Fujitsu PRIMERGY RX2540 M7 Upgrade And Maintenance Manual

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Upgrade and Maintenance Manual - English

FUJITSU Server PRIMERGY RX2540 M7

Upgrade and Maintenance Manual

05/2023

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Page 1 Upgrade and Maintenance Manual - English FUJITSU Server PRIMERGY RX2540 M7 Upgrade and Maintenance Manual 05/2023...
Page 2 All hardware and software names used are trademarks of their respective manufacturers. The contents of this manual may be revised without prior notice. – Fujitsu assumes no liability for damages to third party copyrights or other rights arising from – the use of any information in this manual.
Page 3 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 that these safety notes are understood before using the product.
Page 4 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.
Page 5 HDD, see the following internet address: https://jp.fujitsu.com/platform/server/primergy/harddisk/ Only for Japan: Shielded LAN cables should be used in this product. UK Importer information Fujitsu Services Limited 22 Baker Street, London, W1U 3BW, United Kingdom RX2540 M7 Upgrade and Maintenance Manual...
Page 6 Version history Issue Issue date Description number V 1.0 03/2023 Initial release V 2.0 05/2023 Liquid cooling added Upgrade and Maintenance Manual RX2540 M7...
Page 7: Table Of Contents
Content Introduction Concept and target groups of this manual Notational conventions Before you start Basic information 2.1.1 Proceeding 2.1.2 Advanced Thermal Design (ATD) 2.1.3 Configuration Thermal Design (CTD) 2.1.4 Installing optional components 2.1.5 Replacing a defective component Classification of procedures 2.2.1 Assignment of unit categories 2.2.2...
Page 8 Content 3.2.2 Before starting up 3.2.3 Installation and operation 3.2.4 Batteries 3.2.5 Working with optical disk drives (ODDs) and media 3.2.6 Laser information 3.2.7 Modules with Electrostatic-Sensitive Devices (ESD modules) 3.2.8 Transporting the server 3.2.9 Installing the server in the rack 3.2.10 Other important information ENERGY STAR...
Page 9 Content Reassembling 4.6.1 Safety notes 4.6.2 Installing the top covers 4.6.3 Installing the server in the rack 4.6.4 Sliding the server into the rack Connecting the power cord 4.7.1 Connecting the power cord (AC PSU) 4.7.2 Connecting the power cord (DC PSU) Switching on the server Installing the front cover with lock 4.10...
Page 10 Content 5.2.2 Disabling the boot watchdog 5.2.3 Removing backup and optical disk media 5.2.4 Verifying and configuring the backup software solution 5.2.5 Switching on the ID indicator 5.2.6 Checking boot priority Completing the maintenance task 5.3.1 Updating or recovering the BIOS and iRMC S6 5.3.2 Verifying system information backup or restore 5.3.3...
Page 11 Content Power supply unit (PSU) Safety notes Basic information Redundant power supply 6.3.1 Installing a hot-plug PSU 6.3.2 Removing a hot-plug PSU 6.3.3 Replacing a hot-plug PSU Hard disk drive (HDD) / solid state disk (SSD) Safety notes Basic information Handling HDDs or SSDs without installation frame 7.3.1 3.5-inch HDD and 3.5-inch installation frame...
Page 12 Content 7.6.2 Installing 2.5-inch HDD/SSD modules 7.6.3 Removing 2.5-inch HDD/SSD modules 7.6.4 Replacing a 2.5-inch HDD/SSD module 7.6.5 Installing 2.5-inch PCIe SSD modules 7.6.6 Removing 2.5-inch PCIe SSD modules 7.6.7 Replacing a 2.5-inch PCIe SSD module 7.6.8 Replacing a 8x 2.5-inch HDD backplane 7.6.9 Replacing a 24x 2.5-inch HDD backplane and a switch board SAS expander board...
Page 13 Content Expansion cards and backup units Safety notes Basic information Handling slot brackets 9.3.1 Installing slot brackets 9.3.2 Removing slot brackets Handling SFP+ transceiver modules 9.4.1 Installing SFP+ transceiver modules 9.4.2 Removing SFP+ transceiver modules OCP (Open Compute Project) modules 9.5.1 Position of the OCP module 9.5.2...
Page 14 Content 9.9.4 Replacing a riser card 9.10 Flash backup unit (FBU) 9.10.1 Positions of the FBUs 9.10.2 Installing an FBU 9.10.3 Removing an FBU 9.10.4 Replacing an FBU Main memory 10.1 Safety notes 10.2 Basic information 10.2.1 Slots and features 10.2.2 General memory population rules 10.2.3...
Page 15 Content Liquid cooling (LC) 12.1 Safety notes 12.2 Basic information 12.3 Replacing the CPU for LC device Accessible drives 13.1 Safety notes 13.2 Basic information 13.3 Optical disk drive (ODD) 13.3.1 Storing the ODD latch 13.3.2 Installing the ODD (2.5-inch chassis) 13.3.3 Removing the ODD (2.5-inch chassis) 13.3.4...
Page 16 Content Front panel 15.1 Safety notes 15.2 Basic information 15.3 Common operation panel (COP) 15.3.1 Replacing the COP 15.4 Front VGA 15.4.1 Installing the front VGA 15.4.2 Removing the front VGA 15.4.3 Replacing the front VGA Additional interfaces 16.1 Safety notes 16.2 Serial interface 16.2.1...
Page 17 Content 17.4.4 Removing the TPM 17.4.5 Replacing the TPM 17.5 iRMC microSD card 17.5.1 Note for embedded Lifecycle Management (eLCM) 17.5.2 Installing the iRMC microSD card 17.5.3 Removing the iRMC microSD card 17.5.4 Replacing the iRMC microSD card 17.6 System board 17.6.1 Replacing the system board Appendix A...
Page 18 Content 18.2.3.2 ID, CSS and Global Error indicators 18.2.3.3 LAN indicators 18.2.3.4 Indicator on hot-plug PSU 18.2.4 Acoustic indicators 18.3 Onboard settings 18.4 Minimum startup configuration Appendix B 19.1 Supplied documents Upgrade and Maintenance Manual RX2540 M7...
Page 19: Introduction
Introduction Concept and target groups of this manual This upgrade and maintenance manual provides instructions for the following procedures: – Upgrading the server configuration by adding optional hardware components. – Upgrading the server configuration by replacing existing hardware components with superior ones. –...
Page 20 Introduction "Quotation marks" Indicate names of chapters and terms that are being emphasized. ▶ Describes activities that must be performed in the order shown. [Abc] Indicates keys on the keyboard. Pay particular attention to texts marked with this CAUTION symbol. Failure to observe this warning may endanger your life, destroy the system or lead to the loss of data.
Page 21: Before You Start
Before you start Basic information 2.1.1 Proceeding Before you start any upgrade or maintenance task, proceed as follows: ▶ Carefully read the safety instructions, see "Important information" on page ▶ Make sure that all necessary manuals are available, see "Documentation overview"...
Page 22: Configuration Thermal Design (Ctd)
The operating manual of your server gives an introduction to server features and provides an overview of available hardware options. Use the Fujitsu ServerView Suite management software and the iRMC S6 web interface to prepare hardware expansions. For more information about ServerView Suite documentation, see "Documentation overview"...
Page 23: Replacing A Defective Component
Before you start For the latest information on hardware options, see the hardware configurator of your server, available online at the following address: https://www.fujitsu.com/fts/products/computing/servers/primergy/ index.html For Japan: https://jp.fujitsu.com/platform/server/primergy/system/ (models on sale) https://jp.fujitsu.com/platform/server/primergy/product-navi/ (past models) Please contact your sales outlet for details on how to order expansion kits or spare parts.
Page 24: Customer Replaceable Units (Cru)
Before you start At the beginning of each procedure, the involved unit category is indicated by one of the symbols introduced in this section. Please ask your local Fujitsu service center for more information. 2.2.2 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.
Page 25: Upgrade And Repair Units (Uru)
(Repair Units). For Japan, customer allows only upgrade. For upgrade units as customer replaceable, see: https://www.fujitsu.com/jp/products/computing/servers/primergy/ Server management error messages and diagnostic indicators on the front panel and system board will report defective Upgrade and Repair Units as customer replaceable CSS components.
Page 26: Field Replaceable Units (Fru)
Before you start – iRMC microSD card – LTO drive – M.2 SSDs – M.2 interposer board – Memory modules – microSD card – OCP module – ODD – PCIe riser modules – RDX drive – Rear HDD cage – Rear VGA connector –...
Page 27: Average Task Duration
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 –...
Page 28: Tools You Need At Hand
Before you start Step included Explanation Shutdown time depends on hardware and software configuration and may vary significantly. Server shutdown Software tasks necessary before maintenance, see "Starting the maintenance task" on page Rack removal, Making the server available, removing the disassembly server from the rack (if applicable).
Page 29: Documentation Overview
Important safety information, available online, Regulations" manual or as a printed copy "安全上のご注意" for Japan "FUJITSU Server Information how to install, set up and operate PRIMERGY RX2540 M7 your server, available online Operating Manual" "FUJITSU Server Instructions for upgrading the server PRIMERGY RX2540 M7...
Page 30 "保証書" for Japan printed copy "Returning used devices" Recycling and contact information, available manual online at https://ts.fujitsu.com/recycling, or as a printed copy "Service Desk" leaflet Not applicable in Japan and other countries that "サポート＆サービス" for have different regulations for recycling...
Page 31 Before you start Document Description Additional documentation RAID documentation and "NVMe User Guide", available online at https://support.ts.fujitsu.com/ For Japan: https://www.fujitsu.com/jp/products/computing/ servers/primergy/manual/ Third party documentation – Operating system documentation, online help – Peripherals documentation Table 2: List of documents RX2540 M7...
Page 32 Before you start Upgrade and Maintenance Manual RX2540 M7...
Page 33: Important Information
Important information Introduction In this chapter you will find essential information regarding safety when working on your server. Depending on your server or the installed options some information is not valid for your server. CAUTION ▶ Before installing and starting up a server, please observe the safety instructions listed in the following section.
Page 34: Before Starting Up
Important information ▶ Only valid for non hot-plug components Before installing/removing internal components 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.
Page 35 Important information ▶ If a DC power cord is used, the server must be connected to a proper DC source and earth ground stud/end. ▶ Ensure that the server is connected to a properly grounded power outlet close to the server. ▶...
Page 36 Important information ▶ Proper operation of the server (in accordance with IEC 60950-1/62368-1 resp. EN 60950-1/62368-1) is only ensured if the server is completely assembled and the rear covers for the installation slots have been fitted (electric shock, cooling, fire protection, interference suppression). ▶...
Page 37: Batteries
Important information ▶ Install the screw removed during installation/detaching internal options in former position. To use a screw of the different kind can cause a breakdown of equipment. ▶ The procedure of installation on this notes might change depending on a configuration of option.
Page 38 Important information CAUTION ▶ Only use CDs/DVDs/BDs that are in perfect condition, in order to prevent data loss, equipment damage and injury. ▶ Check each CD/DVD/BD for damage, cracks, breakages etc. before inserting it in the drive. Note that any additional labels applied may change the mechanical properties of a CD/DVD/BD and cause imbalance and vibrations.
Page 39: Laser Information
Important information ▶ Do not bend or place heavy objects on CDs/DVDs/BDs. ▶ Do not write with ballpoint pen or pencil on the label (printed) side. ▶ Do not attach stickers or similar to the label side. Doing so may cause rotational eccentricity and abnormal vibrations.
Page 40 Important information Figure 1: ESD label The ESD label can be different. When you handle ESD modules, you must always observe the following points: ▶ Switch off the server and remove the power plugs from the power outlets before installing or removing ESD modules. ▶...
Page 41: Transporting The Server
Important information 3.2.8 Transporting the server CAUTION ▶ Only transport the server in its original packaging or in packaging that protects it from impacts and jolts. In Japan and APAC, transporting the server in its original packaging does not apply. ▶...
Page 42: Installing The Server In The Rack
Important information 3.2.9 Installing the server in the rack CAUTION ▶ For safety reasons, at least 2 people are required to install the server in the rack because of its weight and size. (For Japan, see "安全上のご注意".) ▶ Never lift the server into the rack using the Quick Release Levers (QRLs) on the front panel.
Page 43: Energy Star
▶ Select the product class, e.g. "Industry Standard Servers". ▶ Select the subclass, e.g. "Rack server". ▶ Select your server, e.g. "PRIMERGY RX2540 M7". ▶ Select the document, e.g. "CE Cert PRIMERGY RX2540 M7". RX2540 M7 Upgrade and Maintenance Manual...
Page 44: Fcc Class A Compliance Statement
▶ 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.
Page 45: Environmental Protection
Important information 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.
Page 46 More information can be found at: https://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 at: https://ts.fujitsu.com/recycling Upgrade and Maintenance Manual RX2540 M7...
Page 47: Basic Hardware Procedures
Using diagnostic information 4.1.1 Proceeding Use the Fujitsu ServerView Suite management software to plan the upgrade or replacement of hardware components. It is recommended to prepare local maintenance tasks using remote diagnostics procedures, see the "ServerView Suite Local Service Concept (LSC)"...
Page 48: Determining The Error Class
Basic hardware procedures 4.1.3 Determining the error class The Local Service Concept (LSC) allows you to identify defective server components. Failure events are assigned to one of two error classes: – Global Error (for non CSS components) events that need to be resolved by maintenance personnel –...
Page 49: Removing The Front Cover With Lock
Basic hardware procedures Using the CSS button on the system board If the system has been powered off, the onboard indicators guides you to the defective component. CAUTION It is mandatory to disconnect all power cords from the system in order to use the Indicate CSS functionality.
Page 50: Shutting Down The Server
Basic hardware procedures ▶ Push in the lock on the left side (1) and remove the front cover in a slight angle from the front (2). Shutting down the server CAUTION ▶ For more information, see "Important information" on page This step is only required when upgrading or replacing non-hot-plug components.
Page 51 Basic hardware procedures Using a cable clamp Figure 4: Unlocking the cable clamp of a PSU ▶ Press the cable clamp down until it disengages (1). ▶ Open the cable clamp (2). ▶ Disconnect the power cord from the PSU and remove it from the cable clamp.
Page 52 Basic hardware procedures Using a hook-and-loop tape Figure 5: Loosening the hook-and-loop tape ▶ Unroll the hook-and-loop tape from the power cord. ▶ Disconnect the power cord from the PSU. Upgrade and Maintenance Manual RX2540 M7...
Page 53: Disconnecting The Power Cord (Dc Psu)
Basic hardware procedures 4.4.2 Disconnecting the power cord (DC PSU) Example DC PSU -48 V Figure 6: Disconnecting the server from the dc voltage - example DC PSU -48 V ▶ Loosen the two studs (1). ▶ Disconnect the power cord from the PSU (2). RX2540 M7 Upgrade and Maintenance Manual...
Page 54 Basic hardware procedures Example HVDC PSU 380 V Figure 7: Disconnecting the server from the dc voltage - example HVDC PSU 380 V ▶ Press the locking latch (A) of the power cord plug inside, until it disengages (1). ▶ Disconnect the power cord from the PSU (2). Upgrade and Maintenance Manual RX2540 M7...
Page 55: Getting Access To The Component
Basic hardware procedures Getting access to the component 4.5.1 Safety notes CAUTION ▶ Only for non-hot plug components: ● Before removing or attaching covers, turn off the server, all peripheral devices, and any other connected devices. ● Because there is a risk of electric shock or damage, please disconnect all power cords from the outlet.
Page 56: Removing The Server From The Rack
Basic hardware procedures Figure 8: Extending the server out of the rack ▶ Fold down the two quick release levers (1). ▶ Pull the server out of the rack until it locks in place (2). CAUTION ▶ Do not use the extended server as a surface on which to put things or as a work surface, and strictly avoid leaning on or against it.
Page 57 Basic hardware procedures 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.
Page 58: Removing The Top Covers
Basic hardware procedures Figure 9: Removing the server from the rack ▶ Press on the locking bars on both rack rails (1). ▶ Lift the server out of the rack rails (2) and place it on an even surface. 4.5.4 Removing the top covers Removing the top cover 1 Figure 10: Removing the top cover 1...
Page 59: Reassembling
Basic hardware procedures ▶ Press the two green buttons inward to release the locking mechanism (1). ▶ Fold the top cover 1 up (2). ▶ Remove the top cover 1 upward (3). Removing the top cover 2 Figure 11: Removing the top cover 2 ▶...
Page 60: Installing The Top Covers
Basic hardware procedures 4.6.2 Installing the top covers Installing the top cover 2 Figure 12: Installing the top cover 2 ▶ Position the top cover 2 on the server (1). Notice the recesses. CAUTION ▶ Take care that all cables are inside the chassis. ▶...
Page 61: Installing The Server In The Rack
For Japan, see also the "Rack system structure guide" and the "Rack Rail Kit Installation Instructions". Online documentation for rack installation can be found at https:// support.ts.fujitsu.com under Product - Rack & Components. For Japan: https://jp.fujitsu.com/platform/server/primergy/manual/peri_rack.html CAUTION At least two people are needed to position the server on the rack rails.
Page 62 Basic hardware procedures 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.
Page 63 Basic hardware procedures Figure 14: Installing the server in the rack rails ▶ Fully extend the rack rails until they lock in place (1). The rack rails must click into place so that they can no longer be moved. ▶ At a slight angle, lower the server onto the rear mounting point on the rack rails (2).
Page 64: Sliding The Server Into The Rack
Basic hardware procedures 4.6.4 Sliding the server into the rack Figure 15: Sliding the server into the rack ▶ Release the locking mechanism of both rails (1). ▶ Push the server as far as it will go into the rack (2) until the two quick release levers engage (3).
Page 65: Connecting The Power Cord
Basic hardware procedures Connecting the power cord 4.7.1 Connecting the power cord (AC PSU) CAUTION The AC PSU adjusts automatically to any mains voltage in the range from 100 V - 240 V (AC PSU Platinum) or 200 V - 240 V (AC PSU Titanium).
Page 66 Basic hardware procedures Using a cable clamp Figure 16: Locking the cable clamp of a PSU ▶ Pull the cable clamp up (1). ▶ Thread the power cord through the cable clamp (2). ▶ Press the cable clamp down until it engages to secure the cable (3). Using a hook-and-loop tape Figure 17: Example PSU with hook-and-loop tape Hook-and-loop tape...
Page 67 Basic hardware procedures Figure 18: Securing the power cord with the hook-and-loop tape (A) ▶ Unroll the hook-and-loop tape. RX2540 M7 Upgrade and Maintenance Manual...
Page 68: Connecting The Power Cord (Dc Psu)
Basic hardware procedures Figure 19: Securing the power cord with the hook-and-loop tape (B) ▶ Secure the mains connector of the power cord with the hook-and-loop tape. 4.7.2 Connecting the power cord (DC PSU) Example DC PSU -48 V CAUTION The DC PSU adjusts automatically to any mains voltage in the range from -40.5 V - -57 V.
Page 69 Basic hardware procedures Figure 20: Connecting the server to the DC voltage - example DC PSU -48 V ▶ Connect the power cord to the PSU (1). ▶ Fasten the two studs (2). ▶ Ensure that the status indicator on the PSU is lit green, see "Indicator on hot-plug PSU"...
Page 70 Basic hardware procedures Example HVDC PSU 380 V CAUTION The HVDC PSU adjusts automatically to any mains voltage in the range from 200 V – 380 V. ▶ You may only operate the server if its rated voltage range corresponds to the local mains voltage. Figure 21: Connecting the server to the DC voltage - example HVDC PSU 380 V ▶...
Page 71: Switching On The Server
Basic hardware procedures Switching on the server CAUTION ▶ Before switching on the server, make sure the top cover is closed. In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the server must not run while the top cover is removed. ▶...
Page 72: Handling Riser Modules
Basic hardware procedures Figure 23: Turning the key ▶ Insert the key. ▶ Turn the key in locked position. 4.10 Handling riser modules 4.10.1 Removing a riser module Removing the riser module 1 Figure 24: Removing the riser module 1 Upgrade and Maintenance Manual RX2540 M7...
Page 73 Basic hardware procedures ▶ Loosen the knurled screw (see circle). ▶ Carefully take out the riser module 1. Removing the riser module 2 Figure 25: Removing the riser module 2 ▶ Loosen the knurled screw (see circle). ▶ Carefully take out the riser module 2. RX2540 M7 Upgrade and Maintenance Manual...
Page 74: Installing A Riser Module
Basic hardware procedures 4.10.2 Installing a riser module Installing the riser module 1 Figure 26: Installing the riser module 1 ▶ Insert the riser module 1. ▶ Fasten the riser module 1 with the knurled screw (see circle). ▶ If applicable, connect internal cables to the expansion card or GPU card. For the cable plan, see "Appendix B"...
Page 75 Basic hardware procedures Installing the riser module 2 Figure 27: Installing the riser module 2 ▶ Insert the riser module 2. ▶ Fasten the riser module 2 with the knurled screw (see circle). ▶ If applicable, connect internal cables to the expansion card or GPU card. For the cable plan, see "Appendix B"...
Page 76: Handling The Fan Cage
Basic hardware procedures 4.11 Handling the fan cage 4.11.1 Removing the fan cage Figure 28: Removing a fan module ▶ Take each fan module by the two handles (1). ▶ Lift the fan module out of the fan cage (2). Upgrade and Maintenance Manual RX2540 M7...
Page 77: Installing The Fan Cage
Basic hardware procedures Figure 29: Removing the fan cage ▶ Open the green locks (1). ▶ Remove the fan cage upward (2). 4.11.2 Installing the fan cage Figure 30: Installing the fan cage RX2540 M7 Upgrade and Maintenance Manual...
Page 78 Basic hardware procedures ▶ Install the fan cage (1). ▶ Close the green locks (2). Figure 31: Installing a fan module ▶ Insert each fan module in the fan cage. ▶ Press down the fan module until it locks. Upgrade and Maintenance Manual RX2540 M7...
Page 79: Handling The Air Duct
Basic hardware procedures 4.12 Handling the air duct 4.12.1 Installing the air duct Installing the air duct Figure 32: Installing the air duct ▶ Install the air duct. Ensure that the air duct engages in the guiding points (see circles). ▶...
Page 80: Removing The Air Duct
Basic hardware procedures Installing the GPU air duct Figure 33: Installing the GPU air duct ▶ Install the GPU air duct. Ensure that the GPU air duct engages in the guiding points (see circles). ▶ If applicable, install all riser modules, see "Handling riser modules"...
Page 81 Basic hardware procedures Removing the air duct Figure 34: Removing the air duct ▶ If applicable, remove all riser modules, see "Handling riser modules" on page ▶ Carefully pull out the air duct upward using the four green touch points. RX2540 M7 Upgrade and Maintenance Manual...
Page 82 Basic hardware procedures Removing the GPU air duct Figure 35: Removing the GPU air duct ▶ If applicable, remove all riser modules, see "Handling riser modules" on page ▶ Carefully pull out the GPU air duct upward. Upgrade and Maintenance Manual RX2540 M7...
Page 83: Handling The Crossbar
Basic hardware procedures 4.13 Handling the crossbar 4.13.1 Removing the crossbar Figure 36: Removing the crossbar ▶ Remove the three screws (see circles). ▶ Remove the crossbar. RX2540 M7 Upgrade and Maintenance Manual...
Page 84: Installing The Crossbar
Basic hardware procedures 4.13.2 Installing the crossbar Figure 37: Installing the crossbar ▶ Place the crossbar on the two alignment pins (1) and on the standoff (2). ▶ Fasten the screw in the middle (2). ▶ Fasten the two screws at the sides (3). Upgrade and Maintenance Manual RX2540 M7...
Page 85: Handling The Rear Air Grids
Basic hardware procedures 4.14 Handling the rear air grids 4.14.1 Removing a rear air grid Removing the rear air grid 1 Figure 38: Removing the rear air grid 1 ▶ Remove the two screws (see circles). ▶ Remove the rear air grid 1. CAUTION Keep the rear air grid for future use.
Page 86 Basic hardware procedures Removing the rear air grid 2 Figure 39: Removing the rear air grid 2 ▶ Remove the two screws (see circles). ▶ Remove the rear air grid 2. CAUTION Keep the rear air grid for future use. ▶...
Page 87: Installing A Rear Air Grid
Basic hardware procedures ▶ Remove the screw (see circle). ▶ Remove the rear air grid 3. CAUTION Keep the rear air grid for future use. ▶ Always replace rear air grids into unused installation locations to comply with applicable EMC regulations and satisfy coolingrequirements.
Page 88 Basic hardware procedures Installing the rear air grid 2 Figure 42: Installing the rear air grid 2 ▶ Insert the rear air grid 2. ▶ Fasten the two screws (see circles). Installing the rear air grid 3 Figure 43: Installing the rear air grid 3 ▶...
