Fujitsu PRIMERGY TX140 S2 Manual

Upgrade and Maintenance Manual - English

FUJITSU Server PRIMERGY TX140 S2

Upgrade and Maintenance Manual

April 2015

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Certified documentation according to DIN EN ISO 9001:2008

To ensure a consistently high quality standard and user-friendliness, this documentation was created to meet the regulations of a quality management system which complies with the requirements of the standard

DIN EN ISO 9001:2008. cognitas. Gesellschaft für Technik-Dokumentation mbH www.cognitas.de

Copyright and Trademarks

Copyright © 2015 Fujitsu Technology Solutions GmbH.

All rights reserved.

Delivery subject to availability; right of technical modifications reserved.

All hardware and software names used are trademarks of their respective manufacturers.

– The contents of this manual may be revised without prior notice.

– Fujitsu assumes no liability for damages to third party copyrights or other rights arising from the use of any information in this manual.

– No part of this manual may be reproduced in any form without the prior written permission of Fujitsu.

Microsoft, Windows, Windows Server, and Hyper-V are trademarks or registered trademarks of

Microsoft Corporation in the USA and other countries.

Intel and Xeon are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the USA and other countries.

Before reading this manual

For your safety

This manual contains important information for safely and correctly using this product.

Carefully read the manual before using this product. Pay particular attention to the accompanying manual "Safety Notes and Regulations" and ensure these safety notes are understood before using the product. Keep this manual and the manual "Safety Notes and Regulations" in a safe place for easy reference while using this product.

Radio interference

This product is a "Class A" ITE (Information Technology Equipment). In a domestic environment this product may cause radio interference, in which case the user may be required to take appropriate measures.

VCCI-A

Aluminum electrolytic capacitors

The aluminum electrolytic capacitors used in the product's printed circuit board assemblies and in the mouse and keyboard are limited-life components. Use of these components beyond their operating life may result in electrolyte leakage or depletion, potentially causing emission of foul odor or smoke.

As a guideline, in a normal office environment (25°C) operating life is not expected to be reached within the maintenance support period (5 years).

However, operating life may be reached more quickly if, for example, the product is used in a hot environment. The customer shall bear the cost of replacing replaceable components which have exceeded their operating life.

Note that these are only guidelines, and do not constitute a guarantee of trouble-free operation during the maintenance support period.

High safety use

This product has been designed and manufactured to be used in commercial and/or industrial areas as a server.

When used as visual display workplace, it must not be placed in the direct field of view to avoid incommoding reflections (applies only to TX server systems).

The device has not been designed or manufactured for uses which demand an extremely high level of safety and carry a direct and serious risk of life or body if such safety cannot be assured.

TX140 S2 Upgrade and Maintenance Manual

These uses include control of nuclear reactions in nuclear power plants, automatic airplane flight control, air traffic control, traffic control in mass transport systems, medical devices for life support, and missile guidance control in weapons systems (hereafter, "high safety use"). Customers should not use this product for high safety use unless measures are in place for ensuring the level of safety demanded of such use. Please consult the sales staff of Fujitsu if intending to use this product for high safety use.

Measures against momentary voltage drop

This product may be affected by a momentary voltage drop in the power supply caused by lightning. To prevent a momentary voltage drop, use of an AC uninterruptible power supply is recommended.

(This notice follows the guidelines of Voltage Dip Immunity of Personal

Computer issued by JEITA, the Japan Electronics and Information Technology

Industries Association.)

Technology controlled by the Foreign Exchange and Foreign Trade

Control Law of Japan

Documents produced by Fujitsu may contain technology controlled by the

Foreign Exchange and Foreign Trade Control Law of Japan. Documents which contain such technology should not be exported from Japan or transferred to non-residents of Japan without first obtaining authorization in accordance with the above law.

Harmonic Current Standards

This product conforms to harmonic current standard JIS C 61000-3-2.

Only for the Japanese market: About SATA hard disk drives

The SATA version of this server supports hard disk drives with SATA / BC-SATA storage interfaces. Please note that the usage and operation conditions differ depending on the type of hard disk drive used.

Please refer to the following internet address for further information on the usage and operation conditions of each available type of hard disk drive: http://jp.fujitsu.com/platform/server/primergy/harddisk/

Upgrade and Maintenance Manual TX140

Only for the Japanese market:

Shielded LAN cables should be used in this product.

Only for the Japanese market:

I

Although described in this manual, some sections do not apply to the

Japanese market. These options and routines include:

– CSS (Customer Self Service)

– USB Flash Module (UFM)


Version history

Issue number Reason for update

1.0 / September 2013 Initial release

2.0 / April 2015 iRMC microSD card


Contents

1

1.1

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

Notational conventions . . . . . . . . . . . . . . . . . . . . 20

3

3.1

3.2

3.3

3.4

3.5

2

2.1

2.1.1

2.1.2

2.1.3

2.2

2.3

2.4

Before you start . . . . . . . . . . . . . . . . . . . . . . . . 21

Classification of procedures . . . . . . . . . . . . . . . . . 22

Customer Replaceable Units (CRU) . . . . . . . . . . . . . . . 23

Upgrade and Repair Units (URU) . . . . . . . . . . . . . . . . 23

Field Replaceable Units (FRU) . . . . . . . . . . . . . . . . . 24

Average task duration . . . . . . . . . . . . . . . . . . . . . 25

Tools you need at hand . . . . . . . . . . . . . . . . . . . . 26

Documents you need at hand . . . . . . . . . . . . . . . . . 28

Important information . . . . . . . . . . . . . . . . . . . . . 31

Safety instructions . . . . . . . . . . . . . . . . . . . . . . . 31

ENERGY STAR . . . . . . . . . . . . . . . . . . . . . . . . . 39

CE conformity . . . . . . . . . . . . . . . . . . . . . . . . . 39

FCC Class A Compliance Statement . . . . . . . . . . . . . 40

Environmental protection . . . . . . . . . . . . . . . . . . . 41

4

4.1

4.1.1

4.1.2

4.1.2.1

4.1.2.2

4.1.3

4.1.3.1

4.1.3.2

4.2

Basic hardware procedures . . . . . . . . . . . . . . . . . . 43

Using diagnostics information . . . . . . . . . . . . . . . . 43

Locating the defective server . . . . . . . . . . . . . . . . . . 43

Determining the error class . . . . . . . . . . . . . . . . . . . 44

Global Error indicator . . . . . . . . . . . . . . . . . . . . 44

Customer Self Service (CSS) indicator . . . . . . . . . . . 44

Locating the defective component . . . . . . . . . . . . . . . . 45

Local diagnostic indicators on the front . . . . . . . . . . . 45

Local diagnostic indicators on the system board . . . . . . . 45

Shutting down the server . . . . . . . . . . . . . . . . . . . 46


Contents

4.5

4.5.1

4.5.1.1

4.5.1.2

4.5.1.3

4.5.1.4

4.5.2

4.5.2.1

4.5.2.2

4.5.2.3

4.5.2.4

4.6

4.7

4.3

4.4

4.4.1

4.4.1.1

4.4.1.2

4.4.1.3

4.4.1.4

4.4.2

4.4.2.1

4.4.2.2

4.4.2.3

Disconnecting the server from the mains . . . . . . . . . . . 46

Getting access to the component . . . . . . . . . . . . . . . 47

Rack model . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47

Extending the server out of the rack . . . . . . . . . . . . . 47

Removing the server from the rack . . . . . . . . . . . . . . 49

Removing the top cover . . . . . . . . . . . . . . . . . . . . 51

Removing the rack front cover . . . . . . . . . . . . . . . . 52

Tower model . . . . . . . . . . . . . . . . . . . . . . . . . . . 53

Removing the side cover . . . . . . . . . . . . . . . . . . . 53

Removing the HDD bay cover . . . . . . . . . . . . . . . . . 55

Removing the front cover . . . . . . . . . . . . . . . . . . . 56

Reassembling . . . . . . . . . . . . . . . . . . . . . . . . . . 58

Rack model . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58

Installing the rack front cover . . . . . . . . . . . . . . . . . 58

Installing the top cover . . . . . . . . . . . . . . . . . . . . 59

Mounting the server in the rack . . . . . . . . . . . . . . . . 60

Sliding the server into the rack . . . . . . . . . . . . . . . . 62

Tower model . . . . . . . . . . . . . . . . . . . . . . . . . . . 63

Installing the front cover . . . . . . . . . . . . . . . . . . . . 63

Installing the HDD bay cover . . . . . . . . . . . . . . . . . 64

Installing the side cover . . . . . . . . . . . . . . . . . . . . 65

Locking the server . . . . . . . . . . . . . . . . . . . . . . . 66

Connecting the server to the mains . . . . . . . . . . . . . . 67

Switching on the server . . . . . . . . . . . . . . . . . . . . . 68

5

5.1

5.1.1

5.1.2

5.1.2.1

5.1.2.2

5.1.3

5.1.4

5.1.5

5.1.6

5.2

5.2.1

5.2.1.1

Basic software procedures . . . . . . . . . . . . . . . . . . . 69

Starting the maintenance task . . . . . . . . . . . . . . . . . 69

Suspending BitLocker functionality . . . . . . . . . . . . . . . . 69

Disabling SVOM boot watchdog functionality . . . . . . . . . . . 70

Viewing boot watchdog settings . . . . . . . . . . . . . . . . 70

Configuring boot watchdog settings . . . . . . . . . . . . . . 71

Removing backup and optical disk media . . . . . . . . . . . . 72

Verifying and configuring the backup software solution . . . . . . 73

Note on server maintenance in a Multipath I/O environment . . . 74

Switching on the ID indicator . . . . . . . . . . . . . . . . . . . 76

Completing the maintenance task . . . . . . . . . . . . . . . 77

Updating or recovering the system board BIOS and iRMC . . . . 77

Updating or recovering the system board BIOS . . . . . . . . 77


Contents

5.2.1.2

5.2.2

5.2.3

5.2.4

5.2.5

5.2.6

Updating or recovering the iRMC . . . . . . . . . . . . . . 78

Verifying system information backup / restore . . . . . . . . . . 79

Updating RAID controller firmware . . . . . . . . . . . . . . . 80

Enabling Option ROM scan . . . . . . . . . . . . . . . . . . . 81

Verifying and configuring the backup software solution . . . . . 82

Resetting the boot retry counter . . . . . . . . . . . . . . . . . 83

5.2.6.1

5.2.6.2

5.2.7

5.2.8

Viewing the boot retry counter . . . . . . . . . . . . . . . . 83

Resetting the boot retry counter . . . . . . . . . . . . . . . 83

Enabling SVOM boot watchdog functionality . . . . . . . . . . 85

Enabling replaced components in the system BIOS . . . . . . . 85

5.2.9

Verifying the memory mode . . . . . . . . . . . . . . . . . . . 86

5.2.10

Verifying the system time settings . . . . . . . . . . . . . . . . 87

5.2.11

Viewing and clearing the System Event Log (SEL) . . . . . . . 87

5.2.11.1

Viewing the SEL . . . . . . . . . . . . . . . . . . . . . . . 87

5.2.11.2

Clearing the SEL . . . . . . . . . . . . . . . . . . . . . . . 88

5.2.12

Updating the NIC configuration file in a Linux environment . . . 89

5.2.13

Resuming BitLocker functionality . . . . . . . . . . . . . . . . 90

5.2.14

Performing a RAID array rebuild . . . . . . . . . . . . . . . . . 91

5.2.15

Looking up changed MAC / WWN addresses . . . . . . . . . . 92

5.2.15.1

Looking up MAC addresses . . . . . . . . . . . . . . . . . 92

5.2.15.2

Looking up WWN addresses . . . . . . . . . . . . . . . . . 92

5.2.16

Using the Chassis ID Prom Tool . . . . . . . . . . . . . . . . . 93

5.2.17

Configuring LAN teaming . . . . . . . . . . . . . . . . . . . . 94

5.2.17.1

After replacing / upgrading LAN controllers . . . . . . . . . 95

5.2.17.2

After replacing the system board . . . . . . . . . . . . . . . 95

5.2.18

Switching off the ID indicator . . . . . . . . . . . . . . . . . . 95

5.2.19

Specifying the chassis model . . . . . . . . . . . . . . . . . . 96

5.2.20

Performing a fan test after replacing a defective fan . . . . . . 97

6

6.1

6.2

6.2.1

6.2.1.1

6.2.1.2

6.2.1.3

6.2.1.4

6.3

6.3.1

Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . 99

Basic information . . . . . . . . . . . . . . . . . . . . . . . 99

Standard power supply . . . . . . . . . . . . . . . . . . . . 100

Replacing the standard power supply unit . . . . . . . . . . . . 100

Preliminary steps . . . . . . . . . . . . . . . . . . . . . . . 100

Removing the defective standard power supply unit . . . . . 101

Installing the new standard power supply unit . . . . . . . . 104

Concluding steps . . . . . . . . . . . . . . . . . . . . . . . 106

Redundant power supply . . . . . . . . . . . . . . . . . . . 106

Installing a hot-plug power supply unit . . . . . . . . . . . . . . 106


Contents

6.3.1.1

6.3.1.2

6.3.1.3

6.3.1.4

6.3.2

6.3.2.1

6.3.2.2

6.3.2.3

6.3.3

6.3.3.1

6.3.3.2

6.3.3.3

6.3.3.4

6.3.4

6.3.4.1

6.3.4.2

6.3.4.3

6.3.4.4

6.3.4.5

6.4

6.4.1

6.4.2

6.4.3

6.4.4

Preliminary steps . . . . . . . . . . . . . . . . . . . . . . 106

Removing the dummy cover . . . . . . . . . . . . . . . . 107

Installing a hot-plug power supply unit . . . . . . . . . . . 108

Concluding steps . . . . . . . . . . . . . . . . . . . . . . 108

Removing a hot-plug power supply unit . . . . . . . . . . . . 109


Removing a hot-plug power supply unit . . . . . . . . . . . 110

Installing the dummy cover . . . . . . . . . . . . . . . . . 111

Replacing a hot-plug power supply unit . . . . . . . . . . . . . 111


Removing the defective hot-plug power supply unit . . . . . 112

Installing the new hot-plug power supply unit . . . . . . . . 112


Replacing the power distribution board . . . . . . . . . . . . . 113


Removing the hot-plug power supply units . . . . . . . . . 113

Replacing the defective power distribution board . . . . . . 114

Installing the hot-plug power supply units . . . . . . . . . . 115


Converting a standard power supply to a redundant power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116

Preliminary steps . . . . . . . . . . . . . . . . . . . . . . . . 116

Removing the standard power supply unit . . . . . . . . . . . 117

Installing the upgrade kit . . . . . . . . . . . . . . . . . . . . 117

Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . 119

7

7.1

7.2

7.2.1

7.2.2

7.2.3

7.2.3.1

7.2.3.2

7.2.3.3

7.2.3.4

7.2.4

7.2.4.1

7.2.4.2

Hard disk drives / solid state drives . . . . . . . . . . . . . 121


2.5-inch HDD / SSD configurations . . . . . . . . . . . . . . 122

Mounting order . . . . . . . . . . . . . . . . . . . . . . . . . 122

HDD / SSD naming scheme . . . . . . . . . . . . . . . . . . 123

Installing 2.5-inch HDD / SSD modules . . . . . . . . . . . . . 123


Removing a 2.5-inch HDD / SSD dummy module . . . . . 124

Installing a 2.5-inch HDD / SSD module . . . . . . . . . . 125


Removing 2.5-inch HDD / SSD modules . . . . . . . . . . . . 126


Removing a 2.5-inch HDD / SSD module . . . . . . . . . . 127


Contents

7.2.6.3

7.2.6.4

7.3

7.3.1

7.3.2

7.3.3

7.3.3.1

7.3.3.2

7.3.3.3

7.3.3.4

7.3.4

7.3.4.1

7.3.4.2

7.3.4.3

7.3.4.4

7.3.5

7.3.5.1

7.3.5.2

7.3.5.3

7.3.5.4

7.3.6

7.3.6.1

7.3.6.2

7.3.6.3

7.3.6.4

7.2.4.3

7.2.4.4

7.2.5

7.2.5.1

7.2.5.2

7.2.5.3

7.2.5.4

7.2.6

7.2.6.1

7.2.6.2

Installing a 2.5-inch HDD / SSD dummy module . . . . . . . 128


Replacing a 2.5-inch HDD / SSD module . . . . . . . . . . . . 129


Removing a 2.5-inch HDD / SSD module . . . . . . . . . . 130

Installing a 2.5-inch HDD / SSD module . . . . . . . . . . . 130


Replacing a 2.5-inch HDD SAS / SATA backplane . . . . . . . 130


Removing the defective 2.5-inch HDD SAS / SATA backplane .

131

Installing the new 2.5-inch HDD SAS / SATA backplane . . . 132


3.5-inch HDD configurations . . . . . . . . . . . . . . . . . 133

Mounting order . . . . . . . . . . . . . . . . . . . . . . . . . . 133

HDD naming scheme . . . . . . . . . . . . . . . . . . . . . . 133

Installing 3.5-inch HDD modules . . . . . . . . . . . . . . . . 134


Removing a 3.5-inch HDD dummy module . . . . . . . . . 134

Installing a 3.5-inch HDD module . . . . . . . . . . . . . . 135


Removing 3.5-inch HDD modules . . . . . . . . . . . . . . . . 137


Removing a 3.5-inch HDD module . . . . . . . . . . . . . . 138

Installing a 3.5-inch HDD dummy module . . . . . . . . . . 139


Replacing a 3.5-inch HDD module . . . . . . . . . . . . . . . 140


Removing a 3.5-inch HDD module . . . . . . . . . . . . . . 141

Installing a 3.5-inch HDD module . . . . . . . . . . . . . . 141


Replacing the 3.5-inch HDD SAS backplane . . . . . . . . . . 141


Removing the defective 3.5-inch HDD SAS backplane . . . 142

Installing the new 3.5-inch HDD SAS backplane . . . . . . . 145


8

8.1

System fan and air duct . . . . . . . . . . . . . . . . . . . . 149



Contents

8.2

8.2.1

8.2.2

8.2.3

8.2.4

8.3

8.3.1

8.3.2

8.3.3

8.3.4

Handling the fan module . . . . . . . . . . . . . . . . . . . 151


Removing the fan module . . . . . . . . . . . . . . . . . . . . 151

Installing the fan module . . . . . . . . . . . . . . . . . . . . 152


Replacing the system fan . . . . . . . . . . . . . . . . . . . 153


Removing the defective system fan . . . . . . . . . . . . . . . 154

Installing the new system fan . . . . . . . . . . . . . . . . . . 157


9

9.1

9.2

9.2.1

9.2.2

9.3

9.3.1

9.3.2

9.4

9.4.1

9.4.1.1

9.4.1.2

9.4.1.3

9.4.1.4

9.4.2

9.4.2.1

9.4.2.2

9.4.2.3

9.4.2.4

9.4.3

9.4.3.1

9.4.3.2

9.4.3.3

9.4.3.4

9.4.4

9.4.4.1

9.4.4.2

Expansion cards and backup units . . . . . . . . . . . . . 159


Handling slot brackets . . . . . . . . . . . . . . . . . . . . 162

Installing a slot bracket . . . . . . . . . . . . . . . . . . . . . 162

Removing a slot bracket . . . . . . . . . . . . . . . . . . . . 169

Handling SFP+ transceiver modules . . . . . . . . . . . . . 170

Installing SFP+ transceiver modules . . . . . . . . . . . . . . 170

Removing an SFP+ transceiver module . . . . . . . . . . . . 173

Expansion cards and riser card . . . . . . . . . . . . . . . 176

Installing expansion cards . . . . . . . . . . . . . . . . . . . 176


Removing the PCI slot bracket . . . . . . . . . . . . . . . 177

Installing an expansion card . . . . . . . . . . . . . . . . . 178


Removing expansion cards . . . . . . . . . . . . . . . . . . . 180


Removing an expansion card . . . . . . . . . . . . . . . . 181

Installing a PCI slot bracket . . . . . . . . . . . . . . . . . 182


Replacing expansion cards . . . . . . . . . . . . . . . . . . . 183


Removing the defective expansion card . . . . . . . . . . 184

Installing the new expansion card . . . . . . . . . . . . . . 184


Replacing the riser card . . . . . . . . . . . . . . . . . . . . . 185


Removing the defective riser card . . . . . . . . . . . . . . 185


Contents

9.4.4.3

9.4.4.4

9.4.5

9.4.5.1

9.4.5.2

9.4.5.3

9.4.5.4

9.5.3.4

9.5.3.5

9.5.3.6

9.5.4

9.5.4.1

9.5.4.2

9.5.4.3

9.5.4.4

9.5.5

9.5.5.1

9.5.5.2

9.5.5.3

9.5.5.4

9.5.6

9.5.6.1

9.5.6.2

9.5.6.3

9.5

9.5.1

9.5.2

9.5.2.1

9.5.2.2

9.5.2.3

9.5.2.4

9.5.2.5

9.5.2.6

9.5.3

9.5.3.1

9.5.3.2

9.5.3.3

9.5.6.4

9.5.7

9.5.7.1

9.5.7.2

Installing the new riser card . . . . . . . . . . . . . . . . . 186


Replacing the TFM . . . . . . . . . . . . . . . . . . . . . . . 188


Removing the defective TFM . . . . . . . . . . . . . . . . 188

Installing the new TFM . . . . . . . . . . . . . . . . . . . . 189


Backup Units . . . . . . . . . . . . . . . . . . . . . . . . . . 190

Basic information . . . . . . . . . . . . . . . . . . . . . . . . 190

Installing an FBU . . . . . . . . . . . . . . . . . . . . . . . . 190


Installing TFM to the RAID controller (if applicable) . . . . . 191

Installing the FBU in the holder . . . . . . . . . . . . . . . 192

Installing the FBU holder into the chassis . . . . . . . . . . 193

Connecting the FBU adapter cable to the TFM . . . . . . . 195


Installing a BBU . . . . . . . . . . . . . . . . . . . . . . . . . 196


Connecting the BBU cable to the BBU . . . . . . . . . . . . 196

Installing the BBU in the holder . . . . . . . . . . . . . . . 197

Installing the BBU holder into the chassis . . . . . . . . . . 197

Connecting the BBU cable to a controller . . . . . . . . . . 197


Removing an FBU . . . . . . . . . . . . . . . . . . . . . . . . 199


Disconnecting the FBU adapter cable from the TFM . . . . 199

Removing the FBU holder from the chassis . . . . . . . . . 200


Removing a BBU . . . . . . . . . . . . . . . . . . . . . . . . 201


Disconnecting the BBU cable from the controller . . . . . . 201

Removing the BBU holder from the chassis . . . . . . . . . 201


Replacing an FBU . . . . . . . . . . . . . . . . . . . . . . . . 202


Removing the defective FBU . . . . . . . . . . . . . . . . . 202

Installing the new FBU . . . . . . . . . . . . . . . . . . . . 204


Replacing a BBU . . . . . . . . . . . . . . . . . . . . . . . . 204


Removing the defective BBU . . . . . . . . . . . . . . . . 205


Contents

9.5.7.3

9.5.7.4

Installing the new BBU . . . . . . . . . . . . . . . . . . . 206


10 Main memory . . . . . . . . . . . . . . . . . . . . . . . . . 209

10.1


10.1.1

Memory sequence . . . . . . . . . . . . . . . . . . . . . . . 210

10.1.2

Operation modes . . . . . . . . . . . . . . . . . . . . . . . . 211

10.2

Removing memory modules . . . . . . . . . . . . . . . . . 211

10.2.1


10.2.2

Removing a memory module . . . . . . . . . . . . . . . . . . 212

10.2.3


10.3

Installing memory modules . . . . . . . . . . . . . . . . . . 213

10.3.1


10.3.2

Installing a memory module . . . . . . . . . . . . . . . . . . . 213

10.3.3


10.4

Replacing memory modules . . . . . . . . . . . . . . . . . 214

10.4.1


10.4.2

Removing the defective memory module . . . . . . . . . . . . 215

10.4.3

Installing the new memory module . . . . . . . . . . . . . . . 215

10.4.4


11 Processors . . . . . . . . . . . . . . . . . . . . . . . . . . . 217

11.1


11.2

Upgrading or replacing the processor . . . . . . . . . . . . 218

11.2.1


11.2.2

Removing the processor heat sink . . . . . . . . . . . . . . . 219

11.2.3

Removing the processor . . . . . . . . . . . . . . . . . . . . 220

11.2.4

Installing the processor . . . . . . . . . . . . . . . . . . . . . 221

11.2.5

Applying thermal paste . . . . . . . . . . . . . . . . . . . . . 223

11.2.6

Installing the processor heat sink . . . . . . . . . . . . . . . . 225

11.2.7


11.3

Replacing the processor heat sink . . . . . . . . . . . . . . 227

11.3.1


11.3.2

Replacing the processor heat sink . . . . . . . . . . . . . . . 227

11.3.3



Contents

12 Accessible drives . . . . . . . . . . . . . . . . . . . . . . . 229

12.1


12.2

Installing accessible drives . . . . . . . . . . . . . . . . . . 231

12.2.1


12.2.2

Removing accessible drive dummy covers . . . . . . . . . . . 232

12.2.3

Installing mounting brackets to RDX and DAT72 backup drives (if applicable) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 234

12.2.4

Installing the slimline optical disk drive in the slide-in unit (if applicable) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 236

12.2.5

Installing an accessible drive . . . . . . . . . . . . . . . . . . 237

12.2.6


12.3

Removing accessible drives . . . . . . . . . . . . . . . . . . 239

12.3.1


12.3.2

Removing an accessible drive . . . . . . . . . . . . . . . . . . 240

12.3.3

Installing accessible drive dummy covers . . . . . . . . . . . . 241

12.3.4


12.4

Replacing accessible drives . . . . . . . . . . . . . . . . . . 243

12.4.1


12.4.2

Removing the defective accessible drive . . . . . . . . . . . . 243

12.4.3

Installing the new accessible drive . . . . . . . . . . . . . . . 244

12.4.4


13 Front panel module . . . . . . . . . . . . . . . . . . . . . . . 245

13.1

Replacing the front panel module . . . . . . . . . . . . . . . 246

13.1.1


13.1.2

Removing the defective front panel module . . . . . . . . . . . 247

13.1.3

Installing the new front panel module . . . . . . . . . . . . . . 249

13.1.4


14 System board and components . . . . . . . . . . . . . . . . 251

14.1


14.2

Replacing the CMOS battery . . . . . . . . . . . . . . . . . 252

14.2.1


14.2.2

Replacing the defective CMOS battery . . . . . . . . . . . . . 253

14.2.3



Contents

14.3

USB Flash Module (UFM) . . . . . . . . . . . . . . . . . . . 255

14.3.1

Installing the UFM . . . . . . . . . . . . . . . . . . . . . . . . 255

14.3.1.1


14.3.1.2

14.3.1.3

14.3.1.4

Installing the UFM . . . . . . . . . . . . . . . . . . . . . . 255


Software configuration . . . . . . . . . . . . . . . . . . . 257

14.3.2

Removing the UFM . . . . . . . . . . . . . . . . . . . . . . . 257

14.3.2.1


14.3.2.2

14.3.2.3

Removing the UFM . . . . . . . . . . . . . . . . . . . . . 258


14.3.3

Replacing the UFM . . . . . . . . . . . . . . . . . . . . . . . 259

14.3.3.1


14.3.3.2

14.3.3.3

Removing the defective UFM . . . . . . . . . . . . . . . . 259

Installing the new UFM . . . . . . . . . . . . . . . . . . . 260

14.3.3.4

14.3.3.5


Software configuration . . . . . . . . . . . . . . . . . . . 262

14.4

Trusted Platform Module (TPM) . . . . . . . . . . . . . . . . 262

14.4.1

Installing the TPM . . . . . . . . . . . . . . . . . . . . . . . . 262

14.4.1.1

14.4.1.2


Installing the TPM . . . . . . . . . . . . . . . . . . . . . . 263

14.4.1.3


14.4.2

Removing the TPM . . . . . . . . . . . . . . . . . . . . . . . 266

14.4.2.1

14.4.2.2


Removing the TPM . . . . . . . . . . . . . . . . . . . . . 267

14.4.2.3


14.4.3

Replacing the TPM . . . . . . . . . . . . . . . . . . . . . . . 270

14.4.3.1

14.4.3.2


Removing the defective TPM . . . . . . . . . . . . . . . . 271

14.4.3.3

14.4.3.4

Installing the new TPM . . . . . . . . . . . . . . . . . . . 271


14.5

iRMC microSD card . . . . . . . . . . . . . . . . . . . . . . 272

14.5.1

Installing the iRMC microSD card . . . . . . . . . . . . . . . . 272

14.5.1.1

14.5.1.2

14.5.1.3


Installing the iRMC microSD card . . . . . . . . . . . . . . 272


14.5.2

Removing the iRMC microSD card . . . . . . . . . . . . . . . 273

14.5.2.1


14.5.2.2

Removing the iRMC microSD card . . . . . . . . . . . . . 274

14.5.2.3


14.5.3

Replacing the iRMC microSD card . . . . . . . . . . . . . . . 275

14.5.3.1



15

15.1

15.2

15.3

Contents

14.5.3.2

14.5.3.3

Replacing the iRMC microSD card . . . . . . . . . . . . . . 275


14.6

Replacing the system board . . . . . . . . . . . . . . . . . . 276

14.6.1


14.6.2

Removing the defective system board . . . . . . . . . . . . . . 278

14.6.3

Installing the new system board . . . . . . . . . . . . . . . . . 281

14.6.4

Swapping the processor . . . . . . . . . . . . . . . . . . . . . 283

14.6.5


Converting a tower model to a rack model . . . . . . . . . . 289

Preliminary steps . . . . . . . . . . . . . . . . . . . . . . . . 289

Converting a tower model to a rack model . . . . . . . . . . 290

Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . 302

16 Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303

16.1

List of used cables . . . . . . . . . . . . . . . . . . . . . . . 304

16.2

Cabling plans . . . . . . . . . . . . . . . . . . . . . . . . . . 305

16.3

Replacing the intrusion switch cable . . . . . . . . . . . . . 312

16.3.1


16.3.2

Removing the defective intrusion switch cable . . . . . . . . . 312

16.3.3

Installing the new intrusion switch cable . . . . . . . . . . . . . 315

16.3.4


17 Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . 319

17.1

Mechanical overview . . . . . . . . . . . . . . . . . . . . . . 319

17.1.1

Server front . . . . . . . . . . . . . . . . . . . . . . . . . . . 319

17.1.2

Server rear . . . . . . . . . . . . . . . . . . . . . . . . . . . . 321

17.1.3

Server interior . . . . . . . . . . . . . . . . . . . . . . . . . . 322

17.2

Connectors and indicators . . . . . . . . . . . . . . . . . . 324

17.2.1

Connectors and indicators on the system board . . . . . . . . 324

17.2.1.1

Onboard connectors . . . . . . . . . . . . . . . . . . . . . 324

17.2.1.2

17.2.1.3

17.2.1.4

Onboard indicators and controls . . . . . . . . . . . . . . . 326

I/O panel connectors . . . . . . . . . . . . . . . . . . . . . 328

I/O panel indicators . . . . . . . . . . . . . . . . . . . . . . 329


Contents

17.2.1.5

PSU indicator (only hot-plug PSUs) . . . . . . . . . . . . . 330

17.2.2

Connectors and indicators on the front panel . . . . . . . . . . 330

17.2.2.1

Front panel connectors . . . . . . . . . . . . . . . . . . . 330

17.2.2.2

Front panel controls and indicators . . . . . . . . . . . . . 331

17.3

17.4

Onboard settings . . . . . . . . . . . . . . . . . . . . . . . 333

Minimum startup configuration . . . . . . . . . . . . . . . . 334


1 Introduction

This Upgrade and Maintenance Manual provides instructions for the following procedures:

●

●

Upgrading the server configuration by adding optional hardware components

Upgrading the server configuration by replacing existing hardware components with superior ones.

