Upgrade and Maintenance Manual - English

FUJITSU Server PRIMERGY CX400 M1 Server Enclosure Upgrade and Maintenance Manual

May 2016

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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 © 2016 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.

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

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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. CX400 M1

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://primeserver.fujitsu.com/primergy/harddisk/

Upgrade and Maintenance Manual

CX400 M1

Version history

Version history Issue number

Reason for update

1.0 / October 2014

Initial release

2.0 / January 2015

Chapters 4.4, 4.4.2, 7.5.1, 10

3.0 / September 2015

Chapters 7, 9, 10

4.0 / May 2016

Section 5.2.6 added, chapter 14 "Fujitsu Integrated System Cluster-in-a-box" added

CX400 M1

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Version history

Upgrade and Maintenance Manual

CX400 M1

Contents 1

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

1.1

Notational conventions

2

Before you start

2.1 2.1.1 2.1.2

Classification of procedures . . . . . . . . . . . . . . . . . 16 Customer Replaceable Units (CRU) . . . . . . . . . . . . . . . 16 Field Replaceable Units (FRU) . . . . . . . . . . . . . . . . . 17

2.2

Average task duration . . . . . . . . . . . . . . . . . . . . . 18

2.3

Tools you need at hand . . . . . . . . . . . . . . . . . . . . 19

2.4 2.4.1 2.4.2

Documents you need at hand . . . . . . . . . . . . . . . . . 19 Documents for the server enclosure . . . . . . . . . . . . . . . 20 Documents for the server nodes . . . . . . . . . . . . . . . . . 22

3

Important information . . . . . . . . . . . . . . . . . . . . . 23

3.1

Safety instructions . . . . . . . . . . . . . . . . . . . . . . . 23

3.2

CE conformity

3.3

FCC Class A Compliance Statement . . . . . . . . . . . . . 29

3.4

Environmental protection . . . . . . . . . . . . . . . . . . . 30

4

Basic hardware procedures . . . . . . . . . . . . . . . . . . 33

4.1

Shutting down the server node . . . . . . . . . . . . . . . . 33

4.2

Disconnecting the power cord

4.3 4.3.1 4.3.2 4.3.3

Removing the server enclosure out of the rack Preliminary steps . . . . . . . . . . . . . . . . . Loosening the rear fixing brackets . . . . . . . . . Removing the server enclosure out of the rack . .

4.4 4.4.1

Removing the server node from the server enclosure . . . 40 Removing the server node CX2550 M1/M2 . . . . . . . . . . . 40

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35 35 36 37

Contents 4.4.2

Removing the server node CX2570 M1/M2

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4.5

Removing the server node dummy module . . . . . . . . . . 41

4.6 4.6.1

Opening the server enclosure . . . . . . . . . . . . . . . . . 43 Removing the top cover . . . . . . . . . . . . . . . . . . . . . . 43

4.7 4.7.1

Closing the server enclosure . . . . . . . . . . . . . . . . . . 44 Installing the top cover . . . . . . . . . . . . . . . . . . . . . . 45

4.8

Installing the server node dummy module . . . . . . . . . . . 47

4.9 4.9.1 4.9.2 4.9.3

Installing the server node in the server enclosure Basic information . . . . . . . . . . . . . . . . . . . Installing server node CX2550 M1/M2 . . . . . . . . Installing server node CX2570 M1/M2 . . . . . . . .

4.10 4.10.1 4.10.2

Mounting the server enclosure in the rack . . . . . . . . . . 51 Lift the server into the rack cabinet . . . . . . . . . . . . . . . . 51 Installing the rear fixing brackets . . . . . . . . . . . . . . . . . 54

4.11

Connecting the power cord . . . . . . . . . . . . . . . . . . . 55

4.12

Switching on the server node(s) . . . . . . . . . . . . . . . . 56

5

Basic software procedures . . . . . . . . . . . . . . . . . . . 57

5.1 5.1.1

Starting the maintenance task . . . . . . . . . . . . . . . . . 57 Switching on the ID indicator . . . . . . . . . . . . . . . . . . . 57

5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.2.5.1 5.2.5.2 5.2.6

Completing the maintenance task . . . . . . . . Switching off the ID indicator . . . . . . . . . . . . Verifying system information backup / restore . . . Performing a RAID array rebuild . . . . . . . . . . Using the Chassis ID Prom Tool . . . . . . . . . . Viewing and clearing the System Event Log (SEL) . Viewing the SEL . . . . . . . . . . . . . . . . . Clearing the SEL . . . . . . . . . . . . . . . . Enabling replaced components in the system BIOS

6

Power supply

6.1 6.1.1

Basic information . . . . . . . . . . . . . . . . . . . . . . . . 63 General equipping rules . . . . . . . . . . . . . . . . . . . . . 64

6.2

Replacing the power supply module . . . . . . . . . . . . . . 65

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48 48 49 50

57 57 58 58 59 60 60 61 62

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Contents 6.2.1 6.2.2 6.2.3 6.2.4

Preliminary steps . . . . . . . . . . . . . Removing the power supply module . . . Installing the power supply module . . . . Concluding steps . . . . . . . . . . . . .

7

Hard disk drives / solid state drives . . . . . . . . . . . . . . 69

7.1 7.1.1 7.1.2

Basic information . . . . . . . . . . . . . . . . . . . . . . . 70 General equipping rules . . . . . . . . . . . . . . . . . . . . . 70 HDD/SSD install order . . . . . . . . . . . . . . . . . . . . . . 71

7.2 7.2.1 7.2.2 7.2.3 7.2.4

Installing 2.5-inch HDD/SSD modules . . . . . Preliminary steps . . . . . . . . . . . . . . . . Removing a 2.5-inch HDD/SSD dummy module Installing a 2.5-inch HDD/SSD module . . . . . Concluding steps . . . . . . . . . . . . . . . .

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73 73 74 75 75

7.3 7.3.1 7.3.2 7.3.3

Removing 2.5-inch HDD/SSD modules . . . Preliminary steps . . . . . . . . . . . . . . . Removing a 2.5-inch HDD/SSD module . . . . Installing a 2.5-inch HDD/SSD dummy module

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76 76 77 78

7.4 7.4.1 7.4.2 7.4.3 7.4.4

Replacing a 2.5-inch HDD/SSD module Preliminary steps . . . . . . . . . . . . Removing a 2.5-inch HDD/SSD module . Installing a 2.5-inch HDD/SSD module . Concluding steps . . . . . . . . . . . .

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79 79 79 80 80

7.5 7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6

Replacing the 2.5-inch HDD/SSD SAS/SATA backplane Preliminary steps . . . . . . . . . . . . . . . . . . . . . Removing the HDD/SSD cage . . . . . . . . . . . . . . . Removing the 2.5-inch HDD/SSD backplane . . . . . . . Installing the 2.5-inch HDD/SSD backplane . . . . . . . . Installing the HDD/SSD cage . . . . . . . . . . . . . . . Concluding steps . . . . . . . . . . . . . . . . . . . . .

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81 81 82 83 84 85 85

8

System fan module . . . . . . . . . . . . . . . . . . . . . . . 87

8.1

Basic Information

8.2 8.2.1 8.2.2

Replacing the system fan module . . . . . . . . . . . . . . . 90 Preliminary steps . . . . . . . . . . . . . . . . . . . . . . . . 90 Removing the fan module . . . . . . . . . . . . . . . . . . . . 91

CX400 M1

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65 66 67 68

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Contents 8.2.3 8.2.4

Installing the fan module . . . . . . . . . . . . . . . . . . . . . 93 Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . 95

9

Linking boards . . . . . . . . . . . . . . . . . . . . . . . . . . 97

9.1 9.1.1

Basic Information . . . . . . . . . . . . . . . . . . . . . . . . 97 Linking board mounting places . . . . . . . . . . . . . . . . . . 98

9.2 9.2.1 9.2.2 9.2.3 9.2.4

Replacing the linking board Preliminary steps . . . . . . . Removing the linking board . . Installing the linking board . . Concluding steps . . . . . . .

10

Midplane kit . . . . . . . . . . . . . . . . . . . . . . . . . . 105

10.1 10.1.1

Basic information . . . . . . . . . . . . . . . . . . . . . . . 106 Midplane kit components . . . . . . . . . . . . . . . . . . . . 108

10.2 10.2.1 10.2.2 10.2.3 10.2.4

Replacing the midplane Preliminary steps . . . . Removing the midplane . Installing the midplane . Concluding steps . . . .

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109 109 110 113 116

10.3 10.3.1 10.3.2 10.3.3 10.3.4

Replacing the interposer board Preliminary steps . . . . . . . . . Removing the interposer board . . Installing the interposer board . . Concluding steps . . . . . . . . .

