Summary of Contents for Fujitsu PRIMERGY RX2530 M4
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Upgrade and Maintenance Manual - English FUJITSU Server PRIMERGY RX2530 M4 Upgrade and Maintenance Manual September 2019...
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– The contents of this manual may be revised without prior notice. – Fujitsu assumes no liability for damages to third party copyrights or other rights arising from the use of any information in this manual. – No part of this manual may be reproduced in any form without the prior written permission of Fujitsu.
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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.
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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.
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Only for Japan: Shielded LAN cables should be used in this product. Upgrade and Maintenance Manual RX2530 M4...
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Version history Issue number Reason for update 1.0 / May 2017 Initial release New hardware: air duct, additional backplanes, TPM, 2.0 / July 2017 BU100, cable plan moved to appendix B BU100 named in Dual microSD 64GB Enterprise, 3.0 / January 2018 variant 2 of DC PSU added Chapter Liquid Cooling added, configuration with up to two PCIe SSD modules added, PDUAL AP200...
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Contents 10.4 Replacing a memory module ....285 10.4.1 Preliminary steps ......285 10.4.2 Removing the defective memory module .
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Contents 12.4.1.2 Preparing a memory module ....328 12.4.1.3 Installing a memory module ....329 12.4.1.4 Concluding steps .
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Contents 14.2.1.3 Installing the front panel module ....346 14.2.1.4 Concluding steps ..... . 348 14.3 Front VGA board .
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Contents 15.3.2 Removing the defective serial interface ... . . 364 15.3.3 Installing the new serial interface ....364 15.3.4 Concluding steps .
Introduction This Upgrade and Maintenance Manual provides instructions for the following procedures: Upgrading the server configuration by adding optional hardware ● components Upgrading the server configuration by replacing existing hardware ● components with superior ones. Replacing defective hardware components ● This manual focuses on on-site maintenance tasks.
Introduction Notational conventions The following notational conventions are used in this manual: Text in bold Indicates references to names of interface elements. Indicates commands and text to be entered by the user. Text in monospace "Quotation marks" Indicate names of chapters and terms that are being emphasized.
The operating manual of your server gives an introduction to server features and provides an overview of available hardware options. Use the Fujitsu ServerView Suite management software and the iRMC web interface to prepare hardware expansions. ServerView Suite documentation is available online at http://manuals.ts.fujitsu.com.
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For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/ Please contact your local Fujitsu customer service partner for details on how to order expansion kits or spare parts. Use the Fujitsu Illustrated Spares Catalog to identify the required spare part and obtain technical data and order information.
At the beginning of each procedure, the involved unit type is indicated by one of the symbols introduced in this section. Please ask your local Fujitsu service center for more information. 2.1.1 Customer Replaceable Units (CRU)
(Repair Units). For Japan, customer allows only upgrade. For upgrade units as customer replaceable, see: http://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.
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 –...
Before you start Average task duration Hardware: 10 minutes The average task duration including preliminary and concluding steps is indicated at the beginning of each procedure next to the procedure class. The following table gives an overview of steps taken into account for calculating the average task duration.
"Safety Notes and Regulations" Important safety information, available manual online, or as a printed copy " 安全上のご注意 " for Japan "FUJITSU Server PRIMERGY Information how to install, set up and RX2530 M4 Operating Manual" operate your server, available online "FUJITSU Server PRIMERGY...
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"Returning used devices" Recycling and contact information, manual available online at http://ts.fujitsu.com/recycling, or as a "Service Desk" leaflet printed copy " サポート&サービス " for Japan Not applicable in Japan and other countries that have different regulations for recycling...
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Before you start Document Description Additional documentation RAID documentation, available online at http://manuals.ts.fujitsu.com under x86 Servers - Expansion Cards - Storage Adapters "NVMe User Guide", available online at http://manuals.ts.fujitsu.com under x86 Servers - Expansion Cards - PCIe SSD Devices - SSD PCie3 Main 2.5" H-P EP For Japan: http://www.fujitsu.com/jp/products/computi...
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Before you start Upgrade and Maintenance Manual RX2530 M4...
Important information 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. This will help you to avoid making serious errors that could impair your health, damage the server and endanger the data base.
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Important information If the server is brought in from a cold environment, condensation may form ● both inside and on the outside of the server. Wait until the server has acclimatized to room temperature and is absolutely dry before starting it up. Material damage may be caused to the server if this requirement is not observed.
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Important information The adequately shielded data cables must be used. ● All data and signal cables must have sufficient shielding. The use of cable type S/FTP Cat5 or higher is recommended. Use of unshielded or badly shielded cables may lead to increased emission of interference and/or reduced fault-tolerance of the device.
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Important information Only set screen resolutions and refresh rates that are specified in the ● operating manual for the monitor. Otherwise, you may damage your monitor. If you are in any doubt, contact your sales outlet or customer service center. Only valid for non hot-plug components ●...
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Important information The battery used in this server may present a fire or chemical burn hazard if ● mistreated. Do not disassemble, heat about 100 °C (212F), or incinerate the battery. Replace the lithium battery on the system board in accordance with the ●...
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Important information Do not disassemble the ODD. ● Before use, clean the ODD tray using a soft, dry cloth. ● As a precaution, remove disks from the ODD when the drive is not to ● be used for a long time. Keep the ODD tray closed to prevent foreign matter, such as dust, from entering the ODD.
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Important information Laser information The ODD complies with IEC 60825-1 laser class 1. CAUTION! The ODD contains a light-emitting diode (LED), which under certain circumstances produces a laser beam stronger than laser class 1. Looking directly at this beam is dangerous. Never remove parts of the ODD casing! Modules with Electrostatic-Sensitive Devices (ESD modules) ESD modules are identified by the following sticker:...
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Important information For a detailed description of how to handle ESD modules, see the relevant European or international standards (EN 61340-5-1, ANSI/ESD S20.20). 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.
Important information If the server is integrated into an installation that draws power from an ● industrial power supply network with an IEC309 type connector, the power supply's fuse protection must comply with the requirements for non-industrial power supply networks for the type A connector. Other important information During cleaning, observe the instructions in the corresponding Operating ●...
Important information CE conformity The system complies with the requirements of European Regulations. Find the CE declaration on certificate portal: https://sp.ts.fujitsu.com/sites/certificates/default.aspx To open the CE declaration applicable for your system, proceed as follows: Ê Select Industry Standard Servers. Ê Select your model, e.g. Rack server.