Page 89: Basic Software Procedures
Basic software procedures Validation Depending on your server and the installed features some information is not valid for your server. Starting the maintenance task 5.2.1 Suspending BitLocker functionality BitLocker Drive Encryption provides protection for OS and data drives by encrypting the contents and requiring users to authenticate their credentials to access the information.
Page 90: Disabling The Boot Watchdog
Group Policy settings. For more information on how to suspend BitLocker drive encryption, see the Microsoft TechNet library at: https://technet.microsoft.com/library/cc731549.aspx For more information, see the Fujitsu web pages. 5.2.2 Disabling the boot watchdog The boot watchdog determines whether the OS boots within a preset time frame.
Page 91 Basic software procedures task. Otherwise, the boot watchdog might initiate a system reboot before the flash process is complete. CAUTION An incomplete firmware upgrade process may render the server inaccessible or result in damaged/destroyed hardware. Timer settings can be configured in the BIOS or using the iRMC S6 web interface.
Page 92: Removing Backup And Optical Disk Media
Please contact Fujitsu support, if "forcible" tape ejection is necessary. Fujitsu does not assume responsibility for any damage to the tape drive, the data cartridge/tape or for the loss of any data resulting from manual tape extraction procedures.
Page 93: Checking Boot Priority
Basic software procedures Using the ID button on the front panel ▶ Press the ID button on the front panel to switch on the system identification LEDs. For more information, see "Indicators on the COP" on page 538. Using the ID icon in the iRMC S6 web interface ▶...
Page 94: Completing The Maintenance Task
After updating or recovering the BIOS and iRMC, enable the boot watchdog again, see "Enabling the boot watchdog" on page 101. Fujitsu does not assume responsibility for any damage done to the server or for the loss of any data resulting from BIOS updates. Upgrade and Maintenance Manual RX2540 M7...
Page 95 Basic software procedures BIOS flash procedure ▶ Perform the BIOS flash procedure as described in the "BIOS Setup Utility" reference manual of your server. BIOS recovery procedure ▶ Perform the BIOS recovery procedure as described in the "BIOS Setup Utility" reference manual of your server. iRMC flash procedure ▶...
Page 96: Verifying System Information Backup Or Restore
Basic software procedures iRMC recovery procedure ▶ Prepare an USB stick including the bootable iRMC firmware update image. ▶ Ensure that the server has been shut down and disconnected from the mains, see "Disconnecting the power cord" on page ▶ Connect the USB stick containing the iRMC firmware to an USB port. ▶...
Page 97 Event Log (SEL)" on page 105. When using the Infrastructure Manager, please refer to the following manuals about backup and restore function of system information. See manual "FUJITSU Software Infrastructure Manager V2.8.0 User's Guide", section "2.10 Backup/Restore Hardware Settings", available at: https://ts.fujitsu.com/support/ For Japan: See manual "FUJITSU Software Infrastructure Manager V2.8.0 解説書",...
Page 98: Updating Expansion Card Firmware
Check the device driver version number (customer work) before starting work, and apply the firmware corresponding to the device driver version number. The latest expansion card firmware version is available from the Fujitsu support web pages at: https://ts.fujitsu.com/support/ For Japan: https://www.fujitsu.com/jp/products/computing/servers/primergy/downloads/...
Page 99: Reconfiguring The Backup Software Solution
– ServerView Update Manager Express: "Local System Update for PRIMERGY Servers" user guide Using the flash tool The latest firmware files are available as ASPs (Autonomous Support Packages) for Windows or as Linux tools from the Fujitsu support web pages https://ts.fujitsu.com/support/ For Japan: https://www.fujitsu.com/jp/products/computing/servers/primergy/downloads/ 5.3.4...
Page 100: Resetting The Boot Retry Counter
Basic software procedures More information on suitable backup software solutions and related documentation is available from the Fujitsu web pages. 5.3.5 Resetting the boot retry counter The boot retry counter is decremented from its preset value every time the POST watchdog initiates a system reboot. When the value has reached ’0’, the system will shut down and power off.
Page 101: Enabling The Boot Watchdog
Basic software procedures Resetting the boot retry counter in the BIOS ▶ Enter the BIOS. ▶ Select the Management menu. ▶ Under Boot Retry Counter press the [+] or [-] keys to specify the maximum number of boot attempts (0 to 7). ▶...
Page 102: Enabling Replaced Components In The Bios
Basic software procedures Enabling the boot watchdog in the BIOS ▶ Enter the BIOS. ▶ Select the Management menu. ▶ Under Boot Watchdog set the Action setting to Reset. ▶ Save your changes and exit the BIOS. For more information on how to access the BIOS and modify settings, see the corresponding BIOS Setup Utility reference manual.
Page 103: Verifying The Memory Mode
Basic software procedures ▶ Enter the BIOS. ▶ Select the Configuration menu. ▶ Select the status menu of the desired component: ▶ Select PCI Status for expansion cards. ▶ Reset replaced components to Enabled. ▶ Save your changes and exit the BIOS. For more information on how to access the BIOS and modify settings, see the corresponding BIOS Setup Utility reference manual.
Page 104: Verifying The System Time Settings
Basic software procedures 5.3.9 Verifying the system time settings This task only applies to Linux and VMware environments. After the system board or CMOS battery has been replaced, the system time is set automatically. By default, the RTC (Real Time Clock) time standard is set as the local time.
Page 105: Viewing And Clearing The System Event Log (Sel)
Basic software procedures 5.3.10 Viewing and clearing the System Event Log (SEL) You can view the System Event Log (SEL) using the iRMC S6 web interface. You can clear the System Event Log (SEL) using the iRMC S6 web interface. You can collect logs using the Infrastructure Manager.
Page 106: Updating The Nic Configuration File In A Linux And Vmware Environment
The Infrastructure Manager can collect various logs including System Event Log for system operation and maintainance. Please refer to the following manuals of Infrastructure Manager for collecting logs from ISM. See manual "FUJITSU Software Infrastructure Manager V2.8.0 User's Guide", section "2.5 Log Management", available at: https://ts.fujitsu.com/support/ For Japan: See manual "FUJITSU Software Infrastructure Manager V2.8.0 解説書",...
Page 107: Resuming Bitlocker Functionality
Basic software procedures In order to prevent communication problems, it is necessary to update the changed MAC address stored in the related ifcfg-eth<x> definition file. Procedures may differ depending on your Linux/VMware OS or the definition file on the client system. Use the following information as reference.
Page 108: Performing A Raid Array Rebuild
For more information on how to resume BitLocker drive encryption, see the Microsoft TechNet library at: https://technet.microsoft.com/library/cc731549.aspx For more information, see the Fujitsu web pages. 5.3.13 Performing a RAID array rebuild After replacing an HDD that has been combined into a RAID array, RAID rebuild will be performed completely unattended as a background process.
Page 109: Looking For Mac/Wwn/Guid And Sas Addresses
Basic software procedures Figure 44: Progress bar (RAID array rebuild) CAUTION The system is now operational, however, data redundancy will not be available until the RAID array rebuild is complete. Depending on the HDD capacity the overall process can take up to several hours, in some cases even days.
Page 110: Looking For The Mac Address Of A Lan Controller
Basic software procedures Different controllers send different addresses: – LAN controller: MAC (Media Access Control) address – Fibre channel controller: WWN (World Wide Name) address – Infiniband/Omni-Path controller: GUID (Globally Unique IDentifier) address – SAS controller: SAS (Serial Attached SCSI) address 5.3.14.2 Looking for the MAC address of a LAN controller There are several possible locations where these addresses can be found.
Page 111: Looking For The Wwn Address Of A Fibre Channel Controller
Command Line Protocol (CLP) will be displayed. For add-in cards the vendors provide documentation and tools, offered on the Fujitsu support web pages: https://ts.fujitsu.com/support/ Select the server, select Downloads - More Details - Driver. Some vendors bundle the documentation together with the driver package.
Page 112: Looking For The Guid Address Of An Infiniband Or Omni-Path Controller
For more information, see the "iRMC S6 - Web Interface" user guide. ▶ Inform the customer about the new SAS address. The customer need the new SAS address, especially when the server is connected to a Fujitsu Storage ETERNUS system.
Page 113: Using The Chassis Id Prom Tool
– Specified expansion cards (for example EP6xxi) – installing – changing Update your system information using the Chassis ID Prom tool. The tool and more information are available to maintenance personnel from the Fujitsu web RX2540 M7 Upgrade and Maintenance Manual...
Page 114 Basic software procedures pages: https://partners.ts.fujitsu.com/com/service/ps/Servers/PRIMERGY/ ▶ Select your PRIMERGY system from the main area of the page. ▶ From the categories selection, choose Software & Tools Documentation. ▶ In the Tools area click Tools: Chassis-IDProm Tool to download the file (tool-chassis-Idprom-Tool.zip).
Page 115: Configuring Lan Teaming
Basic software procedures Note on Configuration Thermal Design (CTD) If the Configuration Thermal Design (CTD) option is available and has been enabled for your server, please set information within the Chassis ID Prom Tool accordingly. The CTD option can only be ordered from the manufacturer as a factory preset.
Page 116: Switching Off The Id Indicator
Basic software procedures ▶ Confirm with the customer whether the onboard LAN controller you have replaced has been used as part of a LAN teaming configuration. ▶ If LAN teaming has been active, you will need to restore the configuration using the LAN driver utility or OS teaming software.
Page 117: Performing A Fan Test
▶ Click Start Fan Test. For more information on iRMC settings, see the iRMC user guides. In case of maintenance done by Fujitsu engineers in Japan: Executing the fan test via Chassis ID Prom Tool Please follow the instructions provided separately.
Page 118 Basic software procedures Prior to the firmware update the image file to be used is checked. ● The image file is verified to prevent an unauthorized image from being used. ● It is checked if the image file has been tampered with. If the result of the check shows that the image file is not the original one any longer you can configure an automatic recovery of the image file by using a golden image.
Page 119: Updating The Golden Image For Bios Firmware
Basic software procedures Updating the golden image using the Redfish API of the iRMC S6 Further information about the Redfish API of the iRMC S6, see the iRMC S6 Redfish documentation on the Fujitsu support internet pages at: https://ts.fujitsu.com/support/ 5.3.19.2...
Page 120: Setting Boot Priority
For more information on iRMC settings, see the iRMC user guides. Updating the golden image using the Redfish API of the iRMC S6 Further information about the Redfish API of the iRMC S6, see the iRMC S6 Redfish documentation on the Fujitsu support internet pages at: https://ts.fujitsu.com/support/ 5.3.20...
Page 121: Recovering The Esxi Configuration Information Encryption Functionality
Basic software procedures ▶ If needed, change the boot priority by navigating to the Change Boot Order option and pressing the [Enter] key: ▶ Press the [Enter] key to display the current boot order ▶ Press the cursor keys [↑] or [↓] to select the device which you want to move up and down the boot priority list ▶...
Page 122 Basic software procedures For more information about recovery methods, see the "Recover the Secure ESXi Configuration" page at: https://docs.vmware.com/en/VMware-vSphere/7.0/ com.vmware.vsphere.security.doc/GUID-23FFB8BB-BD8B-46F1-BB59- D716418E889A.html Upgrade and Maintenance Manual RX2540 M7...
Page 123: Power Supply Unit (Psu)
Power supply unit (PSU) Safety notes CAUTION ▶ Do not disassemble the PSU. Doing so may cause electric shock. ▶ Areas around the PSU may remain extremely hot after shutdown. After shutting down the server, wait for hot components to cool down before removing the PSU.
Page 124 Power supply unit (PSU) CAUTION The AC PSU adjusts automatically to any mains voltage in the range from 100 V - 240 V (AC PSU Platinum) or 200 V - 240 V (AC PSU Titanium). ▶ You may only operate the server if its rated voltage range corresponds to the local mains voltage.
Page 125 Power supply unit (PSU) Power class Power 1600 W AC PSU Platinum 1600 W AC PSU Titanium 1600 W HVDC PSU 380 V 2200 W AC PSU Platinum 2400 W AC PSU Titanium All different PSUs can be installed, removed or replaced in the same way.
Page 126: Redundant Power Supply
Power supply unit (PSU) PSU bays Figure 45: PSU bays PSU 1 PSU 2 Redundant power supply 6.3.1 Installing a hot-plug PSU Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver (for DC PSU -48 V) The procedure of installing an AC PSU or a DC PSU differs only in connecting the power cord.
Page 127 Power supply unit (PSU) Removing the dummy cover Figure 46: Removing the dummy cover ▶ Press in on both release latches (1) and pull out the dummy cover (2). CAUTION ▶ Keep the dummy cover for future use. ▶ If you remove a PSU and do not immediately replace it with a new one, a dummy cover must be installed in the bay again to comply with applicable EMC regulations and satisfy cooling requirements.
Page 128 Power supply unit (PSU) Installing a hot-plug PSU Figure 47: Installing a hot-pug PSU ▶ Push the PSU into its bay as far as it will go (1) until the release latch (A) snaps in place. ▶ Fold down the handle on the PSU (2). Ensure that the PSU engages correctly in the bay and is locked in position.
Page 129: Removing A Hot-Plug Psu
Power supply unit (PSU) Figure 48: Installing the cable clamp ▶ Only for AC PSU with cable clamp: Push the cable clamp into the corresponding hole until it clicks in. Once installed, the cable clamp cannot be removed and remains a part of the PSU.
Page 130 Power supply unit (PSU) The procedure of removing an AC PSU or a DC PSU differs only in disconnecting/connecting the power cord. Note for removing a hot-plug PSU from a redundant configuration If a hot-plug PSU should be removed from a redundant configuration, while the system is in operation, proceed the following: ▶...
Page 131 Power supply unit (PSU) ▶ Remove the PSU and install the dummy cover carefully. Note for PSU 1: Remove the PSU 1 carefully while lifting PSU 1 and bringing PSU 1 to the right, in order to avoid interference. ▶ Mount the complete assembly (CMA bracket and the CMA) again into the rail.
Page 132 Power supply unit (PSU) ▶ While keeping the green locking latch pressed, pull the PSU out of its bay (3). CAUTION Excessive temperatures could damage system components. ▶ Never leave the bay for the hot-plug PSU empty for more than two minutes during operation.
Page 133: Replacing A Hot-Plug Psu
Power supply unit (PSU) Concluding steps No steps needed. 6.3.3 Replacing a hot-plug PSU Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver (for DC PSU -48 V) The procedure of replacing an AC PSU or a DC PSU differs only in disconnecting/connecting the power cord.
Page 134 Power supply unit (PSU) Preliminary steps ▶ "Locating the defective server" on page ▶ Check which PSU is defective. PSU is defective when the PSU status indicator lights orange. For more information, see "Indicator on hot-plug PSU" on page 553. ▶...
Page 135: Hard Disk Drive (Hdd) / Solid State Disk (Ssd)
Hard disk drive (HDD) / solid state disk (SSD) Safety notes CAUTION ▶ Before removing several HDD/SSD modules, make sure that all HDD/SSD modules can be reinstalled into their original bay. Otherwise, data may be lost. ▶ Do not touch the circuitry on boards or soldered parts. Hold circuit boards by their metallic areas or edges.
Page 136: Basic Information
Hard disk drive (HDD) / solid state disk (SSD) Basic information The HDD or SSD and the installation frame together make up the HDD module or SSD module. The server is shipped with one of the following HDD or SSD subsystems: –...
Page 137 Hard disk drive (HDD) / solid state disk (SSD) For information on RAID controllers controlling the HDD/SSD/PCIe SSD modules, see "Expansion cards and backup units" on page 245. Base units There are five base units available. Base unit Description Type 1 Base unit with up to 10x 3.5-inch HDDs Type 2 Base unit with up to 12x 3.5-inch HDDs...
Page 138: Handling Hdds Or Ssds Without Installation Frame
Hard disk drive (HDD) / solid state disk (SSD) Position Enclosure Slot [10] [11] [12] [13] [14] [15] Information about HDD/SSD slots can also be displayed using the BIOS, "Displaying HDD/SSD slot information" on page 143. Handling HDDs or SSDs without installation frame 7.3.1 3.5-inch HDD and 3.5-inch installation frame...
Page 139 Hard disk drive (HDD) / solid state disk (SSD) Preliminary steps No steps needed. Installing a 3.5-inch HDD in a 3.5-inch installation frame Figure 52: Installing the 3.5-inch HDD in the 3.5-inch installation frame (A) ▶ Lay the 3.5-inch HDD into the 3.5-inch installation frame as shown. Figure 53: Installing the 3.5-inch HDD in the 3.5-inch installation frame (B) RX2540 M7 Upgrade and Maintenance Manual...
Page 140: Inch Hdd/Ssd And 2.5-Inch Installation Frame
Hard disk drive (HDD) / solid state disk (SSD) ▶ Fasten the 3.5-inch HDD with four screws. Removing a 3.5-inch HDD from a 3.5-inch installation frame ▶ Please proceed in reversed order. Concluding steps No steps needed. 7.3.2 2.5-inch HDD/SSD and 2.5-inch installation frame Installing or removing the installation frame is only necessary for Japan.
Page 141: Inch Hdd/Ssd And 3.5-Inch Installation Frame
Hard disk drive (HDD) / solid state disk (SSD) ▶ Lay the 2.5-inch HDD/SSD into the 2.5-inch installation frame as shown. Figure 55: Installing the 2.5-inch HDD/SSD in the 2.5-inch installation frame (B) ▶ Fasten the 2.5-inch HDD/SSD with four screws. Removing a 2.5-inch HDD/SSD from a 2.5-inch installation frame ▶...
Page 142 Hard disk drive (HDD) / solid state disk (SSD) Tools: Phillips PH1 / (+) No. 1 screwdriver In order to use 2.5-inch HDD/SSD, you can install a 2.5-inch HDD/SSD in the 3.5-inch installation frame. Preliminary steps No steps needed. Installing a 2.5-inch HDD/SSD in a 3.5-inch installation frame Figure 56: Installing the 2.5-inch HDD/SSD in the 3.5-inch installation frame (A) ▶...
Page 143: Displaying Hdd/Ssd Slot Information
Hard disk drive (HDD) / solid state disk (SSD) Figure 57: Installing the 2.5-inch HDD/SSD in the 3.5-inch installation frame (B) ▶ Fasten the 2.5-inch HDD/SSD with four screws. Removing a 2.5-inch HDD/SSD from a 3.5-inch installation frame ▶ Please proceed in reversed order. Concluding steps No steps needed.
Page 144 Hard disk drive (HDD) / solid state disk (SSD) Using the BIOS ▶ Enter the BIOS setup menu. ▶ Select the Configuration menu. ▶ Select the SATA Configuration menu. Figure 58: Example - HDD/SSD slot information in BIOS Using the iRMC S6 web interface ▶...
Page 145 Hard disk drive (HDD) / solid state disk (SSD) ▶ Select the desired HDD/SSD. For more information, see the "iRMC S6 - Web Interface" user guide. Figure 59: Example - HDD/SSD slot information in iRMC S6 web interface RX2540 M7 Upgrade and Maintenance Manual...
Page 146: Inch Hdd Configurations
Hard disk drive (HDD) / solid state disk (SSD) 3.5-inch HDD configurations 7.5.1 Overview of configurations 7.5.1.1 Configuration with up to 10 HDD modules The HDD bays can be equipped with 3.5-inch HDD modules or 2.5-inch HDD/SSD modules, see "2.5-inch HDD/SSD and 3.5-inch installation frame"...
Page 147: Configuration With Up To 12 Hdd Modules
Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 10 3.5-inch HDD modules Position Enclosure Slot HBA/ Front without RAID (0) Expander Table 3: iRMC S6 web interface display Information about HDD/SSD slots can also be displayed using the BIOS, "Displaying HDD/SSD slot information"...
Page 148 Hard disk drive (HDD) / solid state disk (SSD) Figure 61: Configuration with up to 12 3.5-inch HDD modules Upgrade and Maintenance Manual RX2540 M7...
Page 149 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 12 3.5-inch HDD modules and 6x 2.5-inch rear HDD modules Position Enclosure Slot Front HBA/ with RAID (0) Expander [10] [11] Rear Table 4: iRMC S6 web interface display RX2540 M7 Upgrade and Maintenance Manual...
Page 150: Installing 3.5-Inch Hdd Modules
Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 12 3.5-inch HDD modules and 4x 2.5-inch rear PCIe SSD modules Position Enclosure Slot HBA/ Front with RAID (0) Expander [10] [11] HBA/ Rear without RAID for NVMe Expander NVMe (1)
Page 151 Hard disk drive (HDD) / solid state disk (SSD) Tools: tool-less Preliminary steps ▶ If applicable, "Removing the front cover with lock" on page ▶ Locate the correct drive bay, see "Overview of configurations" on page 146. Removing a 3.5-inch HDD dummy module Unusable HDD bays contain a HDD dummy with dummy lock to prevent customer from erroneously adding a HDD.
Page 152 Hard disk drive (HDD) / solid state disk (SSD) Figure 63: Removing the 3.5-inch dummy module ▶ Press both tabs together (1) and pull the dummy module out of its bay (2). CAUTION ▶ Keep the dummy module for future use. ▶...
Page 153: Removing 3.5-Inch Hdd Modules
Hard disk drive (HDD) / solid state disk (SSD) Figure 65: Installing the 3.5-inch HDD module ▶ Insert the HDD module into a drive bay and carefully push back as far as it will go (1). ▶ Close the locking lever to lock the HDD module in place (2). ▶...
Page 154 Hard disk drive (HDD) / solid state disk (SSD) Preliminary steps ▶ If applicable, "Removing the front cover with lock" on page ▶ If the HDD module to be removed is combined into a RAID array, please proceed as follows: RAID level Procedure RAID 0...
Page 155 Hard disk drive (HDD) / solid state disk (SSD) ▶ Wait about 30 seconds to allow the HDD to spin down. This period is necessary for the RAID controller to recognize that an HDD module has been removed and for the HDD to come to a stop. ▶...
Page 156: Replacing A 3.5-Inch Hdd Module
Hard disk drive (HDD) / solid state disk (SSD) 7.5.4 Replacing a 3.5-inch HDD module Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: – Installation frame included: tool-less – Installation frame excluded: Phillips PH1 / (+) No. 1 screw driver CAUTION ▶...
Page 157 If the product has reached the end of its life, ask the customer to purchase it again. For Japan, refer to the following: https://jp.fujitsu.com/platform/server/primergy/support/parts/#parts2 Preliminary steps ▶ "Locating the defective server" on page ▶...
Page 158: Replacing The 10X 3.5-Inch Hdd Backplane
Hard disk drive (HDD) / solid state disk (SSD) 7.5.5 Replacing the 10x 3.5-inch HDD backplane Field Replaceable Unit Hardware: 15 minutes (FRU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶...
Page 159 Hard disk drive (HDD) / solid state disk (SSD) Figure 67: Removing the 10x 3.5-inch HDD backplane ▶ Release the eight screws (see circles). ▶ Take out the HDD backplane at a slight angle. Installing the new 10x 3.5-inch HDD backplane Figure 68: Installing the 10x 3.5-inch HDD backplane ▶...
Page 160 Hard disk drive (HDD) / solid state disk (SSD) Figure 69: Connecting cables to the 10x 3.5-inch HDD backplane ▶ Connect the following cables to the HDD backplane: 1 SAS/SATA cable 2 SAS/SATA cable 3 Power cable 4 SAS/SATA cable 5 OOB cable The cables are equipped with labels showing the right connector.
Page 161: Replacing The 12X 3.5-Inch Hdd Backplane
Hard disk drive (HDD) / solid state disk (SSD) ▶ Insert all HDD/SSD modules, see "Installing a 3.5-inch HDD module" on page 152. Ensure that you install the HDD module in the bay it was located before the HDD backplane replacement. ▶...
Page 162 Hard disk drive (HDD) / solid state disk (SSD) ▶ Release all HDD modules and pull them out a few centimeters, see "Removing 3.5-inch HDD modules" on page 153. CAUTION The HDD modules need not to be removed. ▶ If you want to remove them nevertheless, check if all HDD modules are uniquely identified so that you can reinsert them into their original bays.
Page 163 Hard disk drive (HDD) / solid state disk (SSD) Installing the new 12x 3.5-inch HDD backplane Figure 71: Installing the 12x 3.5-inch HDD backplane ▶ Insert the HDD backplane into the chassis. ▶ Fasten the nine screws (see circles). ▶ Install the internal RAID riser module, see "Installing the internal RAID riser module"...
Page 164 Hard disk drive (HDD) / solid state disk (SSD) 1 SAS/SATA cable 2 SAS/SATA cable 3 Power cable 4 SAS/SATA cable 5 OOB cable The cables are equipped with labels showing the right connector. For the cable plan, see "Appendix B" on page 559.
Page 165: Inch Hdd/Ssd Configurations
Hard disk drive (HDD) / solid state disk (SSD) 2.5-inch HDD/SSD configurations 7.6.1 Overview of configurations 7.6.1.1 Configuration with up to 16 HDD / SSD / PCIe SSD modules Figure 73: Configuration with up to 16 2.5-inch HDDs/SSDs Figure 74: Configuration with up to eight 2.5-inch HDDs/SSDs and up to eight 2.5-inch PCIe SSDs RX2540 M7 Upgrade and Maintenance Manual...