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117 117 118 119 120

10.4 10.4.1 10.4.2 10.4.3 10.4.4

Replacing the chassis interface board Preliminary steps . . . . . . . . . . . . Removing the chassis interface board . Installing the chassis interface board . . Concluding steps . . . . . . . . . . . .

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121 121 122 124 127

11

Front panel

11.1

Basic information . . . . . . . . . . . . . . . . . . . . . . . 130

11.2

Replacing the left front panel board . . . . . . . . . . . . . 130

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100 100 101 102 103

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Contents 11.2.1 11.2.2 11.2.3 11.2.4

Preliminary steps . . . . Removing the front panel Installing the front panel . Concluding steps . . . .

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130 131 134 136

11.3 11.3.1 11.3.2 11.3.3 11.3.4

Replacing the right front panel board Preliminary steps . . . . . . . . . . . Removing the front panel . . . . . . . Installing the front panel . . . . . . . . Concluding steps . . . . . . . . . . .

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136 136 137 139 140

12

Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141

12.1

Cabling overview . . . . . . . . . . . . . . . . . . . . . . . . 141

12.2

Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142

13

Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . 143

13.1 13.1.1 13.1.2 13.1.3 13.1.4 13.1.5

Mechanical overview . . . . . . . . . . . . . . . Front overview with CX2550 M1/M2 server nodes Front overview with CX2570 M1/M2 server nodes Rear overview with CX2550 M1/M2 server nodes . Rear overview with CX2570 M1/M2 server nodes . Enclosure interior . . . . . . . . . . . . . . . . .

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143 143 144 145 146 147

13.2 13.2.1 13.2.1.1 13.2.1.2 13.2.1.3 13.2.1.4 13.2.2 13.2.3 13.2.4

Controls and indicators . . . . . . . . . . . . . Front of the server enclosure . . . . . . . . . . . Indicators on the front panel (enclosure-related) Indicators on the front panel (node-related) . . ID card . . . . . . . . . . . . . . . . . . . . . Indicators on the hard disk drives . . . . . . . Controls and Indicators on the top cover . . . . . Indicator on hot-plug power supply unit . . . . . . Indicators of the server nodes . . . . . . . . . . .

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149 149 150 151 153 154 155 157 157

13.3

Minimum startup configuration . . . . . . . . . . . . . . . . 157

14

Fujitsu Integrated System Cluster-in-a-box

14.1 14.1.1

Basic information . . . . . . . . . . . . . . . . . . . . . . . 159 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160

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Contents 14.1.2 14.1.3 14.1.4

HDD/SSD install order . . . . . . . . . . . . . . . . . . . . . 161 Indicators and connector Expander module . . . . . . . . . . 162 Indicators DCtoDC module . . . . . . . . . . . . . . . . . . . 162

14.2 14.2.1 14.2.2 14.2.3 14.2.4

Replacing an Expander module Preliminary steps . . . . . . . . . Removing an Expander module . Installing an Expander module . . Concluding steps . . . . . . . . .

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163 163 163 164 164

14.3 14.3.1 14.3.2 14.3.3 14.3.4

Replacing a DCtoDC module Preliminary steps . . . . . . . Removing a DCtoDC module . Installing a DCtoDC module . Concluding steps . . . . . . .

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165 165 165 166 166

14.4 14.4.1 14.4.2 14.4.3 14.4.4 14.4.5 14.4.6

Replacing the 18x 2.5-inch HDD/SSD backplane Preliminary steps . . . . . . . . . . . . . . . . . . Removing the HDD/SSD cage . . . . . . . . . . . Removing the 18x 2.5-inch HDD/SSD backplane . Installing the 18x 2.5-inch HDD/SSD backplane . . Installing the HDD/SSD cage . . . . . . . . . . . . Concluding steps . . . . . . . . . . . . . . . . . .

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167 167 168 169 170 171 171

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1

Introduction

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

Upgrading the server configuration by adding optional hardware components

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

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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 19.

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 16.

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13

Introduction

1.1

Notational conventions

The following notational conventions are used in this manual: Text in italics

indicates commands or menu items

fixed font

indicates system output

semi-bold fixed indicates text to be entered by the user 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 16 indicates the average task duration, see "Average task duration" on page 18

14

Upgrade and Maintenance Manual

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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 23. Ê Make sure that all necessary manuals are available. Refer to the documentation overview in section "Documents you need at hand" on page 19. Print the PDF files if required. Ê Make yourself familiar with the procedure categories introduced in section "Classification of procedures" on page 16. Ê Ensure that all required tools are available according to section "Tools you need at hand" on page 19. Installing optional components The "PRIMERGY CX400 M1 Server Enclosure Operating Manual" gives an introduction to server features and provides an overview of available hardware options. Use the Fujitsu ServerView Suite management software to prepare hardware expansions. ServerView Suite documentation is available online at http://manuals.ts.fujitsu.com (http://jp.fujitsu.com/platform/server/primergy/system/ for the Japanese market). Please refer to the following ServerView Suite topics: – Operation – Tools for Service & Diagnostics – Virtualization

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://www.fujitsu.com/fts/products/computing/servers/primergy/scaleout/cx400m1/ 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). CX400 M1

Upgrade and Maintenance Manual

15

Before you start

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 HDD / SSD modules Peripherals that are handled as Customer Replaceable Units – Keyboard – Mouse

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2.1.2

Field Replaceable Units (FRU) 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 – – – – – – –

Non hot-plug fans SAS / SATA backplanes Midplane Linking board Front panel IO board Power backplane

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

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2.2

Average task duration Average task duration: 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 table 1 on page 18 for an overview of steps taken into account for calculating the average task duration: Step

included

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

Server shutdown

no

Rack removal, disassembly

yes

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

Transport

no

Transporting the server to the service table (where required) depends on local customer conditions.

Maintenance procedures

yes

Maintenance procedures including preliminary and concluding software tasks

Transport

no

Returning the server to its installation site (where required) depends on local customer conditions.

Assembly, rack installation

yes

Reassembling the server, installing the server in the rack (if applicable)

Starting up

no

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

Software tasks necessary before maintenance are described in section "Starting the maintenance task" on page 57".

Table 1: Calculation of the average task duration

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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 PH1 / (+) No. 1 0.4 Nm

Screw

Usage

Type

Cover, front panel

M3 x 6.0 mm C26192-Y10-C111

Table 2: List of required tools and used screws for the 2.5-inch chassis

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 x86 servers. For the Japanese market please use the following address: http://jp.fujitsu.com/platform/server/primergy/manual/

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2.4.1

Documents for the server enclosure

Document

Description

"ServerView Quick Start Guide"

Information on initial server setup and software configuration, available online

"Safety notes and regulations" manual " 安全上のご注意 " for the Japanese market "PRIMERGY CX400 M1 Server Enclosure Operating Manual"

Important safety information, available online or as a printed copy

Available online

Labels inside the side / top server cover System board and service labels outlining connectors, indicators and basic maintenance tasks Available online Software documentation

– "ServerView Suite Local Service Concept (LSC)" user guide – "ServerView Operations Manager Server Management" user guide

Illustrated Spares catalog

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

Glossary

Available online

"Warranty" manual

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

" 保証書 " for the Japanese market

Table 3: Documentation you need at hand for the server enclosure

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Document

Description

"Returning used devices" manual "Service Desk" leaflet

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

– RAID documentation, available online at http://manuals.ts.fujitsu.com under x86 servers - Expansion Cards - Storage Adapters – Rack documentation

Third party documentation

– Operating system documentation, online help – Peripherals documentation

Table 3: Documentation you need at hand for the server enclosure

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2.4.2

Documents for the server nodes

Document

Description

"PRIMERGY CX2550 M1 Server Available online Node Operating Manual" "PRIMERGY CX2550 M1 Server Node Upgrade and Maintenance Available online Manual" "D3343 BIOS Setup Utility for PRIMERGY CX2550 M1 Reference Manual"

Information on configurable BIOS options and parameters, available online

"PRIMERGY CX2550 M2 Server Available online Node Operating Manual" "PRIMERGY CX2550 M2 Server Node Upgrade and Maintenance Available online Manual" "D3343 BIOS Setup Utility for PRIMERGY CX2550 M2 Reference Manual"

Information on configurable BIOS options and parameters, available online

"PRIMERGY CX2570 M1 Server Available online Node Operating Manual" "PRIMERGY CX2570 M1 Server Node Upgrade and Maintenance Available online Manual" "D3343 BIOS Setup Utility for PRIMERGY CX2570 M1 Reference Manual"

Information on configurable BIOS options and parameters, available online

"PRIMERGY CX2570 M2 Server Available online Node Operating Manual" "PRIMERGY CX2570 M2 Server Node Upgrade and Maintenance Available online Manual" "D3343 BIOS Setup Utility for PRIMERGY CX2570 M2 Reference Manual"

Information on configurable BIOS options and parameters, available online

Table 4: Documentation you need at hand for the server nodes

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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.