● Replacing defective hardware components

This manual focuses on on-site maintenance tasks. It is recommended to prepare each service assignment following remote diagnostics procedures, as described in the "ServerView Suite Local Service Concept (LSC)" manual (see section

"Documents you need at hand" on page 28

.

V

CAUTION!

The document at hand comprises procedures of a wide range of complexity. Check the profile of qualification for technicians before assigning tasks. Before you start, carefully read

"Classification of procedures" on page 22

.

TX140 S2 Upgrade and Maintenance Manual 19

Introduction

1.1

Notational conventions

The following notational conventions are used in this manual:

Text in italics fixed font indicates commands or menu items indicates system output indicates text to be entered by the user semi-bold fixed font

"Quotation marks" indicate names of chapters and terms that are being emphasized

Ê describes activities that must be performed in the order shown

[Abc] indicates keys on the keyboard

V

CAUTION!

Pay particular attention to texts marked with this symbol!

Failure to observe this warning may endanger your life, destroy the system or lead to the loss of data.

I indicates additional information, notes and tips indicates the procedure category in terms of complexity and qualification requirements, see

"Classification of procedures" on page 22

indicates the average task duration, see

"Average task duration" on page 25

20 Upgrade and Maintenance Manual TX140

2 Before you start

Before you start any upgrade or maintenance task, please proceed as follows:

Ê

Carefully read the safety instructions in chapter "Important information" on page 31 .

Ê

Make sure that all necessary manuals are available. Refer to the documentation overview in section

"Documents you need at hand" on page 28 . Print the PDF files if required.

Ê

Make yourself familiar with the procedure categories introduced in section

"Classification of procedures" on page 22 .

Ê

Ensure that all required tools are available according to section

"Tools you need at hand" on page 26 .

Installing optional components

The operating manual of your server gives an introduction to server features and provides an overview of available hardware options.

Use the Fujitsu ServerView Suite management software and the iRMC web frontend to prepare hardware expansions. ServerView Suite documentation is available online at http://manuals.ts.fujitsu.com

( http://jp.fujitsu.com/platform/server/primergy/manual/ for the Japanese market).

Please refer to the following ServerView Suite topics:

– Operation

– Virtualization

– Maintenance

– Out-Of-Band Management

I

For the latest information on hardware options, refer to your server’s hardware configurator available online at the following address: for the EMEA market: http://ts.fujitsu.com/products/standard_servers/index.htm

for the Japanese market: http://jp.fujitsu.com/platform/server/primergy/system/

Please contact your local Fujitsu customer service partner for details on how to order expansion kits or spare parts. Use the Fujitsu Illustrated Spares Catalog to identify the required spare part and obtain technical data and order information. Illustrated Spares catalogs are available online at http://manuals.ts.fujitsu.com/illustrated_spares (EMEA market only).


Before you start

Replacing a defective component

The global error indicators on the front and rear sides of your server as well as local diagnostic LEDs on the front panel report defective hardware components that need to be replaced. For further information on the controls and indicators of your server, refer to the operating manual of your server and section

"Connectors and indicators" on page 324

.

If the system has been powered off in order to replace a non-hot plug unit, a system of PRIMERGY diagnostic indicators guides you to the defective component. The "Indicate CSS" button enables the indicator next to the defective component even if the server has been switched off and disconnected from the mains. For further information, please refer to sections

"Using diagnostics information" on page 43

and "Connectors and indicators on the front panel" on page 330 .

If the defective component is a customer replaceable unit included in the CSS concept (Customer Self Service, only available for EMEA market), the CSS indicators on the front and rear side of the server will light up.

For further information, refer to the "ServerView Suite Local Service Concept

(LSC)" manual available online at http://manuals.ts.fujitsu.com

(EMEA market) or http://jp.fujitsu.com/platform/server/primergy/manual/ (Japanese market).

It is recommended to prepare local maintenance tasks using remote diagnostics procedures, as described in the "ServerView Suite Local Service Concept

(LSC)" manual.

2.1

Classification of procedures

The complexity of maintenance procedures varies significantly. Procedures have been assigned to one of three unit categories, indicating the level of difficulty and required qualification.

At the beginning of each procedure, the involved unit type is indicated by one of the symbols introduced in this section.

I

Please ask your local Fujitsu service center for more detailed information.



2.1.1

Customer Replaceable Units (CRU)

Customer Replaceable Units (CRU)

Customer Replaceable Units are intended for customer self service and may be installed or replaced as hot-plug components during operation.

I

Components that the customer is entitled to replace may differ according to the service form in his country.

Hot-plug components increase system availability and guarantee a high degree of data integrity and fail-safe performance. Procedures can be carried out without shutting down the server or going offline.

Components that are handled as Customer Replaceable Units

– Hot-plug power supply units

– Hot-plug fan modules

– Hot-plug HDD / SSD modules

Peripherals that are handled as Customer Replaceable Units

– Keyboard

– Mouse

2.1.2

Upgrade and Repair Units (URU)

Upgrade and Repair Units (URU)

Upgrade and Repair Units are non hot-plug components that can be ordered separately to be installed as options ( Upgrade Units ) or are available to the customer through customer self service ( Repair Units ).

I

Server management error messages and diagnostic indicators on the front panel and system board will report defective Upgrade and Repair

Units as customer replaceable CSS components.

Upgrade and repair procedures involve shutting down and opening the server.



V

CAUTION!

The device may be seriously damaged or cause damage if it is opened without authorization or if repairs are attempted by unauthorized and untrained personnel.

Components that are handled as Upgrade Units

– Processors (upgrade kits)

– Optical disk drives

– Backup drives

– Expansion cards

– Battery backup units

– Memory modules


– iRMC microSD card

Components that are handled solely as Repair Units

– CMOS battery

– Non hot-plug fans

– Non hot-plug hard disk drives

2.1.3

Field Replaceable Units (FRU)

Removing and installing Field Replaceable Units involves complex maintenance procedures on integral server components. Procedures will require shutting down, opening and disassembling the server.

V

CAUTION!

Maintenance procedures involving Field Replaceable Units must be performed exclusively by Fujitsu service personnel or technicians trained by Fujitsu. Please note that unauthorized interference with the system will void the warranty and exempt the manufacturer from all liability.

Components that are handled as Field Replaceable Units

– Processor (replacement)

– SAS / SATA backplanes

24




– Power distribution board

– Front panel module

– Management and diagnostics modules

– System board

– Standard power supply unit

– Trusted Platform Module (TPM)


2.2

Average task duration

Hardware: 10 minutes

The average task duration including preliminary and concluding steps is indicated at the beginning of each procedure next to the procedure class.

Refer to the following table for an overview of steps taken into account for calculating the average task duration:

Step

Server shutdown

Rack removal, disassembly

Transport

Maintenance procedures

Transport included Explanation

Shutdown time depends on hardware and software configuration and may vary significantly.

no

Software tasks necessary before maintenance are described in section

"Starting the maintenance task" on page 69 ".

yes no yes no

Making the server available, removing the server from the rack (if applicable)

Transporting the server to the service table

(where required) depends on local customer conditions.

Maintenance procedures including preliminary and concluding software tasks

Returning the server to its installation site

(where required) depends on local customer conditions.

Table 1: Calculation of the average task duration



Step

Assembly, rack installation

Starting up included Explanation yes

Reassembling the server, installing the server in the rack (if applicable) no

Booting time depends on hardware and software configuration and may vary significantly.

Table 1: Calculation of the average task duration

2.3

Tools you need at hand

When preparing the maintenance task, ensure that all required tools are available according to the overview below. You will find a list of required tools at the beginning of each procedure.

Screw driver /

Bit insert

Phillips

PH2 / (+) No. 2 hexagonal cross

SW5 / PZ2

Screw Usage

Backup drives, optical disk drives, chassis

Type

M3 x 4.5 mm

(silver)

C26192-Y10-C67

Phillips

PH2 / (+) No. 2

USB 3.0 interface card

D3305

M3 x 5 mm

(silver)

(contained in card kit S26361-D3305-

A10)

Phillips


SW5 / PZ2

Phillips


SW5 / PZ2

Table 2: List of required tools and used screws

System board

M3 x 6 mm

(silver)

C26192-Y10-C68

Backup drives with UNC thread

UNC

6-32 x 4.76 mm

(black)

C26192-Y10-C75



Screw driver /

Bit insert

Phillips

PH0 / (+) No. 0

Phillips

PH0 / (+) No. 0

Screw Usage Type

2.5-inch HDDs

/ SSDs

M3 x 3.5 mm

Wafer head screw

(silver)

C26192-Y10-C102

Slimline ODD M2 x 2.5 mm

(silver)

C26192-Y10-C62

TPM bit insert

Dedicated TPM screw driver /

TPM module fixing tool (for the

Japanese market)

Phillips

PH1 / (+) No. 1

TPM screw

One way head

(black)

REM 3 x 15 mm

(black)

C26192-Y10-C176

Phillips

PH1 / (+) No. 1

Table 2: List of required tools and used screws

TFM

UFM nylon screw

M2.5 x 4 mm

(silver)

C26192-Y10-C103

M3 x 4.5 mm

(white)

A3C40109082



2.4

Documents you need at hand

Maintenance procedures may include references to additional documentation.

When preparing the maintenance task, ensure that all required manuals are available according to the overview below.

I

– Ensure to store all printed manuals enclosed with your server in a save place for future reference.

– Unless stated otherwise, all manuals are available online at http://manuals.ts.fujitsu.com

under Industry standard servers .

For the Japanese market please use the following address: http://jp.fujitsu.com/platform/server/primergy/manual/

Document

"Quick Start Hardware -

PRIMERGY TX140 S2" leaflet

"ServerView Quick Start Guide"

Description

Quick installation poster for initial operation, available online

"ServerView クイックスタート

ガイド " for the Japanese market

"Safety notes and regulations" manual

Information on initial server setup and software configuration, available online

" 安全上のご注意 " for the

Japanese market

"PRIMERGY TX140 S2 Server

Operating Manual"

"D3239 BIOS Setup Utility for

PRIMERGY TX140 S2

Reference Manual"

Important safety information, available online, or as a printed copy available online

Information on configurable BIOS options and parameters, available online

System board and service labels

Labels inside the side / top server cover outlining connectors, indicators and basic maintenance tasks

Table 3: Documentation you need at hand



Document

Software documentation

Illustrated Spares catalog

Description

– "ServerView Suite Local Service

Concept (LSC)" user guide

– "ServerView Operations Manager -

Server Management" user guide

– "iRMC S4 - Integrated Remote

Management Controller" user guide

– "ServerView embedded Lifecycle

Management (eLCM)" User Guide

Spare parts identification and information system (EMEA market only), available for online use or download (Windows OS) at http://manuals.ts.fujitsu.com/illustrated_spares or from the CSS component view of the

ServerView Operations Manager available online Glossary

"Warranty" manual

" 保証書 " for the Japanese market

"Returning used devices" manual

"Service Desk" leaflet

Important information on warranty regulations, recycling and service , available online, or as a printed copy

Recycling and contact information, available online or as a printed copy

" サポート＆サービス " for the

Japanese market

Additional documentation

Third party documentation

RAID documentation, available online at http://manuals.ts.fujitsu.com

under Industry standard servers - Expansion Cards - Storage

Adapters

For the Japanese market please use the following address: http://jp.fujitsu.com/platform/server/primergy/ manual/

– Operating system documentation, online help

– Peripherals documentation

Table 3: Documentation you need at hand




3 Important information

V

CAUTION!

Before installing and starting up a device, please observe the safety instructions listed in the following section. This will help you to avoid making serious errors that could impair your health, damage the device and endanger the data base.

3.1

Safety instructions

I

The following safety instructions are also provided in the manual "Safety

Notes and Regulations" or " 安全上のご注意 ".

This device meets the relevant safety regulations for IT equipment. If you have any questions about whether you can install the server in the intended environment, please contact your sales outlet or our customer service team.

● The actions described in this manual shall be performed by technical specialists. A technical specialist is a person who is trained to install the server including hardware and software.

●

●

●

Repairs to the device that do not relate to CSS failures shall be performed by service personnel. Please note that unauthorized interference with the system will void the warranty and exempt the manufacturer from all liability.

Any failure to observe the guidelines in this manual, and any improper repairs could expose the user to risks (electric shock, energy hazards, fire hazards) or damage the equipment.

Before installing/removing internal options to/from the server, turn off the server, all peripheral devices, and any other connected devices. Also unplug all power cords from the power outlet. Failure to do so can cause electric shock or damage.

Before starting up

●

●

During installation and before operating the device, observe the instructions on environmental conditions for your device.

If the device is brought in from a cold environment, condensation may form both inside and on the outside of the device.


Important information

●

Wait until the device has acclimatized to room temperature and is absolutely dry before starting it up. Material damage may be caused to the device if this requirement is not observed.

Transport the device only in the original packaging or in packaging that protects it from knocks and jolts.

For the Japanese market, transporting the device in its original packaging does not apply.

Installation and operation

● This unit should not be operated in ambient temperatures above 35 °C. For servers with Cool-safe

®

Advanced Thermal Design the ambient temperature can increase to 40 °C.

●

●

If the unit is integrated into an installation that draws power from an industrial power supply network with an IEC309 connector, the power supply's fuse protection must comply with the requirements for non-industrial power supply networks for type A connectors.

The unit automatically adjusts itself to a mains voltage in a range of 100 V -

240 V. Ensure that the local mains voltage lies within these limits.

●

●

This device must only be connected to properly grounded power outlets or connected to the grounded rack internal power distribution system with tested and approved power cords.

Ensure that the device is connected to a properly grounded power outlet close to the device.

●

●

●

●

Ensure that the power sockets on the device and the properly grounded power outlets are easily accessible.

The On/Off button or the main power switch (if present) does not isolate the device from the mains power supply. In case of repair or servicing disconnect the device completely from the mains power supply, unplug all power plugs from the properly grounded power outlets.

Always connect the server and the attached peripherals to the same power circuit. Otherwise you run the risk of losing data if, for example, the server is still running but a peripheral device (e.g. memory subsystem) fails during a power outage.

Data cables must be adequately shielded.



●

●

●

●

●

●

●

●

●

●

●

Ethernet cabling has to comply with EN 50173 and EN 50174-1/2 standards or ISO/IEC 11801 standard respectively. The minimum requirement is a

Category 5 shielded cable for 10/100 Ethernet, or a Category 5e cable for

Gigabit Ethernet.

Route the cables in such a way that they do not create a potential hazard

(make sure no-one can trip over them) and that they cannot be damaged.

When connecting the server, refer to the relevant instructions in this manual.

Never connect or disconnect data transmission lines during a storm (risk of lightning hazard).

Make sure that no objects (e.g. jewelry, paperclips etc.) or liquids can get inside the server (risk of electric shock, short circuit).

In emergencies (e.g. damaged casing, controls or cables, penetration of liquids or foreign bodies), contact the system administrator or your customer service team. Only disconnect the system from the mains power supply if there is no risk of harming yourself.

Proper operation of the system (in accordance with IEC 60950-1 resp.

EN 60950-1) is only ensured if the casing is completely assembled and the rear covers for the installation slots have been fitted (electric shock, cooling, fire protection, interference suppression).

Only install system expansions that satisfy the requirements and rules governing safety and electromagnetic compatibility and those relating to telecommunication terminals. If you install other expansions, they may damage the system or violate the safety regulations. Information on which system expansions are approved for installation can be obtained from our customer service center or your sales outlet.

The components marked with a warning notice (e.g. lightning symbol) may only be opened, removed or exchanged by authorized, qualified personnel.

Exception: CSS components can be replaced.

The warranty is void if the server is damaged during installation or replacement of system expansions.

Only set screen resolutions and refresh rates that are specified in the operating manual for the monitor. Otherwise, you may damage your monitor.

If you are in any doubt, contact your sales outlet or customer service center.

Before installing/removing internal options to/from the server, turn off the server, all peripheral devices, and any other connected devices. Also unplug all power cords from the outlet. Failure to do so can cause electric shock.



●

●

●

●

●

●

Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock and will void the warranty and exempt the manufacturer from all liability.

Devices inside the server remain hot after shutdown. Wait for a while after shutdown before installing or removing internal options.

The circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. To ensure reliable protection, if you are wearing an earthing band on your wrist when working with this type of module, connect it to an unpainted, conducting metal part of the system.

Do not touch the circuitry on boards or soldered parts. Hold the metallic areas or the edges of the circuit boards.

Install the screw removed during installation/detaching internal options in former device/position. To use a screw of the different kind can cause a breakdown of equipment.

The installation indicated on this document is sometimes changed to the kind of possible options without notice.

Batteries

●

●

●

●

●

●

Incorrect replacement of batteries may lead to a risk of explosion. The batteries may only be replaced with identical batteries or with a type recommended by the manufacturer.

Do not throw batteries into the trash can.

Batteries must be disposed of in accordance with local regulations concerning special waste.

Make sure that you insert the battery the right way round.

The battery used in this device may present a fire or chemical burn hazard if mistreated. Do not disassemble, heat about 100 °C (212F), or incinerate the battery.

All batteries containing pollutants are marked with a symbol (a crossed-out garbage can). In addition, the marking is provided with the chemical symbol of the heavy metal decisive for the classification as a pollutant:

Cd Cadmium

Hg Mercury

Pb Lead



Working with optical disk drives and media

When working with optical disk drives, these instructions must be followed.

V

CAUTION!

● Only use CDs/DVDs/BDs that are in perfect condition, in order to prevent data loss, equipment damage and injury.

●

●

Check each CD/DVD/BD for damage, cracks, breakages etc. before inserting it in the drive.

Note that any additional labels applied may change the mechanical properties of a CD/DVD/BD and cause imbalance and vibrations.

Damaged and imbalanced CDs/DVDs/BDs can break at high drive speeds (data loss).

Under certain circumstances, sharp CD/DVD/BD fragments can pierce the cover of the optical disk drive (equipment damage) and can fly out of the device (danger of injury, particularly to uncovered body parts such as the face or neck).

High humidity and airborne dust levels are to be avoided. Electric shocks and/or server failures may be caused by liquids such as water, or metallic items, such as paper clips, entering a drive.

●

●

●

●

●

●

●

Shocks and vibrations are also to be avoided.

Do not insert any objects other than the specified CDs/DVDs/BDs.

Do not pull on, press hard, or otherwise handle the CD/DVD/BD tray roughly.

Do not disassemble the optical disk drive.

Before use, clean the optical disk tray using a soft, dry cloth.

As a precaution, remove disks from the optical disk drive when the drive is not to be used for a long time. Keep the optical disk tray closed to prevent foreign matter, such as dust, from entering the optical disk drive.

Hold CDs/DVDs/BDs by their edges to avoid contact with the disk surface.



●

●

●

●

●

●

Do not contaminate the CD/DVD/BD surface with fingerprints, oil, dust, etc. If dirty, clean with a soft, dry cloth, wiping from the center to the edge. Do not use benzene, thinners, water, record sprays, antistatic agents, or silicone-impregnated cloth.

Be careful not to damage the CD/DVD/BD surface.

Keep the CDs/DVDs/BDs away from heat sources.

Do not bend or place heavy objects on CDs/DVDs/BDs.

Do not write with ballpoint pen or pencil on the label (printed) side.

When a CD/DVD/BD is moved from a cold place to a warm place, moisture condensation on the CD/DVD/BD surface can cause data read errors. In this case, wipe the CD/DVD/BD with a soft, dry cloth then let it air dry. Do not dry the CD/DVD/BD using devices such as a hair dryer.

● To avoid dust, damage, and deformation, keep the CD/DVD/BD in its case whenever it is not in use.

● Do not store CDs/DVDs/BDs at high temperatures. Areas exposed to prolonged direct sunlight or near heating appliances are to be avoided.

I

You can prevent damage from the optical disk drive and the

CDs/DVDs/BDs, as well as premature wear of the disks, by observing the following suggestions:

– Only insert disks in the drive when needed and remove them after use.

– Store the disks in suitable sleeves.

– Protect the disks from exposure to heat and direct sunlight.

Laser information

The optical disk drive complies with IEC 60825-1 laser class 1.

V

CAUTION!

The optical disk drive contains a light-emitting diode (LED), which under certain circumstances produces a laser beam stronger than laser class 1. Looking directly at this beam is dangerous.

Never remove parts of the optical disk drive casing!



Modules with Electrostatic-Sensitive Devices

Modules with electrostatic-sensitive devices are identified by the following sticker:

Figure 1: ESD label

When you handle components fitted with ESDs, you must always observe the following points:

●

●

Switch off the system and remove the power plugs from the power outlets before installing or removing components with ESDs.

The circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. To ensure reliable protection, you must wear an earthing band on your wrist when working with this type of module and connect it to an unpainted, conducting metal part of the system.

Any devices or tools that are used must be free of electrostatic charge.

●

●

●

Wear a suitable grounding cable that connects you to the external chassis of the system unit.

Always hold components with ESDs at the edges or at the points marked green (touch points).

Do not touch any connectors or conduction paths on an ESD.

●

● Place all the components on a pad which is free of electrostatic charge.

I

For a detailed description of how to handle ESD components, see the relevant European or international standards (EN 61340-5-1,

ANSI/ESD S20.20).



Transporting the server

●

●

Only transport the server in its original packaging or in packaging that protects it from impacts and jolts.

For the Japanese market, transporting the device in its original packaging does not apply.

Do not unpack the server until it is at its installation location.

●

●

If you need to lift or transport the server, ask other people to help you.

Because the PRIMERGY TX140 S2 is large and heavy, at least two people are needed.

Never lift or carry the device by the handles on the front panel.

Notes on installing the server in the rack

● For safety reasons, at least two people are required to install the server in the rack because of its weight and size.

(For the Japanese market, please refer to " 安全上のご注意 ".)

●

●

●

●

●

●

●

Never lift the server into the rack using the handles on the front panel.

When connecting and disconnecting cables, observe the relevant instructions in the "Important Information" chapter of the technical manual for the corresponding rack. The technical manual is supplied with the corresponding rack.

When installing the rack, make sure that the anti-tilt protection is correctly fitted.

For safety reasons, no more than one unit may be removed from the rack at any one time during installation and maintenance work.

If several units are simultaneously removed from the rack, there is a risk that the rack could tip over.

The rack must be connected to the power supply by an authorized specialist

(electrician).

If the server is integrated into an installation that draws power from an industrial power supply network with an IEC309 type connector, the power supply's fuse protection must comply with the requirements for nonindustrial power supply networks for the type A connector.



3.2

ENERGY STAR

Products that have been certified compliant with ENERGY STAR and identified as such are in full compliance with the specification at shipping. Note that energy consumption can be affected by software that is installed or any changes that are made to the hardware configuration or BIOS or energy options subsequently.

In such cases, the properties guaranteed by ENERGY STAR can no longer be assured.

The "ServerView Operations Manager" user guide contains instructions for reading out measurement values, including those relating to current energy consumption and air temperatures.

Either the Performance Monitor or the Task Manager can be used to read out CPU utilization levels.

3.3

CE conformity

The system complies with the requirements of the EC directives

2004/108/EC regarding "Electromagnetic Compatibility" and

2006/95/EC "Low Voltage Directive" and the directive of the

European Parliament and Council 2011/65/EU. This is indicated by the CE marking (CE = Communauté Européenne).



3.4

FCC Class A Compliance Statement

If there is an FCC statement on the device, it applies to the products covered in this manual, unless otherwise specified herein. The statement for other products will appear in the accompanying documentation.

NOTE:

This equipment has been tested and found to comply with the limits for a

"Class A" digital device, pursuant to Part 15 of the FCC rules and meets all requirements of the Canadian Interference-Causing Equipment Standard

ICES-003 for digital apparatus. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in strict accordance with the instructions, may cause harmful interference to radio communications. However, there is no warranty that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

●

●

Reorient or relocate the receiving antenna.

Increase the separation between equipment and the receiver.

● Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

● Consult the dealer or an experienced radio/TV technician for help.

Fujitsu is not responsible for any radio or television interference caused by unauthorized modifications of this equipment or the substitution or attachment of connecting cables and equipment other than those specified by Fujitsu. The correction of interferences caused by such unauthorized modification, substitution or attachment will be the responsibility of the user.

The use of shielded I/O cables is required when connecting this equipment to any and all optional peripheral or host devices. Failure to do so may violate FCC and ICES rules.

WARNING:

This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.



3.5

Environmental protection

Environmentally-friendly product design and development

This product has been designed in accordance with the Fujitsu standard for

"environmentally friendly product design and development". This means that key factors such as durability, selection and labeling of materials, emissions, packaging, ease of dismantling and recycling have been taken into account.

This saves resources and thus reduces the harm done to the environment.

