, select Event/Error Logs from the main menu.
Small computer system interface messages
The following table lists actions to take if you receive a SCSI error message.
Note: If your server does not have a hard disk drive, ignore any message that
indicates that the drive is not installed.
You will get these messages only when running the SCSISelect Utility. See “SCSI error
codes” on page 126.
Diagnostic programs and error messages
The server diagnostic programs are stored in upgradable read-only memory (ROM)
on the system board. These programs are the primary method of testing the major
components of your server.
Diagnostic error messages indicate that a problem exists; they are not intended to be
used to identify a failing part. Troubleshooting and servicing of complex problems
that are indicated by error messages should be performed by trained service
personnel.
Sometimes the first error to occur causes additional errors. In this case, the server
displays more than one error message. Always follow the suggested action
instructions for the first error message that appears.
The following sections contain the error codes that might appear in the detailed test
log and summary log when running the diagnostic programs.
The error code format is as follows:
fff-ttt-iii-date-cc-text message
where:
fff
is the three-digit function code that indicates the function being tested when
the error occurred. For example, function code 089 is for the microprocessor.
ttt
is the three-digit failure code that indicates the exact test failure that was
encountered. (These codes are for trained service personnel and are described
in the Hardware Maintenance Manual.)
Diagnostics
13
iii
is the three-digit device ID. (These codes are for trained service personnel and
are described in the Hardware Maintenance Manual.)
date
is the date that the diagnostic test was run and the error recorded.
cc
is the check digit that is used to verify the validity of the information.
text message
is the diagnostic message that indicates the reason for the problem.
Text messages
The diagnostic text message format is as follows:
Function Name: Result (test specific string)
where:
Function Name
is the name of the function being tested when the error occurred. This
corresponds to the function code (fff) given in the previous list.
Result can be one of the following:
Test Specific String
This is additional information that you can use to anayze the problem.
Passed This result occurs when the diagnostic test completes without any errors.
Failed This result occurs when the diagnostic test discovers an error.
User Aborted
This result occurs when you stop the diagnostic test before it is complete.
Not Applicable
This result occurs when you specify a diagnostic test for a device that is not
present.
Aborted This result occurs when the test could not proceed because of the system
configuration.
Warning This result occurs when a possible problem is reported during the diagnostic
test, such as when a device that is to be tested is not installed.
Starting the diagnostic programs
You can press F1 while running the diagnostic programs to obtain Help information.
You also can press F1 from within a help screen to obtain online documentation from
which you can select different categories. To exit Help and return to where you left
off, press Esc.
To start the diagnostic programs:
1.
Turn on the server and watch the screen.
Note: To run the diagnostic programs, you must start the server with the highest
level password that is set. That is, if an administrator password is set, you
must enter the administrator password, not the power-on password, to
run the diagnostic programs.
14
2.
When the message F2 for Diagnostics appears, press F2.
3.
Type in the appropriate password; then, press Enter.
4.
Select either Extended or Basic from the top of the screen.
5.
When the Diagnostic Programs screen appears, select the test you want to run
from the list that appears; then, follow the instructions on the screen.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Notes:
a.
If the server stops during testing and you cannot continue, restart the server
and try running the diagnostic programs again.
b.
The keyboard and mouse (pointing device) tests assume that a keyboard and
mouse are attached to the server.
c.
If you run the diagnostic programs with either no mouse or a USB mouse
attached to your server, you will not be able to navigate between test
categories using the Next Cat and Prev Cat buttons. All other functions
provided by mouse-selectable buttons are also available using the function
keys.
d. You can test the USB keyboard by using the regular keyboard test. The
regular mouse test can test a USB mouse. Also, you can run the USB hub test
only if there are no USB devices attached.
e.
You can view server configuration information (such as system configuration,
memory contents, interrupt request (IRQ) use, direct memory access (DMA)
use, device drivers, and so on) by selecting Hardware Info from the top of the
screen.
When the tests have completed, you can view the Test Log by selecting Utility from
the top of the screen.
If the hardware checks out OK but the problem persists during normal server
operations, a software error might be the cause. If you suspect a software problem,
refer to the information that comes with the software package.
Viewing the test log
The test log will not contain any information until after the diagnostic program has
run.
Note: If you already are running the diagnostic programs, begin with step 3.
To view the test log:
1.
Turn on the server and watch the screen.
If the server is on, shut down your operating system and restart the server.
2.
When the message F2 for Diagnostics appears, press F2.
If a power-on password or administrator password is set, the server prompts you
for it. Type in the appropriate password; then, press Enter.
3.
When the Diagnostic Programs screen appears, select Utility from the top of the
screen.
4.
Select View Test Log from the list that appears; then, follow the instructions on
the screen.
The system maintains the test-log data while the server is powered on. When you
turn off the power to the server, the test log is cleared.
Diagnostic error message tables
For descriptions of the error messages that might appear when you run the diagnostic
programs see “Diagnostic error codes” on page 115.
Attention: If diagnostic error messages appear that are not listed in the tables, make
sure that your server has the latest levels of BIOS, Advanced System.
Diagnostics
15
Recovering BIOS
If your BIOS has become corrupted, such as from a power failure during a flash
update, you can recover your BIOS using the recovery boot block and a BIOS flash
diskette.
Note: You can obtain a BIOS flash diskette from one of the following sources:
•
Use the ServerGuide program to make a BIOS flash diskette.
•
Download a BIOS flash diskette from the World Wide Web. Go to
http://www.pc.ibm.com/support/, select IBM Server Support, and make
the selections for your server.
•
Contact your IBM service representative.
The flash memory of your server contains a protected area that cannot be overwritten.
The recovery boot block is a section of code in this protected area that enables the
server to start up and to read a flash diskette. The flash utility recovers the system
BIOS from the BIOS recovery files on the diskette.
To recover the BIOS:
1.
Turn off the server and peripheral devices and disconnect all external cables and
power cords; then, remove the cover.
2.
Locate the boot-block jumper block (J37) on the system board.
3.
Place a jumper on pins 1 and 2 to enable BIOS recovery mode.
4.
Insert the BIOS flash diskette into the diskette drive.
5.
Restart the server.
The Recovery Boot screen will appear. A progress report, Loading data from
diskette xx%, is displayed. When programming is underway, a further progress
report, Programming
block n of 7 yy%, is displayed. When recovery is complete, Recovery complete,
remove the diskette and
return boot block switch to the off position before rebooting is displayed.
6.
Remove the flash diskette from the diskette drive.
7.
Turn the server off.
8.
Remove the jumper on the boot-block jumper block or move it to pins 2 and 3 to
return to normal startup mode.
9.
Restart the server. The system should start up normally.
Troubleshooting the Ethernet controller
This section provides troubleshooting information for problems that might occur with
the 10/100 Mbps Ethernet controller.
Network connection problems
If the Ethernet controller cannot connect to the network, check the following:
•
Make sure that the cable is installed correctly.
The network cable must be securely attached at all connections. If the cable is
attached but the problem persists, try a different cable.
16
Hardware Maintenance Manual: xSeries 340 Model 6RY
If you set the Ethernet controller to operate at 100 Mbps, you must use Category 5
cabling.
If you directly connect two workstations (without a hub), or if you are not using a
hub with X ports, use a crossover cable.
•
•
Note: To determine whether a hub has an X port, check the port label. If the label
contains an X, the hub has an X port.
Determine if the hub supports auto-negotiation. If not, try configuring the
integrated Ethernet controller manually to match the speed and duplex mode of
the hub.
Check the Ethernet controller lights on the operator information panel.
These lights indicate whether a problem exists with the connector, cable, or hub.
— The Ethernet Link Status light illuminates when the Ethernet controller
receives a LINK pulse from the hub. If the light is off, there might be a bad
connector or cable, or a problem with the hub.
— The Ethernet Transmit/Receive Activity light illuminates when the Ethernet
controller sends or receives data over the Ethernet Network. If the Ethernet
Transmit/Receive Activity light is off, make sure that the hub and network
are operating and that the correct device drivers are loaded.
•
•
•
•
— The Ethernet Speed 100 Mbps light illuminates when the Ethernet controller
LAN speed is 100 Mbps.
Make sure that you are using the correct device drivers, supplied with your
server.
Check for operating system-specific causes for the problem.
Make sure that the device drivers on the client and server are using the same
protocol.
Test the Ethernet controller.
How you test the Ethernet controller depends on which operating system you are
using (see the Ethernet controller device driver README file).
Ethernet controller troubleshooting chart
You can use the following troubleshooting chart to find solutions to 10/100 Mbps
Ethernet controller problems that have definite symptoms.
Diagnostics
17
Table 1. Ethernet troubleshooting chart.
Ethernet controller problem
Suggested Action
The server stops running
The PCI BIOS interrupt settings are incorrect.
when loading device drivers.
Check the following:
•
Determine if the interrupt (IRQ) setting assigned to the Ethernet controller is also
assigned to another device in the Configuration/Setup Utility program.
Although interrupt sharing is allowed for PCI devices, some devices do not
function well when they share an interrupt with a dissimilar PCI device. Try
changing the IRQ assigned to the Ethernet controller or the other device. For
example, for NetWare Versions 3 and 4 it is recommended that disk controllers not
share interrupts with LAN controllers.
•
Make sure that you are using the most recent device driver available from the
World Wide Web.
•
Run the network diagnostic program.
If the problem remains, go to “Starting the diagnostic programs” on page 14 to run the
diagnostic programs.
Ethernet Link Status light
does not light.
Check the following:
•
Make sure that the hub is turned on.
•
Check all connections at the Ethernet controller and the hub.
•
Check the cable. A crossover cable is required unless the hub has an X designation.
•
Use another port on the hub.
•
If the hub does not support auto-negotiation, manually configure the Ethernet
controller to match the hub.
•
If you manually configured the duplex mode, make sure that you also manually
configure the speed.
•
Run diagnostics on the LEDs.
If the problem remains, go to “Starting the diagnostic programs” on page 14 to run the
diagnostic programs. .
The Ethernet
Transmit/Receive Activity
light does not light.
Data is incorrect or sporadic.
18
Check the following:
Note:
The Ethernet Transmit/Receive Activity LED illuminates only when data is
sent to or by this Ethernet controller.
•
Make sure that you have loaded the network device drivers.
•
The network might be idle. Try sending data from this workstation.
•
Run diagnostics on the LEDs.
•
The function of this LED can be changed by device driver load parameters. If
necessary, remove any LED parameter settings when you load the device drivers.
Check the following:
•
Make sure that you are using Category 5 cabling when operating the server at 100
Mbps.
•
Make sure that the cables do not run close to noise-inducing sources like
fluorescent lights.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 1. Ethernet troubleshooting chart.
Ethernet controller problem
The Ethernet controller
stopped working when
another adapter was added
to the server.
Suggested Action
Check the following:
•
Make sure that the cable is connected to the Ethernet controller.
•
Make sure that your PCI system BIOS is current.
•
Reseat the adapter.
•
Determine if the interrupt (IRQ) setting assigned to the Ethernet adapter is also
assigned to another device in the Configuration/Setup Utility program.
Although interrupt sharing is allowed for PCI devices, some devices do not
function well when they share an interrupt with a dissimilar PCI device. Try
changing the IRQ assigned to the Ethernet adapter or the other device.
If the problem remains, go to “Starting the diagnostic programs” on page 14 to run the
diagnostic programs.
The Ethernet controller
stopped working without
apparent cause.
Check the following:
•
Run diagnostics for the Ethernet controller.
•
Try a different connector on the hub.
•
Reinstall the device drivers. Refer to your operating-system documentation and to
the ServerGuide information.
If the problem remains, go to “Starting the diagnostic programs” on page 14 to run the
diagnostic programs.
Ethernet controller messages
The integrated Ethernet controller might display messages from the following device
drivers:
•
•
•
•
Novell™ NetWare™ or IntraNetWare Server ODI
NDIS Adapter for level 2.01 (OS/2)
NDIS Adapter for level 4.0 (Windows NT)
SCO™ UNIX LLI
Novell NetWare or IntraNetWare server ODI driver
messages
This section provides explanations of the error messages for the Novell NetWare or
IntraNetWare server ODI driver, and suggested actions to resolve each problem.
Table 2. Novell NetWare or IntraNetWare ODI driver messages for the Ethernet controller.
PCNTNW-NW-026 The MSM is unable to parse a required custom keyword.
Explanation: The user entered an incorrect parameter keyword.
Action: Reload the driver using the correct keyword.
Diagnostics
19
Table 2. Novell NetWare or IntraNetWare ODI driver messages for the Ethernet controller.
PCNTNW-NW-054 The adapter did not respond to the initialization command.
Explanation: The adapter did not respond when the driver tried to initialize
it.
Action: Verify that the Ethernet controller is enabled. If the Ethernet
controller is enabled, go to “Starting the diagnostic programs” on page 14 to
run the diagnostic programs.
PCNTNW-NW-058 The adapter did not respond to the initialization command.
Explanation: The interrupt request (IRQ) setting might not be valid or the
EEPROM information might be incorrect.
Action: Make
sure the IRQ settings are correct in the Configuration/Setup Utility program.
for information on setting the interrupt requests. If the IRQ settings are
correct, go to “Starting the diagnostic programs” on page 14 to run the
diagnostic programs.
PCNTNW-NW-066 The cable might be disconnected from the adapter.
Explanation: The cable might be disconnected from the server Ethernet port.
Action: Verify that a cable is connected to the Ethernet port.
PCNTNW-NW-071 The matching virtual adapter could not be found.
Explanation: You tried to load another instance of the driver with a different
I/O address. This new adapter could not be found.
Action: Verify that you installed an IBM Netfinity 10/100 Fault Tolerant
Adapter and make sure that the adapter is seated correctly. If the adapter is
seated correctly, go to “Starting the diagnostic programs” on page 14 to run
the diagnostic programs..
PCNTNW-NW-072 A resource tag is unavailable.
Explanation: The driver tried to allocate some resources that were not
available.
Action: Add more memory, or free some memory resources in the server.
Then, restart the server.
PCNTNW-NW-073 Unable to allocate memory
Explanation: The driver failed to allocate the memory needed for normal
operation.
Action: Add more memory, or free some memory resources in the server.
Then, restart the server.
PCNTNW-NW-074 The hardware interrupt cannot be set.
Explanation: An attempt was made to initialize a given hardware interrupt.
The attempt was not successful.
Action: Verify that the
Ethernet controller is enabled. If the Ethernet controller is enabled, go to
“Starting the diagnostic programs” on page 14 to run the diagnostic
programs.
If you have an Ethernet adapter installed, make sure that the adapter does
not share an IRQ with any other device.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 2. Novell NetWare or IntraNetWare ODI driver messages for the Ethernet controller.
PCNTNW-NW-075 The Multiple Link Interface Driver (MLID) cannot be registered with the
Link Support Layer (LSL).
Explanation: An error occurred while the driver was trying to register with
the LSL.
Action: Check the version of the NetWare or IntraNetWare Operating
System. Make sure that this driver is correct for the version of NetWare or
IntraNetWare that you are using. Restart the server.
PCNTNW-NW-079 The Multiple Link Interface Driver (MLID) did not initialize MSMTx Free
Count.
Explanation: The MSMTx Free Count is not initialized correctly.
Action: Restart the server. If the problem persists, go to “Starting the
diagnostic programs” on page 14 to run the diagnostic programs. .
PCNTNW-NW-086 The driver parameter block is too small.
Explanation: The driver parameter block is too small.
Action: Restart the server. If the problem persists, go to “Starting the
diagnostic programs” on page 14 to run the diagnostic programs.
PCNTNW-NW-087 The media parameter block is too small.
Explanation: The driver media parameter block is too small.
Action: Restart the server. If the problem persists, go to “Starting the
diagnostic programs” on page 14 to run the diagnostic programs.
PCNTNW-NW-091 The hardware configuration conflicts.
Explanation: You tried to load a new frame type for the existing controller.
The hardware assumptions made in doing so are incorrect. This error can
also occur if you try to specify a mode (such as, redundancy) that conflicts
with another specified mode.
Action: Make sure that
your hardware configuration matches the software settings.
PCNTNW-NW-126 The group bit in the node address override was cleared.
Explanation: The IEEE address has a group bit that indicates that an address
belongs to a group of stations. This bit is used only as a destination address;
it cannot be used as a source address. You tried to enter a source address
with this bit set. The driver cleared the group bit of the source address.
Action: None necessary, message is for information only.
PCNTNW-NW-127 The local bit in the node address override was set.
Explanation: The local bit in the IEEE address format indicates that the
addresses are being managed locally. If you use the node address override
capabilities of this driver to enter a new address, the local bit must be set.
You entered an address without the local bit set. The driver has set the local
bit.
Action: None necessary, message is for information only.
PCNTNW-NW-164 The device was not found.
Explanation: The driver cannot find an Ethernet controller in the server.
Action: Verify that the Ethernet controller is enabled. If the Ethernet
controller is enabled, go to “Starting the diagnostic programs” on page 14 to
run the diagnostic programs.
Diagnostics
21
Table 2. Novell NetWare or IntraNetWare ODI driver messages for the Ethernet controller.
PCNTNW-NW-165 The device was not found at IOADDRESS.
Explanation: The Ethernet controller cannot be found at the I/O address
specified.
Action: The Ethernet controller does not require a parameter for the I/O
address. Remove the I/O address parameter.
PCNTNW-NW-167 PCI scan specified, device not found.
Explanation: The driver cannot locate the Ethernet controller on the PCI bus.
Action: Verify that the Ethernet controller is enabled. If the problem persists,
go to “Starting the diagnostic programs” on page 14 to run the diagnostic
programs.
PCNTNW-NW-180 The DMA parameter is not necessary for PCI device.
Explanation: The Ethernet controller does not require a DMA setting.
Action: None necessary, message is for information only.
Network driver interface specification 2.01 (OS/2) driver
messages
This section provides explanations of the error messages for the NDIS 2.01 (OS/2)
drivers, and suggested actions to resolve each problem.
Table 3. NDIS 2.01 (OS/2) driver messages for the Ethernet controller.
PCNTND-1 Unable to open the Protocol Manager.
Explanation: The NDIS stack is not configured correctly.
and correct your configuration.
Action: Check
PCNTND-6 Out of memory while allocating buffers.
Explanation: The driver could not allocate the requested buffers.
Action:
Check your system configuration. Edit the PROTOCOL.INI file to reduce the number of
Txbuffers and Rxbuffers specified for the driver.
PCNTND-7 A Protocol Manager device error occurred.
Explanation: The NDIS stack is not configured correctly.
Action: Check and correct your configuration.
PCNTND-8 Bad status for the Protocol Manager.
Explanation: The NDIS stack is not configured correctly in the PROTOCOL.INI file.
Action: Check and correct your configuration.
PCNTND-9 Cannot find the PROTOCOL.INI entry.
Explanation: The NDIS stack is not configured correctly in the PROTOCOL.INI file.
Action: Check and correct your configuration.
PCNTND-10 The Protocol Manager Input Output Control (IOCTL) failed.
Explanation: The NDIS stack is not configured correctly in the PROTOCOL.INI file.
Action: Check and correct your configuration.
PCNTND-11 Protocol Manager registration failed.
Explanation: The NDIS stack is not configured correctly. Action: Check and correct
your configuration.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 3. NDIS 2.01 (OS/2) driver messages for the Ethernet controller.
PCNTND-15 Device not found.
Explanation: The driver cannot find an Ethernet controller in the server.
Action: Verify that the Ethernet controller is enabled. If the Ethernet controller is
enabled, go to “Starting the diagnostic programs” on page 14 to run the diagnostic
programs.
PCNTND-16 PCI scan specified, device not found.
Explanation: The driver cannot locate the Ethernet controller on the PCI bus.
Action: Verify that the Ethernet controller is enabled. If the Ethernet controller is
enabled, go to “Starting the diagnostic programs” on page 14 to run the diagnostic
programs.
PCNTND-21 The adapter failed the checksum test.
Explanation: The driver cannot find an Ethernet controller.
Action: Verify that the Ethernet controller is enabled. If the Ethernet controller is
enabled, go to “Starting the diagnostic programs” on page 14 to run the diagnostic
programs.
PCNTND-23 WARNING: PCNET IRQ found = xx
Explanation: The interrupt request (IRQ) setting (xx) in the PROTOCOL.INI file does
not match the hardware IRQ setting. Action: Remove the IRQ setting from the
PROTOCOL.INI file or change the IRQ setting in the PROTOCOL.INI file to match the
IRQ setting shown in the PCI Slot/Device Information selection of the Advanced Setup
menu in the Configuration/Setup Utility program.
PCNTND-24 WARNING: PCNET IRQ does not match PROTOCOL.INI.
Explanation: The interrupt request (IRQ) setting in the PROTOCOL.INI file does not
match the hardware IRQ setting. Action: Remove the IRQ setting from the
PROTOCOL.INI file or change the IRQ setting in the PROTOCOL.INI file to match the
IRQ setting shown in the PCI Slot/Device Information selection of the Advanced Setup
menu in the Configuration/Setup Utility program.
PCNTND-25 PCI scan specified, PCI bus not found!
Explanation: The driver cannot locate the PCI bus.
the diagnostic programs.
Action: Run
PCNTND-29 WARNING: DMA number is not necessary for PCI device.
Explanation: The Ethernet controller does not require a DMA setting.
Action: Remove the DMA setting in the PROTOCOL.INI file.
PCNTND-33 PCNET device with specified IOBASE is already in use.
Explanation: The specified I/O address number is already in use by another Ethernet
controller or device.
Action: Remove the I/O address setting in the PROTOCOL.INI file.
NDIS 4.0 (Windows NT) driver messages
This section contains the error messages for the NDIS 4.0 drivers. The explanation and
recommended action are included with each message.
Diagnostics
23
Table 4. NDIS (Windows NT) driver messages for the Ethernet controller.
No Secondary Adapter Found. Grouping Mode is disabled.
PermaNet™Server:
Explanation: The failover option requires an adapter that is compatible with the device
driver of the Ethernet controller on the system board. No such adapter was found.
Action: Make sure the correct adapter is installed.
Problem Occurs on the Primary Adapter. Switching over to the Secondary Adapter.
PermaNet Server:
Explanation: The system detected a problem with the primary Ethernet connection and has
transferred all network traffic to the secondary Ethernet controller.
Action: Identify the cause of the failure on the primary Ethernet connection. Restoring the
operational state of the primary connection will cause the network traffic to automatically
transfer to the primary Ethernet controller.
Switching back to Primary Adapter.
PermaNet Server:
Explanation: The primary Ethernet connection is now operating correctly. Network traffic
will automatically transfer to the primary Ethernet controller.
Action: None needed, message is for information only.
UNIX messages
This section provides descriptions of the Ethernet error messages for the SCO UNIX
LLI driver, and suggested actions to resolve each problem.
Table 5. UNIX LLI driver messages for the Ethernet controller.
pnt0-2
PCI search specified, PCI device not found!
Explanation: The driver cannot locate the Ethernet controller on the PCI bus. Action:
pnt0-6
•
Run the NETCONFIG program to search for another Ethernet controller
•
Verify that the Ethernet controller is enabled. If the Ethernet controller is enabled, run the
diagnostic programs.
Cannot allocate memory for the adapter during an interrupt. Please check your Streams
parameters.
Explanation: On a SunSoft Solaris system, this message indicates that the system is out of Streams
memory blocks.
Action: Use the CRASH utility to increase the number of Streams memory blocks. Modify the
interrupt request (IRQ) settings in the Configuration/Setup Utility program, or run the
NETCONFIG program to match the hardware settings.
pnt0-7
Cannot allocate memory for the adapter during reset. Please check your Streams parameters.
Explanation: The system is out of Streams memory blocks.
Action: Use the CRASH utility to increase the number of Streams memory blocks.
pnt0-11
Device not found!
Explanation: The driver cannot find an Ethernet controller.
Action: Verify that the Ethernet controller is enabled. If the Ethernet controller is enabled, run the
diagnostic programs.
pnt0-12
Device failed checksum test!
Explanation: The driver cannot find an Ethernet controller.
Action: Verify that the Ethernet controller is enabled. If the Ethernet controller is enabled, run the
diagnostic programs.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 5. UNIX LLI driver messages for the Ethernet controller.
pnt0-13
add_intr_handler failed! Interrupts already enabled.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action: Modify your hardware settings.
pnt0-14
Cannot locate hardware.
Explanation: The SunSoft Solaris driver cannot find any Ethernet controller. Action: Verify that
the Ethernet controller is enabled. If the Ethernet controller is enabled, run the diagnostic
programs.
pnt0-15
No more devices to open.
Explanation: The SunSoft Solaris driver cannot find any more Ethernet controllers.
Action: Verify that additional IBM Netfinity 10/100 Fault Tolerant Adapters are present or
replace the Ethernet adapter that fails to respond. If the problem persists, run the diagnostic
programs.
pnt0-17
Device fault...Reset initiated!
Explanation: The SunSoft Solaris driver has been reset due to a device fault. Action: Verify that
additional IBM Netfinity 10/100 Fault Tolerant Adapters are present or replace the Ethernet
adapter that fails to respond. If the problem persists, run the diagnostic programs.
pnt0-19
IRQ found for PCnet hardware does not match space.c (or pnt.conf)!
Explanation: This is a warning message referring to the interrupt request (IRQ) that the SunSoft
Solaris driver found in the system.
Action: Ignore this message if you are sure that this is what you want to do. Otherwise, run the
NETCONFIG program to match the hardware settings
pnt0-20
add_intr_handler failed! Unknown interrupt type.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action:
pnt0-21
•
Modify your hardware settings.
•
Run the NETCONFIG program to search for another Ethernet controller.
add_intr_handler failed! Out of range interrupt number.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action:
pnt0-22
•
Modify your hardware settings.
•
Run the NETCONFIG program to search for another Ethernet controller.
add_intr_handler failed! Out of range IPL.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action: Modify your hardware settings. Run the NETCONFIG program to search for another
Ethernet controller.
pnt0-23
add_intr_handler failed! Vector already occupied.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action: Modify your hardware settings.
Diagnostics
25
Table 5. UNIX LLI driver messages for the Ethernet controller.
pnt0-24
add_intr_handler failed! Vector already shared at different IPL.
Explanation: The interrupt request (IRQ) that was specified, or the IRQ that was found, conflicts
with other devices in the server.
Action:
pnt0-26
•
Modify your hardware settings.
•
Run the NETCONFIG program to search for another Ethernet controller.
The DMA number is not necessary for PCI device.
Explanation: The IBM Netfinity 10/100 Fault Tolerant Adapter does not require a DMA setting.
Action: Edit the SPACE.C file to delete the DMA parameter.
pnt0-29
The IRQ number is already in use.
Explanation: The specified I/O address is already in use.
Action: Run the NETCONFIG program to modify your hardware settings.
pnt0-31
I/O address is not necessary for the PCI device.
Explanation: The I/O address specified is not required.
Action: Remove the assigned I/O address specified for the Ethernet controller
Power checkout
Power problems can be difficult to troubleshoot. For instance, a short circuit can exist
anywhere on any of the power distribution busses. Usually a short circuit will cause
the power subsystem to shut down because of an overcurrent condition.
A general procedure for troubleshooting power problems is as follows:
1.
Power off the system and disconnect the AC cord(s).
2.
Check for loose cables in the power subsystem. Also check for short circuits, for
instance if there is a loose screw causing a short circuit on a circuit board.
3.
Remove adapters and disconnect the cables and power connectors to all internal
and external devices until system is at minimum configuration required for
power on (see "Minimum operating requirements" on page 130).
4.
Reconnect the AC cord and power on the system. If the system powers up
successfully, replace adapters and devices one at a time until the problem is
isolated. If system does not power up from minimal configuration, replace FRUs
of minimal configuration one at a time until the problem is isolated.
To use this method it is important to know the minimum configuration required for a
system to power up (see page 130). For specific problems, see“Power error messages”
on page 127.
Replacing the battery
IBM has designed this product with your safety in mind. The lithium battery must be
handled correctly to avoid possible danger. If you replace the battery, you must
adhere to the following instructions.
CAUTION: When replacing the battery, use only IBM Part Number 10L6432 or an
equivalent type battery recommended by the manufacturer. If your
system has a module containing a lithium battery, replace it only with
the same module type made by the same manufacturer. The battery
26
Hardware Maintenance Manual: xSeries 340 Model 6RY
contains lithium and can explode if not properly used, handled, or
disposed of.
Do not:
•
Throw or immerse into water
•
Heat to more than 100°C (212°F)
•
Repair or disassemble
Dispose of the battery as required by local ordinances or regulations.
Note: In the U.S., call 1-800-IBM-4333 for information about battery disposal.
If you replace the original lithium battery with a heavy-metal battery or a battery with
heavy-metal components, be aware of the following environmental consideration.
Batteries and accumulators that contain heavy metals must not be disposed of with
normal domestic waste. They will be taken back free of charge by the manufacturer,
distributor, or representative, to be recycled or disposed of in a proper manner.
Note: Before you begin be sure to read “Before you begin” on page 45. Follow any
special handling and installation instructions supplied with the replacement
battery.
Note: After you replace the battery, you must reconfigure your server and reset the
system date and time.
To replace the battery:
1.
Review the information in “Before you begin” on page 45 and any special
handling and installation instructions supplied with the replacement battery.
2.
Turn off the server and peripheral devices and disconnect all external cables and
power cords; then, remove the server cover.
3.
Remove the battery:
a.
Use one finger to lift the battery clip over the battery.
b.
Use one finger to slightly slide the battery from its socket. The spring
mechanism behind the battery will push the battery out toward you as you
slide it from the socket.
c.
Use your thumb and index finger to pull the battery from under the battery
clip.
d. Ensure that the battery clip is touching the base of the battery socket by
pressing gently on the clip.
4.
Insert the new battery:
a.
Tilt the battery so that you can insert it into the socket, under the battery clip.
Diagnostics
27
b.
5.
As you slide it under the battery clip, press the battery down into the socket.
Reinstall the server cover and connect the cables.
Note: Wait approximately 20 seconds after you plug the power cord of your
server into an electrical outlet for the Power Control button to become
active.
6.
Turn the server on.
7.
Start the Configuration/Setup Utility program and set configuration parameters.
•
Set the system date and time.
•
Set the power-on password.
•
Reconfigure your server.
Temperature checkout
Proper cooling of the system is important for proper operation and system reliability.