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Important information 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. 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.

●

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 VAC to 240 VAC. (For the Japanese market there are two PSUs available: PSU for 100V is set to a mains voltage in the range of 100V - 240V). 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.

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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.

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Important information ●

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, non-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.

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

Figure 1: ESD label

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Important information 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 CX400 M1 is large and heavy, at least two people are needed.

●

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

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Important information 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 ".)

●

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.

●

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

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).

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3.3

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.

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Important information

3.4

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

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Important information 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. Fax

+49 5251 525 1410 +49 5251 525 32 1410

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4

Basic hardware procedures

4.1

Shutting down the server node

Safety notes

V CAUTION!

For further safety information, please refer to chapter "Important information" on page 23.

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

Ê Inform the system administrator that the server node will be shut down and put offline. Ê Terminate all applications. Ê Press the On/Off button either on the rear or on the corresponding front panel to shut down the server node.

I If the system is running an ACPI-compliant operating system,

pressing the On / Off button will perform a graceful shutdown.

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4.2

Disconnecting the power cord

I Before disconnecting the power cord all server nodes must be shut down.

햳

햲

Figure 2: Removing the power cord from the PSU cable tie

Ê Pull out the locking lever on the PSU cable tie (1) and loosen the loop (2). Ê Disconnect the power cord from the PSU and remove it from the cable tie.

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4.3

Removing the server enclosure out of the rack

V CAUTION!

For ALL service tasks, remove the CX400 M1 server enclosure out of the rack and put it on a separate desk, except when you remove / install HDD, PSU and Server Node! It is not allowed to draw the CX400 M1 server enclosure partially out of the rack.

4.3.1

Preliminary steps

Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê If applicable, disconnect all external cables. Ê If you remove the CX400 M1 server enclosure out of the rack, remove all Server Node from the server enclosure.

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4.3.2

Loosening the rear fixing brackets

Figure 3: Loosen the rear fixing brackets

Ê Loosen the two rear fixing brackets by loosening the two screws on each side.

Figure 4: Rear fixing brackets

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4.3.3

Removing the server enclosure out of the rack

V CAUTION!

At least two people are needed to lift the server out of the rack cabinet. For the Japanese market, according to the following procedures. If you remove the CX400 M1 server enclosure out of the rack, remove all HDD, PSU and Server Node from the server enclosure. In addition, at least two people are needed when server enclosure is installed in the height of 25U or more. (For the Japanese market, please refer to " 安全上のご注意 ".)

Applies only to EMEA market as follows

For configurations below 32 kg: At least two people are needed to lift the server out of the rack cabinet.

For configurations below 55 kg: 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.

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Basic hardware procedures The description of following Lifter is applied only to the EMEA market. 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 5: Remove the server enclosure out of the rack (A).

Ê Remove the screw on the front bracket.

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Figure 6: Remove the server enclosure out of the rack (B).

Ê Pull out the chassis from the rack.

I Remove the server enclosure from the rack carefully. Must be done with at least two people.

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4.4

Removing the server node from the server enclosure

I The CX400 M1 system must always run with closed node bays. It is only

allowed to leave a bay open for a limited time in case of repairing a server node (for example). In this case the node bay must be closed within 60 minutes. In the meantime all remaining server nodes run in throttling mode (with reduced performance). For the Japanese market, follow the instructions provided separately.

4.4.1

Removing the server node CX2550 M1/M2

V CAUTION! ●

Shut down the server node and disconnect all external cables.

●

Follow the safety instructions in the chapter "Important information" on page 23.

Figure 7: Removing the server node CX2550 M1/M2

Ê Undo the locking mechanism (1) of the release lever and pull the server node out of the slot (2).

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4.4.2

Removing the server node CX2570 M1/M2

V CAUTION! ●

Shut down the server node and disconnect all external cables.

●

Follow the safety instructions in the chapter "Important information" on page 23.

Figure 8: Removing the server node CX2570 M1/M2

Ê Undo the locking mechanism (1) of the release lever and pull the server node out of the slot (2).

4.5

Removing the server node dummy module

I The CX400 M1 system must always run with closed node bays. It is only

allowed to leave a bay open for a limited time in case of repairing a server node (for example). In this case the node bay must be closed within 60 minutes. In the meantime all remaining server nodes run in throttling mode (with reduced performance). For the Japanese market, follow the instructions provided separately.

V CAUTION! ●

CX400 M1

Follow the safety instructions in the chapter "Important information" on page 23.

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Figure 9: Removing the server node dummy module

Ê Undo the locking mechanism (1) of the release lever and pull the server node dummy module out of the slot (2).

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4.6

Opening the server enclosure

V CAUTION! ●

Before removing or installing covers, turn off the server nodes and all peripheral devices. Also unplug all power cables from the outlet. Failure to do so can cause electric shock.

●

For further safety information, please refer to chapter "Important information" on page 23.

4.6.1

Removing the top cover

Removing the top cover allows you to replace the midplane, the fans, the HDD/SSD cages and the linking boards.

Figure 10: Removing the top cover from the chassis (A)

Ê Remove three screws from the top cover.

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Figure 11: Removing the top cover from the chassis (B)

Ê Lift the top cover (1), slide it in the direction of the arrow (2) and remove it.

4.7

Closing the server enclosure

V CAUTION!

44

●

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

●

For further safety information, please refer to chapter "Important information" on page 23.

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4.7.1

Installing the top cover

Figure 12: Installing the top cover on the chassis (A)

Ê Insert the top cover in a slight angle (1) and flip the cover down (2).

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Figure 13: Installing the top cover on the chassis (B)

Ê Secure the top cover with three screws.

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4.8

Installing the server node dummy module

V CAUTION! ●

Follow the safety instructions in the chapter "Important information" on page 23.

Figure 14: Installing the server node dummy module

Ê Carefully push the server node at the handle into the server enclosure until the locking mechanism snaps into place.

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4.9

Installing the server node in the server enclosure

4.9.1

Basic information

Population rules for server nodes CX2550 M1/M2

Figure 15: Population rules for server nodes CX2550 M1/M2

1

Server node CX2550 M1/M2 bay 1

2

Server node CX2550 M1/M2 bay 2

3

Server node CX2550 M1/M2 bay 3

4

Server node CX2550 M1/M2 bay 4

Population rules for server nodes CX2570 M1/M2

Figure 16: Population rules for server nodes CX2570 M1/M2

1

Server node CX2570 M1/M2 bay 1

3

Server node CX2570 M1/M2 bay 3

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4.9.2

Installing server node CX2550 M1/M2

V CAUTION! ●

Follow the safety instructions in the chapter "Important information" on page 23.

Figure 17: Installing the server node

Ê Push the server node at the handle into the server enclosure until the locking mechanism snaps into place. Ê If applicable, connect all external cables to the server node.

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4.9.3

Installing server node CX2570 M1/M2

V CAUTION! ●

Follow the safety instructions in the chapter "Important information" on page 23.

Figure 18: Installing the server node

Ê Push the server node at the handle into the server enclosure until the locking mechanism snaps into place. Ê If applicable, connect all external cables to the server node.

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4.10

Mounting the server enclosure in the rack

4.10.1 Lift the server into the rack cabinet

V CAUTION!

At least two people are needed to position the server on the rack rails. (For the Japanese market, please refer to " 安全上のご注意 ".)

For configurations below 32 kg: At least two people are needed to lift the server into the rack cabinet.

For configurations below 55 kg: 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.

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Figure 19: Mounting the server enclosure into the rack (A).

Ê Install the server enclosure into the rack.

I At least two people are needed to position the server on the rack rails. I The distance between the front and rear support uprights shall not exceed 800 mm.

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Figure 20: Mounting the server into the rack (B).

Ê Secure the screw on the front bracket (screw torque: 25 in-lb).

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4.10.2 Installing the rear fixing brackets

Figure 21: Rear fixing brackets

Figure 22: Fastening the rear fixing brackets with screws

Ê Make sure, that the two cage nuts are installed in the mounting holes directly above the rails. Ê Fasten the two rear fixing brackets at the lowest position over the CX400 M1 chassis with two screws on each side (torque 0.6 Nm).