Page 166 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 16 2.5-inch HDDs/SSDs Position Enclosure Slot HBA/RAID with Front HDD Expander [10] [11] [12] [13] [14] [15] Table 6: iRMC S6 web interface display Upgrade and Maintenance Manual RX2540 M7...
Page 167 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 16 2.5-inch HDDs/SSDs and four 2.5-inch rear PCIe SSDs, three RAID controllers Position Enclosure Slot 8ch HBA/ Front without RAID (0) Expander [10] [11] 8ch HBA/ Front without RAID (1) Expander...
Page 168 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 16 2.5-inch HDDs/SSDs and four 2.5-inch rear PCIe SSDs, two RAID controllers Position Enclosure Slot 16ch HBA/ without Front HDD RAID (0) Expander [10] [11] [12] [13] [14] [15] HBA/RAID...
Page 169 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to eight 2.5-inch HDDs/SSDs and up to eight PCIe SSDs Position Enclosure Slot HBA/ RAID/ onBoard Front without SATA for Expander SAS/ SATA (0) HBA/ Front without RAID for NVMe Expander [10]...
Page 170: Configuration With Up To 24 Hdd / Ssd / Pcie Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) 7.6.1.2 Configuration with up to 24 HDD / SSD / PCIe SSD modules Figure 75: Configuration with up to 24 2.5-inch HDDs/SSDs HDD/SSD PCIe SSD Figure 76: Configuration with up to 16 2.5-inch HDDs/SSDs and up to eight 2.5-inch PCIe SSDs Upgrade and Maintenance Manual RX2540 M7...
Page 171 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch HDDs/SSDs Position Enclosure Slot 8ch HBA/ Front without RAID (0) Expander [10] [11] 8ch HBA/ Front without RAID (1) Expander [12] [13] [14] [15] [16] [17] [18] [19]...
Page 172 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch HDDs/SSDs and six rear 2.5-inch HDDs/SSDs Position Enclosure Slot 16ch Front without HBA/ Expander RAID (0) [10] [11] [12] [13] [14] [15] Upgrade and Maintenance Manual RX2540 M7...
Page 173: Configuration With Up To 24 Pcie Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) Position Enclosure Slot [16] [17] [18] [19] Front without Expander [20] [21] 16ch [22] HBA/ [23] RAID (1) Rear without Expander Table 11: iRMC S6 web interface display Information about HDD/SSD slots can also be displayed using the BIOS, "Displaying HDD/SSD slot information"...
Page 174 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch PCIe SSDs and up to 6 2.5-inch rear HDDs/SSDs, with SAS expander board - part 1 Position Enclosure Slot [10] [11] 8ch HBA/ Front with Expander RAID (0) [12] [13]...
Page 175 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch PCIe SSDs and up to 6 2.5-inch rear HDDs/SSDs, with SAS expander board - part 2 Position Enclosure Slot 8ch HBA/ Rear with Expander RAID (0) Table 13: iRMC S6 web interface display RX2540 M7 Upgrade and Maintenance Manual...
Page 176 Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch PCIe SSDs and up to 6 2.5-inch rear HDDs/SSDs without SAS expander board - part 1 Position Enclosure Slot [10] [11] 16ch HBA/ Front HDD with Expander RAID (0) [12] [13]...
Page 177: Installing 2.5-Inch Hdd/Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) Configuration with up to 24 2.5-inch PCIe SSDs and up to 6 2.5-inch rear HDDs/SSDs without SAS expander board - part 2 Position Enclosure Slot 16ch HBA/ without Rear HDD RAID (0) Expander Table 15: iRMC S6 web interface display Information about HDD/SSD slots can also be displayed using the BIOS,...
Page 178 Hard disk drive (HDD) / solid state disk (SSD) Figure 78: Removing the dummy lock ▶ Pull the dummy lock out of the dummy cover. Please be aware that the dummy lock can be damaged. Figure 79: Removing a 2.5-inch HDD/SSD dummy module ▶...
Page 179 Hard disk drive (HDD) / solid state disk (SSD) Installing a 2.5-inch HDD/SSD module Figure 80: Opening the locking lever ▶ Pinch the green locking clips (1) and open the locking lever (2). Figure 81: Installing the 2.5-inch HDD/SSD module ▶...
Page 180: Removing 2.5-Inch Hdd/Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) Configuring the RAID array, see the documentation of the RAID controller, used in your configuration, see "Documentation overview" on page Concluding steps ▶ If applicable, "Installing the front cover with lock" on page 7.6.3 Removing 2.5-inch HDD/SSD modules Customer Replaceable...
Page 181 Hard disk drive (HDD) / solid state disk (SSD) RAID level Procedure RAID 0 CAUTION RAID 0 provides no data redundancy. In case of an HDD module is defect, all data are lost! RAID 1 Removing an HDD/SSD module from a RAID 1 or RAID 5 array will not result in data loss.
Page 182 Hard disk drive (HDD) / solid state disk (SSD) ▶ Pull the HDD/SSD module completely out of its bay. Installing a 2.5-inch HDD/SSD dummy module CAUTION ▶ If the removed HDD/SSD module is not replaced immediately, always replace a dummy module into the unused HDD/SSD bay to comply with applicable EMC regulations and satisfy cooling requirements.
Page 183: Replacing A 2.5-Inch Hdd/Ssd Module
Hard disk drive (HDD) / solid state disk (SSD) 7.6.4 Replacing a 2.5-inch HDD/SSD module Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: – Installation frame included: tool-less – Installation frame excluded: Phillips PH1 / (+) No. 1 screw driver CAUTION ▶...
Page 184 If the product has reached the end of its life, ask the customer to purchase it again. For Japan, refer to the following: https://jp.fujitsu.com/platform/server/primergy/support/parts/#parts2 Preliminary steps ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 185: Installing 2.5-Inch Pcie Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) 7.6.5 Installing 2.5-inch PCIe SSD modules Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: tool-less If the PCIe SSD module is controlled by a RAID controller of the PRAID EP5x0i family, the PCIe SSD module can be installed during operation (hot-plug), see "Installing a 2.5-inch HDD/SSD module"...
Page 186 Hard disk drive (HDD) / solid state disk (SSD) Figure 83: Removing the dummy lock ▶ Only valid after upgrading the server with the second HDD backplane: pull the dummy lock out of the dummy cover. Please be aware that the dummy lock can be damaged.
Page 187 Hard disk drive (HDD) / solid state disk (SSD) Installing a 2.5-inch PCIe SSD module Figure 85: Opening the locking lever ▶ Pinch the green locking clips (1) and open the locking lever (2). Figure 86: Installing the 2.5-inch PCIe SSD module ▶...
Page 188: Removing 2.5-Inch Pcie Ssd Modules
Hard disk drive (HDD) / solid state disk (SSD) Concluding steps ▶ If applicable, "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶ If applicable, rescan available devices from your operating system. 7.6.6 Removing 2.5-inch PCIe SSD modules Customer Replaceable...
Page 189 Hard disk drive (HDD) / solid state disk (SSD) Removing a 2.5-inch PCIe SSD module Figure 87: Opening the locking lever ▶ Pinch the green locking clips (1) and open the locking lever (2). ▶ Pull the PCIe SSD module completely out of its bay. Installing a 2.5-inch HDD/SSD dummy module CAUTION ▶...
Page 190: Replacing A 2.5-Inch Pcie Ssd Module
Hard disk drive (HDD) / solid state disk (SSD) Figure 88: Installing the 2.5-inch HDD/SSD dummy module ▶ Push the dummy module into the empty bay until it engages. ▶ If applicable, insert the dummy lock. Concluding steps ▶ If applicable, "Switching on the server"...
Page 191 If the product has reached the end of its life, ask the customer to purchase it again. For Japan, refer to the following: https://jp.fujitsu.com/platform/server/primergy/support/parts/#parts2 Preliminary steps ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 192: Replacing A 8X 2.5-Inch Hdd Backplane
Hard disk drive (HDD) / solid state disk (SSD) Installing the new 2.5-inch PCIe SSD module ▶ Install the PCIe SSD module, see "Installing 2.5-inch PCIe SSD modules" on page 185. Concluding steps ▶ If applicable, "Switching on the server" on page ▶...
Page 193 Hard disk drive (HDD) / solid state disk (SSD) Figure 89: Foams at the 8x 2.5-inch HDD backplanes HDD backplane without foam HDD backplane with one foam at the HDD backplane with one foam in the right side center The HDD backplane (3) may be without foam depending on the server configuration.
Page 194 Hard disk drive (HDD) / solid state disk (SSD) Only for Japan/APAC: Two foams are attached to the spare part of the HDD backplane to allow the replacement in any mounting position. When replacing the HDD backplane, detach the foam according to the original mounting position.
Page 195 Hard disk drive (HDD) / solid state disk (SSD) Removing the defective 8x 2.5-inch HDD backplane ▶ If applicable, remove the SAS expander board holder, see "Removing the SAS expander board holder" on page 208. ▶ If applicable, remove the internal RAID riser module, see "Removing an internal RAID riser module"...
Page 196 Hard disk drive (HDD) / solid state disk (SSD) Installing the new 8x 2.5-inch HDD backplane Figure 93: Installing the 8x 2.5-inch SAS HDD/SSD backplane ▶ Position the HDD backplane on the two hooks (see orange circles). ▶ Push the HDD backplane downward. Make sure that the HDD backplane fits into the guide pins.
Page 197 Hard disk drive (HDD) / solid state disk (SSD) ▶ Connect the following cables to the HDD backplane: 1 SAS/SATA cable 2 Power cable 3 SAS/SATA cable 4 OOB cable For the cable plan, see "Appendix B" on page 559. Example combo HDD backplane: Figure 95: Connecting cables to the 8x 2.5-inch combo HDD backplane (example onboard PCIe)
Page 198: Replacing A 24X 2.5-Inch Hdd Backplane And A Switch Board
Hard disk drive (HDD) / solid state disk (SSD) The cables are equipped with labels showing the right connector. For the cable plan, see "Appendix B" on page 559. CAUTION Incorrect cabling may cause wrong LED identification of the HDD/SSD. Misleading LED could lead to swapping out the wrong HDD/SSD, and that will result in data loss.
Page 199 Hard disk drive (HDD) / solid state disk (SSD) Field Replaceable Unit Hardware: 15 minutes (FRU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 200 Hard disk drive (HDD) / solid state disk (SSD) Figure 96: Removing the 24x 2.5-inch HDD backplane and the switch board ▶ Release the screws (see blue circles). ▶ Pull the HDD backplane upward until the six hooks disengage (see orange circles).
Page 201 Hard disk drive (HDD) / solid state disk (SSD) ▶ Position the HDD backplane on the six hooks (see orange circles). ▶ Push the HDD backplane downward. Make sure that the HDD backplane and the switch board fits into the guide pins. ▶...
Page 202: Sas Expander Board
Hard disk drive (HDD) / solid state disk (SSD) CAUTION Incorrect cabling may cause wrong LED identification of the HDD/SSD. Misleading LED could lead to swapping out the wrong HDD/SSD, and that will result in data loss. ▶ Check the correct cabling using the labels on the cables and the cable plans.
Page 203 Hard disk drive (HDD) / solid state disk (SSD) Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 204 Hard disk drive (HDD) / solid state disk (SSD) ▶ Position the SAS expander board to the four hooks of the SAS expander board holder (see circles). Figure 100: Installing the SAS expander board ▶ Push the SAS expander board in the direction of the arrow. ▶...
Page 205 Hard disk drive (HDD) / solid state disk (SSD) Installing the SAS expander board holder Figure 101: Positioning the SAS expander board holder ▶ Position the SAS expander board holder on the guide pin (see circle). Figure 102: Installing the SAS expander board holder RX2540 M7 Upgrade and Maintenance Manual...
Page 206 Hard disk drive (HDD) / solid state disk (SSD) ▶ Push the SAS expander board holder in direction of the arrow until the guide pin engages. ▶ Fasten the two screws (see circles). Figure 103: Connecting cables to the SAS expander board ▶...
Page 207: Removing The Sas Expander Board
Hard disk drive (HDD) / solid state disk (SSD) Power cable ▶ Connect the power cable to the connector “PWR 4” on the system board. ▶ Connect the signal cable to the connector “SMB2” on the system board. The cables are equipped with labels showing the right connector. For the cable plan, see "Appendix B"...
Page 208 Hard disk drive (HDD) / solid state disk (SSD) ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶ "Removing the fan cage" on page Removing the SAS expander board holder ▶...
Page 209: Replacing The Sas Expander Board
Hard disk drive (HDD) / solid state disk (SSD) Removing the SAS expander board Figure 105: Removing the SAS expander board ▶ Loosen the screw (see circle). ▶ Push the SAS expander board in the direction of the arrow. ▶ Remove the SAS expander board from the SAS expander board holder. Concluding steps ▶...
Page 210 Hard disk drive (HDD) / solid state disk (SSD) Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 211: M.2 Ssd
Hard disk drive (HDD) / solid state disk (SSD) ▶ If applicable, "Installing the front cover with lock" on page M.2 SSD 7.8.1 Slots for M.2 SSDs on the M.2 interposer board The M.2 interposer board offers two M.2 slots (Key M) with support for 80 mm and 110 mm long M.2 SSDs.
Page 212: Installing An M.2 Ssd
Hard disk drive (HDD) / solid state disk (SSD) M.2 SSD slot BIOS menu iRMC SEL M.2 SSD1 Port 4 Port 4 M.2 SSD2 Port 6 Port 6 7.8.2 Installing an M.2 SSD Upgrade and Repair Unit Hardware: 5 minutes (URU) Software: 15 minutes Tools:...
Page 213 Hard disk drive (HDD) / solid state disk (SSD) ▶ If applicable, move the M.2 SSD latch to a fitting position: ▶ Turn the M.2 SSD latch for 90 degrees (1). ▶ Remove the M.2 SSD latch (2). ▶ Install the M.2 SSD latch in the right position depending on the length of the M.2 SSD (3).
Page 214 Hard disk drive (HDD) / solid state disk (SSD) Figure 107: Installing the M.2 SSD (A) ▶ With the label facing up, insert the M.2 SSD into the M.2 slot at a slight angle. ▶ Align the key pin with the M.2 slot. Figure 108: Installing the M.2 SSD (B) ▶...
Page 215 Hard disk drive (HDD) / solid state disk (SSD) Concluding steps ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ "Setting boot priority" on page 120. ▶ If applicable, "Installing the front cover with lock" on page Software configuration In order to install the ESXi to the M.2 SSD, the VMware ESXi installer CD is required.
Page 216: Removing An M.2 Ssd
For Japan In order to setup the ESXi, see the corresponding version of the "VMware vSphere Software Description" from the following URL and reinstall ESXi to the M.2 SSD. https://jp.fujitsu.com/platform/server/primergy/software/vmware/manual/ 7.8.3 Removing an M.2 SSD Upgrade and Repair Unit Hardware: 5 minutes...
Page 217 Hard disk drive (HDD) / solid state disk (SSD) Removing the M.2 SSD Figure 109: Removing the M.2 SSD (A) ▶ Push the green latch in direction of the arrow. Figure 110: Removing the M.2 SSD (B) ▶ Take the M.2 SSD out of its slot at a slight angle. ▶...
Page 218: Replacing An M.2 Ssd
If the product has reached the end of its life, ask the customer to purchase it again. For Japan, refer to the following: https://jp.fujitsu.com/platform/server/primergy/support/parts/#parts2 Preliminary steps ▶ "Locating the defective server" on page ▶...
Page 219: Installing The M.2 Interposer Board
Hard disk drive (HDD) / solid state disk (SSD) Replacing the M.2 SSD ▶ Remove the defective M.2 SSD, see "Removing an M.2 SSD" on page 216. ▶ Install the new M.2 SSD, see "Installing an M.2 SSD" on page 212.
Page 220 Hard disk drive (HDD) / solid state disk (SSD) ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶ "Removing the air duct" on page 80 ▶ "Removing the fan cage"...
Page 221 Hard disk drive (HDD) / solid state disk (SSD) Connecting the M.2 interposer board Figure 112: Connecting the M.2 interposer board ▶ Connect the M.2 interposer board cable to M.2 interposer board. ▶ Insert the M.2 interposer board cable in the cable clamp (A). ▶...
Page 222: Removing The M.2 Interposer Board
Hard disk drive (HDD) / solid state disk (SSD) ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page 7.8.6 Removing the M.2 interposer board Upgrade and Repair Unit...
Page 223 Hard disk drive (HDD) / solid state disk (SSD) Disconnecting the M.2 interposer board Figure 113: Disconnecting the M.2 interposer board cable ▶ Remove the M.2 interposer board cable from the cable clamp (A). ▶ Disconnect the M.2 interposer board cable (see circles). ▶...
Page 224 Hard disk drive (HDD) / solid state disk (SSD) Removing the M.2 interposer board Figure 114: Removing the M.2 interposer board ▶ Loosen the two screws (see circles). ▶ Remove the M.2 interposer board. Concluding steps ▶ If applicable, "Installing the SAS expander board holder" on page 205.
Page 225: Replacing The M.2 Interposer Board
Hard disk drive (HDD) / solid state disk (SSD) 7.8.7 Replacing the M.2 interposer board Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶...
Page 226 Hard disk drive (HDD) / solid state disk (SSD) Concluding steps ▶ If applicable, "Installing the SAS expander board holder" on page 205. ▶ If applicable, install the riser module 2, see "Installing a riser module" on page ▶ "Installing the fan cage" on page ▶...
Page 227: Rear Hdd/Ssd Extension Box
Hard disk drive (HDD) / solid state disk (SSD) Rear HDD/SSD extension box 7.9.1 Basic information (rear HDD/SSD) Position of the rear HDD cages Figure 115: Position of the rear HDD cages HDD cage 1 HDD cage 3 HDD cage 2 Replacing failed or aged drives The tables show the location of the HDD in the device, BIOS Setup or HII Configuration Utility, and the description in the OS log for each AHCI/PRAID...
Page 228: Upgrading With Rear Hdd Cage 1 And Rear Hdd Cage
Hard disk drive (HDD) / solid state disk (SSD) Example for iRMC S6 web interface display Position Enclosure Slot Information about HDD/SSD slots can also be displayed using the BIOS, "Displaying HDD/SSD slot information" on page 143. 7.9.2 Upgrading with rear HDD cage 1 and rear HDD cage 2 Upgrade and Repair Unit Hardware: 10 minutes...
Page 229 Hard disk drive (HDD) / solid state disk (SSD) ▶ If applicable, "Removing the front cover with lock" on page ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶...
Page 230 Hard disk drive (HDD) / solid state disk (SSD) Figure 117: Connecting the cables to the rear HDD backplane (example with SATA cable) ▶ Connect the following cables to the rear HDD backplane: 1 SAS/SATA cable depending on configuration 2 Power cable to HDD backplane and connector "PWR7" on system board 3 OOB cable to HDD backplane and connector "SMB3"...
Page 231 Hard disk drive (HDD) / solid state disk (SSD) Figure 118: Installing the rear HDD cage 2 ▶ Position the rear HDD cage 2 into the chassis (1). ▶ Push the rear HDD cage 2 in the direction of the arrow (2). ▶...
Page 232 Hard disk drive (HDD) / solid state disk (SSD) Figure 119: Connecting the cables to the rear HDD backplane (example with slimline cable) ▶ Connect the following cables to the rear HDD backplane: 1 SAS/SATA cable depending on configuration 2 Power cable to HDD backplane and connector "PWR7" on system board 3 OOB cable to HDD backplane and connector "SMB3"...
Page 233: Upgrading With Rear Hdd Cage 3
Hard disk drive (HDD) / solid state disk (SSD) Concluding steps ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶...
Page 234 Hard disk drive (HDD) / solid state disk (SSD) ▶ "Removing the rear air grid 2" on page Installing the rear HDD cage 3 Figure 120: Installing the rear HDD cage 3 ▶ Position the rear HDD cage 3 into the chassis (1). ▶...
Page 235 Hard disk drive (HDD) / solid state disk (SSD) Figure 121: Connecting the cables to the rear HDD backplane (example with SATA cable) ▶ Connect the following cables to the rear HDD backplane: 1 SAS/SATA cable depending on configuration 2 Power cable to HDD backplane and connector "PWR8" on system board 3 OOB cable to HDD backplane and connector "SMB3"...
Page 236: Replacing A Rear 2X 2.5-Inch Hdd Backplane
Hard disk drive (HDD) / solid state disk (SSD) Installing additional HDD/SSD/PCIe SSD modules ▶ Insert additional HDD/SSD modules, see "Installing 2.5-inch HDD/SSD modules" on page 177 or PCIe SSD modules, see "Installing 2.5-inch PCIe SSD modules" on page 185. Concluding steps ▶...
Page 237 Hard disk drive (HDD) / solid state disk (SSD) ▶ Release all HDD/SSD modules and pull them out a few centimeters, see "Removing a 2.5-inch HDD/SSD module" on page 181. The HDD/SSD modules need not to be removed. But if you want to remove them nevertheless, check if all HDD/SSD modules are uniquely identified so that you can reinsert them into their original bays.
Page 238 Hard disk drive (HDD) / solid state disk (SSD) Installing the rear 2x 2.5-inch HDD backplane Figure 123: Installing the rear 2x 2.5-inch HDD backplane ▶ Position the rear HDD backplane. ▶ Fasten the screw (see circle). ▶ Connect the cables to the rear HDD backplane. The cables are equipped with labels showing the right connector.
Page 239 Hard disk drive (HDD) / solid state disk (SSD) ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ Verify that the iRMC S6 recognizes the installed HDDs/SSDs. ▶ If applicable, "Installing the front cover with lock"...
Page 240 Hard disk drive (HDD) / solid state disk (SSD) Upgrade and Maintenance Manual RX2540 M7...
Page 241: Fans
Fans Safety notes 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.
Page 242 Fans Fan type (FJ P/N: CA05950-2152) is a dual rotor fan. In the system information (Chassis ID EPROM) the term "Dual Fan" is used in system names. CAUTION Depending on the configuration, different fan types are necessary! ▶ Please check, if you ordered the correct fans. Numbering of the fan modules Figure 124: Numbering of the fan modules Pos.
Page 243: Replacing A Fan Module
Fans Replacing a fan module Customer Replaceable Hardware: 5 minutes Unit (CRU) Tools: tool-less Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶ "Getting access to the component" on page ▶...
Page 244 Fans Installing the fan module Figure 126: Installing the fan module ▶ Insert the fan module in the fan cage. ▶ Press down the fan module until it locks. Concluding steps ▶ "Reassembling" on page ▶ If applicable, "Installing the front cover with lock" on page ▶...
Page 245: Expansion Cards And Backup Units
Expansion cards and backup units Safety notes 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.
Page 246: Basic Information
Expansion cards and backup units Basic information FRONT PANEL SMB 2 CPU 2 DIMM-1M PWR 6 CPU 2 DIMM-2M CPU 2 DIMM-1L PSU 1 PSU1 CPU 2 DIMM-2L GPGPU Riser Slot 10 CPU 2 DIMM-1K Slot 9 CPU 2 DIMM-2K Slot 9 CPU 2 DIMM-1 Slot riser card...
Page 247 Expansion cards and backup units Figure 128: Internal RAID riser module kit For system relevant information, see the hardware configurator of your server available online at the following address: https://ts.fujitsu.com/products/standard_servers/index.html For Japan: https://jp.fujitsu.com/platform/server/primergy/system/ (models on sale) https://jp.fujitsu.com/platform/server/primergy/product-navi/ (past models) Slot offered...
Page 248 Expansion cards and backup units Slot offered Type Description Slot 5 (CPU2) PCIe Gen5 x8 low profile slot Slot 6 (CPU2) PCIe Gen5 x8 low profile slot Slot 7 (CPU2) PCIe Gen5 x16 low profile slot Slot 8 (CPU2) PCIe Gen5 x16 low profile slot Slot 9/10 (CPU2) PCIe Gen5 x16...
Page 249: Handling Slot Brackets
Expansion cards and backup units Position of riser modules Figure 129: Positions of riser modules Riser module 1, offers PCIe slot 3/4 or Riser module 2, offers PCIe slot 9/10 PCIe slot 3 (GPGPU riser module). or PCIe slot 9 (GPGPU riser module). Handling slot brackets 9.3.1 Installing slot brackets...
Page 250 Expansion cards and backup units Figure 130: Perforated and non-perforated slot brackets Full height bracket non-perforated Low profile bracket perforated Full height bracket perforated Installing a slot bracket ▶ Place the controller on the mounting tabs on the slot bracket. ▶...
Page 251 Expansion cards and backup units Example: EP540i Figure 131: Placing the slot bracket ▶ Turn the controller to his bottom side. ▶ Place the controller on the slot bracket. ▶ Secure the slot bracket to the expansion card with two screws (see circles). Figure 132: EP540i with installed slot bracket ▶...
Page 252: Removing Slot Brackets
Expansion cards and backup units 9.3.2 Removing slot brackets Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screwdriver Removing a slot bracket ▶ Remove the two screws. ▶ Remove the controller from the mounting tabs on the slot bracket. Handling SFP+ transceiver modules 9.4.1 Installing SFP+ transceiver modules...
Page 253 Expansion cards and backup units Installing SFP+ transceiver modules Figure 133: Removing the protective cap ▶ Remove the SFP+ transceiver module from its protective packaging. ▶ Remove the protective cap from the new/additional SFP+ transceiver module. CAUTION ▶ Always keep the protective caps attached to the SFP+ transceiver modules and fiber-optic cable connectors until you are ready to make a connection.
Page 254 Expansion cards and backup units Figure 134: Unlatching the locking bail ▶ Carefully unlatch and fold down the locking bail on the SFP+ transceiver module. Upgrade and Maintenance Manual RX2540 M7...
Page 255 Expansion cards and backup units Figure 135: Inserting the SFP+ transceiver module ▶ Insert and slide the SFP+ transceiver module into the socket connector as far as it will go. RX2540 M7 Upgrade and Maintenance Manual...
Page 256 Expansion cards and backup units Figure 136: Latching the locking bail ▶ Carefully fold up and latch the locking bail. Upgrade and Maintenance Manual RX2540 M7...
Page 257 Expansion cards and backup units Figure 137: Installing the protective cap ▶ If the SFP+ transceiver module is not immediately connected, attach the protective cap to the SFP+ transceiver module. RX2540 M7 Upgrade and Maintenance Manual...
Page 258: Removing Sfp+ Transceiver Modules