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.
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More information can be found at: http://ts.fujitsu.com/recycling Details regarding the return and recycling of devices and consumables within Europe can also be found in the "Returning used devices" manual, via your local Fujitsu branch, or at: http://ts.fujitsu.com/recycling Upgrade and Maintenance Manual RX2530 M4...
Please contact your local Fujitsu customer service partner for details on the service concept and on how to order expansion kits or spare parts. Use the Fujitsu Illustrated Spares Catalog to identify the required spare part and obtain technical data and order information. Illustrated Spares catalogs are available online at http://manuals.ts.fujitsu.com/illustrated_spares.
Basic hardware procedures 4.1.2 Determining the error class The Local Service Concept (LSC) allows you to identify defective server components. Failure events are assigned to one of two error classes: – Global Error (for non CSS components) events that need to be resolved by maintenance personnel –...
Basic hardware procedures Checking the onboard indicators on the system board using the Indicate ● CSS button, see section "Using the CSS button on the system board" on page Using the CSS button on the system board If the system has been powered off, the onboard indicators guides you to the faulty component.
Basic hardware procedures Disconnecting the power cord 4.3.1 Disconnecting the power cord (AC PSU) Figure 2: Unlocking the cable clamp of a PSU Ê Press the cable clamp down until it disengages (1). Ê Open the cable clamp (2). Ê Disconnect the power cord from the PSU and remove it from the cable clamp.
Basic hardware procedures 4.3.2 Disconnecting the power cord (DC PSU) Example DC PSU -48 V Figure 3: Disconnecting the server from the dc voltage - example DC PSU -48 V Ê Remove the two screws (1). Ê Disconnect the power cord from the PSU (2). Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures Example HVDC PSU 380 V Figure 4: Disconnecting the server from the dc voltage - example HVDC PSU 380 V Ê Press the locking latch (A) of the power cord plug inside, until it disengages (1). Ê Disconnect the power cord from the PSU (2). Getting access to the component CAUTION! Only for non-hot plug components:...
Basic hardware procedures 4.4.1 Extending the server out of the rack CAUTION! Use the anti-tilt plate to prevent the rack from tipping when installing ● the rack. Pulling the server out of the rack without having installed the anti-tilt plate may cause the rack to tip over. Be careful not to pinch fingers or clothes when sliding out the server ●...
Basic hardware procedures 4.4.2 Removing the server from the rack In most cases maintenance tasks can be performed while the server is extended from the rack. However, depending on accessibility or security guidelines, it may make sense to completely remove the server from the rack cabinet for maintenance purposes.
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Basic hardware procedures Figure 6: Removing the server from the rack Ê Release the locking bars on both rack rails (1). Ê Lift the server out of the rack rails (2) and place it on an even surface. Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures 4.4.3 Removing the top covers Removing the housing cover Figure 7: Removing the housing cover Ê Push the green touch points inside (1). Ê Push the housing cover as far as it will go in the direction of the arrow (2). Ê...
Basic hardware procedures Reassembling CAUTION! Before attaching the covers, make sure no unnecessary parts or tools ● are left inside the server. The top cover must be replaced as soon as possible for purposes of ● cooling, to comply with EMC regulations (regulations regarding electromagnetic compatibility) and to prevent fires.
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Basic hardware procedures Figure 10: Attaching the fan cover (B) Ê Push the fan cover as far as it will go in the direction of the arrow. Installing the housing cover Figure 11: Attaching the housing cover (A) Ê Place the housing cover on the server. Notice the recesses (see circles). CAUTION! Take care that all cables are inside the chassis.
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Basic hardware procedures Figure 12: Attaching the housing cover (B) Ê Push the housing cover as far as it will go in the direction of the arrow until it clicks in. Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures 4.5.2 Installing the server in the rack CAUTION! At least two people are needed to position the server on the rack rails. (For Japan, see " 安全上のご注意 ".) For configurations below 32 kg: At least two people are needed to lift the server into the rack cabinet.
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Basic hardware procedures Figure 13: Inserting the server into the rack rails Ê 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. Ê At a slight angle, lower the server onto the rear mounting point on the rack rails (2).
Basic hardware procedures 4.5.3 Sliding the server into the rack Figure 14: Sliding the server into the rack Ê Release the locking mechanism of both rails (1). Ê Push the server as far as it will go into the rack (2) until the quick-release levers engage (3).
Basic hardware procedures Connecting the power cord 4.6.1 Connecting the power cord (AC PSU) CAUTION! The AC PSU adjusts automatically to any power voltage in the range from 100 V - 240 V (AC PSU Platinum) or 200 V - 240 V (AC PSU Titanium).
Basic hardware procedures 4.6.2 Connecting the power cord (DC PSU) Example DC PSU -48 V CAUTION! The DC PSU adjusts automatically to any power voltage in the range from -40.5 V - -57 V. You may only operate the server if its rated voltage range corresponds to the local mains voltage.
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Basic hardware procedures Example HVDC PSU 380 V CAUTION! The HVDC PSU adjusts automatically to any power 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 17: Connecting the server to the DC voltage - example HVDC PSU 380 V Ê...
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. For more information, see chapter "Important information"...
Basic hardware procedures Handling riser modules Figure 18: Numbering riser modules Riser module 1, offers slot 1 and slot 2 Riser module 2, offers slot 3 Riser module 3, offers slot 4 As an option, a full height riser module can be installed. In this case the slot 3 is not available and slot 4 can be equipped with a full height expansion card.
Basic hardware procedures 4.8.1 Removing a riser module Figure 19: Removing a riser module (example riser module 3) Ê If necessary, disconnect cables from the other components. Ê Carefully pull out the corresponding riser module upward. 4.8.2 Installing a riser module Figure 20: Installing a riser module (example riser module 3) Ê...
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Basic hardware procedures CAUTION! Valid for the full height riser module: Make sure that the EMC springs make contact correctly (see close-ups). Figure 21: Installing the full height riser module Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures Handling chassis foams The system can be equipped with two chassis foams. The chassis foams must be removed for cabling purposes. chassis foam 1 chassis foam 2 Figure 22: Position chassis foams Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures 4.9.2 Installing the chassis foams Figure 25: Installing the chassis foam 1 Figure 26: Installing the chassis foam 2 Ê Insert the chassis foams on the chassis sides. The recesses of the chassis must be uncovered (see circle). Ê...