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4.11

Connecting the power cord

Ê Connect the power cord to the server enclosure PSU. Ê Connect the mains connector to an outlet on the rack's socket strip (see also Technical Manual for the rack). Ê Ensure that the indicator on the PSU lights up green.

I For more information see section "Indicator on hot-plug power supply unit" on page 157.

Figure 23: Securing the power cord with the cable tie

Ê Loop the cable tie around the power cord and the handle of the power supply module (1). Ê Pull tight the cable tie (2) to secure the power cord.

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4.12

Switching on the server node(s)

V CAUTION! ●

Follow the safety instructions in chapter "Important information" on page 23.

Ê If applicable, connect all external cables to the server node.

Figure 24: Controls and indicators of the server node

1 On/Off button / Power-on indicator 2 ID indicator Ê Press the On/Off button either on the rear or on the corresponding front panel to start up the server node. The power-on indicator is lit green and the ID indicator is off.

I For more information, refer to section "Indicators on the front panel (node-related)" on page 151.

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5

Basic software procedures

5.1

Starting the maintenance task

5.1.1

Switching on the ID indicator

When working in a datacenter environment, switch on the ID indicator on the front panels of the server for easy identification. The ID indicator can also be activated via the BMC Web interface and its status reported to the BMC. 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 "Indicators on the front panel (enclosure-related)" on page 150.

5.2

Completing the maintenance task

5.2.1

Switching off the ID indicator

Press the ID button on the front panel. The ID indicator can also be deactivated via the BMC Web interface and its status reported to the BMC. Using the ID button on the front panel Ê Press the ID button on the front panel to switch off the ID indicators.

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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 60). 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 60 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 CX400 M1 server, the Chassis ID EPROM is integrated on the chassis interface board.

Ê Check the SEL log files as described in section "Viewing and clearing the System Event Log (SEL)" on page 60 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

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.

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Figure 25: 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. 5.2.4

Using the Chassis ID Prom Tool

System information like server name and model, housing type, serial number and manufacturing data are stored in the chassis interface board. 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. Before removing and after installing the chassis interface board, system information has to be entered using the ChassisId_Prom Tool. The tool and further instructions are available to maintenance personnel from the Fujitsu Technology Solutions Extranet: http://partners.ts.fujitsu.com/com/service/intelservers/tools

I For the Japanese market, follow the instructions provided separately.

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5.2.5

Viewing and clearing the System Event Log (SEL)

5.2.5.1

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 Manager - Server Management" user guide.

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Basic software procedures Viewing the SEL using the iRMC web frontend Ê Enter the ServerView iRMC web frontend. 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 For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide.

5.2.5.2

Clearing the SEL

You can clear the System Event Log (SEL) using the ServerView iRMC web frontend: Ê Enter the ServerView iRMC web frontend. 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 For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide.

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5.2.6

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 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.

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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.

●

When installing the power supply unit, be sure to confirm that the connector of the power supply unit is not damaged or bent.

●

Do not insert your hands in the power supply unit slot when removing the power supply unit. Doing so may cause electric shock.

●

If the power supply unit is hard to remove, do not pull out it by force.

●

The power supply unit is heavy, so handle it carefully. If you drop it by mistake, injuries may result.

●

Follow the safety instructions in the chapter "Important information" on page 23.

6.1

Basic information

The system has two bays for hot-plug power supply units. The server enclosure uses two hot-plug PSU, which automatically set itself to a mains voltage in the range of 200 - 240 V. (For the Japanese market there are two PSUs available: PSU for 100V is set to a mains voltage in the range of 100V - 240V). If one PSU is defective, system can continue to work, but it goes to a throttling mode if power consumption exceed capacity of PSU, and it affects performance until replacement of the PSU.

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Power supply

6.1.1

General equipping rules

Figure 26: Population rules for the power supply modules

1

Power supply module bay 1 (bottom)

2

Power supply module bay 2 (top)

Both power supply modules must be of the same type.

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6.2

Replacing the power supply module Customer Replaceable Unit (CRU)

Tools:

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

V CAUTION! ●

Replace the power supply module after specifying the one that breaks down at work by revitalization.

●

Both power supply modules must be of the same type.

6.2.1

Preliminary steps

Perform the following procedures: Ê Check which power supply module is defective. A power supply module is defective when the indicator on the PSU module lights up yellow.

I For more information see section "Indicator on hot-plug power supply unit" on page 157.

Ê Disconnect the power cord from the defective power supply module as described in "Disconnecting the power cord" on page 34.

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Power supply

6.2.2

Removing the power supply module

Figure 27: Removing the power supply module

Ê Pull the handle of the power supply module halfway upward in the direction of the arrow (1). Ê Push the lock in direction of the arrow (2). Ê Grip the handle and pull out the power supply module in the direction of the arrow (3).

V CAUTION!

Never leave the bay for the power supply module empty for more than two minutes during operation. Otherwise, excessive temperatures could damage system components.

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6.2.3

Installing the power supply module

Figure 28: Unlocking the power supply module

Ê Push the handle of the power supply module in the direction of the arrow.

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Power supply

Figure 29: Installing the power supply module

Ê Carefully push the power supply module into the empty bay (1) until it stops. Ê Flip the handle of the power supply module down (2).

I Make sure that the power supply module engages correctly in the bay

and is locked in position. This is the only way to prevent the power supply unit from sliding out of its bay and being damaged during transportation.

6.2.4

Concluding steps

Perform the following procedures: Ê "Connecting the power cord" on page 55. Ê Only when replacing a power supply module in a non-redundant configuration: "Switching on the server node(s)" on page 56.

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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.

●

Be careful not to hit the hard disk drive or bring it into contact with metallic objects.

●

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.

●

For further safety information, please refer to chapter "Important information" on page 23.

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7.1

Basic information

Hard disk drives Using CX2550 M1/M2 server nodes, the server enclosure can be equipped with a maximum of 24 x 2.5 " HDD / SSD modules. Using CX2570 M1/M2 server nodes, the server enclosure can be equipped with a maximum of 12 x 2.5 " HDD / SSD modules. Each HDD module can accommodate an SAS/SATA hard disk drive or SSD drive with a maximum height of 1 inch. The module is connected to the SAS/SATA backplane wirelessly. This allows HDD/SSD modules to be plugged in or pulled out easily. Six SATA hard disk drives can be controlled by the onboard SATA controller. To control SAS hard disk drives, an additional RAID controller must be installed. Hybrid configurations of SAS HDDs, SATA HDDs and SSDs within the same logical drive (RAID array) are not supported. If the server enclosure has the corresponding RAID configuration, HDD modules can also be replaced during operation.

7.1.1

General equipping rules

– Solid state drives (SSDs) are always equipped before installing hard disk drives. – Hard disk drives / solid state drives with different capacities are installed from highest to lowest capacity. – Hard disk drives with different rotation speeds are installed from highest to lowest speed. – When installing hard disk drives with different bus technologies (SAS or SATA), first install SAS drives and then SATA drives. – Please refer to section "HDD/SSD install order" on page 71 for a complete overview of the mounting sequence. – Install dummy modules into unused HDD/SSD bays.

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7.1.2

HDD/SSD install order

HDD/SSD cage assignment Up to six HDDs/SSDs are installed in a cage. The cages are assigned to the server nodes as follows. CX400 M1 equipped with CX2550 M1/M2 server nodes PSU 2

Node 4

Node2

2

HDDs

HDDs

4

PSU 1

Node 3

Node 1

1

Node 1 Node 2 Node 3 Node 4

3

Server nodes and PSUs (rear view)

HDDs

HDDs

HDD/SSD cages and front panel (front view)

CX400 M1 equipped with CX2570 M1/M2 server nodes Server nodes and PSUs

HDD/SSD cages and front panel

(rear view) PSU 2 PSU 1

Node 3

(front view) Node 1

Server nodes and PSUs (rear view)

2

HDDs

HDDs

4

1

Node 1

Node 3

3

HDD/SSD cages and front panel (front view)

4 Node Chassis (for CX2550) - 4x SATA 2.5” HDD back plane

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Hard disk drives / solid state drives HDD/SSD cage types There are three different HDD/SSD cages depending on the backplane installed. The following figures show how the cages can be equipped. Type A SAS / SATA

0

Type B

0

SAS / SATA / PCIe SFF SSD combi SAS / SATA

0

Numbering for PCIe SFF SSD in BIOS setup utility is displayed as shown in the following table. Slot in HDD cage

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PCI slot# in BIOS setup utility

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PCI slot 9

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PCI slot 10

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Hard disk drives / solid state drives Type C SATA

0

7.2

0

Installing 2.5-inch HDD/SSD modules Customer Replaceable Unit (CRU)

Tools:

7.2.1

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

Preliminary steps

Perform the following procedures: Ê Locate the correct drive bay as described in section "HDD/SSD install order" on page 71.