For a typical xSeries 340 server, you should make sure:
•
Each of the drive bays has either a drive or a filler panel installed
•
Each of the power supply bays has either a power supply or a filler panel installed
•
The top cover is in place during normal operation
•
There is at least 50 mm (2 inches) of ventilated space at the sides of the server and
100 mm (4 inches) at the rear of the server
•
The top cover is removed for no longer than 30 minutes while the server is
operating
•
The processor housing cover covering the processor and memory area is removed
for no longer that ten minutes while the server is operating
•
A removed hot-swap drive is replaced within two minutes of removal
•
Cables for optional adapters are routed according to the instructions provided
with the adapters (ensure that cables are not restricting air flow)
•
The fans are operating correctly and the air flow is good
•
A failed fan is replaced within 48 hours
In addition, ensure that the environmental specifications for the system are met. See
“Features and specifications” on page 3.
For more information on specific temperature error messages, see “Temperature error
messages” on page 126.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Configuring the server
The following configuration programs are provided with your server:
•
Configuration/Setup Utility
This Configuration/Setup Utility program is part of the basic input/output system
(BIOS) that comes with your server. You can use this program to configure serial
and parallel port assignments, change interrupt request (IRQ) settings, change the
drive startup sequence, set the date and time, and set passwords. See “Using the
Configuration/Setup Utility program” for more information.
•
SCSISelect Utility
With the built-in SCSISelect Utility program, you can configure the devices
attached to the integrated SCSI controller. See “Using the SCSISelect utility
program” on page 35 for more information.
•
ServerGuide CDs
The ServerGuide CDs include software setup and installation tools specifically
designed for xSeries 340 servers. You can use these CDs during the initial
installation of your server to configure the server hardware and simplify your
network operating system installation. The ServerGuide CDs also contain a
collection of application programs, which you can install after your server is up
and running. See “Server features” on page 5“ for more detailed information.
•
ServeRAID programs
The ServeRAID programs come with the optional ServeRAID adapters and with
server models that have a ServeRAID adapter preinstalled. If your server has a
ServeRAID adapter installed, you must use the ServeRAID Configuration
program to define and configure your disk-array subsystem before you install
your operating system. See “Configuring the server”“Chapter 5. Using IBM
ServeRAID,” on page 29 for more detailed information.
Using the Configuration/Setup Utility program
This section provides the instructions needed to start the Configuration/Setup Utility
program and descriptions of the menu choices available.
Starting the Configuration/Setup Utility program
To start the Configuration/Setup Utility program:
1.
Turn on the server and watch the monitor screen.
2.
When the message Press F1 for Configuration/Setup appears, press F1.
Note: If you have set both levels of passwords (user and administrator), you
must enter the administrator password to access the full
Configuration/Setup menu.
3.
© Copyright IBM Corp. 2000
Follow the instructions that appear on the screen.
29
Choices available from the Configuration/Setup main
menu
From the Configuration/Setup Utility main menu, you can select settings that you
want to change. The Configuration/Setup Utility main menu is similar to the
following:
IBM - © IBM Corporation 2000
Configuration/Setup Utility
• System Summary
• System Information
• Devices and I/O Ports
• Date and Time
• System Security
• Start Options
• Advanced Setup
• Error Logs
Save Settings
Restore Settings
Load Default Settings
Exit Setup
<F1> Help
<Esc> Exit
< ↑ > < ↓ > Move
<Enter> Select
Notes:
1.
You can press F1 to display Help information for a selected menu item.
2.
The choices on some menus might differ slightly, depending on the BIOS version
in your server.
Descriptions of the choices available from the main menu are as follows:
•
System Summary
Select this choice to display configuration information. This includes the type and
speed of the microprocessors and the amount of memory installed.
Changes that you make to configuration settings appear on this summary screen.
You cannot edit the fields.
This choice appears on both the full and limited Configuration/Setup Utility
menus.
•
System Information
Select this choice to display information about your server. Changes that you
make on other menus might appear on this summary screen. You cannot edit any
fields. The System Information choice appears only on the full
Configuration/Setup Utility main menu.
— Product Data
Select this choice to view system information, such as the machine type and
model, the server serial number, and the revision level or issue date of the
BIOS stored in the flash electronically erasable programmable ROM
(EEPROM).
— System Card Data
Select this choice to view vital product data (VPD) for some server
components.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
•
Devices and I/O Ports
Select this choice to view or change the assignments for devices and input/output
ports. This choice appears only on the full Configuration/Setup Utility main
menu.
•
Date and Time
Select this choice to set the system date and time and to change the system time
sent to the Configuration/Setup Utility (service processor) when the server is
started. This choice appears only on the full Configuration/Setup Utility main
menu.
The system time is in a 24-hour format: hour:minute:second.
You can set a time delta to be added or subtracted from the system time that is
sent to the service processor (Configuration/Setup Utility) each time the server is
started. Use the number keys to enter the hours and minutes and + or − to add or
subtract from the system time. If you want the system clock time to be the same as
the Configuration/Setup Utility clock time, leave the value set at its default of 0.
•
System Security
Select this choice to set passwords or a system owner’s name. This choice appears
only on the full Configuration/Setup Utility main menu.
You can implement two levels of password protection:
— Power-on Password
Select this choice to set or change a power-on password. See “Using
passwords” on page 33 for more information.
— Administrator Password
Select this choice to set or change an administrator password.
Attention: If an administrator password is set and then forgotten, it cannot be
overridden or removed. You must replace the system board.
The administrator password provides access to all choices on the
Configuration/Setup Utility main menu. You can set, change, or delete both
the administrator and power-on passwords, and allow a power-on password
to be changed by the user.
See “Using passwords” on page 33 for more information.
— System Owner’s Name
Select this choice to specify a system owner’s name, which will display during
POST. You can remove or change the name only from the System Security
menu. You can use any combination of up to 16 characters for the system
owner’s name.
•
Start Options
Select this choice to view or change the start options. This choice appears only on
the full Configuration/Setup Utility main menu. Start options take effect when
you start your server.
You can select keyboard operating characteristics, such as the keyboard speed.
You also can specify whether the keyboard number lock starts on or off. You also
can enable the server to run without a diskette drive, monitor, or keyboard.
The server uses a startup sequence to determine the device from which the
operating system loads. For example, you can define a startup sequence that
checks for a startable diskette in the diskette drive, then checks the hard disk
drive in bay 1, and then checks a network adapter.
Configuring the server
31
You also can select which PCI SCSI adapter is given boot precedence. The first
drive that is attached to the selected adapter will be assigned drive number 80L
and the operating system will start from that drive. The default for boot
precedence is Disabled. The range of choices depends upon the number of PCI
SCSI adapters installed in the server.
You can enable a virus-detection test that checks for changes in the master boot
record at startup. You also can choose to run POST in the enhanced mode or the
quick mode.
•
Advanced Setup
Select this choice to change values for advanced hardware features, such as cache
control, and PCI configuration. This choice appears only on the full
Configuration/Setup Utility main menu.
A warning message appears above the choices on this menu to alert you that the
system might malfunction if these options are configured incorrectly. Follow the
instructions on the screen carefully.
— Processor Serial Number Access
Select this choice to identify if the microprocessor serial number in the
microprocessor is readable.
— Core Chipset Control
Select this choice to modify settings that control features of the core chip set
on the system board.
Attention: Do not make changes here unless directed to do so by an IBM
authorized service representative.
— Cache Control
Select this choice to enable or disable the microprocessor cache. In addition,
you can define the microprocessor cache type as write-back (WB) or writethrough (WT). Selecting write-back mode will provide the maximum system
performance.
— PCI Slot/Device Information
Select this choice to view and identify system resources used by PCI devices.
PCI devices automatically communicate with the server configuration
information. This usually results in automatic configuration of a PCI device.
Attention: You must use the menu selections to save custom settings for the
PCI Slot/Device Information choice. The save, restore and load default
settings choices on the main menu of the Configuration/Setup Utility do not
save the PCI Slot/Device Information settings.
After making changes, select:
–
Save and exit the PCI Utility to save the changes and return to the
Advanced Setup choice.
–
Exit the PCI Utility without saving changes to ignore the changes,
restore the previous settings, and return to the Advanced Setup choice.
PCI Device Control allows you to enable or disable the integrated SCSI,
video, and Ethernet controllers. You can also enable or disable PCI slots from
this menu.
–
32
The default setting is Enable for all the controllers and PCI slots. If you
select Disable, the system will not configure the disabled device and the
operating system will not see the device. (This is equivalent to
unplugging the device.)
Hardware Maintenance Manual: xSeries 340 Model 6RY
–
If the on-board SCSI controller is disabled and no other controller and
mass storage device are installed, operating system startup cannot occur.
–
If the video controller is disabled and no video adapter is installed, the
server will have no video capability. However, turning the server off and
on three times results in a default startup that enables video again.
— Memory Settings
Select this choice to manually disable or enable a bank of memory.
If a memory error is detected during POST or memory configuration, the
server can automatically disable the failing memory bank and continue
operating with reduced memory capacity. If this occurs, you must manually
enable the memory bank after the problem is corrected. Select Memory
Settings from the Advanced Setup menu, use the arrow keys to highlight the
bank that you want to enable; then, use the arrow keys to select Enable.
•
System Service Processor Settings
Select this choice to view the interrupt-request setting (IRQ) used by the
Configuration/Setup Utility (system service processor). You can then use the
arrow keys to select a new IRQ setting for the Configuration/Setup Utility from
the list of available choices.
•
Event/Error Logs
Select this choice to view or clear error logs.
— Select Clear error logs to clear the error or event log.
— Select POST Error Log to view the three most recent error codes and
messages that the system generated during POST.
— Select System Event/Error Log to view the system event/error log. The
system event/error log contains all the system error and warning messages
that the system has generated. You can use the arrow keys to move between
pages in the system event/error log.
•
Save Settings
Select this choice to save your customized settings.
•
Restore Settings
Select this choice to delete your changes and restore the previous settings.
•
Load Default Settings
Select this choice to cancel your changes and restore the factory settings.
•
Exit Setup
If you have made any changes, the program will prompt you to save the changes
or exit without saving the changes.
Using passwords
The System Security choice appears only on the full Configuration/Setup Utility
menu. After you select this choice, you can implement two levels of protection:
power-on password and administrator password.
Power-on password
After you set a power-on password, you can enable the unattended-start mode. This
locks the keyboard and mouse, but allows the system to start the operating system.
The keyboard and mouse remain locked until you enter the correct password.
You can use any combination of up to seven characters (A–Z, a–z, and 0–9) for your
power-on password. Keep a record of your password in a secure place. If you forget
Configuring the server
33
the power-on password, you can regain access to the server through one of the
following methods:
•
If an administrator password is set, enter the administrator password at the
power-on prompt. Start the Configuration/Setup Utility program and change the
power-on password.
•
Change the position of the password override switch as described in “Setting the
password override switch”.
•
Remove the battery and then install the battery.
Setting the password override switch: The following illustration shows the location
of the password override switch (switch 8 on switch block 1) on the system board.
Note: As shown in the illustration, switch 8 is the one at the top of the switch block.
c1 d
PCI slot 5 64-bit (J44)
c2 d
PCI slot 4 64-bit (J39)
c3 d
PCI slot 3 64-bit (J34)
c4 d
PCI slot 2 32-bit (J32)
c5 d
PCI slot 1 32-bit (J27)
To set the password override switch:
34
1.
Review the information in “Before you begin” on page 45.
2.
Turn off the server and peripheral devices and disconnect all external cables and
power cords; then, remove the cover. See “Removing the cover and bezel” on
page 47.
3.
Change the setting of the password override switch (switch 8 on switch block 1 on
the system board) to ON.
4.
Install the server cover (see “Installing the server cover and bezel” on page 60)
and connect all external cables and power cords.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Note: You can now start the Configuration/Setup utility program and change the
power-on password. If you want the server to ask for a password when you
turn on the server, set the password override switch back to the OFF position.
Administrator password
Select this choice to set an administrator password. The administrator password
provides access to all choices on the Configuration/Setup Utility main menu. You can
set, change, or delete both the administrator and power-on passwords, and allow a
power-on password to be changed by the user.
Attention: If an administrator password is set and then forgotten, it cannot be
overridden or removed. You must replace the system board.
The following table provides a summary of the password features.
Table 6. Power-on and administrator password features.
Type of password
Power-on password
Administrator password
Administrator and power-on
password
Results
•
Enter the password to complete the system startup.
•
All choices are available on the Configuration/Setup Utility main menu.
•
No password is required to start the system.
•
Enter the password to access the Configuration/Setup Utility program.
•
All choices are available on the Configuration/Setup Utility main menu.
•
You can enter either password to complete the system startup.
•
The administrator password provides access to all choices on the
Configuration/Setup Utility main menu. You can set, change, or delete both
the administrator and power-on passwords, and allow a power-on
password to be changed by the user.
•
The power-on password provides access to a limited set of choices on the
Configuration/Setup Utility main menu. This limited access might include
changing or deleting the power-on password.
Using the SCSISelect utility program
SCSISelect is a built-in, menu-driven configuration utility program that you can use
to:
•
View the default SCSI IDs
•
Locate and correct configuration conflicts
•
Perform a low-level format on a SCSI hard disk
The following sections provide the instructions needed to start the SCSISelect Utility
and descriptions of the menu choices available.
Note: If your server has a RAID adapter installed, use the configuration method
supplied with the RAID adapter to view or change SCSI settings for attached
devices.
Starting the SCSISelect utility program
To start the SCSISelect utility program:
1.
Turn on the server.
2.
When the <<< Press <CTRL><A> for SCSISelect™ Utility! >>> prompt appears,
press Ctrl+A.
Configuring the server
35
Note: If an administrator password has been set, a prompt appears asking you to
enter the password to start the SCSISelect Utility program.
3.
When prompted, select either channel A (internal) or channel B (external).
4.
Use the arrow keys to select a choice from the menu.
5.
•
Press Esc to return to the previous menu.
•
Press the F5 key to switch between color and monochrome modes (if your
monitor permits).
Follow the instructions on the screen to change the settings of the selected items;
then, press Enter.
Choices available from the SCSISelect menu
The following choices appear on the SCSISelect Utility menu:
•
Configure/View Host Adapter Settings
Select this choice to view or change the SCSI controller settings. To reset the SCSI
controller to its default values, press F6; then, follow the instructions that appear
on the screen.
You can view or change the following controller settings:
— Host Adapter SCSI ID
Select this choice to view the SCSI controller ID, normally 7.
— SCSI Parity Checking
Select this choice to view the assigned value of Enabled.
— Host Adapter SCSI Termination
Select this choice to view the assigned value of Automatic.
— Boot Device Options
Select this choice to configure startable device parameters. Before you can
make updates, you must know the ID of the device whose parameters you
want to configure.
— SCSI Device Configuration
Select this choice to configure SCSI device parameters. Before you can make
updates, you must know the ID of the device whose parameters you want to
configure.
Note: The Maximum Sync Transfer Rate represents the transfer rate for Ultra
SCSI devices.
–
The transfer rate for Ultra3 SCSI LVD devices is 160.0
–
The transfer rate for Ultra2 SCSI LVD devices is 80.0
–
The transfer rate for Fast SCSI devices is 20.0
— Advanced Configuration Options
Select this choice to view or change the settings for advanced configuration
options. These options include enabling support for large hard disk drives
and support for drives with UltraSCSI speeds.
•
SCSI Disk Utilities
Select this choice to view the SCSI IDs that are assigned to each device or to
format a SCSI device.
To use the utility program, select a drive from the list. Read the screens carefully
before making a selection.
36
Hardware Maintenance Manual: xSeries 340 Model 6RY
Note: If you press Ctrl+A before the selected drives are ready, an Unexpected
SCSI Command Failure screen might appear. Restart the server and watch
the SCSISelect messages as each drive spins up. After the drive that you
want to view or format spins up, press Ctrl+A.
•
Format Disk
Attention: The Low-Level Format program erases all data and programs.
Select this choice to perform a low-level format on a hard disk drive. Depending
on the hard disk drive capacity, the Low-Level Format program could take up to
two hours.
Use the Low-Level Format program:
— When you are installing software that requires a low-level format
— When you get recurring messages from the diagnostic tests directing you to
run the Low-Level Format program on the hard disk drive
— As a last resort before replacing a failing hard disk drive
Note: If your server has a PCI RAID adapter installed, refer to the RAID adapter
documentation for instructions for performing low-level formats on hard
disk drives attached to the adapter.
To start the Low-Level Format program:
1.
If the hard disk is working, make a backup copy of all the files and programs
on the hard disk drive. (See your operating system information for
instructions.)
2.
Select Format Disk; then, follow the instructions on the screen.
Note: Hard disks normally contain more tracks than their stated capacity (to
allow for defective tracks). A message appears on the screen if the
defect limit is reached. If this happens, have the system serviced.
Configuring the server
37
38
Hardware Maintenance Manual: xSeries 340 Model 6RY
Installing options
This chapter provides instructions to help you add options to your server. Some
option-removal instructions are provided, in case you need to remove one option to
install another.
Exploded view of the xSeries 340 server
The orange color on components and labels in your server identifies hot-swap or hotplug components. This means that you can install or remove the components while
the system is running, provided that your system is configured to support this
function. For complete information about installing or removing a hot-swap or hotplug component, see the information provided in the detailed procedures in this
document under “Installing a hot-swap drive” on page 52.
The blue color on components and labels indicates touch points where a component
can be gripped, a latch moved, and so on.
c1 d
Slim HDD bezel filler assembly
c2 d
Hard disk drive tray
c3 d
Power Supply
c4 d
Filler panel for the power supply bay
c5 d
Filler panel for the device bay
c6 d
System board
c7 d
Terminator Card
c8 d
DIMM
c9 d
Microprocessor
© Copyright IBM Corp. 2000
39
c10d
Air baffle
c11d
Rear fan
System board layout
The illustrations in the following sections show the components on the system board.
System board options connectors
The following illustration shows a layout of the system board and identifies systemboard connectors for user-installable options.
40
c1 d
PCI slot 5 64-bit (J44)
c2 d
Battery
c3 d
PCI slot 4 64-bit (J39)
c4 d
PCI slot 3 64-bit (J34)
c5 d
PCI slot 2 64-bit (J32)
c6 d
PCI slot 1 64-bit (J27)
c7 d
DIMM 1 (J23)
c8 d
DIMM 2 (J21)
c9 d
DIMM 3 (J19)
c10d
DIMM 4 (J18)
c11d
Primary microprocessor (U17)
c12d
Secondary microprocessor (U3)
c13d
Voltage regulator module 2 (VRM2) (U26)
Hardware Maintenance Manual: xSeries 340 Model 6RY
System board internal cable connectors
The following illustration shows internal cable connectors on the system board.
c1 d
Internal SCSI channel A (J29)
c2 d
Internal SCSI channel B (J17)
c3 d
Fan 3 (J35)
c4 d
Main Power (J4)
c5 d
Power (J51)
c6 d
Fan 1 (J59)
c7 d
3.3V power for optional backplane (J52)
c8 d
Power system management (J12)
c9 d
DASD (SCSI) system management (J5)
c10d
Fan 2 (J60)
c11d
Operator information panel (J50)
c12d
On-off / Reset panel (J38)
c13d
IDE (J31)
c14d
Diskette (J26)
System board external port connectors
The following illustration shows the external port connectors in the system board.
Installing options
41
c1 d
Parallel port (J22)
c2 d
Video / Advanced System Management Process or port (J13)
c3 d
USB ports (J11)
c4 d
Ethernet ports (J9)
c5 d
Keyboard / mouse port (J6)
c6 d
Serial ports (J3)
System board switches and jumpers
The following illustration identifies the switches and jumpers on the system board.
42
Hardware Maintenance Manual: xSeries 340 Model 6RY
c1 d
System board switch block (SW1)
c2 d
Boot block jumper (J37)
System board jumper blocks
Any jumper blocks on the system board that are not shown in the illustration are
reserved. For normal operation of the system, no jumpers should be installed on any
of the jumper blocks. See “Recovering BIOS” on page 16 for information about the
boot block jumper.
System board switch block
The switch block contains microswitches 1-8. As shown in this illustration, switch 8 is
at the top of the switch block and switch 1 is at the bottom.
The following table describes each switch.
Table 7. Switches 1-8.
Switch number
1- 4
5
Description
Microprocessor speed setting. See Table 8 on page 44.
Power-on override.
When On, overrides the power-on switch and forces power-on mode. The system will always
boot without the use of the power-on switch. The default setting is Off (disabled).
6
Clock frequency selection.
When On, sets the host bus speed to 100 MHz. When Off, the host bus speed is 133 MHz. The
default setting is Off.
7
Reserved. The default setting is Off.
Installing options
43
Table 7. Switches 1-8.
Switch number
8
Description
Password override.
When On, bypass the power-on password. When Off, require the user to enter the power-on
password at startup, if one is set. The default setting is Off.
Table 8. Microprocessor speed settings.
Microprocessor speed
133/1000MHz
Switch 1
Switch 2
Switch 3
Switch 4
off
off
off
on
Note: The speed settings shown above apply only to unlocked processors. If the
processors are production level they are locked and there is no need to change
the speed settings.
System board LED locations
The following illustration identifies LEDs on the system board. You might need to
refer to this figure when solving problems with the server.
44
c1 d
Secondary microprocessor failure (CR7)
c2 d
Primary microprocessor failure (CR1)
c3 d
Voltage regulator module (VRM2) failure (CR16)
c4 d
Integrated voltage regulator (VRM1) failure (CR4)
c5 d
Diagnostics panel (See Table 6)
c6 d
Advanced System Management Processor error (CR70)
c7 d
Power-on (CR56)
c8 d
DIMM1 failure (CR21)
c9 d
DIMM2 failure (CR28)
c10d
DIMM3 ailure (CR18)
Hardware Maintenance Manual: xSeries 340 Model 6RY
c11d
DIMM4 failure (CR20)
Table 9. Diagnostics panel LEDs.
CR
LED
Description
29
PS1
Power supply 1 failure.
30
PS2
Power supply 2 failure.
31
PS3
Not used.
32
NON
Non-redundant power.
33
OVER
Overspecification. The system has exceeded the power capibilities of the installed
power supply units.
34
NMI
Non-maskable-interrupt occurred.
22
TEMP
System temperature exceeded maximum rating.
23
FAN
A fan failed or is operating slowly.
24
MEM
Memory failure. One or more dual in-line memory modules (DIMMS) failed.
25
CPU
Microprocessor failure. One or both microprocessors failed.
26
PCI 1
Error on primary PCI channel (A) or system board.
27
PCI 2
Error on secondary PCI channel (B) or system board.
58
VRM
Error on voltage regulator module or on integrated voltage regulator.
53
DASD1
SCSI bus A failure. The SCSI backplane (if any) or a device connected to SCSI bus
A failed.
57
DASD2
SCSI bus B failure. The SCSI hot-swap disk drive backplane on SCSI bus B failed.
Before you begin
Before you begin to install options in your server, read the following information:
•
Become familiar with the safety and handling guidelines specified under
“Working inside a server with power on” on page 46, “Handling static-sensitive
devices” on page 46, and read “Safety information” on page 137. These guidelines
will help you work safely while working with your server or options.
•
You do not need to turn off the server to install or replace hot-swap power
supplies, hot-swap drives, hot-swap fans, or hot-plug PCI adapters.
•
The orange color on components and labels in your server indentifies hot-swap or
hot-plug components. This means that you can install or remove the component
while the system is running, provided that your system is configured to support
this function. For complete details about installing or removing a hot-swap or hotplug component, see the information provided in this chapter.
•
The blue color on components and labels indentifies touch points where a
component can be gripped, a latch moved, and so on.
•
Make sure that you have an adequate number of properly grounded electrical
outlets for your server, monitor, and any other options that you intend to install.
•
Back up all important data before you make changes to disk drives.
•
Have a small, flat-blade screwdriver available.
System reliability considerations
To help ensure proper cooling and system reliability, make sure:
Installing options
45
•
Each of the drive bays has either a drive or a filler panel installed.
•
Each of the power supply bays has either a power supply or a filler panel
installed.
•
The cover is in place during normal operation.
•
Space is available around the server to allow the server cooling system to work
properly. Refer to the documentation that comes with the rack.
•
The cover is removed for no longer than 30 minutes while the server is operating.
•
A removed hot-swap drive is replaced within two minutes of removal.
•
Cables for optional adapters are routed according to the instructions provided
with the adapters.
•
A failed fan is replaced within 48 hours.
Working inside a server with power on
Your server supports hot-plug, hot-add, and hot-swap devices and it is designedto
operate safely while turned on with the cover removed. Follow these guidelines when
you work inside a server that is turned on:
•
Avoid loose-fitting clothing on your forearms. Button long-sleeved shirts before
working inside the server; do not wear cuff links while you are working inside the
server.
•
Do not allow your necktie to hang inside the server.
•
Remove jewelry, such as bracelets, necklaces, and loose-fitting wrist watches.
•
Remove items from your shirt pocket (such as pens or pencils) that could fall into
the server as you lean over it.
•
Take care to avoid dropping any metallic objects, such as paper clips, hair pins, or
screws, into the server.
Handling static-sensitive devices
Static electricity, though harmless to you, can seriously damage server components or
options.
Note: When you are adding an internal option, do not open the static-protective
package containing the option until you are instructed to do so.
When you handle options and other server components, take these precautions to
avoid damage from static electricity:
46
•
Limit your movement. Movement can cause static electricity to build up around
you.
•
Always handle components carefully. Handle adapters, the memory board, and
memory modules (DIMMs) by the edges. Never touch any exposed circuitry.
•
Prevent others from touching components.
•
When you are installing a new option, touch the static-protective package
containing the option to a metal expansion-slot screw or other unpainted metal
surface on the server for at least two seconds. (This reduces static electricity from
the package and from your body.)
•
When possible, remove the option and install it directly into the server without
setting the option down. When this is not possible, place the static-protective
package that the option comes in on a smooth, level surface and place the option
on it.
•
Do not place the option on the server's covers or any metal surface.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Removing the cover and bezel
c1 d
Cover
c2 d
Cover release latch
c3 d
Flanges
To remove the server top cover:
1.
Review the information in “Before you begin” on page 45.
2.
If you are planning to install or remove any part other than a hot-swap hard disk
drive, hot-swap power supply, or hot-swap fan, turn off the server and all
attached devices and disconnect all external cables and power cords.
3.
Release the left and right side latches and pull the server out of the rack enclosure
until both slide rails lock.
Note: When the server is in the locked position, you can reach the cables on the
back of the server.
4.
Lift the cover-release latch and slide the top cover toward the rear of the server
about 25 mm (1 inch). Lift the cover off the server and set the cover aside.
Attention: For proper cooling and airflow, replace the cover before turning on
the server. Operating the server for extended periods of time (over 30
minutes) with the cover removed might damage server components.
To remove the bezel:
1.
Press in on the top sides of the bezel and pull the bezel away from the server
front.
2.
Store the bezel in a safe place.
Working with adapters
You can install up to five peripheral component interconnect (PCI) adapters in the
expansion connectors on the system board.
Your server comes with a video controller. This video controller is an integrated
component on the system board. It is not removable. If you want to disable this
controller and use a video adapter instead, you can install a video adapter in an
expansion slot. When you install a video adapter, the server BIOS automatically
disables the integrated video controller.
The following illustration shows the location of the PCI expansion slots on the system
board.
Installing options
47
c1 d
PCI slot 5 64-bit (J44)
c2 d
PCI slot 4 64-bit (J39)
c3 d
PCI slot 3 64-bit (J34)
c4 d
PCI slot 2 32-bit (J32)
c5 d
PCI slot 1 32-bit (J27)
Adapter considerations
Before you continue with the adapter-installation procedure:
•
Review the documentation that comes with the adapter and follow those
instructions in addition to the instructions given in this section. If you need to
change the switch or jumper settings on your adapter, follow the instructions that
come with the adapter.
•
You can install full-length adapters in all expansion slots.
•
You can install a 32-bit RAID adapter in any of the PCI slots, but you might want
to install it in a 32-bit slot and use the 64-bit slots for 64-bit adapters.
•
Your server supports 5.0V and universal PCI adapters; it does not support 3.3V
adapters.
Note: Universal PCI adapters support both 3.3 V and 5.0 V operation.
48
•
Your server uses a rotational interrupt technique to configure PCI adapters.
Because of this technique, you can install a variety of PCI adapters that currently
do not support sharing of PCI interrupts.
•
PCI slots 1 and 2 are on primary PCI bus A and PCI slots 3, 4, and 5 are on
secondary PCI bus B. The system scans PCI slots 1 through 5 to assign system
resources; then the system starts (boots) the PCI devices in the following order, if
you have not changed the boot precedence from the default: PCI slots 1 and 2,
system board SCSI devices, and then PCI slots 3 through 5.
Hardware Maintenance Manual: xSeries 340 Model 6RY
You can use the Configuration/Setup Utility program to change the boot
precedence for your server. Select Start Options from the Configuration/Setup
Utility program.
Adapter installation instructions
c1 d
Adapter
c2 d
Expansion-slot cover
The following illustration shows the rerouting of the SCSI cable if you install a
ServerRAID adapter.
c1 d
Cable port
To install an adapter:
1.
Review the information in “Before you begin” on page 45.
2.
Turn off the server and peripheral devices and disconnect all external cables and
power cords; then, remove the cover (see “Removing the cover and bezel” on
page 47).
3.
Determine which expansion slot you will use for the adapter.
Attention: Check the instructions that come with the adapter for any
requirements or restrictions.
Installing options
49
4.
Remove the expansion-slot cover:
a.
Loosen and remove the screw on the top of the expansion-slot cover.
b.
Slide the expansion-slot cover out of the server. Store it in a safe place for
future use.
Attention: Expansion-slot covers must be installed on the openings for all
vacant slots. This maintains the electromagnetic emissions characteristics of
the system and ensures proper cooling of system components.
5.
Refer to the documentation that comes with your adapter for any cabling
instructions. It might be easier for you to route any cables before you install the
adapter.
6.
Remove the adapter from the static-protective package.
Attention: Avoid touching the components and gold-edge connectors on the
adapter.
7.
Place the adapter, component-side up, on a flat, static-protective surface.
8.
Set any jumpers or switches as described by the adapter manufacturer.
9.
Install the adapter:
a.