Basic hardware procedures 4.10 Handling the air duct 4.10.1 Removing the air duct Figure 27: Removing the air duct Ê Pull the hook on the left side out of the bracket on the PSU cage (see close- up). Ê Carefully pull out the air duct upward. Upgrade and Maintenance Manual RX2530 M4...
Basic hardware procedures 4.10.2 Installing the air duct Figure 28: Installing the air duct Ê Insert the hook on the left side in the bracket on the PSU cage (see close- up). Ê Carefully place the air duct on the CPUs. Make sure that the hooks on the right side fit in the fan cage (see close-up).
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Basic hardware procedures Note for configuration with two Retimer controllers In this configuration there are many Oculink cables. To avoid damaging the cables when closing the server, it is recommended to route the Oculink cables as shown in the following photos. Figure 30: Routing Oculink cables underneath the air duct Ê...
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Basic hardware procedures Figure 31: Routing Oculink cables above the air duct Ê Route the Oculink cable of the Retimer controller installed in riser module 2 above the air duct. Upgrade and Maintenance Manual RX2530 M4...
Basic software procedures Depending on your server and the installed features some information is not valid for your server. Starting the maintenance task 5.1.1 Suspending BitLocker functionality BitLocker Drive Encryption provides protection for operating system and data drives by encrypting the contents and requiring users to authenticate their credentials to access the information.
For more information on how to suspend BitLocker drive encryption, see the Microsoft TechNet library at http://technet.microsoft.com/library/cc731549.aspx. For more information, see the Fujitsu web pages. 5.1.2 Disabling the boot watchdog The boot watchdog determines whether the operating system boots within a preset time frame.
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Basic software procedures Disabling the boot watchdog in the BIOS Ê Enter the BIOS. Ê Select the Server Mgmt menu. Ê Under Boot Watchdog set the Action setting to Continue. Ê Save your changes and exit the BIOS. For more information on BIOS settings, see the corresponding BIOS Setup Utility reference manual.
For Japan: 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.
Basic software procedures 5.1.5 Switching on the ID indicator For easy identification of the server, switch on the ID indicator, especially when working in a datacenter environment or a server room. The ID indicator can also be activated via the iRMC web interface and its status is reported to the BMC. For more information, see section "Locating the defective server"...
After updating or recovering the BIOS and iRMC, enable the boot watchdog again, see section "Enabling the boot watchdog" on page Fujitsu does not assume responsibility for any damage done to the server or for the loss of any data resulting from BIOS updates. 5.2.1.1...
Basic software procedures 5.2.1.2 Updating or recovering the iRMC iRMC flash procedure Ê Prepare a USB stick including the bootable iRMC firmware update image. Ê Connect the USB stick containing the iRMC firmware to a USB port. Ê Restart the server. The system will start the POST process. Ê...
Basic software procedures Ê During POST, press [F12] and select the connected USB stick as boot device. The system will detect the USB stick. Ê Choose the Recovery_L option from the update tool menu to start the iRMC update process. CAUTION! Do not interrupt the iRMC upgrade process after it has started.
Follow the instructions provided separately. After replacing the expansion card, it is essential to upgrade the firmware to the latest version without connecting any storage devices. The latest expansion card firmware version is available from the Fujitsu support web pages at: http://ts.fujitsu.com/support/ For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/downloads/...
Basic software procedures Using the flash tool The latest firmware files are available as ASPs (Autonomous Support Packages) for Windows or as DOS tools from the Fujitsu support web pages at: http://ts.fujitsu.com/support/ For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/downloads/ Ê Select Drivers & Downloads.
More information on suitable backup software solutions and related documentation is available from the Fujitsu web pages. Re-enabling backup drives If a backup drive has been disabled or deleted from the backup software drive list as described in section "Verifying and configuring the backup software...
Basic software procedures 5.2.6 Resetting the boot retry counter The boot retry counter is decremented from its preset value every time the POST watchdog initiates a system reboot. When the value has reached ’0’, the system will shut down and power off. 5.2.6.1 Viewing the boot retry counter The current boot retry counter status is available in the BIOS:...
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Basic software procedures Resetting the boot retry counter using the ServerView Operations Manager Ê In the ServerView Operations Manager Administration view, select Server Configuration. Ê If more than one server is managed in SVOM, select the target server and click Next. Ê...
Using ServerView Maintenance Tools (Windows only) Ê Launch the ServerView Maintenance Tools: Start > Apps > Fujitsu > Maintenance Tools Ê Choose the Memory status tab. Ê Select the memory module which shows the pre-failure status. Ê Click on Reset Status.
Using ServerView Maintenance Tools (Windows only) Ê Launch the ServerView Maintenance Tools: Start > Apps > Fujitsu > Maintenance Tools Ê Choose the CPU status tab. Ê Select the CPU which shows the pre-failure status.
Basic software procedures parameters are "0" for CPU 1 and "1" for CPU 2. Ê If the error status cannot be reset with the method above, please use the following procedure for resetting the error counter of all CPUs: Ê...
Basic software procedures For more information on how to access the BIOS and modify settings, see the corresponding BIOS Setup Utility reference manual. Enabling the boot watchdog using the iRMC web interface Ê Log in to the ServerView iRMC web interface. Ê...
Basic software procedures 5.2.10 Verifying the memory mode If a memory module fails, the server will reboot and the defective module will be disabled. As a result, the current operation mode (e.g. Mirrored Channel mode) may no longer be available due to a lack of identical memory module pairs. In this case, the operation mode will automatically revert to Independent Channel Mode.
Basic software procedures Ê Enter the BIOS. Ê Select the Main menu. Ê Under System Time and System Date specify the correct time and date. By default, the system time set in the BIOS is RTC (Real Time Clock) local time. If your IT infrastructure relies on universally accepted time standards, set the System Time to UTC (Universal Time, Coordinated) instead.
Basic software procedures may have to log on to the server beforehand. The status of the component will then be reset to ok. To see the new status you must refresh the Driver Monitor view with Refresh. For more information on how to view and sort the SEL using ServerView Operations Manager, see the "ServerView Operations Manager - Server Management"...
Basic software procedures 5.2.13 Updating the NIC configuration file in a Linux and VMware environment In order to prevent errors caused by changing network device names (eth), it is recommended to store the MAC address (hardware address) of a network interface card in the related NIC configuration file of the Linux/VMware OS.