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7.2.2

Removing a 2.5-inch HDD/SSD dummy module

Figure 30: Removing a 2.5-inch HDD/SSD dummy module

I Dummy modules have been installed into unused HDD / SSD bays.

Before installing an additional HDD / SSD, the dummy module needs to be removed from the desired drive bay.

Ê Press in on the locking clips of the dummy module to disengage the locking mechanism. Ê While keeping the locking clip pressed, pull the dummy module out of its bay.

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.

I HDD Cage Type C:

The HDD dummy modules 4 and 5 are not removable!

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7.2.3

Installing a 2.5-inch HDD/SSD module

Figure 31: Installing 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 (1). Ê Close the release lever in the direction of the arrow (2).

7.2.4

Concluding steps

Perform the following procedures: Ê "Performing a RAID array rebuild" on page 58

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7.3

Removing 2.5-inch HDD/SSD modules Customer Replaceable Unit (CRU)

Tools:

7.3.1

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

Preliminary steps

Perform the following procedures: Ê Ensure that the HDD/SSD module to be removed is not combined into a RAID array. If the drive is part of a RAID array, 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.

I For further information, please refer to the "ServerView Suite RAID Management" user guide, available online at http://manuals.ts.fujitsu.com.

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7.3.2

Removing a 2.5-inch HDD/SSD module

Figure 32: Removing a 2.5-inch HDD/SSD module

Ê Undo the locking mechanism of the release lever (1). Ê Swing the release lever in the direction of the arrow (2). Ê Pull out the HDD/SSD module (3).

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7.3.3

Installing a 2.5-inch HDD/SSD dummy module

V CAUTION!

If the removed HDD/SSD module is not replaced immediately, always replace the HDD/SSD dummy module into the unused HDD/SSD bay to comply with applicable EMC regulations and satisfy cooling requirements.

Figure 33: Installing a 2.5-inch HDD/SSD dummy module

Ê Slide the dummy module into the drive bay until it locks in place.

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7.4

Replacing a 2.5-inch HDD/SSD module Customer Replaceable Unit (CRU)

Tools:

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

V CAUTION! ●

Only remove an HDD/SSD module during operation if the drive is not currently being accessed. Observe the indicators for the corresponding HDD/SSD modules, see "PRIMERGY CX400 M1 Server Enclosure Operating Manual".

●

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.

●

7.4.1

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.

Preliminary steps

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.

7.4.2

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 77.

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7.4.3

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 73.

7.4.4

Concluding steps

Perform the following procedures: Ê "Performing a RAID array rebuild" on page 58 Ê "Enabling replaced components in the system BIOS" on page 62

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7.5

Replacing the 2.5-inch HDD/SSD SAS/SATA backplane Field Replaceable Unit (FRU)

Tools:

7.5.1

Hardware: 15 minutes

Preliminary and concluding steps: Phillips PH2 / (+) No. 2 hexagonal cross SW5 / PZ2 Main steps: tool-less

Preliminary steps

Perform the following procedures: Ê Shut down the server nodes as described in section "Shutting down the server node" on page 33 Ê Remove all HDD/SSD modules from the relevant HDD/SSD cage as described in section "Removing 2.5-inch HDD/SSD modules" on page 76. Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

For ALL service tasks, remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43

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Hard disk drives / solid state drives

7.5.2

Removing the HDD/SSD cage

Figure 34: Removing the HDD/SSD cage

Ê Pull the HDD/SSD cage out of the enclosure.

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7.5.3

Removing the 2.5-inch HDD/SSD backplane

Figure 35: Removing the HDD/SSD backplane

Ê Slide the defective backplane upward (1) out of the guides (see ovals). Ê Remove the backplane from the HDD/SSD cage (2).

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7.5.4

Installing the 2.5-inch HDD/SSD backplane

A

Figure 36: Installing the HDD/SSD backplane

Ê Fit the HDD/SSD backplane over the metal tab of the cage (A). Ê Slide the backplane down. The backplane fits behind the guides (see ovals).

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7.5.5

Installing the HDD/SSD cage

Figure 37: Installing a HDD/SSD cage

Ê Push the HDD cage into the server enclosure as far as it will go.

I Make sure that the linking board is installed correctly before putting it into operation, see section "Installing the linking board".

7.5.6

Concluding steps

Perform the following procedures: Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê Install all HDD/SSD modules as described in section "Installing 2.5-inch HDD/SSD modules" on page 73. Ê "Switching on the server node(s)" on page 56

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System fan module

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 23.

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System fan module

8.1

Basic Information

The PRIMERGY CX400 M1 server features four non hot-plug fan modules. Fan positions The figure 38 shows the position of the system fans 1 to 4.

Figure 38: Fan positions

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System fan module Connectors on the midplane The following figure shows the fan connectors on the four node midplane.

Figure 39: Fan connectors on the four node midplane

The following figure shows the fan connectors on the two node midplane.

Figure 40: Fan connectors on the two node midplane

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8.2

Replacing the system fan module Field Replaceable Unit (FRU)

Tools:

8.2.1

Hardware: 15 minutes

Preliminary and concluding steps: Phillips PH2 / (+) No. 2 hexagonal cross SW5 / PZ2 Main steps: tool-less

Preliminary steps

Perform the following procedures: Ê Locate the defective fan module using the diagnostic panel on the cover of the server enclosure (see section "Controls and Indicators on the top cover" on page 155. Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43

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8.2.2

Removing the fan module

All fan modules are replaced in the same way.This section describes how the fan module 4 is replaced.

Figure 41: Disconnecting the fan cable

Ê Disconnect the fan cable from the midplane.

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Figure 42: Removing the fan module

Ê Lift the fan module out of the slot.

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8.2.3

Installing the fan module

Figure 43: Inserting the fan module

Ê Place the new fan module into the slot. – The upper fan mounts (see circles) engage in the supports (see arrows).

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Figure 44: Inserting the fan module

Ê The lower fan mounts at the bottom (see circles) engage in the supports at the bottom.

Figure 45: Connecting the fan cable

Ê Connect the fan cable to the midplane.

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8.2.4

Concluding steps

Perform the following procedures: Ê "Closing the server enclosure" on page 44 Ê "Installing the server node in the server enclosure" on page 48 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

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9

Linking boards

Safety

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 23.

9.1

Basic Information

The linking boards connect the HDD/SSD cages to the midplane.

Figure 46: Linking board - type 1

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Linking boards

Figure 47: Linking board - type 2

9.1.1

Linking board mounting places

Four-node system with HDD Cage Type A

Figure 48: Linking board positions

There are 4 linking boards installed in the four-node system with a HDD Cage Type A.

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Linking boards Four-node system with HDD Cage Type C

Figure 49: Linking board positions

There can only 2 linking boards be installed in the four-node system with a HDD Cage Type C. Two-node system

Figure 50: Linking board positions

There are 2 linking boards installed in the two-node system.

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Linking boards

9.2

Replacing the linking board Field Replaceable Unit (FRU)

Tools:

9.2.1

Hardware: 15 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

Preliminary steps

Perform the following procedures: Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43 Ê Remove the fan modules next to the linking board as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cage connected to the defective linking board as described in section "Removing the HDD/SSD cage" on page 82.

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9.2.2

Removing the linking board

Figure 51: Disconnecting the linking board from the midplane

Ê Slide the linking board about 3 cm in the direction of the arrow. The linking board will be disconnected from the midplane.

Figure 52: Removing the linking board

Ê Remove the linking board from the foam guide.

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9.2.3

Installing the linking board

Figure 53: Inserting the linking board

Ê Slide the linking board into the slot of the foam guide.

Figure 54: Connecting the linking board to the midplane

Ê Plug in the linking board to the midplane connector.

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Figure 55: Correct position of linking board - type 2

9.2.4

Concluding steps

Perform the following procedures: Ê

"Installing the HDD/SSD cage" on page 85.

Ê Install the fan modules next to the replaced linking board as described in section "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

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Midplane kit

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 23.

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10.1

Basic information

There are three midplane kit variants, depending on what type of nodes are installed in the enclosure. Four-node midplane kit

Figure 56: Four-node midplane

Four-node midplane kit for HDD Cage Type C

Figure 57: Four-node midplane for HDD Cage Type C

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Midplane kit Two-node midplane kit

Figure 58: Two-node midplane

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10.1.1 Midplane kit components Each midplane kit consist of the following components:

Figure 59: Midplane kit components

Pos. Component 1

Copper bars

2

PSU interposer

3

Chassis interface board

4

Midplane

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10.2

Replacing the midplane Field Replaceable Unit (FRU)

Tools:

Hardware: 30 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

10.2.1 Preliminary steps Perform the following procedures: Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server node from the server enclosure" on page 40 Ê "Removing the power supply module" on page 66 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43 Ê Remove the fan modules as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cages as described in section "Removing the HDD/SSD cage" on page 82. Ê Remove the linking boards as described in section "Removing the linking board" on page 101.