Expansion cards and backup units Figure 138: Installing the secondary SFP+ transceiver module ▶ If applicable, install the secondary SFP+ transceiver module accordingly. 9.4.2 Removing SFP+ transceiver modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less The SFP+ transceiver modules are hot-pluggable. The activation replacement depends on the system configuration.
Page 259 Expansion cards and backup units Removing an SFP+ transceiver module Figure 139: Removing the protective cap ▶ If present, remove the protective cap from the SFP+ transceiver module. CAUTION ▶ Keep the protective cap for future use. RX2540 M7 Upgrade and Maintenance Manual...
Page 260 Expansion cards and backup units Figure 140: Unlatching the locking bail ▶ Carefully unlatch and fold down the locking bail on the SFP+ transceiver module to eject the transceiver from the socket connector. Upgrade and Maintenance Manual RX2540 M7...
Page 261 Expansion cards and backup units Figure 141: Removing the SFP+ transceiver module ▶ Pull the SFP+ transceiver module out of its socket connector. ▶ Attach the protective cap to the SFP+ transceiver module. Place the removed SFP+ transceiver module in an antistatic bag or other protective environment.
Page 262: Ocp (Open Compute Project) Modules
Expansion cards and backup units OCP (Open Compute Project) modules 9.5.1 Position of the OCP module Figure 142: Position of OCP module at the rear side OCP module There are different OCP modules available. OCP modules can be equipped with SFP+ transceiver modules, see "Handling SFP+ transceiver modules"...
Page 263 Expansion cards and backup units Preliminary steps ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page Removing the OCP dummy cover Figure 143: Removing the OCP dummy cover ▶ Loosen the knurled screw (1). ▶ Pull the OCP dummy cover open to release the hook on the left side (2). ▶...
Page 264 Expansion cards and backup units Installing the OCP module Figure 144: Installing the OCP module ▶ Push the OCP module into the slot. Ensure that the left cant fits into the reccess. ▶ Fasten the OCP module with the knurled screw (see circle). Concluding steps ▶...
Page 265: Removing An Ocp Module
Expansion cards and backup units 9.5.3 Removing an OCP module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less Preliminary steps ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page Removing the OCP module Figure 145: Removing the OCP module ▶...
Page 266: Replacing The Ocp Module
Expansion cards and backup units Installing the OCP dummy cover Figure 146: Installing the OCP dummy cover ▶ Insert the OCP dummy cover at a slight angle (1). Notice the position of the hook and the reccess in the chassis (A). ▶...
Page 267 Expansion cards and backup units Tools: tool-less MAC/WWN/GUID and SAS addresses will be changed by replacing an expansion card or by replacing the system board. Inform the customer about that before starting these tasks. After doing these tasks, inform the customer about the changed MAC/WWN/GUID and SAS addresses. Notes on network settings recovery When replacing network controllers or the system board, network configuration settings in the OS will be lost and replaced by default...
Page 268 Expansion cards and backup units Preliminary steps ▶ "Locating the defective server" on page ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page Removing the defective OCP module ▶ Remove the OCP module, see "Removing an OCP module" on page 265.
Page 269: Expansion Cards In Standard Pcie Slots
Expansion cards and backup units Expansion cards in standard PCIe slots 9.6.1 Installing an expansion card Upgrade and Repair Unit Hardware: 5 minutes (URU) Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Suspending BitLocker functionality" on page ▶...
Page 270 Expansion cards and backup units Removing the slot cover Figure 147: Removing the slot cover ▶ Loosen the screw (see circle). ▶ Remove the slot cover. CAUTION Keep the slot cover for future use. ▶ Always replace slot covers into unused PCI slot openings to comply with applicable EMC regulations and satisfy cooling requirements.
Page 271 Expansion cards and backup units Figure 148: Installing the expansion card ▶ Carefully insert the expansion card into the desired PCIe slot and press down firmly until it is fully seated in the slot. ▶ If applicable, install SFP+ transceiver modules into the new expansion card, "Installing SFP+ transceiver modules"...
Page 272 Expansion cards and backup units Example PRAID EP 3258-16i Figure 149: Connecting cables - PRAID EP 3258-16i ▶ Connect the following cables: 1 If applicable, FBU cable 2 HDD LED cable 3 SAS cables Upgrade and Maintenance Manual RX2540 M7...
Page 273 Expansion cards and backup units Example EP6xxi RAID controller Figure 150: Connecting cables to the RAID controller ▶ Connect the FBU adapter cable to the RAID controller (1). ▶ Connect the HDD LED cable to the RAID controller (2). RX2540 M7 Upgrade and Maintenance Manual...
Page 274 Expansion cards and backup units Figure 151: Installing the RAID controller ▶ Install the RAID controller. ▶ Fasten the screw (see circle). ▶ Connect the HDD LED cable to connector "HDD LED1" on the system board (see circle). Upgrade and Maintenance Manual RX2540 M7...
Page 275 Expansion cards and backup units Example SAS CP5xxi Figure 152: Connecting cables - SAS CP5xxi ▶ Connect the following cables: 1 If applicable, HDD LED cable 2 SAS cable The cables are equipped with labels showing the right connector. For the cable plan, see "Appendix B"...
Page 276 Expansion cards and backup units CAUTION Incorrect cabling may cause wrong LED identification of the HDD/SSD. Misleading LED could lead to swapping out the wrong HDD/SSD, and that will result in data loss. ▶ Check the correct cabling using the labels on the cables and the cable plans.
Page 277 Expansion cards and backup units Figure 154: Installing M.2 SSDs (A) ▶ Insert the two M.2 SDDs in a slight angle. Figure 155: Installing M.2 SSDs (B) ▶ Fasten each M.2 SSD with one screw (see circles). RX2540 M7 Upgrade and Maintenance Manual...
Page 278: Removing An Expansion Card
Expansion cards and backup units Concluding steps ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶ If applicable, update the system information of your server using the Chassis ID Prom Tool, see "Using the Chassis ID Prom Tool"...
Page 279 Expansion cards and backup units Figure 156: Removing the expansion card ▶ Remove the screw (see circle). ▶ Carefully remove the expansion card from its slot. Installing the slot cover CAUTION ▶ Always replace slot covers into unused PCIe slot openings to comply with applicable EMC regulations and satisfy cooling requirements.
Page 280 Expansion cards and backup units Figure 157: Installing the slot cover ▶ Insert a slot cover into the unused PCIe slot opening. ▶ Fasten the screw (see circle). Concluding steps ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶...
Page 281: Replacing An Expansion Card
For Japan, refer to the following: https://jp.fujitsu.com/platform/server/primergy/support/parts/#parts2 MAC/WWN/GUID and SAS addresses will be changed by replacing an expansion card or by replacing the system board. Inform the customer about that before starting these tasks.
Page 282 Expansion cards and backup units Note on expansion card replacement Some FC/CNA/LAN/IB cards support adjusting the firmware version after maintenance and replacement to the specified version. There are cards that support matching the number of editions specified by the customer to manage the card. Also, check the settings before replacing some cards and reconfigure after replacing some cards.
Page 283 Expansion cards and backup units Installing the new expansion card ▶ If applicable, install the slot bracket, see "Installing slot brackets" on page 249. ▶ Install the expansion card, see "Installing an expansion card" on page 269. Concluding steps ▶ "Reassembling"...
Page 284: Gpu Cards In Riser Modules
Expansion cards and backup units GPU cards in riser modules 9.7.1 Installing a GPU card in a riser module Upgrade and Repair Unit Hardware: 5 minutes (URU) Software: 5 minutes Tools: – Phillips PH2 / (+) No. 2 screw driver –...
Page 285 Expansion cards and backup units Figure 158: Removing the two slot covers ▶ Remove the two slot covers. CAUTION ▶ Keep the slot cover for future use. ▶ If the expansion card is removed and not replaced with a new one, the slot cover must be reinstalled due to cooling, to comply with applicable EMC regulations and to protect against fire.
Page 286 Expansion cards and backup units Figure 159: Connecting the GPU power cable ▶ Connect the GPU power cable to the GPU card (see circle). ▶ Connect the GPU signal cable to the GPU card. Figure 160: Installing the GPU card in a riser module Upgrade and Maintenance Manual RX2540 M7...
Page 287 Expansion cards and backup units Figure 161: Removing the GPU dummy bracket ▶ If applicable, remove the screw (see circle). ▶ If applicable, remove the GPU dummy bracket. ▶ Carefully insert the GPU card into the PCIe slot and press down firmly until it is fully seated in the slot.
Page 288 Expansion cards and backup units Figure 162: Locking the GPU card ▶ Ensure that the GPU riser module latch locks completely in the riser card (see circle). Upgrade and Maintenance Manual RX2540 M7...
Page 289 Expansion cards and backup units Figure 163: Running the GPU cables ▶ Run the GPU cables in the guide slots (A). ▶ Run the GPU cables through the cable clamp (1). ▶ Connect the GPU power cable to the system board connector "PWR 7" (riser module 2) or "PWR 8"...
Page 290: Removing A Gpu Card From A Riser Module
Expansion cards and backup units ▶ If applicable, update the system information of your server using the Chassis ID Prom Tool, see "Using the Chassis ID Prom Tool" on page 113. ▶ "Updating expansion card firmware" on page ▶ "Resuming BitLocker functionality" on page 107.
Page 291 Expansion cards and backup units Figure 164: Unlocking the GPU latch ▶ Push the GPU latch to unlock it. RX2540 M7 Upgrade and Maintenance Manual...
Page 292 Expansion cards and backup units Figure 165: Removing the GPU card from a riser module ▶ Carefully remove the GPU card from its slot. Figure 166: Installing the two slot covers Upgrade and Maintenance Manual RX2540 M7...
Page 293: Replacing A Gpu Card From A Riser Module
Expansion cards and backup units ▶ Install the two slot covers. Concluding steps ▶ "Installing the crossbar" on page ▶ "Installing the air duct" on page ▶ If applicable, install the corresponding riser module, see "Installing a riser module" on page ▶...
Page 294 Expansion cards and backup units Preliminary steps ▶ "Suspending BitLocker functionality" on page ▶ If applicable, "Removing the front cover with lock" on page ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶...
Page 295: Replacing A Riser Card
Expansion cards and backup units 9.7.4 Replacing a riser card Field Replaceable Unit Hardware: 5 minutes (FRU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 296 Expansion cards and backup units Figure 167: Removing the riser card ▶ Remove the four screws (see circles). ▶ Remove the riser card. Installing the new riser card Figure 168: Installing the riser card Upgrade and Maintenance Manual RX2540 M7...
Page 297: Internal Raid Riser Module
Expansion cards and backup units ▶ Insert the riser card. ▶ Fasten the riser card with four screws (see circles). ▶ Install the GPU card, see "Installing a GPU card in a riser module" on page 284. Concluding steps ▶ Install the corresponding riser module, see "Installing a riser module"...
Page 298 Expansion cards and backup units Installing the internal RAID riser module Figure 169: Connecting cables to the internal RAID riser module ▶ Connect the following cables to the internal RAID riser module: 1 HDD LED cable 2 SLIM SAS cable, depending on configuration 3 SLIM SAS cable, depending on configuration 4 Power cable The cables are equipped with labels showing the right connector.
Page 299 Expansion cards and backup units Figure 170: Bolts for the internal RAID riser module ▶ Notice the three bolts (see circles). Figure 171: Installing the internal RAID riser module RX2540 M7 Upgrade and Maintenance Manual...
Page 300 Expansion cards and backup units ▶ Place the internal RAID riser module on the three bolts (1). ▶ Push the internal RAID riser module to the front to engage the holes and the bolts (2). ▶ Fasten the Internal RAID riser module with the knurled screw (see circle). Installing the RAID controller ▶...
Page 301 Expansion cards and backup units ▶ Install the Internal RAID controller in a slight angle. A capacitor under the Internal RAID controller could interfere with the Internal RAID riser module and fall off. ▶ Carefully press the RAID controller into the riser card slot, until it clicks into place.
Page 302 Expansion cards and backup units Figure 173: Connecting cables to the system board ▶ Connect the following cables: 1 Slim SAS cable to connector "MCIO2" on the system board 2 Slim SAS cable to connector "MCIO1" on the system board 3 Power cable to connector "PWR 1"...
Page 303: Removing An Internal Raid Riser Module
Expansion cards and backup units Concluding steps ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶...
Page 304 Expansion cards and backup units Removing the RAID controller Figure 174: Removing the RAID controller ▶ If necessary, disconnect the cables from the RAID controller. ▶ Disconnect the HDD LED cable (1). ▶ Remove the two screws holding the RAID controller to the internal RAID riser module (2).
Page 305 Expansion cards and backup units ▶ Pull out the RAID controller from the riser card slot. Install the Internal RAID controller in a slight angle into the riser card slot. Otherwise, a capacitor under the Internal RAID controller could interfere with the Internal RAID riser module and fall off (see circles). Removing the internal RAID riser module Figure 175: Removing the internal RAID riser module ▶...
Page 306: Replacing An Internal Raid Riser Module
Expansion cards and backup units ▶ Push the internal RAID riser module to the rear to disengage the holes and the bolts (1). ▶ Remove the internal RAID riser module (2) in a slight angle. Concluding steps ▶ "Installing the fan cage" on page ▶...
Page 307: Replacing A Riser Card
Expansion cards and backup units ▶ "Locating the defective component" on page Removing the defective expansion card ▶ Remove the internal RAID riser module, see "Removing the internal RAID riser module" on page 305. ▶ Remove the RAID controller, see "Removing the RAID controller"...
Page 308 Expansion cards and backup units Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Locating the defective server" on page ▶ If applicable, "Removing the front cover with lock" on page ▶ "Shutting down the server" on page ▶...
Page 309 Expansion cards and backup units Installing the new riser card Figure 177: Installing the riser card ▶ Insert the riser card. ▶ Fasten the riser card with two screws (see circles). ▶ Install the internal RAID riser card, see "Installing the RAID controller" on page 300.
Page 310: Expansion Cards In Riser Modules
Expansion cards and backup units Expansion cards in riser modules 9.9.1 Installing an expansion card in a riser module Upgrade and Repair Unit Hardware: 5 minutes (URU) Software: 5 minutes Tools: – Phillips PH2 / (+) No. 2 screw driver –...
Page 311 Expansion cards and backup units Installing the expansion card in a riser module Figure 178: Removing the two slot covers ▶ Remove the two slot covers. CAUTION ▶ Keep the slot cover for future use. ▶ If the expansion card is removed and not replaced with a new one, the slot cover must be reinstalled due to cooling, to comply with applicable EMC regulations and to protect against fire.
Page 312 Expansion cards and backup units Figure 179: Installing the expansion card in a riser module ▶ Carefully insert the expansion card into the desired PCIe slot and press down firmly until it is fully seated in the slot. ▶ If applicable, install SFP+ transceiver modules into the new expansion card, "Installing SFP+ transceiver modules"...
Page 313: Removing An Expansion Card From A Riser Module
Expansion cards and backup units ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶ If applicable, update the system information of your server using the Chassis ID Prom Tool, see "Using the Chassis ID Prom Tool"...
Page 314 Expansion cards and backup units Figure 180: Removing the expansion card from a riser module ▶ Carefully remove the expansion card from its slot. Figure 181: Installing the two slot covers ▶ If necessary, install the two slot covers. Upgrade and Maintenance Manual RX2540 M7...
Page 315: Replacing Expansion Cards From A Riser Module
Expansion cards and backup units Concluding steps ▶ If applicable, install the corresponding riser module, see "Installing a riser module" on page ▶ If applicable, install the corresponding rear air grid, see "Installing a rear air grid" on page ▶ "Reassembling"...
Page 316 Expansion cards and backup units ▶ If applicable, "Configuring LAN teaming" on page 115. ▶ "Suspending BitLocker functionality" on page ▶ "Checking boot priority" on page ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶...
Page 317: Replacing A Riser Card
Expansion cards and backup units ▶ Inform the customer about changed WWN, MAC and SAS addresses, see "Looking for MAC/WWN/GUID and SAS addresses" on page 109. ▶ "Updating the NIC configuration file in a Linux and VMware environment" on page 106.
Page 318 Expansion cards and backup units ▶ Remove the corresponding riser module, see "Removing a riser module" on page Removing the defective riser card ▶ Remove the expansion card, see "Removing an expansion card" on page 278. Figure 182: Removing the riser card ▶...
Page 319 Expansion cards and backup units Installing the new riser card Figure 183: Installing the riser card ▶ Insert the riser card. ▶ Fasten the riser card with four screws (see circles). ▶ Install the expansion card, see "Installing an expansion card" on page 269.
Page 320: Flash Backup Unit (Fbu)
Expansion cards and backup units 9.10 Flash backup unit (FBU) 9.10.1 Positions of the FBUs You can install up to two FBUs. Figure 184: Positions of the FBUs - air duct FBU 1 FBU 2 Upgrade and Maintenance Manual RX2540 M7...
Page 321: Installing An Fbu
Expansion cards and backup units Figure 185: Positions of the FBUs - air duct FBU 1 FBU 2 9.10.2 Installing an FBU Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver (for cover 2) Preliminary steps ▶...
Page 322 Expansion cards and backup units Note for different types of FBU There are different types of FBU, the procedure is identical. Figure 186: FBU type 1 ▶ Connect the FBU adapter cable (1) to the FBU cable (2). Upgrade and Maintenance Manual RX2540 M7...
Page 323 Expansion cards and backup units Figure 187: FBU type 2 ▶ Depending of the configuration, connect the FBU extension cable (1) to the FBU cable (2). RX2540 M7 Upgrade and Maintenance Manual...
Page 324 Expansion cards and backup units Installing the FBU in the FBU holder Figure 188: Installing the FBU in the holder ▶ At a slight angle, fit the FBU under both retaining brackets of the FBU holder as shown. Notice the right position of the FBU cable: ▶...
Page 325 Expansion cards and backup units Installing the FBU with the FBU holder Figure 189: Bolts on the air duct ▶ Notice the three bolts on the air duct and key holes on the FBU holder (see circles). The FBU holder is fixed with the bolts and the keyholes on the air duct.
Page 326: Removing An Fbu
Expansion cards and backup units Figure 190: Installing the FBU with the FBU holder ▶ Insert the FBU with the holder and slide in direction of the arrow until the FBU holder engages (see circle). ▶ Install the RAID controller, see "Installing an expansion card"...
Page 327 Expansion cards and backup units Tools: Phillips PH2 / (+) No. 2 screw driver (for cover 2) CAUTION ▶ Dispose of used battery properly. Keep away from children. ▶ Do not throw flash backup units into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.
Page 328: Replacing An Fbu
Expansion cards and backup units ▶ Lift up the green locking handle on the holder (see circle) while sliding the holder in direction of the arrow as far as it will go. ▶ Remove the FBU holder from the system air duct. Removing the FBU Figure 192: Removing the FBU from the holder ▶...
Page 329 Expansion cards and backup units Tools: Phillips PH2 / (+) No. 2 screw driver (for cover 2) CAUTION ▶ Dispose of used battery properly. Keep away from children. ▶ Do not throw flash backup units into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste.
Page 330 Expansion cards and backup units ▶ "Switching on the server" on page The recalibration of the FBU starts automatically, and finishes within a few minutes. ▶ Verify whether the iRMC recognizes the installed FBU. ▶ If applicable, "Installing the front cover with lock" on page Upgrade and Maintenance Manual RX2540 M7...
Page 331: Main Memory
Main memory 10.1 Safety notes CAUTION ▶ Before removing several memory modules, make sure that all memory modules can be reinstalled into their original slots. Otherwise, data may be lost. ▶ Do not install unsupported third party memory modules. For more information on supported memory modules, see "Basic information"...
Page 332: Basic Information
Main memory 10.2 Basic information 10.2.1 Slots and features FRONT PANEL SMB 2 CPU 2 DIMM-1M PWR 6 CPU 2 DIMM-2M CPU 2 DIMM-1L PSU 1 PSU1 CPU 2 DIMM-2L GPGPU Riser Slot 10 CPU 2 DIMM-1K Slot 9 Slot 9 CPU 2 DIMM-2K CPU 2 DIMM-1 Slot riser card...
Page 333 Main memory – Supports DDR5 up to 4800 MT/s – Up to 4 TB / 2 CPUs using DDR5 DIMM (256 GB x32) – Error detection and correction (ECC) – Single Device Data Correction (SDDC) – ADDDC Sparing (Virtual lockstep mode) –...
Page 334 The notation of the CPUs, memory channels and DIMM sockets correspond to the silk print on the system board. For system relevant information, see the hardware configurator of your server available online at the following address: https://ts.fujitsu.com/products/standard_servers/index.html For Japan: https://jp.fujitsu.com/platform/server/primergy/system/ (models on sale) https://jp.fujitsu.com/platform/server/primergy/product-navi/...
Page 335: General Memory Population Rules
Main memory 10.2.2 General memory population rules General memory population rules for 1DPC configuration – All DIMMs must be DDR5 DIMMs modules. – All DIMMs in a channel in across of a CPU socket must have the same number of ranks (unless explicitly specified otherwise). –...
Page 336 Main memory Figure 197: Mixing of DIMM within an iMC - 3DS RDIMM General memory population rules for 2DPC configuration – All DIMMs must be DDR5 DIMMs modules. – All DIMMs in a channel in across of a CPU socket must have the same number of ranks (unless explicitly specified otherwise).
Page 337: Ddr5 Only - Memory Population Rules
Figure 198: Mixing of DIMM within an iMC - RDIMM Figure 199: Mixing of DIMM within an iMC - 3DS RDIMM For memory population rules, see the hardware configurator of your server, available online at the following address: https://www.fujitsu.com/fts/products/computing/servers/primergy/ index.html For Japan: https://jp.fujitsu.com/platform/server/primergy/system/ (models on sale) https://jp.fujitsu.com/platform/server/primergy/product-navi/...
Page 338 Main memory – Rank sparing mode is not supported. For more information, see the "FUJITSU Server PRIMERGY Option Product System Configuration Diagram (Notes)". Figure 200: Normal mode DDR5 DIMM is installed SGX is supported Figure 201: Mirroring mode DDR5 DIMM is installed...
Page 339 – Rank sparing, ADDDC, channel mirroring, hemisphere modes are not supported with SGX. – Rank sparing mode is not supported. – SPR+HBM does not support hemi/SNC2 modes For more information, see the "FUJITSU Server PRIMERGY Option Product System Configuration Diagram (Notes)". RX2540 M7 Upgrade and Maintenance Manual...
Page 340 Main memory Figure 202: Normal mode DDR5 DIMM is installed SGX is supported Figure 203: Mirroring mode DDR5 DIMM is installed The DIMM population will exactly be identical for the mirrored channels. SGX is not supported. Upgrade and Maintenance Manual RX2540 M7...
Page 341: Installing Memory Modules
Main memory 10.3 Installing memory modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver (for cover 2) CAUTION ▶ Use only released configurations to ensure a faultless operation of the system. ▶...
Page 342 Main memory Installing a memory module Figure 204: Opening the securing clips ▶ Press the securing clips on both sides of the memory slot concerned outward. ▶ If applicable, remove the dummy module. Figure 205: Installing a memory module ▶ Align the notch (A) on the bottom of the module with the crossbar in the slot. ▶...
Page 343 Main memory Figure 206: Correct position of securing clips To improve the contact of the memory module perform the following steps: ▶ Eject the memory module again by pressing out the securing clips at each end of the memory slot. ▶...
Page 344: Removing Memory Modules
Main memory ▶ If applicable, "Installing the front cover with lock" on page ▶ "Resuming BitLocker functionality" on page 107. 10.4 Removing memory modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screwdriver (for cover 2) CAUTION ▶...
Page 345: Replacing Memory Modules
Main memory Removing a memory module Figure 207: Removing memory modules ▶ Eject the desired memory module by pressing out the securing clips at each end of the memory slot (1). ▶ Remove the ejected memory module (2). ▶ If applicable, install a dummy module, see "Installing a memory dummy module"...
Page 346 Main memory CAUTION ▶ Use only released configurations to ensure a faultless operation of the system. ▶ Before changing the memory configuration, verify if the configuration is released. Please contact your sales outlet or our customer service center. Preliminary steps ▶...