Ê Select the system volume, and click Resume Protection. For more information on how to resume BitLocker drive encryption, see the Microsoft TechNet library at http://technet.microsoft.com/library/cc731549.aspx. For more information, see the Fujitsu web pages. Upgrade and Maintenance Manual RX2530 M4...
Basic software procedures 5.2.15 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. Ê Ensure that the RAID array rebuild has started normally. Wait until the progress bar has reached at least one percent.
Basic software procedures 5.2.16 Looking for MAC/WWN/GUID and SAS addresses The customer needs to know the new address of the controller: – When replacing the system board with an onboard LAN controller – When adding or replacing a network controller –...
Only network controllers supporting the Command Line Protocol (CLP) will be displayed. For add-in cards the vendors provide documentation and tools, offered on the Fujitsu support web pages: http://ts.fujitsu.com/support/ Select the server, select Downloads - More Details - Driver. Some vendors bundle the documentation together with the driver package.
There are several possible locations where these addresses can be found. Ê 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. Using the vendor tools in a Legacy BIOS –...
Basic software procedures Using ServerView RAID Manager Ê Start the ServerView RAID Manager and log in. Ê Select the desired SAS controller. In the General tab you can find data on the selected object including its SAS address. For more information, see the "ServerView Operations Manager - Server Management"...
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– from rack model to floorstand model – from floorstand model to rack model Update your system information using the Chassis ID Prom tool. The tool and more information are available to maintenance personnel from the Fujitsu web pages: https://partners.ts.fujitsu.com/com/service/ps/Servers/PRIMERGY/ Ê...
Basic software procedures 5.2.18 Configuring LAN teaming Use ServerView Operations Manager to obtain more information on existing LAN teams: Ê In ServerView Operations Manager Single System View select System Status from the Information/Operation menu. Ê Under Network Interfaces select LAN Teaming. Ê...
Basic software procedures 5.2.19 Switching off the ID indicator Press the ID button on the front panel, or use the iRMC web interface or ServerView Operations Manager to switch off the ID indicator after the maintenance task has been concluded successfully. For more information, see section "Locating the defective server"...
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Ê After the fan test is complete, restore the time setting to its initial value and click Save Page. 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.
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.
PSU 380 V, 1300 W). You may only operate the server if its rated voltage range corresponds to the local mains voltage. Fujitsu battery unit (FJBU) Besides the PSU, an FJBU can be installed optionally as a modular UPS. When power fail happened, the server can operate via FJBU for a while.
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Power supply unit (PSU) The connectors for the PSUs are integrated on the system board, therefore, the PSUs are connected directly to the system board. PSU configurations Figure 33: Example types of PSUs Power class Number in figure Power 450 W AC PSU Platinum 800 W AC PSU...
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Power supply unit (PSU) Assembly rules – Mixed assembly of PSUs from different power classes (e.g. class 1 or class 2) within a system is not supported. – Mixing of Platinum and Titanium PSUs within same class (e.g. class 2) within a system is not supported.
Power supply unit (PSU) Redundant power supply PSU 1 PSU 2 Figure 34: PSU bays 6.2.1 Installing a hot-plug PSU Customer Replaceable Unit Hardware: 5 minutes (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.
Power supply unit (PSU) 6.2.1.2 Removing the dummy cover Figure 35: Removing a dummy cover Ê Press in on both release latches (1) and remove the dummy cover (2). CAUTION! Keep the dummy cover for future use. If a PSU is removed and not immediately replaced by a new one, a dummy cover must be reinstalled in the bay to comply with applicable EMC regulations and satisfy cooling requirements.
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Power supply unit (PSU) Figure 37: Installing the PSU Ê Push the PSU into its bay (1) as far as it will go until the locking latch snaps in place. Ê Fold down the handle on the PSU (2). Make sure that the PSU engages correctly in the bay and is locked in position.
Power supply unit (PSU) 6.2.1.4 Concluding steps "Connecting the power cord" on page 63 Ê Ê If applicable, configure the redundant power supply. 6.2.2 Removing a hot-plug PSU Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver (for DC PSU -48 V) The procedure of removing an AC PSU or a DC PSU differs only in disconnecting/connecting the power cord.
Power supply unit (PSU) 6.2.2.2 Note for servers using CMA (Cable Management Arm) Regarding of removing PSUs, additional tasks are needed, due to an interference between CMA stopper and the PSUs. Figure 39: Unlocking the CMA stopper Ê Push the lock spring inward to unlock the CMA stopper. CAUTION! In case of not enough space at the under side, unlock the CMA stopper of the server below and pull out the CMA to the rear side.
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Power supply unit (PSU) Ê Hold the CMA stopper, the crossbar and the CMA including cables in the one hand. Figure 41: Removing the PSU Ê Remove the PSU and install the dummy cover carefully. Note for PSU1: Remove the PSU1 carefully while lifting PSU1 and bringing PSU1 to the right, in order to avoid interference Ê...
Power supply unit (PSU) 6.2.2.3 Removing a hot-plug PSU Ê Remove the power cord from the dedicated PSU, see section "Disconnecting the power cord" on page Figure 42: Unlocking and removing the PSU Ê Push the handle of the PSU halfway upward in the direction of the arrow (1). Ê...
Power supply unit (PSU) 6.2.2.4 Installing the dummy cover Figure 43: Installing the dummy cover Ê Insert the dummy cover into the empty bay with the impressed arrow symbol facing to the top (see circle). Ê Push the dummy cover into its bay until it locks in place. CAUTION! Always install dummy covers into unused bays to comply with applicable EMC regulations and satisfy cooling requirements.
Power supply unit (PSU) CAUTION! When replacing a PSU in a non-redundant PSU configuration, the ● server must be switched off first. Replace the PSU after specifying the one that breaks down at work ● by revitalization. 6.2.3.1 Preliminary steps "Locating the defective server"...
Power supply unit (PSU) 6.2.3.3 Removing the defective hot-plug PSU Ê Remove the PSU, see section "Removing a hot-plug PSU" on page 119. 6.2.3.4 Installing the new hot-plug PSU Ê Install the PSU, see section "Installing a hot-plug PSU" on page 114.