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10.2.2 Removing the midplane

1 2

Figure 60: Disconnecting the front panel cables

Ê Unplug the front panel cables from the midplane (1). Ê Open the cable clamps (2) and hang the cable ends on the housing edge to the outside.

Figure 61: Removing the midplane kit

Ê Hold the midplane by the metal bar (1). Ê Remove the midplane as shown.

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Figure 62: Detaching the complete unit (interposer board, chassis interface board, copper bars)

Ê Remove four screws from the copper bars (see circles).

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Figure 63: Detaching parts from the midplane

Ê Remove all parts from the midplane. Ê Unplug the chassis interface board from the midplane as described in figure 72 on page 123.

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10.2.3 Installing the midplane

Figure 64: Attaching parts to the midplane.

Ê Install all parts to the midplane. Ê Plug the chassis interface board to the midplane as described in figure 73 on page 124.

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Figure 65: Attaching the complete unit (interposer board, chassis interface board, copper bars)

Ê Install the four screws to the copper bars (see circles). Torque: 1.7 Nm.

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Figure 66: Inserting the midplane kit

Ê Hold the midplane by the metal bar (1). Ê Insert the midplane kit as shown.

Figure 67: Adjusting the midplane kit

Ê Fit the midplane over the metal tabs of the chassis (see circles). Ê Slide the midplane down.

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2 1

Figure 68: Connecting the front panel cables

Ê Secure the front panel cables with the cable clamps (1). Ê Connect the front panel cables to the midplane (2).

I It does not matter, which side of the plug is upside. 10.2.4 Concluding steps Perform the following procedures: Ê Install the linking boards as described in section "Installing the linking board" on page 102. Ê Install the HDD/SSD cages as described in section "Installing the HDD/SSD cage" on page 85. Ê Install the fan modules as described in section "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Installing the power supply module" on page 67 Ê "Installing the server node in the server enclosure" on page 48 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

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10.3

Replacing the interposer board Field Replaceable Unit (FRU)

Tools:

Hardware: 30 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

10.3.1 Preliminary steps Perform the following procedures: Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server node from the server enclosure" on page 40 Ê "Removing the power supply module" on page 66 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43 Ê Remove the fan modules as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cages as described in section "Removing the HDD/SSD cage" on page 82. Ê Remove the linking boards as described in section "Removing the linking board" on page 101. Ê "Removing the midplane" on page 110

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10.3.2 Removing the interposer board

Figure 69: Detaching the interposer board

Ê Remove four screws from the interposer board (see circles).

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10.3.3 Installing the interposer board

Figure 70: Attaching the interposer board

Ê Install four screws to the interposer board (see circles). Torque: 1.7 Nm.

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10.3.4 Concluding steps Perform the following procedures: Ê "Installing the midplane" on page 113 Ê Install the linking boards as described in section "Installing the linking board" on page 102. Ê Install the HDD/SSD cages as described in section "Installing the HDD/SSD cage" on page 85. Ê Install the fan modules as described in section "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Installing the power supply module" on page 67 Ê "Installing the server node in the server enclosure" on page 48 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

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10.4

Replacing the chassis interface board Field Replaceable Unit (FRU)

Tools:

Hardware: 30 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

I Note on system information

The chassis interface board 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.

10.4.1 Preliminary steps Perform the following procedures: Ê "Using the Chassis ID Prom Tool" on page 59 Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server node from the server enclosure" on page 40 Ê "Removing the power supply module" on page 66 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

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Midplane kit Ê "Opening the server enclosure" on page 43 Ê Remove the fan modules as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cages as described in section "Removing the HDD/SSD cage" on page 82. Ê Remove the linking boards as described in section "Removing the linking board" on page 101. Ê "Removing the midplane" on page 110

10.4.2 Removing the chassis interface board

Figure 71: Detaching the interposer board

Ê Remove four screws from the interposer board (see circles).

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Midplane kit

Figure 72: Detaching the chassis interface board

Ê Unplug the chassis interface board from the midplane (see arrow).

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10.4.3 Installing the chassis interface board

Figure 73: Attaching the chassis interface board

Ê Plug the chassis interface board to the midplane (see arrow).

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Ê Connect the new chassis interface board to the PSU interposer.

Figure 74: Connecting the chassis interface board

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Midplane kit

Figure 75: Attaching the interposer board

Ê Install four screws to the interposer board (see circles). Torque: 1.7 Nm.

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10.4.4 Concluding steps Perform the following procedures: Ê "Installing the midplane" on page 113 Ê Install the linking boards as described in section "Installing the linking board" on page 102. Ê Install the HDD/SSD cages as described in section "Installing the HDD/SSD cage" on page 85. Ê Install the fan modules as described in section "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Installing the power supply module" on page 67 Ê "Installing the server node in the server enclosure" on page 48 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56 Ê "Verifying system information backup / restore" on page 58 Ê "Using the Chassis ID Prom Tool" on page 59

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11

Front panel

Safety notes

V CAUTION! ●

When inserting the front panel module into the server, ensure not to pinch or strain any connected cables.

●

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.

●

For further information, please refer to chapter "Important information" on page 23.

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Front panel

11.1

Basic information

The CX400 M1enclosure has two front panels which contain the operating panels for the server nodes installed, see sections "Front overview with CX2550 M1/M2 server nodes" on page 143 and "Front overview with CX2570 M1/M2 server nodes" on page 144. The cable guides of the left and right front panels are different.

11.2

Replacing the left front panel board Field Replaceable Unit (FRU)

Tools:

Hardware: 30 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

11.2.1 Preliminary steps Perform the following procedures: Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43 Ê Remove the fan module on the side where the defective front panel is located as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cage on the side where the defective front panel is located as described in section "Removing the HDD/SSD cage" on page 82.

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11.2.2 Removing the front panel

Figure 76: Disconnecting the front panel cables

Ê Unplug the font panel cable from the midplane (1). Ê Remove the cable from the cable clamp (2).

1

Figure 77: Front panel cable guide

Ê Guide the cable through the gap between the panels (1) and remove it from the cable guide (see arrows)

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Figure 78: Loosen the front panel

Ê Loosen the front panel by removing two screws (see circles).

Figure 79: Removing the front panel

Ê Remove the front panel from the chassis.

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Figure 80: Removing the front panel from the rack bracket

Ê Loosen the front panel by removing two screws (see circles).

Figure 81: Front panel removed from rack bracket

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11.2.3 Installing the front panel

Figure 82: Inserting the front panel

Ê Insert the front panel into the chassis.

Figure 83: Fastening the front panel

Ê Fasten the front panel with two screws (see circles).

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1

Figure 84: Front panel cable guide

Ê Guide the cable behind the cable guide (see arrows) and through the gap between the panels (1).

Figure 85: Disconnecting the front panel cables

Ê Secure the front panel cables with the cable clamps (1). Ê Connect the front panel cables to the midplane (2).

I It does not matter, which side of the plug is upside.

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Front panel

11.2.4 Concluding steps Perform the following procedures: Ê "Installing the HDD/SSD cage" on page 85. Ê "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

11.3

Replacing the right front panel board Field Replaceable Unit (FRU)

Tools:

Hardware: 30 minutes

Preliminary and concluding steps: PH1 / (+) No. 1 screw driver Main steps: tool-less

11.3.1 Preliminary steps Perform the following procedures: Ê "Shutting down the server node" on page 33 Ê "Disconnecting the power cord" on page 34 Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

Remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43

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Front panel Ê Remove the fan module on the side where the defective front panel is located as described in section "Removing the fan module" on page 91. Ê Remove the HDD/SSD cage on the side where the defective front panel is located as described in section "Removing the HDD/SSD cage" on page 82.

11.3.2 Removing the front panel

Figure 86: Disconnecting the front panel cables

Ê Unplug the font panel cable from the midplane (1). Ê Remove the cable from the cable clamp (2).

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Front panel

Figure 87: Unscrewing the front panel

Ê Loosen the front panel by removing two screws (see circle).

Figure 88: Front panel cable guide

Ê Guide the cable through the gap between the panels (1), remove the cable from the cable guide (see arrows) and guide the cable through the gap between the panels (2). Ê Remove the front panel from the chassis.