Further information can be found at:

– http://ts.fujitsu.com/products/standard_servers/index.html

(for the global market)

– http://jp.fujitsu.com/platform/server/primergy/concept/ (for the Japanese market)

Energy-saving information

Devices that do not need to be constantly switched on should be switched off until they are needed as well as during long breaks and after completion of work.

Packaging information

This packaging information doesn’t apply to the Japanese market.

Do not throw away the packaging. You may need it later for transporting the system. If possible, the equipment should only be transported in its original packaging.

Information on handling consumables

Please dispose of printer consumables and batteries in accordance with the applicable national regulations.

In accordance with EU directives, batteries must not be disposed of with unsorted domestic waste. They can be returned free of charge to the manufacturer, dealer or an authorized agent for recycling or disposal.

All batteries containing pollutants are marked with a symbol (a crossed-out garbage can). They are also marked with the chemical symbol for the heavy metal that causes them to be categorized as containing pollutants:

Cd Cadmium

Hg Mercury

Pb Lead



Labels on plastic casing parts

Please avoid sticking your own labels on plastic parts wherever possible, since this makes it difficult to recycle them.

Returns, recycling and disposal

Please handle returns, recycling and disposal in accordance with local regulations.

The device must not be disposed of with domestic waste. This device is labeled in compliance with European directive

2002/96/EC on waste electrical and electronic equipment (WEEE).

This directive sets the framework for returning and recycling used equipment and is valid across the EU. When returning your used device, please use the return and collection systems available to you. Further information can be found at http://ts.fujitsu.com/recycling .

Details regarding the return and recycling of devices and consumables within

Europe can also be found in the "Returning used devices" manual, via your local

Fujitsu branch or from our recycling center in Paderborn:

Fujitsu Technology Solutions

Recycling Center

D-33106 Paderborn

Tel. +49 5251 525 1410

Fax +49 5251 525 32 1410


4 Basic hardware procedures

4.1

Using diagnostics information

Use the Fujitsu ServerView Suite management software to plan the upgrade or replacement of hardware components. Please refer to the following ServerView

Suite topics:

– Operation

– Maintenance

It is recommended to prepare local maintenance tasks using remote diagnostics procedures, as described in the "ServerView Suite Local Service Concept

(LSC)" manual.

Please contact your local Fujitsu customer service partner for details on the service concept and on how to order expansion kits or spare parts. Use the

Fujitsu Illustrated Spares Catalog to identify the required spare part and obtain technical data and order information. Illustrated Spares catalogs are available online at http://manuals.ts.fujitsu.com/illustrated_spares (EMEA market only).

Perform the following diagnostics procedures to identify defective servers and components.

4.1.1

Locating the defective server

When working in a datacenter environment, switch on the ID indicator on the front and rear connector panels of the server for easy identification (see section

"Connectors and indicators" on page 324 ).

Ê

Press the ID button on the front panel, use the iRMC web frontend or the

ServerView Operation Manager user interface to switch on the system identification LEDs.

I

For further information, refer to the "ServerView Suite Local Service

Concept (LSC)" manual and the "Integrated Remote Management

Controller" user guide.

Ê

When using ServerView Operations Manager to toggle the ID indicator, choose Single System View and press the Locate button.

Ê

Remember to switch off the ID indicator after the maintenance task has been concluded successfully.


Basic hardware procedures

4.1.2

Determining the error class

The Local Service Concept (LSC) allows you to identify defective server components. Failure events are assigned to one of two error classes:

– Global Error events that need to be resolved by maintenance personnel

– Customer Self Service (CSS) error events that may be resolved by operating personnel

Global Error and CSS LEDs indicate, if the defective component is a customer replaceable unit or if maintenance personnel needs to be dispatched to replace the part.

I

The indicators also light up in standby mode and after a server restart due to a power failure.

4.1.2.1

Global Error indicator

Ê

Check the Global Error indicator on the front or connector panel of the server

(see section


).

Ê

For further diagnostics, proceed as follows:

– Hardware errors:

Check the System Event Log (SEL) as described in section "Viewing the

SEL" on page 87

.

– Software / agent related errors:

Check the ServerView System Monitor, available on Windows or Linux based servers with ServerView agents installed.

I

For further information, please refer to the "ServerView System

Monitor" user guide.

4.1.2.2

Customer Self Service (CSS) indicator

Ê

Check the CSS indicator on the front panel or connector panel of the server

(see section


).



4.1.3

Locating the defective component

After determining the error class by the CSS or Global Error indicators (see

section "Determining the error class" on page 44 ) local diagnostic indicators on

the front panel, system board, HDD modules and power supply units allow you

to identify the defective component (see section "Connectors and indicators" on page 324 ).

I

For further information, refer to the "ServerView Suite Local Service

Concept (LSC)" manual.

4.1.3.1

Local diagnostic indicators on the front

Ê

Check the CSS indicator on the front and connector panels of the server.

I

In addition to local diagnostic indicators, CSS or Global Error LEDs indicate, if the defective component is a customer or field replaceable

unit (see section "Determining the error class" on page 44

).

4.1.3.2

Local diagnostic indicators on the system board

Using the Indicate CSS button

Ê

Shut down and power off the server.

Ê

Disconnect the AC power cord from the system.

I

It is mandatory to disconnect power cords in order to use the Indicate

CSS functionality.

Ê

Press the Indicate CSS button to highlight defective components (see section

"Onboard indicators and controls" on page 326

).

I

In addition to local diagnostic indicators, CSS or Global Error LEDs indicate, if the defective component is a customer replaceable unit or if a service technician needs to be dispatched to replace the part (see section

"Determining the error class" on page 44 ).

If the system has been powered off to replace a non hot-plug unit, a system of PRIMERGY diagnostics indicators guides you to the faulty component.



4.2

Shutting down the server

V

CAUTION!

For further safety information, please refer to chapter

"Important information" on page 31 .

I

This step is only required when upgrading or replacing non-hot plug components.

Ê

Inform the system administrator that the server will be shut down and put offline.

Ê

Terminate all applications.

Ê

Perform the required procedures described in the preliminary steps of each upgrade or maintenance task.

Ê

Shut down the server.

I

If the system is running an ACPI-compliant operating system, pressing the On / Off button will perform a graceful shutdown.

Ê

Switch on the ID indicator on the front and rear connector panels of the

server as described in section "Locating the defective server" on page 43

.

4.3

Disconnecting the server from the mains

Figure 2: Removing the power cord from the cable tie

Ê

Pull out on the locking lever on the cable tie (1) and loosen the loop (2).



Ê

Disconnect the power cord from the power supply unit and remove it from the cable tie.

I

If you are using a redundant power supply with two power supply units, proceed with the second power supply unit in the same way.

4.4

Getting access to the component

V

CAUTION!

Only valid for the tower model:

Don't lift the server by using the front cover. There is a possibility that the

HDD bay cover hook is broken.

V

CAUTION!

● Before removing or installing covers, turn off the server and all peripheral devices. Also unplug all power cables from the outlet.

Failure to do so can cause electric shock.

●

●

In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the server must not run while the top / side cover is removed.

For further safety information, please refer to chapter "Important information" on page 31 .

4.4.1

Rack model

4.4.1.1

Extending the server out of the rack

V

CAUTION!

● Use the anti-tilt plate to prevent the rack from tipping when installing the rack. Pulling the server out of the rack without having installed the anti-tilt plate may cause the rack to tip over.

●

●

Be careful not to pinch fingers or clothes when sliding out the server or pushing it back. Failure to do so may cause injury.




Figure 3: Extending the server out of the rack

Ê

Remove all remaining external cables from the rear connector panel and

expansion cards (see section "Connectors and indicators" on page 324 ).

Ê

If you are not using a cable mounting arm (CMA kit), ensure that the rear cables are long enough not to be strained or damaged when extending the server out of the rack.

Ê

Fold down the two quick release levers (1) and pull the server out of the rack until it locks in place (2).

V

CAUTION!

Do not use the extended server as a surface on which to put things or as a work surface, and strictly avoid leaning on or against it.



4.4.1.2

Removing the server from the rack

I

In most cases maintenance tasks can be performed while the server is extended from the rack. However, depending on accessibility or security guidelines, it may make sense to completely remove the server from the rack cabinet for maintenance purposes.

V

CAUTION!

At least two people are needed to lift the server out of the rack cabinet.


For configurations below 32 kg:

At least two people are needed to lift the server out of the rack cabinet.


At least three people are needed to lift the server out of the rack cabinet.

For configurations above 55 kg:

At least four people are needed to lift the server out of the rack cabinet.

Additionally, a lifter is required in the following cases:

– The server weighs more than 50 kg.

– The server weighs more than 21 kg and is installed above the height of 25 U.

When using a lifter, this removal procedure needs to be carried out by maintenance personnel.



Figure 4: Removing the server from the rack

Ê

Release the locking bars on both rails (1).

Ê

Lift up the front of the server as shown so that the front and middle rack mounting bolts are disengaged from the mounting points on the telescopic rails (2).

Ê

Lift the server out of the rear mounting points (3) and place it on an even surface.


4.4.1.3

Removing the top cover


Figure 5: Removing the top cover (rack server)

Ê

Open the locking lever (1). This will slide the top cover back disengaging the locking mechanism (2).

Ê

Remove the top cover (3).



4.4.1.4

Removing the rack front cover

I

You remove the rack front cover when installing/removing accessible drives.

Figure 6: Removing the ID card (rack server)

Ê

Remove the ID card from the server.

Figure 7: Removing the rack front cover (A)

Ê

Remove two screws from the side brackets on either side of the rack mounting frame (see circles).



Figure 8: Removing the rack front cover (B)

Ê

Carefully fold down and unhook the rack front cover (1).

Ê

Detach and remove the rack front cover from the chassis (2).

4.4.2

Tower model

4.4.2.1

Removing the side cover

Figure 9: Unlocking the server

Ê

Insert the key into the lock on the server front.



Ê

Turn the key clockwise to unlock the front and side covers (1).

Ê

Remove the key from the server front (2) and set aside for later use.

Figure 10: Removing the side cover (tower server)

Ê

Open the locking lever (1). This will slide the side cover back disengaging the locking mechanism (2).

Ê

Remove the side cover (3).


4.4.2.2

Removing the HDD bay cover


Figure 11: Removing the HDD bay cover

Ê

Pull out on the handle on the upper edge of the HDD bay cover.

Ê

Fold out and remove the HDD bay cover from the front cover.



4.4.2.3

Removing the front cover

I

You remove the front cover when:

– installing/removing accessible drives

– converting a tower model to a rack model

Figure 12: Removing the ID card (tower server)

Ê

Remove the ID card from the server front.

I

It may be necessary to pull out on the ID card rather firmly. However, do not apply excessive force.



Figure 13: Removing the front cover (tower server)

Ê

Pinch the locking clips to disengage the front cover (1) while slightly pulling out.

Ê

Carefully fold out the bottom end of the front cover (2).

Ê

Unhook and remove the front cover (3).



4.5

Reassembling

V

CAUTION!

● Before attaching the covers, make sure no unnecessary parts or tools are left inside the server.

● In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the server must not run while the top / side cover is removed.

● For further safety information, please refer to chapter

"Important information" on page 31

.

4.5.1

Rack model

4.5.1.1

Installing the rack front cover

Figure 14: Installing the rack front cover

Ê

Fit the rack front cover on the server front (1).

Ê

Carefully fold up and close the rack front cover (2).



Ê

Secure the rack front cover to the chassis with two screws on either side

(see figure

8 on page 53 ).

Ê

Insert and slide the ID card into its slot until it locks in place (see close-up in

figure 6 on page 52

).

4.5.1.2

Installing the top cover

Figure 15: Installing the top cover (rack server)

Ê

Check if the locking lever on the top cover is open.

Ê

Lower the top cover onto the chassis, recessed by 2 cm (1).

Ê

Close the locking lever on the top cover (2). This will slide the top cover shut engaging the locking mechanism (3).



4.5.1.3

Mounting the server in the rack

V

CAUTION!

At least two people are needed to position the server on the rack rails.



At least two people are needed to lift the server into the rack cabinet.


At least three people are needed to lift the server into the rack cabinet.

For configurations above 55 kg:

At least four people are needed to lift the server into the rack cabinet.

Additionally, a lifter is required in the following cases:

– The server weighs more than 50 kg.

– The server weighs more than 21 kg and is to be installed above the height of 25 U.

When using a lifter, this installation procedure needs to be carried out by maintenance personnel.



Figure 16: Mounting the server onto the rack rails

V

CAUTION!

Ensure that the safety lock has been properly inserted into the snap fit lock. For further information, refer to the "Rack Mounting Kit - RMK-F2

Drop-In" Mounting Instructions.

Ê

Fully extend the telescopic rails until they lock in place (1).

Ê

At a slight angle, lower the server onto the rear mounting point on the telescopic rails (2).

Ê

Fold down the server (3). Ensure that the mounting bolts and the hooks are properly seated in the mounting points on the telescopic rails and that the locking bars engage (4).



4.5.1.4

Sliding the server into the rack

Figure 17: Sliding the server into the rack

Ê

Pull up on the locking latch on both telescopic rails (1).

Ê

Slide the server inside the rack as far as it will go (2) until the quick release levers lock into place.

Ê

Reconnect all cables except the power cord to the server rear.

I

If you are not using a cable mounting arm (CMA kit), ensure that the rear cables are long enough not to be strained or damaged when extending the server out of the rack.

Use cable ties to prevent loose cables from blocking the air flow.


4.5.2

Tower model

4.5.2.1

Installing the front cover


Figure 18: Installing the front cover (tower server) (A)

Ê

Hook the two tabs of the front cover into the notches in the chassis.

Figure 19: Installing the front cover (tower server) (B)

Ê

Fold down the front cover (1) until the locking clip on the bottom edge engage (2).

Ê

Insert and slide the ID card into its slot until it locks in place (see figure

12 on page 56 .)



4.5.2.2

Installing the HDD bay cover

Figure 20: Installing the HDD bay cover

Ê

Insert the HDD bay cover into the front cover as shown (1).

Ê

Fold in the HDD bay cover until it locks in place (2).


4.5.2.3

Installing the side cover


Figure 21: Installing the side cover (tower server)

Ê

Open the locking lever on the side cover.

Ê

Fit the side cover on the chassis, recessed by 2 cm (1).

Ê

Close the locking lever on the side cover (2). This will slide the top cover shut engaging the locking mechanism (3).

Ê

Reconnect all cables except the power cord to the server rear.



4.5.2.4

Locking the server

Figure 22: Locking the server

Ê

If required by security regulations, insert the key into the lock on the front panel and lock the server.



4.6

Connecting the server to the mains

V

CAUTION!

The power supply automatically adjusts to any mains voltage in the range of 100 V - 240 V. You may only operate the server if its rated voltage range corresponds to the local mains voltage.

Ê

Connect all power cords to the power outlets.

I

To provide true phase redundancy, the second power supply unit should be connected to a different AC power source from the other power supply unit. If one AC power source should fail, the server will still continue to run.

I

It takes about 60 seconds until power-on becomes possible.

Securing power cords

Figure 23: Securing power cord

Ê

Loop the cable past the cable tie mounting bracket as shown (1).

Ê

Close the cable tie around the power cord (2) and pull tight (3) to secure the power cord.

I

If you are using a redundant power supply with two power supply units, proceed with the second power supply unit in the same way.



4.7

Switching on the server

V

CAUTION!

● Before switching on the server, make sure the top / side cover is closed. In order to comply with applicable EMC regulations

(regulations on electromagnetic compatibility) and satisfy cooling requirements, the server must not run while the top / side cover is removed.

●

●

After connecting all power cords, wait at least 60 seconds before pressing the On/Off button.

Follow the safety instructions in chapter


Ê

Press the On / Off button to start up the server.

Ê

Ensure that the power-on indicator above the On / Off button is lit green.

Ê

Perform the required procedures described in the concluding steps of each upgrade or maintenance task.


5 Basic software procedures

5.1

Starting the maintenance task

5.1.1

Suspending BitLocker functionality

BitLocker Drive Encryption provides protection for operating system and data drives by encrypting the contents and requiring users to authenticate their credentials to access the information. In the scenario described here, BitLocker uses the compatible Trusted Platform Module (TPM) to detect if the computer's startup process has been modified from its original state.

I

For additional information on how to use BitLocker on a computer without a compatible TPM, please refer to the "BitLocker Drive Encryption" documentation page at http://technet.microsoft.com/library/cc731549.aspx.

Suspending BitLocker Drive Encryption is a temporary method for removing

BitLocker protection without decrypting the drive Windows is installed on.

Suspend BitLocker before modifying the server’s hardware configuration or startup files. Resume BitLocker again after the maintenance procedure is complete.

V

CAUTION!

– With BitLocker features enabled, modifying the system configuration

(hardware or firmware settings) may render the system inaccessible.

The system may enter Recovery Mode and require a 48-digits recovery password to return to normal operation.

Ensure to suspend BitLocker drive encryption before maintaining the server.

– When suspended, BitLocker uses a plain text key instead of the

Trusted Platform Module (TPM) to read encrypted files. Keep in mind that information on this drive is not secure until BitLocker has been re-enabled.

Ê

Ask the system administrator to suspend BitLocker-protection on the system volume, using the BitLocker Drive Encryption control panel item.

I

This will temporarily disable BitLocker for maintenance purposes.

The volume will not be decrypted and no keys will be discarded.


Basic software procedures

For Windows Server 2008:

Ê

Open BitLocker Drive Encryption by clicking the Start button, clicking

Control Panel , clicking Security , and then clicking BitLocker Drive

Encryption .

Ê

Select the system volume, and click Turn Off BitLocker .

Ê

From the Turn Off BitLocker dialog box, click Disable BitLocker .

For Windows Server 2008 R2 and above:

Ê


Control Panel , clicking System and Security , and then clicking BitLocker

Drive Encryption .

Ê

Select the system volume, and click Suspend Protection .

Ê

Click Yes to confirm that your data will not be protected while BitLocker is suspended.

I

In order to determine which features are accessible through the

BitLocker setup wizard, it may be necessary to modify the BitLocker

Group Policy settings.

For further information on how to suspend BitLocker drive encryption, please refer to the Microsoft TechNet library at http://technet.microsoft.com/library/cc731549.aspx.

Fujitsu service partners will find additional information (also available in Japanese) on the Fujitsu Extranet web pages.

5.1.2

Disabling SVOM boot watchdog functionality

The ServerView Operations Manager boot watchdog determines whether the server boots within a preset time frame. If the watchdog timer expires, the system will automatically reboot.

5.1.2.1

Viewing boot watchdog settings

Viewing boot watchdog settings in the BIOS

Ê

Enter the BIOS.

Ê

Select the Server Mgmt menu.



Ê

Under Boot Watchdog , you can obtain detailed information about the current watchdog status, time out intervals and actions that are triggered if watchdog time outs are exceeded.

I

For detailed information on BIOS settings, refer to the corresponding

BIOS Setup Utility reference manual.

Viewing boot watchdog settings in the iRMC web frontend

Ê

Enter the ServerView iRMC web frontend.

Ê

Select the Server Management menu.

Ê

Under Watchdog Settings , you can obtain detailed information about the current watchdog status, time out intervals and actions that are triggered if watchdog time outs are exceeded.

I

For detailed information on iRMC settings, refer to the "Integrated

Remote Management Controller" user guide.

Viewing boot watchdog settings in ServerView Operations Manager

Ê

In ServerView Operations Manager Single System View select Maintenance from the Information / Operation menu.

Ê

Under ASR&R select the Watchdog tab to obtain detailed information about the current watchdog status, time out intervals and actions that are triggered if watchdog time outs are exceeded.

I

For more detailed information, refer to the "ServerView Operations

Manager - Server Management" user guide.

5.1.2.2

Configuring boot watchdog settings

If the system is to be started from removable boot media for firmware upgrade purposes, the Boot watchdog needs to be disabled before starting maintenance task. Otherwise, the Boot watchdog might initiate a system reboot before the flash process is complete.

V

CAUTION!

An incomplete firmware upgrade process may render the server inaccessible or result in damaged / destroyed hardware.

Timer settings can be configured in the BIOS or using the ServerView iRMC web frontend:



Configuring boot watchdog settings in the BIOS

Ê

Enter the BIOS.

Ê


Ê

Under Boot Watchdog set the Action setting to Continue .

Ê

Save your changes and exit the BIOS.

I

For detailed information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utility reference manual.

Configuring boot watchdog settings using the iRMC web frontend

Ê


Ê


Ê

Under Watchdog Settings select Continue from the Boot Watchdog drop down list.

Ê

Click Apply for the changes to take effect.

I



5.1.3

Removing backup and optical disk media

Ê

Ask the system administrator to eject all remaining backup or optical media from the backup or optical disk drive before removing it from the server.

Ê

If the backup media cannot be ejected by conventional means, and it is mandatory that the cartridge be removed prior to returning the drive for repair or disposing it, a manual tape extraction needs to be performed.

For further information on "forcible" tape ejection, please refer to the "Tape

Facts" guide available to Fujitsu service partners from the following https address: https://partners.ts.fujitsu.com/com/service/ps/Servers/PRIMERGY/Pages/

TapeFacts.aspx

For the Japanese market, please contact Fujitsu support, if "forcible" tape ejection is necessary.



I

Fujitsu does not assume responsibility for any damage to the tape drive, the data cartridge / tape or for the loss of any data resulting from manual tape extraction procedures.

5.1.4

Verifying and configuring the backup software solution

I

This task only applies to the Japanese market.

Depending on the backup software solution, it may be necessary to disable or delete the backup drive from the backup software drive list before starting the maintenance task.

This is the case for the following backup software solution:

– BackupExec

I

Procedures may differ depending on the backup software. For details, refer to the dedicated documentation provided separately.

Further information on suitable backup software solutions and related documentation is available to Fujitsu service partners from the Fujitsu

Extranet pages.



5.1.5

Note on server maintenance in a Multipath I/O environment

When booting your server offline from the ServerView Suite DVD to perform an offline BIOS / firmware update using the ServerView Update DVD or collect diagnostic data using PrimeCollect in a Multipath I/O environment, there is a risk of damaging the system configuration which may leave the system unable to boot.

I

This is a known restriction of Windows PE with Multipath drivers.

Using Update Manager Express

Ê

If performing an offline BIOS / firmware update, first of all prepare the

ServerView Update DVD or USB stick:

Ê

Download the latest ServerView Update DVD image from Fujitsu: for the EMEA market ftp://ftp.ts.fujitsu.com/images/serverview for the Japanese market: http://jp.fujitsu.com/platform/server/primergy/products/note/svsdvd/dvd/

Ê

Burn the image to a DVD.

Ê

In order to create a bootable USB stick, please proceed as described in the "Local System Update for PRIMERGY Servers" user guide.

Ê

Before using the ServerView Update DVD or USB stick in an offline environment, properly shut down the server and disconnect all external I/O connections (like LAN, FC or SAS cables) from the system. Only keep mouse, keyboard, video cable and AC power cord connected.

I

Ensure that all external I/O connections are uniquely identified so that you can reconnect them into their original locations after concluding the task.

To start Update Manager Express from the (physical) Update DVD or from a

USB stick, proceed as follows:

Ê

Prepare your Update DVD or USB stick as described in the "Local System

Update for PRIMERGY Servers" user guide.

Ê

Boot the server from the prepared Update DVD or USB stick:



DVD:

Ê

Switch on the server.

Ê

Right after switching on the server, insert the Update DVD into the

DVD drive and close the tray.

USB:

Ê

Connect the USB stick to the server.

Ê


If the server does not boot from DVD or USB stick, proceed as follows:

Ê

Reboot the server, e.g. by pressing the reset button on the front or switching the server off and then on again after a few seconds.

Ê

Once the server has been started, press

[F12]

to enter the boot menu.

Ê

Use the

Ê

and

Ë

cursor keys to select your DVD drive or USB stick as boot device and press [ENTER] .

The server will now boot from the Update DVD or USB stick.

Ê

After the boot process is complete, select your preferred GUI language.

The Update Manager Express main window will be displayed.

Ê

Finish the intended maintenance task.

I

For further information, refer to the "Local System Update for

PRIMERGY Servers" user guide.

Using PrimeCollect

To start PrimeCollect, proceed as follows:

Ê

Before using PrimeCollect in an offline environment, properly shut down the server and disconnect all external I/O connections (like LAN, FC or SAS cables) from the system. Only keep mouse, keyboard, video cable and AC power cord connected.

I

Ensure that all external I/O connections are uniquely identified so that you can reconnect them into their original locations after concluding the task.

Ê


Ê

Right after switching on the server, insert the ServerView Suite DVD into the

DVD drive and close the drive tray.

If the server does not boot from DVD, proceed as follows:



Ê

Reboot the server, e.g. by pressing the reset button on the front or switching the server off and then on again after a few seconds.

Ê

Once the server has been started, press [F12] to enter the boot menu.

Ê

Use the Ê and Ë cursor keys to select your DVD drive as boot device and press

[ENTER]

.

The server will now boot from the ServerView Suite DVD.

Ê

After the boot process is complete, select your preferred GUI language.

Ê

In the initial Installation Manager startup window, choose PrimeCollect from the Installation Manager mode section.

Ê

Click Continue to proceed.

Ê

Finish the intended maintenance task.

I

For further information, refer to the "PrimeCollect" user guide.

Concluding the procedure

Ê

After the update or diagnostic procedure has been completed, shut down the server, reconnect all external I/O connections and bring the system back to normal operation.

Ê

If necessary, perform this procedure for all remaining servers within the

Multipath environment.

5.1.6

Switching on the ID indicator

When working in a datacenter environment, switch on the ID indicator on the front and rear connector panels of the server for easy identification.

I

For further information, refer to section

"Locating the defective server" on page 43 or to the "ServerView Suite Local Service Concept (LSC)" and

"Integrated Remote Management Controller" user guides.

Using the ID button on the front panel

Ê

Press the ID button on the front panel to switch on the system identification

LEDs.

I

For further information, refer to section

"Front panel controls and indicators" on page 331

.



Using the iRMC web frontend

Ê


Ê

Under System Overview , click Identify LED On to switch on the ID indicators.

Using ServerView Operations Manager

Ê

In ServerView Operations Manager Single System View press the Locate button in the title bar to switch on the ID indicators.

5.2

Completing the maintenance task

5.2.1

Updating or recovering the system board BIOS and iRMC

I

For the Japanese market, follow the instructions provided separately.

After replacing the system board, memory or a CPU, it is essential to upgrade the BIOS and iRMC to the latest version. The latest BIOS and iRMC versions are available from the Fujitsu support internet pages at: http://ts.fujitsu.com/support/ (EMEA market) http://jp.fujitsu.com/platform/server/primergy/downloads/ (Japanese market)

I

Fujitsu does not assume responsibility for any damage done to the server or for the loss of any data resulting from BIOS updates.

5.2.1.1

Updating or recovering the system board BIOS

BIOS flash procedure

Ê

Perform the BIOS flash procedure as described in your server’s "BIOS

Setup Utility" reference manual.

BIOS recovery procedure

Ê

Perform the BIOS recovery procedure as described in your server’s "BIOS

Setup Utility" reference manual.



5.2.1.2

Updating or recovering the iRMC iRMC flash procedure

Ê

Prepare a USB stick including the bootable iRMC firmware update image.

Ê

Connect the USB stick to the USB port.

I

Ensure that only the USB device with the iRMC firmware is connected to the USB port. Remove all other USB devices temporarily.

Ê

Restart the server.

Ê

The system will detect the USB stick.

I

If the BIOS cannot identify the USB stick, the pop-up message

Failed to boot for Emergency flash. Please Reset now.

will show up in the center of the screen.

Ê

Choose one of the following options from the update tool menu to start the iRMC update process:

Normal

Choose this option to update an existing system board.

Initial Choose this option if the system board has been replaced prior to the iRMC update procedure. This option will perform all relevant flash procedures in a row, including the iRMC firmware and bootloader.

V

CAUTION!

Do not interrupt the iRMC upgrade process after it has started. If the process is interrupted, the iRMC BIOS may be permanently corrupted.

I

If the iRMC does not work after flashing, disconnect the system from the mains and reconnect it again.

Ê

After completion of the flash process, remove the USB stick and restart the server.

iRMC recovery procedure

Ê

Prepare a USB stick including the bootable iRMC firmware update image.