Power supply unit (PSU) Fujitsu battery unit (FJBU) 6.3.1 Installing the FJBU Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: tool-less 6.3.1.1 Preliminary steps No steps needed. 6.3.1.2 Removing the dummy cover Figure 44: Removing a dummy cover Ê Press in on both release latches (1) and remove the dummy cover (2).
Ê No steps needed. To execute auto shutdown after power fail, you should install the FJBU management software. How to install and configure the FJBU management software, see the “Fujitsu Battery Unit" user guide. 6.3.2 Removing the FJBU Customer Replaceable Unit...
Power supply unit (PSU) Ê Push the lock spring inward to unlock the CMA stopper (see figure 39). CAUTION! In case of not enough space at the under side, unlock the CMA stopper of the server below and pull out the CMA to the rear side. Ê...
Power supply unit (PSU) 6.3.2.3 Installing the dummy cover Figure 47: Installing the dummy cover Ê Insert the dummy cover into the empty bay with the impressed arrow symbol facing to the top (see circle). Ê Push the dummy cover into its bay until it locks in place. CAUTION! Always install dummy covers into unused bays to comply with applicable EMC regulations and satisfy cooling requirements.
Power supply unit (PSU) CAUTION! In case of not enough space at the under side, unlock the CMA stopper of the server below and pull out the CMA to the rear side. Ê Remove the CMA stopper with the mounted crossbar (see figure 40). Ê...
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Power supply unit (PSU) Upgrade and Maintenance Manual RX2530 M4...
Hard disk drive (HDD) / solid state drive (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 ●...
Hard disk drive (HDD) / solid state drive (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: –...
Hard disk drive (HDD) / solid state drive (SSD) Handling HDDs or SSDs without installation frame 7.2.1 2.5-inch HDD/SSD and 2.5-inch installation frame Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver Installing a 2.5-inch HDD/SSD in a 2.5-inch installation frame Figure 48: Installing the 2.5-inch HDD/SSD in the 2.5-inch installation frame (A) Ê...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 49: Installing the 2.5-inch HDD/SSD in the 2.5-inch installation frame (B) Ê Fasten the 2.5-inch HDD/SSD with four screws. Removing a 2.5-inch HDD/SSD from a 2.5-inch installation frame Ê Please proceed in reversed order. Upgrade and Maintenance Manual RX2530 M4...
Hard disk drive (HDD) / solid state drive (SSD) 7.2.2 2.5-inch HDD/SSD and 3.5-inch installation frame Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver 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.
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Hard disk drive (HDD) / solid state drive (SSD) Figure 51: Installing the 2.5-inch HDD/SSD in the 3.5-inch installation frame (A) Figure 52: Installing the 2.5-inch HDD/SSD in the 3.5-inch installation frame (B) Ê Fasten the 2.5-inch HDD/SSD with four screws. Removing a 2.5-inch HDD/SSD from a 3.5-inch installation frame Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.2.3 3.5-inch HDD and 3.5-inch installation frame Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver Installing a 3.5-inch HDD in a 3.5-inch installation frame Figure 53: Installing the 3.5-inch HDD in the 3.5-inch installation frame (A) Ê...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 54: Installing the 3.5-inch HDD in the 3.5-inch installation frame (B) Ê Fasten the 3.5-inch HDD with four screws. Removing a 3.5-inch HDD from a 3.5-inch installation frame Ê Please proceed in reversed order. Upgrade and Maintenance Manual RX2530 M4...
Hard disk drive (HDD) / solid state drive (SSD) 3.5-inch HDD configurations The HDD bays can be equipped with 3.5-inch HDD modules or 2.5-inch HDD/SSD modules, see section "2.5-inch HDD/SSD and 3.5-inch installation frame" on page 133. 7.3.1 Configuration with up to four HDD modules Figure 55: Configuration with up to four 3.5-inch HDDs Position Logical drive number ServerView RAID Manager display name...
Hard disk drive (HDD) / solid state drive (SSD) 7.3.2 Installing 3.5-inch HDD modules Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: tool-less 7.3.2.1 Preliminary steps Ê Locate the correct drive bay, see section "3.5-inch HDD configurations" on page 137. 7.3.2.2 Removing a 3.5-inch HDD dummy module Figure 56: Removing the dummy module...
Hard disk drive (HDD) / solid state drive (SSD) 7.3.2.3 Installing a 3.5-inch HDD module Figure 57: Opening the 3.5-inch HDD module locking lever Ê Pinch the green locking clip (1) and open the locking lever (2). Figure 58: Installing the 3.5-inch HDD module Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.3.3 Removing 3.5-inch HDD modules Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: tool-less 7.3.3.1 Preliminary steps Ê If the HDD module to be removed is combined into a RAID array, please proceed as follows: RAID level Procedure CAUTION!
Hard disk drive (HDD) / solid state drive (SSD) 7.3.3.2 Removing a 3.5-inch HDD module Ê Pinch the green locking clips and open the locking lever (see figure 57). Ê Pull the HDD module out a few centimeters. Ê 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.
Hard disk drive (HDD) / solid state drive (SSD) 7.3.4 Replacing a 3.5-inch HDD module Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver (if moving installation frame) CAUTION! Only remove an HDD module during operation if the drive is not ●...
Hard disk drive (HDD) / solid state drive (SSD) 7.3.4.1 Preliminary steps "Locating the defective server" on page 47 Ê "Locating the defective component" on page 48 Ê 7.3.4.2 Removing the defective 3.5-inch HDD module Ê Remove the HDD module, see section "Removing a 3.5-inch HDD module"...
Hard disk drive (HDD) / solid state drive (SSD) 7.3.5 Replacing the 3.5-inch HDD backplane Field Replaceable Unit Hardware: 10 minutes (FRU) Tools: tool-less 7.3.5.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 61: Disconnecting the OOB cable Free Connector HDD backplane Ê If applicable, remove the OOB cable from the HDD backplane, too. Figure 62: Removing the 3.5-inch HDD backplane Ê Pull the HDD backplane upward until the three hooks disengage (see circles).
Hard disk drive (HDD) / solid state drive (SSD) 7.3.5.3 Installing the new 3.5-inch HDD backplane Figure 63: Installing the 3.5-inch HDD backplane Ê Position the HDD backplane on the three hooks (see circles). Ê Push the HDD backplane downward. Make sure that the HDD backplane fits into the guides (A).