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11.3.3 Installing the front panel

Figure 89: Front panel cable guide

Ê Guide the cable through the gap between the panels (1), guide the cable behind the cable guide (see arrows) and guide the cable through the gap between the panels (2). Ê Insert the front panel in the chassis.

Figure 90: Unscrewing the front panel

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Front panel Ê Fasten the front panel with two screws (see circle).

Figure 91: Disconnecting the front panel cables

Ê Secure the front panel cables with the cable clamps (1). Ê Connect the front panel cables to the midplane (2).

I It does not matter, which side of the plug is upside. 11.3.4 Concluding steps Perform the following procedures: Ê "Installing the HDD/SSD cage" on page 85. Ê "Installing the fan module" on page 93. Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê "Connecting the power cord" on page 55 Ê "Switching on the server node(s)" on page 56

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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.

12.1

Cabling overview

I The part number of the cables can be the first or the second one. No.

Part number

Type

Description

C1

T26139-Y4042-V1

Front panel

from front panel to Midplane

Table 5: List of used cables

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Cabling

12.2

Cabling

Figure 92: Cabling

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Appendix

13.1

Mechanical overview

13.1.1 Front overview with CX2550 M1/M2 server nodes

Figure 93: Configuration with 24x 2.5" HDDs

Pos. Component 1

Operating panel for server node 1

2

Operating panel for server node 2

3

Operating panel for server node 3

4

Operating panel for server node 4

5

HDDs for server node 1

6

HDDs for server node 2

7

HDDs for server node 3

8

HDDs for server node 4

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13.1.2 Front overview with CX2570 M1/M2 server nodes

Figure 94: Configuration with 12x 2.5" HDDs

Pos. Component 1

Operating panel for server node 1

3

Operating panel for server node 3

4

HDDs for server node 1

5

HDDs for server node 3

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13.1.3 Rear overview with CX2550 M1/M2 server nodes

Figure 95: PRIMERGY CX400 M1 server enclosure rear with CX2550 M1/M2 server nodes

Pos. Component 1

Installation bay 1 for CX2550 M1/M2 server nodes

2

Installation bay 2 for CX2550 M1/M2 server nodes

3

Installation bay 3 for CX2550 M1/M2 server nodes

4

Installation bay 4 for CX2550 M1/M2 server nodes

5

Installation bay 1 for PSU

6

Installation bay 2 for PSU

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13.1.4 Rear overview with CX2570 M1/M2 server nodes

Figure 96: PRIMERGY CX400 M1 server enclosure rear with CX2570 M1/M2 server nodes

Pos. Component 1

Installation bay 1 for CX2570 M1/M2 server nodes

3

Installation bay 3 for CX2570 M1/M2 server nodes

4

Installation bay 1 for PSU

5

Installation bay 2 for PSU

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13.1.5 Enclosure interior

Figure 97: PRIMERGY CX400 M1 interior - 4-node model

Pos. Component 1

2 power supply modules (not visible)

2

2x or 4x CX2550 M1/M2 server nodes (not visible)

3

PSU interposer (not visible)

4

Chassis interface board

5

4-node midplane

6

4x fan modules

7

4x linking boards

8

4x HDD/SSD cages each with 6 HDD/SSD bays (not visible)

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Figure 98: PRIMERGY CX400 M1 interior - 2-node model

Pos. Component 1

2 power supply modules (not visible)

2

2x CX2570 M1/M2 server nodes (not visible)

3

PSU interposer (not visible)

4

Chassis interface board

5

2-node midplane

6

4x fan modules

7

2x linking boards

8

2x HDD/SSD cages each with 6 HDD/SSD bays (not visible)

9

2x HDD/SSD dummy modules (not visible)

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Appendix

13.2

Controls and indicators

13.2.1 Front of the server enclosure

Figure 99: Controls and indicators on the front panel Pos.

Component

Related to:

1

PSU error indicator

server enclosure

2

Fan error indicator

server enclosure

3

Global error indicator

server enclosure

4

AC connected indicator

server enclosure

5

Global error indicator

server node 1

6

ID button

server node 1

7

ID indicator

server node 1

8

Power-on indicator

server node 1

9

On/Off button

server node 1

10

Power-off indicator (AC connected)

server node 1

11

CSS indicator

server node 1

I Each server node has a separate operation area marked with the

corresponding number. In the table above, server node 1 is used as an example

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Appendix 13.2.1.1 Indicators on the front panel (enclosure-related)

PSU

PSU CSS indicator (yellow) Lights up yellow if a hot-plug PSU module failure has been detected.

I To examine, which PSU module is affected, refer to the

diagnostic panel on the cover of the server enclosure (see section "Controls and Indicators on the top cover")

FAN

FAN CSS indicator (yellow) Lights up yellow if a fan module prefailure or failure has been detected.

I To examine, which fan module is affected, refer to the

diagnostic panel on the cover of the server enclosure (see section "Controls and Indicators on the top cover"

Global error indicator (orange)

!

– Lights up orange if a prefailure event has been detected that requires (precautionary) service intervention. – Flashes orange if an error was detected that requires service intervention. – Does not light up if there is no critical event. If the event is still acute after a power cycle, the indicator is activated after the restart. The indicator also lights up in standby mode. You can find more details on the indicated errors in the System Event Log (SEL), in the ServerView Operations Manager or via the iRMC S4's Web interface. AC-connected indicator Lights up green if the server enclosure is connected to the mains.

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Appendix 13.2.1.2 Indicators on the front panel (node-related) Power-on indicator (green) Does not light up when the server node is switched OFF. Lights up green when the server node is in power-on delay and while the system is in normal operation (S0). Flashes slowly (1/2 Hz) green when the iRMC S4 is initialized and is getting ready. Power-off indicator (AC connected) (green) located above the On/Off button Does not light up in the following cases: – the server node is not connected to the mains – the server node is powered on and in normal operation (S0) Lights up green in the following cases: – the server node is in power-off mode but connected to the mains (AC connected) – the server node has been switched on and is in power-on delay

I After connecting the server enclosure to the mains it takes

about 60 seconds until the server nodes enter the standby mode.

Global error indicator (orange)

!

– Lights up orange if a prefailure event has been detected that requires (precautionary) service intervention. – Flashes orange if an error was detected that requires service intervention. – Does not light up if there is no critical event. If the event is still acute after a power cycle, the indicator is activated after the restart. The indicator also lights up in standby mode. You can find more details on the indicated errors in the System Event Log (SEL), in the ServerView Operations Manager or via the iRMC S4's Web interface.

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Appendix

CSS indicator (yellow) – Lights up yellow if a prefailure event was detected for a CSS component that you can fix yourself (for reasons of precaution) with the CSS concept. – Flashes yellow if an error was detected that you can fix yourself with the CSS concept. – Does not light up when the supervised components are OK. If the event is still acute after a power cycle, the indicator is activated after the restart. The indicator also lights up in standby mode. ID

ID indicator (blue) Lights up blue when the server node has been highlighted using ServerView Operations Manager, the iRMC web frontend, or the ID button on the front panel for easy identification.

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Appendix 13.2.1.3 ID card

Figure 100: ID card

You can pull out the ID card (1) as far as it will go and push it back again. The ID card contains various system information, such as the product name, serial number, order number, MAC addresses and DNS name (in the Japanese market, only the product name and the serial number).

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Appendix 13.2.1.4 Indicators on the hard disk drives

Figure 101: Indicators on the 2.5 inch HDD modules

1

HDD/SSD FAULT indicator (orange) (in conjunction with a RAID controller) – Does not light: no HDD error – Lights up: HDD Faulty or Rebuild Stopped (drive defective/needs replacing, a rebuild process was stopped or the HDD module is not correctly inserted) – Slow flashing: HDD Rebuild (the data is being restored after changing a drive) – Fast flashing: HDD Identify – Four fast blinks/pause: HDD Predicted Fault – Two fast flashes/pause: HDD Hot Spare (Hot spare drive active. The corresponding drive has failed).

2

HDD/SSD BUSY indicator (green) – Lights up: HDD in active phase – Does not light: HDD inactive (drive inactive)

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13.2.2 Controls and Indicators on the top cover

Figure 102: Controls and Indicators on the top cover

1

Indicate CSS button Press the Indicate CSS button to highlight defective components (Fans, PSU modules)

2

Fan failure indicators (orange) Lights up orange when a prefailure or failure has been detected for the corresponding double fan module.

3

PSU failure indicators (orange) Lights up orange when a failure has been detected for the corresponding hot-plug PSU module.