Page 347: Handling Memory Dummy Modules
Main memory ▶ If applicable, "Installing the front cover with lock" on page ▶ "Resuming BitLocker functionality" on page 107. After replacing memory modules, the Memory Status of them are reset to Enabled automatically and CSS LED is off. If CSS LED is blinking after they are replaced, check the Memory Status in the Configuration menu of the BIOS.
Page 348 Main memory Figure 209: Installing a memory dummy module - variant 2 ▶ Align the notch on the bottom of the module with the crossbar in the slot. ▶ Press down on the dummy module until the securing clips snap into the cutouts at each end of the module.
Page 349: Processor (Cpu)
Processor (CPU) 11.1 Safety notes CAUTION ▶ Do not install unsupported CPUs. For more information on supported CPUs, see "Basic information" on page 350. ▶ Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g.
Page 350: Basic Information
Processor (CPU) 11.2 Basic information FRONT PANEL SMB 2 CPU 2 DIMM-1M PWR 6 CPU 2 DIMM-2M CPU 2 DIMM-1L PSU 1 PSU1 CPU 2 DIMM-2L GPGPU Riser Slot 10 CPU 2 DIMM-1K Slot 9 CPU 2 DIMM-2K Slot 9 CPU 2 DIMM-1 Slot riser card Slot riser card...
Page 351 Processor (CPU) For system relevant information, see the hardware configurator of your server available online at the following address: https://ts.fujitsu.com/products/standard_servers/index.html For Japan: https://jp.fujitsu.com/platform/server/primergy/system/ (models on sale) https://jp.fujitsu.com/platform/server/primergy/product-navi/ (past models) CAUTION Depending on the configuration, different heat sinks are necessary! ▶...
Page 352: Upgrading To 2 Cpus Configuration
Processor (CPU) Figure 212: EVAC CPU heat sink 11.3 Upgrading to 2 CPUs configuration Upgrade and Repair Unit Hardware: 15 minutes (URU) Software: 5 minutes Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx 30 screw driver (for CPU heat sink) CAUTION CPUs are extremely sensitive to electrostatic discharge and therefore must always be handled with care.
Page 353 Processor (CPU) Preliminary steps ▶ "Suspending BitLocker functionality" on page ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶ "Removing the air duct" on page ▶ "Removing the CPU dummy cover"...
Page 354 Processor (CPU) ▶ Press in the latches and remove the CPU socket cover. ▶ Save the CPU socket cover for future use. Installing the CPU CAUTION When replacing a system board ▶ Use a magnifying glass (recommended) to inspect the socket spring contacts for damages from different angles.
Page 355 Processor (CPU) Figure 215: Installing the CPU frame on the CPU ▶ Click the CPU frame into the CPU. Ensure that the triangle marks on CPU and on CPU frame are on the same edge (see circles). ▶ Ensure that the CPU fits in its place. RX2540 M7 Upgrade and Maintenance Manual...
Page 356 Processor (CPU) Installing the heat sink Figure 216: Marks on heat sink and CPU frame ▶ If applicable, remove the protective cover from the heat sink. ▶ If using a heat sink again, clean residual thermal paste from the heat sink surface using a lint-free cloth.
Page 357 Processor (CPU) Figure 217: Installing the heat sink onto the CPU frame ▶ Place the heat sink onto the CPU frame. RX2540 M7 Upgrade and Maintenance Manual...
Page 358 Processor (CPU) Figure 218: Installing the heat sink (A) ▶ Push the four latches inward (see arrows). ▶ Carefully place the heat sink onto the CPU socket. Take care of air flow direction. Upgrade and Maintenance Manual RX2540 M7...
Page 359 Processor (CPU) Figure 219: Installing the heat sink (B) ▶ Push the four latches outward (see arrows). ▶ Fasten the four captive screws in the sequence printed on the heat sink (1 to 4), by proceeding as follows: Torque: 0.9 Nm -1.0 Nm ▶...
Page 360 Processor (CPU) Note when tightening the screws of the CPU heat sink: ▶ As shown in the figure below, tighten the screws while checking the screw tip until it is visible through the screw hole. ▶ When you reach the above position, hold the screw driver with two fingers and tighten the screw firmly.
Page 361 Processor (CPU) Figure 220: Installing the EVAC CPU heat sink ▶ Install the EVAC CPU heat sink in the same way. ▶ Fasten the two additional screws in any order (see circles). Torque: 0.6 Nm Upgrading the main memory ▶ Select an adequate memory configuration for "2 CPUs populated", see "Basic information"...
Page 362: Handling The Cpu Dummy Cover
Processor (CPU) Concluding steps ▶ "Installing the air duct" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page When the system is powered on after a CPU has been replaced or upgraded, the Global Error indicator will start flashing with the message CPU has been changed.
Page 363 Processor (CPU) Figure 221: The CPU dummy cover Clips used to hold the CPU dummy Element blocking the unavailable cover in place memory slots from use CPU dummy cover foam The CPU dummy cover is installed over the unused CPU socket and is held in place by clips (1) that are installed into the first two memory slots next to it.
Page 364 Processor (CPU) Installing the CPU dummy cover Figure 222: Installing the CPU dummy cover ▶ Open the securing clips at each end of the two memory slots closest to the CPU socket (1). ▶ Lower the CPU dummy cover onto the socket and install it in the open memory slots (2).
Page 365: Replacing A Cpu Or Heat Sink
Processor (CPU) Removing the CPU dummy cover Figure 223: Removing the CPU dummy cover from the socket ▶ Eject the CPU dummy cover from the memory slot by pressing out the securing clips at each end of the memory slot on both sides of the CPU socket (1).
Page 366 Processor (CPU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx 30 screw driver (for CPU heat sink) CAUTION CPUs are extremely sensitive to electrostatic discharge and therefore must always be handled with care. ▶...
Page 367 Processor (CPU) Removing the heat sink Figure 224: Removing an EVAC CPU heat sink ▶ First loosen the two screws of the EVAC heat sink in any order (see circles). RX2540 M7 Upgrade and Maintenance Manual...
Page 368 Processor (CPU) Figure 225: Removing the heat sink ▶ Loosen the captive screws in the sequence printed on the heat sink (1 to 4) by proceeding as follows: Torque: 0.9 Nm - 1.0 Nm ▶ First, loosen the captive screws 4 and 3 completely. ▶...
Page 369 Processor (CPU) Figure 226: Lifting the heat sink ▶ Lift the heat sink together with the CPU frame out of the chassis. CAUTION ▶ Pay special attention not to damage any system board components surrounding the CPU socket. RX2540 M7 Upgrade and Maintenance Manual...
Page 370 Processor (CPU) Removing the CPU Figure 227: Removing the CPU ▶ Open the lever of the CPU frame to lift up the CPU (1). ▶ Remove the CPU from the CPU frame (2). ▶ Clean residual thermal paste from the CPU surface using a lint-free cloth and store the CPU in a save place.
Page 371 Processor (CPU) Applying the thermal paste to the heat sink surface For Japan, the service engineer must follow the instruction provided separately. If the CPU upgrade or replacement kit contains a new heat sink, a thin layer of thermal compound has already been pre-applied to its lower surface.
Page 372 Processor (CPU) Figure 229: Applying the thermal paste ▶ Apply a small point-shaped amount of thermal paste (1.0 gram, see description above) to the center of the heat sink lower surface as shown. CAUTION ▶ Do not mix different types of thermal paste. Installing the CPU and heat sink ▶...
Page 373 Processor (CPU) When the system is powered on after a CPU has been replaced or upgraded, the Global Error indicator will start flashing with the message CPU has been changed. This only indicates that the CPU configuration has been altered. There is no technical problem.
Page 374 Processor (CPU) Upgrade and Maintenance Manual RX2540 M7...
Page 375: Liquid Cooling (Lc)
Liquid cooling (LC) 12.1 Safety notes CAUTION ▶ Do not install unsupported CPUs. For more information on supported CPUs, see "Basic information" on page 350. ▶ Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g.
Page 376: Replacing The Cpu For Lc Device
Liquid cooling (LC) Parts of the LC kit Figure 230: LC kit LC heat sink with pump for CPU 1 Quick connector block Cable clips LC heat sink with pump for CPU 2 Tubes 12.3 Replacing the CPU for LC device Field Replaceable Unit Hardware: 15 minutes (FRU)
Page 377 Liquid cooling (LC) CAUTION CPUs are extremely sensitive to electrostatic discharge and therefore must always be handled with care. ▶ After a CPU has been removed from its protective sleeve or from its socket, place it upside down on a nonconducting, antistatic surface. ▶...
Page 378 Liquid cooling (LC) Figure 231: Removing the screws ▶ Remove the screws of the quick connector block (see circles). ▶ Remove the quick connector block. Figure 232: Removing the LC heat sink (A) Upgrade and Maintenance Manual RX2540 M7...
Page 379 Liquid cooling (LC) ▶ Loosen the captive screws in the sequence printed on the heat sink (1 to 4) by proceeding as follows: Tool: Torx 30 screwdriver Torque: 0.9 Nm ▶ First, loosen the captive screws 1 and 2 completely. ▶...
Page 380 Liquid cooling (LC) Removing the CPU Figure 234: Removing the CPU (A) ▶ Open the lever of the CPU frame to lift up the CPU. Figure 235: Removing the CPU (B) ▶ Disengage the four edges of the CPU frame and remove the CPU frame (see circles).
Page 381 Liquid cooling (LC) ▶ Clean residual thermal paste from the CPU surface using a lint-free cloth and store the CPU in a save place. CAUTION CPUs are extremely sensitive to electrostatic discharge and therefore must always be handled with care. ▶...
Page 382 Liquid cooling (LC) ▶ Click the CPU into the CPU frame. Ensure that the triangle marks on the CPU and on the CPU frame are on the same edge (see close-up, circles). ▶ Ensure that the CPU fits in its place. Installing the LC kit Figure 237: Turning around the heat sinks ▶...
Page 383 Liquid cooling (LC) Figure 238: Bottom of the heat sinks ▶ Apply the thermal paste onto the bottom of the LC heat sinks (A), see "Applying the thermal paste to the heat sink surface" on page 371. RX2540 M7 Upgrade and Maintenance Manual...
Page 384 Liquid cooling (LC) Figure 239: Installing the CPU onto the LC heat sink ▶ Place the CPU with the CPU frame onto the LC heat sink. ▶ Ensure that the triangle marks on the LC heat sink and on the CPU frame are on the same edge (see close-up).
Page 385 Liquid cooling (LC) Figure 240: Installing the LC heat sink (A) ▶ Push the four latches outward. Figure 241: Installing the LC heat sink (B) RX2540 M7 Upgrade and Maintenance Manual...
Page 386 Liquid cooling (LC) ▶ Fasten the four captive screws in the sequence printed on the LC heat sink (1 to 4), by proceeding as follows: Tool: Torx 30 screwdriver Torque: 0.9 Nm ▶ First, fasten the captive screws 1 and 2 completely. ▶...
Page 387 Liquid cooling (LC) Figure 242: Running the tubes ▶ Run the tubes as shown. ▶ Fasten the tubes with the cable clips (see circles). Figure 243: Installing the quick connector block ▶ Place the quick connector block in the chassis. ▶...
Page 388 Liquid cooling (LC) ▶ Install the OCP dummy cover or the OCP module, see "Installing the OCP dummy cover" on page 266 "Installing an OCP module" on page 262. ▶ Install the rear air grid 2, see "Installing the rear air grid 2" on page ▶...
Page 389: Accessible Drives
"Important information" on page 13.2 Basic information Depending on the type of system, the PRIMERGY RX2540 M7 offers: – one 5.25-inch accessible drive bay for ODDs – one bay (optional) for an LTO drive or a RDX drive ODD drive is not available for 12x 3.5-inch HDD versions and 24x 2.5- inch HDD/SSD versions.
Page 390 Accessible drives Figure 244: Accessible drives in front panel module 10x 3.5-inch HDD version Figure 245: Accessible drives in front panel module 16x 2.5-inch HDD version LTO drive/ RDX drive Upgrade and Maintenance Manual RX2540 M7...
Page 391: Optical Disk Drive (Odd)
Accessible drives 13.3 Optical disk drive (ODD) 13.3.1 Storing the ODD latch Figure 246: Storing the ODD latch The ODD latch is fastened with two screws to the crossbar (see circle). 13.3.2 Installing the ODD (2.5-inch chassis) Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools:...
Page 392 Accessible drives ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶ "Removing the fan cage" on page Removing the ODD dummy cover Figure 247: Removing the dummy cover ▶...
Page 393 Accessible drives Installing the ODD ▶ If no ODD has been installed before: ▶ Remove the two screws and take the ODD latch from the chassis (see Figure 246). Figure 248: Installing the ODD latch on the ODD ▶ Fasten the ODD latch with two screws to the rear side of the ODD (see circles).
Page 394 Accessible drives Figure 249: Installing the ODD ▶ Insert the ODD into the chassis (see arrow) until the ODD latch engages in the rear bracket (see close-up). Figure 250: Connecting the cable to the ODD ▶ Connect the ODD cable to the ODD (see arrow). Upgrade and Maintenance Manual RX2540 M7...
Page 395 Accessible drives Figure 251: Routing of the ODD cable to the system board ▶ Route the ODD cable as shown. ▶ Connect the ODD cable to the connector "PWR ODD" on the system board (see circle). Concluding steps ▶ "Installing the fan cage" on page ▶...
Page 396: Removing The Odd (2.5-Inch Chassis)
Accessible drives 13.3.3 Removing the ODD (2.5-inch chassis) Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) Preliminary steps ▶...
Page 397 Accessible drives Removing the ODD Figure 252: Removing the ODD (A) ▶ Disconnect the ODD cable from the ODD (1). ▶ Unlock the ODD latch (2). RX2540 M7 Upgrade and Maintenance Manual...
Page 398 Accessible drives Figure 253: Removing the ODD (B) ▶ Remove the ODD. Upgrade and Maintenance Manual RX2540 M7...
Page 399 Accessible drives Figure 254: Removing the ODD latch from the ODD ▶ Remove the two screws (see circles). ▶ Remove the ODD latch. ▶ If no new ODD will be installed: ▶ Fasten the ODD latch with two screws to the chassis (see Figure 246).
Page 400: Replacing The Odd (2.5-Inch Chassis)
Accessible drives Installing the ODD dummy cover Figure 255: Installing the dummy cover ▶ Insert the dummy cover and push it inward until it engages at the other side. Concluding steps ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶...
Page 401 Accessible drives Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) Preliminary steps ▶ "Locating the defective server" on page ▶...
Page 402: Installing The Odd (3.5-Inch Chassis)
Accessible drives ▶ "Setting boot priority" on page 120. ▶ Check the settings of the ODD in the BIOS and iRMC S6 web interface. ▶ "Resuming BitLocker functionality" on page 107. 13.3.5 Installing the ODD (3.5-inch chassis) Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools:...
Page 403 Accessible drives Removing the ODD dummy cover Figure 256: Removing the dummy cover ▶ Pull the dummy cover out of the bay. CAUTION ▶ Keep the dummy cover for future use. ▶ If you remove the accessible drive again and do not replace it with a new one, the dummy cover must be reinstalled to comply with EMC regulations and to satisfy cooling requirements and fire protection measures.
Page 404 Accessible drives Figure 257: Installing the ODD latch on the ODD ▶ Fasten the ODD latch with two screws to the rear side of the ODD (see circles). Upgrade and Maintenance Manual RX2540 M7...
Page 405 Accessible drives Figure 258: Removing the ODD cage ▶ Release the green latch located above the 3.5-inch HDD backplane to unlock the ODD cage (1). ▶ Push the ODD cage out of the chassis (2). RX2540 M7 Upgrade and Maintenance Manual...
Page 406 Accessible drives Figure 259: Installing the ODD into the ODD cage ▶ Install the ODD into the ODD cage (see arrow) until the ODD latch engages in the rear bracket (see circle). Upgrade and Maintenance Manual RX2540 M7...
Page 407 Accessible drives Figure 260: Connecting the ODD cable ▶ Connect the ODD cable to the ODD. RX2540 M7 Upgrade and Maintenance Manual...
Page 408 Accessible drives Figure 261: Installing the ODD cage ▶ Install the ODD cage into the chassis. Upgrade and Maintenance Manual RX2540 M7...
Page 409 Accessible drives Figure 262: Locking the ODD cage ▶ Lock the ODD cage with the green latch (see close-up). RX2540 M7 Upgrade and Maintenance Manual...
Page 410 Accessible drives Figure 263: Routing of the ODD cable to the system board ▶ Route the ODD cable as shown. ▶ Connect the ODD cable to the connector "PWR ODD" on the system board (see circle). Concluding steps ▶ "Installing the fan cage" on page ▶...
Page 411: Removing The Odd (3.5-Inch Chassis)
Accessible drives 13.3.6 Removing the ODD (3.5-inch chassis) Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) Preliminary steps ▶...
Page 412 Accessible drives Removing the ODD Figure 264: Unlocking the ODD cage ▶ Release the green latch above the 3.5-inch HDD backplane to unlock the ODD cage. Upgrade and Maintenance Manual RX2540 M7...
Page 413 Accessible drives Figure 265: Removing the ODD cage ▶ Remove the ODD cage out of the chassis. RX2540 M7 Upgrade and Maintenance Manual...
Page 414 Accessible drives Figure 266: Disconnecting the cable from the ODD ▶ Disconnect the cable from the ODD. Upgrade and Maintenance Manual RX2540 M7...
Page 415 Accessible drives Figure 267: Removing the ODD from the ODD cage ▶ Unlock the ODD latch (see circle). ▶ Remove the ODD from the ODD cage (see arrow). RX2540 M7 Upgrade and Maintenance Manual...
Page 416 Accessible drives Figure 268: Installing the ODD cage ▶ Install the ODD cage into the chassis. Upgrade and Maintenance Manual RX2540 M7...
Page 417 Accessible drives Figure 269: Locking the ODD cage ▶ Lock the ODD cage with the green latch. Figure 270: Removing the ODD latch from the ODD RX2540 M7 Upgrade and Maintenance Manual...
Page 418 Accessible drives ▶ Remove the two screws (see circles). ▶ Remove the ODD latch. ▶ If no new ODD will be installed: ▶ Fasten the ODD latch with two screws to the chassis (see Figure 246). Installing the ODD dummy cover Figure 271: Installing the dummy cover ▶...
Page 419: Replacing The Odd (3.5-Inch Chassis)
Accessible drives 13.3.7 Replacing the ODD (3.5-inch chassis) Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) Preliminary steps ▶...
Page 420: Lto Drive
Accessible drives Concluding steps ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶...
Page 421 Accessible drives Removing the front panel cage Figure 272: Removing the front panel cage (A) ▶ Pull the locking latch in the direction of the arrow to unlock the front panel cage (see close-up). RX2540 M7 Upgrade and Maintenance Manual...
Page 422 Accessible drives Figure 273: Removing the front panel cage (B) ▶ Remove the front panel cage out of its bay. Upgrade and Maintenance Manual RX2540 M7...
Page 423 Accessible drives Removing the air grid Figure 274: Removing the air grid (A) ▶ Remove the four screws (see circles). Keep the four screws - they will be reused for fixing the LTO drive. RX2540 M7 Upgrade and Maintenance Manual...
Page 424 Accessible drives Figure 275: Removing the air grid (B) ▶ Remove the air grid. CAUTION Save the dummy cover (air grid) for future use. ▶ Always replace dummy modules into unused drive bays to comply with applicable EMC regulations and satisfy cooling requirements.
Page 425 Accessible drives Installing an LTO drive Figure 276: Installing the LTO drive (A) ▶ Insert the LTO drive into the front panel module (see arrow). ▶ If applicable, fasten the LTO drive with four screws (see blue and orange circles). ▶...
Page 426 Accessible drives Figure 277: Installing the LTO drive (B) ▶ Carefully slide in the front panel module into its bay. Figure 278: Installing the LTO drive (C) Upgrade and Maintenance Manual RX2540 M7...
Page 427 Accessible drives ▶ Push the locking latch in the direction of the arrow to lock the front panel module. Figure 279: Connecting the cable to the LTO drive ▶ Connect the LTO cable to the LTO drive (1). ▶ Connect the end of the power cable to connector "PWR6" (2) on the system board.
Page 428: Removing The Lto Drive
Accessible drives ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page ▶ "Resuming BitLocker functionality" on page 107. 13.4.2 Removing the LTO drive Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH2 / (+) No.
Page 429 Accessible drives Removing the LTO drive Figure 280: Disconnecting the cable from the LTO drive ▶ Disconnect the LTO cable from the LTO drive (1). ▶ Disconnect the end of the power cable from connector "PWR6" (2) on the system board. ▶...
Page 430 Accessible drives Figure 281: Removing the LTO drive (A) ▶ Pull the locking latch in the direction of the arrow to unlock the front panel cage. Figure 282: Removing the LTO drive (B) Upgrade and Maintenance Manual RX2540 M7...
Page 431 Accessible drives ▶ Remove the front panel cage out of its bay. Figure 283: Removing the LTO drive (C) ▶ If applicable, remove four screws (see blue and orange circles). ▶ In case of an LTO drive which has only three screw-holes, remove three screws (see blue circles).
Page 432 Accessible drives Installing the air grid Figure 284: Installing the air grid (A) ▶ Install the air grid. Upgrade and Maintenance Manual RX2540 M7...
Page 433 Accessible drives Figure 285: Installing the air grid (B) ▶ Fasten the four screws (see circles). RX2540 M7 Upgrade and Maintenance Manual...
Page 434 Accessible drives Installing the front panel cage Figure 286: Installing the front panel cage (A) ▶ Insert the front panel cage into its bay. Upgrade and Maintenance Manual RX2540 M7...
Page 435: Replacing The Lto Drive
Accessible drives Figure 287: Installing the front panel cage (B) ▶ Push the locking latch in the direction of the arrow to lock the front panel cage. Concluding steps ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶...
Page 436 Accessible drives Tools: Phillips PH2 / (+) No. 2 screwdriver Preliminary steps ▶ "Locating the defective server" on page ▶ "Removing backup and optical disk media" on page ▶ "Suspending BitLocker functionality" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 437: Rdx Drive
Accessible drives 13.5 RDX drive 13.5.1 Installing the RDX drive Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Suspending BitLocker functionality" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 438 Accessible drives Removing the front panel cage Figure 288: Removing the front panel cage (A) ▶ Pull the locking latch in the direction of the arrow to unlock the front panel cage (see close-up). Upgrade and Maintenance Manual RX2540 M7...
Page 439 Accessible drives Figure 289: Removing the front panel cage (B) ▶ Remove the front panel cage out of its bay. RX2540 M7 Upgrade and Maintenance Manual...
Page 440 Accessible drives Removing the air grid Figure 290: Removing the air grid (A) ▶ Remove the four screws (see circles). Keep the four screws - they will be reused for fixing the RDX drive. Upgrade and Maintenance Manual RX2540 M7...
Page 441 Accessible drives Figure 291: Removing the air grid (B) ▶ Remove the air grid. CAUTION Save the dummy cover (air grid) for future use. ▶ Always replace dummy modules into unused drive bays to comply with applicable EMC regulations and satisfy cooling requirements.
Page 442 Accessible drives Installing an RDX drive Figure 292: Installing the RDX drive (A) ▶ Insert the RDX drive into the front panel module (see arrow). ▶ Fasten the RDX drive with four screws (see circles). Upgrade and Maintenance Manual RX2540 M7...
Page 443 Accessible drives Figure 293: Installing the RDX drive (B) ▶ Carefully slide in the front panel module into its bay. Figure 294: Installing the RDX drive (C) RX2540 M7 Upgrade and Maintenance Manual...
Page 444 Accessible drives ▶ Push the locking latch in the direction of the arrow to lock the front panel module. Figure 295: Connecting the cables to the RDX drive ▶ Connect the power cable to the RDX drive (1). ▶ Connect the end of the power cable to connector "PWR6" on the system board.
Page 445: Removing The Rdx Drive
Accessible drives ▶ "Resuming BitLocker functionality" on page 107. 13.5.2 Removing the RDX drive Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Preliminary steps ▶ "Removing backup and optical disk media" on page ▶...
Page 446 Accessible drives Removing the RDX drive Figure 296: Disconnecting the cables from the RDX drive ▶ Disconnect the power cable from the RDX drive (1). ▶ Disconnect the end of the power cable from connector "PWR6" on the system board. ▶...
Page 447 Accessible drives Figure 297: Removing the RDX drive (A) ▶ Pull the locking latch in the direction of the arrow to unlock the front panel cage. RX2540 M7 Upgrade and Maintenance Manual...
Page 448 Accessible drives Figure 298: Removing the RDX drive (B) ▶ Remove the front panel cage out of its bay. Upgrade and Maintenance Manual RX2540 M7...
Page 449 Accessible drives Figure 299: Removing the RDX drive (C) ▶ Remove the four screws (see circles). ▶ Remove the RDX drive (see arrow). RX2540 M7 Upgrade and Maintenance Manual...
Page 450 Accessible drives Installing the air grid Figure 300: Installing the air grid (A) ▶ Install the air grid. Upgrade and Maintenance Manual RX2540 M7...
Page 451 Accessible drives Figure 301: Installing the air grid (B) ▶ Fasten the four screws (see circles). RX2540 M7 Upgrade and Maintenance Manual...
Page 452 Accessible drives Installing the front panel cage Figure 302: Installing the front panel cage (A) ▶ Insert the front panel cage into its bay. Upgrade and Maintenance Manual RX2540 M7...
Page 453: Replacing The Rdx Drive
Accessible drives Figure 303: Installing the front panel cage (B) ▶ Push the locking latch in the direction of the arrow to lock the front panel cage. Concluding steps ▶ "Installing the fan cage" on page ▶ "Reassembling" on page ▶...