Ê

Ensure that the server has been shut down and disconnected from the mains as described in section

"Shutting down the server" on page 46

.

Ê

Connect the USB stick to the USB port.



I

Ensure that only the USB device with the iRMC firmware is connected to the USB port. Remove all other USB devices temporarily.

Ê

Connect the server to the mains while pushing the ID button on the front panel. Ask a second person to help you if necessary.

Ê

Ensure that the Global Error indicator and the ID indicator are flashing to indicate that the server is entering the iRMC recovery state.

Ê

Press the Power On / Off button. The system starts the POST process.

I

In iRMC recovery mode, the “FUJITSU” logo does not show up.

Ê

The system will detect the USB stick.

I

If the BIOS cannot identify the USB stick, the pop-up message

Failed to boot for Emergency flash. Please Reset now.

will show up in the center of the screen.

Ê

Choose the Recovery_L option from the update tool menu to start the iRMC update process.

V

CAUTION!

Do not interrupt the iRMC upgrade process after it has started. If the process is interrupted, the iRMC BIOS may be permanently corrupted.

I

If the iRMC does not work after flashing, disconnect the system from the mains and reconnect it again.

Ê

Shut down the server by pressing the power On / Off button.

Ê

Disconnect the server from the mains to exit the iRMC recovery state.

5.2.2

Verifying system information backup / restore

To avoid the loss of non-default settings when replacing the system board, a backup copy of important system configuration data is automatically stored from the system board NVRAM to the Chassis ID EPROM. After replacing the system board the backup data is restored from the Chassis ID board to the new system board.



In order to verify whether the backup or restore process has been successful, check the System Event Log (SEL) using the ServerView Operations Manager

(see also section

"Viewing and clearing the System Event Log (SEL)" on page 87

).

After replacing the system board

Ê

Check the SEL log files as described in section

"Viewing and clearing the

System Event Log (SEL)" on page 87 to verify whether the backup data on

the Chassis ID EPROM has been restored to the system board:

Chassis IDPROM: Restore successful

After replacing the Chassis ID EPROM

I

In case of the PRIMERGY TX140 S2 server, the Chassis ID EPROM is integrated on the front panel board.

Ê

Check the SEL log files as described in section

"Viewing and clearing the

System Event Log (SEL)" on page 87 to verify whether a backup copy of the

system board settings has been transferred to the Chassis ID EPROM:

Chassis IDPROM: Backup successful

5.2.3

Updating RAID controller firmware

After replacing the RAID controller, it is essential to upgrade the firmware to the latest version. The latest RAID controller firmware version is available from the

Fujitsu support web pages at: http://ts.fujitsu.com/support/ (EMEA market) http://jp.fujitsu.com/platform/server/primergy/downloads/ (Japanese market)

I

Fujitsu does not assume responsibility for any damage done to the server or for the loss of any data resulting from firmware updates.


Using the ServerView Update Manager

For a detailed description on how to update the RAID controller firmware using the ServerView Update Manager or Update Manager Express (UME), please refer to the following manuals:

– ServerView Update Manager:



"ServerView Update Management" user guide

– ServerView Update Manager Express:

"Local System Update for PRIMERGY Servers" user guide

Using the flash tool

The latest firmware files are available as ASPs (Autonomous Support

Packages) for Windows or as DOS tools from the Fujitsu support web pages at: http://ts.fujitsu.com/support/ (EMEA market) http://jp.fujitsu.com/platform/server/primergy/downloads/ (Japanese market)

Ê

Select Drivers & Downloads .

Ê

From the Select Product drop down lists, choose your PRIMERGY server or enter its serial or ident number into the search field.

Ê

Select your operating system and version.

Ê

Select the desired component type (e.g. SAS RAID).

Ê

Select your controller from the device list to expand a compilation of available drivers and firmware.

Ê

Select the desired file and click Download for further instructions.

5.2.4

Enabling Option ROM scan

In order to configure an expansion card that has been installed or replaced, the card’s Option ROM has to be enabled in the system board BIOS. The card’s firmware is called by the system BIOS upon reboot and can be entered and configured.

Option ROM can be enabled permanently (e.g. in case of a boot controller that may require frequent setup) or temporarily for one-time configuration. When permanently enabling a controllers’s Option ROM, keep in mind that only two

Option ROMs can be activated in the system board BIOS at a time.

Ê

Enter the BIOS.

Ê

From the Advanced menu select Option ROM Configuration .

Ê

Identify the desired PCI slot and set its Launch Slot # OpROM setting to

Enabled.

Ê




I

Up to two Option ROMs can be activated in the system board BIOS at a time.

For detailed information on how to access the BIOS and modify settings, refer to corresponding BIOS Setup Utility reference manual.

When the enabled expansion card is initialized during the POST phase of the boot sequence, a key combination is displayed temporarily to enter the expansion card’s firmware.

Ê

Press the displayed key combination.

Ê

Modify the expansion card firmware options as desired.

Ê

Save your changes and exit the firmware.

I

The expansion card’s option ROM can now be disabled in the system board BIOS.

Exception: If the expansion card controls a permanent boot device, the card’s Option ROM has to remain enabled.

5.2.5

Verifying and configuring the backup software solution

I

This task only applies to the Japanese market.

Disabling backup drives

Depending on the backup software solution, it may be necessary to disable or delete the backup drive from the backup software drive list and reconfigure backup jobs after completing the maintenance task.

This is the case for the following backup software solutions:

– Netvault for Windows

– ARCServe

– BackupExec

I

Procedures may differ depending on the backup software. For details, refer to the dedicated documentation provided separately.

Further information on suitable backup software solutions and related documentation is available to Fujitsu service partners from the Fujitsu

Extranet pages.



Re-enabling backup drives

If a backup drive has been disabled or deleted from the backup software drive

list as described in section "Verifying and configuring the backup software solution" on page 73 , it has to be re-enabled to complete the maintenance task.

Ê

Re-enable backup drives and revise backup software settings and cronjobs.

I

Detailed information on suitable backup software solutions and related documentation is available to Fujitsu service partners from the

Fujitsu Extranet pages

5.2.6

Resetting the boot retry counter

The boot retry counter is decremented from its preset value every time the

POST watchdog initiates a system reboot. When the value has reached ’0’, the system will shut down and power off.

5.2.6.1

Viewing the boot retry counter

The current boot retry counter status is available in the BIOS:

Ê

Enter the BIOS.

Ê


Ê

Under Boot Retry Counter the current number of remaining boot attempts is displayed. The value is further decremented with every failed boot attempt or system reboot resulting from critical system errors.

Ê

Exit the BIOS.

5.2.6.2

Resetting the boot retry counter

The boot retry counter should be reset to its original value concluding every service task.

I

Please note, if the customer does not know about the original boot retry values:

If the system boots up and no further errors occur within 6 hours after that successful boot attempt, the boot retry counter will automatically be reset to its default value. Please take into account, that the specified number of boot attempts can only be determined after this period of time.



If the customer knows about the original boot retry values, proceed as follows to reset or configure the boot retry counter:

Resetting the boot retry counter in the BIOS

Ê

Enter the BIOS.

Ê


Ê

Under Boot Retry Counter press the [+] or [-] keys to specify the maximum number of boot attempts (0 to 7).

Ê

Exit the BIOS.

Resetting the boot retry counter using the ServerView Operations

Manager

Ê

In the ServerView Operations Manager Administration view, select Server

Configuration .

Ê

If more than one server is managed in SVOM, select the target server and click Next .

Ê

From the Server Configuration menu pane, choose Restart Options .

Ê

Under Reboot Retries , specify the maximum number of boot attempts (0 to 7) in the Default for reboot tries field.

Resetting the boot retry counter using iRMC web frontend

Ê


Ê


Ê

The following boot retry counter settings are available under ASR&R Options:

Ê

Under Retry counter max specify the maximum number of attempts to boot the operating system (0 to 7).

Ê

Under Retry counter the current number of remaining boot attempts is displayed. Overwrite this value with the maximum number of boot attempts specified above in order to reset the boot retry counter.

Ê


I





5.2.7

Enabling SVOM boot watchdog functionality

If ServerView Operations Manager boot watchdog functionality has been disabled for firmware upgrade purposes (see section

"Disabling SVOM boot watchdog functionality" on page 70 ), it has to be re-enabled to complete the

maintenance task.

Timer settings can be configured in the BIOS or using the ServerView iRMC web frontend:

Configuring boot watchdog settings in the BIOS

Ê

Enter the BIOS.

Ê


Ê

Under Boot Watchdog set the Action setting to Reset .

Ê


I


Configuring boot watchdog settings using the iRMC web frontend

Ê


Ê


Ê

Under Watchdog Settings ensure that the check box next to Boot Watchdog is selected. From the drop down list choose Reset and specify the desired timeout delay.

Ê


I



5.2.8

Enabling replaced components in the system BIOS

When a processor, an expansion card, or a memory module fails, the defective component will be set to Disabled or Failed in the system BIOS. The server will then reboot with only the intact hardware components remaining in the system configuration. After replacing the defective component, it needs to be reenabled in the system board BIOS.



Ê

Enter the BIOS.

Ê

Select the Advanced menu.

Ê

Select the status menu of the desired component:

– Processors: CPU Status

I

This option is only available for multi-processor systems.

– Memory: Memory Status

– Expansion cards: PCI Status

Ê

Reset replaced components to Enable .

Ê


I


5.2.9

Verifying the memory mode

If a memory module fails, the server will reboot and the defective module will be disabled. As a result, the current operation mode (e.g. Mirrored Channel mode) may no longer be available due to a lack of identical memory module pairs. In this case, the operation mode will automatically revert to Independent Channel

Mode.

I

For detailed information on memory operation modes available for your

server, refer to section "Memory sequence" on page 210

.

After replacing the defective module(s) the memory operation mode is automatically reset to its original state. It is recommended to verify that the operation mode has been correctly.

Ê

Enter the BIOS.

Ê


Ê

Under Memory Status verify that none of the memory modules are marked as

Failed .

Ê

Save your changes (if applicable) and exit the BIOS.

I




5.2.10 Verifying the system time settings

I

This task only applies to Linux environments.

After the system board has been replaced, the system time is set automatically.

By default, the RTC (Real Time Clock) time standard is set as the local time.

If a Linux OS is used and the hardware clock has been configured as UTC

(Universal Time, Coordinated) in the operating system, the BMC local time may not be mapped correctly.

Ê

After replacing the system board, ask the system administrator whether the

RTC or UTC time standard is to be used as system time.

I

If the system time (RTC) is set to UTC, the SEL (System Event Log) time stamps may differ from the local time.

Ê

Enter the BIOS.

Ê

Select the Main menu.

Ê

Under System Time and System Date specify the correct time and date.

I

By default, the system time set in the BIOS is RTC (Real Time Clock) local time. If your IT infrastructure relies on universally accepted time standards, set the System Time to UTC (Universal Time, Coordinated) instead. Greenwich Mean Time (GMT) can be considered equivalent to UTC.

Ê


I

For detailed information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utility reference manual

5.2.11 Viewing and clearing the System Event Log (SEL)

5.2.11.1 Viewing the SEL

You can view the System Event Log (SEL) using the ServerView Operations

Manager or the ServerView iRMC web frontend:

Viewing the SEL in ServerView Operations Manager

Ê

In ServerView Operations Manager Single System View select Maintenance from the Information / Operation menu.



Ê

Under Maintenance select System Event Log .

Ê

Select the message type(s) you want to display:

– Critical events

– Major events

– Minor events

– Informational events

I

Note on the SVOM Driver Monitor

The Driver Monitor view gives you an overview of the monitored components as well as the associated events contained in the system event log on the managed server.

Under Monitored Components the monitored components are listed. If a component has the status Warning or Error , you can select it in the list and click Acknowledge . This confirms the event on the server side. You may have to log on to the server beforehand. The status of the component will then be reset to ok . To see the new status you must refresh the Driver Monitor view with Refresh .

I

For detailed information on how to view and sort the SEL using

ServerView Operations Manager, refer to the "ServerView Operations


Viewing the SEL using the iRMC web frontend

Ê


Ê

Select the Event Log and choose the Internal Event Log submenu.

Ê

Under Internal Event Log Content the SEL is being displayed. In order to filter the list, select the check boxes next to the desired event types and press

Apply for the changes to take effect.

I



5.2.11.2 Clearing the SEL

You can clear the System Event Log (SEL) using the ServerView iRMC web frontend:

Ê


Ê

Select the Event Log and choose the Internal Event Log submenu.



Ê

Under Internal Event Log Information click Clear Internal Event Log to clear the

SEL.

I



5.2.12 Updating the NIC configuration file in a Linux environment

In order to prevent errors caused by changing network device names ( eth<x> ), it is recommended to store the MAC address (hardware address) of a network interface card in the related NIC configuration file of the Linux OS.

When replacing a network controller or the system board with onboard LAN controllers in a server running Linux OS, the MAC address will change but not automatically be updated in the definition file.

In order to prevent communication problems, it is necessary to update the changed MAC address stored in the related ifcfg-eth<x> definition file.

To update the MAC address, proceed as follows:

I

Procedures may differ depending on your Linux OS or the definition file on the client system. Use the following information as reference. Ask the system administrator to change the definition file.

Ê

After replacing a network controller or the system board, switch on and boot the server as described in section

"Switching on the server" on page 68 .

kudzu , the hardware configuration tool for Red Hat Linux, will launch at boot and detect the new and / or changed hardware on your system.

I kudzu may not launch at boot depending on the client’s environment.

Ê

Select Keep Configuration and Ignore to complete the boot process.

Ê

Use the vi text editor to specify the MAC address in the

HWADDR

section of the ifcfg-eth<x> file:

I

The MAC address can be found on the type label attached to the system board or network controller.



Example:

In order to modify the definition file for network controller 1, enter the following command:

# vi /etc/sysconfig/network-scripts/ifcfg-eth1

In vi , specify the new MAC address as follows:

HWADDR=xx:xx:xx:xx:xx:xx

Ê

Save and close the definition file.

Ê

For the changes to take effect, you need to reboot the network by entering the following command:

# service network restart

I

If the system board or network controller offers multiple LAN ports, it is necessary to update the remaining ifcfg-eth<x> definition files accordingly.

Ê

Update the NIC configuration file to reflect the new card sequence and MAC address.

5.2.13 Resuming BitLocker functionality

If BitLocker Drive Encryption has been suspended for maintenance purposes

(see section

"Suspending BitLocker functionality" on page 69

), it has to be reenabled to complete the service task.

I

If BitLocker Drive Encryption has been suspended prior to replacing components you won't be asked for a recovery key when rebooting the server after the maintenance task. However, if BitLocker functionality has not been suspended, Windows will enter recovery mode and ask you to input recovery key for further booting.

Ê

In this case, ask the system administrator to enter the recovery key in order to boot the operating system.

Ê

Ask the system administrator to enable the previously suspended BitLockerprotection on the system volume, using the BitLocker Drive Encryption control panel item:



For Windows Server 2008:

Ê


Control Panel , clicking Security , and then clicking BitLocker Drive

Encryption .

Ê

Select the system volume, and click Turn On BitLocker .

For Windows Server 2008 R2 and above:

Ê


Control Panel , clicking System and Security , and then clicking BitLocker

Drive Encryption .

Ê

Select the system volume, and click Resume Protection .

I

For further information on how to resume BitLocker drive encryption, please refer to the Microsoft TechNet library at http://technet.microsoft.com/library/cc731549.aspx.


5.2.14 Performing a RAID array rebuild

After replacing a hard disk drive that has been combined into a RAID array,

RAID rebuild will be performed completely unattended as a background process.

Ê

Ensure that the RAID array rebuild has started normally. Wait until the progress bar has reached at least one percent.

Ê

Inform the customer about the remaining rebuild time, based on the displayed duration estimate.

Figure 24: Progress bar (RAID array rebuild)



V

CAUTION!

The system is now operational, however, data redundancy will not be available until the RAID array rebuild is complete. Depending on the hard disk drive capacity the overall process can take up to several hours, in some cases even days.

I

You may notice a slight performance impact during rebuild.

5.2.15 Looking up changed MAC / WWN addresses

When replacing a network controller, the MAC (Media Access Control) and

WWN (World Wide Name) addresses will change.

I

In addition to the procedures described below, MAC / WWN addresses can also be found on the type label attached to a network controller or system board.

5.2.15.1 Looking up MAC addresses

Ê


Ê

Select the System Information menu.

Ê

Under Network Inventory , you will find detailed information on each network controller in the managed PRIMERGY server, including its MAC address.

I

This information is only available with the iRMC S4 or above.

Only network controllers supporting the Command Line Protocol

(CLP) will be displayed.

Ê

Inform the customer about the changed MAC address.

5.2.15.2 Looking up WWN addresses

Emulex FC / FCoE adapters

Ê

Enable the network controller’s Option ROM in the system board BIOS as described in section

"Enabling Option ROM scan" on page 81

.

Ê

Restart the server.



Ê

During boot, as soon as the Emulex BIOS utility option appears, press

[ALT] + [E] or [CTRL] + [E] .

Ê

Under Emulex Adapters in the System you will find all available Emulex adapters and their WWN addresses.

Ê

Note down the new 16-digit WWN address.

Ê

Press

[Esc]

to exit the Emulex BIOS utility.

Ê

Inform the customer about the changed WWN address.

QLogic FC adapters

Ê

Enable the network controller’s Option ROM in the system board BIOS as

described in section "Enabling Option ROM scan" on page 81 .

Ê

Restart the server.

Ê

During boot, as soon as the QLogic BIOS utility option appears, press

[ALT]

+

[Q]

or

[CTRL]

+

[Q]

.

Ê

Under Select Host Adapter use the arrow keys

æ

/

Ë

to select the desired

FC / FCoE adapter and press [Enter] .

Ê

From the Fast!UTIL Options menu, select Configuration Settings , and press

[Enter]

.

Ê

From the Configuration Settings menu, select Adapter Settings , and press

[Enter] .

Ê

Note down the new 16-digit WWN address found under Adapter Port Name .

Ê

Press

[Esc]

to return to the main menu and exit the QLogic BIOS utility.

Ê

Inform the customer about the changed WWN address.

5.2.16 Using the Chassis ID Prom Tool

The Chassis ID EPROM located on a dedicated Chassis ID board or on your server’s front panel board contains system information like server name and model, housing type, serial number and manufacturing data.

In order to integrate your system into the ServerView management environment and to enable server installation using the ServerView Installation Manager, system data needs to be complete and correct.



After replacing the Chassis ID EPROM, system information has to be entered using the Chassis ID Prom tool. The tool and further instructions are available to maintenance personnel from the Fujitsu Technology Solutions Extranet: https://partners.ts.fujitsu.com/com/service/ps/Servers/PRIMERGY/

Ê

Select your PRIMERGY system from the main area of the page.

Ê

From the categories selection, choose Software & Tools Documentation .

Ê

In the Tools area click Tools: Chassis-IDProm Tool to download the file

( tool-chassis-Idprom-Tool.zip

).

I


Note on Cool-safe

®

Advanced Thermal Design (ATD)

I

If the Cool-safe

®

Advanced Thermal Design (ATD) option is available and has been enabled for your server, please set information within the

Chassis ID Prom Tool accordingly.

The ATD option can only be ordered from the manufacturer as a factory preset. To find out if your server is ATDenabled, check for the ATD logo on the identification rating plate.

For further information on Cool-safe

®

Advanced Thermal

Design (ATD), please refer to your server’s operating manual.

V

CAUTION!

Please note that you can only set the ATD flag. Resetting the ATD flag using the Chassis ID Prom Tool is not possible!

5.2.17 Configuring LAN teaming

Use ServerView Operations Manager to obtain detailed information on existing

LAN teams:

Ê

In ServerView Operations Manager Single System View select System Status from the Information / Operation menu.

Ê

Under Network Interfaces select LAN Teaming .



Ê

The Network Interfaces (Summary) overview shows all configured LAN teams and their components. Choose a LAN team to display further details:

– LAN Team Properties : Properties of the selected LAN team

– LAN Team Statistics : Available statistics about the selected LAN team

I



5.2.17.1 After replacing / upgrading LAN controllers

Please note when re-using a replaced LAN controller:

Ê

Confirm with the customer whether the LAN controller you have replaced has been used as part of a LAN teaming configuration.

Ê

If LAN teaming has been active, you will need to restore the configuration using the LAN driver utility after replacing the LAN controller.

Ensure that the controllers have been assigned as primary or secondary according to your requirements.

I

For details, refer to the relevant LAN driver manual.

5.2.17.2 After replacing the system board

Ê

Confirm with the customer whether the onboard LAN controller you have replaced has been used as part of a LAN teaming configuration.

Ê

If LAN teaming has been active, you will need to restore the configuration using the LAN driver utility after replacing the system board.

I

For details, refer to the relevant LAN driver manual.

5.2.18 Switching off the ID indicator

Press the ID button on the front panel, or use the iRMC web frontend or

ServerView Operations Manager to switch off the ID indicator after the maintenance task has been concluded successfully.

I

For further information, refer to section "Locating the defective server" on page 43

or to the "ServerView Suite Local Service Concept (LSC)" and

"Integrated Remote Management Controller" user guides.



Using the ID button on the front panel

Ê

Press the ID button on the front panel to switch off the ID indicators.

Using the iRMC web frontend

Ê


Ê

Under System Overview , click Identify LED Off to switch off the ID indicators.

Using ServerView Operations Manager

Ê

In ServerView Operations Manager Single System View and press the Locate button in the title bar to switch off the ID indicator.

5.2.19 Specifying the chassis model

In order to have your server displayed correctly as a rack system in the

ServerView management user interface after a chassis conversion, the chassis model setting needs to be updated.

This can be accomplished using the ServerView Installation Manager or

Maintenance Tools:

Using the ServerView Installation Manager

Ê

Boot the system from the ServerView Suite DVD. The ServerView

Installation Manager is being started.

Ê

Select your preferred user interface language.

Ê

Under Status backup media select No status backup and click Continue .

Ê

Select Maintenance .

Ê

Select Server Configuration Manager .

Ê

Check the box for rack model and save the setting by clicking Save .

Using the ServerView Maintenance Tools

On Windows-based servers with ServerView agents installed, proceed as follows:

Ê

Click Start , point to All Programs , and then point to Fujitsu - ServerView Suite -

Agents - Maintenance Tools .



Ê

In the Maintenance Tools menu pane, click the Chassis Model Configuration tab.

Ê

Under Convert to click the Rack Model button.

Ê

Click Exit to close the Maintenance Tools menu pane.

I

For more detailed information on installing ServerView agents, refer to the "ServerView Operations Manager - Installation ServerView Agents for Windows" user guide.

5.2.20 Performing a fan test after replacing a defective fan

After replacing a defective system fan or power supply unit containing a defective fan, the fan error indicators will stay lit until the next fan test. By default, a fan test is automatically started every 24 hours. The first automatic fan test being performed after replacing a fan will turn off the fan error indicator.

If you want to start the fan test manually, you can do so by following the description below:

Executing the fan test via the iRMC Web interface

Ê

Log into the iRMC web interface.

Ê

Under Sensors select Fans .

Ê

Select the replaced fan in the system fans group and click Start Fan Test .

I



Executing the fan test via ServerView Operations Manager

Ê

Open the ServerView Operations Manager and log in.

Ê

Under Administration select Server Configuration .

Ê

In the hierarchy tree of the Server list tab, select the server to be configured.

Ê

In the right-hand side of the window, specify the details on the selected server and confirm your entries by clicking GO...

.

In the left-hand section of the window, the Configuration tab is being activated.

Ê

In the navigation area of the Configuration tab, select Other Settings .



Ê

Under Daily Fan Test , set the daily fan test time to a few minutes from the current time. (Ensure to note down your previous setting.)

Ê

Click Save Page .

The fan test will be started at the specified time.

Ê

After the fan test is complete, restore the time setting to its initial value and click Save Page .

I


Manager" user guide.

For the Japanese market: Executing the fan test via Chassis ID Prom Tool

I

Please follow the instructions provided separately.


6 Power supply

Safety notes

V

CAUTION!

● Do not disassemble the power supply unit. Doing so may cause electric shock.

●

●

Areas around the power supply unit may remain extremely hot after shutdown. After shutting down the server, wait for hot components to cool down before removing the power supply unit.

The power supply unit is heavy, so handle it carefully. If you drop it by mistake, injuries may result.

●


6.1

Basic information

The server can be equipped:

– with a standard power supply unit (permanently built-in)

The power supply unit adjusts automatically to any mains voltage in the range of 100 V - 240 V.

– or up to two hot-plug power supply units (slide-in units)

In its basic configuration, the server has one power supply unit that adjusts automatically to any mains voltage in the range of 100 V - 240 V. Besides the power supply unit, a second power supply unit can be installed optionally to serve as a redundant power supply. If one power supply unit fails, the second power supply unit in the redundant configuration ensures operation can continue uninterrupted and the defective power supply unit can be replaced during operation (hot-plug).

V

CAUTION!

The server supports a mains voltage in the range of 100 V - 240 V. You may only operate the server if its rated voltage range corresponds to the local mains voltage.


Power supply

6.2

Standard power supply

6.2.1

Replacing the standard power supply unit

Field Replaceable Unit

(FRU)


Tools: Phillips PH2 / (+) No. 2 screw driver

6.2.1.1

Preliminary steps

Ê


Ê

"Locating the defective server" on page 43

Ê


Ê

"Disconnecting the server from the mains" on page 46

Ê

"Getting access to the component" on page 47

Ê

"Removing the fan module" on page 151


Power supply

6.2.1.2

Removing the defective standard power supply unit

Figure 25: Disconnecting power cables (A)

Ê

Open the power cable clamp (1).

Ê

While pressing the release latch on the connector, disconnect the ATX power supply connector (2).

Figure 26: Disconnecting power cables (B)

Ê

Open the power clamp (1).

Ê

Disconnect the power management connector (2).


Power supply

Figure 27: Detaching the standard power supply unit

Ê

Remove the five screws (see circles).

Figure 28: Taking out the standard power supply unit

Ê

Slide the power supply unit inside the chassis by 3 cm (1).

Ê

Lift the power supply unit out of the chassis (2).


Figure 29: Removing the installation frame from the power supply unit (A)

Ê

Remove the two screws (see circles).

Power supply

Figure 30: Removing the installation frame from the power supply unit (B)

Ê

Remove the installation frame from the power supply unit.


Power supply

6.2.1.3

Installing the new standard power supply unit

Figure 31: Attaching the installation frame to the power supply unit

Ê

Attach the installation frame to the power supply unit.

Figure 32: Securing the installation frame to the power supply unit

Ê

Secure the installation frame to the power supply unit with two screws (see circles).


Power supply

Figure 33: Installing the standard power supply unit

Ê

Lower the power supply unit into the chassis so that the two hooks on the server floor (see close-up) rest in the recesses in the installation frame (1).

Ê

Slide the power supply unit towards the rear of the chassis (2).

Ê

Secure the power supply unit to the chassis with five screws (see figure

27 ).

Ê

Connect the ATX power supply connector to system board connector

"PWR1" (see section

"Cabling plans" on page 305 ).

Ê

Run the power cable through the power cable clamp (see figure

25 ).

Close the power cable clamp.

Ê

Connect the power management connector to system board connector

"PC2009" (see section

"Cabling plans" on page 305

).

Ê

Run the power cable through the cable clamp (see figure 26

).

Close the cable clamp.


Power supply

6.2.1.4

Concluding steps

Ê

"Installing the fan module" on page 152

Ê

"Reassembling" on page 58

Ê

"Connecting the server to the mains" on page 67

Ê

"Switching on the server" on page 68

Ê

"Resuming BitLocker functionality" on page 90

Ê

"Performing a fan test after replacing a defective fan" on page 97

6.3

Redundant power supply

6.3.1

Installing a hot-plug power supply unit

Customer Replaceable Unit

(CRU)


Tools: tool-less

6.3.1.1


No steps needed.


6.3.1.2

Removing the dummy cover

Power supply

Figure 34: Removing the dummy cover

Ê

Press in on both release latches (1) and remove the dummy cover (2).

V

CAUTION!

Keep the dummy cover for future use. If a power supply unit is removed and not immediately replaced by a new one, a dummy cover must be reinstalled in the bay to comply with applicable EMC regulations and satisfy cooling requirements.