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Appendix

4

CSS indicator (yellow) – Lights up yellow if a prefailure event was detected for a CSS component that you can fix yourself (for reasons of precaution) with the CSS concept. – Flashes yellow if an error was detected that you can fix yourself with the CSS concept. – Does not light up when the supervised components are OK. If the event is still acute after a power cycle, the indicator is activated after the restart. The indicator also lights up in standby mode.

5

Global error indicator (orange) – Lights up orange if a prefailure event has been detected that requires (precautionary) service intervention. – Flashes orange if an error was detected that requires service intervention. – Does not light up if there is no critical event. If the event is still acute after a power cycle, the indicator is activated after the restart. The indicator also lights up in standby mode. You can find more details on the indicated errors in the System Event Log (SEL), in the ServerView Operations Manager or via the iRMC S4's Web interface.

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13.2.3 Indicator on hot-plug power supply unit

Figure 103: Indicator on hot-plug PSU

1

Indicator on hot-plug PSU (two colors) Lights up green when the server enclosure is switched on and functioning properly. Lights up yellow if the PSU has failed.

13.2.4 Indicators of the server nodes

I The description of the indicators of the server nodes you may find in the Operating Manual or Upgrade and Maintenance Manual of the corresponding server node.

13.3

Minimum startup configuration Field Replaceable Units (FRU)

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.

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Appendix The minimum startup configuration consists of the following components and cables: Component

Notes and reference

1 Server node CX2550 M1/M2 or CX2570 M1/M2 1 PSU Table 6: Minimum startup configuration - components

Cable

Notes and reference

Power cable Table 7: Minimum startup configuration - cables

Ê Shut down the server as described in section "Shutting down the server node" on page 33. Ê Remove the AC power cord from the cable tie and disconnect it from the system as described in section "Disconnecting the power cord" on page 34. Ê Take the system down to its minimum startup configuration. Ê Reconnect the AC power cord to the power supply module and secure it with a cable tie as described in section "Connecting the power cord" on page 55. Ê Switch on the server as described in section "Switching on the server node(s)" on page 56.

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!

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Fujitsu Integrated System Cluster-in-a-box

14.1

Basic information

Fujitsu Integrated System Cluster-in-a-box is an offered configuration with a pre-installed cluster configuration. The configuration is based on a PRIMERGY CX400 M1 server enclosure with CX2550 M2 server nodes and an HDD/SSD cage for up to 18 2.5 " HDD / SSD modules, two DCtoDC converter modules and two expander modules. You find further information about the pre-installed cluster configuration in the "Fujitsu Cluster-in-a-box Getting Started User Guide"

I The system is pre-installed.

To complete the cluster installation, follow the instructions in the "Fujitsu Cluster-in-a-box Getting Started User Guide".

V CAUTION!

Do not follow the instructions about starting up and operation described in the "PRIMERGY CX2550 M2 Server Node Operating Manual". Do not use ServerView Installation Manager. This will damage your pre-installed solution.

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14.1.1 Overview

Figure 104: Cluster-in-a-box front side

Pos. Component 1

Operating panel for server node 2

2

Operating panel for server node 1

3

Expander module

4

DCtoDC module

5

HDD/SSD modules

6

Operating panel for server node 3

7

Operating panel for server node 4

I Description of the operating panels see section "Front overview with CX2550 M1/M2 server nodes" on page 143.

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Figure 105: Cluster-in-a-box rear side

Pos. Component 1

Installation bay 1 for CX2550 M2 server nodes

2

Installation bay 2 for CX2550 M2 server nodes

3

Installation bay 3 for CX2550 M2 server nodes

4

Installation bay 4 for CX2550 M2 server nodes

5

Installation bay 1 for PSU

6

Installation bay 2 for PSU

14.1.2 HDD/SSD install order Up to 18 HDDs/SSDs are installed in the HDD/SSD cage. The drives are assigned via SAS Expander to all installed CX2550 M2 Server Nodes.

Figure 106: HDD/SDD numbering

The HDD/SSD modules are numbered from 0 to 17 as shown in the figure.

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14.1.3 Indicators and connector Expander module

Figure 107: Indicators and connector Expander module

Pos. Description 1

Power LED

Lights up if the Power is available.

2

Fault LED

Lights up if the Expander module is faulty.

3

SAS connector

to attach additional storage systems

14.1.4 Indicators DCtoDC module

Figure 108: Indicators DCtoDC module

Pos. Description 1

Power LED

Lights up if the Power is available.

2

Fault LED

Lights up if the DCtoDC module is faulty.

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14.2

Replacing an Expander module Customer Replaceable Unit (CRU)

Tools:

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

14.2.1 Preliminary steps No steps needed.

14.2.2 Removing an Expander module

Figure 109: Removing an Expander module (A)

Ê Undo the locking mechanism of the release lever (1). Ê Swing the release lever in the direction of the arrow (2).

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Figure 110: Removing an Expander module (B)

Ê Pull out the Expander module.

14.2.3 Installing an Expander module

Figure 111: Installing an Expander module

Ê Insert the Expander module into its bay and carefully push back as far as it will go (1). Ê Close the release lever in the direction of the arrow (2).

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14.3

Replacing a DCtoDC module Customer Replaceable Unit (CRU)

Tools:

Hardware: 5 minutes

Preliminary and concluding steps: tool-less Main steps: tool-less

14.3.1 Preliminary steps No steps needed.

14.3.2 Removing a DCtoDC module

Figure 112: Removing a DCtoDC module (A)

Ê Undo the locking mechanism of the release lever (1). Ê Swing the release lever in the direction of the arrow (2).

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Figure 113: Removing a DCtoDC module (B)

Ê Pull out the DCtoDC module.

14.3.3 Installing a DCtoDC module

Figure 114: Installing a DCtoDC module

Ê Insert the DCtoDC module into its bay and carefully push back as far as it will go (1). Ê Close the release lever in the direction of the arrow (2).

14.3.4 Concluding steps No steps needed.

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14.4

Replacing the 18x 2.5-inch HDD/SSD backplane Field Replaceable Unit (FRU)

Tools:

Hardware: 15 minutes

Phillips PH2 / (+) No. 2 hexagonal cross SW5 / PZ2

14.4.1 Preliminary steps Perform the following procedures: Ê Shut down the server nodes as described in section "Shutting down the server node" on page 33 Ê Remove all HDD/SSD modules from the HDD/SSD cage as described in section "Removing a 2.5-inch HDD/SSD module" on page 77. Ê Remove the two Expander modules from the HDD/SSD cage as described in section "Removing an Expander module" on page 163. Ê Remove the two DCtoDC modules from the HDD/SSD cage as described in section "Removing a DCtoDC module" on page 165. Ê "Removing the server enclosure out of the rack" on page 35

V CAUTION!

For ALL service tasks, remove the CX400 M1 server enclosure out of the rack and put it on a separate desk! It is not allowed to draw the CX400 M1server enclosure partially out of the rack.

Ê "Opening the server enclosure" on page 43

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14.4.2 Removing the HDD/SSD cage

Figure 115: Removing the HDD/SSD cage (A)

Ê Remove the six screws (see circles).

Figure 116: Removing the HDD/SSD cage (B)

Ê Pull the HDD/SSD cage out of the server enclosure.

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14.4.3 Removing the 18x 2.5-inch HDD/SSD backplane

Figure 117: Removing the 18x 2.5-inch HDD/SSD backplane

Ê Slide the defective HDD/SSD backplane upward (1) out of the guides (see ovals). Ê Remove the HDD/SSD backplane from the HDD/SSD cage (2).

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14.4.4 Installing the 18x 2.5-inch HDD/SSD backplane

A

A

A

A

A

A

A

Figure 118: Installing the 18x 2.5-inch HDD/SSD backplane

Ê Fit the HDD/SSD backplane over the metal tabs (A) of the HDD/SSD cage (1). Ê Slide the HDD/SSD backplane down (2). The HDD/SSD backplane fits behind the guides (see ovals).

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14.4.5 Installing the HDD/SSD cage

Figure 119: Installing the HDD/SSD cage

Ê Push the HDD/SSD cage into the server enclosure as far as it will go. Ê Fasten the HDD/SSD cage with the six screws (see circles).

14.4.6 Concluding steps Perform the following procedures: Ê "Closing the server enclosure" on page 44 Ê "Mounting the server enclosure in the rack" on page 51 Ê Install the two DCtoDC modules as described in section "Installing a DCtoDC module" on page 166. Ê Install the two Expander modules as described in section "Installing an Expander module" on page 164. Ê Install all HDD/SSD modules as described in section "Installing a 2.5-inch HDD/SSD module" on page 75. Ê "Switching on the server node(s)" on page 56

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