Page 454 Accessible drives Tools: Phillips PH2 / (+) No. 2 screwdriver Preliminary steps ▶ "Locating the defective server" on page ▶ "Removing backup and optical disk media" on page ▶ "Suspending BitLocker functionality" on page ▶ If applicable, "Removing the front cover with lock" on page ▶...
Page 455: Thermal Sensor
Thermal sensor 14.1 Replacing the thermal sensor Field Replaceable Unit Hardware: 10 minutes (FRU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Phillips PH1 / (+) No. 1 screw driver (for the thermal sensor) Preliminary steps ▶...
Page 456 Thermal sensor Removing the defective thermal sensor Figure 304: Disconnecting the thermal cable ▶ Pull up the locking bar. ▶ Disconnect the thermal cable from the system board (1). ▶ Open the cable clip (2). Upgrade and Maintenance Manual RX2540 M7...
Page 457 Thermal sensor Figure 305: Removing the screws ▶ Remove the two screws of the thermal sensor (see circles). RX2540 M7 Upgrade and Maintenance Manual...
Page 458 Thermal sensor Figure 306: Removing the thermal sensor ▶ Pull the thermal sensor together with the thermal cable out of the opening. Upgrade and Maintenance Manual RX2540 M7...
Page 459 Thermal sensor Installing the new thermal sensor Figure 307: Breakouts and opening for the thermal sensor Breakouts Opening For Japan and APAC: The thermal sensor needs to put an ID information label on which is printed the product name and the serial number. An ID information label is attached to the warranty of the product.
Page 460 Thermal sensor Figure 308: Installing the thermal sensor ▶ Thread the thermal cable through the opening. ▶ Position the thermal sensor on the ear. Upgrade and Maintenance Manual RX2540 M7...
Page 461 Thermal sensor Figure 309: Disconnecting the thermal cable ▶ Run the thermal cable through the cable clip (1). ▶ Bend the cable 90 degrees by hand for easier routing. ▶ Connect the thermal cable to the connector "Thermal sensor" on the system board (2).
Page 462 Thermal sensor Figure 310: Fasten the thermal sensor ▶ Fasten the thermal sensor with two screws (see circles). Concluding steps ▶ Install all HDD modules, see "Installing a 2.5-inch HDD/SSD module" on page 179 "Installing a 3.5-inch HDD module" on page 152.
Page 463: Front Panel
Front panel 15.1 Safety notes CAUTION ▶ When inserting the COP (Common Operation Panel) 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.
Page 464: Common Operation Panel (Cop)
Front panel 15.3 Common operation panel (COP) 15.3.1 Replacing the COP Field Replaceable Unit Hardware: 10 minutes (FRU) Software: 5 minutes Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – Phillips PH1 / (+) No. 1 screw driver (for COP) Note on system information backup/restore The COP contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing...
Page 465 Front panel Removing the COP The COP and the front panel cable are combined in one spare part. Figure 311: Removing the front panel cable ▶ Pull up the locking bar (1). ▶ Disconnect the front panel cable (2). ▶ Remove the front panel cable from the cable clips (see circle). RX2540 M7 Upgrade and Maintenance Manual...
Page 466 Front panel Figure 312: Removing the COP (A) ▶ Remove the two screws (see circles). Upgrade and Maintenance Manual RX2540 M7...
Page 467 Front panel Figure 313: Removing the COP (B) ▶ Pull the COP together with the front panel cable out of the opening. Installing the COP Figure 314: Installing the COP (B) RX2540 M7 Upgrade and Maintenance Manual...
Page 468 Front panel ▶ Thread the front panel cable through the opening. ▶ Position the COP on the ear. Figure 315: Installing the COP (B) ▶ Fasten the COP with two screws (see circles). Upgrade and Maintenance Manual RX2540 M7...
Page 469 Front panel Figure 316: Installing the front panel cable ▶ Bend the cable 90 degrees by hand for easier routing. ▶ Insert the front panel cable in the cable clip (see circle). ▶ Insert the front panel cable in the connector "FRONT PANEL" on the system board (1).
Page 470: Front Vga
Front panel 15.4 Front VGA 15.4.1 Installing the front VGA Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – hexagon screw driver 5 mm (for front VGA) Preliminary steps ▶...
Page 471 Front panel Removing the front VGA dummy cover Figure 317: Removing the dummy cover ▶ Remove the dummy cover. Installing the front VGA Figure 318: Installing the front VGA RX2540 M7 Upgrade and Maintenance Manual...
Page 472 Front panel ▶ Insert the front VGA cable from the server inside through the opening. ▶ Fasten the front VGA connector with the two screws (see circles). Figure 319: Installing the front VGA cable ▶ Insert the front VGA cable in the cable clip (1). ▶...
Page 473: Removing The Front Vga
Front panel 15.4.2 Removing the front VGA Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) – hexagon screw driver 5 mm (for front VGA) Preliminary steps ▶ If applicable, "Removing the front cover with lock"...
Page 474 Front panel Removing the front VGA Figure 320: Removing the front VGA ▶ Remove the two screws (see circles). ▶ Pull the front VGA cable out of the opening from the inner side. Figure 321: Removing the front VGA cable Upgrade and Maintenance Manual RX2540 M7...
Page 475 Front panel ▶ Remove the front VGA cable from the cable clip (1). ▶ Disconnect the front VGA cable from the system board connector "FRONT VGA" (2). Installing the front VGA dummy cover Figure 322: Installing the dummy cover ▶ Install the dummy cover. Concluding steps ▶...
Page 476: Replacing The Front Vga
Front panel 15.4.3 Replacing the front VGA Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screwdriver (for cover 2) – hexagon screwdriver 5 mm (for front VGA) Preliminary steps ▶ If applicable, "Removing the front cover with lock"...
Page 477 Front panel ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page RX2540 M7 Upgrade and Maintenance Manual...
Page 478 Front panel Upgrade and Maintenance Manual RX2540 M7...
Page 479: Additional Interfaces
Additional interfaces 16.1 Safety notes CAUTION ▶ For more information, see "Important information" on page 16.2 Serial interface 16.2.1 Installing the serial interface Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH2 / (+) No. 2 screw driver (for cover 2) –...
Page 480 Additional interfaces Installing the expansion card with the serial interface Figure 323: Installing the expansion card with the serial interface ▶ Install the expansion card with the serial interface into PCIe slot 5. ▶ Fasten the expansion card with the serial interface with the two screws. Upgrade and Maintenance Manual RX2540 M7...
Page 481 Additional interfaces Connecting the serial interface Figure 324: Serial interface Figure 325: Installing the serial interface RX2540 M7 Upgrade and Maintenance Manual...
Page 482: Removing The Serial Interface
Additional interfaces ▶ Connect the serial interface cable to the connector "Rear Serial" on the system board (1). ▶ Insert the serial interface cable into the expansion card (2). Concluding steps ▶ Install the riser module 2, see "Installing a riser module" on page ▶...
Page 483 Additional interfaces Disconnecting the serial interface Figure 326: Disconnecting the serial interface ▶ Disconnect the serial interface cable (see circles). ▶ Remove the serial interface cable from the system board. Removing the expansion card with the serial interface Figure 327: Removing the serial interface RX2540 M7 Upgrade and Maintenance Manual...
Page 484: Replacing The Serial Interface
Additional interfaces ▶ Loosen the two screws. ▶ Remove the expansion card with the serial interface. Concluding steps ▶ Install the riser module 1, see "Installing a riser module" on page ▶ If applicable, install a slot bracket in PCIe slot 5, see "Installing the front cover with lock"...
Page 485: Rear Vga Connector
Additional interfaces Installing the new serial interface ▶ Install the serial interface, see "Installing the serial interface" on page 479. Concluding steps ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶...
Page 486 Additional interfaces Removing the rear VGA Figure 328: Removing the rear VGA connector (A) ▶ Remove the two hexagon bolts (see circles). Figure 329: Removing the rear VGA connector (B) ▶ Remove the rear VGA connector (1). ▶ Remove the VGA cable from the system board (2). Upgrade and Maintenance Manual RX2540 M7...
Page 487 Additional interfaces Installing the rear VGA Figure 330: Installing the rear VGA connector (A) ▶ Insert the rear VGA connector into the chassis (1). ▶ Connect the VGA cable to the connector "Rear VGA" on the system board (2). Figure 331: Installing the rear VGA connector (B) ▶...
Page 488 Additional interfaces Concluding steps ▶ Install the riser module 2, see "Installing a riser module" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page Upgrade and Maintenance Manual RX2540 M7...
Page 489: System Board And Components
System board and components 17.1 Safety notes CAUTION ▶ Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options. ▶ Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity.
Page 490: Cmos Battery
System board and components – iRMC microSD card The iRMC microSD card is necessary for using the embedded Lifecycle Management (eLCM) functionality of the iRMC. 17.3 CMOS battery 17.3.1 Replacing the CMOS battery Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: –...
Page 491 System board and components ▶ "Shutting down the server" on page ▶ "Disconnecting the power cord" on page ▶ "Getting access to the component" on page ▶ "Removing the air duct" on page Replacing the defective CMOS battery Figure 332: Replacing the CMOS battery ▶...
Page 492: Trusted Platform Module (Tpm)
System board and components Concluding steps ▶ Dispose of the CMOS battery in accordance with local regulations concerning special waste. ▶ "Installing the air duct" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ "Switching on the server" on page ▶...
Page 493: Position Of The Tpm
System board and components 17.4.2 Position of the TPM FRONT PANEL SMB 2 CPU 2 DIMM-1M PWR 6 CPU 2 DIMM-2M CPU 2 DIMM-1L PSU 1 PSU1 CPU 2 DIMM-2L GPGPU Riser Slot 10 CPU 2 DIMM-1K Slot 9 CPU 2 DIMM-2K Slot 9 CPU 2 DIMM-1 Slot riser card...
Page 494 System board and components ▶ If applicable, "Removing the riser module 2" on page ▶ If applicable, "Removing an expansion card" on page 278. Installing the TPM Figure 335: Position for the TPM spacer Figure 336: Inserting the TPM spacer on the system board ▶...
Page 495 System board and components Figure 337: TPM bit insert ▶ Attach the TPM bit insert or TPM module fixing tool (for Japan) to a bit screwdriver. Figure 338: Installing the TPM ▶ Connect the TPM to the system board (1). ▶...
Page 496 System board and components Concluding steps ▶ If applicable, "Installing an expansion card" on page 269. ▶ If applicable, "Installing the riser module 2" on page ▶ "Reassembling" on page ▶ "Connecting the power cord" on page ▶ In case of VMware (vSphere 7.0 U3 or later) environment, see "Recovering the ESXi configuration information encryption functionality"...
Page 497: Removing The Tpm
System board and components 17.4.4 Removing the TPM Field Replaceable Unit Hardware: 30 minutes (FRU) Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screwdriver – Torx 30 screwdriver Removing the TPM: – Bit screwdriver – flat nose pliers –...
Page 498 Decrypting the volume may be time-consuming. By decrypting the volume, all of the information stored on that computer is decrypted. For more information on how to disable BitLocker drive encryption, see the Microsoft Knowledge Base. See the Fujitsu web pages for more details. Upgrade and Maintenance Manual...
Page 499 System board and components Disabling the TPM in the system board BIOS ▶ Switch on or restart your server. ▶ As soon as the startup screen appears, press the [F2] function key to enter the BIOS setup menu. ▶ Select the Configuration menu. ▶...
Page 500 System board and components ▶ Locate the slotted lower end of the TPM screw (1). ▶ Carefully loosen the TPM screw using a thin slotted screwdriver (e.g. watchmaker's screwdriver) or the dedicated TPM screwdriver (Japan) (2). CAUTION ▶ Ensure to turn the screw clockwise in order to remove it. ▶...
Page 501: Replacing The Tpm
System board and components Concluding steps ▶ "Installing the crossbar" on page ▶ "Installing the fan cage" on page ▶ "Installing the air duct" on page ▶ Install all riser modules, see "Installing a riser module" on page ▶ "Reassembling" on page ▶...
Page 502 System board and components Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screw driver – Torx 30 screw driver Replacing the TPM: – Bit screw driver – TPM bit insert – flat nose pliers – thin slotted screw driver (2 x 0.4 mm) For Japan: –...
Page 503 System board and components ▶ "Removing the air duct" on page ▶ "Removing the fan cage" on page ▶ "Removing the crossbar" on page Removing the defective TPM ▶ Remove the TPM, see "Removing the TPM" on page 497. ▶ Leave the TPM spacer on the system board when removing the defective TPM.
Page 504: Irmc Microsd Card
System board and components You can find information on configuring the TPM in the corresponding BIOS Setup Utility reference manual. 17.5 iRMC microSD card 17.5.1 Note for embedded Lifecycle Management (eLCM) The iRMC microSD card is necessary for using the embedded Lifecycle Management (eLCM) functionality of the iRMC.
Page 505 System board and components Installing the iRMC microSD card Figure 341: iRMC microSD card Figure 342: Installing the iRMC microSD card ▶ With the label facing up, insert the iRMC microSD card into the microSD card slot (1) until it locks in place (2). The onboard position of the microSD card slot can be found in "Connectors and indicators on the system board"...
Page 506: Removing The Irmc Microsd Card
System board and components ▶ "Switching on the server" on page ▶ If applicable, "Installing the front cover with lock" on page 17.5.3 Removing the iRMC microSD card Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screwdriver (for cover 2) Preliminary steps ▶...
Page 507: Replacing The Irmc Microsd Card
System board and components ▶ To eject the iRMC microSD card, gently push it in and then let go (1). ▶ Pull the iRMC microSD card straight out of its slot (2). CAUTION (not valid for Europe, Middle East, India and Africa) The iRMC microSD card contains customer information.
Page 508 System board and components If ServerView related tools are applied (i.e. ServerView Agentless Service or ServerView ESXi CIM Provider) or BIOS is executed at the same time as the power cord is connected after the iRMC microSD card replacement, see "iRMC S6 firmware recovery guidelines after replacing an iRMC microSD card"...
Page 509 System board and components ▶ Proceed the steps in the recovery guidelines, see "iRMC S6 firmware recovery guidelines after replacing an iRMC microSD card" on page 509 "BIOS recovery guidelines after replacing an iRMC microSD card" on page 509. Concluding steps ▶...
Page 510: System Board
System board and components ▶ For systems with ServerView related tools (i.e. ServerView Agentless Service or ServerView ESXi CIM Provider) applied: After replacing the iRMC microSD card, power on the server, and confirm that the iRMC microSD card transfer completion message in the BIOS is registered in SEL.
Page 511 System board and components Tools: Replacing the system board: – Phillips PH2 / (+) No. 2 screw driver – Torx 30 screw driver – Magnifying glass for inspecting CPU socket springs (recommended) Replacing the TPM: – Bit screw driver – flat nose pliers –...
Page 512 System board and components Note on MicroSD card The MicroSD card on the system board contains the BIOS/iRMC firmware that is running. After replacing the system board, the operating version number will be restored based on this information. Do not replace the system board and the MicroSD card at the same time.
Page 513 System board and components After replacing the system board the backup data is restored from the Chassis ID EPROM to the new system board. MAC addresses will be changed by replacing the system board. Inform the customer about that before starting these tasks. After doing these tasks, inform the customer about the changed MAC addresses.
Page 514 System board and components ▶ For a system with air cooling, proceed as follows: ▶ "Removing the air duct" on page ▶ Remove all memory modules, see "Removing memory modules" on page 344. Before removing the memory modules, take a note on the installation slot number for each memory module.
Page 515 System board and components Figure 344: Position of the hexagon standoff and the specifical screws ▶ Remove the hexagon standoff (1). ▶ Remove the two specifical screws (2). ▶ Remove the memory guide sheet metal. RX2540 M7 Upgrade and Maintenance Manual...
Page 516 System board and components Figure 345: Position of the screws ▶ Remove the ten screws (see blue circles, orange circles show the centering bolts) from the system board. Upgrade and Maintenance Manual RX2540 M7...
Page 517 System board and components Figure 346: Touch points of the system board ▶ Notice the handle of the system board (see circle). ▶ Hold the system board on the handle and lift the system board carefully out of the chassis in a slight angle. Thereby you pull the connectors out of the I/O panel.
Page 518 System board and components Installing the new system board ▶ Check the settings on the new system board, see "Onboard settings" on page 555. ▶ Hold the system board on the touch point and insert it at a slight angle. Slide the connectors into the I/O panel.
Page 519 System board and components Concluding steps ▶ If applicable, install the TPM, see "Installing the TPM" on page 493. ▶ Install the iRMC microSD card, see "Installing the iRMC microSD card" on page 504. Ensure that you install the iRMC microSD card that was installed in the system board before the replacement.
Page 520 System board and components ▶ Wait until the firmware restore is completed. BIOS or iRMC S6 firmware restore feature is executed at the same time as the power cord is connected after the system board replacement. Depending on the configuration of your server the firmware restore requires different time, see "States of power-on indicator and time duration during firmware restore"...
Page 521 System board and components ▶ "Updating the NIC configuration file in a Linux and VMware environment" on page 106. ▶ If applicable, reconfigure your network settings in the operation system according to the original configuration of the replaced expansion card. Configuration of network settings should be performed by the customer, see "Notes on network settings recovery"...
Page 522 System board and components Messages of firmware restore in SEL log files If the firmware restore is successfully completed, the following messages will be recorded. – When firmware version in iRMC microSD card and firmware version of replaced system board is different: <iRMC>: Firmware 1 has been successfully restored from SD card.
Page 523 System board and components Manually restore an incomplete BIOS or iRMC S6 firmware restore If the BIOS or iRMC S6 firmware restore has not completed successfully, you can restore the BIOS or iRMC S6 firmware manually through the iRMC S6 web interface.
Page 524 System board and components Upgrade and Maintenance Manual RX2540 M7...
Page 525: Mechanical Overview
Appendix A 18.1 Mechanical overview 18.1.1 Server front 18.1.1.1 3.5-inch HDD configuration Figure 347: Front side 10x 3.5-inch HDDs/SSDs Figure 348: Front side 12x 3.5-inch HDDs/SSDs Thermal sensor Common Operation Panel Front VGA (option) HDDs / dummy modules ODD (option) / dummy cover RX2540 M7 Upgrade and Maintenance Manual...
Page 526: Inch Hdd/Ssd Configuration
Appendix A 18.1.1.2 2.5-inch HDD/SSD configuration Figure 349: Front side 16x 2.5-inch HDDs / SSDs / PCIe SSDs Figure 350: Front side 24x 2.5-inch HDDs / SSDs / PCIe SSDs Thermal sensor LTO drive (option) / RDX drive Front VGA (option) (option) / dummy cover Common Operation Panel HDDs / SSDs / PCIe SSDs / dummy...
Page 527: Server Rear
Appendix A 18.1.2 Server rear 18.1.2.1 Servers with air cooling Figure 351: Server rear (standard configuration) Figure 352: Server rear (configuration with rear HDD cages) RX2540 M7 Upgrade and Maintenance Manual...
Page 528 Appendix A Figure 353: Server rear (configuration with riser modules) HDDs / SSDs / PCIe SSDs PCIe slots 1-2 PCIe slots 9 or 9/10 / riser module 2 HDDs / SSDs / PCIe SSDs (option) PSU 2 (option) / dummy cover Rear VGA OCP module (option) / dummy cover PCIe slots 5-8...
Page 529: Servers With Liquid Cooling
Appendix A 18.1.2.2 Servers with liquid cooling Figure 354: Server rear with liquid cooling Rear VGA Liquid cooling connector - liquid outlet PCIe slots 5-8 Liquid cooling connector - liquid inlet Serial interface (option) / slot cover Management LAN PCIe slots 1-2 USB 3.0 (2x) PSU 2 (option) / dummy cover PSU 1...
Page 530: Server Interior
Appendix A 18.1.3 Server interior 18.1.3.1 Servers with air cooling Figure 355: PRIMERGY RX2540 M7 interior Up to 2 PSUs / dummy cover Fan modules Main memory Air duct CPUs PCIe slot 1-2 Front panel module / front VGA OCP module (option)
Page 531: Servers With Liquid Cooling (Lc)
Appendix A 18.1.3.2 Servers with liquid cooling (LC) Figure 356: Server interior with liquid cooling Up to 12x 3.5-inch HDDs / 24x 2.5-inch PCIe slots 3 or 3/4 / Riser module 1 HDDs OCP module (option) / dummy cover Fan modules PCI slots 5-8 Main memory PCIe slots 9 or 9/10 / Riser module 2...
Page 532: Connectors And Indicators
Appendix A 18.2 Connectors and indicators 18.2.1 Connectors and indicators on the system board 18.2.1.1 System board D3983 There is one system board: – D3983-B100 with PFR feature Onboard connectors FRONT PANEL SMB 2 CPU 2 DIMM-1M PWR 6 CPU 2 DIMM-2M CPU 2 DIMM-1L PSU 1 PSU1...
Page 533 Appendix A Pos. Print Description Rear VGA Rear VGA connector Front VGA Rear VGA connector PSU 1 Power supply connector hot-plug PSU 1 PWR 7 Power connector 7 HDD LED 3 LED activity connector 3 PWR 6 Power connector 6 FRONT PANEL Front panel connector SMB 2...
Page 534 Appendix A Pos. Print Description SATA ODD ODD data connector SATA 0-3 SATA HDD connector HDD LED 1 LED activity connector 1 HDD LED 2 LED activity connector 2 Rear Serial Rear serial connector Connector for Trusted Platform Module (TPM) micro SD Slot for micro SD card SMB3...
Page 535 Appendix A LEDs A, B and C are visible from outside on the server rear. All other LEDs are only visible if the server cover has been opened. If the server has been powered off (power plugs must be disconnected) it is possible to indicate the faulty component by pressing the indicate CSS button.
Page 536 Appendix A Status Description Non-CSS component failure detected. Possible causes: – System is out of the specified temperature range flashing orange – Defective sensor – CPU error – Error detected by server management software F - Controller Status Description Controller okay orange on Controller failure G - CPU...
Page 537: Server Front
Appendix A K - Fans Status Description System fan running orange on System fan failure L - Battery Status Description orange on Battery failure 18.2.2 Server front 18.2.2.1 Connectors on the server front Figure 359: Connectors on the server front USB 3.0 connector Front VGA connector (option) USB 3.0 connector...
Page 538: Indicators On The Cop
Appendix A 18.2.2.2 Indicators on the COP Figure 360: Indicators on the COP ID indicator CSS indicator Power-on indicator / AC connected Global Error indicator indicator HDD/SSD activity indicator ID indicator (1) See also "iRMC-related status signals" on page 540. Status Description blue on...
Page 539 Appendix A Power-on indicator / AC connected indicator (2) Status Description The server is switched off and not connected to the mains. green on The server is switched on. flashing white The iRMC firmware is starting up after the server has been connected to the mains.
Page 540 Appendix A Status Description flashing orange Non-CSS component failure detected. Possible causes: – System is out of the specified temperature range – Defective sensor – CPU error – Error detected by server management software HDD/SSD activity indicator (5) Status Description flashing green Data access in progress.
Page 541: States Of Power-On Indicator And Time Duration During Firmware Restore
Appendix A For more information about the iRMC flash procedure, see "Basic software procedures" in the "FUJITSU Server PRIMERGY RX2540 M7 Upgrade and Maintenance Manual". HDD prefailure detection Depending on your hardware configuration HDD prefailure detection will be supported. The requirements are: –...
Page 542 Appendix A System state Power- Time indicator indicator Power cord connected iRMC boot start, iRMC firmware flashing flashing About restore from iRMC microSD white blue 13 minutes card (included golden image), When iRMC iRMC restart version in Record of the following iRMC microSD message on SEL when card and iRMC...
Page 543 Appendix A System state Power- Time indicator indicator System reboot white on flashing A few seconds blue (5-10 seconds) System power (DC) on, BIOS green on flashing About setting restore blue 3 minutes Record of the following message on SEL when completion.
Page 544: Indicator On The Odd
Appendix A System state Power- Time indicator indicator Active area BIOS boot check green on flashing About continued blue 3 minutes Active area BIOS boot check white on flashing About completion blue 5 minutes Recovery area BIOS restore Attention: the Power-on indicator is not green but is reading the active area BIOS and updating the recovery area.
Page 545: Indicators On The Rdx Drive
Appendix A Figure 361: Indicator on the ODD (example) Activity indicator Activity indicator (1) Status Description The ODD is inactive. green on The storage medium is being accessed. 18.2.2.5 Indicators on the RDX drive Figure 362: Indicators on the RDX drive RDX drive Power-on indicator RX2540 M7 Upgrade and Maintenance Manual...