Hard disk drive (HDD) / solid state drive (SSD) 7.3.5.4 Concluding steps Ê Insert all HDD modules, see section "Installing a 3.5-inch HDD module" on page 139. Make sure that you reinstall the HDD module in the bay it was located before the HDD backplane replacement.
Hard disk drive (HDD) / solid state drive (SSD) 2.5-inch HDD/SSD configurations 7.4.1 Configuration with up to four HDD/SSD modules SAS HDDs must not be populated above or below BC-SAS / BC-SATA HDDs. In order to avoid this configuration, please make a free bay intentionally.
Hard disk drive (HDD) / solid state drive (SSD) 7.4.2 Configuration with up to eight HDD/SSD modules SAS HDDs must not be populated above or below BC-SAS / BC-SATA HDDs. In order to avoid this configuration, please make a free bay intentionally.
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Hard disk drive (HDD) / solid state drive (SSD) Configuration with RAID controller: Figure 67: Configuration with up to eight HDDs/SSDs (RAID controller) Position Logical drive number ServerView RAID Manager display name Vendor Product (0) Vendor Product (1) Vendor Product (2) Vendor Product (3) Vendor Product (4) Vendor Product (5)
Hard disk drive (HDD) / solid state drive (SSD) 7.4.3 Configuration with up to 10 HDD/SSD modules SAS HDDs must not be populated above or below BC-SAS / BC-SATA HDDs. In order to avoid this configuration, please make a free bay intentionally.
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Hard disk drive (HDD) / solid state drive (SSD) Configuration with up to two PCIe SSD modules In the configuration with up to 10 HDD/SSD modules, the first two HDD bays can be equipped with PCIe SSD modules via onboard Oculink connection (see figure 70 on page 153).
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Hard disk drive (HDD) / solid state drive (SSD) Figure 70: Routing Oculink cables - example onboard Oculink connection For the corresponding connectors and cables, see the cable plan in chapter "Appendix B" on page 437. Upgrade and Maintenance Manual RX2530 M4...
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Hard disk drive (HDD) / solid state drive (SSD) Configuration with up to four PCIe SSD modules In the configuration with up to 10 HDD/SSD modules, the first four HDD bays can be equipped with PCIe SSD modules, if one Retimer controller has been installed in riser module 2 (see section "Example two Retimer controllers in riser modules 2 and 3"...
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Hard disk drive (HDD) / solid state drive (SSD) Configuration with up to 10 PCIe SSD modules In the configuration with the 10x 2.5-inch HDD backplane with 10x Oculink connectors (NVME) and two Retimer controllers, you can install up to 10 PCIe SSD modules (see section "Example two Retimer controllers in riser modules 2 and 3"...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.4 Installing 2.5-inch HDD/SSD modules Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: tool-less 7.4.4.1 Preliminary steps Ê Locate the correct drive bay, see section "2.5-inch HDD/SSD configurations" on page 148. 7.4.4.2 Removing a 2.5-inch HDD/SSD dummy module In configuration with only one 4x 2.5-inch HDD backplane dummy locks...
Hard disk drive (HDD) / solid state drive (SSD) Figure 74: Removing the dummy module Ê Press both tabs together (1) and pull the dummy module out of its bay (2). CAUTION! Keep the dummy module for future use. Always replace dummy modules into unused HDD/SSD bays to comply with applicable EMC regulations and satisfy cooling requirements.
Hard disk drive (HDD) / solid state drive (SSD) Figure 76: Installing the 2.5-inch HDD/SSD module Ê Insert the HDD/SSD module into a drive bay and carefully push back as far as it will go (1). Ê Close the locking lever to lock the HDD/SSD module in place (2). Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.5 Removing 2.5-inch HDD/SSD modules Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: tool-less 7.4.5.1 Preliminary steps Ê If the HDD/SSD module to be removed is combined into a RAID array, please proceed as follows: RAID level Procedure CAUTION!
Hard disk drive (HDD) / solid state drive (SSD) 7.4.5.2 Removing a 2.5-inch HDD/SSD module Ê Pinch the green locking clips and open the locking lever (see figure 75). Ê Pull the HDD/SSD module out a few centimeters. Ê Wait about 30 seconds to allow the HDD to spin down. This is not necessary when removing an SSD.
Hard disk drive (HDD) / solid state drive (SSD) 7.4.6 Replacing a 2.5-inch HDD/SSD module Customer Replaceable Unit Hardware: 5 minutes (CRU) Tools: Phillips PH1 / (+) No. 1 screw driver (if moving installation frame) CAUTION! Only remove an HDD/SSD module during operation if the drive is not ●...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.6.1 Preliminary steps "Locating the defective server" on page 47 Ê "Locating the defective component" on page 48 Ê 7.4.6.2 Removing the defective 2.5-inch HDD/SSD module Ê Remove the HDD/SSD module, see section "Removing 2.5-inch HDD/SSD modules"...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.7 Installing 2.5-inch PCIe SSD modules This procedure is valid, if the PCIe SSD module is controlled by an onboard controller or by a Retimer card. For more information, see the "NVMe User Guide". 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 section...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.7.3 Installing a 2.5-inch PCIe SSD module Figure 78: Opening the locking lever Ê Pinch the green locking clips (1) and open the locking lever (2). Figure 79: Installing the 2.5-inch PCIe SSD module Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.8 Removing 2.5-inch PCIe SSD modules This procedure is valid, if the PCIe SSD module is controlled by an onboard controller or by a Retimer card. For more information, see the "NVMe User Guide". If the PCIe SSD module is controlled by a RAID controller of the PRAID EP5x0i family, the PCIe SSD module can be removed during operation (hot-plug), see section...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.9 Replacing 2.5-inch PCIe SSD modules This procedure is valid, if the PCIe SSD module is controlled by an onboard controller or by a Retimer card. For more information, see the "NVMe User Guide". If the PCIe SSD module is controlled by a RAID controller of the PRAID EP5x0i family, the PCIe SSD module can be replaced during operation (hot-plug), see section...