Carefully grasp the adapter by its top edge or upper corners, and align it with
the expansion slot on the system board.
b.
Press the adapter firmly into the expansion slot.
Attention: When you install an adapter in the server, be sure that it is
completely and correctly seated in the system-board connector
before you apply power. Incomplete insertion might cause
damage to the system board or the adapter.
c.
Insert and tighten the expansion-slot screw on the top of the adapter bracket.
10. Connect any needed cables to the adapter.
•
If you are installing a ServeRAID adapter, disconnect the cable from SCSI
connector A on the system board and plug it into the connector on the top of
the ServeRAID adapter.
•
If you are installing an adapter that is not a ServeRAID adapter, refer to the
documentation that came with your adapter for cabling instructions.
Attention: Route cables so that the flow of air from the fans is not blocked.
11. If you have other options to install or remove, do so now; otherwise, go to
“Installing the server cover and bezel” on page 60.
Installing internal drives
If you add different types of drives, your system can read multiple types of media and
store more data. Several types of drives are available, such as:
•
•
•
•
Diskette
Hard disk
CD-ROM
Tape
Your server contains hardware that lets you replace a failed hard disk drive without
turning off the server. Therefore, you have the advantage of continuing to operate
your system while a hard disk drive is removed or installed. These drives are known
as hot-swappable or hot-swap drives.
Each hot-swap drive bay has two indicator lights (see “Controls and indicators” on
page 7). If the amber hard-disk status light is lit continuously, that individual drive is
50
Hardware Maintenance Manual: xSeries 340 Model 6RY
faulty and needs to be replaced. When the hard-disk status light indicates a drive
fault, you can replace that hot-swap drive without turning off the server.
Each hot-swap drive that you plan to install must have a hot-swap-drive tray
attached. The drive must have a single connector attachment (SCA) connector. Hotswap-drive trays come with the hot-swap drives.
Internal drive bays
Internal drives are installed in bays. Your server comes with a preinstalled diskette
drive and a preinstalled CD-ROM drive.
c1 d
CD-ROM drive
c2 d
Diskette drive
c3 d
How-swap bay (SCSI ID 2)
c4 d
How-swap bay (SCSI ID 0)
c5 d
How-swap bay (SCSI ID 1)
c6 d
Empty 5.25-inch bays
•
Your server comes with one 3.5-inch, 1.44 MB diskette drive and one IDE CDROM drive.
•
The empty bays below the diskette drive come without a device installed. You can
use these bays for 5.25-inch, half-high, removable-media drives, such as tape
backup drives. You also can combine these bays into a single, full-high bay and
install a digital linear tape (DLT) drive; or, you can install a 3-Pack Hard-Disk
Drive option, which converts these bays to three hot-swap drive bays.
•
The xSeries 340 server supports only one diskette drive.
•
If you are installing a device with a 50-pin connector in either bay A or B, you
need a 68-pin to 50-pin converter (option number 32G3925).
•
Your server supports three slim-high (1-inch) hot-swap hard disk drives in the
hot-swap bays. If your server has the 3-Pack Bay option installed, it supports
three additional hot-swap hard disk drives.
•
The hot-swap bays connect to a SCSI backplane. This backplane is a printed circuit
board behind the bay.
Note: The server's EMI integrity and cooling are both protected by having bays A
and B covered or occupied. When you install a drive, save the filler panel from
the bay, in case you later remove the drive and do not replace it with another.
SCSI drives
Some drives have a special design called small computer system interface, or SCSI. This
design allows you to attach multiple drives to a single SCSI channel.
Installing options
51
Notes:
1.
Any information about SCSI drives also applies to other SCSI devices, such as
tape drives.
2.
If you plan to install both internal and external SCSI devices, you must follow the
instructions in “Connecting external options” on page 61, in addition to the
instructions in this section.
A 16-bit (wide) SCSI cable connects the SCSI hard-disk drive backplane to an
integrated SCSI controller on the system board. An additional 16-bit 1-drop SCSI cable
is shipped inside your server. It is folded and restrained with a cable clamp on the
bottom of the server chassis near the empty bays. You can use this cable to connect an
optional SCSI device installed in one of the empty 5.25-inch bays to the SCSI channel
A connector on the system board.
SCSI IDs
Each SCSI device that is connected to an individual channel of a SCSI controller needs
a unique identification (ID) so that the controller can identify the devices and ensure
that different devices do not attempt to transfer data at the same time. If you need to
set IDs for SCSI devices, refer to the instructions that come with those devices.
Your server automatically sets SCSI IDs for hot-swap hard disk drives.
The SCSI ID assigned to each hot-swap bay is shown on your server beside the bay.
The server uses the hard disk drive SCSI IDs to send status information to the
indicator lights above each hot-swap bay.
The processing sequence for SCSI devices is set through the SCSISelect Utility
program. The default sequence proceeds from the lowest SCSI ID to the highest (0 to
15).
Ensure that the device you are installing is not terminated. It is not necessary to set
termination jumpers on internal SCSI devices. The server hardware provides
termination for all internal SCSI devices.
Installing a hot-swap drive
The hot-swap drive bays support hot-swap drives only.
This section gives the procedure for installing a hot-swap hard disk drive. If you want
to remove a drive, reverse the following steps.
Notes:
52
1.
To minimize the possibility of damage to the hard disk drives, install the server in
the rack before installing the hard disk drives.
2.
You do not have to turn off the server to install hot-swap drives. However, you
must turn off the server when performing any steps that involve installing or
removing cables.
Hardware Maintenance Manual: xSeries 340 Model 6RY
c1 d
Filler panel
c2 d
Drive-tray assembly
c3 d
Drive handle
To install a drive in a hot-swap drive bay:
1.
Review the information in “Before you begin” on page 45.
Attention: To maintain proper system cooling, do not operate the server for
more than two minutes without either a drive or a filler panel
installed for each bay.
2.
Remove the filler panel from one of the empty hot-swap bays by inserting your
finger into the depression on the filler panel and pulling it away from the server.
3.
Install the hard disk drive in the hot-swap bay:
a.
Ensure the tray handle is open (that is, perpendicular to the drive).
b.
Align the drive/tray assembly with the guide rails in the bay.
c.
Gently push the drive/tray assembly into the bay until the drive connects to
the backplane.
d. Push the tray handle down until it locks.
4.
Check the hard disk drive status indicators to verify that the hard disk drive is
operating properly.
Installing a non-hot-swap drive
Before you install drives in your server, verify that you have all the cables and any
other equipment specified in the documentation that comes with the internal drive.
You might also need to perform certain preinstallation activities. Some of the steps are
required only during the initial installation of an option.
Installing options
53
c1 d
Slide rails
c2 d
Filler panel
c3 d
Slide rail
c4 d
Drive
c5 d
Slide rail
To install a non-hot-swap drive:
1.
Review the information in“Before you begin” on page 45.
2.
Turn off the server and peripheral devices and then remove the cover. (See
“Removing the cover and bezel” on page 47 .)
3.
Remove the trim bezel.
4.
Remove the filler panel from the bay opening by pulling the filler panel away
from the server. You do not need the filler panel when you have a drive installed
in the bay.
Note: The server's EMI integrity and cooling are protected by having the nonhot-swap bays covered or occupied. When you install a drive, save the
filler panel from the bay, in case you later remove the drive and do not
replace it with another.
5.
Touch the static-protective bag containing the drive to any unpainted metal
surface on the server; then, remove the drive from the bag and place it on a staticprotective surface.
6.
Set any jumpers or switches on the drive according to the documentation that
comes with the drive.
7.
Install rails on the drive.
•
If you are installing a standard-size drive:
a.
54
Pull the blue slide rails off the back of the filler panel.
Hardware Maintenance Manual: xSeries 340 Model 6RY
b.
•
Clip the rails onto the sides of the drive.
If you are installing a digital linear tape (DLT) backup drive, use the metal
slide rails and screws that are shipped in the box that contains the server
documentation.
8.
Place the drive so that the slide rails engage in the bay guide rails. Push the drive
into the bay until it clicks into place.
9.
If you are installing a SCSI device, continue with the next step. If you are
installing an IDE device, go to step 12..
10. To install a SCSI device:
a.
Attach the connector on the 1-drop SCSI cable for the non-hot-swap drive
bays to the back of the drive. The cable is shipped restrained in a cable clamp
on the bottom of the server chassis near the bays. Connect the other end of the
cable to SCSI channel A on the system board, if it is not already attached. See
“System board internal cable connectors” on page 41 for the location of the
SCSI channel A connector.
Note: If you want to install more than one optional SCSI 5.25-inch device,
install an optional SCSI adapter to control the device.
b.
Connect a power cable to the back of the drive. Power cables for non-hotswap drives come installed in your server. The connectors are keyed and can
be inserted only one way.
c.
Continue with step 12.
11. To install an IDE device, such as a CD-ROM drive or a DVD-ROM drive, use the
two-drop IDE cable that comes with the option:
a.
Remove the cable connecting the CD-ROM drive to the IDE connector on the
system board.
b.
Using the two-drop cable that came with your IDE option, connect the CDROM drive and the IDE device to the IDE connector on the system board.
c.
Set the jumper on the back of the new IDE device to slave.
12. If you have other options to install or remove, do so now; otherwise, go to
“Installing the server cover and bezel” on page 60.
Installing a microprocessor
Your server comes with one microprocessor installed on the system board. If you
install an additional microprocessor, your server can operate as a symmetric
multiprocessing (SMP) server. With SMP, certain operating systems and application
programs can distribute the processing load between the microprocessors.
Notes:
1.
Before you install a new microprocessor, review the documentation that comes
with the microprocessor, so that you can determine whether you need to update
the server basic input/output system (BIOS). The latest level of BIOS for your
server is available through the World Wide Web and the IBM Bulletin Board
System (BBS). The latest level of BIOS for your server is available through the
World Wide Web
2.
Obtain an SMP-capable operating system (optional). For a list of supported
operating systems, see http://www.ibm.com/pc/us/compat/ on the World
Wide Web.
3.
When the second microprocessor (Microprocessor 2) is installed it becomes the
boot processor and the original microprocessor (Microprocessor 1) becomes the
application processor.
Installing options
55
Attention: To avoid damage and ensure proper server operation when you install a
new or an additional microprocessor, use microprocessors that have the
same cache size and type, and the same clock speed. Microprocessor
internal and external clock frequencies must be identical.
c1 d
Air baffle
c1 d
Terminator card
c2 d
Microprocessor 2
c3 d
VRM
c4 d
Microprocessor 1
c5 d
VRM connector
c6 d
Microprocessor 2 connector
To install an additional microprocessor:
1.
56
Review the information in “Before you begin” on page 45.
Hardware Maintenance Manual: xSeries 340 Model 6RY
2.
Turn off the server and peripheral devices and disconnect all external cables and
power cords; then remove the cover (see “Removing the cover and bezel” on page
47).
3.
Remove the air baffle by grasping it at the sides and lifting it from the server.
4.
Remove the terminator card from the microprocessor connector. Store the
terminator card in a safe place in the static-protective package that your new
microprocessor is shipped in; you will need to install it again, if you ever remove
the microprocessor.
5.
Install the microprocessor:
a.
Touch the static-protective package containing the new microprocessor to any
unpainted metal surface on the server; then, remove the microprocessor from
the package.
b.
Center the microprocessor over the microprocessor connector and carefully
press the microprocessor into the connector.
Note: To remove a microprocessor, pull upward on the microprocessor handle.
6.
Install the VRM included in the microprocessor kit.
Attention: When installing or replacing a VRM, use only a VRM specified for
use with the xSeries 340 server. Use of other VRMs might cause your
server to overheat.
a.
Center the VRM over the VRM connector. Make sure that the VRM is oriented
and aligned correctly.
b.
Press the VRM into the connector.
Note: If you remove the microprocessor later, remember to install the terminator
card in the appropriate microprocessor connector and to remove the VRM.
7.
If you replaced the microprocessor with a different speed microprocessor, change
switches 1-4 on the switch block to the appropriate settings, as shown in the
following table.
Table 10. Microprocessor speed settings.
Microprocessor
speed
Switch 1
Switch 2
Switch 3
Switch 4
733/133
On
Off
Off
Off
800/133
Off
On
On
On
8.
Install the air baffle. Make sure the sides of the air baffle fit inside the brackets on
the server.
9.
If you have other options to install or remove, do so now; otherwise, go to
“Installing the server cover and bezel” on page 60.
Installing a hot-swap power supply
Your server comes with one power supply. You can install an additional power
supply.
Note: You do not need to turn off the power to the server to install a hot-swap power
supply.
Installing options
57
Statement 8
CAUTION:
Never remove the cover on a power supply or any part that has the following label
attached.
Hazardous voltage, current, and energy levels are present inside any component
that has this label attached. There are no serviceable parts inside these
components. If you suspect a problem with one of these parts, contact a service
technician.
58
c1 d
Power supply 1 power cord connector
c2 d
Power supply 2 power cord connector
Hardware Maintenance Manual: xSeries 340 Model 6RY
c1 d
Filler panel
c2 d
Power supply
c3 d
Handle
c4 d
AC Power light
c5 d
DC Power light
To install a power supply:
1.
Remove the filler panel from the empty power supply bay by inserting your
finger into the depression on the filler panel and pulling it away from the server.
Save the filler panel in case you remove the power supply at a later time.
Note: During normal operation, each power-supply bay must have either a
power supply or filler panel installed for proper cooling.
2.
Install the power supply in the bay:
a.
Place the handle on the power supply in the open position (that is,
perpendicular to the power supply) and slide the power supply into the
chassis.
b.
Gently close the handle to seat the power supply in the bay.
3.
Plug the power cord for the added power supply into the power cord connector
on the rear of the server.
4.
Plug the power cord into a properly grounded electrical outlet.
5.
Verify that the DC Power light and AC Power light on the power supply are lit,
indicating that the power supply is operating correctly.
Replacing a hot-swap fan assembly
Your server comes with three hot-swap fan assemblies. You do not need to turn off the
power to the server to replace a hot-swap fan assembly.
Attention: Replace a fan that has failed within 48 hours to help ensure proper
cooling.
c1 d
Handle
c2 d
Fan 3
c3 d
Fan 1
c4 d
Fan 2 Error LED
Installing options
59
c5 d
Fan 2
To replace a hot-swap fan assembly:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
Attention: To ensure proper system cooling, do not remove the top cover for
more than 30 minutes during this procedure.
2.
The LED on the failing fan assembly will be lit. Remove the failing fan assembly
from the server by lifting the orange handle on the top of the fan assembly and
and pulling the fan assembly away from the server.
3.
Slide the replacement fan assembly into the server until it clicks into place.
4.
Verify that the FAN LED on the diagnostics panel on the system board is not lit. If
the FAN LED is lit, reseat the fan.
5.
Replace the cover. See “Installing the server cover and bezel”.
Installing the server cover and bezel
c1 d
Cover
c2 d
Cover-release latch
c3 d
Flanges
To install the server cover:
1.
Place the cover-release latch in the open (up) position and align the flanges on the
left and right sides of the cover with the slots on the server chassis.
2.
Close the cover-release latch.
To install the bezel:
1.
Align the trim bezel with the front of the server.
2.
Press inward on the top sides of the bezel and press the bezel toward the server
until it clicks into place.
To complete the installation:
If you disconnected any cables from the back of the server, reconnect the cables; then,
plug the power cords into properly grounded electrical outlets.
60
Hardware Maintenance Manual: xSeries 340 Model 6RY
Connecting external options
If you install a SCSI adapter, you can attach a SCSI storage expansion enclosure to
your server.
Cabling requirements
To select and order the correct cables for use with external devices, contact your IBM
reseller or IBM marketing representative.
For information about the maximum length of SCSI cable between the terminated
ends of the cable, see ANSI SCSI Standards:
•
•
•
X3.131-1986 (SCSI)
X3.131-1994 (SCSI-2)
X3T10/1071D
Adhering to these standards ensures that your server operates properly.
Setting SCSI IDs for external devices
Each SCSI device that is connected to a SCSI controller must have a unique SCSI ID, so
that the SCSI controller can identify the devices and ensure that different devices do
not attempt to transfer data at the same time. SCSI devices that are connected to
different SCSI controllers can have duplicate SCSI IDs. The SCSI controller uses one of
the SCSI IDs; the default SCSI ID for the SCSI controller is 7. Refer to the instructions
that come with the SCSI devices for more information about setting a SCSI ID.
Installation procedure
To attach an external device:
1.
Turn off the server and all attached devices.
2.
Follow the instructions that come with the option to prepare it for installation and
to connect it to the server.
Input/Output ports
This section provides information about the input/output (I/O) ports on the rear of
your server. These ports include the following:
•
•
•
•
•
•
•
•
•
One Parallel port
One Video port
One Keyboard port
One Auxiliary-device (pointing device) port
Two Ultra3 SCSI ports
Two Serial ports
Two Universal Serial Bus ports
One Ethernet port
Three Advanced System Management ports
Installing options
61
c1 d
Mouse
c2 d
Management port C
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Advanced System Management Interconnect knockout
c4 d
Parallel
c5 d
Video
c6 d
Universal serial bus (USB) 1 and 2
c7 d
Ethernet
c8 d
Keyboard
c9 d
Serial B
c10d
Serial A
Parallel port
Your server has one parallel port. This port supports three standard Institute of
Electrical and Electronics Engineers (IEEE) 1284 modes of operation: Standard Parallel
Port (SPP), Enhanced Parallel Port (EPP), and Extended Capability Port (ECP).
Viewing or changing the parallel-port
assignments
You can use the built-in Configuration/Setup Utility program to configure the
parallel port as bidirectional; that is, so that data can be both read from and written to
a device. In bidirectional mode, the server supports the ECP and EPP modes.
To view or change the parallel-port assignment:
1.
Restart the server and watch the monitor screen.
2.
When the message Press F1 for Configuration/Setup appears, press F1.
Note: The devices and I/O Ports choice appears only on the full configuration
menu. If you set two levels of passwords, you must enter the
administrator password to access the full configuration menu.
3.
From the main menu, select Devices and I/O Ports; then, press Enter.
4.
Select the parallel port; then, use the arrow keys to advance through the settings
available.
Note: When you configure the parallel port as bidirectional, use an IEEE 1284compliant cable. The maximum length ot the cable must not exceed 3
meters (9.8 feet).
5.
62
Select Save Settings; then, select Exit Setup to exit from the Configuration/Setup
Utility main menu.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Parallel port connector
The following table shows the pin-number assignments for the 25-pin, female D-shell
parallel-port connector on the rear of your server.
1
13
25
14
Table 11. Parallel-port connector pin-number assignments.
Pin
I/O
SPP/ECP Signal
EPP Signal
1
O
-STROBE
-WRITE
2
I/O
Data 0
Data 0
3
I/O
Data 1
Data 1
4
I/O
Data 2
Data 2
5
I/O
Data 3
Data 3
6
I/O
Data 4
Data 4
7
I/O
Data 5
Data 5
8
I/O
Data 6
Data 6
9
I/O
Data 7
Data 7
10
I
-ACK
-ACK
11
I
BUSY
-WAIT
12
I
PE (paper end)
PE (paper end)
13
I
SLCT (select)
SLCT (select)
14
O
-AUTO FD (feed)
-AUTO FD
15
I
-ERROR
-ERROR
16
O
-INIT
-INIT
17
O
-SLCT IN
-SLCT IN
18
-
Ground
Ground
19
-
Ground
Ground
20
-
Ground
Ground
21
-
Ground
Ground
22
-
Ground
Ground
23
-
Ground
Ground
24
-
Ground
Ground
25
-
Ground
Ground
Video port
Your server comes with an integrated super video graphics array (SVGA) video
controller. This controller is not removable, but you can disable it by installing a PCI
video adapter.
Installing options
63
Note: If you install a PCI video adapter, the server BIOS will automatically disable
the integrated video adapter.
The following table shows the pin-number assignments for the 15-pin analog video
connector on the rear of your server.
5
1
15
11
Table 12. Video-port connector pin-number assignments.
Pin
Signal
Pin
Signal
Pin
Signal
1
Red
6
Ground
11
Monitor ID bit 0
2
Green or monochrome
7
Ground
12
DDC SDA
3
Blue
8
Ground
13
Horizontal synchronization
(Hsynch)
4
Monitor ID bit 2
9
+5 V dc
14
Vertical synchronization
(Vsynch)
5
Ground
10
Ground
15
DDC SDL
Keyboard port
There is one keyboard on the rear of your server.
Note: If you attach a standard (non-USB) keyboard to the keyboard connector, the
USB ports and devices will be disabled during the power-on self-test (POST).
The following table shows the pin-number assignments for the keyboard connector
on the rear of your server.
6
5
4
3
2
1
Table 13. Keyboard connector pin-number assignments .
Pin
I/O
Signal
1
I/O
Data
2
N/A
Reserved
3
N/A
Ground
4
N/A
+5 V dc
5
I/O
Keyboard clock
6
N/A
Reserved
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Auxiliary-device (pointing device) port
The system board has one auxiliary-device port that supports a mouse or other
pointing device.
The following table shows the pin-number assignments for the auxiliary-device
connector on the rear of your server.
6
5
4
3
2
1
Table 14. Auxiliary-device connector pin-number assignments .
Pin
Signal
1
Data
2
Not connected
3
Ground
4
+5 V dc
5
Clock
6
Not connected
Ultra3 SCSI ports
Your server has an integrated dual-channel Ultra3 small computer system interface
(SCSI) controller. This controller supports two independent Ultra 160/m SCSI
channels: one internal and one external. Each of these channels supports up to 15 SCSI
devices. In addition, this controller uses:
•
Double-transition clocking to achieve high transfer rates
•
Domain name validation to negotiate compatible data transfer speeds with each
device
•
Cyclic-redundancy checking (CRC), instead of the usual parity checking, to
significantly improve data reliability
•
An active terminator on the system board for SCSI bus termination
You can use the external LVD SCSI channel connector, on the rear of your server, to
connect different types of small computer system interface (SCSI) devices. Inside the
server, a SCSI cable connects the internal SCSI channel connector to the hot-swap
drive backplane.
Note: If you install a PCI RAID adapter to configure and manage the internal hotswap drives, you must move the SCSI cable from the system-board SCSI
connector to an internal channel connector on the RAID adapter.
SCSI cabling requirements
If you plan to attach external SCSI devices, you must order additional SCSI cables. To
select and order the correct cables for use with external devices, contact your IBM
reseller or IBM marketing representative.
Installing options
65
For information about the maximum length of SCSI cable between the terminated
ends of the cable, refer to the ANSI SCSI standards. Adhering to these standards will
help ensure that your server operates properly.
Setting SCSI IDs
Each SCSI device connected to a SCSI controller must have a unique SCSI ID. This ID
enables the SCSI controller to identify the device and ensure that different devices on
the same SCSI channel do not attempt to transfer data simultaneously. SCSI devices
that are connected to different SCSI channels can have duplicate SCSI IDs.
The hot-swap-drive backplane controls the SCSI IDs for the internal hot-swap drive
bays. However, when you attach SCSI devices to the external SCSI connector, you
must set a unique ID for the device. Refer to the information that is provided with the
device for instructions to set its SCSI ID.
SCSI connector pin-number assignments
The following table shows the pin-number assignments for the 68-pin SCSI
connectors.
34
1
68
35
Table 15. 68-pin SCSI connector pin-number assignments.
Pin
Signal
Pin
Signal
1
+Data 12
35
-Data 12
2
+Data 13
36
-Data 13
3
+Data 14
37
-Data 14
4
+Data 15
38
-Data 15
5
+Data P1
39
-Data P1
6
+Data 0
40
-Data 0
7
+Data1
41
-Data 1
8
+Data 2
42
-Data 2
9
+Data 3
43
-Data 3
10
+Data 4
44
-Data 4
11
+Data 5
45
-Data 5
12
+Data 6
46
-Data 6
13
+Data 7
47
-Data 7
14
+Data P
48
-Data P
15
Ground
49
Ground
16
DIFFSENS
50
Ground
17
Term power
51
Term power
18
Term power
52
Term power
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 15. 68-pin SCSI connector pin-number assignments.
Pin
Signal
Pin
Signal
19
Reserved
53
Reserved
20
Ground
54
Ground
21
+Attention
55
-Attention
22
Ground
56
Ground
23
+Busy
57
-Busy
24
+Acknowledge
58
-Acknowledge
25
+Reset
59
-Reset
26
+Message
60
-Message
27
+Select
61
-Select
28
+Control/Data
62
-Control/Data
29
+Request
63
-Request
30
+Input/Output
64
-Input/Output
31
+Data 8
65
-Data 8
32
+Data 9
66
-Data9
33
+Data 10
67
-Data 10
34
+Data 11
68
-Data 11
Serial ports
Your server has two standard serial ports: Serial port A and Serial port B. The
operating system can use and share both serial ports; however, the integrated
Advanced System Management Processor can use and share only Serial port A.
Some application programs require specific ports, and some modems function
properly only at certain communication port addresses. You might need to use the
Configuration/Setup Utility program to change communication port address
assignments to prevent or resolve address conflicts.
Viewing or changing the serial-port assignments
To view or change the serial-port assignments:
1.
Restart the server and watch the monitor screen.
2.
When the message Press F1 for Configuration/Setup appears, press F1.
3.
From the main menu, select Devices and I/O Ports; then, press Enter.
Note: The Device and I/O Ports choice appears only on the full configuration
menu. If you set two levels of passwords, you must enter the
administrator password to access the full configuration menu.
4.
Select the serial port; then, use the arrow keys to advance through the settings
available.
5.
Select Save Settings; then, select Exit Setup to exit from the Configuration/Setup
Utility main menu.
Installing options
67
Serial-port connectors
The following table shows the pin-number assignments for the 9-pin, male D-shell
serial-port connectors on the rear of your server. These pin-number assignments
conform to the industry standard.
5
1
6
9
Table 16. Serial-port connectors pin-number assignments.
Pin
Signal
Pin
Signal
1
Data carrier detect
6
Data set ready
2
Receive data
7
Request to send
3
Transmit data
8
Clear to send
4
Data terminal ready
9
Ring indicator
5
Signal ground
Universal Serial Bus ports
Your server has two Universal Serial Bus (USB) ports, which configure automatically.
USB is an emerging serial interface standard for telephony and multimedia devices. It
uses Plug and Play technology to determine the type of device attached to the
connector.
Notes:
1.
If you attach a standard (non-USB) keyboard to the keyboard connector, the USB
ports and devices will be disabled during the power-on self-test (POST).
2.
If you install a USB keyboard that has a mouse port, the USB keyboard emulates a
mouse and you will not be able to disable the mouse settings in the
Configuration/Setup Utility program.
USB cables and hubs
You need a 4-pin cable to connect devices to USB 1 or USB 2. If you plan to attach
more than two USB devices, you must use a hub to connect the devices. The hub
provides multiple connectors for attaching additional external USB devices.
USB technology provides 12 megabits-per-second (Mbps) speed with a maximum of
127 external devices and a maximum signal distance of five meters (16 ft.) per
segment.
USB-port connectors
Each USB port has an external connector on the rear of the server for attaching USB
compatible devices.
The following table shows the pin-number assignments for the USB-port connectors
on the rear of your server.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Table 17. USB-port connector pin-number assignments.
Pin
Signal
1
VCC
2
-Data
3
+Data
4
Ground
Ethernet port
Your server comes with an integrated Ethernet controller. This controller provides an
interface for connecting to 10-Mbps or 100-Mbps networks and provides full-duplex
(FDX) capability, which enables simultaneous transmission and reception of data on
the Ethernet local area network (LAN).
To access the Ethernet port, connect a Category 3, 4 or 5 unshielded twisted-pair
(UTP) cable to the RJ-45 connector on the rear of your server.
Note: The 100BASE-TX Fast Ethernet standard requires that the cabling in the
network be Category 5 or higher.
Configuring the Ethernet controller
When you connect your server to the network, the Ethernet controller automatically
detects the data-transfer rate (10Mbps or 100Mbps) on the network and then sets the
controller to operate at the appropriate rate. That is, the Ethernet controller will adjust
to the network data rate, whether the data rate is standard Ethernet (10BASE-T), Fast
Ethernet (100BASE-TX), half duplex (HDX), or full duplex (FDX). The controller
supports half-duplex (HDX) and full-duplex (FDX) modes at both speeds.
The Ethernet controller is a PCI Plug and Play device. You do not need to set any
jumpers or configure the controller for your operating system before you use the
Ethernet controller. However, you must install a device driver to enable your
operating system to address the Ethernet controller. The device drivers are provided
on the ServerGuide CDs.
Failover for redundant Ethernet
The IBM Netfinity 10/100 Fault Tolerant Adapter is an optional redundant network
interface card (NIC adapter) that you can install in your server. If you install this NIC
adapter and connect it to the same logical segment as the primary Ethernet controller,
you can configure the server to support a failover function. You can configure either
the integrated Ethernet controller or the NIC adapter as the primary Ethernet
controller. In failover mode, if the primary Ethernet controller detects a link failure, all
Ethernet traffic associated with it is switched to the redundant (secondary) controller.
This switching occurs without any user intervention. When the primary link is
restored to an operational state, the Ethernet traffic switches back to the primary
Ethernet controller. The switch back to the primary Ethernet controller can be
automatic or manually controlled, depending on the setup and operating system.
Note that only one controller in the redundant pair is active at any given time. For
example, if the primary Ethernet controller is active, then the secondary Ethernet
controller cannot be used for any other network operation.
Note: Your operating system determines the maximum number of IBM Netfinity
10/100 Fault Tolerant Adapters that you can install in your server. See the
documentation that comes with the adapter for more information.
Installing options
69
Considerations when combining failover and hot-plug
functions: If your operating system supports hot-plug PCI adapters and the optional
redundant NIC adapter is installed in a hot-plug PCI slot, you can replace the NIC
adapter without powering off the server — even if it is the primary Ethernet
controller. Disconnecting the Ethernet cable from the primary Ethernet controller will
cause the Ethernet traffic to switch automatically to the secondary Ethernet controller.
This can be very useful if a faulty adapter causes a network problem, or if you want to
upgrade the primary adapter hardware.
Note: If you hot-replace the primary adapter while the Ethernet traffic is being
handled by the secondary Ethernet controller, the traffic does not
automatically switch back to the primary adapter when the primary adapter
comes back online. See “Configuring for failover”.