Page 546: Indicators On Hot-Plug Hdd / Ssd / Pcie Ssd Modules
Appendix A RDX drive Power-on indicator (1) Status Description The drive is not powered on. green on The drive is ready and working properly. green flashing The drive is ejecting media. amber on RDX has detected a drive failure condition. For more information, run a diagnostics application.
Page 547: Server Rear
Appendix A Error indicator (2) Status Description No HDD/SSD error detected. orange on An HDD/SSD error has been detected. Possible causes: – The drive is defective and needs replacing. – A RAID rebuild process has failed. – The HDD/SSD module has not been inserted correctly. flashing orange HDD/SSD RAID rebuild is in progress.
Page 548 Appendix A The first left connector of the OCP module (3) can be used as a shared LAN connector. OCP modules are options and available in different variants. Depending on the BIOS settings, the shared LAN connector may also be used as a management LAN connector. For more information, see the corresponding BIOS Setup Utility reference manual.
Page 549: Id, Css And Global Error Indicators
Appendix A 18.2.3.2 ID, CSS and Global Error indicators Figure 366: ID, CSS and Global Error indicators ID indicator CSS indicator Global Error indicator ID indicator (1) See also "iRMC-related status signals" on page 550. Status Description blue on The server has been highlighted using iRMC web interface or the ID button on the front panel for easy identification.
Page 550 Appendix A Status Description flashing orange Non-CSS component failure detected. Possible causes: – System is out of the specified temperature range – Defective sensor – CPU error – Error detected by server management software CSS indicator (3) Status Description No critical event detected (CSS component). orange on Prefailure event detected (CSS component).
Page 551: Lan Indicators
Appendix A For more information about the iRMC flash procedure, see "Basic software procedures" in the "FUJITSU Server PRIMERGY RX2540 M7 Upgrade and Maintenance Manual". 18.2.3.3 LAN indicators Figure 367: LAN indicators LAN link/transfer indicator LAN speed indicator LAN link/transfer indicator (1)
Page 552 Appendix A LAN speed indicator (2) Status Description yellow on Data traffic at a transfer rate of 1 Gbit/s. green on Data traffic at a transfer rate of 100 Mbit/s. Data traffic at a transfer rate of 10 Mbit/s. Indication of LAN connection supporting Energy Efficient Ethernet (EEE mode) To configure the EEE mode, it is necessary that an add-in LAN card supports this mode and the connected switch supports this mode as well.
Page 553: Indicator On Hot-Plug Psu
Appendix A 18.2.3.4 Indicator on hot-plug PSU ① Figure 368: PSU status indicator (AC PSU) Figure 369: PSU status indicator (DC PSU) PSU status indicator PSU status indicator (1) Status Description flashing green The server is switched off, but mains voltage is present (standby mode).
Page 554: Acoustic Indicators
Appendix A Status Description flashing orange An overload has been detected. The PSU is still running, but failure might be imminent. orange on A PSU failure has been detected. 18.2.4 Acoustic indicators PEI Beep Codes Pre-EFI Initialization (PEI) - memory Initialization (bootblock) # of Description Action...
Page 555: Onboard Settings
Appendix A 18.3 Onboard settings DIMM-2L GPGPU Riser Slot 10 DIMM-1K Slot 9 Slot 9 DIMM-2K DIMM-1 Slot riser card Slot riser card DIMM-2 FAN6_SYS JP3 1 VROC FRONT VGA 2x USB 3.0 and VGA MICRO REAR VGA HDD LED3 SMB3 CPU 2 Slot 8 (CPU 2) Riser slot 2...
Page 556: Minimum Startup Configuration
Appendix A 18.4 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.
Page 557 Appendix A 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! RX2540 M7...
Page 558 Appendix A Upgrade and Maintenance Manual RX2540 M7...
Page 559: Supplied Documents
19.1 Supplied documents The following documents are available in this appendix: ● "Cable plan for FUJITSU Server PRIMERGY RX2540 M7 Reference Manual" ● "List of Released Adapters incl. Installation sequence and priority" ● "List of screws used in PRIMERGY Servers - Assembled in Czech and Japan"...
Page 560 Overview - English Cable Plan for FUJITSU Server PRIMERGY RX2540 M7 Reference Manual March 2023...
Page 561 Cable Plan Contents Frontpage Contents Contents (cont.1) List of cables List of cables (Cont.) Basics Common Operation Panel & Thermal Sensor Ooptical Disk Drive / VGA 10x3.5"/16x 2.5" Serial Interface RDX 16x 2.5" OOB & Power 10/12x3.5" OOB & Power 2x 8x 2.5" Bpl 1&2 OOB &...
Page 562: Contents (Cont.1)
Cable Plan Contents (cont.1) RAID in Riser Slot3 EP781i & OnBoard NVMe - 3 Bpl 2.5" SKD 5x OnBoard NVMe SKD 6x Onboard SATA & OnBoard NVMe CP2100-8i + OnBoard NVMe - 1 Bpl CP6/EP640i/EP325x + OnBoard NVMe - 1 Bpl Onboard SATA &...
Page 563: List Of Cables
Cable Plan List of cables Partnumber Naming Part of Basic CA05973-8314 FRONT PANEL SIGNAL CABLE(MB to FRONT PANEL) Basic CA05973-8921 Thermal Sensor Cable Basic CA05950-2105 OOB SIGNAl CABLE(MB to HSBP) Basic, Type 1,2 CA05950-2106 OOB SIGNAl CABLE(MB to HSBP) Type 3 CA05950-2107 OOB SIGNAl CABLE(MB to HSBP) Type 4, 6...
Page 564: List Of Cables (Cont.)
Cable Plan List of cables (Cont.) Partnumber Naming Part of Data C38 CA05973-8347 SlimSAS 4X (expander bd_40_SAS to RHSBP) Type 4, opt C39 CA05973-8350 SlimSAS 8X (MB to M.2 Board) C40 CA05973-8354 MINI SAS HD 4X => SlimSAS 4X (INTERNAL RAID CARD to HSBP) Type 5, opt C41 CA05973-9403 LED cable for 3254-8i Cable Length=350 (Rear PCIe)
Page 565: Basics
Cable Plan Basics RX2540 M7...
Page 566: Common Operation Panel & Thermal Sensor
Cable Plan Common Operation Panel & Thermal Sensor Backplane CONN1 CA05973-8314 CA05973-8921 Thermal sensor CPU2 CPU1 PSU1 PSU2 Front Rear CA0590-2103 RX2540 M7...
Page 567: Ooptical Disk Drive / Vga 10X3.5"/16X 2.5
Cable Plan Ooptical Disk Drive / VGA 10x3.5"/16x 2.5" Backplane CA05973-8360 CA05973-8358 CPU1 CPU2 PSU1 PSU2 Front RX2540 M7...
Page 568: Serial Interface
Cable Plan Serial Interface Backplane CPU2 CPU1 PSU1 PSU2 CA05950-2142 Real Serial Can support into Slot 5/6/7/8 RX2540 M7...
Page 569: Rdx 16X 2.5
Cable Plan RDX 16x 2.5" Type 3 Backplane CA05950-2145 CA05950-2146 CPU2 CPU1 PSU1 PSU2 RX2540 M7...
Page 570: Oob & Power 10/12X3.5
Cable Plan OOB & Power 10/12x3.5" 10/12x 3.5" SAS/SATA Bpl PWR1 SMB1 CA05950-2105 CA05973-8324 PWR 5 PWR 4 PWR 2 FANs CPU2 CPU1 Type 1 & 2 RX2540 M7...
Page 571: Oob & Power 2X 8X 2.5" Bpl 1&2
Cable Plan OOB & Power 2x 8x 2.5" Bpl 1&2 2nd 8x 2.5" SAS/SATA Bpl 1st 8x 2.5" SAS/SATA Bpl PWR1 SMB1 PWR1 SMB1 CA05950-2106 CA05973-8324 CA05973-8323 PWR 5 PWR 4 PWR 2 CPU2 CPU1 Type 3 RX2540 M7...
Page 572: Oob & Power 2X 8X 2.5" Bpl 1&3
Cable Plan OOB & Power 2x 8x 2.5" Bpl 1&3 2rd 8x 2.5" NVMe/SAS/SATA Bpl 1st 8x 2.5" NVMe/SAS/SATA Bpl PWR1 SMB1 PWR1 SMB1 CA05950-2107 CA05973-8324 CA05973-8323 PWR 4 PWR 5 PWR 2 CPU2 CPU1 TYPE 6 - 16x SAS/ SATA/ NVME RX2540 M7...
Page 573: Oob & Power 3X 8X 2.5" Bpl
Cable Plan OOB & Power 3x 8x 2.5" Bpl 3rd 8x 2.5" NVMe/SAS/SATA Bpl 2nd 8x 2.5" SAS/SATA Bpl 1st 8x 2.5" SAS/SATA Bpl PWR1 SMB1 PWR1 SMB1 PWR1 SMB1 CA05950-2107 CA05973-8324 CA05973-8324 CA05973-8323 PWR 4 PWR 5 PWR 2 CPU2 CPU1 TYPE 4...
Page 574: Oob & Power 24X2.5" Nvme
Cable Plan OOB & Power 24x2.5" NVMe 24x 2.5" NVMe Bpl SwitchBoard PWR1 PWR2 PWR3 CA05973-8321 CA05973-8326 CA05973-8326 CA05973-8326 PWR 5 PWR 4 PWR 3 PWR 2 CPU1 CPU2 Type 5 - 24x NVMe RX2540 M7...
Page 575: Power Interposer Board @ Moboard
Cable Plan Power Interposer Board @ MoBoard Internal M.2 Interposer board Internal RAID Riser M.2 SSD2 M.2 SSD1 CA05973-8350 CA05973-8351 PWR M.2 CPU2 CPU1 RX2540 M7...
Page 576: Power Expander Board
Cable Plan Power Expander board Internal RAID Riser CA05973-8325 CA05973-8321 PWR 4 CPU2 CPU1 Type 2 - 12XSAS/SATA 3.5” HDD Type 3 - 16x SAS/SATA 2.5" Type 4 - 24x SAS/SATA 2.5“, NVMe Mix Type 5 - 24x NVMe RX2540 M7...
Page 577: Oob & Power Rear 4X/6X Hdd
Cable Plan OOB & Power Rear 4x/6x HDD CPU2 CPU1 PWR7 PWR8 CA05973-8349 CA05973-8315 PWR1 SMB3 PWR1 SMB3 Optional: Optional: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 CPU2 CPU1 PWR7 PWR8 CA05973-8348 CA05973-8349 CA05973-8315 PWR1 SMB3 PWR1 SMB3 PWR1 SMB3...
Page 578: Power Gpu Rtx A4500
Cable Plan Power GPU RTX A4500 CPU2 CPU1 CA05973-8937 PWR7 PWR8 CA05973-8937 PSU1 PSU2 FH riser FH riser CA05973-8937 will be replaced by CA05973-8320 by running change...
Page 579: Power Gpu Power Gpu A30/A40/Rtx A6000/A100/A16/A30X/A100X
Cable Plan Power GPU Power GPU A30/A40/RTX A6000/A100/A16/A30X/ A100X CPU2 CPU1 PWR7 CA05973-8938 PWR8 CA05973-8938 PSU1 PSU2 FH riser FH riser RX2540 M7...
Page 580: Power Gpu H100
Cable Plan Power GPU H100 CPU2 CPU1 PWR7 CA05973-8943 PWR8 CA05973-8943 PSU1 PSU2 FH riser FH riser RX2540 M7...
Page 581: Data Fbu Ep6Xx/Ep7Xx
Cable Plan Data FBU EP6xx/EP7xx System Board EP6/7x0i Internal RAID Riser (boot) T26139-Y4031-V107 (*) FBU 1 T26139-Y4031-V108 (**) ** Standard Air Duct EP6/7x0i * GPGPU Air Duct T26139-Y4031-V107 FBU 2 System Board EP325x Internal RAID Riser (boot) CA05973-8920 (*) FBU 1 CA05973-8919 (**) * Standard Air Duct EP325x...
Page 582: Hdd Led Praid Cp6X0I/Ep6X0I/Ep780I
Cable Plan HDD LED PRAID CP6x0i/EP6x0i/EP780i Internal RAID Riser CA05973-8366 HDD LED PWR 1 PSU1 PSU2 CA05950-2289 CA05950-2289 PSU1 PSU2 CA05950-2289 PSU1 PSU2 RX2540 M7...
Page 583: Hdd Led Praid Cp6X0I/Ep6X0I/Ep780I (Cont.)
Cable Plan HDD LED PRAID CP6x0i/EP6x0i/EP780i (cont.) Internal RAID Riser CA05973-8366 HDD LED PWR 1 CA05950-2289 PSU1 PSU2 RX2540 M7...
Page 584: Hdd Led Praid Ep325X-8I/16I
Cable Plan HDD LED PRAID EP325x-8i/16i Internal RAID Riser CA05973-9402 HDD LED PWR 1 PSU1 PSU2 CA05973-9403 CA05973-9403 PSU1 PSU2 CA05973-9403 PSU1 PSU2 RX2540 M7...
Page 585: Hdd Led Praid Ep325X-8I/16I (Cont.)
Cable Plan HDD LED PRAID EP325x-8i/16i (cont.) Internal RAID Riser CA05973-9402 HDD LED PWR 1 CA05973-9403 PSU1 PSU2 RX2540 M7...
Page 586: Int. Raid Riser @ Moboard
Cable Plan Int. RAID Riser @ MoBoard Internal M.2 Interposer board Internal (Optional) RAID Riser PWR 1 HDD LED MCIO2 CA05973-8327 CA05950-2110 CA05973-8327 MCIO2 MCIO1 PWR 1 CPU2 CPU1 Type 1 - 10x SAS/SATA 3.5” Type 2 - 12x SAS/SATA 3.5” Type 3 - 16x SAS/SATA 2.5”...
Page 587: Skd 1X / 2X
Cable Plan SKD 1x / 2x 10x 3.5" SAS/SATA Bpl Internal M.2 Interposer board Internal RAID Expander (Optional) board Type 2x FANs CPU1 CPU2 PSU1 PSU2 RX2540 M7...
Page 588: Onbaord Sata 3.5
Cable Plan OnBaord SATA 3.5" 10x 3.5" SAS/SATA Bpl CA05973-8333 CPU2 CPU1 SATA 0-3 / 4-7 Type 1-1 RX2540 M7...
Page 589: Int. Raid Riser Cp2100-8I - 3.5
Cable Plan Int. RAID Riser CP2100-8i - 3.5" 10x 3.5" SAS/SATA Bpl CA05973-8330 CA05973-8330 Internal RAID Riser Type 1-2a RX2540 M7...
Page 590: Int. Raid Riser Cp/Ep640/Ep325X - 3.5
Cable Plan Int. RAID Riser CP/EP640/EP325x - 3.5" 10x 3.5" SAS/SATA Bpl CA05973-8367 Internal RAID Riser Type 1-2b RX2540 M7...
Page 591: Int. Raid Riser Cp6/Ep680I/Ep780I/Ep325X/Cp2200-16 - 3.5
Cable Plan Int. RAID Riser CP6/EP680i/EP780i/EP325x/CP2200-16 - 3.5" 10x 3.5" SAS/SATA Bpl CA05973-8368 CA05973-8367 RAID Card Internal RAID Riser Type 1-3 RX2540 M7...
Page 592: Int. Raid Riser Cp2100-8I @ Expander - 3.5
Cable Plan Int. RAID Riser CP2100-8i @ Expander - 3.5" 12x 3.5" SAS/SATA Bpl CA05973-8335 CA05973-8335 CA05973-8335 CA05973-8328 Internal RAID Riser Type 2-5a Type 2-6a with „Option: rear 6x/4x 2.5" HDD SAS/SATA @ Expander" Type 2-7a with „Option: rear 6x/4x 2.5" NVMe @ ReTimer Slot2 & 8" Type 2-8a with „Option: rear 4x 2.5"...
Page 593: Int. Raid Riser Cp6/Ep640I/Ep325X @ Expander - 3.5
Cable Plan Int. RAID Riser CP6/EP640i/EP325x @ Expander - 3.5" 12x 3.5" SAS/SATA Bpl CA05973-8335 CA05973-8335 CA05973-8335 C0/P1 CA05973-8371 Internal RAID Riser Type 2-5b Type 2-6b with „Option: rear 6x/4x 2.5" HDD SAS/SATA @ Expander" Type 2-7b with „Option: rear 6x/4x 2.5" NVMe @ ReTimer Slot2 & 8" Type 2-8b with „Option: rear 4x 2.5"...
Page 594: Skd 3X
Cable Plan SKD 3x 2nd 8x 2.5" SAS/SATA Bpl 1st 8x 2.5" SAS/SATA Bpl Internal M.2 Interposer board (Optional) Expander board Internal RAID Type 3-11x FANs CPU2 CPU1 PSU1 PSU2 RX2540 M7...
Page 595: Onboard Sata 2.5
Cable Plan OnBoard SATA 2.5" HDD DUMMY LOCKED 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8333 CPU2 CPU1 SATA 0-3 / 4-7 Type 3-1 Type 3-5 with „Option: rear 4x 2.5" NVMe @ RAID Slot6" RX2540 M7...
Page 596: Internal Raid Riser Cp2100-8I - 2.5
Cable Plan Internal RAID Riser CP2100-8i - 2.5" HDD DUMMY LOCKED 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl CA05973-8330 CA05973-8339 Internal RAID Riser Type 3-2a RX2540 M7...
Page 597: Internal Raid Riser Cp6/Ep640I/Ep325 - 2.5
Cable Plan Internal RAID Riser CP6/EP640i/EP325 - 2.5" HDD DUMMY LOCKED 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl CA05973-8367 Internal RAID Riser Type 3-2b RX2540 M7...
Page 598: Internal Raid Riser Cp6/Ep680I/Ep780I - 2.5
Cable Plan Internal RAID Riser CP6/EP680i/EP780i - 2.5" 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8372 CA05973-8367 Internal RAID Riser Type 3-3 Type 3-9 with „Option: rear 4x 2.5" NVMe @ RAID Slot6" RX2540 M7...
Page 599: Int. Raid Riser Cp2100-8I & Slot1 Cp2100-8I - 2.5
Cable Plan Int. RAID Riser CP2100-8i & Slot1 CP2100-8i - 2.5" 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8344 CA05973-8342 CA05973-8330 CA05973-8339 Internal RAID Riser Type 3-4a RX2540 M7...
Page 600: Int. Raid Riser Cp6/Ep640I/Ep325X & Slot1 Cp6/Ep640/Ep325
Cable Plan Int. RAID Riser CP6/EP640i/EP325x & Slot1 CP6/EP640/EP325 - 2.5" 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8906 CA05973-8367 Internal RAID Riser C0/P1 Type 3.4b RX2540 M7...
Page 601: Int. Raid Riser Cp2100-8I @ Expander 2 Bpl - 2.5
Cable Plan Int. RAID Riser CP2100-8i @ Expander 2 Bpl - 2.5" 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8335 CA05973-8334 CA05973-8335 CA05973-8334 CA05973-8328 Internal RAID Riser Type 3.11a RX2540 M7...
Page 602: Int. Raid Riser Cp6/Ep640I/Ep325X @ Expander - 2.5
Cable Plan Int. RAID Riser CP6/EP640i/EP325x @ Expander - 2.5" 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8335 CA05973-8334 CA05973-8335 CA05973-8334 CA05973-8371 Internal RAID Riser Type 3.11b RX2540 M7...
Page 603: Skd 4X
Cable Plan SKD 4x 3rd 8x 2.5" NVMe/SAS/SATA Bpl 2nd 8x 2.5" SAS/SATA Bpl 1st 8x 2.5" SAS/SATA Bpl Internal M.2 Interposer board Internal RAID (Optional) Expander board FANs CPU1 CPU2 PSU1 PSU2 RX2540 M7...
Page 604: Int. Raid Riser Cp2100-8I & Slot1 & Slot5- 2.5
Cable Plan Int. RAID Riser CP2100-8i & Slot1 & Slot5- 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl (SAS/SATA use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8342 CA05973-8344 CA05973-8343 CA05973-8330 CA05973-8339 CA05973-8341 Internal RAID Riser CPU2 Type 4.1a RX2540 M7...
Page 605: Int. Raid Riser Cp6/Ep640I/Ep325X & Slot1 & Slot5- 2.5
Cable Plan Int. RAID Riser CP6/EP640i/EP325x & Slot1 & Slot5- 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl (SAS/SATA use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8906 CA05973-8375 CA05973-8367 Internal RAID Riser CPU2 C0/P1 C0/P1 Type 4.1b RX2540 M7...
Page 606 Cable Plan Int. RAID Riser CP6/EP680i/EP740i/EP3258/CP2200 & Slot6 - 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl 8x 2.5" SAS/SATA Bpl (SAS/SATA use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8375 CA05973-8367 CA05973-8372 Internal RAID Riser CPU2 C0/P1 C1/P2 Type 4.2 Type 4-3 with „Option: rear 6x/4x 2.5"...
Page 607: Int. Raid Riser Cp2100-8I @ Expander - 3 Bpl 2.5
Cable Plan Int. RAID Riser CP2100-8i @ Expander - 3 Bpl 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl (SAS/SATA use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8335 CA05973-8335 CA05973-8335 CA05973-8335 CA05973-8334 CA05973-8334 CA05973-8328 Internal RAID...
Page 608: Int. Raid Riser Cp6/Ep640/Ep325X @ Expander - 3 Bpl 2.5
Cable Plan Int. RAID Riser CP6/EP640/EP325x @ Expander - 3 Bpl 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl (SAS/SATA use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8335 CA05973-8335 CA05973-8335 CA05973-8335 CA05973-8334 CA05973-8334 CA05973-8371 Internal RAID...
Page 609: Raid In Riser Slot3 Ep781I & Onboard Nvme - 3 Bpl 2.5
Cable Plan RAID in Riser Slot3 EP781i & OnBoard NVMe - 3 Bpl 2.5" 8x 2.5" NVMe/ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl 8x 3.5 „ SAS/SATA Bpl (NVMe use case) A2/B2 A1/B1 A2/B2 A1/B1 CA05973-8905 CA05973-8915 CA05973-8915 CA05973-8906 CA05973-8916 CA05973-8916 CPU2...
Page 610: Skd 5X
Cable Plan SKD 5x 24x 2.5" SAS/SATA/NVMe Bpl Switch Board FANs CPU1 CPU2 PSU1 PSU2 RX2540 M7...
Page 611: Onboard Nvme
Cable Plan OnBoard NVMe 24x 2.5" SAS/SATA/NVMe Bpl Switch Board CA05973-8917 CA05973-8917 CA05973-8917 CA05973-8917 CPU2 CPU1 Type 5 SKD and 5-1 24x2.5" NVMe with same basic cables Type 5-2a with „Option: rear 6x/4x 2.5" HDD @ CP2100-8i Slot6" Type 5-2b with „Option: rear 6x/4x 2.5" HDD @ CP6/EP640i/EP325x Slot6" Type 5-3 with „Option: rear 6x/4x 2.5"...
Page 612: Skd 6X
Cable Plan SKD 6x 3rd 8x 2.5" NVMe/SAS/SATA Bpl empty 3rd 8x 2.5" NVMe/SAS/SATA Bpl Internal M.2 Interposer board Internal RAID (Optional) FANs CPU2 CPU1 PSU1 PSU2 RX2540 M7...
Page 613: Onboard Sata & Onboard Nvme
Cable Plan Onboard SATA & OnBoard NVMe 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8916 CA05973-8331 CA05973-8916 1st Step CPU2 CPU1 Type 6.1 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8333 2nd Step CPU2...
Page 614: Cp2100-8I + Onboard Nvme - 1 Bpl
Cable Plan CP2100-8i + OnBoard NVMe - 1 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8916 CA05973-8331 CA05973-8916 1st Step CPU2 CPU1 Type 6.2a 8x 2.5" NVMe/ SAS/SATA Empty area 8x 2.5" NVMe/ SAS/SATA CA05973-8341 CA05973-8341 2nd Step...
Page 615: Cp6/Ep640I/Ep325X + Onboard Nvme - 1 Bpl
Cable Plan CP6/EP640i/EP325x + OnBoard NVMe - 1 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8916 CA05973-8331 CA05973-8916 1st Step CPU2 CPU1 Type 6.2b 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8375 2nd Step CPU2...
Page 616 Cable Plan Onboard SATA & EP680i/EP740i/EP3258/CP 2200-16i NVMe in Slot1- 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8333 CA05973-8959 CA05973-8958 CPU2 CPU1 SATA 0-3 / 4-7 C0/P1 C1/P2 Type 6.4 RX2540 M7...
Page 617 Cable Plan Int. RAID Riser CP600/EP640/EP680/EP 325x/EP740/CP 2200 & NVMe RAID Cards in Slot1 - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8367 RAID Card Internal RAID Riser CA05973-8958 CA05973-8959 CPU2 CPU1 SATA 0-3 / 4-7 C0/P1 C1/P2 Type 6.5...
Page 618: Onboard Sata & Nvme Raid Cards In Slot1 & 6 - 2 Bpl
Cable Plan OnBoard SATA & NVMe RAID Cards in Slot1 & 6 - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area CA05973-8333 CA05973-8956 CA05973-8959 CA05973-8955 CA5973-8958 CPU2 CPU1 SATA 0-3 / 4-7 C0/P1 C1/P2 C0/P1 C1/P2 Type 6.6...
Page 619 Cable Plan Int. RAID Riser EP 680i/EP 3258/CP 2200/EP740 & NVMe RAID Cards in Slot1 & 6 - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8956 CA05973-8367 CA05973-8955 C0/P1 CA05973-8959 C1/P2 Internal CA05973-8958 RAID Riser CPU2...
Page 620: Onboard Sata & Onboard 16 Nvme - 2 Bpl
Cable Plan OnBoard SATA & OnBoard 16 NVMe - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8916 CA05973-8331 CA05973-8916 1st Step CA05973-8916 CA05973-8916 CA05973-8331 CA05973-8331 CPU2 CPU1 Type 6.8 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5"...
Page 621: Cp2100-8I & Onboard 16 Nvme - 2 Bpl
Cable Plan CP2100-8i & OnBoard 16 NVMe - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8331 CA05973-8331 CA05973-8331 CA05973-8916 1st Step CA05973-8916 CA05973-8916 CA05973-8916 CPU2 CPU1 Type 6.9a 8x 2.5" NVMe/ SAS/SATA Empty area 8x 2.5"...
Page 622: Cp6/Ep640I/Ep325X & Onboard 16 Nvme - 2 Bpl
Cable Plan CP6/EP640i/Ep325x & OnBoard 16 NVMe - 2 Bpl 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5" NVMe/ SAS/SATA Bpl CA05973-8331 CA05973-8331 CA05973-8331 CA05973-8331 CA05973-8916 1st Step CA05973-8916 CA05973-8916 CA05973-8916 CPU2 CPU1 Type 6.9b 8x 2.5" NVMe/ SAS/SATA Bpl Empty area 8x 2.5"...
Page 623: Options
Cable Plan Options...
Page 624: Option: Rear 6X/4X 2.5" Nvme @ Retimer Slot2 & 8
Cable Plan Option: rear 6x/4x 2.5" NVMe @ ReTimer Slot2 & 8 CPU2 CPU1 CA05973-8346 CA05973-8346 CA05973-8346 Optional: Optional: Optional: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 3 2x 2.5" rear bpl 2 (NVMe use case) (NVMe use case) (NVMe use case) Option kit type: ->...
Page 625: Option: Rear 4X 2.5" Nvme @ Raid Slot6
Cable Plan Option: rear 4x 2.5" NVMe @ RAID Slot6 CPU2 CPU1 CA05973-8907 CA05973-8907 C0/P1 C1/P2 Optional: Optional: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 (NVMe use case) (NVMe use case) Option kit type: -> 2-8x -> 3-5 ->...
Page 626: Option: Rear 6X 2.5" Hdd Sas/Sata @ Expander
Cable Plan Option: rear 6x 2.5" HDD SAS/SATA @ Expander CPU2 CPU1 CA05973-8340 CA05973-8347 Optional: Optional: Optional: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 2x 2.5" rear bpl 3 (SAS/SATA use case) (SAS/SATA use case) (SAS/SATA use case) Option kit type: ->...
Page 627: Option: Rear 6X 2.5" Hdd Sas/Sata @ Int. Raid
Cable Plan Option: rear 6x 2.5" HDD SAS/SATA @ Int. RAID Internal RAID Riser CA05973-8378 CPU2 CPU1 Option: Option: Option: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 2x 2.5" rear bpl 3 (SAS/SATA use case) (SAS/SATA use case) (SAS/SATA use case) Option kit type: ->...
Page 628: Option: Rear 4X 2.5" Hdd @ Raid Slot6 2Nd Port
Cable Plan Option: rear 4x 2.5" HDD @ RAID Slot6 2nd Port CA05973-8903 C0/P1 C1/P2 Option: Option: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 (SAS/SATA use case) (SAS/SATA use case) Option kit type: -> 4-3 For 5-2b: connects to the C0/P1...
Page 629: Option: Rear 6X 2.5" Hdd @ Raid Slot6 2Nd Port
Cable Plan Option: rear 6x 2.5" HDD @ RAID Slot6 2nd Port CPU2 CPU1 CA05973-8904 C0/P1 C1/P2 Option: Option: Option: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 2x 2.5" rear bpl 3 (SAS/SATA use case) (SAS/SATA use case) (SAS/SATA use case) Option kit type: ->...
Page 630: Option: Rear 6X 2.5" Hdd @ Cp2100-8I Slot6
Cable Plan Option: rear 6x 2.5" HDD @ CP2100-8i Slot6 CPU2 CPU1 CA05973-8339 CA05973-8354 Option: Option: Option: 2x 2.5" rear bpl 1 2x 2.5" rear bpl 2 2x 2.5" rear bpl 3 (SAS/SATA use case) (SAS/SATA use case) (SAS/SATA use case) Option kit type: ->...
Page 631: Option: Lto @ Cp2200-16I
Cable Plan Option: LTO @ CP2200-16i 2nd 8x 2.5" SAS/SATA Bpl 1st 8x 2.5" SAS/SATA Bpl Internal M.2 Interposer board Internal RAID (Optional) Expander board PWR6 CPU1 CPU2 CA05973-8374 PSU1 PSU2 RX2540 M7...
Page 632: Option: Lto @ Cp6/Ep6X0I/Ep780I/Ep325X
Cable Plan Option: LTO @ CP6/EP6x0i/EP780i/Ep325x Backplane FANs CA05973-8374 CPU1 CPU2 C0/P1 PSU1 PSU2 RX2540 M7...
Page 633: Option: Nvdia Bluefield2
Cable Plan Option: nVDIA BlueField2 CPU2 CPU1 CA05973-8910 CA05973-8979 Note: CA05973-8910 for 100G BF2 RX2540 M7...
Page 634: Documents History
Cable Plan Documents History Version Date Changes V0.94 2023 First Release...
Page 635 System Status: Planned System Name: PRIMERGY RX2540 M7 CPU sockets: #PCIe Slots of system: Riser Option support: y/n Overview and properties of System PCI devices and slots List of Released Adapters incl. Installation sequence and priority Interposer M.2 Interposer M.2 PDUAL M.2...
Page 636 List of all used screws for PRIMERGY Servers Assembled in Czech and Japan March 2023...
Page 637 A3C40137316 / LSZ: L3-25419-01 S205 CA05950-3065 Phillips PH1 silver 0.3 Nm M2.5 x 6.5mm S206 CA05950-3066 Phillips PH1 silver 0.2 Nm M2 x 4.3mm M2 x 4 mm S207 CA05950-3067 Phillips PH1 black 0.09 Nm countersink Copyright 2023 FUJITSU LIMITED...
Page 638 M3 x 3.5 mm 5 mm / cross black 0.6 Nm S301 M3 x 5 mm F6-SW2N3-05121 with spring Phillips PH2 silver 0.6 Nm and washer S302 C26192-Y10-C102 M3 x 3.5 mm Phillips PH1 silver 0.4 Nm Copyright 2023 FUJITSU LIMITED...
Page 639 M3 x 6 mm silver 0.6 Nm Phillips PH1 S308 countersink F6-SSA3-06121 M3 x 6 mm silver 0.6 Nm Phillips PH1 hexagon head S309 C26192-Y10-C69 M3 x 8 mm 5 mm / cross silver 0.6 Nm Copyright 2023 FUJITSU LIMITED...
Page 640 0.2 Nm S315 CA05950-3070 M3 x 3 mm Phillips PH1 silver 0.6 Nm S316 CA05950-3071 M3 x 4 mm Phillips PH2 silver 0.6 Nm S317 CA05950-3072 M3 x 4.5 mm Phillips PH2 Ø6.0x10 silver 0.6 Nm Copyright 2023 FUJITSU LIMITED...
Page 641 0.8 Nm S325 CA05950-3077 M3 x 2.2 mm Phillips PH2 silver 0.6 Nm S326 CA05973-9653 M3 x 4 mm Phillips PH2 silver 0.6 Nm S327 CA05950-3078 M3 x 5.5 mm Phillips PH2 silver 0.6 Nm Copyright 2023 FUJITSU LIMITED...
Page 642 S501 C26192-Y10-C209 black 0.6 Nm 3 x 12 mm one-way head special bit insert S502 C26192-Y10-C176 black 0.6 Nm 3 x 15 mm one-way head Cross head S503 C26192-Y10-C174 EJOT PT 8 silver 0.4 Nm Copyright 2023 FUJITSU LIMITED...
Page 643 A3C40237861 SCREW #6- Phillips PH2 silver 0.6~0.9 32xL5.0 #2 NYLOK S510 #6-32*6 mm Phillips PH2 silver 0.6~0.9 Nm S511 Torx T6 driver silver 0.2 Nm S512 #6-32*4 mm NYLOK 0.8 Nm S513 #6-32*4 mm 0.8 Nm Copyright 2023 FUJITSU LIMITED...
Page 644 1 Nm driver 7 mm S609 CA05950-3085 M3 x 37.9 mm + M4 x 7 mm hexagon screw silver 1 Nm driver 7 mm M3 x 5 mm S610 Phillips PH2 silver 0.8 Nm Copyright 2023 FUJITSU LIMITED...
Page 645 07. November 2018 Screw Screw delivered with C26361-Y10-C133 added PDUAL AP200 kit 09. November 2018 Bolt Bolt and screw for M.2 on C26361-B443-C210 Screw C26361-B443-C220 board 09. January 2019 C26361-Y10-C133 Flat head screw is part of PDUAL AP200 Copyright 2023 FUJITSU LIMITED...
Page 646 See yellow color update 2. S210/S211/S212/S213 change from 0.4 Nm to 0.2 ~ 0.4 Nm 2.Add S215 and S511 for CX400M6 screw Add RX8770M7 07. Mar. 2023 See yellow color update screws(S216/S512/S513/S514/S515) 2. Add code number (S101/S205~S208/S312/S315~S320/S324/ S325/S327/S331/S333/S401/S508/S607/S6 08/S609/S611/S612) Copyright 2023 FUJITSU LIMITED...