Power supply

6.3.1.3

Installing a hot-plug power supply unit

Figure 35: Installing a power supply unit

Ê

Push the power supply unit into its slot (1) as far as it will go until the locking latch snaps in place (2).

V

CAUTION!

Ensure that the power supply unit properly engages in its slot and is locked in position in order to prevent it from sliding out of the chassis during transportation.

Ê

If applicable, fold down the handle on the power supply unit.

6.3.1.4


Ê

For the added power supply unit: "Connecting the server to the mains" on page 67


6.3.2

Removing a hot-plug power supply unit

Power supply


(CRU)


Tools: tool-less

I

Note for servers using CMA (Cable Management Arm)

Regarding of removing power supply units, additional tasks are needed, due to an interference between CMA stopper and the power supply units.

Ê

Unlock the CMA stopper.

Ê

Remove the CMA stopper with the mounted crossbar.

Ê

Support the CMA stopper, the crossbar and the CMA including cables with your right hand.

Ê

Remove the power supply unit and install a dummy cover into the empty bay.

Ê

Remount the complete assembly (CMA stopper, crossbar and CMA) into the rail.

6.3.2.1


No steps needed.


Power supply

6.3.2.2

Removing a hot-plug power supply unit

Figure 36: Removing a power supply unit

Ê

Fold up the handle on the power supply unit (1).

Ê

Press in on the green release latch (2).

Ê

While keeping the green release latch pressed, pull the power supply unit out of its bay (3).

V

CAUTION!

Never leave the bay for the power supply unit empty for more than two minutes during operation. Otherwise, excessive temperatures could damage system components.


6.3.2.3

Installing the dummy cover

Power supply

Figure 37: Installing the dummy cover

Ê

Insert the dummy cover into the empty bay with the impressed arrow symbol facing to the left (see circle).

Ê

Push the dummy cover into its bay until it locks in place.

V

CAUTION!

Always install dummy covers into unused bays to comply with applicable EMC regulations and satisfy cooling requirements.

6.3.3

Replacing a hot-plug power supply unit


(CRU)


Tools: tool-less

V

CAUTION!

● When replacing a power supply unit in a non-redundant PSU configuration, the server must be switched off first.

● Ensure to replace a defective power supply unit by a new one of the same type.


Power supply

I

Note for servers using CMA (Cable Management Arm)

Regarding of replacing power supply units, additional tasks are needed, due to an interference between CMA stopper and the power supply units.

Ê

Unlock the CMA stopper.

Ê

Remove the CMA stopper with the mounted crossbar.

Ê

Support the CMA stopper, the crossbar and the CMA including cables with your right hand.

Ê

Remove the power supply unit and install the new power supply unit carefully.

Ê

Remount the complete assembly (CMA stopper, crossbar and CMA) into the rail.

6.3.3.1


Ê


Ê

Only when replacing a power supply unit in a non-redundant configuration:


Ê



6.3.3.2

Removing the defective hot-plug power supply unit

Ê

Identify the defective power supply unit using the server management software.

Ê

Remove the power supply unit as described in

"Removing a hot-plug power supply unit" on page 110

.

6.3.3.3

Installing the new hot-plug power supply unit

Ê

Install the power supply unit as described in section "Installing a hot-plug power supply unit" on page 108 .


Power supply

6.3.3.4


Ê

Connect the power cord to the new power supply unit and secure it with a

cable tie as described in section "Connecting the server to the mains" on page 67 .

Ê



Ê


6.3.4

Replacing the power distribution board


(FRU)


Tools: tool-less

6.3.4.1


Ê


Ê


Ê


Ê


Ê


Ê


6.3.4.2

Removing the hot-plug power supply units

Ê

Remove all power supply units as described in

"Removing a hot-plug power supply unit" on page 110 .


Power supply

6.3.4.3

Replacing the defective power distribution board

Figure 38: Disconnecting power cables

Ê

Disconnect the two power cables from the power distribution board.


Power supply

Figure 39: Replacing the power distribution board

Ê

Loosen the captive screw (1).

Ê

Push the power distribution board in direction of the arrow (2).

Ê

Remove the power distribution board (3).

Ê

Insert the new power distribution board in the PSU cage (4).

Ê

Push the power distribution board in direction of the arrow (5).

Ê

Fasten the captive screw (6).

Ê

Connect the two power cables to the power distribution board (see figure

38

).

6.3.4.4

Installing the hot-plug power supply units

Ê

Install the power supply units as described in section

"Installing a hot-plug power supply unit" on page 106

.


Power supply

6.3.4.5


Ê


Ê


Ê


Ê


Ê


6.4

Converting a standard power supply to a redundant power supply

The standard power supply can be replaced by a redundant power supply. The redundant power supply consists of up to two power supply units (slide-in units).

The upgrade kit contains only one power supply unit (for power supply redundancy the second power supply unit must be additionally ordered).

The upgrade kit for the redundant power supply consists of the following parts:

– PSU cage with power distribution board (incl.power cables)

– one hot-plug power supply unit

– dummy cover (if only one power supply unit is installed, you have to install the dummy cover in the second bay)

– several screws


(FRU)



6.4.1


Ê


Ê


Ê


Ê


Ê



Power supply

6.4.2

Removing the standard power supply unit

Ê

Remove the standard power supply unit as described in section

"Removing the defective standard power supply unit" on page 101

.

6.4.3

Installing the upgrade kit

Figure 40: Installing the PSU cage

Ê

Insert the PSU cage into the chassis (1).

Ê

Slide the new PSU cage towards the rear of the chassis (2).

Ê

Secure the PSU cage with one screw (3).

Ê

Connect the two power cables to the power distribution board (see figure

38

).


Power supply

Figure 41: Securing the PSU cage

Ê

Secure the PSU cage to the chassis with five screws (see circles)

Figure 42: Connecting power cables to the system board

Ê

Connect the black power connector to system board connector "PC2009" (1)

(see section


).


Power supply

Ê

Connect the power connector P1 to system board connector "PWR1" (2)

(see section "Cabling plans" on page 305 ).

Ê

Route the power cables in the corresponding cable clamps (see circles).

Ê

Install the power supply unit(s) as described in "Installing a hot-plug power supply unit" on page 108 .

Ê

If one bay remains empty, install the dummy cover as described in

"Installing the dummy cover" on page 111 .

6.4.4


Ê


Ê


Ê


Ê


Ê



Power supply


7 Hard disk drives / solid state drives

Safety notes

V

CAUTION!

● The hard disk drive must not be removed from the installation frame by anyone except a service technician.

●

●

●

●

HDD / SSD modules must all be marked clearly so that they can be reinstalled into their original mounting locations after an upgrade.

Otherwise, data may be lost.

Do not touch the circuitry on boards or soldered parts. Hold the metallic areas or the edges of the circuit boards.

Before removing a hard disk drive, wait for about 30 seconds until the disk has stopped spinning completely.

When a hard disk drive is starting up, a resonant noise may be audible for a short while. This does not indicate a failure.

●

●

●

●

●

●

●

Depending on the OS, you can configure the write cache settings for the hard disk drives. If a power failure should occur while the write cache is enabled, cached data may be lost.

When disposing of, transferring, or returning a hard disk or solid state drive, wipe out the data on the drive for your own security.

Rough handling of hard disk drives may damage the stored data. To cope with any unexpected problems, always back up important data.

When backing up data to another hard disk drive, you should make backups on a file or partition basis.

Handle the device on a shock and vibration free surface.

Do not use the device in extremely hot or cold locations, or locations with extreme temperature changes.

Never attempt to disassemble a hard disk or solid state drive.



Hard disk drives / solid state drives

7.1


– Please refer to section

"2.5-inch HDD / SSD configurations" on page 122

and section

"3.5-inch HDD configurations" on page 133 for a complete

overview of the mounting sequences.

– Install dummy modules into unused HDD / SSD bays.

7.2

2.5-inch HDD / SSD configurations

7.2.1

Mounting order

Maximum configuration: 8x 2.5-inch HDDs / SSDs

Figure 43: 2.5-inch HDD / SSD mounting order (example tower server)

Mounting order

Bay number



7.2.2

HDD / SSD naming scheme

I

The HDD / SSD numbering as listed in the ServerView RAID Manager differs from the HDD mounting order:

Bay

3

4

1

2

RAID

Manager

#

[0]

[1]

[2]

[3]

Channel

2.5-inch HDDs / SSDs log.

Drive #

Bay

RAID

Manager

#

1

1

1

1

Table 4: HDD naming scheme

2

3

0

1

7

8

5

6

[4]

[5]

[6]

[7]

Channel

2

2

2

2 log.

Drive #

2

3

0

1

7.2.3

Installing 2.5-inch HDD / SSD modules


(CRU)


Tools: tool-less

7.2.3.1


Ê

If applicable, "Removing the HDD bay cover" on page 55

Ê

Locate the correct drive bay as described in section

"2.5-inch HDD / SSD configurations" on page 122

.



7.2.3.2

Removing a 2.5-inch HDD / SSD dummy module

Figure 44: Removing a 2.5-inch dummy module

Ê

Press both tabs together (1) and pull the dummy module out of its bay (2).

V

CAUTION!

Save the dummy module for future use.

Always replace dummy modules into unused HDD / SSD bays to comply with applicable EMC regulations and satisfy cooling requirements.



7.2.3.3

Installing a 2.5-inch HDD / SSD module

Figure 45: Opening the 2.5-inch HDD / SSD module locking lever

Ê

Pinch the green locking clips (1) and open the locking lever (2).

Figure 46: Inserting the 2.5-inch HDD / SSD module

Ê

Insert the HDD / SSD module into a drive bay and carefully push back as far as it will go.

Ê

Close the locking lever to lock the hard disk drive in place.



7.2.3.4


Ê

If applicable,

"Installing the HDD bay cover" on page 64

Ê

"Performing a RAID array rebuild" on page 91

7.2.4

Removing 2.5-inch HDD / SSD modules


(CRU)


Tools: tool-less

7.2.4.1


Ê

If the HDD / SSD module to be removed is combined into a RAID array, please proceed as follows:

RAID level Procedure

RAID 0

Only remove an HDD module combined in a RAID 0 array if defective.

V

CAUTION!

Removing an operational HDD module will result in data loss!

Removing an HDD module from a RAID 1 or RAID 5 array will not result in data loss.

RAID 1

RAID 5

However, the removed drive needs to be replaced immediately by an HDD module of the same or larger capacity.

I

After replacing the HDD module, RAID rebuild will be performed as a background process as

described in section "Performing a RAID array rebuild" on page 91

.



In order to permanently remove an operational HDD module that is part of a

RAID array from the server, you first need to delete the array using

ServerView RAID Manager.

V

CAUTION!

All data on all HDDs / SSDs in the array will be lost! Be sure to back up your data before deleting a RAID array.

For further information, please refer to the "ServerView Suite RAID

Management" user guide.

Ê


7.2.4.2

Removing a 2.5-inch HDD / SSD module

Figure 47: Removing a 2.5-inch HDD / SSD module

Ê

Pinch the green locking clips and fully open the locking lever (see figure

45 ).

I

Thereby, the HDD / SSD module is pushed out of its drive bay by about 1 cm and disconnected from the SAS / SATA backplane.

Ê

Wait about 30 seconds to allow the hard disk drive to spin down.

I

This is not necessary when removing a solid state drive.

Ê

Pull the HDD / SSD module completely out of its bay.



7.2.4.3

Installing a 2.5-inch HDD / SSD dummy module

V

CAUTION!

If the removed HDD / SSD module is not replaced immediately, always replace a dummy module into the unused HDD / SSD bay to comply with applicable EMC regulations and satisfy cooling requirements.

Figure 48: Installing a 2.5-inch HDD / SSD dummy module

Ê

Slide the HDD dummy module into the drive bay until it locks in place.

7.2.4.4


Ê

If applicable,




7.2.5

Replacing a 2.5-inch HDD / SSD module


(CRU)


Tools: tool-less

V

CAUTION!

● Only remove an HDD / SSD module during operation if the drive is not currently being accessed. Observe the indicators on the

HDD / SSD module, as described in the operating manual of your server.

● Under no circumstances should you remove an HDD / SSD module while the system is in operation if you are not sure that the drive is operated by a RAID controller and belongs to a disk array that is operating in RAID level 0, 1, 1E, 10, 5, 50, 6 or 60.

●

An HDD / SSD module can only be replaced during operation in conjunction with a corresponding RAID configuration.

All HDD / SSD modules (drives) must be uniquely identified so that they can be reinstalled in their original mounting locations later. If this is not done, existing data can be lost.

7.2.5.1


Ê


Ê


Ê

Locate the defective HDD / SSD module as described in section "Local diagnostic indicators on the front" on page 45 .

Only applicable for removing intact HDD / SSD modules:

Ê

Before removing a non-defective HDD / SSD module, put the drive into

"Offline" mode using your RAID configuration software.



7.2.5.2

Removing a 2.5-inch HDD / SSD module

Ê

Remove the HDD / SSD module to be replaced from the server as described

in section "Removing a 2.5-inch HDD / SSD module" on page 127

.

7.2.5.3

Installing a 2.5-inch HDD / SSD module

Ê

Install the new HDD / SSD module into the empty drive bay as described in

section "Installing 2.5-inch HDD / SSD modules" on page 123

.

7.2.5.4


Ê

If applicable,


Ê


7.2.6

Replacing a 2.5-inch HDD SAS / SATA backplane


(FRU)



7.2.6.1


Ê


Ê


Ê


Ê


Ê


Ê

If applicable,

"Removing the HDD bay cover" on page 55

Ê

"Removing 2.5-inch HDD / SSD modules" on page 126

V

CAUTION!

Ensure that all hard disk drives are uniquely identified so that you can reinsert them into their original bays after replacing the SAS / SATA backplane.



7.2.6.2

Removing the defective 2.5-inch HDD SAS / SATA backplane

Figure 49: Disconnecting cables

Ê

Disconnect the power cable (1) and the SAS / SATA cable (2) from the desired SAS / SATA backplane.

Ê

Remove the two screws (3, see circles).

Figure 50: Removing the SAS / SATA backplane

Ê

Lift up the SAS / SATA backplane (1) and at a slight angle, remove it from the guides on the HDD cage (2).



7.2.6.3

Installing the new 2.5-inch HDD SAS / SATA backplane

Figure 51: Installing the SAS / SATA backplane

Ê

At a slight angle, fit the SAS / SATA backplane into the two guides on the drive cage (1).

Ê

Fold in the SAS / SATA backplane (2).

Ê

Secure the SAS / SATA backplane with the two screws (see figure

49 ).

Ê

Connect all cables to the SAS / SATA backplane (see figure 49

).

I

For a complete cabling overview, please refer to section


.

7.2.6.4


Ê


Ê

Reinstall all HDD / SSD modules to their original drive bays as described in

section "Installing 2.5-inch HDD / SSD modules" on page 123

.

Ê


Ê


Ê




7.3

3.5-inch HDD configurations

7.3.1

Mounting order

Maximum configuration: 4x 3.5-inch HDDs

Figure 52: 3.5-inch HDD mounting order (example tower server)

7.3.2

HDD naming scheme

Bay

RAID

Manager

#

Channel

1

2

[0]

[1]

1

1

Table 5: HDD naming scheme

3.5-inch HDDs log.

Drive #

Bay

RAID

Manager

#

0 3

[2]

1 4 [3]

Channel

1

1 log.

Drive #

2

3



7.3.3

Installing 3.5-inch HDD modules


(CRU)


Tools: tool-less

7.3.3.1


Ê

If applicable,


Ê

Locate the correct drive bay as described in section "3.5-inch HDD configurations" on page 133 .

7.3.3.2

Removing a 3.5-inch HDD dummy module

Figure 53: Removing a 3.5-inch dummy module

Ê

Press in on the locking tabs on both sides of the dummy module to disengage the locking mechanism (1).



Ê

While keeping the locking tabs pressed, pull the dummy module out of its bay (2).

V

CAUTION!

Save the dummy module for future use.

Always replace dummy modules into unused HDD bays to comply with applicable EMC regulations and satisfy cooling requirements.

7.3.3.3

Installing a 3.5-inch HDD module

Figure 54: Opening the 3.5-inch HDD module locking lever

Ê

While pressing down on the locking button (1) fold up the lever (2).



Figure 55: Inserting the 3.5-inch HDD module

Ê

Insert the HDD module into a drive bay and carefully push back as far as it will go (1).

Ê

Fold down the lever to lock the HDD module in place (2).

7.3.3.4


Ê

If applicable,


Ê




7.3.4

Removing 3.5-inch HDD modules


(CRU)


Tools: tool-less

7.3.4.1


Ê

If the HDD module to be removed is combined into a RAID array, please proceed as follows:

RAID level Procedure

RAID 0

Only remove an HDD module combined in a RAID 0 array if defective.

V

CAUTION!

Removing an operational HDD module will result in data loss!

Removing an HDD module from a RAID 1 or RAID 5 array will not result in data loss.

RAID 1

RAID 5

However, the removed drive needs to be replaced immediately by an HDD module of the same or larger capacity.

I

After replacing the HDD module, RAID rebuild will be performed as a background process as described in section

"Performing a RAID array rebuild" on page 91 .

In order to permanently remove an operational HDD module that is part of a

RAID array from the server, you first need to delete the array using

ServerView RAID Manager.

V

CAUTION!

All data on all HDDs in the array will be lost! Be sure to back up your data before deleting a RAID array.





Ê

If applicable,


7.3.4.2

Removing a 3.5-inch HDD module

Figure 56: Removing a 3.5-inch HDD module

Ê

While pressing down on the locking button (1) fold up the lever (2).

I

Thereby, the HDD module is pushed out of its drive bay by about 1 cm and disconnected from the SAS / SATA backplane.

Ê

Wait about 30 seconds to allow the hard disk drive to spin down.

Ê

Pull the HDD module completely out of its bay.



7.3.4.3

Installing a 3.5-inch HDD dummy module

V

CAUTION!

If the removed HDD module is not replaced immediately, always replace a dummy module into the unused HDD bay to comply with applicable

EMC regulations and satisfy cooling requirements.

Figure 57: Installing a 3.5-inch HDD dummy module

Ê

Slide the dummy module into the drive bay until it locks in place.

7.3.4.4


Ê

If applicable, "Installing the HDD bay cover" on page 64



7.3.5

Replacing a 3.5-inch HDD module


(CRU)


Tools: tool-less

V

CAUTION!

● Only remove an HDD module during operation if the drive is not currently being accessed. Observe the indicators on the HDD module, as described in the operating manual of your server.

●

●

Under no circumstances should you remove an HDD module while the system is in operation if you are not sure that the drive is operated by a RAID controller and belongs to a disk array that is operating in

RAID level 0, 1, 1E, 10, 5, 50, 6 or 60.

An HDD module can only be replaced during operation in conjunction with a corresponding RAID configuration.

All HDD modules (drives) must be uniquely identified so that they can be reinstalled in their original mounting locations later. If this is not done, existing data can be lost.

7.3.5.1


Ê


Ê

If applicable,


Ê

Locate the defective HDD module as described in section

"Local diagnostic indicators on the front" on page 45

.

Only applicable for removing intact HDD modules:

Ê

Before removing a non-defective HDD module, put the drive into "Offline" mode using your RAID configuration software.

I





7.3.5.2

Removing a 3.5-inch HDD module

Ê

Remove the HDD module to be replaced from the server as described in section

"Removing a 3.5-inch HDD module" on page 138 .

7.3.5.3

Installing a 3.5-inch HDD module

Ê

Install the new HDD module into the empty drive bay as described in section

"Installing 3.5-inch HDD modules" on page 134 .

7.3.5.4


Ê

If applicable, "Installing the HDD bay cover" on page 64

Ê


7.3.6

Replacing the 3.5-inch HDD SAS backplane


(FRU)



7.3.6.1


Ê


Ê


Ê


Ê


Ê


Ê

Remove all HDD modules from the server as described in section

"Removing 3.5-inch HDD modules" on page 137 .

V

CAUTION!

Ensure that all hard disk drives are uniquely identified so that you can reinsert them into their original bays after replacing the SAS backplane.



7.3.6.2

Removing the defective 3.5-inch HDD SAS backplane

Figure 58: Disconnecting cables

Ê

Disconnect the cables from the SAS backplane:

– (1) power cable from connector "x7"

– (2) SAS/SATA data cable from connector "x1"



Figure 59: Removing the 3.5-inch HDD bay top cover (A)

Ê

Remove five screws from the 3.5-inch HDD bay top cover (see blue arrows).

Ê

Remove one screw from the intrusion switch holder (see orange arrow).

Figure 60: Removing the 3.5-inch HDD bay top cover (B)

Ê

Slide back the intrusion switch holder until it disengages from the HDD bay top cover (1).

Ê

Remove the intrusion switch holder (2) and set aside.

Ê

Leave the intrusion switch cable connected to the system board.



Figure 61: Removing the 3.5-inch HDD bay top cover (C)

Ê

Carefully fold up the 3.5-inch HDD bay top cover to disengage it from the

SAS backplane below (1).

Ê

Remove the 3.5-inch HDD bay top cover from the chassis (2).

Figure 62: Removing the 3.5-inch HDD SAS backplane

Ê

Pull up on the SAS backplane and remove it from the HDD bay in a vertical motion.



7.3.6.3

Installing the new 3.5-inch HDD SAS backplane

Figure 63: Installing the 3.5-inch HDD SAS backplane

Ê

Fit the SAS backplane into the guide on the outer wall of the HDD bay and lower it into the bottom rim (see close-up).

Ê

Ensure that the SAS backplane is properly seated into the bottom rim and side guide (see circles).



Figure 64: Installing the 3.5-inch HDD bay top cover (A)

Ê

At a slight angle, fit the HDD bay top cover under the front chassis rim (1).

Ê

Fold down the HDD bay top cover (2) until it is properly seated on the HDD bays.

V

CAUTION!

Ensure that the 3.5-inch HDD backplanes is properly secured in the upper rim of the HDD bay top cover.

Figure 65: Installing the 3.5-inch HDD bay top cover (B)

Ê

Place the intrusion switch holder on the HDD bay top cover as shown (1).



Ê

Slide the intrusion switch holder under the front chassis rim as far as it will go (2).

Figure 66: Installing the 3.5-inch HDD bay top cover (C)

Ê

Secure the HDD bay top cover to the chassis with five screws (see blue arrows).

Ê

Secure the intrusion switch holder on the HDD bay top cover with one screw

(see orange arrow).

Ê

Connect the cables to the SAS backplane (see figure 58

).

7.3.6.4


Ê

Reinstall all HDD modules to their original drive bays as described in section

"Installing 3.5-inch HDD modules" on page 134 .

Ê


Ê


Ê


Ê





8 System fan and air duct

Safety notes

V

CAUTION!

● Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock.

●

●

●

●

●

Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options.

Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up

(e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs).

Do not touch the circuitry on boards or soldered parts. Hold circuit boards by their metallic areas or edges.

If devices are installed or disassembled using methods other than those outlined in this chapter, the warranty will be invalidated.

For further information, please refer to chapter "Important information" on page 31 .


System fan and air duct

8.1


Figure 67: Fan module

[1] Air duct

[2] System fan 120 x 38 mm

The fan module consists of the system fan contained in an air duct directing airflow directly onto the CPU heat sink and memory slots.

I

Additional fans in power supply units are integral parts of the power supply units and cannot be replaced separately.

V

CAUTION!

Since the system fan is not redundant is has to be replaced immediately in case of defects or prefailure events.



8.2

Handling the fan module

Upgrade and Repair Unit

(URU)


Tools: tool-less

8.2.1


Ê


Ê


Ê


8.2.2

Removing the fan module

Figure 68: Removing the fan module

Ê

Disconnect the fan cable from system board connector "FAN1 SYS" (1).



Ê

Push the locking tab (2) inside while slightly lifting up the fan module to disengage the retaining brackets on the server rear.

Ê

Lift the fan module out of the chassis (3).

8.2.3

Installing the fan module

Figure 69: Installing the fan module

Ê

Lower the fan module into the chassis.

Ê

Fit the four hooks on the fan module into the slots in the chassis (see blue circles).

Ê

Press down on the fan module until the four hooks lock in the narrow ends of the slots.

Ê

Ensure that the locking tab on the fan module is properly engaged with the upper rim of the chassis (see orange circle).

Ê

Connect the fan cable to system board connector "FAN1 SYS" (see figure

68 ).



8.2.4


Ê


Ê


Ê


8.3

Replacing the system fan


(URU)

Tools: tool-less


8.3.1


Ê


Ê


Ê


Ê


Ê




8.3.2

Removing the defective system fan

Figure 70: Removing the fan cable from the guidings

Ê

Remove the fan cable from the guidings.



Figure 71: Removing the safety pins from the snap rivets

Ê

Remove the safety pins (see circles) from the four snap rivets on the air duct.



Figure 72: Removing the system fan from the air duct

Ê

Pull the system fan from the snap rivets (1).

Ê

Remove the system fan from the air duct (2).


8.3.3

Installing the new system fan

Ê

Insert the system fan into the air duct.


Figure 73: Installing the system fan in the air duct

Ê

Push the system fan on the snap rivets (1).

I

Notice the position of the fan cable. Ensure that the fan cable is not pressed.

Ê

Insert and tightly push the four safety pins into the snap rivets (2).

Ê

Insert the fan cable in the guidings (see figure

70

).

8.3.4


Ê


Ê


Ê


Ê


Ê





9 Expansion cards and backup units

Safety notes

V

CAUTION!

● Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock.

●

●

●

Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options.




●

●

If devices are installed or disassembled using methods other than those outlined in this chapter, the warranty will be invalidated.



Expansion cards and backup units

9.1


The system board is equipped with four expansion slots.

slot 4 slot 3 slot 2 slot 1

Figure 74: PCI slot overview

PCI slot Type

1

PCIe x1

(mechanical x4)

2

3

4

PCIe x4

(mechanical x8)

PCIe x8

PCIe x8

Function slot for optional PCI adapter board (connected with riser card), preferred slot for USB 3.0 interface card D3305 dedicated slot for boot controllers

I

An additional PCI 32-bit slot is available with an optional riser card. This riser card can be mounted on two spacer bolts positioned under slot 1. In this case a PCI adapter board occupies slot 1 (see section

"Installing the new riser card" on page 186 ).



SAS/RAID controller

D2607 SAS RAID Controller

(LSI SAS 2008 based)

D2616 SAS RAID Controller


D3116 SAS RAID Controller PCIe Gen 3

(LSI SAS 2208 V3 based)

D2627 PSAS CP200i Host Bus Adapter


Ethernet controller

Single Port Gigabit Desktop Adapter PRO/1000 CT

Single Port Gigabit Server Adapter PRO/1000 PF

Dual Port Gigabit Ethernet Controller D3035

Quad Port Gigabit Ethernet Controller D3045

Dual Port 10 Gb Ethernet Controller D2755

Dual Port 10 GBase-T Server Adapter X540-T2

Miscellaneous

Nvidia NVS300 Graphics Card

D3305 USB 3.0 Interface Card

Riser Card for 32-bit PCI cards with PCI adapter board

Max pcs per system

1

1

1

1

1

2

2

2

2

1

1

1

1

1

-

-

1

1

-

-

-

-

1

1

1

-

-

-

2

-

-

2

2

1

1

-

-

2

2

-

Slot no

2 3 4

-

1

-

-

3

3

2

2

1

1

-

-

-

-

-

3

3

2

2

-

-

-

I

For the latest information on supported expansion cards, refer to your server’s hardware configurator available online at the following address: for the EMEA market: http://ts.fujitsu.com/products/standard_servers/index.htm

for the Japanese market: http://jp.fujitsu.com/platform/server/primergy/system/

1

3

1

1



9.2

Handling slot brackets

9.2.1

Installing a slot bracket


(URU)



I

Use the following slot bracket for the ModularRAID controllers based on

LSI MegaRAID:

– Full height bracket not-perforated

162

Figure 75: Perforated and non-perforated slot brackets

1

2

3

Full height bracket non-perforated

Full height bracket perforated

Low profile bracket perforated


Installing the slot bracket


Figure 76: Installing the PCI slot bracket (A)

Ê

Place the controller on the mounting tabs on the slot bracket.

Ê

Carefully shift the slot bracket towards the controller until the plug shells engage with the cut-outs in the slot bracket connector panel.