Configuring for failover: The failover feature currently is supported by OS/2™,
Windows NT Server, and IntraNetWare. The setup required for each operating system
follows.
IBM Operating System/2 (OS/2):
Note: The OS/2 operating system does not support hot-plug operations.
1.
Add the redundant NIC adapter according to the instructions that are provided
with the adapter.
2.
Use the ServerGuide CDs to install the AMD PCNet Ethernet Family adapter
device driver.
3.
Using the MPTS Utility program, select the driver from the list and select the Edit
button.
Note: Only one driver instance needs to be loaded for each redundant pair of
Ethernet controllers.
4.
Change the PermaNet Server Feature keyword to TRUE and specify the Primary
and Standby slots that contain the redundant pair.The integrated controller is
located in slot 2 (PCI bus A slot 2).
5.
To enable the writing of messages to the IBMCOM\LANTRAN.LOG file when a
failover occurs:
a.
Copy the file PCNETOS2.EXE from the root directory of the diskette that is
created using the ServerGuide CDs to your hard disk drive.
b.
Add the following statement to the CONFIG.SYS file:
Run=d:\path\PCNETOS2.EXE
where d and path are the drive and path to which you copied
PCNETOS2.EXE.
6.
Restart the server.
The failover function is now enabled.
Windows NT Server:
IBM offers hot-plug support for Windows NT Server Version 4.0. Failover can work in
conjunction with hot-plug support or independently. If you are not using hot-plug
support, go to “Windows NT Server failover setup” on page 71.
Windows NT Server hot-plug setup:
IBM Netfinity Hot Plug PCI for Windows NT Server 4.0 package is available for
download from the IBM Web site at:
http://www.pc.ibm.com/support
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Enter the brand type of Server, click on Downloadable files and look for Hot Plug.
The IBM Netfinity Hot Plug PCI for Windows NT Server 4.0 package uses the Intel
Desktop Management Interface (DMI) to control hot-plug support for the Ethernet
controllers. The Ethernet controller in your computer is DMI compliant. Download
and install the following software in the order listed:
1.
2.
3.
IBM Failover DMI Agent
IBM PCI Hot Plug Solution
IBM Netfinity 10/100 Fault Tolerant Adapter device drivers
Note: The order of installation is important. You must install the IBM Netfinity Hot
Plug for Windows NT
Note: The order of installation is important. You must install the IBM Netfinity Hot
Plug for Windows NT Server 4.0 package before you install the IBM Netfinity
10/100 Fault Tolerant Adapter driver. If you install the adapter device driver
before the PCI Hot Plug Solution package, the adapter device driver will not
recognize the hot-plug code. This happens because the adapter device driver
only checks the NT registry for the Hot Plug package during installation. If the
PCI Hot Plug Solution package is added after the adapter device driver is
installed, the adapter must be removed and added again in order for it to
detect the PCI Hot-Plug Solution code.
To install the IBM Failover DMI Agent:
1.
Download the DMI EXE file from the xSeries Support web page and extract the
files onto a diskette.
2.
Insert the diskette into the diskette drive.
3.
From the Start menu, select the Run option.
4.
Type A:\SETUP.EXE in the Open box.
5.
Click Ok. The setup wizard opens.
6.
Follow the instructions that are given by the setup wizard until the program is
installed.
7.
Restart the server.
To install the IBM PCI Hot Plug Solution package:
1.
Download the IBM PCI Hot Plug Services EXE file from the xSeries Support web
page and extract the files onto a diskette.
2.
Log on to Windows NT Server as a user in the Administrator group.
3.
Insert the diskette into the diskette drive.
4.
From the Start menu, select the Run option.
5.
Type A:\SETUP.EXE in the Open box.
6.
Click OK. The Setup wizard opens.
7.
Follow the instructions given by the setup wizard until the program is installed.
Windows NT Server failover setup:
To install the IBM Netfinity 10/100 Fault Tolerant Adapter device drivers:
1.
Add the redundant NIC adapter according to the instructions that are provided
with the adapter.
2.
Use the ServerGuide CDs to install the AMD PCNet Ethernet Family adapter
device driver.
3.
Do not select the Grouping box at this point; you must first restart the machine.
Installing options
71
4.
From the Windows NT Server desktop, select Control Panel, then select the
Network icon, then select the Adapters tab.
5.
Highlight one of the adapters that will be in the redundant pair and then click the
Properties... button.
6.
Check the Grouping box. This will show the possible combinations for redundant
pairs.
7.
Select the adapter pair you want and then select OK. Note that the integrated
Ethernet controller is located at PCI bus A, slot 2.
Two options are available for recovering from a failover condition. The options
are determined by the Enable for DMI / Hot Swap Support checkbox. If the IBM
Netfinity Hot Plug PCI for Windows NT Server 4.0 package is installed, this
checkbox will appear at the bottom of the Adapter Properties panel. If you do not
have the IBM Netfinity Hot Plug PCI for Windows NT Server 4.0 package
installed on your server, you will not see the Enable for DMI / Hot Swap Support
checkbox.
If the Enable for DMI / Hot Swap Support checkbox is not checked or is not
present, traffic will automatically switch back to the primary adapter when the
primary link status is restored. In this mode, the adapter cannot be hot-swapped.
Users with the IBM Netfinity Hot Plug PCI for Windows NT Server 4.0 package
installed should check the Enable for DMI / Hot Swap Support checkbox.
If the Enable for DMI / Hot Swap Support checkbox is checked, traffic will
remain on the secondary adapter until the user directs it to return to the primary
adapter. This can be done after the hot-swap replacement of the primary adapter
or by using the DMI interface.
8.
Select Close to exit from the Network setup.
When you restart the server, the failover function will be in effect.
If a failover occurs, a message is written to the NT Event Viewer log. In addition, if the
Enable for DMI / Hot Swap Support checkbox is checked, a DMI alert will also be
generated.
IntraNetWare: 1.Add the redundant NIC adapter according to the instructions that are
provided with the adapter.
2.
Load the device driver by using the following command:
LOAD d:\path\PCNTNW.LAN PRIMARY=x SECONDARY=y
where d and path are the drive and path where the driver is located, and x and y
are the PCI slot numbers where the redundant pair is located.
The slot number associated with the integrated Ethernet controller can vary
depending on the configuration of the server. To determine the slot number, load
the driver with no parameters. The driver will display the available slot numbers.
The slot number that is greater that 10000 will be the slot number of integrated
Ethernet controller. When the slot number of the integrated Ethernet controller is
determined, reload the driver with the appropriate parameters.
3.
When the driver is loaded, bind it to a protocol stack.
The failover function is now enabled. If a failover occurs:
•
The operating system console generates a message.
•
The custom counters for the device driver contain variables that define the state of
the failover function and the location of the redundant pair. You can use the
NetWare Monitor to view the custom counters.
Note: If the primary adapter was hot-replaced while the Ethernet traffic was being
handled by the secondary Ethernet controller, the traffic does not
72
Hardware Maintenance Manual: xSeries 340 Model 6RY
automatically switch back to the primary adapter when the primary adapter
comes back online. In this case, issue the command:
LOAD d:\path\PCNTNW SCAN
where d and path are the drive and path where the driver is located. This
command causes the device driver to locate the primary adapter and switch
the Ethernet traffic to it.
Ethernet port connector
The following table shows the pin-number assignments for the RJ-45 connector. These
assignments apply to both 10BASE-T and 100BASE-TX devices.
Table 18. Ethernet RJ-45 connector pin-number assignments..
Pin
Signal
Pin
Signal
1
Transmit data+
5
Not connected
2
Transmit data-
6
Receive data -
3
Receive data+
7
Not connected
4
Not connected
8
Not connected
Advanced System Management ports
Your server has three communication ports dedicated to the Advanced System
Management Processor. One port uses a standard D-shell serial-port connector,
connector C. The other two ports, which are used for the RS-485 function, use a dual
RJ-45 connector.
You can attach a dedicated modem to the D-shell system-management connector on
the rear of your server to communicate with the integrated Advanced System
Management Processor.
The RS-485 function uses the RJ-45 system-management connectors. This function
enables you to connect the Advanced System Management Processors of several rackmounted servers so that they can communicate with each other in half-duplex mode.
Cabling the server
The following illustration shows input/output connectors and cable routing for the
server.
Note: The illustrations in this document might differ slightly from your hardware.
Installing options
73
c1 d
Power supply 1 power cord connector
c2 d
Serial A
c3 d
Mouse
c4 d
Universal serial bus (USB) 1 and 2
c5 d
Management port C
c6 d
Parallel
c7 d
Video
c8 d
Ethernet
c9 d
Cable-management arm
c10d
Keyboard
c11d
Serial B
c12d
Power supply 2 power cord connector
Refer to the following illustration for the routing of cables through the cablemanagement arm.
74
Hardware Maintenance Manual: xSeries 340 Model 6RY
Netfinity Manager
Netfinity Manager provides powerful hardware systems-management capabilities,
including access to all systems on the network that are running Netfinity Manager or
Client Services for Netfinity Manager. In addition to all standard Client Services for
Netfinity Manager functions, Netfinity Manager also features directory transfers and
file, remote screen captures, and remote command-line sessions. Netfinity Manager
also enables you to export data collected by System Information Tool, System Profile,
Software Inventory, and System Monitor to a DB2, Lotus Notes, or SQL or DB2 via an
open database connectivity (ODBC) database (ODBC export is available on Windows
NT systems only). Finally, Netfinity Manager enables you to start services at
scheduled times and dates for simplified, automated systems management.
Netfinity Manager also provides two powerful features that enable you to access the
Netfinity Manager system and all Netfinity Manager systems from a system that is
not attached to the managing system network:
•
Serial Connection Control
Use the Serial Connection Control service to use a Netfinity Manager system
modem to establish a connection with any Netfinity Manager system that has a
modem. Once this connection is established, the Netfinity Manager has full access
to Netfinity Manager services, just as though the remote system were part of the
managing system network.
•
Netfinity Manager for Web
Netfinity Manager for Web enables access and remote control of the Netfinity
Manager system over the Internet, using any system that has an Internet
connection and a World Wide Web (WWW) browser. With the Netfinity Manager
for Web, you can access your Netfinity Manager systems from anywhere in the
world.
Managing your IBM Netfinity server with Netfinity Manager
The copy of Netfinity Manager that is included with ServerGuide entitles you to one
Netfinity Manager installation. You are also entitled to additional installations of
Client Services for Netfinity Manager. To use Netfinity Manager to monitor and
manage this Netfinity server, install Netfinity Manager on a system in your network
that you will use as a system-management console, and then install Client Services for
Netfinity Manager on your Netfinity server. You can also install additional copies of
Client Services for Netfinity Manager on other systems in your network. Furthermore,
additional Netfinity Manager and Client Services for Netfinity Manager licenses are
available for purchase from your IBM representative.
Note: This section provides installation instructions for all operating systems
supported by Netfinity Manager. However, not all operating systems
described in this section are certified for use with all Netfinity server models.
For a list of supported operating system for you Netfinity server model, see
the Server Proven list at
http://www.ibm.com/pc/compat
Netfinity Manager documentation
The Netfinity directory on the ServerGuide Netfinity Applications CD contains online
versions (*.PDF format) of all Netfinity Manager documentation. For more
© Copyright IBM Corp. 2000
75
information on included documentation, see “Getting more information about
Netfinity Manager” on page 99.
Netfinity Manager system requirements
The minimum system requirements for Netfinity Manager vary based on which
supported operating system is running on your system.
•
If you are installing Netfinity Manager for OS/2, see “Netfinity Manager for
OS/2 system requirements”.
•
If you are installing Netfinity Manager for Windows 95 (or Windows 98), see
“Netfinity Manager for Windows 95 and Windows 98 system requirements”.
•
If you are installing Netfinity Manager for Windows NT, see “Netfinity Manager
for Windows NT system requirements” on page 77.
Netfinity Manager for OS/2 system requirements
The minimum system requirements for Netfinity Manager for OS/2 are:
•
OS/2 version 3.0 or later
•
Approximately 19 MB–22 MB of hard disk space (space required depends on
system configuration)
•
A LAN adapter card and one or more of the following communications protocols:
— IBM TCP/IP for OS/2 version 1.2 or later (required for Netfinity Manager
with Web Enhancement)
— NetBIOS
Note: The Netfinity Manager NetBIOS requirements are three names, two
sessions, and nine network control blocks (NCBs).
— IPX
— SNA (IBM Communications Manager/2 version 1.1 only)
Note: Systems using Netfinity Manager with Microsoft SNA Server cannot
communicate with systems that run the Microsoft SNA Server client.
Netfinity Manager supports only server-to-server communications
between systems that run Microsoft SNA Server software. However,
Netfinity Manager systems running Microsoft SNA Server can
communicate with other Netfinity Manager systems using any of the
other supported SNA stacks.
•
A 9600 baud or greater modem (optional).
The hard disk requirement for Client Services for Netfinity Manager is 6.5 MB–9 MB
of hard disk space. All other system requirements are the same as for Netfinity
Manager for OS/2.
Note: Serial Connection Control will not function on systems that do not have a
properly installed and configured modem.
Netfinity Manager for Windows 95 and Windows 98
system requirements
The minimum system requirements for Netfinity Manager for Windows 95 are:
76
•
Microsoft Windows 95 or later
•
Approximately 17 MB–20 MB of hard disk space (space required depends on
system configuration)
Hardware Maintenance Manual: xSeries 340 Model 6RY
•
A LAN adapter card and one or more of the following communications protocols:
— TCP/IP (must be WinSock Version 1.1-compatible; required for Netfinity
Manager with Web Enhancement)
— NetBIOS
Note: The Netfinity Manager NetBIOS requirements are three names, two
sessions, and nine network control blocks (NCBs).
— IPX
— SNA (PCOMM 4.1 or later SNA stack)
Note: Systems using Netfinity Manager with Microsoft SNA Server cannot
communicate with systems that run the Microsoft SNA Server client.
Netfinity Manager supports only server-to-server communications
between systems that run Microsoft SNA Server software. However,
Netfinity Manager systems running Microsoft SNA Server can
communicate with other Netfinity Manager systems using any of the
other supported SNA stacks.
•
A 9600 baud or greater modem (optional).
The hard disk requirement for Client Services for Netfinity Manager is 6.5 MB–9 MB
of hard disk space. All other system requirements are the same as for Netfinity
Manager for Windows NT.
Note: Serial Connection Control will not function on systems that do not have a
properly installed and configured modem.
Netfinity Manager for Windows NT system
requirements
The minimum system requirements for Netfinity Manager for Windows NT are:
•
Microsoft Windows NT version 4.0 or later
•
Approximately 17 MB–20 MB of hard disk space (space required depends on
system configuration)
•
A LAN adapter card and one or more of the following communications protocols:
— TCP/IP (must be WinSock Version 1.1-compatible; required for Netfinity
Manager with Web Enhancement)
— NetBIOS
Note: The Netfinity Manager NetBIOS requirements are three names, two
sessions, and nine network control blocks (NCBs).
— IPX
— SNA (Microsoft SNA Server version 2.11 with Service Pack 1 and
WCPIC32.DLL dated 01/22/97 or later. This DLL is available from Microsoft)
Note: Systems using Netfinity Manager with Microsoft SNA Server cannot
communicate with systems that run the Microsoft SNA Server client.
Netfinity Manager supports only server-to-server communications
between systems that run Microsoft SNA Server software. However,
Netfinity Manager systems running Microsoft SNA Server can
communicate with other Netfinity Manager systems using any of the other
supported SNA stacks.
•
A 9600 baud or greater modem (optional).
Netfinity Manager
77
The hard disk requirement for Client Services for Netfinity Manager is 6.5 MB–9 MB
of hard disk space. All other system requirements are the same as for Netfinity
Manager for Windows NT.
Notes:
1.
Serial Connection Control will not function on systems that do not have a
properly installed and configured modem.
2.
To most effectively manage Windows NT systems, any user that will be using
Netfinity Manager on a Windows NT system (locally or remotely) must have
administrator-level access to the system.
Starting the Netfinity Manager installation program
For instructions on installing Client Services for Netfinity Manager, see the
documentation listed in “Getting more information about Netfinity Manager” on
page 99.
To start the Netfinity Manager installation program on a system that is running
Windows NT 4.0:
1.
Start the computer with your operating system.
2.
Place the ServerGuide Netfinity Applications CD into the CD-ROM drive.
3.
Follow the instructions for your operating system below:
•
OS/2 Warp Server
a.
From a command prompt, type
x:
where x is the CD-ROM drive letter, and then press Enter.
b.
Type
SCOS2
and then press Enter. The ServerGuide Netfinity Applications windows
opens.
c.
Select IBM Netfinity Manager from the Available Applications selection
list.
Note: To install Client Services for Netfinity Manager, select Client
Services for Netfinity Manager from the Available Applications
list and then refer to the Client Services for Netfinity Manager User’s
Guide for additional installation instructions.
d. Click Install Product to start the installation process.
•
Windows 95, 98, or NT
a.
Click the Start button.
b.
Click Run... from the Start button menu.
c.
Type
x:\SCW95
where x is the drive letter of the CD-ROM drive in the Command Line
field and then click OK. The ServerGuide Netfinity Applications
windows opens.
78
Hardware Maintenance Manual: xSeries 340 Model 6RY
d. Select IBM Netfinity Manager from the Available Applications selection
list.
Note: To install Client Services for Netfinity Manager, select Client
Services for Netfinity Manager from the Available Applications
list and then refer to the Client Services for Netfinity Manager User’s
Guide for additional installation instructions.
e.
4.
Click Install Product to start the installation process.
Choose a drive and directory from which the Netfinity Manager program files
will be copied.
Type in the Directory to Install from field the drive and directory name where the
Netfinity Manager program files are located. The default is the drive and
directory from which the Netfinity Manager installation program was started.
5.
Type in the Directory to Install to field the drive and directory in which to install
the Netfinity Manager files.
Enter the drive and directory name to which the Netfinity Manager program files
will be copied. The default is C:\NETFIN (on systems running OS/2) or
C:\WNETFIN (on systems running Windows 95 or Windows NT).
6.
Click OK to save these settings and open the Netfinity Manager Installation
Program window.
7.
Select installation options.
There is only one installation configuration for Netfinity Manager. However, the
Netfinity Manager program offers several installation options. Each option
enables additional specialized feature of this product.
The available installation options are:
•
Advanced System Management Support
Click Advanced System Management Support to install the Advanced
System Management service on this system. Use this service to monitor and
manage IBM Advanced System Management processors and adapters.
Important: If you install Advanced System Management support an
enhanced version of the Serial Connection Control service, named Dynamic
Connection Manager, will be installed instead of Serial Connection Control.
For more information on Advanced System Management and the Dynamic
Connection Manager service see the Advanced System Management Information
section of this server library.
•
Capacity Manager
Click Capacity Management to install the Capacity Management service on
this system. Capacity Management is a resource management and planning
tool that is designed to enable network managers and administrators to
remotely monitor server performance.
•
Remote Workstation Control
Click Remote Workstation Control to enable the Remote Workstation Control
service on this system. Use Remote Workstation Control to monitor or control
the screen display of remote systems that are running Netfinity Manager or
Client Services for Netfinity Manager.
•
Update Connector Manager (NT 4.0, TCP/IP, and Web Browser Required)
Click Update Connector Manager (NT 4.0, TCP/IP, and Web Browser
Required) if Netfinity Manager is being installed on a system that will be
used to manage system updates on client systems using updates that are
Netfinity Manager
79
available from the IBM selection server.
•
World Wide Web Enhancement (TCP/IP Required)
Click World Wide Web Enhancement (TCP/IP Required) if the Netfinity
Manager is being installed on a system that will be used to manage other
Netfinity Manager systems, and can be accessed and controlled remotely over
the Internet using a World Wide Web browser.
8.
Install Netfinity Manager.
Click Install to continue. The installation program copies all program files that
are required by the installation configuration. A window appears, displaying the
name of the file that is currently being copied.
Note: Click Cancel to stop the installation process.
Network communication drivers and the following Netfinity Manager services
are installed:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Alert Manager
Alert on LAN® Configuration (available only on systems running Windows
95 or later or Windows NT 4.0 or later)
Capacity Management (available only on systems running Windows NT 4.0
or later)
Cluster Manager (available only on systems running Windows NT 4.0 or
later)
Critical File Monitor
DMI Browser (requires DMI Service Layer)
ECC Memory Setup (requires ECC memory)
Event Scheduler
File Transfer
Power On Error Detect
Predictive Failure Analysis® (requires PFA-enabled hard disk drive)
Process Manager
RAID Manager (requires RAID adapter)
Remote Session
Remote System Manager
Remote Workstation Control
Screen View
Security Manager
Serial Connection Control
Service Configuration Manager
Service Processor Manager
Service Manager
Software Inventory
System Diagnostics Manager
System Information Tool
System Monitor
System Partition Access (requires System Partition)
Update Connector Manager (available only on systems running Windows NT
4.0 or later)
System Profile
Web Manager Configuration (installed only if the Netfinity Manager
Installation with Web Enhancement installation configuration is selected)
Note: The graphical user interface (GUI) program files for DMI Browser, ECC
Memory Setup, System Partition Access, RAID Manager, and Predictive
Failure Analysis will be installed regardless of whether the system has a
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Hardware Maintenance Manual: xSeries 340 Model 6RY
DMI Service Layer, ECC Memory, a System Partition, a RAID adapter, or a
PFA-enabled disk drive. This enables a network administrator to remotely
access these services on other systems within a network. However, the
installation program installs the base program that enables local use of the
service only if the required hardware or system configuration is present.
9.
Configure the Network Drivers.
If the installation configuration allows for network access, enter information
regarding the communication protocols that are supported by the system. The
Network Driver Configuration window will appear.
Follow these steps to continue configuring the system:
a.
Enter a System Name.
Enter a name for the system in the System Name field. This name will help
other Netfinity Manager users identify the system on the network.
b.
Select a Network Driver.
Select one of the available Network Drivers that are displayed in the Network
Drivers field. Once selected, the Network Driver will assign a network
address to the system.
Notes:
1) The fields that appear beneath the Driver Enabled check box will change
depending on which Network Driver you select.
2) When enabling the IPX or TCP/IP Network Driver, the network address
cannot be altered, and it will not appear on the screen. No field will
appear beneath the Driver Enabled check box if you select the IPX or
TCP/IP Network Driver.
3) When enabling the NetBIOS Network Driver, a network address will be
selected and displayed in the Network Address field. To change this
default name, enter any 1–8 character address. However, this address
must be unique to the system. If this NetBIOS address is identical to the
NetBIOS address of another system on the network, it will prevent
Netfinity Manager from starting properly.
4) When enabling the Serial Netfinity Manager driver, type a name that will
be used to identify the system in the Unique Machine Dialup Name
field. This name can be up to 32 characters long, and must be unique to
the system. If this name is not unique, it can prevent remote Netfinity
Manager users from using the Serial Connection Control service to access
the system.
c.
Enable the Network Driver.
When you have entered all required information, click the Driver Enabled
check box to activate the driver on startup.
If the system supports multiple network interfaces, add additional network
drivers by repeating steps b and c.
d. Identify the system with System Keywords (optional).
To make full use of the Remote System Manager’s discovery process, identify
the system (and each of the Netfinity Manager systems that are on the
network) with descriptive system keywords. Enter these keywords in the
appropriate System Keywords fields.
e.
Select Netfinity Manager Options (optional)
Click on the Options button to open the Netfinity Manager Options window.
The Netfinity Manager Options window contains special options that affect
Netfinity Manager network operations. Available options include:
Netfinity Manager
81
•
Force Remote Logons
If the Force Remote Logons option is enabled, the system will not be able
to save the User ID/Password combinations that were used when
accessing remote systems. This will force you to manually log on each
time a remote system is accessed.
•
Service Execution Alerts
If the Service Execution Alerts option is enabled, the Netfinity Manager
Service Manager will generate a Netfinity Manager alert whenever one of
the user’s Netfinity Manager services is started by a remote user. The alert
includes the name of the service that was run and information about the
user that started the service.
•
Show Network Support
If the Show Network Support option is enabled, the Netfinity Manager
Support Program (or Network Interface) will be visible as a minimized
process in the Windows NT 4.0 task bar. This enables the user to shut
down the Netfinity Manager Support Program. If the Netfinity Manager
Support Program is to remain invisible to the user, do not enable this
option.
•
Remote User Authorization for Screen Access
If the Remote User Authorization for Screen Access option is enabled, a
remote user cannot use either Remote Workstation Control or Screen
View on your system without your permission. When this option is
enabled and a remote user attempts to use one of these services on your
system, a window will pop up on your desktop alerting you that a remote
user is attempting to use the Remote Workstation Control or Screen View
service and asking whether you want to permit this user to use this
service on your system. You can click Yes or No. If you do not make a
selection within 15 seconds (for example, if you are not sitting at your
system when the access attempt is made), Netfinity Manager will
automatically prevent the remote user from using the service on your
system.
•
Disable DNS Name Resolution
If the Disable DNS Name Resolution option is enabled, Netfinity
Manager will use only a numeric TCP/IP address (for example,
8.24.67.32) to communicate with remote systems and will not attempt to
resolve the numeric address into an alphanumeric, Domain Name Server
(DNS) address (for example, your.system.ibm.com). Select this option if
you are using Netfinity Manager is a WINS networking environment or if
you are using TCP/IP in an environment that does not have a Domain
Name Server.
To enable one or more of the available Netfinity Manager Options:
1) Click Options....
2) Select one or more Netfinity Manager options.
3) Click Save.
f.
Set the Network Time-out Value (optional).
The Network Time-out field shows the number of seconds that Netfinity
Manager will attempt to communicate with a remote system that is not
responding. If Netfinity Manager does not establish contact with the remote
system within this time, it cancels the communication attempt. The Network
Time-out default setting is 15 seconds. This default setting might not need to
be altered.
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g.
Save the configuration and continue.
Click Save to save the configuration. Then, click Exit to continue.
Note: The configuration can be changed later by double-clicking the
Network Driver Configuration object in the Netfinity Manager folder.
10. After finishing configuring the system for network access, the installation
program displays a list of changes that must be made to the system configuration
files, and asks whether the installation program should make the changes. For
example, if you are installing Netfinity Manager for Windows 95, the installation
program will display a list of changes that must be made to the CONFIG.SYS file.
Click either Yes or No.
Note: These changes must be made to the system configuration for Netfinity
Manager to run correctly.
•
If you click Yes the installation program automatically makes the necessary
changes to the system configuration.
•
If you click No the commands are saved to a file named CONFIG.NEW in the
destination directory (and to AUTOEXEC.NEW, if appropriate) so that they
can be added later.
11. The installation is now complete. Shut down and restart the system for the system
configuration changes to take effect.
Netfinity Manager database support
Netfinity Manager supports the collection and export of a vast amount of systemspecific data to a Netfinity Manager database.
Netfinity Manager databases can be created on database management systems using
DB2®, Lotus Notes®, or Microsoft SQL. Microsoft SQL is supported through open
database connectivity (ODBC), and is available on systems running Netfinity
Manager for OS/2, Windows 95, or Windows NT. If the system supports ODBC, the
user can access and export DB2 data through ODBC as well. Once support for one or
more of these databases has been installed along with Netfinity Manager, data can be
exported from these Netfinity Manager services:
•
•
•
•
•
Alert Manager
Software Inventory
System Information Tool
System Profile
System Monitor
Information on how to install and configure support for database export follows.
•
If support for DB2 database export is being installed, see “DB2 database support”
on page 84.
•
If support for Lotus Notes database export is being installed, see “Lotus Notes
database support” on page 88.
•
If support for ODBC database export is being installed, see “ODBC database
support” on page 90.
Netfinity Manager
83
DB2 database support
Support for DB2 database export is automatically configured during installation of
the Netfinity Manager. However, the database system itself must be configured.
Instructions for configuring the database follow.
A raw data dump to a file is also available and will run without a database.
System requirements
Netfinity Manager DB2 database export is supported on systems running Netfinity
Manager for OS/2, Netfinity Manager for Windows 95, Netfinity Manager for
Windows 98, and Netfinity Manager for Windows NT. For more information about
supported version numbers refer to Table 19 on page 92.
Attention: Using Netfinity Manager database support with systems running
unsupported versions of DB2 or the DB2 Client might cause unpredictable results and
might halt the system.
See the DB2 Installation Guide for general requirements and supported protocols.
Installing and configuring the database
The following information describes the steps to install and configure the DB2
database.
Note: If your primary system is OS/2, refer to “Installing the database on OS/2”.
1.
Start a DB2 command window.
Note: If it is not already running, start the DB2 database manager.
2.
Type the following command:
DB2 CREATE databasename ON d
where
•
•
databasename is the name of the database
d is the drive where the database is created
3.
Press Enter.
4.
Next, you must configure the tables for ODBC database support. For information
on configuring the database for ODBC, refer to “ODBC database configuration”
on page 90. For information on creating the tables, refer to “Creating the Netfinity
Manager tables” on page 91.
5.
Finally, you must bind the database. For information on binding the database,
refer to “Activating the database” on page 85.
Installing the database on OS/2:
1.
Insert the Netfinity Manager CD into the CD-ROM drive (in this example, drive
D; individual drive letters might be different).
2.
Start an OS/2 window or full-screen session.
3.
Make the CD-ROM drive the active drive.
Type D: and then press Enter.
4.
Type the following command at the OS/2 prompt:
NETFINDB CREATE /DBNAME=databasename /DRIVE=d
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Hardware Maintenance Manual: xSeries 340 Model 6RY
where databasename is the name of the database and d is the drive where the
database will be located.
Note: If any part of the database already exists, the utility program will create
only the portions of the database that are missing.
5.
Press Enter.
Activating the database
The following information describes how to connect, bind, and grant privileges to the
database.
1.
Connecting to the Database
a.
Start a DB2 command window.
b.
Type the following command:
DB2 CONNECT TO databasename
where databasename is the name of the database as specified in the database
installation step.
c.
2.
Press Enter.
Bind the package and the database
To prepare SQL statements stored in the bind file and store the package in the
database, perform the following steps from a system on which Netfinity Manager
for OS/2, Netfinity Manager for Windows 95, or Netfinity Manager for Windows
NT has been installed:
a.
Open a DB2 command window.
b.
In the DB2 command window, type the following command:
DB2 BIND x:\directory\DB2SQLC0.bnd
where x:\directory is the name of the drive and directory where Netfinity
Manager is installed.
c.