Fujitsu PRIMERGY RX2540 M7 Upgrade And Maintenance Manual

Version History

1 Introduction

2 Before You Start

3 Important Information

Energy Star

CE Conformity

FCC Class a Compliance Statement

Environmental Protection

Basic Hardware Procedures

Using Diagnostic Information

Removing the Front Cover with Lock

Shutting down the Server

Disconnecting the Power Cord

Getting Access to the Component

5 Basic Software Procedures

Completing the Maintenance Task

6 Power Supply Unit (PSU)

7 Hard Disk Drive (HDD) / Solid State Disk (SSD)

SAS Expander Board

M.2 Ssd

Rear HDD/SSD Extension Box

Fans

Safety Notes

Basic Information

Replacing a Fan Module

9 Expansion Cards and Backup Units

Flash Backup Unit (FBU)

Main Memory

Safety Notes

Basic Information

Installing Memory Modules

Removing Memory Modules

Replacing Memory Modules

Handling Memory Dummy Modules

Processor (CPU)

Safety Notes

Basic Information

Upgrading to 2 Cpus Configuration

Handling the CPU Dummy Cover

Replacing a CPU or Heat Sink

12 Liquid Cooling (LC)

13 Accessible Drives

14 Thermal Sensor

Front Panel

Safety Notes

Basic Information

Common Operation Panel (COP)

Front VGA

Additional Interfaces

Safety Notes

Serial Interface

Rear VGA Connector

System Board and Components

Safety Notes

Basic Information

CMOS Battery

Trusted Platform Module (TPM)

Quick Links

Chapters

Related Manuals for Fujitsu PRIMERGY RX2540 M7

Summary of Contents for Fujitsu PRIMERGY RX2540 M7