Figure 77: Installing the PCI slot bracket (B)

Ê

Secure the slot bracket to the controller with two screws.



Example network adapter D2755

Figure 78: Network adapter D2755 - Mounting the slot bracket (A)

Ê

Place the controller on the mounting tabs on the slot bracket (1).

Ê

Carefully shift the slot bracket towards the controller until the plug shells engage with the cut-outs in the slot bracket connector panel (2).

Ê

Ensure that the ESD springs on the plug shells properly engage with the slot bracket as shown (see close-ups).

Figure 79: Network adapter D2755 - Mounting the slot bracket (B)

Ê

Secure the slot bracket to the controller with two M3 x 4.5 mm screws.



Figure 80: Network adapter D2755 - Mounting the slot bracket (C)

I

Assembled network adapter D2755


햳

햲

Figure 81: Placing the slot bracket - D3035

Ê

Place the controller on the mounting tabs on the slot bracket (1).

Ê

Carefully shift the slot bracket towards the controller (2) until the plug shells engage with the cut-outs in the slot bracket connector panel (see close-up).



Figure 82: Fastening the slot bracket - D3035

Ê

Secure the slot bracket to the controller with two M3 x 4.5 mm screws.

Figure 83: Assembled network adapter D3035



햲


햳

Figure 84: Placing the slot bracket - D3045

Ê

Hinge the slot bracket to the plug shell as shown (1).

Ê

Fold the slot bracket towards the controller until the threaded mounting tab is aligned with the screw hole on the controller (2).

Figure 85: Fastening the slot bracket - D3045

Ê

Secure the slot bracket to the controller with one M3 x 4.5 mm screw.



Figure 86: Assembled network adapter D3045

Example USB 3.0 interface card D3305

V

CAUTION!

The USB 3.0 interface card D3305 comes pre-assembled with a full height slot bracket. When replacing the slot bracket, ensure to use the original M3 x 5 mm screws. Standard M3 screws may damage onboard components.

Figure 87: Mounting the PCI slot bracket (A)

Ê

Place the controller on the mounting tabs on the slot bracket.



Ê

Carefully shift the slot bracket towards the controller until the plug shells engage with the cut-outs in the slot bracket connector panel.

Figure 88: Mounting the PCI slot bracket (B)

Ê

Secure the slot bracket to the controller with the two M3 x 5 mm screws contained in the expansion card kit.

9.2.2

Removing a slot bracket


(URU)



Removing the slot bracket

Ê

Remove the two screws.

Ê

Remove the controller from the mounting tabs on the slot bracket.



9.3

Handling SFP+ transceiver modules

For Fiber Channel over Ethernet (FCoE) configurations, the Ethernet server adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules.

9.3.1

Installing SFP+ transceiver modules


(URU)


Tools: tool-less

Preparing the SFP+ transceiver module

Figure 89: Removing the protective optical port plug

Ê

Remove the SFP+ transceiver module from its protective packaging.

Ê

Remove the optical port plug from the new / additional SFP+ transceiver module.

V

CAUTION!

– Always keep the protective port plugs attached to the transceiver optical bores and fiber-optic cable connectors until you are ready to make a connection.

– Save the protective port plug for future use.



Figure 90: Unlatching the locking bail

Ê

Carefully unlatch and fold down the locking bail on the SFP+ transceiver module.

Inserting the SFP+ transceiver module

Figure 91: Inserting the SFP+ transceiver module

Ê

Insert and slide the SFP+ transceiver module into the socket connector as far as it will go.

I

If only one slot is equipped with a SFP+ transceiver module, use the left connector as shown.



Figure 92: Latching the locking bail

Ê

Carefully fold up and latch the locking bail.

Figure 93: Attaching the protective optical port plug

Ê

If the SFP+ transceiver module is not immediately connected to an LC connector, attach the protective optical port plug to the transceiver optical bores.



Installing the secondary SFP+ transceiver module

Figure 94: Installing the secondary SFP+ transceiver module

Ê

If applicable, install the secondary SFP+ transceiver module accordingly.

9.3.2

Removing an SFP+ transceiver module


(URU)


Tools: tool-less

For Fiber Channel over Ethernet (FCoE) configurations, the ethernet server adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules.



Figure 95: Removing the protective optical port plug

Ê

If present, remove the protective optical port plug from the SFP+ transceiver module.

V

CAUTION!

Save the protective port plug for future use.

Figure 96: Unlatching the locking bail

Ê

Carefully unlatch and fold down the locking bail on the SFP+ transceiver module to eject the transceiver from the socket connector.



Figure 97: Removing the SFP+ transceiver

Ê

Pull the SFP+ transceiver module out of its socket connector.

Ê

Reattach the protective optical port plug to the transceiver optical bores.

I

Place the removed SFP+ transceiver module in an antistatic bag or other protective environment.



9.4

Expansion cards and riser card

9.4.1

Installing expansion cards


(URU)


Software: 5 minutes


9.4.1.1


Ê


Ê

"Disabling SVOM boot watchdog functionality" on page 70

Ê


Ê


Ê


Ê




9.4.1.2

Removing the PCI slot bracket

Figure 98: Removing the PCI slot bracket

Ê

Fold up the locking handle on the slot bracket clamp (1).

Ê

Press down on the slot bracket clamp to disengage it (2).

Ê

Remove the slot bracket clamp (3).

Ê

Remove the slot bracket (4).

V

CAUTION!

Keep the slot bracket for further use.

Always replace slot brackets into unused PCI slot openings to comply with applicable EMC regulations and satisfy cooling requirements.



9.4.1.3

Installing an expansion card

Ê

Remove the expansion card from its protective packaging.

I

For further instructions regarding controller settings, please refer to the accompanying documentation.

Ê

If applicable, attach the required slot bracket to the expansion card as described in section

"Installing a slot bracket" on page 162 .

Figure 99: Installing the expansion card (A)

Ê

Carefully insert the expansion card into the desired PCI slot and press down firmly until it is fully seated in the slot.



Figure 100: Installing the expansion card (B)

Ê

Clip on the PCI slot bracket clamp (1).

Ê

Fold down the locking handle on the PCI slot bracket clamp until it locks in place (2).

Ê

If applicable, connect internal cables to the expansion card (see section

"Cabling plans" on page 305 ).

Ê

If applicable, install SFP+ transceiver modules to the expansion card as described in sections

"Installing SFP+ transceiver modules" on page 170 .

Ê

If applicable, connect a BBU or FBU to the expansion card as described in

sections "Installing a BBU" on page 196

or

"Installing an FBU" on page 190 .

9.4.1.4


Ê


Ê


Ê

Reconnect all external cables to the replaced expansion card.



Ê


Ê


Ê

"Updating RAID controller firmware" on page 80

Ê

If applicable,

"Enabling Option ROM scan" on page 81

Ê

"Enabling SVOM boot watchdog functionality" on page 85

Ê


Ê

If applicable, "After replacing / upgrading LAN controllers" on page 95

9.4.2

Removing expansion cards


(URU)


Tools: tool-less

9.4.2.1


Ê


Ê


Ê


Ê

Remove all external cables from the expansion card to be removed.

Ê


Ê




9.4.2.2

Removing an expansion card

Ê

If applicable, disconnect internal cables from the expansion card.

Ê

If applicable, remove SFP+ transceiver modules "Removing an SFP+ transceiver module" on page 173 .

Figure 101: Removing an expansion card

Ê

Fold up the locking handle on the slot bracket clamp (1).

Ê

Press down on the slot bracket clamp to disengage it (2).

Ê

Remove the slot bracket clamp (3).

Ê

Carefully pull up on the expansion card in a vertical motion and remove it from its slot (4).



9.4.2.3

Installing a PCI slot bracket

V

CAUTION!

Always replace slot brackets into unused PCI slot openings to comply with applicable EMC regulations and satisfy cooling requirements.

Figure 102: Installing a PCI slot bracket

Ê

Insert a PCI slot bracket into the unused PCI slot opening (1).

Ê

Clip on the PCI slot bracket clamp (2).

Ê

Fold down the locking handle on the PCI slot bracket clamp until it locks in place (3).

9.4.2.4


Ê


Ê


Ê


Ê


Ê




9.4.3

Replacing expansion cards


(URU)



Tools: Phillips PH2 / (+) No. 2 screw driver (only for installing slot brackets)

Note on network settings recovery

I

When replacing network controllers or the system board, network configuration settings in the operating system will be lost and replaced by default values. This applies to all static IP address and LAN teaming configurations.

Ensure to note down your current network settings before replacing a network controller or the system board.

9.4.3.1


Ê

If applicable, "Note on network settings recovery" on page 183

Ê


Ê


Ê


Ê


Ê


Ê

Remove all external cables from the expansion card to be replaced.

Ê


Ê


Ê

Locate the defective expansion card using the onboard Local Diagnostic

LEDs as described in section "Onboard indicators and controls" on page 326 .



9.4.3.2

Removing the defective expansion card

Ê

If applicable, remove SFP+ transceiver modules from the expansion card to be removed, as described in section

"Removing an SFP+ transceiver module" on page 173 .

Ê

Remove the expansion card as described in section

"Removing expansion cards" on page 180 .

Ê

If the slot bracket on the defective expansion card is to be reused, remove it

from the board as described in section "Removing a slot bracket" on page 169

.

9.4.3.3

Installing the new expansion card

Ê

If applicable, install a slot bracket on the expansion card as described in

section "Installing a slot bracket" on page 162 .

Ê

Install the expansion card as described in section

"Installing expansion cards" on page 176 .

Ê

If applicable, reinstall SFP+ transceiver modules on the expansion card, as described in section

"Installing SFP+ transceiver modules" on page 170

.

9.4.3.4


Ê


Ê


Ê


Ê


Ê


Ê

"Enabling replaced components in the system BIOS" on page 85

Ê

Inform the customer about changed WWN and MAC addresses. For further information, refer to section

"Looking up changed MAC / WWN addresses" on page 92

.

Ê

"Updating the NIC configuration file in a Linux environment" on page 89

Ê


Ê


Ê




Ê

If applicable, reconfigure your network settings in the operation system according to the original configuration of the replaced controller (expansion card or onboard).

I

Configuration of network settings should be performed by the customer.

For further information, please refer to section

"Note on network settings recovery" on page 183 .

Ê

If applicable, "After replacing / upgrading LAN controllers" on page 95

9.4.4

Replacing the riser card


(URU)



9.4.4.1


Ê


Ê


Ê


Ê


Ê

Remove all external cables from the expansion card installed in the riser card slot.

Ê


Ê


9.4.4.2

Removing the defective riser card

Ê

Remove the expansion card from the riser card slot as described in section

"Removing an expansion card" on page 181 .



Figure 103: Removing the riser card

Ê

Disconnect the power cable (1).

Ê

Remove the two screws (2).

Ê

Remove the riser card (3).

Ê

Remove the PCI adapter board from slot 1 (4).

9.4.4.3

Installing the new riser card

Figure 104: Preparing the riser card

Ê

Fold the cable under the riser card (1).


Ê

Angle the PCI adapter board (2).


Figure 105: Installing the riser card

Ê

Insert the PCI adapter board in slot 1 (1).

Ê

Fit the riser card onto the two spacer bolts (2).

Ê

Fasten the riser card with the two screws (3).

Ê

Connect the power cable (4).

Ê

Install the expansion card in the riser card slot as described in section

"Installing expansion cards" on page 176

.

9.4.4.4


Ê


Ê


Ê

Reconnect all external cables to the expansion card installed in the riser card slot.

Ê


Ê




9.4.5

Replacing the TFM


(URU)



9.4.5.1


Ê


Ê


Ê


Ê


Ê

Remove all external cables from the expansion card to be removed.

Ê


Ê


9.4.5.2

Removing the defective TFM

Ê

Remove the depending expansion card as described in section

"Removing an expansion card" on page 181

.

Ê

Disconnect the FBU adapter cable as described in section

"Disconnecting the FBU adapter cable from the TFM" on page 199 .



Figure 106: Removing the TFM

Ê

Remove the three screws (1).

Ê

Remove the TFM (2).

9.4.5.3

Installing the new TFM

Ê

Install the new TFM as described in section

"Installing the FBU in the holder" on page 192 .

Ê

Connect the FBU adapter cable to the TFM as described in section

"Connecting the FBU adapter cable to the TFM" on page 195 .

Ê

Install the expansion card as described in section "Installing expansion cards" on page 176

.

9.4.5.4


Ê


Ê


Ê


Ê


Ê




9.5

Backup Units

9.5.1


The Battery Backup Unit (BBU) or Flash Backup Unit (FBU) backs up the memory contents of the connected SAS RAID controller in the event of a power failure. The server can accommodate up to two backup units.

9.5.2

Installing an FBU


(URU)


Tools: tool-less

V

CAUTION!



9.5.2.1


Ê


Ê


Ê


Ê


Ê




9.5.2.2

Installing TFM to the RAID controller (if applicable)

Figure 107: TFM kit

1 TFM 2 Screws

Figure 108: Installing TFM

Ê

Fit the spacer bolts of the TFM on the RAID controller (1).

Ê

Secure the TFM on the RAID controller with the three screws (2).



9.5.2.3

Installing the FBU in the holder

Figure 109: Installing the FBU in the holder (A)

Ê

At a slight angle, fit the FBU under the right retaining bracket on the holder.

Ê

Push down the FBU until it locks in place.

Figure 110: Installing the FBU in the holder (B)

Ê

Ensure that the FBU is properly seated in the holder.



Figure 111: Connecting the FBU adapter cable to the FBU

Ê

Connect the cable end on the FBU to the FBU adapter cable.

9.5.2.4

Installing the FBU holder into the chassis

FBU 1

FBU 2

Figure 112: Installing the FBU holder (A)

I

Note the positions of the fixation bolts on the chassis floor and keyhole slots on the FBU holder.

Ê

Insert the FBU holder into the chassis so that the three fixation bolts on the chassis floor rest in the wide ends of the keyhole slots on the holder.



Figure 113: Installing the FBU holder (B)

Ê

Slide the FBU holder downward as far as it will go.

The fixation bolts on the chassis floor will lock in the narrow ends of the keyhole slots on the holder.

Ê

Ensure that the locking handle on the FBU holder properly snaps in place

(see close-up).



9.5.2.5

Connecting the FBU adapter cable to the TFM

Figure 114: Routing the FBU adapter cable

Ê

Connect the FBU adapter cable to the TFM.

Ê

Route the FBU adapter cable as shown.

9.5.2.6


Ê


Ê


Ê


Ê


Ê


Ê




9.5.3

Installing a BBU


(URU)


Tools: tool-less

V

CAUTION!



9.5.3.1


Ê


Ê


Ê


Ê


Ê


9.5.3.2

Connecting the BBU cable to the BBU

Figure 115: Connecting the BBU cable

Ê

Connect the BBU cable to the BBU.



V

CAUTION!

Make sure that the connector side with the three dots is on the top (see close-up). Otherwise you risk short-circuits.

9.5.3.3

Installing the BBU in the holder

Figure 116: Installing the BBU in the BBU holder

Ê

At a slight angle, fit the BBU under the right retaining bracket on the BBU holder (1).

Ê

Fold down the BBU until it locks in place (2).

9.5.3.4

Installing the BBU holder into the chassis

Ê

Install the BBU holder into the chassis as described in section "Installing the

FBU holder into the chassis" on page 193 .

9.5.3.5

Connecting the BBU cable to a controller

Ê

If applicable, install a RAID controller as described in section


.

Ê

Connect the BBU cable to the RAID controller.



9.5.3.6


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


Note on BBU charging and calibration

The BBU may be deeply discharged due to extended storage time and wrongly show as bad or defective in the ServerView RAID Manager.

In this case, the BBU will automatically enter a trickle charge cycle for recovery.

This initial charge may take up to 12 hours before the BBU will initiate a recalibration cycle.

Ê

Enter the ServerView RAID Manager and check the current BBU status.

I



Ê

If the BBU is shown as bad or defective, do not power off the server for at least 12 hours to allow the charge and calibration cycles to finish.

Ê

If the BBU status does not change after 12 hours, please try to initiate the recalibration process manually using the ServerView RAID Manager.

I

If this procedure still does not fix the BBU status, please contact your local Fujitsu customer service partner.



9.5.4

Removing an FBU


(URU)


Tools: tool-less

V

CAUTION!

Do not throw FBUs into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.

For further safety information, please refer to section

"Environmental protection" on page 41

.

9.5.4.1


Ê


Ê


Ê


Ê


9.5.4.2

Disconnecting the FBU adapter cable from the TFM

Figure 117: Disconnecting the FBU adapter cable from the TFM

Ê

Disconnect the FBU adapter cable from the TFM.



9.5.4.3

Removing the FBU holder from the chassis

Figure 118: Removing the FBU holder from the chassis

Ê

Lift up the green locking handle on the FBU holder (1) while sliding the BBU holder upward as far as it will go (2).

I

After that, the fixation bolts on the chassis floor will rest in the wide ends of the keyhole slots on the holder.

Ê

Lift the FBU holder out of the chassis (3).

9.5.4.4


Ê


Ê


Ê


Ê




9.5.5

Removing a BBU


(URU)


Tools: tool-less

V

CAUTION!

Do not throw battery backup units into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.


"Environmental protection" on page 41

.

9.5.5.1


Ê


Ê


Ê


Ê


9.5.5.2

Disconnecting the BBU cable from the controller

Ê

Carefully disconnect the BBU cable from the RAID controller.

9.5.5.3

Removing the BBU holder from the chassis

Ê

Remove the BBU holder from the chassis as described in section

"Removing the FBU holder from the chassis" on page 200

.

9.5.5.4


Ê


Ê


Ê


Ê




9.5.6

Replacing an FBU


(URU)


Tools: tool-less

V

CAUTION!

Do not throw FBUs into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.


"Environmental protection" on page 41 .

9.5.6.1


Ê


Ê


Ê


Ê


Ê


Ê


9.5.6.2

Removing the defective FBU

Ê

Remove the FBU with the holder as described in section

"Removing an

FBU" on page 199 .



Figure 119: Disconnecting the FBU adapter cable from the FBU

Ê

Press down on the locking latch on the FBU cable (see close-up) and disconnect the FBU adapter cable.

Figure 120: Removing the FBU from the holder

Ê

At a slight angle, slide the FBU from under the retaining brackets of the holder and remove it.



9.5.6.3

Installing the new FBU

Ê

Install the FBU as described in section

"Installing an FBU" on page 190

.

9.5.6.4


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


9.5.7

Replacing a BBU


(URU)


Tools: tool-less

V

CAUTION!

Do not throw battery backup units into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.


"Environmental protection" on page 41 .

9.5.7.1


Ê


Ê


Ê


Ê




Ê


Ê


9.5.7.2

Removing the defective BBU

Ê

Remove the BBU with the holder as described in section

"Removing a BBU" on page 201 .

Figure 121: Removing the BBU from the BBU holder

Ê

Press out on the right retaining bracket on the BBU holder to disengage the locking mechanism while pulling up on the BBU (1).

Ê

Fold up the BBU and at a slight angle remove it from the BBU holder (2).



Figure 122: Disconnecting the BBU cable from the BBU

Ê

Carefully disconnect the BBU cable from the BBU.

9.5.7.3

Installing the new BBU

Ê

Install the BBU as described in section

"Installing a BBU" on page 196 .

9.5.7.4


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


Note on BBU charging and calibration

The BBU may be deeply discharged due to extended storage time and wrongly show as bad or defective in the ServerView RAID Manager.

In this case, the BBU will automatically enter a trickle charge cycle for recovery.

This initial charge may take up to 12 hours before the BBU will initiate a recalibration cycle.

Ê

Enter the ServerView RAID Manager and check the current BBU status.



I



Ê

If the BBU is shown as bad or defective, do not power off the server for at least 12 hours to allow the charge and calibration cycles to finish.

Ê

If the BBU status does not change after 12 hours, please try to initiate the recalibration process manually using the ServerView RAID Manager.

I

If this procedure still does not fix the BBU status, please contact your local Fujitsu customer service partner.




10 Main memory

Safety notes

V

CAUTION!

● Do not install unsupported third party memory modules. For further information on supported memory modules, refer to section

"Basic information" on page 209

.

●

●

●

●

Memory modules remain hot after shutdown. Wait for components to cool down before installing or removing memory modules to prevent burns.

Do not insert and remove memory modules repeatedly. Doing so may cause failures.

Pressing out the securing clips on the memory module connector will eject the installed memory module. To prevent damage and injuries eject memory modules carefully without applying excessive force.


10.1 Basic information

– The system board is equipped with four memory slots.

– The system has to be equipped with at least one memory module.

– Supported memory modules:

DDR3L 1333 or 1600 unbuffered single rank (SR) or dual rank (DR)

UDIMMs with ECC

– Supported capacities: 2 GB, 4 GB or 8 GB.

– Maximum amount of RAM: 32 GB


Main memory

10.1.1 Memory sequence

– Populate memory slot 1 / channel A (DIMM-1A) first.

– Within both channels, memory slot 1 must be populated prior to slot 2.

– If memory modules with different capacities are used:

– Install modules with higher capacities first.

– Within a channel, install modules in descending order of capacity.

– If memory modules with different speeds are used, the lowest clock rate applies for all DIMMs.

Figure 123: Memory overview

Channel

Slot ID

1

2

3

4

1A o o o o

A

2A o o

Table 6: Mounting order - Mirrored Channel Mode: Single CPU

1B o o o

B

2B o


Main memory

10.1.2 Operation modes

– The maximum performance can be achieved in a symmetric dual-channel configuration. Therefore both channels have to be populated with the same amount of memory. The DRAM device technology (1 Gbit / 2 Gbit / 4 Gbit) may vary from one channel to the other.

– If the amount of memory differs between the two channels, the system board will run in dual-channel asymmetric mode.

– Regardless of the mode, all DIMMs will run at the highest common frequency that is allowed by the SPD Data of the DIMMs and the maximum speed of the selected configuration.

– Single-channel mode is used if one memory module is populated in

DIMM 1A.

10.2 Removing memory modules


(URU)

Tools: tool-less


10.2.1 Preliminary steps

Ê


Ê


Ê


Ê


Ê


Ê



Main memory

10.2.2 Removing a memory module

Ê

Identify the desired memory slot see section

"Memory sequence" on page 210

.

V

CAUTION!

Ensure to maintain an operational configuration when removing memory modules. For additional information, please refer to section

"Basic information" on page 209 .

Figure 124: Removing memory modules

Ê

Eject the desired memory module by pressing out the securing clips at each end of the memory slot (1).

Ê

Remove the ejected memory module (2).

10.2.3 Concluding steps

Ê


Ê


Ê


Ê


Ê

If applicable,

"Updating or recovering the system board BIOS and iRMC" on page 77

Ê


Ê



Main memory

10.3 Installing memory modules


(URU)


Tools: tool-less


Ê


Ê


Ê


Ê


Ê


Ê


10.3.2 Installing a memory module

Ê

Identify the correct memory slot see section

"Memory sequence" on page 210 .

Figure 125: Installing memory modules

Ê

Press out the securing clip at each end of the memory slot (1).


Main memory

Ê

Align the notch on the bottom of the module with the crossbar in the slot (see close-up).

Ê

Press down on the memory module until the securing clips snap into the cutouts at each end of the module (2).


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


Ê

If applicable,

"Verifying the memory mode" on page 86

Ê


10.4 Replacing memory modules


(URU)



Tools: tool-less


Ê

Identify the defective memory slot using the server management software.

Ê


Ê


Ê


Ê



Main memory

Ê


Ê


Ê


Ê

Locate the defective memory module using the onboard Local Diagnostic

LEDs (see section "Onboard indicators and controls" on page 326 ).

10.4.2 Removing the defective memory module

Ê

Remove the memory module as described in section "Removing a memory module" on page 212

.

10.4.3 Installing the new memory module

Ê

Install the memory module as described in section "Installing a memory module" on page 213

.


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


Ê

"Enabling replaced components in the system BIOS" on page 85

Ê

"Verifying the memory mode" on page 86

Ê



Main memory


11 Processors

Safety notes

V

CAUTION!

● Do not install unsupported processors. For further information on

supported processors, refer to section "Basic information" on page 218

.

● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up

(e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs)

●

●

●

●


When removing or installing the processor, be careful not to touch or bend the spring contacts on the processor socket.

Never touch the underside of the processor. Even minor soiling such as grease from the skin can impair the processor’s operation or destroy the processor.



Processors

11.1


Supported processors

The system board is equipped with one LGA 1150 socket for dual and quad

Core Intel Xeon E3-1200v3 processor series CPUs.

11.2

Upgrading or replacing the processor


(FRU)




V

CAUTION!

Processors are extremely sensitive to electrostatic discharge and must be handled with care. After a processor has been removed from its protective sleeve or from its socket, place it upside down on a nonconducting, antistatic surface. Never push a processor over a surface.


Ê


Ê


Ê

If applicable,


Ê


Ê


Ê


Ê



11.2.2 Removing the processor heat sink

Processors

Figure 126: Removing the processor heat sink

Ê

Loosen the four captive screws on the heat sink in a crossover pattern (1-4).

Ê

Carefully turn the heat sink back and forth to detach it from the processor.

This may be necessary due to the adhesive quality of the thermal paste located between the heat sink and processor.

V

CAUTION!

Pay special attention not to damage any system board components surrounding the processor socket.

Ê

Lift the heat sink out of the chassis.

Ê

Thoroughly clean residual thermal paste from the surface of the heat sink and the processor using a lint-free cloth.


Processors

11.2.3 Removing the processor

Figure 127: Unlatching the socket lever

Ê

Unlatch the socket lever by pushing it down and away from the socket (1).

Ê

Fold back the socket release lever (2).

Figure 128: Removing the processor

Ê

Rotate the socket lever to lift the load plate away from the socket (1).


Processors

Ê

Make sure that the load plate is in the fully open position.

Ê

Carefully remove the defective processor from its socket in a vertical motion

(2).

V

CAUTION!

Be careful not to touch or bend the spring contacts on the processor socket.

11.2.4 Installing the processor

Figure 129: Installing the processor

Ê

Hold the processor with your thumb and index finger. Make sure that the notches on the processor align with the posts on the socket (see circles).

Ê

Lower the processor straight down without tilting or sliding it in the socket.

V

CAUTION!

– Ensure that the processor is level in the socket.

– Be careful not to touch or bend the pins on the processor socket.

– Never touch the underside of the processor. Even minor soiling such as grease from the skin can impair the processor’s operation or destroy the processor.

– Ensure not to scrape or dent the processor edges.


Processors

Figure 130: Closing the load plate (A)

Ê

Lower the load plate over the processor while leaving the socket lever in the open position.

Figure 131: Closing the load plate (B)

Ê

Lower the socket lever while making sure that the front edge of the load plate slides under the shoulder screw cap (see close-up) as the lever is lowered.


Processors

Figure 132: Latching the socket lever

Ê

Latch the socket lever under the load plate tab.

11.2.5 Applying thermal paste

I

For the Japanese market, the service engineer must follow the instruction provided separately.

I

If the processor upgrade or replacement kit contains a new CPU heat sink, a thin layer of thermal compound has already been pre-applied to

its lower surface. In this case, please proceed with section "Installing the processor heat sink" on page 225

.


Processors

Figure 133: Thermal paste syringe

One thermal compound syringe (FTS-FSP:P304000004) contains thermal paste for three processors.

In order to determine the correct amount of thermal paste (equal to 1.0 gram), divide the grey area of the syringe up into three equal segments.

I

Add graduation marks to the syringe using a permanent marker to help you apply the thermal paste.


Processors

Figure 134: Applying thermal paste

Ê

Apply a small point-shaped amount of thermal paste (1.0 gram, see description above) to the center of the processor surface as shown.

V

CAUTION!

Do not mix different types of thermal paste.

11.2.6 Installing the processor heat sink

Figure 135: Installing the heat sink (A)

Ê

Carefully seat the heat sink on the four threaded holes as shown.


Processors

V

CAUTION!

– Ensure that the screws on the heat sink are properly seated on the threaded holes.

– Ensure that the heat sink cooling fins match the direction of the airflow!

Figure 136: Installing the heat sink (B)

Ê

Fasten the four captive screws on the heat sink in a crossover pattern (screw torque: 0.6 Nm, not applicable for the Japanese market) (1-4).