Press Enter.
Granting and revoking database privileges
The following information describes how to grant and revoke database privileges.
Note: If your primary system is OS/2, refer to “Database privileges on OS/2
systems” on page 86.
1.
Start a DB2 command window.
Notes:
2.
a.
If it is not already running, start the DB2 database manager.
b.
If you are not connected to the DB2 Netfinity database, connect to the
database now.
Type the following command:
DB2 GRANT privilegecode ON TABLE tablename TO userid
where
•
privilegecode is one of the following privilege codes:
Netfinity Manager
85
— ALL
— ALL PRIVILEGES
•
•
3.
Note: Grants all the appropriate privileges, except CONTROL, on the
database.
— ALTER
— CONTROL
— DELETE
— INDEX
— INSERT
— REFERENCES
— SELECT
— UPDATE
tablename is the name of the table as specified during database installation. A
listing of the Netfinity database table names can be found in the Netfinity
User’s Guide (Appendix H: Netfinity Relational Database Tables).
Note: The Netfinity Database Administration Tool can also be used to
GRANT or REVOKE privileges.
userid is the user ID to be granted access
Press Enter to execute the command.
To revoke privileges, substitute REVOKE for GRANT in the command line.
Database privileges on OS/2 systems:
1.
Use the GRANT EXECUTE command to enable Netfinity Manager to access the
database.
Type the following command at the OS/2 prompt:
DB2 GRANT EXECUTE ON PACKAGE NETFIN.DB2SQLC0 TO PUBLIC
and then press Enter.
Note: Specify PUBLIC or authorize only specific manager systems. To limit
access to the database, substitute the authorization name of the managing
system for PUBLIC.
2.
Use the CONNECT RESET command to disconnect current users from the
database.
Type the following command at the OS/2 prompt:
DB2 CONNECT RESET
and then press Enter.
3.
Use the NETFINDB GRANT command to grant (or revoke) database privileges.
To grant or revoke table privileges on OS/2:
a.
Insert the Netfinity Manager CD into the CD-ROM drive (in this example,
drive D; individual drive letters might be different).
b.
Make the CD-ROM drive the active drive.
Type D: and then press Enter.
c.
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Type the following command:
Hardware Maintenance Manual: xSeries 340 Model 6RY
NETFINDB GRANT /ID=id PUBLIC /DBNAME=databasename
/PRIV=privilegecode
where
•
•
•
id is the user ID to be granted access
databasename is the name of the database as specified during NETFINDB
execution
privilegecode is one of the following privilege codes:
—
—
—
—
—
—
—
—
—
ALL
ALTER
CONTROL
DELETE
INDEX
INSERT
REFERENCES
SELECT
UPDATE
d. Press Enter to execute the command.
Note: Use PUBLIC or authorize only a specific ID or group name. Netfinity
Manager update programs use the DB2SQLC0 package and do not
require specific table privileges.
To revoke privileges, substitute REVOKE for GRANT in the command line.
To configure Netfinity Manager to discontinue export data through ODBC for use
on DB2, refer to “ODBC database support” on page 90.
Cataloging the database in the managing system: If the manager is using a remote
database, catalog the node the database resides on and then catalog the database to
that node.
Once this step has been completed, the name of the Netfinity Manager database will
appear in the System Information Tools Database Selection window.
Deleting the database
The following information describes how to delete the database for all supported
operating systems.
Note: If your operating system is OS/2, refer to “Deleting the database on OS/2”.
1.
Start a DB2 command window.
2.
Type
DB2 DROP DATABASE databasename
where
databasename is the name of the database as specified during the database
installation.
3.
Press Enter.
Deleting the database on OS/2: 1.Insert the Netfinity Manager CD-ROM into the
database server CD-ROM drive (in this example, the CD-ROM drive is E).
2.
Start an OS/2 window or full-screen session.
Netfinity Manager
87
3.
Make the CD-ROM drive the active drive.
Type E: and press Enter.
4.
Type the following command at the OS/2 prompt:
NETFINDB DELETE /DBNAME=databasename
where databasename is the name of the database as specified during NETFINDB
execution.
5.
Press Enter.
To configure Netfinity Manager to discontinue export data through ODBC for use on
DB2, refer to “ODBC database support” on page 90.
Lotus Notes database support
To enable the Netfinity Manager to export system data to a Lotus Notes database, the
following must be done:
1.
Install the Netfinity Manager database template on the Lotus Notes server.
2.
Enable Netfinity Manager to export to the Lotus Notes server.
Instructions on installing the Lotus Notes database template and enabling the
Netfinity Manager to export to the Lotus Notes database follow.
System requirements
The minimum requirements for Netfinity Manager to export data to a Lotus Notes
database are:
•
Lotus Notes
•
Lotus Notes client
For information on what versions of Lotus Notes and the Lotus Notes client are
supported, see Table 19 on page 92. See the Notes Administrator’s Guide for general
system requirements and supported communications protocols.
Installing the database
To enable Netfinity Manager to export system data to a Lotus Notes database, install
the Netfinity Manager database template on the Lotus Notes server. During Netfinity
Manager installation, a Lotus Notes database template file (named NETFINDB.NTF)
was copied to the Netfinity Manager program directory. To install the database
template on the Lotus Notes server:
1.
Copy NETFINDB.NTF from the Netfinity program directory to the Notes data
directory on the Lotus Notes server.
2.
Start Lotus Notes on the server.
3.
Click New Database... from the Notes File pull-down menu.
This opens the New Database window.
4.
Click Netfinity Database from the Template selection list.
5.
Check the Inherit Future Design Changes check box.
This enables future releases of Netfinity Manager to automatically apply changes
to this Netfinity Manager database.
6.
88
Click Local from the Servers selection list.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Note: When installing the database on a remote server, select the name of the
remote server from the Servers list.
7.
Type in the Filename field:
NETFINDB.NSF
8.
Type in the Title field:
Netfinity Database
9.
Click New to create the database and close the New Database window.
10. Double-click the Netfinity Database icon in the Lotus Notes workspace.
11. Click Database in the File pull-down menu.
12. Click Access Control... in the Database pull-down menu.
13. Set the Access Level for all Netfinity Manager systems that will be exporting data
to this database to Editor.
14. Check the Can Delete Documents check box.
15. Click OK.
Once the Lotus Notes database is installed, enable Netfinity Manager systems to
export to the Lotus Notes server.
•
If the Netfinity Manager system is running Netfinity Manager for OS/2, ensure
that the Lotus Notes directories are included in the CONFIG.SYS file LIBPATH,
PATH, and DPATH statements. If the directories are not included in these
statements, it is not possible to export to the Lotus Notes database.
•
If the system is running Netfinity Manager for Windows NT, ensure that the
Lotus Notes directory path is included in the Global Windows NT environment
settings.
•
If the system is running Netfinity Manager for Windows 95, ensure that the Lotus
Notes directories are included in the AUTOEXEC.BAT file PATH statement. If the
directories are not included in this statement, it is not possible to export to the
Lotus Notes database.
Once these steps have been completed, export system information from Netfinity
Manager to an easy-to-browse Lotus Notes database.
Browsing the Netfinity Manager Lotus Notes
database
To browse the data contained in the Netfinity Manager Lotus Notes database:
1.
Open the Netfinity Database object in the Lotus Notes Workspace.
2.
Select from the View pull-down menu the section of the Netfinity Manager
database to be browsed.
The Netfinity Manager database is divided into sections that contain data
gathered by specific Netfinity Manager services. Click the name of the service that
gathers the data to be viewed (for example, Alert Logs).
Note: Some menu selections will contain submenus.
3.
Information contained in the part of the Netfinity Manager database that has been
selected is now listed in the window. For more detailed information about any
displayed data item, double-click the data item.
4.
Some data items can be expanded to reveal additional information. These items
are identified by a plus sign (+) in the left side border of the Notes window, beside
the name of the data item. To expand the data item, select the item and then click
Netfinity Manager
89
Expand in the View pull-down menu.
ODBC database support
Netfinity Manager supports exporting data via ODBC for use on SQL or DB2
database systems.
Note: ODBC database export is available only on systems that are running Netfinity
Manager.
System requirements
The minimum requirements for Netfinity Manager ODBC database export are:
•
Windows NT
— ODBC
— ODBC support for one or more of the following database management
systems (DBMS):
•
–
IBM DB2
–
Microsoft SQL Server
Windows 95, with:
— ODBC
— ODBC support for one or more of the following database management
systems:
•
–
IBM DB2
–
Microsoft SQL Server
OS/2
— Microsoft SQL Server (using the Visigenic driver provided with Microsoft
SQL Server)
or
— IBM DB2
For detailed information about supported ODBC platforms, see Table 19 on page
92.
Note: The ODBC database name must not be longer than 8 characters.
ODBC database configuration
This section describes the procedures you must complete before Netfinity Manager
can create the Netfinity Database Tables using ODBC.
1.
Define the NETFIN ID so the Netfinity Database Administration can create the
Netfinity Database tables with a table qualifier of NETFIN.
Attention: NETFIN is a restricted user ID. The password is not retained by
Netfinity Database Administration after use. Do not use this ID for exports.
Notes:
90
a.
In OS/2 and Windows 95, NETFIN must either be the owner of the database
or must be given administrator authority.
b.
In Windows NT, when exporting to DB2, NETFIN must either be the owner of
the database or be defined as a system administrator through the NT User
Manager for Domains or the NT User Manager.
Hardware Maintenance Manual: xSeries 340 Model 6RY
In Windows NT, when exporting to MS SQL, NETFIN must be the owner of
the database or be given table create rights.
2.
Create the database with the appropriate relationship with the NETFIN ID.
3.
Make a database ODBC source either using the ODBC tools shipped with the
operating system or the database.
4.
On Windows NT, configure the Netfinity Support Program to export data using
the ODBC database.
a.
Open Services from the Control Panel.
b.
Click Netfinity Support Program from the Services field, then click Startup.
c.
Click Automatic in the Startup Type button group.
d. Click This Account in the Log On As field group. Enter in the This Account
field the user name of the account that made this database an ODBC source.
e.
Click OK.
Note: If the Event Scheduler or Alert Manager will be used to export data using
ODBC, continue to have the ID which made the database an ODBC source
logged on during the time Event Scheduler will be exporting data.
Creating the Netfinity Manager tables
To create the tables needed to enable Netfinity Manager to export data:
1.
Open the Netfinity Manager Database Administration service.
The Netfinity Manager Database Administration service is found in the Netfinity
Manager folder or Netfinity Manager program group. Double-click this icon to
open the Netfinity Manager Database Administration window.
2.
Select a DBMS.
Click in the Select DBMS listing the name of the DBMS which Netfinity Manager
will be using to export data.
3.
To create the Netfinity Manager table groups within the database, click Create
and then click OK to open the Database Server window.
The following table actions are also available:
•
Delete
To remove the Netfinity Manager table groups from the database, click Delete
and then click OK to open the Database Server window.
•
Grant
Permits access to a database for a specified user ID. To grant access:
a.
Click Grant.
b.
In the User ID field type the user ID that will be permitted to access the
database.
c.
Select privileges for this ID.
All privileges (Insert, Delete, Select, and Update) are selected by default.
A user ID must have all of these privileges to export data to the database.
d. Click OK to open the Database Server window.
•
Revoke
Disables access to a database for a specified user ID. To revoke access:
a.
Click Revoke.
b.
In the User ID field type the user ID that will have access to the database
revoked.
Netfinity Manager
91
c.
Deselect privileges to be revoked for this ID.
All privileges (Insert, Delete, Select, and Update) are selected by default.
A user ID must have all of these privileges to export data to the database.
Some or all of these privileges can be revoked.
d. Click OK to open the Database Server window.
4.
Select the database within which the table groups will be created.
5.
Click OK.
The Netfinity Manager Database Access window opens.
6.
Type in the User ID field
netfin
netfin is the qualifier name of the Netfinity Manager database.
7.
In the Password field type the password that enables access to the Netfinity
Manager database.
8.
Click OK.
As the information is processed, a Creating tables status message should be
displayed. When the operation completes, a Requested Action Completed message
should be displayed.
Supported and certified databases
The following table shows databases and operating systems that are certified for use
with this release of Netfinity Manager.
Table 19. Supported Netfinity Databases.. Reference by operating system and database client version.
Product
Win 95
Win NT 3.51
Win NT 4.0
OS/2 Warp Connect
OS/2 Warp 4.0
IBM DB2 Version 2.1.2 Yes
Yes
Yes
Yes
Yes
IBM DB2 Universal
Database 5.0
Yes
Yes
Yes
Yes
Yes
ODBC - IBM DB2
Version 2.1.2
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
ODBC - IBM DB2
Universal Database
5.0
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
Yes, DB2 Driver
ODBC - Microsoft
SQL Version 7.0
Yes, Microsoft
SQL Driver
Yes, Microsoft
SQL Driver
Yes, Microsoft
SQL Driver
Yes, Visigenic Driver
Version 1.10
No
ODBC - Microsoft
SQL Version 6.5
Yes, Microsoft
SQL Driver
Yes, Microsoft
SQL Driver
Yes, Microsoft
SQL Driver
No
No
Lotus Notes Version
4.5.2
Yes
Yes
Yes
Yes
Yes
Lotus Notes Version
4.5.3a
Yes
Yes
Yes
Yes
Yes
Lotus Notes Version
4.6
Yes
No
Yes
No
No
Lotus Notes Version
4.6a
Yes
No
Yes
No
No
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Table 19. Supported Netfinity Databases.. Reference by operating system and database client version.
Product
Win 95
Win NT 3.51
Win NT 4.0
OS/2 Warp Connect
OS/2 Warp 4.0
Lotus Notes Version
4.63
Yes
No
Yes
No
No
Oracle Version 7.3
Yes, Oracle
Driver Version
2.0.3.1.1
Yes, Oracle
Driver Version
2.0.3.1.1
Yes, Oracle
Driver Version
2.0.3.1.1
No
No
Oracle Version 8.0
Yes, Oracle
Driver Version
8.0.3.0.0
No
Yes, Oracle
Driver Version
8.0.3.0.0
No
No
Sybase SQL Version
11.0
Yes, Sybase
Driver Version
10.0.3T4
Yes, Sybase
Driver Version
10.0.3T4
Yes, Sybase
Driver Version
10.0.3T4
No
No
Note:
The above applies to Netfinity Manager Release 5.2.0 and later.
Starting Netfinity Manager
To start Netfinity Manager:
1.
Open the Netfinity Manager folder or program group.
During installation of Netfinity Manager, a Netfinity Manager folder (OS/2,
Windows 95, or Windows NT 4.0 only) or a Netfinity Manager program group
(Windows NT 3.51 only) was added to the Desktop. The Netfinity Manager folder
or program group contains the Netfinity Manager Service Manager object.
Notes:
2.
a.
In your Netfinity Manager folder or program group is a document titled Read
Me First, which contains information about Netfinity Manager that might not
be covered in your documentation.
b.
The Netfinity Manager folder also contains the Network Driver
Configuration object, which you can use to reconfigure your network
protocols and system keywords, and the Netfinity Manager Database Tables
object, which contains a handy online reference for all of the data tables in the
Netfinity Manager database. For more information on Netfinity Manager
database support see “Netfinity Manager database support” on page 83.
c.
The Netfinity Manager folder also contains a Netfinity Database
Administration object. You can use Netfinity Database Administration to
configure Netfinity Manager database support. For more information on
Database Administration, see "ODBC Database Support" in Netfinity Manager
Quick Beginnings.
Start the Netfinity Service Manager.
To start the Netfinity Service Manager, double-click the Netfinity Service Manager
object.
Netfinity Manager Service Manager
All Netfinity Manager services that are supported by the operating system can be
started from the Netfinity Manager Service Manager window. The services that are
available for use depend on the installation configuration that was selected during
installation.
Netfinity Manager
93
To start any Netfinity Manager service that appears in the Service Manager window,
double-click the icon for that service. To start a Netfinity Manager service on a remote
system, use the Remote System Manager service.
Netfinity Manager service descriptions
Each Netfinity Manager service consists of a base program and a graphical user
interface (GUI). The service base programs enable Netfinity Manager to remotely
access the individual services, but do not allow for local access. The service GUIs,
when functioning along with their respective base program, enable access to the
service.
Some services are available only on systems with certain system configurations. These
services are:
•
Alert on LAN Configuration (available only on systems running Windows 95 or
later or Windows NT 4.0 or later)
•
Capacity Management (available only on systems running Windows NT 4.0 or
later)
•
Cluster Manager (available only on systems running Windows NT 4.0 or later)
•
DMI Browser (requires DMI Service Layer)
•
ECC Memory Setup (requires ECC memory)
•
Predictive Failure Analysis (requires a PFA-enabled hard disk drive)
•
RAID Manager (requires a RAID hard disk drive subsystem)
•
System Partition Access (requires a built-in System Partition)
•
Update Connector Manager (available only on systems running Windows NT 4.0
or later)
Brief descriptions of each of the Netfinity Manager services follow. Complete
instructions on how to use each of these services can be found in the service-specific
chapters of the Netfinity Manager User’s Guide.
Advanced System Management
The Advanced System Management service provides extensive functionality
available for your IBM PC Server Advanced System Management Adapter, Netfinity
Advanced System Management PCI Adapter, or Netfinity Advanced System
Management Processor. With the Advanced System Management service, you can
configure system management events (such as POST, loader, and operating system
time-outs or critical temperature, voltage, and tamper alerts). If any of these events
occurs, the Advanced System Management service can be configured to use a modem
or your Netfinity Manager system to automatically forward a Netfinity alert to other
Netfinity Manager systems or to a numeric or alphanumeric pager.
Alert Manager
The Alert Manager is an extendable facility that allows receiving and processing of
application-generated alerts. A variety of actions can be taken in response to alerts,
including logging alerts, notifying the user, forwarding the alert to another system,
executing a program, playing a WAV file (available only on multimedia systems),
generating an SNMP alert message, dialing out to a digital pager service (available
only on systems that have a modem), or taking an application-defined action. Actions
are user-definable, using a flexible action management interface.
Also, an extensive, detailed log is kept of all alerts received by the Alert Manager.
Logged information includes date and time the alert was received, type and severity
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of the alert, the ID of the application that generated the alert, as well as any text that
was generated and any action taken by the Alert Manager. Individual or multiple
alerts can be selected from the log and printed for later reference, or deleted once
problems are corrected. This service is available for stand-alone use and network use.
Alert on LAN configuration
Use the Alert on LAN configuration service to configure monitoring options of Alert
on LAN-capable systems locally and remotely. Systems with Alert on LAN capability
provide critical status information about system states. The data is reported by
hardware or software (depending on whether the systems in currently powered on or
not) using TCP/IP.
Capacity Management
Capacity Management is an easy-to-use resource management and planning tool for
network managers and administrators, allowing you to remotely monitor the
performance of servers on the network.
Cluster Manager
Cluster Manager is an application designed to enhance the cluster management
capabilities of the Microsoft Cluster Server (MSCS) administration console, included
with Microsoft Windows NT Version 4.0 Enterprise Edition. Cluster Manager builds
on the power of MSCS, providing an integrated graphical interface that enables you to
quickly and easily monitor and manage the clustered systems on your network. This
service is available only on systems running Windows NT Workstation 4.0.
Critical File Monitor
Critical File Monitor can warn you whenever critical system files on the system are
deleted or altered. Critical File Monitor makes it simple to generate Netfinity alerts
when an important System File (such as the CONFIG.SYS file) changes date, time,
size, or when it is deleted or created. Critical File Monitor can also be used to monitor
any other files that reside on a Netfinity Manager system.
DMI Browser
DMI Browser enables you to examine information about the DMI-compliant
hardware and software products installed in or attached to the system.
ECC Memory Setup
The ECC Memory Setup allows for monitoring of ECC memory single-bit errors, and
can automatically "scrub," or correct, the ECC memory when errors are detected. Also,
a running count of single-bit errors can be kept, and can set a single-bit error
threshold that will cause a nonmaskable interrupt (NMI) if the ECC single-bit error
threshold is exceeded. This service is available for both stand-alone and network use
by any system that has ECC memory.
Event Scheduler
Use Event Scheduler to automate many Netfinity Manager services. With Event
Scheduler, you can automatically gather and export System Information Tool, System
Profile, and Software Inventory data, distribute or delete files, restart systems, execute
commands, and access and manage System Partitions on all of the Netfinity Manager
systems on the network. Scheduled events can be performed one time only, or can be
performed according to a user-defined schedule.
Netfinity Manager
95
File Transfer
Use the File Transfer service to easily send, receive, or delete files or entire directories
to and from remote Netfinity Manager systems on the network.
Power-On Error Detect
The Power-On Error Detect service can warn you immediately when a remote
Netfinity Manager system has start-up problems, enabling you to react quickly to
problems and minimize downtime.
Predictive Failure Analysis
The Predictive Failure Analysis (PFA) service enables continual monitoring and
managing of PFA-enabled hard disk drives. A PFA-enabled hard disk drive features
hardware designed to help detect drive problems and predict drive failures before
they occur, thus enabling you to avoid data loss and system downtime.
Process Manager
Use Process Manager to view detailed information about all processes that are
currently active on any system. It is also possible to stop or start processes and
generate Netfinity Manager alerts if a process starts, stops, or fails to start within a
specified amount of time after system startup.
RAID Manager
The RAID Manager service can monitor, manage, and configure an assortment of
Redundant Arrays of Independent Disk (RAID) adapters and arrays without
requiring the RAID system to be taken offline to perform maintenance. Use the RAID
Manager to gather data about the system RAID array and RAID adapter, rebuild
failing drives, add (or remove) logical drives, perform data integrity tests, and many
other RAID system tasks. This service is available for stand-alone use and network
use by any system that has a supported RAID adapter.
Remote Session
Use Remote Session to establish a fully active command session with any remote
Netfinity Manager system.
Remote System Manager
Use Remote System Manager to access and manage any Netfinity Manager service on
any Netfinity Manager system in the network. The Netfinity Manager system on the
network is organized into easy-to-manage logical groups that can be updated
automatically using the auto-discovery feature.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Remote Workstation Control
Remote Workstation Control can monitor or control the screen display of a remote
system that is running Netfinity Manager (or Client Services for Netfinity Manager).
Once you initiate a Remote Workstation Control session with another Netfinity
Manager system, you can passively monitor events that are occurring on the display
of the remote system or actively control the remote system desktop. When you initiate
an active Remote Workstation Control session, clicks and keystrokes that are entered
on your system are automatically passed to the remote system. With Remote
Workstation Control, you can remotely start programs, open and close windows,
enter commands, and much more.
Screen View
The Screen View service takes a "snapshot" of the system graphic display or any
remote system running Netfinity Manager or Client Services for Netfinity Manager
and displays it on the screen. These snapshots can be saved as bitmaps and viewed
later.
Security Manager
The Security Manager service can prevent unauthorized access to some or all of the
Netfinity Manager services. It uses incoming user ID and password combinations,
and is available for network use only.
Serial Connection Control
The Serial Connection Control service enables remote systems running Netfinity
Manager to access the system through a phone line and modem. With the Serial
Connection Control service, you do not have to be attached to a network to benefit
from the outstanding remote system access, monitoring, and management capabilities
of Netfinity Manager.
Note: The system must have a properly installed and configured modem that
supports at least 9600 baud for the Serial Connection Control service to
function.
Service Configuration Manager
Service Configuration Manager can save the configuration of a Netfinity Manager
service from a selected system to a service configuration file (SCF). Once created, SCF
files can be used by Event Scheduler to restore the configuration to the same system,
or it can be used (in conjunction with Event Scheduler) to duplicate that configuration
on other similar systems you choose.
Software Inventory
Software Inventory enables the user to create and manage software product
dictionaries that can be used to easily maintain an inventory of all application
programs installed on the system.
System Diagnostics Manager
System Diagnostics Manager enables you to initiate a variety of diagnostic tasks on
systems that support ROM-based diagnostics. The results of all previously run
diagnostic sessions are stored and can be examined using System Diagnostics
Manager to help diagnose and resolve system problems.
Netfinity Manager
97
System Information Tool
The System Information Tool enables quick and convenient access to detailed
information on the hardware and software configurations of the system. System
Information Tool gathers information about almost any computer; however, the most
detail is provided when this service is used with IBM computers. This service is
available for both stand-alone and network use.
System Monitor
The System Monitor provides a convenient method of charting and monitoring the
activity of a number of components in a system, including processor usage, disk space
used, and ECC memory errors. These convenient monitors are detachable and
scalable, enabling only the monitors needed to remain available at all times. Use the
System Monitor Threshold Manager to set threshold levels for any of the monitored
components. When exceeded, these thresholds will generate user-configured alerts.
Data is continually collected from the time the system starts. A sophisticated datahandling technique is used to weigh the individual values, average concurrent
samples, and post single values that accurately reflect long-term system activity. This
technique allows system activity records to be maintained without creating enormous
data files. This service is available for both stand-alone and network use.
System Partition Access
The System Partition Access allows for greatly simplified system partition file
handling, both locally and remotely. Individual files and entire directories can be
renamed or deleted from the system partition. Individual files can be renamed,
deleted, or copied into the system partition. Also, the entire partition can be backedup, restored, or deleted. This service is available for stand-alone use and network use
by any system that has a System Partition.
System Profile
The System Profile provides a convenient notebook of pertinent data about a
particular user or system. It features many predefined fields for extensive userspecific data, including name, address, office number and location, and phone
number. System Profile also includes many predefined fields for system-specific data
that might not be available to the System Information Tool, including model and serial
numbers and date of purchase. Finally, there are many user-definable miscellaneous
fields that can be used to hold any data the user or administrator requires.
Update Connector Manager
Use Update Connector Manager to quickly and easily gather information about
various updates that are available for your client systems. Once available updates are
discovered, use Update Connector Manager to apply updates to your systems
remotely. Updates can be applied to individual systems, or you can apply multiple
updates to multiple systems, all from Netfinity Manager. You can also use Update
Connector Manager to remove previously applied updates. Update Connector
Manager also includes a scheduler that you can use to discover, apply, or remove
updates automatically and periodically.
Web Manager Configuration
Use the Web Manager Configuration service to limit access to the Netfinity Manager
for Web to user-specified TCP/IP host or ranges of TCP/IP host addresses. Enable or
disable the Netfinity Manager for Web and specify the TCP/IP port number to which
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Hardware Maintenance Manual: xSeries 340 Model 6RY
the Netfinity Manager Web server functions.
Delaying Netfinity Manager startup on OS/2 systems
In some cases, it might be necessary for you to delay the automatic startup of the
Netfinity Manager Network Interface (NETFBASE.EXE) in order to allow other timesensitive applications to start up correctly or to allow your system to fully configure
itself prior to beginning network operations. NETFBASE.EXE includes a parameter
(WAIT) that you can use to specify the number of seconds that NETFBASE.EXE will
wait before starting.
During Netfinity Manager installation, the Netfinity Manager Network Interface
object is placed in the Startup folder. To configure Netfinity Manager to wait a
specified number of seconds before starting:
1.
Shut down the Netfinity Manager Network Interface if it is running.
2.
Open the Startup folder.
3.
Using the right mouse button, click the Netfinity Manager Network Interface
object. This will open the Netfinity Manager Network Interface context menu.
4.
Click Settings to open the Netfinity Manager Network Interface Settings
notebook.
5.
In the Parameters field type
WAIT:x
where x is the number of seconds that you want the Netfinity Manager Network
Interface to wait before starting.
6.
Close the Netfinity Manager Network Interface Settings notebook.
With the WAIT parameter set to x, whenever you start your system, the Netfinity
Manager Network Interface will wait x seconds before starting.
Note: This feature is available only on systems that are running OS/2.
Getting more information about Netfinity Manager
Complete information on how to use Netfinity Manager (as well as Client Services for
Netfinity Manager) is included in Adobe Acrobat format on the Netfinity Manager
CD.
The \DOCS subdirectory contains the following files:
Filename
Document Title
Description
DOCSREAD.ME
DOCSREAD.ME
Text file that contains brief descriptions of each of the
Adobe Acrobat-readable PDF file contained in this
directory.
README.SCO
Client Services for
Netfinity Manager for
SCO UnixWare Read Me
Text file that contains installation and setup information for
Client Services for Netfinity Manager for SCO UnixWare.
NFMGRQB.PDF
Netfinity Manager Quick
Beginnings
Installation and setup information for Netfinity Manager.
NFMGRUG.PDF
Netfinity Manager User’s
Guide
Detailed information on how to use Netfinity Manager.
Netfinity Manager
99
Filename
Document Title
Description
NFMGRCR.PDF
Netfinity Manager
Command Reference
Detailed information on Netfinity Manager command line
functions.
NFCSVCQB.PDF
Client Services for
Netfinity Manager Quick
Beginnings
Installation and setup information for Client Services for
Netfinity Manager.
NFSVCUG.PDF
Client Services for
Netfinity Manager User’s
Guide
Detailed information on how to use Client Services for
Netfinity Manager.
NFSVCNW.PDF
Client Services for
Netfinity Manager for
NetWare User’s Guide
Installation, setup, and usage information for Client
Services for Netfinity Manager for NetWare.
ASMUPDT.PDF
Advanced System
Management Information
Updated information on the Advanced System
Management and Dynamic Connection Manager services.
These services are included with this version of Netfinity
Manager.
NFSCOBAS.PDF
Client Services for
Netfinity Manager for
SCO UnixWare User’s
Guide
Installation, setup, and usage information for Client
Services for Netfinity Manager for SCO UnixWare.
Installation options
This appendix describes methods for performing automated installations of Netfinity
Manager and creating customized Netfinity Manager installations.
Automated installation
If the system has a CID-enabled (CID stands for customization, installation, and
distribution) software distribution manager utility (such as LAN CID, included with
IBM Network Transport Services/2), Netfinity Manager can be installed on systems
within the network by using the Netfinity Manager installation program command
line parameters and response file. First, a source directory must be created for the
installation.
To create a source directory for a Client Services for Netfinity Manager installation:
1.
Create a new directory on your system. This new directory will serve as a source
directory for the program files.
2.
Copy the files from the appropriate Client Services for Netfinity Manager
directory location on the CD-ROM to source directory you created.
For example, when creating a source directory to distribute Netfinity Manager
Services for OS/2, copy all of the files from the OS2/SERVICES directory into the
created directory.