Hard disk drive (HDD) / solid state drive (SSD) Ê If applicable, remove the PCIe SSD from the installation frame, see section "Handling HDDs or SSDs without installation frame" on page 131. 7.4.9.3 Installing the new 2.5-inch PCIe SSD module Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.10 Replacing the 4x 2.5-inch HDD backplane (right side) Field Replaceable Unit Hardware: 10 minutes (FRU) Tools: tool-less 7.4.10.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.10.2 Removing the defective 4x 2.5-inch HDD backplane Figure 80: Removing the 4x 2.5-inch HDD backplane Ê Disconnect all cables from the HDD backplane (see orange arrows). Figure 81: Disconnecting the OOB cable - one HDD backplane Connector left side HDD backplane or free Connector right side HDD backplane Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.10.3 Installing the new 4x 2.5-inch HDD backplane Figure 82: Installing the 4x 2.5-inch HDD backplane Ê Position the HDD backplane on the four hooks (see circles). Ê Push the HDD backplane downward. Make sure that the HDD backplane fits into the guides (A).
Hard disk drive (HDD) / solid state drive (SSD) 7.4.11 Replacing the 4x 2.5-inch HDD backplane (left side) Field Replaceable Unit Hardware: 10 minutes (FRU) Tools: tool-less 7.4.11.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.11.2 Removing the defective 4x 2.5-inch HDD backplane Figure 83: Releasing the ODD latch and disconnecting the cables Ê If applicable, disconnect both cables from the ODD (see orange circle). Ê If applicable, pull the ODD latch upward (1) until it disengages and push the ODD somewhat in direction of the front side (2).
Hard disk drive (HDD) / solid state drive (SSD) Figure 85: Removing the 4x 2.5-inch HDD backplane Ê Pull the HDD backplane upward until the six hooks disengage (see circles). Ê Take out the HDD backplane. 7.4.11.3 Installing the new 4x 2.5-inch HDD backplane Figure 86: Installing the 4x 2.5-inch HDD backplane Ê...
Hard disk drive (HDD) / solid state drive (SSD) Figure 87: Connecting the cables to the ODD and the 4x 2.5-inch HDD backplane Ê If applicable, push the ODD in its bay until the ODD latch engages (see orange arrow). Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.12 Replacing a 10x 2.5-inch HDD backplane Field Replaceable Unit Hardware: 15 minutes (FRU) Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver (for removing/installing SAS expander board) There are different 10x 2.5-inch HDD backplanes available.
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Hard disk drive (HDD) / solid state drive (SSD) PCIe configuration onboard connected only Label color on the Connector on the Connector on the color-coded system board 10x 2.5-inch HDD backplane Oculink cable PCIe 0 yellow PCIe 1 Connected to Connected to system board 10x 2.5-inch HDD backplane...
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Hard disk drive (HDD) / solid state drive (SSD) The backplane revision is printed on a label attached to the HDD backplane. Figure 89: Example label with backplane revision = D Upgrade and Maintenance Manual RX2530 M4...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 90: 10x 2.5-inch HDD backplane with 10x Oculink connectors (NVME) Power connector Power connector Connector for OOB cable Connector for Oculink cable (red) - onboard Connector for Oculink cable (yellow) -onboard Connector for Oculink cable (green) - second Retimer controller Connector for Oculink cable (black) - second Retimer controller Connector for Oculink cable (red) - second Retimer controller...
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Hard disk drive (HDD) / solid state drive (SSD) PCIe configuration with 2x Retimer controller in riser module 2 (slot 3) and riser module3 (slot 4): Label color on Connector on Connector on the the color-coded the Retimer 10x 2.5-inch HDD Oculink cable controller backplane with...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.12.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê "Getting access to the component" on page 52 Ê...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 92: Removing the SAS expander board (A) Ê Remove the two screws (see circles). Figure 93: Removing the SAS expander board (B) Ê Get the SAS expander board out of the two connectors of the HDD backplane and remove it.
Hard disk drive (HDD) / solid state drive (SSD) 7.4.12.4 Removing the defective 10x 2.5-inch HDD backplane Figure 94: Removing the 10x 2.5-inch HDD backplane Ê Pull the HDD backplane upward until the six hooks disengage (see circles). Ê Take out the HDD backplane. 7.4.12.5 Installing the new 10x 2.5-inch HDD backplane Figure 95: Installing the 10x 2.5-inch HDD backplane Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.12.6 Installing the SAS expander board (if applicable) Figure 96: Installing the SAS expander board (A) Ê Insert the SAS expander board into the two connectors of the HDD backplane. CAUTION! Lift up the SAS expander board while inserting it in order to prevent the components to be damaged by the stand-offs of the chassis.
Hard disk drive (HDD) / solid state drive (SSD) MLC 2 MLC 1 Figure 98: Connecting SAS cables Ê Connect the two SAS cables to the SAS expander board: – (1) from SAS controller connector MLC1 to SAS expander board –...
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Hard disk drive (HDD) / solid state drive (SSD) Figure 99: Connecting Oculink cables - example 2x Oculink, OOB cable P2 connected Figure 100: Connecting Oculink cables - example 4x Oculink, OOB cable P3 connected For the cable plan, see chapter "Appendix B"...
Hard disk drive (HDD) / solid state drive (SSD) Figure 101: Connecting Oculink cables - example 10x Oculink For the cable plan, see chapter "Appendix B" on page 437. 7.4.12.8 Concluding steps Ê Insert all HDD/SSD modules, see section "Installing a 2.5-inch HDD/SSD module"...
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Hard disk drive (HDD) / solid state drive (SSD) "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê Ê For systems with 10x 2.5-inch HDD backplane (Combo): If replacing a Combo backplane with revision ≤ C with a Combo backplane with revision ≥...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.13 Replacing the SAS expander board Field Replaceable Unit Hardware: 10 minutes (FRU) Tools: Phillips PH2 / (+) No. 2 screw driver 7.4.13.1 Preliminary steps "Locating the defective server" on page 47 Ê...
Hard disk drive (HDD) / solid state drive (SSD) 7.4.14 Upgrading configuration from up to four to up to eight 2.5-inch HDDs/SSDs Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: tool-less CAUTION! All data on all HDDs/SSDs in the array will be lost when deleting the RAID array! Be sure to back up your data before deleting a RAID array.
Hard disk drive (HDD) / solid state drive (SSD) Figure 104: Removing the ODD lock (B) Ê Remove the ODD lock. 7.4.14.3 Installing the second HDD backplane Ê Install the second HDD backplane, see section "Installing the new 4x 2.5- inch HDD backplane"...
Hard disk drive (HDD) / solid state drive (SSD) Ê If an ODD has been removed, install the ODD again, see section "Installing the ODD" on page 336. 7.4.14.4 Installing additional HDD/SSD modules Ê Remove the dummy locks, see section "Removing a 2.5-inch HDD/SSD dummy module"...