Processors


Ê


Ê


Ê


Ê


Ê

If applicable,


Ê


Ê


11.3

Replacing the processor heat sink


(FRU)




Ê


Ê


Ê


Ê


11.3.2 Replacing the processor heat sink

Ê

Remove the processor heat sink as described in section

"Removing the processor heat sink" on page 219

.

Ê

Apply thermal paste to the processor surface as described in section

"Applying thermal paste" on page 223

.


Processors

Ê

Install the processor heat sink as described in section

"Installing the processor heat sink" on page 225

.


Ê


Ê


Ê


Ê



12 Accessible drives

Safety notes

V

CAUTION!

● Before installing an accessible drive, acquaint yourself with the drive's user documentation.

● When inserting an accessible drive into the server, ensure not to pinch or strain any connected cables.

●

●

●

●

●

When installing an accessible drive, hold it by its sides. Applying force to the top of the casing may cause failures.

When disposing of, transferring, or returning a backup drive, ensure that all backup media has been removed from the drive.






Accessible drives


Mounting order for accessible drives

The server offers three 5.25-inch accessible drive bays for optical disk drives and backup drives:

5.25 inch x 1.6 inch

Figure 137: Accessible drives mounting order (tower server)

5.25 inch x 1.6 inch

Figure 138: Accessible drives mounting order (rack server)



Sequence Accessible drive

1

Optical disk drive or slimline optical disk drive

Bay

Bay 1

2

3

4

Backup drive LTOx

Backup drive DAT

Backup drive RDX

Bay 3, if occupied: bay 2 or bay 1



Table 7: Accessible drive mounting sequence

Max. no.

1

1

2

2

12.2 Installing accessible drives


(URU)


Tools: Phillips PH2 / (+) No. 2 screw driver (for installing mounting brackets)


Ê


Ê


Ê


Ê


Ê

"Removing the rack front cover" on page 52

(rack server) or "Removing the front cover" on page 56 (tower server)

I

The front cover only needs to be removed in order to remove or install accessible drive dummy covers.



12.2.2 Removing accessible drive dummy covers

Removing accessible drive filler covers

Figure 139: Removing an accessible drive filler cover

Ê

Hold the accessible drive filler cover by its two handle recesses and pull it out of the desired installation bays.

V

CAUTION!

Always replace filler covers into unused drive bays to comply with applicable EMC regulations and satisfy cooling requirements.


Removing accessible drive covers


Figure 140: Removing an accessible drive covers

I

Removing accessible drive covers is illustrated by the example of the tower server. In case of the rack front cover, the procedure is identical.

Ê

Turn the front cover face down.

Ê

Press in on the lugs on either side of the drive cover.

Ê

Fold up (1) and remove the desired accessible drive covers (2).



12.2.3 Installing mounting brackets to RDX and DAT72 backup drives (if applicable)

This section is not applied for Japanese market.

Backup drive mounting brackets are contained in mounting kit S26361-F3753-

E1 (to be ordered separately with the backup drive).

I

No new mounting brackets are available when replacing a backup drive during service.

Ê

If applicable, remove existing mounting brackets from the backup drive.

Figure 141: Backup drive mounting brackets

Figure 142: Screw holes on backup drive mounting brackets

Ê

Note the screw hole description stamped onto the mounting bracket:

Ê

Use the square screw hole for RDX backup drives (see blue arrow).

Ê

Use the round screw holes for DAT72 backup drives (see orange arrow).



Figure 143: Securing mounting brackets to an RDX backup drive

Ê

Secure the backup drive mounting brackets to the RDX backup drive with two screws per bracket as shown.

Figure 144: Securing mounting brackets to a DAT72 backup drive

Ê

Secure the backup drive mounting brackets to the DAT72 backup drive with two screws per bracket as shown.



12.2.4 Installing the slimline optical disk drive in the slidein unit (if applicable)

Figure 145: Slide-in unit for slimline ODD

Figure 146: Mounting the slimline ODD in the slide-in unit

Ê

Insert the slimline ODD on the top.

Ê

Fasten it with one screw to the slide-in unit on the right side.

Ê

Fasten it with two M2 x 2.5 mm screws to the slide-in unit on the left side.

Ê

Install the slide-in unit as described in section "Installing an accessible drive" .


12.2.5 Installing an accessible drive


Figure 147: Opening the accessible drive locking bar

Ê

Press out on the locking latch to disengage the accessible drive locking bar

(1).

Ê

Fold up the accessible drive locking bar (2).

I

Unlocking and securing the front panel and accessible drives is illustrated by the example of tower servers. In case of rack servers, the accessible drive locking bar is located on the side of the drive bay. In this case, proceed as follows:

Figure 148: Opening the accessible drive locking bar (rack systems)

Ê

Pull up on the locking latch to disengage the accessible drive locking bar (1).

Ê

Fold out the accessible drive locking bar (2).



Figure 149: Inserting the accessible drive

Ê

Insert the accessible drive into its installation bay and carefully push in until the front screw hole on the front panel frame lines up with the centering pin on the locking bar (1).

V

CAUTION!

For installing a LTO drive: ensure that the power cables routed behind the accessible drive cage are not trapped when pushing the LTO drive in its bay.

Ê

Close the locking bar (2) until it locks in place (3).

Ê

Connect the cables according to your configuration see section "Cabling plans" on page 305

.

I

Notes on RDX drive USB cabling:

– A USB 2.0 RDX drive may be replaced by a USB 3.0 RDX drive with previous cabling.

– A USB 3.0 RDX drive may be connected with a USB 2.0 cable to the onboard USB 2.0 connector with limited performance.

– For full performance, connect the USB 3.0 RDX drive to a USB 3.0

PCI interface card by USB 3.0 cable.

– The USB 3.0 cable cannot be connected to a USB 2.0 RDX drive.




Ê

"Installing the rack front cover" on page 58

(rack server) or "Installing the front cover" on page 63 (tower server)

Ê


Ê


Ê


Ê

If applicable, "Verifying and configuring the backup software solution" on page 82

Ê


12.3 Removing accessible drives


(URU)


Tools: tool-less


Ê


Ê


Ê

"Removing backup and optical disk media" on page 72

Ê

"Verifying and configuring the backup software solution" on page 73

Ê


Ê


Ê


Ê



I

The front cover only needs to be removed in order to remove or install accessible drive dummy covers.



12.3.2 Removing an accessible drive

Ê

Disconnect all cables from the accessible drive.

Ê


(see figure 147 ).

Ê

Fold up the accessible drive locking bar.

Figure 150: Removing the accessible drive

Ê

Carefully pull the accessible drive out of its installation bay (1).

Ê




12.3.3 Installing accessible drive dummy covers

Installing accessible drive filler covers

Figure 151: Installing an accessible drive filler cover

Ê

Hold the accessible drive filler cover by its two handle recesses and insert it into the empty installation bays with the punched-out arrow symbol facing up

(see close-up).

V

CAUTION!

Always replace filler covers into unused drive bays to comply with applicable EMC regulations and satisfy cooling requirements.



Installing accessible drive covers

Figure 152: Installing accessible drive covers

I

Installing accessible drive covers is illustrated by the example of the tower server. In case of the rack front cover, the procedure is identical.

Ê

Ensure that an accessible drive filler cover has been installed in every empty drive bay.

Ê


Ê

Join the two lugs on one edge of the accessible drive cover with the right inner edge of the front cover (1).

Ê

Fold down the accessible drive cover until it snaps in place (2).


Ê


(rack server) or "Installing the front cover" on page 63

(tower server)

Ê


Ê


Ê




Ê

If applicable, "Verifying and configuring the backup software solution" on page 82

Ê


12.4 Replacing accessible drives


(URU)


Tools: Phillips PH2 / (+) No. 2 screw driver (for installing mounting brackets)


Ê


Ê


Ê

"Removing backup and optical disk media" on page 72

Ê


Ê


Ê


Ê


Ê



I

Removing the front cover is not required in order to replace an accessible drive.

12.4.2 Removing the defective accessible drive

Ê

Remove the accessible drive as described in section "Removing an accessible drive" on page 240 .

Ê

If applicable, remove existing mounting brackets from the defective backup drive.



Ê

If applicable, remove the defective slimline ODD from the slide-in unit.

12.4.3 Installing the new accessible drive

Ê

Install the accessible drive as described in section "Installing an accessible drive" on page 237 .


Ê



(tower server)

Ê


Ê


Ê


Ê

If applicable,


Ê



13 Front panel module

Safety notes

V

CAUTION!

● When inserting the front panel module into the server, ensure not to pinch or strain any connected cables.

●

●

●


(e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs)




Front panel module

13.1 Replacing the front panel module


(FRU)



Tools: tool-less

Note on system information backup / restore

I

The front panel module contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing data.

To avoid the loss of non-default settings when replacing the system board, a backup copy of important system configuration data is automatically stored from the system board NVRAM to the Chassis ID

EPROM. After replacing the system board the backup data is restored from the Chassis ID board to the new system board.

V

CAUTION!

For that reason the front panel module and system board must not be replaced simultaneously! In this case, restoring the system configuration data on the system board would fail.


Ê


Ê


Ê


Ê


Ê


Ê


Ê

"Removing the rack front cover" on page 52 (rack server) or

"Removing the front cover" on page 56

(tower server)

Ê




13.1.2 Removing the defective front panel module

Figure 153: Disconnecting cables from system board

Ê

Disconnect the front panel cable (1) and the front USB cable (2) from the system board.

Ê

Remove both cables from the cable clamp (see circle).



Figure 154: Removing the front panel module

Ê


(1).

Ê

Fold up the accessible drive locking bar (2).

Ê

Carefully pull the front panel module out of its bay (3).

V

CAUTION!

Ensure that none of the cables are strained or damaged!

Figure 155: Removing the cable clamp

Ê

If applicable, cut open the cable clamp (see circle) and remove it.



Figure 156: Removing the front panel cable

Ê

Remove the front panel cable from the front panel module.

13.1.3 Installing the new front panel module

Ê

Connect the front panel cable to the front panel module (see figure

156 ).

Figure 157: Installing the front panel module

Ê

Insert the front panel module into its installation bay and carefully push in until the front screw hole on the front panel frame lines up with the centering pin on the locking bar (1).

Ê




Ê

Connect the front panel cable and the front USB cable to the system board

(see figure 153 ).

Ê

Store both cables in the cable clamp (see figure

153 ).


Ê


Ê



(tower server)

Ê


Ê


Ê


Ê

"Verifying system information backup / restore" on page 79

Ê

Store your server’s system information on the Chassis ID EPROM integrated into the front panel board. For further information on how to obtain and use the ChassisId_Prom

Tool, refer to section "Using the Chassis ID

Prom Tool" on page 93

.

Ê


Ê



14 System board and components

Safety notes

V

CAUTION!

● Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options.

● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up


●

●




This section provides instructions for the system board and the following components:

● CMOS battery

CMOS memory (volatile BIOS memory) and the real-time clock are powered by a lithium coin cell (CMOS battery). This cell lasts up to ten years, depending on ambient temperature and use.

●

If the CMOS battery is depleted or falls below minimum voltage levels, it need to be replaced immediately.

UFM (USB Flash Module)

●

The server can be equipped with a USB Flash Module (UFM).

TPM (Trusted Platform Module)

The system board is optionally equipped with a Trusted Platform Module

(TPM). This module enables programs from third party manufacturers to store key information, for example drive encryption using Windows Bitlocker

Drive Encryption.


System board and components

14.2 Replacing the CMOS battery


(URU)


Tools: tool-less; recommended: tooth pick

Safety notes

V

CAUTION!

● The CMOS battery must be replaced with an identical battery or with a battery type recommended by the manufacturer.

●

●

●

●

Keep lithium batteries away from children.

Do not throw batteries into the trash can. Lithium batteries must be disposed of in accordance with local regulations concerning special waste.

For further safety information, please refer to section "Environmental protection" in the operating manual of your server.

Ensure to insert the CMOS battery the with the positive pole facing up!


Ê


Ê


Ê


Ê




14.2.2 Replacing the defective CMOS battery

Figure 158: Removing the CMOS battery

Ê

Press out on the locking spring to eject the depleted CMOS battery (1).

Ê

If the CMOS battery cannot be ejected this way, use a toothpick

(recommended) or similar tool as a lever: Insert the toothpick between the battery and locking spring as shown (2).

V

CAUTION!

Do not use sharp-edged tools like screw drivers as they may damage system board components when slipping.

Ê

Carefully pry the depleted CMOS battery out of its socket as shown (3).

Ê

Remove the CMOS battery (4).

I

Do not throw the CMOS battery into the trash can. Lithium batteries must be disposed of in accordance with local regulations concerning special waste.



Figure 159: Installing the CMOS battery

Ê

At a slight angle, fit the new CMOS battery into its socket as shown (1).

V

CAUTION!

Ensure to insert the CMOS battery with the positive pole (label side) facing up as shown (see close-up).

Ê

Fold down the CMOS battery (2) until it locks in place.

Ê

Ensure that the locking spring (3) is properly engaged.


Ê

Dispose of the CMOS battery in accordance with local regulations concerning special waste.

Ê


Ê


Ê


Ê

"Verifying the system time settings" on page 87

Ê




14.3 USB Flash Module (UFM)

14.3.1 Installing the UFM


(FRU)



Tools: tool-less

14.3.1.1 Preliminary steps

Ê


Ê


Ê


Ê


Ê


Ê


14.3.1.2 Installing the UFM

Figure 160: UFM kit

1 USB Flash Module (UFM)

3 UFM nylon screw

TX140 S2

2 UFM spacer

Upgrade and Maintenance Manual 255


Figure 161: UFM mounting location

Figure 162: Installing the UFM

Ê

Connect the UFM to the system board, snapping in the UFM spacer.

14.3.1.3 Concluding steps

Ê


Ê


Ê


Ê


Ê




14.3.1.4 Software configuration

The UFM delivery set includes the "Recovery Tool CD" to setup the ESXi configuration. Proceed as follows:

Ê


Ê

Right after switching on the server, insert the "Recovery Tool CD" into the


Ê

The server should now boot from the "Recovery Tool CD".

Ê

Follow the on-screen instructions.

14.3.2 Removing the UFM


(FRU)




Ê


Ê


Ê


Ê


Ê




14.3.2.2 Removing the UFM

Figure 163: Removing the UFM (A)

Ê

Remove the nylon screw (1).

Ê

Disconnect and remove the UFM (2).

Figure 164: Removing the UFM (B)

Ê

The UFM spacer remains on the system board.


Ê


Ê


Ê


Ê




14.3.3 Replacing the UFM


(FRU)



Tools: – Phillips PH1 / (+) No. 1 screw driver

– combination pliers and flat nose pliers


Ê


Ê


Ê


Ê


Ê


Ê


14.3.3.2 Removing the defective UFM

Ê

Remove the UFM from the system board as described in section "Removing the UFM" on page 257

.

Ê

The UFM spacer remains on the system board.



14.3.3.3 Installing the new UFM

Figure 165: Preparing the new UFM

Ê

Remove the nylon screw from the new UFM (1).

Ê

Remove the UFM spacer (2).

Figure 166: Installing the UFM

Ê

Fit the UFM on the UFM connector and the remaining UFM spacer (1).

Ê

Secure the UFM to the UFM spacer with the nylon screw (2).



Destroying the defective UFM

V

CAUTION!

The UFM contains customer information (e.g. IP address, license numbers). After replacing the UFM, hand the defective UFM over to the customer. If the customer requests disposal of the defective UFM, proceed as follows:

Figure 167: Destroying the defective UFM

Ê

Use a pair of combination pliers (1) and flat nose pliers (2) to break the UFM in half as shown.


Ê


Ê


Ê


Ê


Ê




14.3.3.5 Software configuration

The UFM delivery set includes the "Recovery Tool CD" to setup the ESXi configuration. Proceed as follows:

Ê


Ê

Right after switching on the server, insert the "Recovery Tool CD" into the


Ê

The server should now boot from the "Recovery Tool CD".

Ê

Follow the on-screen instructions.

14.4 Trusted Platform Module (TPM)

14.4.1 Installing the TPM


(FRU)




Installing the TPM:

– Bit screw driver

– TPM bit insert

(

*

)

(

*

)

For the Japanese market:

– TPM module fixing tool (S26361-F3552-L909)


Ê


Ê


Ê


Ê


Ê



14.4.1.2 Installing the TPM


Figure 168: TPM kit

1 TPM (Trusted Platform Module) 3 Special screw for TPM

2 TPM spacer

I

The black TPM spacer is not used in this server.

4 TPM bit insert for TPM special screw

Figure 169: TPM mounting location

Figure 170: Installing the TPM spacer

Ê

Snap the TPM spacer into the cut-out in the system board.



Figure 171: Installing the TPM

Ê

Connect the TPM to the system board.

Figure 172: TPM bit insert

Ê

Attach the TPM bit insert or TPM module fixing tool (Japanese market) to a bit screw driver.



Figure 173: Securing the TPM

Ê

Secure the TPM with the TPM screw using the TPM bit insert.

I

Do not fasten the screw too firmly. Stop as soon as the head of the screw lightly touches the TPM.


Ê


Ê


Ê


Ê

Enable TPM in the system board BIOS. Proceed as follows:

Ê

Switch on or restart your server.

Ê

As soon as the startup screen appears, press the

[F2]

function key to enter the BIOS.

Ê


Ê

Select the Trusted Computing submenu.

Ê

Set the TPM Support and TPM State settings to Enabled .

Ê

Under Pending TPM operation , select the desired TPM operation mode.

Ê


I

For more information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utility reference manual.

Ê




14.4.2 Removing the TPM


(FRU)


Tools: Removing the system board:

– Phillips PH2 / (+) No. 2 screw driver

Removing the TPM:


– flat nose pliers

– TPM bit insert ( * )

(

*

)



V

CAUTION!

Advise your contact persons that they must provide you with TPM backup copies. For security reasons, the TPM must be restored/resaved by the customer. After installing a new system board, the TPM must be enabled. You may not clear the TPM data.

If the contact persons DO NOT have a backup copy available, inform them that replacing the TPM will cause to lose all data.


Ê

Before removing the TPM, it is necessary to remove BitLocker-protection from the computer and to decrypt the volume.

Ask the system administrator to turn off BitLocker-protection using the

BitLocker setup wizard available either from the Control Panel or Windows

Explorer:

Ê

Open Bitlocker Drive Encryption by clicking the Start button, clicking

Control Panel , clicking Security , and then clicking Bitlocker Drive

Encryption .



I

Administrator permission required If you are prompted for an administrator password or confirmation, type the password or provide confirmation.

Ê

To turn off BitLocker and decrypt the volume, click Turn Off BitLocker , and then click Decrypt the volume .

I

Decrypting the volume may be time-consuming. By decrypting the volume, all of the information stored on that computer is decrypted.

For further information on how to disable BitLocker drive encryption, please refer to the Microsoft Knowledge Base.


Ê

Disable TPM in the system board BIOS. Proceed as follows:

Ê

Switch on or restart your server.

Ê

As soon as the startup screen appears, press the

[F2]

function key to enter the BIOS.

Ê


Ê

Select the Trusted Computing submenu.

Ê

Set the TPM Support and TPM State settings to Disabled .

Ê


I

For more information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utility reference manual.

Ê


Ê


Ê


Ê


14.4.2.2 Removing the TPM

Ê

Remove the system board as described in section "Removing the defective system board" on page 278

.

Ê

Lay the system board on a soft, antistatic surface with its component side facing down.



Figure 174: Removing the TPM screw

Ê

Locate the slotted lower end of the TPM screw (1).

Ê

Carefully loosen the TPM screw using a thin slotted screw driver (e.g. watchmaker's screw driver) or the dedicated TPM screw driver (Japanese market) (2).

V

CAUTION!

Ensure to turn the screw clockwise in order to remove it!

Slowly and carefully increase the pressure on the screw until it begins to turn. The effort when loosing the screw should be as low as possible.

Otherwise the thin metal bar may break, rendering it impossible to loosen the screw.

Ê

Remove the TPM screw (3).

Ê

Remove the TPM on the upper side of the system board.



Figure 175: Removing the TPM spacer

Ê

Using a flat nose pliers, press together the hooks on the TPM spacer (1, see close-up) and remove it from the system board (2).

I

If the TPM is to be replaced, the TPM spacer may remain on the system board.


Ê


Ê


Ê




14.4.3 Replacing the TPM


(FRU)


Tools: Removing the system board:


Replacing the TPM:



– TPM bit insert ( * )

– thin slotted screw driver (2 x 0.4 mm)

(

*

)

(

*

)


– Dedicated TPM screw driver (CWZ8291A)


V

CAUTION!

Advise your contact persons that they must provide you with TPM backup copies. For security reasons, the TPM must be restored/resaved by the customer. After installing a new system board, the TPM must be enabled. You may not clear the TPM data.



Ê


Ê


Ê


Ê


Ê


Ê




14.4.3.2 Removing the defective TPM

Ê

Remove the TPM as described in section "Removing the TPM" on page 266 .

Ê

Leave the TPM spacer on the system board when removing the defective

TPM.

14.4.3.3 Installing the new TPM

Ê

The TPM spacer is already present on the system board.

Ê

Install the TPM as described in section

"Installing the TPM" on page 262 .


Ê


Ê


Ê


Ê


Ê




14.5 iRMC microSD card

I

The iRMC microSD card is necessary for using the Embedded Lifecycle

Management (eLCM) functionality of the iRMC. It requires a valid eLCM license key, which is always purchased together with the iRMC microSD card and activated through the iRMC web frontend.

For further information, please refer to the “ServerView embedded

Lifecycle Management (eLCM)” user guide.

14.5.1 Installing the iRMC microSD card


(URU)

Average task duration:

5 minutes

Tools: tool-less


Ê


Ê


Ê


Ê


14.5.1.2 Installing the iRMC microSD card

Figure 176: iRMC microSD card



Figure 177: Installing the iRMC microSD card

Ê

With the label facing up, insert the iRMC microSD card into the microSD card slot (1) until it locks in place (2).

I

The onboard position of the microSD card slot can be found in section

"Connectors and indicators on the system board" on page 324

.


Ê


Ê


Ê


Ê


14.5.2 Removing the iRMC microSD card


(URU)


5 minutes

Tools: Side-cutting pliers


Ê


Ê




Ê


Ê


Ê


14.5.2.2 Removing the iRMC microSD card

Figure 178: Removing the iRMC microSD card

Ê

To eject the iRMC microSD card, gently push it in and then let go (1).

Ê

Pull the iRMC microSD card straight out of its slot (2).

Destroying the defective iRMC microSD card

V

CAUTION!

The iRMC microSD card contains customer information. After replacing the iRMC microSD card, hand the defective card over to the customer. If the customer requests disposal of the defective iRMC microSD card, proceed as follows:

Ê

Using a pair of side-cutting pliers, cut the iRMC microSD card in half.


Ê


Ê


Ê


Ê




14.5.3 Replacing the iRMC microSD card


(URU)


5 minutes

Tools: Side-cutting pliers


Ê


Ê


Ê


Ê


Ê


14.5.3.2 Replacing the iRMC microSD card

Ê

Remove the defective iRMC microSD card as described in section

"Removing the iRMC microSD card" on page 273

.

Ê

Install the new iRMC microSD card as described in section

"Installing the iRMC microSD card" on page 272

.


Ê


Ê


Ê


Ê




14.6 Replacing the system board


(FRU)



Tools: Replacing the system board:


– Magnifying glass for inspecting processor socket springs

(recommended)

Replacing the TPM:



– TPM bit insert

(

*

)

– thin slotted screw driver (2 x 0.4 mm)

(

*

)

( * ) For the Japanese market:

– Dedicated TPM screw driver (CWZ8291A)


If a UFM is installed:


Note on TPM

I

The system board can be equipped with an optional TPM (Trusted

Platform Module). This module enables third party programs to store key information (e. g. drive encryption using Windows Bitlocker Drive

Encryption).

If the customer is using TPM functionality, the TPM has to be removed from the defective system board and connected to the new system

board. For a detailed description, please refer to section "Replacing the

TPM" on page 270

.

The TPM is activated in the system BIOS.

V

CAUTION!

– Before replacing the system board, ask the customer whether TPM functionality is used.



– If the customer is using TPM functionality, remove the TPM from the old system board and install it on the new system board.

Advise your contact persons that they must provide you with TPM backup copies. For security reasons, the TPM must be restored / resaved by the customer. After installing a new system board the TPM must be enabled. You may not clear the TPM data.


Note on system information backup / restore

I

The front panel module contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing data.

To avoid the loss of non-default settings when replacing the system board, a backup copy of important system configuration data is automatically stored from the system board NVRAM to the Chassis ID

EPROM. After replacing the system board the backup data is restored from the Chassis ID board to the new system board.

V

CAUTION!

– For that reason the front panel module and system board must not be replaced simultaneously! In this case, restoring the system configuration data on the system board would fail.

– The system information won't be restored automatically after replacing the faulty system board with old BIOS versions. If possible, please note down all current BIOS settings before replacing.

For details, please refer to section "Preliminary steps" on page 278

.

Note on network settings recovery

I

When replacing network controllers or the system board, network configuration settings in the operating system will be lost and replaced by default values. This applies to all static IP address and LAN teaming configurations.

Ensure to note down your current network settings before replacing a network controller or the system board.




Ê


Ê


Ê


Ê


Ê


Ê

Disconnect all external cables.

Ê


Ê


14.6.2 Removing the defective system board

Ê

Remove all cables from the system board.

Ê

Remove the following components from the system board:

– Heat sink: see section "Removing the processor heat sink" on page 219

I

Leave the processor on the defective board for now.

– Memory modules: refer to section

"Removing memory modules" on page 211

I

Ensure to take note of the memory modules’ mounting positions for reassembly.

– Expansion cards: refer to the section "Removing expansion cards" on page 180

I

Ensure to take note of the controllers’ mounting positions and cable connections for reassembly.

– UFM: refer to section "Removing the UFM" on page 257

I

Remove the UFM spacer from the defective system board and fasten it to the UFM with the UFM screw.

– iRMC microSD card: refer to section "Removing the iRMC microSD card" on page 273



Figure 179: Screws system board

Ê

Remove eight screws from the system board (see circles).

Figure 180: Detaching the system board

Ê

Slightly lift up the system board by the memory module ejectors and a PCI slot (1) in order to detach it from the centering bolts (C).



Ê

Carefully shift the system board towards the server front until the plug shells disengage from the cut-outs in the connector panel (2).

Figure 181: Removing the system board

Ê

Hold the defective system board by the memory module ejectors and a PCI slot and at a slight angle lift it out of the chassis.

Ê

If applicable, remove the TPM as described in

section "Removing the TPM" on page 267

.

Figure 182: Removing the power cable clamp



Ê

Using a flat nose pliers, press together the hooks on the power cable clamp

(1) and remove it from the defective system board (2).

14.6.3 Installing the new system board

Figure 183: Installing the system board (A)

Ê

Hold the system board by the memory module ejectors and a PCI slot.

V

CAUTION!

– Do not lift or handle the system board by any of its heat sinks!

– Ensure not to damage the EMI springs to comply with applicable

EMC regulations and satisfy cooling requirements and fire protection measures.

Ê

At a slight angle, lower the system board into the chassis.



Figure 184: Installing the system board (B)

Ê

Carefully shift the system board towards the server rear until the plug shells engage with the cut-outs in the connector panel.

Ê

Lower the system board onto the centering bolts (C).

Ensure that the system board is properly seated on both centering bolts.

Ê

Secure the system board with eight screws (see circles in figure 179 on page 279

).

I

Screw torque: 0.6 Nm (not applicable for the Japanese market)

Tighten the screws in a cross diagonal pattern.

Figure 185: Installing the power cable clamp

Ê

Press down on the power cable clamp until it snaps into place.



Ê

Verify the settings on the new system board (see section

"Onboard settings" on page 333 ).

14.6.4 Swapping the processor

Figure 186: Unlatching the socket lever (new system board)

Ê

Unlatch the socket lever on the new system board by pushing it down and away from the socket (1).

Ê

Fold back the socket lever to disengage the load plate (2).

Ê

Rotate the socket lever to lift the load plate.

Ê

Make sure that the load plate is in the fully open position.



Figure 187: Removing the protective socket cover (new system board)

Ê

Place your thumb against the front edge of the protective socket cover and rest your index finger on the rear grip.