To create a source directory for a Netfinity Manager installation:
1.
Create a new directory on your system. This new directory will serve as a source
directory for the program files.
Important: Be sure to copy the Client Services for Netfinity Manager source files
before the copying the Netfinity Manager source files because the Netfinity
Manager directory contains some files that will overwrite files from the Client
Services for Netfinity Manager directory. Only Netfinity Manager installations
can be done from this directory.
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Hardware Maintenance Manual: xSeries 340 Model 6RY
2.
Copy the files from the appropriate Client Services for Netfinity Manager
directories.
For example, when creating a source directory to distribute Netfinity Manager for
OS/2, copy all of the files from the OS2/SERVICES directory into the source
directory.
3.
Copy the files from the appropriate Netfinity Manager directory.
For example, when creating a source directory to distribute Netfinity Manager for
OS/2, copy all of the files from the OS2/MANAGER directory into the source
directory.
After an installation source directory has been created, use a response file and the
Netfinity Manager installation program command-line parameters. The Netfinity
Manager installation program supports the following command-line parameters:
/R: drive+path+filename
Specifies the drive, path, and file name of the response file. See the
NETFBASE.RSP file (located in the directory in which Netfinity
Manager was installed) for an example of a response file with
comments on the included parameters.
/S: drive+path
Specifies the drive and path to install from. This is the directory to
which the files were copied.
/T: drive
Specifies the drive to install to. Default is the current startup drive.
/TU: drive+path
Specifies the drive and path of the CONFIG.SYS file to update. The
default is to change the CONFIG.SYS in the root directory of the drive
specified in the /T parameter (or the startup drive). This parameter is
ignored if the ChangeConfig parameter in the response file is FALSE.
For example, the line:
NETFINST /R:NETFBASE.RSP /S:Y:\NETFIN
/T:C /TU:D:\
will install Netfinity Manager, using the options in the response file
NETFBASE.RSP, from the directory Y:\NETFIN, to drive C: (the
directory to which the files are installed is taken from the response
file), and will modify the CONFIG.SYS file in the D:\ directory.
Note: For information on how to use a CID-enabled software distribution manager,
refer to the publications provided with the individual CID-enabled product.
Customized installation
For security reasons, not all users might need to have access to all services. User
access can be restricted by creating a customized installation that will prevent some
services from being installed.
To create a customized installation, the INSTALL.INI file must be edited. For example,
when creating a customized Netfinity Manager for Windows 95 or NT installation,
edit the INSTALL.INI file that is found on Netfinity Manager directory.
The INSTALL.INI file has three sections, separated by the line
[==]
Netfinity Manager
101
The first section contains the installation configuration that can be selected during
installation. There can be no more than eight choices. Each choice takes up two lines.
The first line is the text that is displayed next to the installation configuration radio
button. The second line is a list of the options in the third section that will be installed
when this choice is selected for installation.
For example:
;IBM SysMgt Install Script, Version 2 (Do not remove this comment line)
Netfinity Manager Installation [Manager 16900]
Advanced System Management Support [ServProc 450]
Capacity Manager Enhancement [CapMgt 5600]
Remote Workstation Control [RWC 2000]
World Wide Web Enhancement (TCPIP Required) [WebManager 3000] IsTcpip
[==]
Netfinity Manager CD for Windows 95/NT
[==]
NetFinity Admin
NULL Manager
CL 0 1 NETFBASE.EXE
CCL 0 1 NETDOM.INI
CCL 0 1 NETNODES.INI
CCL 0 1 INSTALL.BAT
CCL 0 1 NETFINST.EXE
CCL 0 1 INSTALL.INI
CCL 0 1 WININST.HLP
CL 0 1 APCKINST.DLL
;Screen Capture GUI
;NULL Manager
; CL 0 1 SAVEG.EXE
; CL 0 1 SAVEG.HLP
This INSTALL.INI will create a Netfinity Manager installation configuration that also
installs Advanced System Management, Capacity Manager, Remote Workstation
Control, and Netfinity Manager World Wide Web enhancement.
The second section contains the names of the CD that this installation script will use.
The third section contains the list of options that can be installed. These are the
options that are selected by the choices in the first section. The options are
consecutively numbered starting at 1, so any inserted options will change the number
of all following options. Each option uses the following format:
Option Name
Dll-entrypoint
option file
option file
...
install command
install command
...
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Option Name
An identifying comment by the installation program. All options must have a
different Option Name. This is used only for identification.
Dll-entrypoint
Used to determine whether an option is valid for a given target machine. In
most cases, it should be the reserved string "NULL."
The easiest way to customize an installation is to simply put a semicolon in front of
any service that you want to remove from the installation.
To add a line item in a specific section, add all the necessary item information in the
format shown in the following example.
Before:
Screen Capture GUI
NULL Manager
CL 0 1 SAVEG.EXE
CL 0 1 SAVEG.HLP
After:
Screen Capture GUI
NULL Manager
CL 0 1 SAVEG.EXE
CL 0 1 SAVEG.HLP
CL 0 1 CUSTOM.INI
Netfinity Manager
103
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Hardware Maintenance Manual: xSeries 340 Model 6RY
FRU information (service only)
Field Replacement Units (FRUs) for the xSeries 340 should be replaced by qualified
service personnel only.
Note: Before performing any removals, read “Safety information” on page 137 and
“Before you begin” on page 45.
Removing the LED cover
c1 d
Front LED cover
c2 d
Tabs
To remove the LED cover, do the following:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
From the back of the cover, release the four tabsc1d and gently pry away the LED
coverc2d.
© Copyright IBM Corp. 2000
105
Removing the on/off reset board
c1 d
On/Off Reset Board
c2 d
Screw
To remove the on/off reset board:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Disconnect the cables from the system board.
3.
Remove the screw c2d.
4.
Gently pull off the boardc1d.
Removing the diskette/CDROM drive
c1 d
Screw
c2 d
12.7MM Diskette/CDROM Drive
To remove the LED board:
106
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Disconnect the cable.
3.
Remove the screwc1d.
4.
Carefully pull out drivec2d to remove.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Removing the LED board
c1 d
LED board
c2 d
Screws(2)
To remove the LED board:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Disconnect the LED board cable from the system board .
3.
Remove the two screws c2d.
4.
Carefully slide out the boardc1d.
Removing the SCSI backplane assembly
c1 d
Screw
c2 d
SCSI Backplane
To remove the hot-swap hard disk drive backplane:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Disconnect cables.
3.
Remove the screw c1dfrom the top of the assembly.
4.
Gently slide the SCSI backplane assemblyc2d up to remove.
FRU information (service only)
107
Removing the hot-swap hard disk drive backplane
c1 d
Backplane bracket
c2 d
Backplane board
c3 d
Screws (4)
To remove the hot-swap hard disk drive backplane:
108
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Pull out the hard drives in order to disconnect them from the backplane.
3.
Remove the screw from the top of the backplane bracket c1d.
4.
Lift the backplane from the chassis.
5.
Remove the cables from the backplanec2d.
6.
Remove the four screws c3d.
7.
Gently lift up to remove the backplane boardc2d.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Removing the power supply backplane
c1 d
Backplane
c2 d
Insulator
c3 d
Screws (2)
c4 d
Plastic retainer
To remove the power supply backplane:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Remove power supplies from the backplanec1d.
3.
Disconnect cables from the backplane.
4.
Remove the two screws c3d.
5.
Remove the plastic retainer c4d.
6.
Remove insulator c2d and replace on new backplane.
Removing the AC Distribution Box
c1 d
Screw
c2 d
AC distributor box
c3 d
Chassis clips
FRU information (service only)
109
c4 d
Chassis slot
c5 d
Cable receptacle
To remove the AC distribution box:
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Remove screwc1d.
3.
Pull the AC distribution box c2dtoward front of machine in order to release it
from the chassis clips c3d.
4.
Remove the two hot-swap power supplies.
5.
Pull down on the cable receptaclec5d to release it from the chassis.
Note: To install the receptacle, push up into the chassis opening of slotc4d. Be
sure to properly replace receptacles, 1 to 1 and 2 to 2 as labeled.
Removing the system board
Ne
tfin
ity
45
00
R
c1 d
System board cage
c2 d
Knobs
To remove the system board:
110
1.
Remove the cover. See “Removing the cover and bezel” on page 47.
2.
Remove the rear air flow fan.
3.
Remove the air cover.
4.
Remove the system board cables.
5.
Pull up on the two knobs c2d.
6.
Pull up on the system board cage c1d to remove from the chassis.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Symptom-to-FRU index
This index supports xSeries 340 servers. The Symptom-to-FRU lists symptoms, errors,
and the possible causes. The most likely cause is listed first. Use this Symptom-toFRU index to help you decide which FRUs to have available when servicing the
computer.
The POST BIOS displays POST error codes and messages on the screen.
Beep symptoms
Beep symptoms are short tones or a series of short tones separated by pauses
(intervals without sound). See the following examples.
Note:
One beep after successfully completing POST indicates the system is
functioning properly.
Beeps
1-2-3
Description
•
One beep
•
A pause (or break)
•
Two beeps
•
A pause (or break)
•
Three Beeps
Four continuous beeps
4
Beep/Symptom
1.
Optional Processor (if installed)
2.
Processor
1.
Battery
2.
System Board
1-1-4 (BIOS EEPROM checksum
failed)
1.
System Board
1-2-1
(Programmable Interval
Timer failed)
1.
System Board
1-2-2(DMA initialization failed)
1.
System Board
1-2-3(DMA page register write/read
failed)
1.
System Board
1-2-4 (RAM refresh verification
failed)
1.
DIMM
2.
System Board
(1st 64K RAM test failed)
1.
DIMM
1-3-2 (1st 64K RAM parity test
failed)
1.
DIMM
2.
System Board
2-1-1(Secondary DMA register
failed)
1.
System Board
1-1-2
failed)
(Processor register test
FRU/Action
1-1-3(CMOS write/read test failed)
1-3-1
© Copyright IBM Corp. 2000
111
Beep/Symptom
FRU/Action
2-1-2(Primary DMA register failed)
1.
System Board
2-1-3(Primary interrupt mask
register failed)
1.
System Board
2-1-4(Secondary interrupt mask
register failed)
1.
System Board
2-2-2 (Keyboard controller failed)
1.
System Board
2.
Keyboard
2-2-3 (CMOS power failure and
checksum checks failed)
1.
Battery
2.
System Board
2-2-4(CMOS configuration
information validation failed)
1.
Battery
2.
System Board
2-3-1(Screen initialization failed)
1.
Jumper on J14
2.
System Board
2-3-2(Screen memory failed)
1.
System Board
2-3-3(Screen retrace failed)
1.
System Board
2-3-4(Search for video ROM failed)
1.
System Board
2-4-1(Video failed; screen believed
operable)
1.
System Board
3-1-1(Timer tick interrupt failed)
1.
System Board
3-1-2 (Interval timer channel 2
failed)
1.
System Board
3-1-3 (RAM test failed above address
OFFFFH))
1.
DIMM
2.
System Board
3-1-4 (Time-Of-Day clock failed)
1.
Battery
2.
System Board
3-2-1 (Serial port failed)
1.
System Board
3-2-2(Parallel port failed)
1.
System Board
3-2-3 (Math coprocessor failed)
1.
Optional Processor (if installed)
2.
Processor
3-2-4(Failure comparing CMOS
memory size against actual)
1.
DIMM
2.
Battery
3-3-1(Memory size mismatch
occurred; see "Memory Settings" on
page 33)
1.
DIMM
2.
Battery
3-3-2(Critical SMBUS error
occurred)
1.
Disconnect the server power cord from outlet, wait 30 seconds and retry.
2.
System Board
3.
DIMMs
4.
DASD Backplane
5.
Power Supply
6.
Power Supply Backplane
7.
12C Cable
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Beep/Symptom
FRU/Action
3-3-3
(No operational
memory in system)
1.
Install or reseat the memory modules, then do a 3 boot reset. (See “Using
the Configuration/Setup Utility program” on page 29.)
2.
DIMMs
3.
Memory Board
4.
System Board
Two Short Beeps(Information only,
the configuration has changed)
1.
Run Diagnostics
2.
Run Configuration/Setup
Three Short Beeps
1.
DIMM
2.
System Board
1.
Processor
2.
Optional Processor (if installed)
3.
System Board
1.
Keyboard
2.
System Board
1.
Video adapter (if present)
2.
System Board
1.
Video adapter (if present)
2.
System Board
1.
Video adapter
One Continuous Beep
Repeating Short Beeps
One Long and One Short Beep
One Long and Two Short Beeps
Two Long and Two Short Beeps
No Beep symptoms
No Beep Symptom
FRU/Action
1.
Check speaker cables
2.
Speaker
3.
System Board
No Beeps occur after
successfully completing POST
(The Power-On Status is
disabled.)
1.
Run Configuration/Setup, set the Start Options Power-On Status to enable.
No ac power(Power supply ac
LED is off)
No beep and the system
operates correctly.
2.
Check speaker connectionl
3.
System Board
1.
Check the power cord.
2.
Power Supply (If two are installed, swap them to determine if one is defective.)
3.
Power Backplane
4.
Hot-Swap Power AC Inlet Box
No beep and no video
1.
See “Undetermined problems” on page 130
System will not power-up
(Power supply ac LED is on)
1.
See“Power supply LED errors” on page 119
Symptom-to-FRU index
113
Information panel system error LED
The system error LED is turned on when an error is detected. If the system error LED
is on, remove the cover and check the diagnostic panel LEDs. The following is a
complete list of diagnostic panel LEDs followed by the FRU/Action for correcting the
problem. The following chart is valid only when the system error LED is on.
Note: If a diagnostic panel LED is on and the information LED panel system error
LED is off, there is probably an LED problem. Run LED diagnostics.
Notes:
1.
2.
3.
To locate the LEDs on the system board see “System board LED locations” on
page 44.
Check the System Error Log for additional information before replacing a FRU.
The DIMM error LEDs, processor error LEDs, and VRM error LEDs turn off when
the system is powered down.
Diagnostic Panel LED
FRU/Action
1.
System Error Log is 75% full; clear the log.
2.
PFA alert; check Netfinity log for failure; clear PFA alert; remove AC power
for at least 20 seconds, reconnect, then power up system.
3.
Run Information Panel diagnostics.
CPU LED on
(The LED
next to the failing CPU should be
on.)
1.
Processor 1 or 2.
VRM LED on
(The
LED next to the failing VRM
should be on.)
1.
Voltage regulator module indicated by the VRM LED on the system board
that is turned on.
2.
Processor indicated by the Processor LED.
DASD LED on
(The LED
located next to the drive bay that
the failing drive is installed in will
be turned on.)
1.
Failing drive.
2.
Be sure the fans are operating correctly and the air flow is good.
3.
SCSI Backplane.
FAN LED on
1.
Check individual fan LEDs.
2.
Replace respective fan.
3.
Fan Cable.
4.
System Board.
5.
Power Backplane Board.
MEM LED on
(The LED next to
the failing DIMM is on.)
1.
DIMM.
2.
Failing DIMM in slot J1-J4.
NMI LED on
1.
Reboot the system.
2.
Check the System Error Log.
1.
PCI Card in slot 5.
2.
Remove all PCI adapters from slots 1-5.
3.
System Board.
1.
Card in slots 3-5.
2.
Remove all PCI adapters from slots 1-5.
3.
System Board.
All LEDs off
(Check
System Error Log for error
condition, then clear System Error
Log when the problem is found.)
PCI A LED on
PCI B LED on
114
Hardware Maintenance Manual: xSeries 340 Model 6RY
Diagnostic Panel LED
FRU/Action
PCI C LED on
PS1 LED on
PS2 LED on
TEMP LED on (look at test cases)
1.
Remove all PCI adapters from slots 1-5.
2.
System Board.
1.
Check the DC Good LED on power supply 1. If off, replace power supply
1.
2.
Power Backplane.
1.
Check the DC Good LED on power supply 2. If off, replace power supply
2.
2.
Power Backplane.
1.
Ambient temperature must be within normal operating specifications. See
“Features and specifications” on page 3.
2.
Ensure fans are operating correctly.
3.
Examine System Error Log.
a.
System over recommended temperature
1)
Information LED Panel
2)
b.
c.
DASD over recommended temperature (DASD LED also on)
1)
Overheating hard drive
2)
DASD Backplane
3)
System Board
System over recommended temperature for CPU X (where X is CPU 1,
2,) (CPU LED also on)
1)
d.
4.
System Board
CPU X
System Board over recommended temperature
If the CPU LED on the diagnostics panel is also on, one of the
microprocessors has caused the error.
Diagnostic error codes
Note: In the following error codes, if XXX is 000, 195, or 197 do not replace a FRU.
The description for these error codes are:
000
The test passed.
195
The Esc key was pressed to abort the test.
197
This is a warning error and may not indicate a hardware failure.
For all error codes, replace/follow the FRU/Action indicated.
Error Code/Symptom
001-XXX-000
001-XXX-001
(Failed core tests)
(Failed core tests)
FRU/Action
1.
System Board
1.
System Board
001-250-000
ECC)
(Failed System Board
1.
System Board
001-250-001
ECC)
(Failed System Board
1.
System Board
005-XXX-000
(Failed Video test)
1.
System Board
Symptom-to-FRU index
115
Error Code/Symptom
FRU/Action
011-XXX-000
Port test)
(Failed COM1 Serial
1.
System Board
011-XXX-001
Port test)
(Failed COM2 Serial
1.
System Board
014-XXX-000
test)
(Failed Parallel Port
1.
System Board
015-XXX-001 (USB interface not found,
board damaged)
1.
System Board
015-XXX-015 (Failed USB external loopback
test)
1.
System Board
2.
Make sure parrallel port is not disabled.
3.
Re-run USB external loopback test.
1.
System Board
2.
Remove USB devices from USB1 and USB2.
3.
Re-run USB external loopback test.
(Failed PCI Interface
1.
System Board
(Failed Hot-Swap
1.
PCI Hot-Swap Latch Assembly
2.
System Board
1.
PCI Hot-Swap Latch Assembly
2.
System Board
1.
PCI Hot-Swap Latch Assembly
2.
System Board
1.
PCI Hot-Swap Latch Assembly
2.
System Board
1.
System Board
1.
No adapters were found.
2.
If adapter is installed re-check connection.
1.
Adapter
2.
SCSI Backplane
3.
Cable
035-XXX-SNN
(Check System Error Log
before replacing a FRU,
NN = SCSI ID of
failing fixed disk)
1.
Fixed Disk with SCSI ID NN on RAID adapter in PCI slot S.
035-253-S99
(RAID adapter
initialization failure)
1.
ServeRAID Adapter in slot S is not configured properly. Obtain
the basic and extended configuration status and refer to the
ServeRAID Hardware Maintenance Manual for more information.
2.
Cable
3.
SCSI Backplane
4.
Adapter
015-XXX-198 (USB device connected during
USB test)
020-XXX-000
test)
020-XXX-001
Slot 1 PCI Latch test)
020-XXX-002
PCI Latch test)
020-XXX-003
PCI Latch test)
(Failed Hot-Swap Slot 2
(Failed Hot-Swap Slot 3
020-XXX-004
PCI Latch test)
(Failed Hot-Swap Slot 4
030-XXX-000
interface test)
(Failed Internal SCSI
035-XXX-099
035-XXX-S99
(Failed RAID test on PCI
slot S, check System Error Log before
replacing a FRU)
075-XXX-000
089-XXX-001
test)
116
(Failed Power Supply test) 1.
(Failed Microprocessor
Power Supply
1.
VRM for Microprocessor 1
2.
Microprocessor 1
Hardware Maintenance Manual: xSeries 340 Model 6RY
Error Code/Symptom
089-XXX-002
Optional Microprocessor test)
165-XXX-000
test)
(Failed
(Failed Service Processor
180-XXX-000 (Diagnostics LED failure)
180-XXX-001
panel test)
180-XXX-002
Panel test)
(Failed information LED
(Failed Diagnostics LED
FRU/Action
1.
VRM 2 for Optional Microprocessor 2
2.
Optional Microprocessor 2
1.
System Board. Before replacing the System Board, ensure that
System Board jumper J45 is not installed (the default) when the error
occurs.
2.
Power Backplane
3.
Hot-Swap Drive Backplane
1.
Run Diagnostic LED test for the failing LED.
1.
Information LED Panel
2.
Power Switch
3.
Assembly
1.
Diagnostics LED Panel
2.
Power Switch
3.
Assembly
180-XXX-003
test)
(Failed System Board LED
1.
System Board
180-XXX-004
LED test)
(Failed System Board
1.
System Board
1.
SCSI Backplane
2.
SCSI Backplane Cable
3.
System Board
1.
Memory Board
2.
System Board
1.
DIMM Location slots 1-4 where NN = DIMM location.
180-XXX-005
(Failed SCSI
Backplane LED test)
180-XXX-006 (Memory Board LED test)
201-XXX-0NN
(Failed Memory test,
see "Memory Settings" on page 33)
201-XXX-999 (Multiple DIMM failure, see
error text)
202-XXX-001
test)
(Failed System Cache
202-XXX-002
(Failed System Cache test)
206-XXX-000
215-XXX-000
test)
Note:
2.
System Board
1.
See error text for failing DIMMs
2.
System Board
1.
VRM 1
2.
Microprocessor 1
1.
VRM 2
2.
Microprocessor 2
(Failed Diskette Drive test) 1.
(Failed IDE CD-ROM
NN=1=DIMM 2 =2=DIMM 1 =3=DIMM 4 =4=DIMM 3
Cable
2.
Diskette Drive
3.
System Board
1.
CD-ROM Drive Cables
2.
CD-ROM Drive
3.
System Board
Symptom-to-FRU index
117
Error Code/Symptom
FRU/Action
1.
Fixed Disk 1
1.
Fixed Disk 2
1.
Fixed Disk 3
1.
Fixed Disk 4
1.
Fixed Disk 5
1.
Tape Cartridge, if user executed the Read/Write Tape Drive test
(failure code of XXX = 256)
2.
SCSI or Power Cable connected to tape drive with SCSI ID NN.
3.
Tape Drive with SCSI ID NN. (Refer to the Help and Service
Information appendix of the tape drive’s User Guide.)
4.
System Board or SCSI Controller. (Run SCSI Controller Diagnostic to
determine if the SCSI bus is functioning properly.)
1.
See error messages/text in the PC Doctor error log for detailed
information on each individual tape drive error.
1.
Keyboard
405-XXX-000
(Failed Ethernet test
on controller on the System Board)
1.
Verify that Ethernet is not disabled in BIOS.
2.
System Board
405-XXX-00N
(Failed Ethernet test on
adapter in PCI slot N)
1.
Adapter in PCI slot N.
2.
System Board
1.
Cable
217-XXX-000
Disk test)
Note:
If RAID is configured, the fixed
disk number refers to the RAID
logical array
217-XXX-001
test)
Note:
(Failed BIOS Fixed Disk
If RAID is configured, the fixed
disk number refers to the RAID
logical array
217-XXX-004
test)
Note:
(Failed BIOS Fixed Disk
If RAID is configured, the fixed
disk number refers to the RAID
logical array
217-XXX-003
test)
Note:
(Failed BIOS Fixed Disk
If RAID is configured, the fixed
disk number refers to the RAID
logical array
217-XXX-002
test)
Note:
(Failed BIOS Fixed
(Failed BIOS Fixed Disk
If RAID is configured, the fixed
disk number refers to the RAID
logical array
264-XXX-0NN
test)
(Failed Tape Drive
264-XXX-999
(Errors on multiple tape
drives, see error text for more info)
301-XXX-000
415-XXX-000
(Failed Keyboard test)
(Failed Modem test)
Note:
118
Ensure modem is present and attached to server.
2.
Modem
3.
System Board
Hardware Maintenance Manual: xSeries 340 Model 6RY
Error symptoms
Error Symptom
CD is not working properly.
CD-ROM drive tray is not working .
(The server must be powered-on)
CD-ROM drive is not recognized.
Power switch does not work and reset
button does work. There is not a jumper for
forcing power on for the server.
Diskette drive in-use light stays on, or the
system bypasses the diskette drive, or the
diskette drive does not work
Monitor problems (general). Some IBM
monitors have their own self-tests. If you
suspect a problem with the monitor, refer to
the information that comes with the
monitor for adjusting and testing
instructions.
FRU/Action
1.
Clean the CD.
2.
Run CD-ROM diagnostics
3.
CD-ROM Drive
1.
Insert the end of a paper clip into the manual tray-release opening.
2.
Run CD-ROM diagnostics
3.
CD-ROM Drive
1.
Run Configuration/Setup, enable primary IDE channel.
2.
Check cables and jumpers.
3.
Check for correct device driver.
4.
System Board
5.
Run CD-ROM diagnostics
6.
CD-ROM Drive
1.
Verify that the power-on control jumper on J23 extension cable is
on pins 1 and 2.
2.
Power Switch Assembly
3.
System Board
1.
If there is a diskette in the drive, verify that:
a.
The diskette drive is enabled in the Configuration/Setup utility
program.
b.
The diskette is good and not damaged. (Try another diskette if
you have one.)
c.
The diskette is inserted correctly in the drive.
d.
The diskette contains the necessary files to start the server.
e.
The software program is OK.
f.
Cable is installed correctly (proper orientation)
2.
Run Diskette Drive Diagnostics
3.
Cable
4.
Diskette Drive
5.
System Board
1.
Monitor
2.
Run Video Diagnostics. If diagnostics pass, the problem may be a
video driver.
3.
Display Adapter / System Board
Power supply LED errors
Use the power supply LED information on the following page to troubleshoot power
supply problems.
Note: The minimum configuration required for the DC Good light to come on is:
Symptom-to-FRU index
119
•
•
•
AC Good LED
Off
Power Supply
Power Backplane
System Board (with pins 2 and 3 on J23 extension cable connected together
to bypass the power switch; see “System board switches and jumpers” on
page 42).
DC Good LED
Off
On
No power to system or ac
problem.
Off
On
Description
Standby mode or dc
problem.
On
Power is OK.
FRU/Action
1.
Check ac power to system.
2.
Power Supply
1.
Check system board cable connectors J32,
J33, and J35. Move jumper on J32’s
extension cable to pins 2-3 to bypass power
control. If the DC Good LED comes on,
press Ctrl+Alt+Delete. Watch the screen for
any POST errors. Check the System Error
Log for any listed problems.
If the system powers up with no errors:
a.
Power Switch Assembly
b.
System Board
2.
Remove the adapters and disconnect the
cables and power connectors to all internal
and external devices. Power-on the system.
If the DC Good LED comes on, replace the
adapters and devices one at a time until you
isolate the problem.
3.
Power Supply
4.
Power Backplane
5.
System Board
N/A
POST error codes
In the following error codes, X can be any number or letter.
Error Code/Symptom
062
(Three consecutive
boot failures using the default
configuration.)
101, 102
error)
(System and processor
FRU/Action
1.
Run Configuration/Setup
2.
Battery
3.
System Board
4.
Processor
1.
System Board
106
(System and processor error)
1.
System Board
111
(Channel check error)
1.
Failing 15A adapter
2.
Memory Dimm
3.
System Board
1.
Failing Adapter
2.
Run Diagnostsics
114
error)
120
(Adapter read-only memory
Hardware Maintenance Manual: xSeries 340 Model 6RY
Error Code/Symptom
129
(Internal cache error)
FRU/Action
1.
Processor
2.
Optional Processor (if installed)
1.
Run Diagnostics
2.
Battery
3.
System Board
1.
Run Configuration/Setup
2.
Battery
3.
System Board
1.
Run Configuration/Setup
2.
Battery
3.
Failing Device
4.
System Board
1.
Run Configuration/Setup
2.
Battery
3.
System Board
1.
Run Configuration/Setup
2.
DIMM
1.
System Board
1.
Run Configuration/Setup
2.
System Board
3.
C2 Security Switch
1.
Run Configuration/Setup
2.
System Board
1.
Run Configuration/Setup
2.
System Board
185
(Drive startup sequence
information corrupted)
1.
Run Configuration/Setup
2.
System Board
186
(Security hardware control logic
failed)
1.
Run Configuration/Setup
2.
System Board
1.
Set serial number in Setup
2.
System Board
1.
Run Configuration/Setup
2.
System Board
189
(An attempt was made to
access the server with invalid passwords)
1.
Run Configuration/Setup, enter the administrator password
201 (Memory test error, see "Memory
Settings" on page 33.)
If
the server does not have the latest level of
BIOS installed, update the BIOS to the
latest level and run the diagnostic
program again.
1.
DIMM
2.
System Board
(Real time clock error)
151
(Real time clock battery error)
161
(Device Configuration Error)
162
Be sure to load the default settings
and any additional desired
settings; then, save the configuration.
Note:
(Real-Time Clock error)
163
164 (Memory configuration changed, see
"Memory settings" on page 33.)
175
(Hardware error)
176(Computer cover or cable cover was
removed without a key being used)
177, 178
184
187
188
(Security hardware error)
(Power-on password corrupted)
(VPD serial number not set.)
(Bad EEPROM CRC #2)
Symptom-to-FRU index
121
Error Code/Symptom
(Cache error)
FRU/Action
1.
Processor
2.
Optional Processor (if installed)
1.
Run configuration / setsup
2.
Battery
3.
System Board
289
(DIMM has been disabled the user
or system, see "Memory Settings" on page
33.)
1.
Run Configuration/Setup, if disabled by user
2.
Disabled DIMM, if not disabled by user.
301 (Keyboard or keyboard controller
error)
1.
Keyboard
2.
System Board
303 (Keyboard controller error)
1.
System Board
1.
Diskette
2.
Diskette Drive
3.
Cable
4.
System Board
1.
Run Configuration/Setup and Diagnostics
2.
Diskette Drive
3.
Drive Cable
4.
System Board
1.
Diskettee Drive
2.
Drive Cable
3.
System Board
1.
Run Configuration/Setup and Diagnostics
2.
Diskette Drive
3.
Drive Cable
4.
System Board
1.
Run configuration setup
2.
Battery
3.
Processor
1.
Disconnect external cable on parallel port.
2.
Run Configuration/Setup
3.
System Board
1.
Disconnect external cable on serial port.
2.
Run Configuration/Setup
3.
System Board
1.
Processor 1
2.
Optional Processor 2
229
(DRAM parity configuration
262
error)
602
604
605
662
762
962
(Invalid diskette boot record)
(Diskette drive error)
(Unlock failure)
(Diskette drive configuration error)
(Coprocessor configuration error)
(Parallel port error)
(System board serial port 1 or 2
11XX
error)
0001200
error)
122
(Machine check architecture
Hardware Maintenance Manual: xSeries 340 Model 6RY
Error Code/Symptom
(I2C cable to front panel not
FRU/Action
1.
Cable
2.
Front Panel
3.
Power Switch Assembly
4.
System Board
1.
Cable
2.
Power Switch Assembly
3.
System Board
1.
Cable
2.
Power Backplane
3.
System Board
1304
(I C cable to diagnostic LED
board not found)
1.
Power Switch Assembly
2.
System Board
1600
(The Service Processor is not
functioning)
Do the
following before replacing a FRU:
1.
System Board
1.
System Board
1301
found)
2
1302
(I C cable from system board
to power on and reset switches not found)
2
1303
(I C cable from system board
to power backplane not found)
2
1.
Ensure that a jumper is not installed
on J45.
2.
Remove the ac power to the system,
wait 20 seconds; then, re-connect the
ac power. Wait 30 seconds; then,
power-on the system.
1601
(The system is able to
communicate to the Service Processor, but
the Service Processor failed to respond at
the start of POST.)
Do the following
before replacing a FRU:
1.
Remove the ac power to the system,
wait 20 seconds; then, re-connect the
ac power. Wait 30 seconds; then,
power-on the system.
2.
Flash update the Service Processor.
1762
178X
(Fixed Disk Configuration error) 1.
Fixed Disk Drive
2.
Fixed Disk Cables
3.
Run Configuration/Setup
4.
Fixed Disk Adapter
5.
SCSI Backplane
6.
System Board
1.
Fixed Disk Cables
2.
Run Diagnostics
3.
Fixed Disk Adapter
4.
Fixed Disk Drive
5.
System Board
(Fixed Disk error)
Symptom-to-FRU index
123
Error Code/Symptom
1800
(No more hardware interrupt
available for PCI adapter)
1962
(Drive does not contain a valid
boot sector)
(Video controller test failure)
2400
(Video memory configuration
2462
error)
(IDE CD-ROM configuration
5962
error)
8603
(Pointing Device Error)
00019501 (Processor 1 is not functioning check VRM and processor LEDs)
00019502 (Processor 2 is not functioning check VRM and processor LEDs)
00019701
(Processor 1 failed )
00019702 (Processor 2 failed )
00180100
ROM)
(No room for PCI option
00180200
(No more I/O space
available for PCI adapter)
00180300
(No more memory (above
1MB for PCI adapter)
124
FRU/Action
1.
Run Configuration/Setup
2.
Failing Adapter
3.
System Board
1.
Verify a bootable operating system is installed.
2.
Run Diagnostics
3.
Hard Disk Drive
4.
SCSI Backplane
5.
Cable
6.
System Board
1.
Video Adapter (if installed)
2.
System Board
1.
Video Adapter (if installed)
2.
System Board
1.
Run Configuration/Setup
2.
CD-ROM Drive
3.
CD-ROM Power Cable
4.
IDE Cable
5.
System Board
6.
Battery
1.
Pointing Device
2.
System Board
1.
VRM 1, VRM 2
2.
Processor 1
3.
System Board
1.
VRM 2
2.
Processor 2
1.
Processor 1
2.
System Board
1.
Processor 2
2.
System Board
1.
Run Configuration/Setup
2.
Failing Adapter
3.
System Board
1.
Run Configuration/Setup
2.
Failing Adapter
3.
System Board
1.
Run Configuration/Setup
2.
Failing Adapter
3.
System Board
Hardware Maintenance Manual: xSeries 340 Model 6RY
Error Code/Symptom
00180400
(No more memory (below
1MB for PCI adapter)
1.
Run Configuration/Setup
2.
Move the failing adapter to slot 1 or 2
3.
Failing Adapter
4.
System Board
1.
Remove Failing PCI Card
2.
System Board
1.
Run Configuration/Setup
2.
Move the failing adapter to slot 1 or 2
3.
Failing Adapter
4.
System Board
(General PCI error) 1.
System Board
00180500
(PCI option ROM
checksum error)
00180600
(PCI to PCI bridge error)
00180700, 00180800
01295085
test error)
(ECC checking hardware
01298001
processor 1)
(No update data for
01298002
processor 2)
(No update data for
01298101
processor 1)
(Bad update data for
01298102
processor 2)
(Bad update data for
I9990301
(Fixed boot sector error)
I9990305
(Fixed boot sector error, no
operating system installed)
I9990650
restored)
FRU/Action
(AC power has been
2.
PCI Card
1.
System Board
2.
Processor
1.
Ensure all processors are the same stepping level and cache size.
2.
Processor 1
1.
Ensure all processors are the same stepping level and cache size.
2.
Processor 2
1.
Ensure all processors are the same stepping level and cache size.
2.
Processor 1
1.
Ensure all processors are the same stepping level and cache size.
2.
Processor 2
1.
Hard Disk Drive
2.
SCSI Backplane
3.
Cable
4.
System Board
1.
Install operating system to hard disk drive.
1.
Check cable
2.
Check for interruption of power supply
3.
Power Cable
Symptom-to-FRU index
125
SCSI error codes
Error Code
FRU/Action
All SCSI Errors
One or more of
the following might be causing the problem:
1.
External SCSI devices must be powered-on before you power-on
the server.
•
A failing SCSI device (adapter, drive,
controller)
2.
The cables for all external SCSI devices are connected correctly.
3.
•
An improper SCSI configuration or SCSI
termination jumper setting
If you have attached an external SCSI device to the server, make
sure the external SCSI termination is set to automatic.
4.
The last device in each SCSI chain is terminated correctly.
•
Duplicate SCSI IDs in the same SCSI
chain
5.
The SCSI devices are configured correctly.
•
A missing or improperly installed SCSI
terminator
•
A defective SCSI terminator
•
An improperly installed cable
•
A defective cable
Temperature error messages
Message
Action
DASD bank 2 Over Temperature (levelcritical; Direct Access Storage Device bay
"X" was over temperature)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28.
DASD Over recommened Temperature
(sensor X)
(level-warning; DASD
bay "X" had over temperature condition)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28 .
DASD under recommended temperature
(sensor X)
(level-warning; direct access
storage device bay "X" had under
temperature condition)
1.
Ambient temperature must be within normal operating
specifications; see “Features and specifications” on page 3.
DASD 1 Over Temperature (level-critical;
sensor for DASD1 reported temperature
over recommended range)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28.
Power Supply "X" Temperature Fault
(level-critical; power supply "x"had over
temperature condition)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28 .
2.
Replace Power Supply "X"
System board is over recommended
temperature
(level-warning; system
board is over recommended temperature)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28.
2.
Replace system board
System board is under recommended
temperature
(level-warning; system
board is under recommended temperature)
1.
Ambient temperature must be within normal operating
specifications; see “Features and specifications” on page 3.
System over temperature for CPU "X"
(level-warning; CPU "X" reporting over
temperature condition)
1.
Ensure system is being properly cooled; see “Temperature
checkout” on page 28.
126
Hardware Maintenance Manual: xSeries 340 Model 6RY
Message
System under recommended CPU "X"
temperature
(level-warning; system
reporting under temperature condition for
CPU "X")
Action
1.
Ambient temperature must be within normal operating
specifications; see “Features and specifications” on page 3.
Fan error messages
Message
1.
Check connections to fan "X"
2.
Replace fan "X"
Fan "X" fault
(level-critical; fan "X"
beyond recommended RPM range)
1.
Check connections to fan "X"
2.
Replace fan "X"
Fan "X" Outside Recommended Speed
Action
1.
Replace Fan"X"
Fan "X" failure
had a failure)
(level-critical; fan "X"
Action
Power error messages
Message
Action
Power supply "X" current share fault
(level-critical; excessive current demand on
power supply "X")
1.
See “Power checkout” on page 26.
Power supply "X" DC good fault
(level-critical; power good signal not
detected for power supply "X")
1.
Replace power supply "X"
Power supply "X" temperature fault
1.
Replace fan "X"
Power supply "X" removed
1.
No action required - information only
Power supply "X" fan fault
(level-critical; fan fault in power supply "X")
1.
Replace power supply "X"
Power supply "X" 12V fault
(level-critical; overcurrent condition
detected)
1.
See “Power checkout” on page 26.
Power supply "X" 3.3V fault
(level-critical; 3.3V power supply "X" had an
error)
1.
See “Power checkout” on page 26.
Power supply "X" 5V fault
(level-critical; 5V power supply "X" had an
error)
1.
See “Power checkout” on page 26.
System over recommended "X" current
(level-non-critical; system running too much
current on that voltage)
1.
See “Power checkout” on page 26.
System running non-redundant power
(level-non-critical; system does not have
redundant power)
1.
Add another power supply
2.
Remove options from system
3.
System can continue to operate without redundancy protection if 1
and 2 above are not followed.
Symptom-to-FRU index
127
Message
Action
System under recommended voltage for "X"
v
(level-warning; indicated
voltage supply under nominal value; value
for "X" can be +12, -12, or +5)
1.
Check connections to power subsystem
2.
Replace power supply
3.
Replace power backplane
System under recommended voltage on 3.3
v
(level-warning; 3.3 volt
supply under nominal value)
1.
Check connections to power subsystem
2.
Replace power supply
3.
Replace power backplane
System under recommended X current
(level-non-critical; system drawing less
current than recommended on voltage "X")
1.
See “Power checkout” on page 26.
"X" V bus fault
(level-critical;
overcurrent condition on "X" voltage bus)
1.
Check for short circuit on "X" voltage bus
2.
See“Power checkout” on page 26.
12V "X" bus fault
(level-critical;
overcurrent condition on 12 volt "X" voltage
bus)
1.
Check for short circuit on 12 volt "X" voltage bus
2.
See “Power checkout” on page 26.
5V fault
(level-critical; overcurrent
condition on 5 V subsystem)
1.
Check for short circuit on 5 v bus
2.
See“Power checkout” on page 26.
240 VA fault
(level-critical; overcurrent
or overvoltage condition in power
subsystem)
1.
See “Power checkout” on page 26.
System shutdown
Refer to the following tables when experiencing system shutdown related to voltage
or temperature problems.
Voltage related system shutdown
Message
Action
System shutoff due to "X" current over
max value
(level-critical; system
drawing too much current on voltage "X"
bus)
1.
See “Power checkout” on page 26.
System shutoff due to "X" current under
min value
(level-critical;
current on voltage bus "X" under minimum
value)
1.
See “Power checkout” on page 26.
System shutoff due to "X" V over voltage
(level-critical; system shutoff due to "X"
supply over voltage)
1.
Check power supply connectors
2.
Replace power supply
3.
Replace power backplane
1.
Check power supply connectors
2.
Replace power supply
3.
Replace power backplane
System shutoff due to "X" V under voltage
(level-critical system shutoff due to "X"
supply under voltage)
128
Hardware Maintenance Manual: xSeries 340 Model 6RY
Message
System shutoff due to VRM "X" over
voltage
Action
1.
Replace power supply
2.
Replace power supply backplane
Temperature related system shutdown
Message
Action
1.
Ensure system is being properly cooled, see “Temperature
checkout” on page 28.
2.
Replace board
System shutoff due to CPU "X" over
temperature
(level-critical; CPU "X" is
over temperature)
1.
Ensure system is being properly cooled, see “Temperature
checkout” on page 28.
2.
Replace CPU "X"
System shutoff due to CPU "X" under
temperature
(level-critical; CPU "X" is
under temperature)
1.
Ambient temperature must be within normal operating
specifications, see “Features and specifications” on page 3.
System shutoff due to DASD temperature
(sensor X)
(level-critical;
DASD area reported temperature outside
recommended operating range)
1.
Ensure system is being properly cooled, see “Temperature
checkout” on page 28.
System shutoff due to high ambient
temperature
(level-critical; high ambient
temperature)
1.
Ambient temperature must be within normal operating
specifications, see “Features and specifications” on page 3.
System shutoff due to system board under
temperature
(level-critical; system
board is under temperature)
1.
Ambient temperature must be within normal operating
specifications, see “Features and specifications” on page 3.
System shutoff due to board over
temperature
(level-critical; board
is over temperature)
2.
DASD checkout
Message
Action
1.
Hard drive "X" removal detected
(level-critical; hard drive "X" has been
removed)
Information only, take action as appropriate.
Host Built-In Self Test (BIST)
Message
Host fail (level-informational; host’s builtin self test failed)
Action
1.
Reseat CPU
2.
Reseat VRM
3.
Replace CPU
Symptom-to-FRU index
129
Bus fault messages
Message
Action
Failure reading 12C device. Check devices
on bus 0.
1.
Replace system board
Failure reading 12C device. Check devices
on bus 1.
1.
Reseat power Supply
2.
Replace power supply
3.
Replace power supply backplane
4.
Replace system board
Failure reading 12C device. Check devices
on bus 2.
1.
Replace DASD backplane
2.
Replace system board
Failure reading 12C device. Check devices
on bus 3.
1.
Replace system board
Failure reading 12C device. Check devices
on bus 4.
1.
Replace DIMM
2.
Replace system board
Undetermined problems
You are here because the diagnostic tests did not identify the failure, the Devices List
is incorrect, or the system is inoperative.
Note: A corrupt CMOS can cause undetermined problems.
Check the LEDs on all the power supplies, see“Power supply LED errors” on page
119. If the LEDs indicate the power supplies are working correctly, return here and do
the following:
1.
2.
3.
Power-off the computer.
Be sure the system is cabled correctly.
Remove or disconnect the following (one at a time) until you find the failure
(power-on the computer and reconfigure each time).
Any external devices
Surge suppressor device (on the computer)
Modem, printer, mouse, or non-IBM devices
Each adapter
Drives
Memory-Modules (Minimum requirement = 128 MB (4x128 MB DIMMs))
Note: Minimum operating requirements are:
4.
a. 1 Power Supply
b. Power Backplane
c. System Board
d. 1 Microprocessor and VRM
e. 1 Terminator Card
f. Memory Module (with a minimum of 1 bank of 128 MB DIMMs)
Power-on the computer. If the problem remains, suspect the following FRUs in
the order listed:
Power Supply
Power Backplane
System Board
130
Hardware Maintenance Manual: xSeries 340 Model 6RY
Notes:
1.
If the problem goes away when you remove an adapter from the system, and
replacing that adapter does not correct the problem, suspect the System Board.
2.
If you suspect a networking problem and all the system tests pass, suspect a
network cabling problem external to the system.
Symptom-to-FRU index
131
132
Hardware Maintenance Manual: xSeries 340 Model 6RY
Parts listing (xSeries 340)
1
20
19
18
17
2
16
5
15
6
3
4
7
14
8
13
12
11
10
9
Index
System Part (Model No.)
FRU No.
1
Top Cover (All Models)
37L0365
2
92MM X 38 Fan (2) (All Models)
37L0305
3
AC Distribution Box Model (All Models)
37L0313
4
SCSI Backplane Combo/Backplate Assembly (All Models)
00N8953
5
Slim Hard Disk Drive Bezel Filler Assembly (All Models)
00N7259
6
9.1 GB Hard Disk Drive, 7200 RPM
37L6212
6
18.2 GB Hard DIsk Drive, 7200 RPM
37L6213
6
9.1 GB Hard Disk Drive, 10000 RPM
37L6216
6
18.2 GB Hard Disk Drive,10000 RPM
37L6217
6
9.1 Hard Disk Drive, Ultra 160 MB
19K0610
6
18.2 Hard Disk Drive, Ultra 160 MB
19K0611
7
Panel, Power Supply Filler (All Models)
37L0331
8
Power Supply with Mounting, 270 WF (All Models)
37L0311
9
Front Bezel, 18mm (All Models)
37L0331
10
12.7MM Diskette Drive (All Models)
36L8645
10
24X CDROM (Primary) (All Models)
09N0883
© Copyright IBM Corp. 2000
133
Index
134
System Part (Model No.)
FRU No.
11
Blank 5.25 Hard DIsk Drive Bezel (Snap Mount) (All Models)
00N6407
12
Card Assembly, Front Switch Card
00N7213
13
Frame Assembly, (Chassis Weldment) (All Models)
37L0303
14
System Board Assembly with Tray (All Models)
09N7812
15
Processor Terminator Card (All Models)
37L5949
16
256MB SDIMM Memory (All Models)
33L3126
16
512MB SDIMM Memory (All Models)
33L3128
16
1GB SDIMM Memory (All Models)
33L3130
16
Memory assembly, 128MB RDIMM P133 (All Models)
33L3124
17
1GHz/133 Processor & Heatsink Assembly (Model 6RY)
21P8621
18
Voltage Regulator Module (All Models)
36L8901
19
Baffle, Air (All Models)
00N7172
20
Rear Fan Assembly (92MM X 38)
00N7248
Bezel (All Models)
06P5907
24X TEAC CDROM (Alternate) (All Models)
19K1523
Power Backplane Insulator (All Models)
00N7188
Card Assembly, Front LED Card (Baldplate) (All Models)
00N7227
Card Assembly, Power Backplane (All Models)
00N7216
Card Assembly (CD Interposer) (All Models)
09N9451
Card Assembly, SCSI Repeater 160M (All Models)
00N7293
Mounting Hardware/Cage (All Models)
00N7196
On/Off Switch Cover (All Models)
09N8012
Battery (3V)
10L6432
Lens Cover (All Models)
00N7178
Misc FRU Kit (All Models)
00N7179
Left External Interface Adapter Side Flange (All Models)
00N7190
Right External Interface Adapter Side Flange (All Models)
00N7192
Misc Rack Hardware Kit (All Models)
00N7193
Slide With Brackets (2) (All Models)
00N7205
Bracket, Cable Management Chassis Attach (2) (All Models)
00N7211
Cable Management Arm Assembly (2) (All Models)
00N7242
Hinge Pin (3) (All Models)
00N7244
Cable Management Arm Assembly (2) (All Models)
00N7245
Label, System Service (All Models)
09N8011
Mounting Bracket Assembly (CD/FDD) (All Models)
09N9452
Frame Assembly, (Chassis Weldment) (All Models)
37L0303
Cable, Power - IO Planar to Fans 1X7 (All Models)
00N7181
Cable, Signal I2C - IO Planar to SCSI Backplane ( 2X7) (All Models)
00N7185
(All Models)
Hardware Maintenance Manual: xSeries 340 Model 6RY
Index
System Part (Model No.)
FRU No.
Cable, Signal - SCSI Single Ended - Planar to Media (All Models)
00N7187
Cable, Power - Signal - Power Backplane to IO Planar 2X10 (All Models)
03K9346
Cable, Signal - Planar to Floppy Drive (Flex Cable) (All Models)
37L0346
Cable, Signal LVD-SCSI - Planar to SCSI Backplane (All Models)
37L0350
Cable, Power - PWR BP to IO Planar 2X12 (All Models)
37L0354
Cable, Power - Power Backplane to SCSI Backplane & Media Bays 5-Drop
(All Models)
37L0358
Power Cord (All Models)
6952301
Cable,Signal LVD-SCSI - Jumper Repeater to SCSI Backplane (All Models)
00N7198
Keyboards
Keyboard
FRU No.
US English
37L2551
French Canadian
37L2552
LA Spanish
37L2553
Arabic
37L2555
Belgium/French
37L2556
Belgium/UK
37L2557
Bulgarian
37L2558
Czech
37L2559
Danish
37L2560
Dutch
37L2561
French
37L2562
German
37L2563
Greek
37L2564
Hebrew
37L2565
Hungarian
37L2566
Korean
02K0901
Iceland
37L2567
Italy
37L2568
Norwegian
37L2569
Polish
37L2570
Portugese
37L2571
Romanian
37L2572
Russian
37L2573
Serbian/Cyrillic
37L2574
Slovic
37L2575
Parts listing (xSeries 340)
135
Keyboard
FRU No.
Spanish
37L2576
Swedish/Finn
37L2577
Swiss, F/G
37L2578
Turkish
37L2579
Turkish
37L2580
UK English
37L2581
Yugosl/Lat
37L2582
US English-EMEA
37L2583
Chinese/US
37L2585
Thailand
37L2587
French Canadian
37L0913
Power cords
Power cord
FRU No.
China (PRC)
01K9851
Japan
01K9853
Thailand
12J5120
Israel
12J5122
Bangladesh, Burma, India, Pakistan, South Africa, Sri Lanka
12J5124
Chile, Ethiopia, Italy, Libya, Somalia
12J5126
Argentina, Australia, New Zealand, Papua New Guinea, Paraguay, Uruguay, Western
Samoa
12J5128
Antigua, Bahrain, Brunei, Channel Islands, China (Hong Kong S.A.R.), Cyprus, Dubai,
Fiji, Ghana, Iraq, Ireland, Kenya, Kuwait, Malawi, Malaysia, Malta, Nepal, Nigeria,
Polynesia, Qatar, Sierra Leone, Singapore, Tanzania, Uganda, United Kingdom, Yemen,
Zambia
12J5987
Afghanistan, Algeria, Andorra, Angola, Austria, Belgium, Benin, Bulgaria, Burkina
Faso, Burundi, Cameroon, Central African Rep., Chad, China (Macau S.A.R.), Czech
Republic, Egypt, Finland, France, French Guiana, Germany, Greece, Guinea, Hungary,
Iceland, Indonesia, Iran, Ivory Coast, Jordan, Lebanon, Luxembourg, Malagasy, Mali,
Martinique, Mauritania, Mauritius, Monaco, Morocco, Mozambique, Netherlands, New
Caledonia, Niger, Norway, Poland, Portugal, Romania, Senegal, Slovakia, Spain, Sudan,
Sweden, Syria, Togo, Tunisia, Turkey, former USSR, Vietnam, former Yugoslavia, Zaire,
Zimbabwe
55H6643
Denmark, Switzerland, Liechtenstein
55H6646
Bahamas, Barbados, Bermuda, Bolivia, Brazil, Canada, Cayman Islands, Colombia,
Costa Rica, Dominican Republic, Ecuador, El Salvador, Guatemala, Guyana, Haiti,
Honduras, Jamaica, Korea (South), Liberia, Mexico, Netherlands Antilles, Nicaragua,
Panama, Peru, Philippines, Saudi Arabia, Suriname, Taiwan, Trinidad (West Indies),
Venezuela
76H4865
United States of America
136
Hardware Maintenance Manual: xSeries 340 Model 6RY
6952301 (110) 1838574 (220)
36L8886 (220V/15A)
Related service information
Note: The service procedures are designed to help you isolate problems. They are
written with the assumption that you have model-specific training on all
computers, or that are familiar with the computers, functions, terminology,
and service information provided in this manual.
Safety information
The following section contains the safety information that you need to be familiar
with before servicing an IBM mobile computer.
General safety
Follow these rules to ensure general safety:
•
Observe good housekeeping in the area of the machines during and after
maintenance.
•
When lifting any heavy object:
1.
Ensure you can stand safely without slipping.
2.
Distribute the weight of the object equally between your feet.
3.
Use a slow lifting force. Never move suddenly or twist when you attempt to
lift.
4.
Lift by standing or by pushing up with your leg muscles; this action removes
the strain from the muscles in your back. Do not attempt to lift any objects that
weigh more than 16 kg (35 lb) or objects that you think are too heavy for you.
•
Do not perform any action that causes hazards to the customer, or that makes the
equipment unsafe.
•
Before you start the machine, ensure that other service representatives and the
customer's personnel are not in a hazardous position.
•
Place removed covers and other parts in a safe place, away from all personnel,
while you are servicing the machine.
•
Keep your tool case away from walk areas so that other people will not trip over
it.
•
Do not wear loose clothing that can be trapped in the moving parts of a machine.
Ensure that your sleeves are fastened or rolled up above your elbows. If your hair
is long, fasten it.
•
Insert the ends of your necktie or scarf inside clothing or fasten it with a
nonconductive clip, approximately 8 centimeters (3 inches) from the end.
•
Do not wear jewelry, chains, metal-frame eyeglasses, or metal fasteners for your
clothing.
Remember: Metal objects are good electrical conductors.
•
Wear safety glasses when you are: hammering, drilling soldering, cutting wire,
attaching springs, using solvents, or working in any other conditions that might
be hazardous to your eyes.
•
After service, reinstall all safety shields, guards, labels, and ground wires.
Replace any safety device that is worn or defective.
© Copyright IBM Corp. 2000
137
•
Reinstall all covers correctly before returning the machine to the customer.
Electrical safety
CAUTION:
Electrical current from power, telephone, and communication cables can be
hazardous. To avoid personal injury or equipment damage, disconnect the attached
power cords, telecommunication systems, networks, and modems before you open
the server covers, unless instructed otherwise in the installation and configuration
procedures.
Observe the following rules when working on electrical equipment.
Important: Use only approved tools and test equipment. Some hand tools have
handles covered with a soft material that does not insulate you when
working with live electrical currents.
Many customers have, near their equipment, rubber floor mats that
contain small conductive fibers to decrease electrostatic discharges. Do
not use this type of mat to protect yourself from electrical shock.
•
Find the room emergency power-off (EPO) switch, disconnecting switch, or
electrical outlet. If an electrical accident occurs, you can then operate the switch
or unplug the power cord quickly.
•
Do not work alone under hazardous conditions or near equipment that has
hazardous voltages.
•
Disconnect all power before:
— Performing a mechanical inspection
— Working near power supplies
— Removing or installing main units
•
Before you start to work on the machine, unplug the power cord. If you cannot
unplug it, ask the customer to power-off the wall box that supplies power to the
machine and to lock the wall box in the off position.
•
If you need to work on a machine that has exposed electrical circuits, observe the
following precautions:
— Ensure that another person, familiar with the power-off controls, is near you.
Remember: Another person must be there to switch off the power, if
necessary.
— Use only one hand when working with powered-on electrical equipment;
keep the other hand in your pocket or behind your back.
Remember: There must be a complete circuit to cause electrical shock. By
observing the above rule, you may prevent a current from passing through
your body.
— When using testers, set the controls correctly and use the approved probe
leads and accessories for that tester.
— Stand on suitable rubber mats (obtained locally, if necessary) to insulate you
from grounds such as metal floor strips and machine frames.
138
Hardware Maintenance Manual: xSeries 340 Model 6RY
Observe the special safety precautions when you work with very high voltages;
these instructions are in the safety sections of maintenance information. Use
extreme care when measuring high voltages.
•
Regularly inspect and maintain your electrical hand tools for safe operational
condition.
•
Do not use worn or broken tools and testers.
•
Never assume that power has been disconnected from a circuit. First, check that it
has been powered-off.
•
Always look carefully for possible hazards in your work area. Examples of these
hazards are moist floors, nongrounded power extension cables, power surges,
and missing safety grounds.
•
Do not touch live electrical circuits with the reflective surface of a plastic dental
mirror. The surface is conductive; such touching can cause personal injury and
machine damage.
•
Do not service the following parts with the power on when they are removed
from their normal operating places in a machine:
— Power supply units
— Pumps
— Blowers and fans
— Motor generators
and similar units. (This practice ensures correct grounding of the units.)
•
If an electrical accident occurs:
— Use caution; do not become a victim yourself.
— Switch off power.
— Send another person to get medical aid.
Safety inspection guide
The intent of this inspection guide is to assist you in identifying potentially unsafe
conditions on these products. Each machine, as it was designed and built, had
required safety items installed to protect users and service personnel from injury. This
guide addresses only those items. However, good judgment should be used to
identify potential safety hazards due to attachment of non-IBM features or options not
covered by this inspection guide.
If any unsafe conditions are present, you must determine how serious the apparent
hazard could be and whether you can continue without first correcting the problem.
Consider these conditions and the safety hazards they present:
•
Electrical hazards, especially primary power (primary voltage on the frame can
cause serious or fatal electrical shock).
•
Explosive hazards, such as a damaged CRT face or bulging capacitor
•
Mechanical hazards, such as loose or missing hardware
The guide consists of a series of steps presented in a checklist. Begin the checks with
the power off, and the power cord disconnected.
Checklist:
1.
Check exterior covers for damage (loose, broken, or sharp edges).
2.
Power-off the computer. Disconnect the power cord.
Related service information
139
3.
Check the power cord for:
a.
A third-wire ground connector in good condition. Use a meter to measure
third-wire ground continuity for 0.1 ohm or less between the external ground
pin and frame ground.
b.
The power cord should be the appropriate type as specified in the parts
listings.
c.
Insulation must not be frayed or worn.
4.
Remove the cover.
5.
Check for any obvious non-IBM alterations. Use good judgment as to the safety
of any non-IBM alterations.
6.
Check inside the unit for any obvious unsafe conditions, such as metal filings,
contamination, water or other liquids, or signs of fire or smoke damage.
7.
Check for worn, frayed, or pinched cables.
8.
Check that the power-supply cover fasteners (screws or rivets) have not been
removed or tampered with.
Handling electrostatic discharge-sensitive devices
Any computer part containing transistors or integrated circuits (ICs) should be
considered sensitive to electrostatic discharge (ESD). ESD damage can occur when
there is a difference in charge between objects. Protect against ESD damage by
equalizing the charge so that the machine, the part, the work mat, and the person
handling the part are all at the same charge.
Notes:
1.
Use product-specific ESD procedures when they exceed the requirements noted
here.
2.
Make sure that the ESD protective devices you use have been certified (ISO 9000)
as fully effective.
When handling ESD-sensitive parts:
•
Keep the parts in protective packages until they are inserted into the product.
•
Avoid contact with other people.
•
Wear a grounded wrist strap against your skin to eliminate static on your body.
•
Prevent the part from touching your clothing. Most clothing is insulative and
retains a charge even when you are wearing a wrist strap.
•
Use the black side of a grounded work mat to provide a static-free work surface.
The mat is especially useful when handling ESD-sensitive devices.
•
Select a grounding system, such as those listed below, to provide protection that
meets the specific service requirement.
Note: The use of a grounding system is desirable but not required to protect
against ESD damage.
— Attach the ESD ground clip to any frame ground, ground braid, or green-wire
ground.
— Use an ESD common ground or reference point when working on a doubleinsulated or battery-operated system. You can use coax or connector-outside
shells on these systems.
— Use the round ground-prong of the ac plug on ac-operated computers.