V

CAUTION!

Be careful not to touch or bend the pins on the processor socket!

I

Save the socket cover for future use. Always replace the socket cover if you remove the processor from the socket.

Ê

Use a magnifying glass (recommended) to inspect the socket spring contacts for damages from different angles. Do not use the spare system board if any irregularities are visible. Possible damages:

– Contact spring is bent backwards upon itself

– Contact spring tip position is shifted or out of alignment

V

CAUTION!

Never not try to fix bent contact springs. Doing so may result in loss of electrical performance and reliability.



Ê

Carefully remove the processor from its socket on the defective system board as described in

section "Removing the processor" on page 220

.

Ê

Install the processor on the new system board as described in section

"Installing the processor" on page 221 .

Figure 188: Installing the protective socket cover (defective system board) (A)

I

Since the defective system board is sent back for repair, protect the delicate processor socket springs with a socket cover.

Ê

Place your thumb against the front edge of the protective socket cover and rest your index finger on the rear grip.

Make sure that the notches on the protective socket cover align with the posts on the socket (see orange arrows).

Ê

Lower the protective socket cover straight down onto the socket until it snaps in place.



Figure 189: Installing the protective socket cover (defective system board) (B)

Ê

Lower the load plate over the processor while leaving the socket lever in the open position.

Ê

Lower the socket lever while making sure that the front edge of the load plate slides under the shoulder screw cap (see close-up) as the lever is lowered.

Figure 190: Installing the protective socket cover (defective system board) (C)

Ê

Latch the socket lever under the load plate tab.




Ê

Reconnect all cables to the system board. For a complete cabling overview, please refer to section

"Cabling plans" on page 305 .

Ê

Reinstall all remaining system board components as shown in the related sections:

– Heat sinks: refer to section "Installing the processor heat sink" on page 225

– Memory modules: refer to section "Installing a memory module" on page 213

I

Install all memory modules into their original slots.

– Expansion cards: refer to section


I

Install all expansion cards into their original slots.

– iRMC microSD card (if applicable): refer to section "Installing the iRMC microSD card" on page 272

– UFM (if applicable): refer to section "Installing the UFM" on page 255

– TPM (if applicable): refer to section

"Installing the TPM" on page 262

Ê


Ê

If applicable, activate TPM functionality in the system BIOS under Security >

TPM (Security Chip) Setting > Security Chip . For more information, refer to the corresponding BIOS Setup Utility reference manual.

Ê


Ê

Reconnect all external cables.

Ê


Ê


Ê


Ê




Ê

If customer BIOS settings are not restored automatically, please change the settings manually (using the information collected during "preliminary steps"). If you couldn't determine the BIOS version, ask the customer to reconfigure all BIOS settings and the password.

V

CAUTION!

The system event log entry

Chassis IDPROM: Restore successful

(see section "Verifying system information backup / restore" on page 79 ) is not valid if you updated the system

board BIOS from version 1.15.0 or below to version 1.18.0 or above.

Ê

"Verifying the system time settings" on page 87

Ê

"Looking up changed MAC / WWN addresses" on page 92

Ê

"Updating the NIC configuration file in a Linux environment" on page 89

Ê


Ê


Ê

If applicable, reconfigure your network settings in the operation system according to the original configuration of the replaced controller (expansion card or onboard).

Ê

If applicable,

"After replacing the system board" on page 95






15 Converting a tower model to a rack model


(FRU)


Tools: – Phillips PH2 / (+) No. 2 screw driver

– Slotted screw driver

Safety notes

V

CAUTION!

●


15.1 Preliminary steps

Ê


Ê


Ê


Ê

Remove all external cables.

Ê

"Removing the side cover" on page 53

Ê


I

The front cover is no longer required.


Converting a tower model to a rack model

15.2 Converting a tower model to a rack model

Removing the right side cover

Figure 191: Removing the right side cover (A)

Ê

Remove two screws on the server rear (see circles).



Figure 192: Removing the right side cover (B)

Ê

Slide the right side cover towards the server rear as far as it will go (1).

Ê

Remove the three hooks on the right side cover from the slots on the upper chassis edge:

Ê

Using a slotted screw driver, slightly pry up on the middle hook until it disengages (2).

Ê

Pull up on both ends of the right side cover to remove the left and right hooks from the slots on the upper chassis edge.

Ê

Ensure that all cables and components are properly secured inside the server and that there are no loose pieces.

Ê

Carefully turn the server upside down.

I

At least two people are needed to turn over a fully equipped server.

Remove hard disk drives and power supply modules in order to facilitate the task.

Ê

Lift off and remove the right side cover.

I

The right side cover is no longer required.

Ê

Leave the server in its upside down position.



Removing rubber feet

Figure 193: Removing rubber feet

Ê

Using a slotted screw driver, slightly pry up on each rubber foot until it detaches.

Ê

Bring the server back to its horizontal position.

I


Remove hard disk drives and power supply units in order to facilitate the task.



Removing the accessible drive cage

Ê

Remove the front panel module as described in section

"Removing the defective front panel module" on page 247

.

Ê

If applicable, remove all accessible drives as described in section

"Removing an accessible drive" on page 240 .

Figure 194: Detaching the accessible drive cage (A)

Ê

Remove two screws from the bottom side of the server as shown.

Ê

Bring the server back to its horizontal position.

I


Remove hard disk drives and power supply units in order to facilitate the task.



Figure 195: Detaching the accessible drive cage (B)

Ê

Remove two screws from the right chassis edge (1).

Ê

Remove two screws from the top edge of the chassis (2).



Figure 196: Removing the accessible drive cage

Ê

Slightly lift up the accessible drive cage to disengage its front bottom edge from the slot on the chassis floor (1).

Ê

Slide the accessible drive cover from under the chassis frame as shown (2).

Ê

Lift the accessible drive cage out of the chassis (3).



Converting the accessible drive cage

Figure 197: Converting the accessible drive cage

Ê

Turn the accessible drive cover with its "RACK" stamping facing up (1, see close-up).

Ê

Remove the threaded bolt from the upper edge of the accessible drive cage

(2).

Ê

Reinstall the threaded bolt on the side of the accessible drive cage as shown

(3, see close-up).



Reinstalling the accessible drive cage

Figure 198: Mounting the accessible drive cage

Ê

With its "RACK" stamping facing up , lower the accessible drive cage into the chassis (1).

Ê

Slide the accessible drive cage towards the server front as far as it will go

(2).

Ê

Ensure that the front bottom edge on the accessible drive cover properly engages in the slot in the chassis floor (3).



Figure 199: Securing the accessible drive cage (A)

Ê

Secure the accessible drive cage with two screws (1).

Ê

Secure the accessible drive cage with two screws (2).

Ê

Ensure that all cables and components are properly secured inside the server and that there are no loose pieces.



Figure 200: Securing the accessible drive cage (B)

Ê

Carefully turn the server upside down.

I


Remove hard disk drives and power supply modules in order to facilitate the task.

Ê

Secure the accessible drive cage with two screws.

I

Note the correct screw positions: The screw hole on the right that has been used in the tower configuration remains empty.

Reinstalling accessible drives

Ê

Reinstall the front panel (rotated by 90 degrees) as described in section

"Installing the new front panel module" on page 249

.

Ê

Reinstall all accessible drives into their original bays (rotated by 90

degrees). Reconnect the cables (see section "Cabling plans" on page 305 ).

Ê

Reinstall all accessible drive filler covers and front covers as described in section

"Installing accessible drive dummy covers" on page 241

.

Preparing the intrusion switch

Ê

Remove the intrusion switch module as described in section

"Removing the defective intrusion switch cable" on page 312 .

I

It is not necessary to disconnect the intrusion switch cable from the system board.



Ê

Attach a rubber bumper to the front intrusion switch and reinstall the

intrusion switch module as described in section "Installing the new intrusion switch cable" on page 315 .

Assembling the rack front cover

Figure 201: Rack mounting brackets with quick release levers

I

The rack front cover consists of a plastic frame and two rack mounting brackets with quick release levers.

Figure 202: Installing rack mounting brackets

Ê

Fit the rack mounting bracket on the two hooks on the rack front bezel (1).



Ê

Firmly press down on the rack mounting bracket until it is fully seated in the rack front bezel (2).

Ê

Mount the second rack mounting bracket accordingly.

Figure 203: Installing accessible drive dummy covers

Ê

If available, reinstall all accessible drive dummy covers into their original locations (rotated by 90 degrees):

Ê

Ensure that an accessible drive filler cover has been installed in every empty drive bay.

Ê


Ê

Join the two lugs on one edge of the accessible drive cover with the right inner edge of the front cover (1).

Ê

Fold down the accessible drive cover until it snaps in place (2).

I

Use the dummy covers that have been removed from the front cover during the preliminary steps.

Ê

Install the rack front cover as described in section "Installing the rack front cover" on page 58

.



15.3 Concluding steps

Ê

"Installing the top cover" on page 59

Ê

Mount the support bracket and rack mounting rails in the rack as described in the "Rack Mounting Kit - RMK-F2 Drop-In" Mounting Instructions.

I

The document is available online at http://manuals.ts.fujitsu.com

(EMEA market) or http://jp.fujitsu.com/platform/server/primergy/manual/

(Japanese market).

Ê

"Mounting the server in the rack" on page 60

Ê

Reconnect all external cables.

Ê


Ê


Ê

Update your server’s chassis information on the Chassis ID EPROM integrated into the front panel board. For further information on how to obtain and use the ChassisId_Prom

Tool, refer to section "Using the Chassis ID

Prom Tool" on page 93

.

Ê

"Specifying the chassis model" on page 96

Ê



16 Cabling

Safety notes

V

CAUTION!

● Always hold cables by their connectors when disconnecting them.

Never pull on the cable to disconnect cables.

● Ensure that none of the cables are scraped, strained or otherwise damaged while replacing system components.

●

●

Immediately replace cables with damaged shielding.

Always use shielded network cables.


Cabling

16.1 List of used cables

I

The numbers in the cable list correspond to those shown in the cabling plans.

No. Name

1 Front panel cable

Cable number

T26139-Y4015-V301

Routing from front panel module to system board

2 Front USB cable T26130-Y3999-V301 from front panel module to system board

3 Intrusion switch cable T26139-Y3922-V121 from server front to system board

4

HDD / ODD power cable

T26139-Y4012-V502

HDD backplanes and accessible drives to system board

5

6

7

ODD SATA cable

SAS / SATA cable

System power cable

T26139-Y3928-V205 from optical disk drive to system board

T26139-Y3963-V103 from SAS / SATA backplane to system board or SAS controller

T26139-Y3952-V611 from power distribution board to system board

8

Power supply unit signal cable

T26139-Y3956-V2 from power distribution board to system board

9

10

11

12

If BBU installed:

BBU cable

If FBU installed:

FBU adapter cable

PCI riser card power cable

SAS backup drive power / data cable

T26139-Y3987-V2

T26139-Y4032-V3

T26139-Y3969-V401 from BBU to RAID controller from FBU to RAID controller

T26139-Y4029-V202 from PCI riser card to HDD backplane

13

14

USB 2.0 cable

USB 3.0 cable

T26139-Y3973-V2

T26139-Y4039-V80 from SAS backup drive to HDD backplane from USB backup drive to system board from USB backup drive to USB 3.0 interface card

Table 8: List of used cables


Cabling

16.2 Cabling plans

Standard PSU Front Panel

USB 3.0 Connectors

P4

P5

Drive Bay 1

SATA ODD

Slimline SATA ODD

P2/3

Drive Bay 2

USB Backup Drive

System Board D3239

PWR1

PC2009

P30

SATA POWER

FRONTPANEL

USB FRONT

SATA 5

MLC SATA 1-4

INTR

P1 4

Figure 204: Power cabling with standard power supply

P2/3

Drive Bay 3

LTO 3 Backup Drive

Intrusion Switch

P9

P9/6

HDD Backplane(s)

X7 (1x 3.5” HDD BP)

X6 (2x 2.5” HDD BP)


Cabling

Redundant PSU

P20

P21

P12

P22

Front Panel


8

P4

P5

Drive Bay 1

SATA ODD

Slimline SATA ODD

7

P2/3

Drive Bay 2

USB Backup Drive


PWR1

PC2009

P30

SATA POWER

FRONTPANEL

USB FRONT

SATA 5

MLC SATA 1-4

INTR

P1 4

Figure 205: Power cabling with redundant power supply

P2/3

Drive Bay 3

LTO 3 Backup Drive


P9

P9/6


X7 (1x 3.5” HDD BP)

X6 (2x 2.5” HDD BP)


PSU


FRONTPANEL

USB FRONT

USB1 AUX

USB1 DAT

SATA 5

SATA 6

MLC SATA 1-4

INTR

Figure 206: Basic cabling

1

2

5

3

Cabling

Front Panel


Drive Bay 1

SATA ODD

Drive Bay 2

USB Backup Drive

Drive Bay 3

LTO 3 Backup Drive



X7 (1x 3.5” HDD BP)

X6 (2x 2.5” HDD BP)


Cabling

PSU Front Panel

Drive Bay 1

SATA ODD


USB1 DAT

USB1 AUX

SAS Controller

Slot 3 / 2

MLC 2

MLC 1

SAS Controller

Slot 4

(Boot)

MLC 2

MLC 1

BBU / FBU

13

Drive Bay 2

USB Backup Drive

P1

Drive Bay 3

LT0 5/6 Backup Drive

12

P2

6

9 / 10

6

BBU / FBU

P3

HDD Backplanes

X10 3.5” HDD BP

X14 2.5“ HDD BP 2

X1 2.5” HDD BP 2

X1 3.5” / 2.5“ BP

Figure 207: SAS cabling with LTO 5/6 backup drive


Cabling

PSU Front Panel


USB1 DAT

SATA POWER P1

4

13

SAS Controller

Slot 3 / 2

MLC 2

MLC 1

SAS Controller

Slot 4

(Boot) MLC 2

MLC 1

BBU / FBU

P2

6

9 / 10

12

6

Drive Bay 1

SATA ODD

Drive Bay 2

USB Backup Drive

P2/3

P1

Drive Bay 3

LT0 3 Backup Drive

HDD Backplanes

BBU / FBU

X1

X1

2.5” HDD BP 2

3.5” / 2.5“ BP

Figure 208: SAS cabling with LTO 3/4 backup drive


Cabling


USB1 DAT

USB1 AUX

SAS Controller

Slot 3 / 2

MLC 2

MLC 1

MLC SATA 1-4

13

12

Drive Bay 2

USB Backup Drive

Drive Bay 3

SAS Backup Drive

6

HDD Backplanes

X1 3.5” HDD BP

X1 1x 2.5” HDD BP

Figure 209: SATA cabling with up to 4 HDDs


USB1 DAT

USB1 AUX

SAS Controller

Slot 3 / 2

MLC 2

MLC 1

13

12

Drive Bay 2

USB Backup Drive

Drive Bay 3

SAS Backup Drive

SAS Controller

Slot 4

(Boot) MLC 2

MLC 1 6

6

HDD Backplanes

X1 2.5” HDD BP 2

X1 2.5” HDD BP 1

BBU / FBU 9 / 10 BBU / FBU

Figure 210: SATA cabling with 5 to 8 2.5-inch HDDs



USB1 DAT

USB1 AUX

MLC SATA 1-4

USB 3.0 Ctrl.

D3305 in Slot 1

Type A Con.

Figure 211: USB 3.0 cabling


Cabling

14

Drive Bay 1

SATA ODD

Drive Bay 2

USB 3.0 Backup Drive

Drive Bay 3

SAS Backup Drive

PCI Slot 1

32-bit PCI Riser Card

Figure 212: Riser card cabling

11

Drive Bay 2

USB Backup Drive

Drive Bay 3

SAS Backup Drive

HDD Backplanes

X9 3.5” HDD BP

X17 2.5” HDD BP 1


Cabling

16.3 Replacing the intrusion switch cable


(FRU)




Ê


Ê


Ê


Ê


Ê

"Removing the rack front cover" on page 52 (rack server) or


(tower server)

16.3.2 Removing the defective intrusion switch cable

Figure 213: Disconnecting the intrusion switch cable


Cabling

Ê

Disconnect the intrusion switch cable from the system board (see circle).

Ê

Remove the intrusion switch cable from the cable clamps (see arrows) on the HDD cage.

Figure 214: Removing the intrusion switch holder (A)

Ê

Remove one screw from the intrusion switch holder as shown.

I

Replacing the intrusion switch cable is illustrated by the example of the 2.5-inch HDD model. In case of the 3.5-inch HDD model, the procedure is identical, although the HDD bay top cover looks slightly different.

TX140 S2

Figure 215: Intrusion switch holder in 3.5-inch HDD configurations

Upgrade and Maintenance Manual 313

Cabling

Figure 216: Removing the intrusion switch cable (B)

Ê

Slide back the intrusion switch holder until it disengages from the HDD bay top cover (1).

Ê

Remove the intrusion switch holder (2).


16.3.3 Installing the new intrusion switch cable

Cabling

Figure 217: Attaching a rubber bumper to the front intrusion switch

I

In case of rack server configurations, a rubber bumper needs to be attached to the front intrusion switch as described below. When working on a tower server, please skip this step.

Ê

Attach a rubber bumper (C26192-Y26-C43) to the front intrusion switch as shown.


Cabling

Figure 218: Installing the intrusion switch cable (A)

Ê

Place the new intrusion switch holder on the HDD bay top cover as shown

(1).

Ê

Slide the intrusion switch holder under the front chassis rim as far as it will go (2).

Figure 219: Installing the intrusion switch cable (B)

Ê

Secure the intrusion switch holder on the HDD bay top cover with one screw.


Cabling

Figure 220: Connecting the intrusion switch cable

Ê

Run the intrusion switch cable through the cable clamps (see arrows).

Ê

Connect the intrusion switch cable to the system board connector "Intrusion"

(see circle).


Ê


(rack server) or "Installing the front cover" on page 63 (tower server)

Ê


Ê


Ê



Cabling


17 Appendix

17.1 Mechanical overview

17.1.1 Server front

2.5-inch HDD / SSD model

Figure 221: Server front - 2.5-inch HDD / SSD model

1

2.5-inch HDD/SSD / dummy module

2 5.25-inch dummy module

3 5.25-inch dummy module

4 ID card

5 ODD

6

Front panel module including front

USB 3.0 connectors


Appendix

3.5-inch HDD model

Figure 222: Server front - 3.5-inch HDD model

1 3.5-inch HDD / dummy module 4 ID card

2 5.25-inch dummy module 5 ODD

3 5.25-inch dummy module 6

Front panel module including front

USB 3.0 connectors


Appendix

17.1.2 Server rear

Figure 223: Server rear (example: standard power supply)

Figure 224: Server rear (example: redundant power supply)

1 Power supply unit

2 System fan

3

4

I/O panel

Optional expansion cards


Appendix

17.1.3 Server interior

Figure 225: Interior (example: 2.5-inch HDD model, standard power supply)

1 System fan

2 Expansion card slots

3 Processor / heat sink

4 TPM

5 CMOS battery

6 UFM

7 BBU/FBU

8

9

10

11

12

13

14

SAS / SATA backplane

HDD / SSD drive bay

Front panel module bay

Accessible drive bay

System board D3239

Memory modules

Standard power supply unit


Appendix

Figure 226: Interior (example: 3.5-inch HDD model, redundant power supply)

1 System fan

2 Expansion card slots

3 Processor / heat sink

4 TPM

5 CMOS battery

6 UFM

7 SAS / SATA backplane

8

9

10

11

12

13

14

HDD drive bay

Front panel module bay

Accessible drive bay

System board D3239

Power distribution board

Memory modules

Power supply units


Appendix

17.2 Connectors and indicators

17.2.1 Connectors and indicators on the system board

17.2.1.1 Onboard connectors

COM1

DIMM1B

DIMM2B

DIMM1A

DIMM2A

P30

VGA

Management

LAN/

USB 9/10

Shared LAN/

USB 7/8

Service

LAN

Intel i210

Standard LAN/

USB 5/6 Intel i217

Slot 4 PCIe x8

CPU

SATA

POWER

FAN1

SYS iRMC S4

Slot 3 PCIe x8

Micro

SD

Slot 2 PCIe x4

Slot 1 PCIe x1

HDD ACTIVITY

Jumper

TPM

MLC

SATA1-4

Intel

C224

Battery

Indicate

CSS

USB1AUX

USB1

DAT

Intrusion

SATA6 SATA5

UFM

Figure 227: Internal connectors of system board D3239


Appendix

No. Print

1 PWR1

2 SATA POWER

3 PC2009

4 FRONTPANEL

5 P30

6 USB FRONT

7 FAN1 SYS

8 SATA MLC1

9 USB1 AUX

10 USB1 DAT

11 INTR

12 UFM

13 SATA 5

14 SATA 6

15 TPM

16 HDD ACTIVITY

17 Micro SD

Description

ATX power supply connector

Power distribution for SAS / SATA backplanes and accessible drives

Power management connector

Front panel

Power supply connector

Connector for front USB

Connector for system fan

SATA MLC connector for 3.5-inch HDD configurations

(not used)

USB 2.0 connector for accessible backup drive

Intrusion switch cable connector

Connector for USB Flash Module (UFM)

SATA 5 connector

SATA 6 connector

Connector for Trusted Platform Module (TPM)

(not used) mircoSD card


Appendix

17.2.1.2 Onboard indicators and controls

COM1

DIMM1B

DIMM2B

DIMM1A

DIMM2A P30

VGA

Management

LAN/

USB 9/10

Shared LAN/

USB 7/8

Service

LAN

Intel i210

Standard LAN/

USB 5/6 Intel i217

CPU

SATA

POWER

FAN1

SYS

H

Slot 4 PCIe x8 Micro

SD iRMC S4

Slot 3 PCIe x8

G

Slot 2 PCIe x4

Slot 1 PCIe x1

HDD ACTIVITY

Jumper

TPM

MLC

SATA1-4

Intel

C224

Battery

Indicate

CSS

USB1AUX

USB1

DAT

Intrusion

SATA6 SATA5

UFM

Figure 228: Onboard indicators and Indicate CSS button

1 Indicate CSS button

Component LEDs

I

LEDs A, B and C are visible from the outside on the server rear. All other

LEDs are only visible if the server cover has been opened. In order to access memory LEDs (D), the system fan module needs to be removed

(see section


).


Appendix

Indicator Status Description

A

GEL

(Global Error

LED) off no critical event (non CSS component) orange on prefailure detected (non CSS component) non CSS component failure

Possible reasons: orange flashing off

– sensors report overheating

– sensor is defective

– CPU error

– software reports an error no critical event (CSS component)

B

C

CSS

(Customer

Self Service)

Identification yellow on prefailure detected (CSS component) yellow flashing

CSS component failure blue on server has been highlighted using

ServerView Operations Manager or the ID button on the front panel for easy identification

D

E

Memory

System fans off memory module operational orange on memory module failure off fan running orange on fan failure

F PCI card off PCI card operational orange on PCI card failure

G AUX power yellow on AUX voltages are within range

H iRMC green flashing iRMC S4 management controller is operational


Appendix

17.2.1.3 I/O panel connectors

햲 햳 햴

Figure 229: I/O panel connectors

햸 햷 햶 햵

1 Management LAN connector, for iRMC S4 server management function

2 Shared LAN connector (LAN1)

3 Standard LAN connector (LAN2)

4 USB 3.0 connectors

5 USB 2.0 connectors

6 Video connector (VGA)

7 Serial connector COM1

Depending on BIOS settings, the shared LAN connector may also be used as a management LAN connector. For further information, please refer to the corresponding BIOS Setup Utility reference manual.

The serial connector COM1 can be used as default interface or to communicate with the iRMC S4.


Appendix

17.2.1.4 I/O panel indicators

햴

Figure 230: I/O panel indicators

햲 햳 햲 햳 햲 햳

Indicator Status

1

LAN link/transfer green on off

Description

LAN connection established no LAN connection green flashing data transfer in progress

2 LAN speed yellow on green on off off traffic a transfer rate of 1 Gbit/s traffic a transfer rate of 100 Mbit/s traffic a transfer rate of 10 Mbit/s no critical event (non CSS component) prefailure detected (non CSS component) Global error indicator

3 CSS indicator orange on orange flashing off non CSS component failure

ID indicator blue on no critical event (CSS component) yellow on prefailure detected (CSS component) yellow flashing CSS component failure server has been highlighted using

ServerView Operations Manager, iRMC web frontend, or the ID button on the front panel for easy identification


Appendix

17.2.1.5 PSU indicator (only hot-plug PSUs)

Figure 231: PSU indicator

Indicator Status

1

PSU operating status green on

Description

Server is switched on and functioning properly green flashing orange on

Server is switched off, main voltage is present (Standby mode)

PSU failure (over / under voltage, over temperature or fan failure) orange flashing Overload warning

17.2.2 Connectors and indicators on the front panel

17.2.2.1 Front panel connectors

①

Figure 232: Front panel connectors

1 Front USB connectors (USB 3.0)


Appendix

17.2.2.2 Front panel controls and indicators

① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ ⑪

Figure 233: Front panel controls and indicators

Local diagnostic indicators

Pos. Indicator

1

HDD error indicator

2

3

4

5

6

PSU error indicator

Status orange on orange on

Description

HDD / SSD, SAS / SATA backplane or

RAID controller failure detected

Hot-plug power supply unit failure detected

I

Only available in redundant PSU configurations.

Operating temperature levels above permitted limits

Temperature error indicator

CPU error indicator

Memory error indicator

Fan error indicator orange on orange on CPU prefailure event detected orange on Memory module failure detected orange on Fan prefailure or failure event detected

I

In addition to local diagnostic indicators, CSS or Global Error LEDs indicate, if the defective component is a customer replaceable unit or if a service technician needs to be dispatched to replace the part.


Appendix

Status indicators

Pos. Indicator

7

9

Identification indicator

8 CSS indicator

Global error indicator

Status blue on

Description server has been highlighted using

ServerView Operations Manager, iRMC web frontend, or the ID button on the front panel for easy identification no critical event (CSS component) off yellow on prefailure detected (CSS component) yellow flashing

CSS component failure off no critical event (non CSS component) orange on prefailure detected (non CSS component) orange flashing non CSS component failure

10

HDD / SSD activity indicator green flashing data access in progress

11

Power-on indicator green on server is switched on and running orange on server is switched off, but mains voltage is present (standby mode)

I

After connecting the server to the mains it takes about 60 secondes until the server enters the standby mode.

(Pow

I

The meaning of further buttons is described in the corresponding operating manual.


17.3 Onboard settings

VGA

Service

LAN

Management

LAN/

USB 9/10

Shared LAN/

USB 7/8

Standard LAN/

USB 5/6 Intel i217

Intel i210

CPU

SATA

POWER

FAN1

SYS iRMC S4

Slot 4 PCIe x8

Slot 3 PCIe x8

Micro

SD

Slot 2 PCIe x4

Slot 1 PCIe x1

HDD ACTIVITY

Jumper

TPM

MLC

SATA1-4

Intel

C224

Battery

Indicate

CSS

USB1AUX

USB1

DAT

Intrusion

SATA6 SATA5

UFM

Appendix

Figure 234: Onboard settings on system board D3239

Setting Status Description

Default: Password Clear and Recovery

BIOS disabled

1

Jumper settings

RCVR: Recovery BIOS enabled

PWD-CLR: Password Clear enabled


Appendix

17.4 Minimum startup configuration


If the server does not start up or other problems occur, it may be necessary to take the system down to its most basic configuration in order to isolate the defective component.

The minimum startup configuration consists of the following components and cables:

Component

System board

CPU with CPU heat sink

1 memory module

Front panel module

Power supply unit

Notes no TPM, UFM or expansion cards installed installed in DIMM slot 1A

Table 9: Minimum startup configuration - components

Cable

Front panel cable

Power cable

Notes

Table 10: Minimum startup configuration - cables

Ê


Ê


Ê

Take the system down to its minimum startup configuration.

Ê


Ê

Connect a keyboard, mouse and display to the server.

Ê



Appendix

V

CAUTION!

Since the fan module is not included in the minimum startup configuration, the server must be shut down immediately after the diagnostic process is complete (POST phase has been passed).

The minimum startup configuration must be used exclusively for diagnostic purposes by maintenance personnel, never in daily operation!


Appendix