140
Hardware Maintenance Manual: xSeries 340 Model 6RY
Grounding requirements
Electrical grounding of the computer is required for operator safety and correct
system function. Proper grounding of the electrical outlet can be verified by a
certified electrician.
Safety notices (multi-lingual translations)
The caution and danger safety notices in this section are provided in the following
languages:
•
English
•
Brazilian/Portuguese
•
Chinese
•
French
•
German
•
Italian
•
Korean
•
Spanish
Important: All caution and danger statements in the Server Library begin with a
number. This number is used to cross reference an English caution or
danger statement with translated versions of the caution or danger
statement in this section.
For example, if a caution statement begins with a number 1, translations
for that caution statement appear in this section under statement 1.
Be sure to read all caution and danger statements before performing any
of the instructions.
•
Statement 1
DANGER
Electrical current from power, telephone and communication cables is hazardous.
To avoid a shock hazard:
•
Do not connect or disconnect any cables or perform installation, maintenance,
or reconfiguration of this product during an electrical storm.
•
Connect all power cords to a properly wired and grounded electrical outlet.
•
Connect to properly wired outlets any equipment that will be attached to this
product.
•
When possible, use one hand only to connect or disconnect signal cables.
•
Never turn on any equipment when there is evidence of fire, water, or
structural damage.
•
Disconnect the attached power cords, telecommunications systems, networks,
and modems before you open the device covers, unless instructed otherwise in
the installation and configuration procedures.
Related service information
141
•
Connect and disconnect cables as described in the following table when
installing, moving, or opening covers on this product or attached devices.
To Connect
To Disconnect
1.
Turn everything OFF.
1.
Turn everything OFF.
2.
First, attach all cables to devices.
2.
First, remove power cords from outlet.
3.
Attach signal cables to connectors.
3.
Remove signal cables from connectors.
4.
Attach power cords to outlet.
4.
Remove all cables from devices.
5.
Turn device ON.
•
Statement 2
CAUTION:
When replacing the lithium battery, use only IBM Part Number 33F8354 or an
equivalent type battery recommended by the manufacturer. If your system has a
module containing a lithium battery, replace it only with the same module type
made by the same manufacturer. The battery contains lithium and can explode if
not properly used, handled, or disposed of.
Do not:
•
Throw or immerse into water
•
Heat to more than 100°C (212°F)
•
Repair or disassemble
Dispose of the battery as required by local ordinances or regulations.
•
Statement 3
CAUTION:
When laser products (such as CD-ROMs, DVD-ROM drives, fiber optic devices, or
transmitters) are installed, note the following:
142
•
Do not remove the covers. Removing the covers of the laser product could
result in exposure to hazardous laser radiation. There are no serviceable parts
inside the device.
•
Use of controls or adjustments or performance of procedures other than those
specified herein might result in hazardous radiation exposure.
Hardware Maintenance Manual: xSeries 340 Model 6RY
DANGER
Some laser products contain an embedded Class 3A or Class 3B laser diode. Note
the following:
Laser radiation when open. Do not stare into the beam, do not view directly with
optical instruments, and avoid direct exposure to the beam.
•
Statement 4
≥18 kg (37 lbs)
≥32 kg (70.5 lbs)
≥55 kg (121.2 lbs)
CAUTION:
Use safe practices when lifting.
•
Statement 5
CAUTION:
The power control button on the device and the power switch on the power supply
do not turn off the electrical current supplied to the device. The device also might
have more than one power cord. To remove all electrical current from the device,
ensure that all power cords are disconnected from the power source.
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2
1
•
Statement 10
CAUTION:
Do not place any object weighing more than 82 kg (180 lbs.) on top of rack-mounted
devices.
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Importante:
Todas as instruções de cuidado e perigo da Server Library começam com um número.
Este número é utilizado para fazer referência cruzada de uma instrução de cuidado ou
perigo no idioma inglês com as versões traduzidas das instruções de cuidado ou
perigo encontradas nesta seção.
Por exemplo, se uma instrução de cuidado é iniciada com o número 1, as traduções
para aquela instrução de cuidado aparecem nesta seção sob a instrução 1.
Certifique-se de ler todas as instruções de cuidado e perigo antes de executar
qualquer operação.
Instrução 1
PERIGO
A corrente elétrica proveniente de cabos de alimentação, de telefone e de
comunicações é perigosa.
Para evitar risco de choque:
•
Não conecte ou desconecte cabos e não realize instalação, manutenção ou
reconfiguração deste produto durante uma tempestade com raios.
•
Conecte todos os cabos de alimentação a tomadas elétricas corretamente
instaladas e aterradas.
•
Conecte todos os equipamentos ao qual esse produto será conectado a tomadas
corretamente instaladas.
•
Sempre que possível, utilize apenas uma das mãos para conectar ou desconectar
cabos de sinal.
•
Nunca ligue qualquer equipamento quando existir evidência de danos por fogo,
água ou na estrutura.
•
Desconecte cabos de alimentação, sistemas de telecomunicação, redes e modems
antes de abrir as tampas dos dispositivos, a menos que especificado de maneira
diferente nos procedimentos de instalação e configuração.
•
Conecte e desconecte cabos conforme descrito na seguinte tabela, ao instalar ou
movimentar este produto ou os dispositivos conectados, ou ao abrir suas tampas.
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Para Conectar:
Para Desconectar:
1.
DESLIGUE Tudo.
1.
DESLIGUE Tudo.
2.
Primeiramente, conecte todos os cabos
aos dispositivos.
2.
Primeiramente, remova os cabos de
alimentação das tomadas.
3.
Conecte os cabos de sinal aos
conectores.
3.
Remova os cabos de sinal dos conectores.
4.
Remova todos os cabos dos dispositivos.
4.
Conecte os cabos de alimentação às
tomadas.
5.
LIGUE os dispositivos.
Instrução 2
CUIDADO:
Ao substituir a bateria de lítio, utilize apenas uma bateria IBM, Número de Peça
33F8354 ou uma bateria de tipo equivalente, recomendada pelo fabricante. Se o seu
sistema possui um móídulo com uma bateria de lítio, substitua-o apenas pelo mesmo
tipo de mídulo, do mesmo fabricante. A bateria contém lítio e pode explodir se não for
utilizada, manuseada e descartada de maneira correta.
Não:
•
Jogue ou coloque na água
•
Aqueça a mais de 100°C (212°F)
•
Conserte nem desmonte
Para descartar a bateria, entre em contato com a área de atendimento a clientes IBM,
pelo telefone (011) 889-8986, para obter informações sobre como enviar a bateria pelo
correio para a IBM.
Instrução 3
PRECAUCIÓN:
Quando produtos a laser (unidades de CD-ROM, unidades de DVD, dispositivos de
fibra ítica, transmissores, etc.) estiverem instalados, observe o seguinte:
•
146
Não remova as tampas. A remoção das tampas de um produto a laser pode
resultar em exposição prejudicial à radiação de laser. Nenhuma peça localizada
no interior do dispositivo pode ser consertada.
Hardware Maintenance Manual: xSeries 340 Model 6RY
•
A utilização de controles ou ajustes ou a execução de procedimentos diferentes
dos especificados aqui pode resultar em exposição prejudicial à radiação.
PERIGO
Alguns produtos a laser contêm um diodo laser da Classe 3A ou Classe 3B embutido.
Observe o seguinte:
Radiação de laser quando aberto. Não olhe diretamente para o raio a olho nu ou com
instrumentos íticos, e evite exposição direta ao raio.
Instrução 4
≥18 kg (37 lbs)
≥32 kg (70,5 lbs)
≥55 kg (121,2 lbs)
CUIDADO:
Ao levantar a máquina, faça-o com segurança.
Instrução 5
CUIDADO:
Os botões Liga/Desliga localizados no dispositivo e na fonte de alimentação não
desligam a corrente elétrica fornecida ao dispositivo. O dispositivo também pode ter
mais de um cabo de alimentação. Para remover toda a corrente elétrica do dispositivo,
assegure que todos os cabos de alimentação estejam desconectados da fonte de
energia elétrica.
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2
1
CUIDADO:
Instrução 10
CUIDADO:
Não coloque nenhum objeto com peso superior a 82 kg (180 lbs.) sobre dispositivos
montados em rack.
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150
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152
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154
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156
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Important:
Toutes les consignes Attention et Danger indiquées dans la bibliothèque Server sont
précédées d'un numéro. Ce dernier permet de mettre en correspondance la consigne
en anglais avec ses versions traduites dans la présente section.
Par exemple, si une consigne de type Attention est précédée du chiffre 1, ses
traductions sont également précédées du chiffre 1 dans la présente section.
Prenez connaissance de toutes les consignes de type Attention et Danger avant de
procéder aux opérations décrites par les instructions.
Notice n° 1
DANGER
Le courant électrique passant dans les câbles de communication, ou les cordons
téléphoniques et d'alimentation peut être dangereux.
Pour éviter tout risque de choc électrique:
•
Ne manipulez aucun câble et n'effectuez aucune opération d'installation,
d'entretien ou de reconfiguration de ce produit au cours d'un orage.
•
Branchez tous les cordons d'alimentation sur un socle de prise de courant
correctement câblé et mis à la terre.
•
Branchez sur des socles de prise de courant correctement câblés tout équipement
connecté à ce produit.
•
Lorsque cela est possible, n'utilisez qu'une seule main pour connecter ou
déconnecter les câbles d'interface.
•
Ne mettez jamais un équipement sous tension en cas d'incendie ou d'inondation,
ou en présence de dommages matériels.
•
Avant de retirer les carters de l'unité, mettez celle-ci hors tension et déconnectez
ses cordons d'alimentation, ainsi que les câbles qui la relient aux réseaux, aux
systèmes de télécommunication et aux modems (sauf instruction contraire
mentionnée dans les procédures d'installation et de configuration).
•
Lorsque vous installez ou que vous déplacez le présent produit ou des
périphériques qui lui sont raccordés, reportez-vous aux instructions ci-dessous
pour connecter et déconnecter les différents cordons.
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Connexion
Déconnexion
1.
Mettez les unités hors tension.
1.
Mettez les unités hors tension.
2.
Commencez par brancher tous les
cordons sur les unités.
2.
Débranchez les cordons d'alimentation
des prises.
3.
Branchez les câbles d'interface sur des
connecteurs.
3.
Débranchez les câbles d'interface des
connecteurs.
4.
Branchez les cordons d'alimentation sur
des prises.
4.
Débranchez tous les câbles des unités.
5.
Mettez les unités sous tension.
Notice n° 2
ATTENTION:
Remplacez la pile au lithium usagée par une pile de référence identique
exclusivement - voir la référence IBM - ou par une pile équivalente recommandée
par le fabricant. Si votre système est doté d'un module contenant une pile au
lithium, vous devez le remplacer uniquement par un module identique, produit
par le même fabricant. La pile contient du lithium et présente donc un risque
d'explosion en cas de mauvaise manipulation ou utilisation.
•
Ne la jetez pas à l'eau.
•
Ne l'exposez pas à une température supérieure à 100 °C.
•
Ne cherchez pas à la réparer ou à la démonter.
Pour la mise au rebut, reportez-vous à la réglementation en vigueur.
Notice n° 3
ATTENTION:
Si des produits laser sont installés (tels que des unités de CD-ROM ou de DVD,
des périphériques contenant des fibres optiques ou des émetteurs-récepteurs),
prenez connaissance des informations suivantes:
158
•
N'ouvrez pas ces produits pour éviter une exposition directe au rayon laser.
Vous ne pouvez effectuer aucune opération de maintenance à l'intérieur.
•
Pour éviter tout risque d'exposition au rayon laser, respectez les consignes de
réglage et d'utilisation des commandes, ainsi que les procédures décrites dans
le présent document.
Hardware Maintenance Manual: xSeries 340 Model 6RY
DANGER
Certains produits laser contiennent une diode laser de classe 3A ou 3B. Prenez
connaissance des informations suivantes:
Rayonnement laser lorsque le carter est ouvert. évitez de regarder fixement le
faisceau ou de l'observer à l'aide d'instruments optiques. évitez une exposition
directe au rayon.
Notice n° 4
≥18 kg
≥32 kg
≥55 kg
ATTENTION:
Faites-vous aider pour soulever ce produit.
Notice n° 5
ATTENTION:
Le bouton de mise sous tension/hors tension de l'unité et l'interrupteur
d'alimentation du bloc d'alimentation ne coupent pas l'arrivée de courant
électrique à l'intérieur de la machine. Il se peut que votre unité dispose de
plusieurs cordons d'alimentation. Pour isoler totalement l'unité du réseau
électrique, débranchez tous les cordons d'alimentation des socles de prise de
courant.
Related service information
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2
1
Notice n° 10
ATTENTION:
Ne posez pas d'objet dont le poids dépasse 82 kg sur les unités montées en armoire.
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Wichtig:
Alle Sicherheitshinweise in dieser Server-Bibliothek beginnen mit einer Nummer. Diese
Nummer verweist auf einen englischen Sicherheitshinweis mit den übersetzten
Versionen dieses Hinweises in diesem Abschnitt.
Wenn z. B. ein Sicherheitshinweis mit der Nummer 1 beginnt, so erscheint die
übersetzung für diesen Sicherheitshinweis in diesem Abschnitt unter dem Hinweis 1.
Lesen Sie alle Sicherheitshinweise, bevor Sie eine Anweisung ausführen.
Hinweis 1
VORSICHT
Elektrische Spannungen von Netz-, Telefon- und Datenübertragungsleitungen sind
gefährlich.
Aus Sicherheitsgründen:
•
Bei Gewitter an diesem Gerät keine Kabel anschließen oder lösen. Ferner keine
Installations-, Wartungs- oder Rekonfigurationsarbeiten durchführen.
•
Gerät nur an eine Schutzkontaktsteckdose mit ordnungsgemäß geerdetem
Schutzkontakt anschließen.
•
Alle angeschlossenen Geräte ebenfalls an Schutzkontaktsteckdosen mit
ordnungsgemäß geerdetem Schutzkontakt anschließen.
•
Signalkabel möglichst einhändig anschließen oder lösen.
•
Keine Geräte einschalten, wenn die Gefahr einer Beschädigung durch Feuer,
Wasser oder andere Einflüsse besteht.
•
Die Verbindung zu den angeschlossenen Netzkabeln,
Telekommunikationssystemen, Netzwerken und Modems ist vor dem öffnen des
Gehäuses zu unterbrechen. Es sei denn, dies ist in den zugehörigen Installationsund Konfigurationsprozeduren anders angegeben.
•
Nur nach den nachfolgend aufgeführten Anweisungen arbeiten, die für
Installation, Transport oder öffnen von Gehäusen von Personal Computern oder
angeschlossenen Einheiten gelten.
Kabel anschlieβen:
1.
Alle Geräte ausschalten und
Netzstecker ziehen.
2.
Zuerst alle Kabel an Einheiten
anschließen.
3.
Signalkabel an Anschlußbuchsen
anschließen.
4.
Netzstecker an Steckdose anschließen.
5.
Gerät einschalten.
Kabel lösen:
1.
Alle Geräte ausschalten.
2.
Zuerst Netzstecker von Steckdose lösen.
3.
Signalkabel von Anschlußbuchsen lösen.
4.
Alle Kabel von Einheiten lösen.
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Hinweis 2
ACHTUNG:
Eine verbrauchte Batterie nur durch eine Batterie mit der IBM Teilenummer 33F8354
oder durch eine vom Hersteller empfohlene Batterie ersetzen. Wenn Ihr System ein
Modul mit einer Lithium-Batterie enthält, ersetzen Sie es immer mit dem selben
Modultyp vom selben Hersteller. Die Batterie enthält Lithium und kann bei
unsachgemäßer Verwendung, Handhabung oder Entsorgung explodieren.
Die Batterie nicht:
•
mit Wasser in Berührung bringen.
•
über 100 C erhitzen.
•
reparieren oder zerlegen.
Die örtlichen Bestimmungen für die Entsorgung von Sondermüll beachten.
Hinweis 3
ACHTUNG:
Wenn ein Laserprodukt (z. B. CD-ROM-Laufwerke, DVD-Laufwerke, Einheiten mit
Glasfaserkabeln oder Transmitter) installiert ist, beachten Sie folgendes.
•
Das Entfernen der Abdeckungen des CD-ROM-Laufwerks kann zu gefährlicher
Laserstrahlung führen. Es befinden sich keine Teile innerhalb des CD-ROMLaufwerks, die vom Benutzer gewartet werden müssen. Die Verkleidung des CDROM-Laufwerks nicht öffnen.
•
Steuer- und Einstellelemente sowie Verfahren nur entsprechend den
Anweisungen im vorliegenden Handbuch einsetzen. Andernfalls kann
gefährliche Laserstrahlung auftreten.
VORSICHT
Manche CD-ROM-Laufwerke enthalten eine eingebaute Laserdiode der Klasse 3A
oder 3B. Die nachfolgend aufgeführten Punkte beachten.
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Laserstrahlung bei geöffneter Tür. Niemals direkt in den Laserstrahl sehen, nicht
direkt mit optischen Instrumenten betrachten und den Strahlungsbereich meiden.
Hinweis 4
≥18 kg
≥32 kg
≥55 kg
ACHTUNG:
Beim Anheben der Maschine die vorgeschriebenen Sicherheitsbestimmungen
beachten.
Hinweis 5
ACHTUNG:
Mit dem Betriebsspannungsschalter an der Vorderseite des Servers und dem
Betriebsspannungsschalter am Netzteil wird die Stromversorgung für den Server
nicht unterbrochen. Der Server könnte auch mehr als ein Netzkabel aufweisen. Um
die gesamte Stromversorgung des Servers auszuschalten, muß sichergestellt werden,
daß alle Netzkabel aus den Netzsteckdosen herausgezogen wurden.
2
1
Hinweis 10
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163
ACHTUNG:
Keine Gegenstände, die mehr als 82 kg wiegen, auf Rack-Einheiten ablegen.
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Importante:
Tutti gli avvisi di attenzione e di pericolo riportati nella pubblicazione Server Library
iniziano con un numero. Questo numero viene utilizzato per confrontare avvisi di
attenzione o di pericolo in inglese con le versioni tradotte riportate in questa sezione.
Ad esempio, se un avviso di attenzione inizia con il numero 1, la relativa versione
tradotta è presente in questa sezione con la stessa numerazione.
Prima di eseguire una qualsiasi istruzione, accertarsi di leggere tutti gli avvisi di
attenzione e di pericolo.
Avviso 1
PERICOLO
La corrente elettrica circolante nei cavi di alimentazione, del telefono e di segnale è
pericolosa.
Per evitare il pericolo di scosse elettriche:
•
Non collegare o scollegare i cavi, non effettuare l'installazione, la manutenzione o
la riconfigurazione di questo prodotto durante i temporali.
•
Collegare tutti i cavi di alimentazione ad una presa elettrica correttamente cablata
e munita di terra di sicurezza.
•
Collegare qualsiasi apparecchiatura collegata a questo prodotto ad una presa
elettrica correttamente cablata e munita di terra di sicurezza.
•
Quando possibile, collegare o scollegare i cavi di segnale con una sola mano.
•
Non accendere qualsiasi apparecchiatura in presenza di fuoco, acqua o se sono
presenti danni all'apparecchiatura stessa.
•
Scollegare i cavi di alimentazione, i sistemi di telecomunicazioni, le reti e i modem
prima di aprire i coperchi delle unità, se non diversamente indicato nelle
procedure di installazione e configurazione.
•
Collegare e scollegare i cavi come descritto nella seguente tabella quando si
effettuano l'installazione, la rimozione o l'apertura dei coperchi di questo
prodotto o
delle unità collegate.
Per collegare:
Per scollegare:
1.
SPEGNERE tutti i dispositivi.
1.
SPEGNERE tutti i dispositivi.
2.
Collegare prima tutti i cavi alle unità.
2.
3.
Collegare i cavi di segnale ai connettori.
Rimuovere prima i cavi di alimentazione
dalle prese elettriche.
4.
Collegare i cavi di alimentazione alle
prese elettriche.
3.
Rimuovere i cavi di segnale dai
connettori.
5.
ACCENDERE le unità.
4.
Rimuovere tutti i cavi dalle unità.
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Avviso 2
ATTENZIONE:
Quando si sostituisce la batteria al litio, utilizzare solo una batteria IBM con numero
parte 33F8354 o batterie dello stesso tipo o di tipo equivalente consigliate dal
produttore. Se il sistema di cui si dispone è provvisto di un modulo contenente una
batteria al litio, sostituire tale batteria solo con un tipo di modulo uguale a quello
fornito dal produttore. La batteria contiene litio e può esplodere se utilizzata,
maneggiata o smaltita impropriamente.
Evitare di:
•
Gettarla o immergerla in acqua
•
Riscaldarla ad una temperatura superiore ai 100°C
•
Cercare di ripararla o smontarla
Smaltire secondo la normativa in vigore (D.Lgs 22 del 5/2/9) e successive
disposizioni nazionali e locali.
Avviso 3
ATTENZIONE:
Quando si installano prodotti laser come, ad esempio, le unità DVD, CD-ROM, a fibre
ottiche o trasmettitori, prestare attenzione a quanto segue:
•
Non rimuovere i coperchi. L'apertura dei coperchi di prodotti laser può
determinare l'esposizione a radiazioni laser pericolose. All'interno delle unità non
vi sono parti su cui effettuare l'assistenza tecnica.
•
L'utilizzo di controlli, regolazioni o l'esecuzione di procedure non descritti nel
presente manuale possono provocare l'esposizione a radiazioni pericolose.
PERICOLO
Alcuni prodotti laser contengono all'interno un diodo laser di Classe 3A o Classe 3B.
Prestare attenzione a quanto segue:
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Hardware Maintenance Manual: xSeries 340 Model 6RY
Aprendo l'unità vengono emesse radiazioni laser. Non fissare il fascio, non guardarlo
direttamente con strumenti ottici ed evitare l'esposizione diretta al fascio.
Avviso 4
≥18 kg
≥32 kg
≥55 kg
ATTENZIONE:
Durante il sollevamento della macchina seguire delle norme di sicurezza.
Avviso 5
ATTENZIONE:
Il pulsante del controllo dell'alimentazione situato sull'unità e l'interruttore di
alimentazione posto sull'alimentatore non disattiva la corrente elettrica fornita
all'unità. L'unità potrebbe disporre di più di un cavo di alimentazione. Per disattivare
la corrente elettrica dall'unità, accertarsi che tutti i cavi di alimentazione siano
scollegati dalla sorgente di alimentazione.
2
1
Avviso 10
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ATTENZIONE:
Non poggiare oggetti che pesano più di 82 kg sulla parte superiore delle unità
montate in rack.
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Importante:
Todas las declaraciones de precauciín de esta Biblioteca del servidor empiezan con un
número. Dicho número se emplea para establecer una referencia cruzada de una
declaraciín de precauciín o peligro en inglés con las versiones traducidas que de
dichas declaraciones pueden encontrarse en esta secciín.
Por ejemplo, si una declaraciín de peligro empieza con el número 1, las traducciones
de esta declaraciín de precauciín aparecen en esta secciín bajo Declaraciín 1.
Lea atentamente todas las declaraciones de precauciín y peligro antes de llevar a cabo
cualquier operaciín.
Declaración 1
PELIGRO
La corriente eléctrica de los cables telefínicos, de alimentaciín y de comunicaciones es
perjudicial.
Para evitar una descarga eléctrica:
172
•
No conecte ni desconecte ningún cable ni realice las operaciones de instalaciín,
mantenimiento o reconfiguraciín de este producto durante una tormenta.
•
Conecte cada cable de alimentaciín a una toma de alimentaciín eléctrica con
conexiín a tierra y cableado correctos.
•
Conecte a tomas de alimentaciín con un cableado correcto cualquier equipo que
vaya a estar conectado a este producto.
•
Si es posible, utilice una sola mano cuando conecte o desconecte los cables de
sent.al.
•
No encienda nunca un equipo cuando haya riesgos de incendio, de inundaciín o
de daños estructurales.
•
Desconecte los cables de alimentaciín, sistemas de telecomunicaciones, redes y
mídems conectados antes de abrir las cubiertas del dispositivo a menos que se
indique lo contrario en los procedimientos de instalaciín y configuraciín.
•
Conecte y desconecte los cables tal como se describe en la tabla siguiente cuando
desee realizar una operaciín de instalaciín, de traslado o de apertura de las
cubiertas para este producto o para los dispositivos conectados.
Hardware Maintenance Manual: xSeries 340 Model 6RY
Para la conexin
Para la desconexiín
1.
APÁGUELO todo.
1.
APÁGUELO todo.
2.
En primer lugar, conecte los cables a los
dispositivos.
2.
En primer lugar, retire cada cable de
alimentaciín de la toma de alimentaciín.
3.
Conecte los cables de señal a los
conectores.
3.
Retire los cables de señal de los
conectores.
4.
Conecte cada cable de alimentaciín a la
toma de alimentaciín.
4.
Retire los cables de los dispositivos.
5.
ENCIENDA el dispositivo.
Declaración 2
PRECAUCIÓN:
Cuando desee sustituir la batería de litio, utilice únicamente el número de pieza
33F8354 de IBM o cualquier tipo de batería equivalente que recomiende el fabricante.
Si el sistema tiene un mídulo que contiene una batería de litio, sustitúyalo únicamente
por el mismo tipo de mídulo, que ha de estar creado por el mismo fabricante. La
batería contiene litio y puede explotar si el usuario no la utiliza ni la maneja de forma
adecuada o si no se desprende de la misma como corresponde.
No realice las acciones siguientes:
•
Arrojarla al agua o sumergirla
•
Calentarla a una temperatura que supere los 100°C (212°F)
•
Repararla o desmontarla
Despréndase de la batería siguiendo los requisitos que exija el reglamento o la
legislaciín local.
Declaración 3
PRECAUCIÓN:
Cuando instale productos láser (como, por ejemplo, CD-ROM, unidades DVD,
dispositivos de fibra íptica o transmisores), tenga en cuenta las advertencias
siguientes:
Related service information
173
•
No retire las cubiertas. Si retira las cubiertas del producto láser, puede quedar
expuesto a radiaciín láser perjudicial. Dentro del dispositivo no existe ninguna
pieza que requiera mantenimiento.
•
El uso de controles o ajustes o la realizaciín de procedimientos que no sean los que
se han especificado aquí pueden dar como resultado una exposiciín perjudicial a
las radiaciones.
PELIGRO
Algunos productos láser contienen un diodo de láser incorporado de Clase 3A o de
Clase 3B. Tenga en cuenta la advertencia siguiente.
Cuando se abre, hay radiaciín láser. No mire fijamente el rayo ni lleve a cabo ningún
examen directamente con instrumentos ípticos; evite la exposiciín directa al rayo.
Declaración 4
≥18 kg (37 libras)
≥32 kg (70,5 libras)
≥55 kg (121,2 libras)
PRECAUCIÓN:
Tome medidas de seguridad al levantar el producto.
Declaración 5
PRECAUCIÓN:
El botín de control de alimentaciín del dispositivo y el interruptor de alimentaciín de
la fuente de alimentaciín no apagan la corriente eléctrica suministrada al dispositivo.
Es posible también que el dispositivo tenga más de un cable de alimentaciín. Para
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Hardware Maintenance Manual: xSeries 340 Model 6RY
eliminar la corriente eléctrica del dispositivo, asegúrese de desconectar todos los
cables de alimentaciín de la fuente de alimentaciín.
2
1
Declaración 10
PRECAUCIÓN:
No coloque ningún objeto que pese más de 82 kg (180 libras) encima de los
dispositivos montados en bastidor.
Related service information
175
Send us your comments!
We want to know your opinion about this manual (part number 19K6113). Your input
will help us to improve our publications.
Please photocopy this survey, complete it, and then fax it to IBM HMM Survey at
919-543-8167 (USA).
Name: _________________________________________
Phone number: __________________________________
1.
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2.
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4.
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176
Hardware Maintenance Manual: xSeries 340 Model 6RY
Problem determination tips
Due to the variety of hardware and software combinations that can be encountered,
use the following information to assist you in problem determination. If possible,
have this information available when requesting assistance from Service Support and
Engineering functions.
•
Machine type and model
•
Processor or hard disk upgrades
•
Failure symptom
— Do diagnostics fail?
— What, when, where, single, or multiple systems?
— Is the failure repeatable?
— Has this configuration ever worked?
— If it has been working, what changes were made prior to it failing?
— Is this the original reported failure?
•
Reference/Diagnostics version
— Type and version level
•
Hardware configuration
— Print (print screen) configuration currently in use
— BIOS level
•
Operating system software
— Type and version level
Note: To eliminate confusion, identical systems are considered identical only if they:
1.
Are the exact machine type and models
2.
Have the same BIOS level
3.
Have the same adapters/attachments in the same locations
4.
Have the same address jumpers/terminators/cabling
5.
Have the same software versions and levels
6.
Have the same Reference/Diagnostics Diskette (version)
7.
Have the same configuration options set in the system
8.
Have the same setup for the operation system control files
Comparing the configuration and software set-up between "working and nonworking" systems will often lead to problem resolution.
Notices
References in this publication to IBM products, programs, or services do not imply
that IBM intends to make these available in all countries in which IBM operates. Any
reference to an IBM product, program, or service is not intended to state or imply that
only that IBM product, program, or service may be used. Subject to IBM’s valid
intellectual property or other legally protectable rights, any functionally equivalent
product, program, or service may be used instead of the IBM product, program, or
service. The evaluation and verification of operation in conjunction with other
products, except those expressly designated by IBM, are the responsibility of the user.
Related service information
177
Trademarks
The following items are trademarks of the IBM Corporation in the United States or
other countries or both:
HelpCenter
HelpFax
IBM
OS/2
NetBAY3
Netfinity
Netfinity Manager
ThinkPad
SystemXtra
xSeries
The following terms are trademarks of other companies:
Notes
Lotus Development Corporation
MMX and Pentium are trademarks or registered trademarks of Intel Corporation.
UNIX is a trademark or registered trademark of The Open Group in the United States
and other countries.
Windows NT is a trademark or registered trademark of Microsoft Corporation.
178
Hardware Maintenance Manual: xSeries 340 Model 6RY
[email protected]
Part Number:
19K6113
Printed in the United States of America
on recycled paper containing 10%
recovered post-consumer fiber.
19K6113
0419K6113
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