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Hard disk drive (HDD) / solid state drive (SSD) Upgrade and Maintenance Manual RX2530 M4...
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.
Fans Basic information Base units are supplied with four hot-plug fan modules (1 CPU configuration) or eight hot-plug fan modules (2 CPU configuration). Base units with four fan modules operate in a 1 of 4 redundancy, base units with eight fan modules operate in a 1 of 8 redundancy. In other words, if one of the four or eight fan modules fails, the system will operate without any problem.
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Fans ATD35 ATD40 or ATD45 Skylake-SP Spec RX2530 M4 Heatsink Fan Typ Heatsink Fan Typ Socket P1 Max. CPU TDP 205W Xeon Bronce 3100 - Basic (Shelf 1) B1015-V1 A3C40201803 B1016-V2 A3C40201802 Xeon Bronce 31xx 6C/6T 1.7GHz 8.3MB 9.6GT/s 2133MHz 85W B1015-V1 A3C40201803 B1016-V2 A3C40201802 Xeon Bronce 31xx 8C/8T 1.7GHz 11.0MB 9.6GT/s 2133MHz 85W...
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Fans Numbering of the fan modules Figure 107: Numbering of the fan modules CPU 1 fan 1/2 CPU 2 fan 9/10 CPU 1 fan 3/4 CPU 2 fan 11/12 CPU 1 fan 5/6 CPU 2 fan 13/14 CPU 1 fan 7/8 CPU 2 fan 15/16 Upgrade and Maintenance Manual RX2530 M4...
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Fans In case of 1 CPU configurations, the bays 5, 6, 7and 8 are occupied with fan cage foams. Figure 108: Fan bays occupied with fan cage foams Upgrade and Maintenance Manual RX2530 M4...
Fans Replacing a fan module Customer Replaceable Unit Hardware: 10 minutes (CRU) Tools: tool-less 8.2.1 Preliminary steps "Locating the defective server" on page 47 Ê "Getting access to the component" on page 52 Ê "Locating the defective component" on page 48 Ê...
Fans 8.2.3 Installing the new fan module Figure 110: Installing the fan module (A) Ê Insert the fan module in the fan bay. Notice the right position of the rubber pins and the fan connector. Figure 111: Installing the fan module (B) Ê...
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Fans Upgrade and Maintenance Manual RX2530 M4...
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.
Slot 1 COM 1 VROC VPP CPU Figure 112: PCIe slots for riser cards For system relevant information, see the hardware configurator of your server available online at the following address: http://ts.fujitsu.com/products/standard_servers/index.htm For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/ Upgrade and Maintenance Manual RX2530 M4...
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Expansion cards and backup units Figure 113: Numbering riser modules Riser module Slot offered Type Description Riser module 1 Slot 1 PCIe Gen3 x8 Low-profile slot, maximum length 167.65 mm (6.6 inch); dedicated slot for modular RAID controller Slot 2 PCIe Gen3 x16 Low-profile slot, maximum length 167.65 mm (6.6 inch)
Expansion cards and backup units Handling slot brackets 9.2.1 Installing a slot bracket Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver Use the low profile bracket perforated for relevant controllers. No bracket needed for installing the HDD controller in slot 1 of riser module 1 (see figure 136).
Expansion cards and backup units Example: EP4x0i Figure 115: Placing the slot bracket Ê Place the controller on the slot bracket (see arrow). Ê Secure the slot bracket to the expansion card with two screws (see circles). 9.2.2 Removing a slot bracket Upgrade and Repair Unit Hardware: 5 minutes (URU)
Expansion cards and backup units Handling SFP+ transceiver modules A network adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules. SFP+ transceiver modules are hot-pluggable. 9.3.1 Installing SFP+ transceiver modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less Preparing the SFP+ transceiver module...
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Expansion cards and backup units Figure 117: Unlatching the locking bail Ê Carefully unlatch and fold down the locking bail on the SFP+ transceiver module. Inserting the SFP+ transceiver module Figure 118: Inserting the SFP+ transceiver module Ê Insert and slide the SFP+ transceiver module into the socket connector as far as it will go.
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Expansion cards and backup units Figure 119: Latching the locking bail Ê Carefully fold up and latch the locking bail. Figure 120: Installing the protective cap Ê If the SFP+ transceiver module is not immediately connected to an LC connector, attach the protective cap to the SFP+ transceiver module. Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units Installing the secondary SFP+ transceiver module Figure 121: Installing the secondary SFP+ transceiver module Ê If applicable, install the secondary SFP+ transceiver module accordingly. 9.3.2 Removing an SFP+ transceiver module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less For Fiber Channel over Ethernet (FCoE) configurations, the ethernet server...
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Expansion cards and backup units Figure 122: Removing the protective cap Ê If present, remove the protective cap from the SFP+ transceiver module. CAUTION! Keep the protective cap for future use. Figure 123: Unlatching the locking bail Ê Carefully unlatch and fold down the locking bail on the SFP+ transceiver module to eject the transceiver from the socket connector.
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Expansion cards and backup units Figure 124: Removing the SFP+ transceiver module Ê Pull the SFP+ transceiver module out of its socket connector. Ê Attach the protective cap to the SFP+ transceiver module. Place the removed SFP+ transceiver module in an antistatic bag or other protective environment.
Expansion cards and backup units OCP (Open Compute Project) modules Slot 4 USB 3.0 Slot riser card / slot 4 (CPU 2) PCIe Port 0 Slot OCP module Micro USB 3.0 SSD1 iRMC Management Shared SATA LAN 1 Figure 125: Slot and bolts for OCP modules Some OCP modules can be equipped with SFP modules.
Expansion cards and backup units 9.4.1 Installing an OCP module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tool: – Phillips PH1 / (+) No. 1 screw driver 9.4.1.1 Preliminary steps "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
Expansion cards and backup units 9.4.1.3 Installing the OCP module Figure 128: Installing the OCP module Ê Install the OCP module with the bottom side above (1) on the four bolts (see figure 125). Ensure that the connectors are positioned correctly in the rear side.
Expansion cards and backup units 9.4.2 Removing the OCP module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tool: – Phillips PH1 / (+) No. 1 screw driver 9.4.2.1 Preliminary steps "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
Expansion cards and backup units 9.4.2.3 Installing the dummy cover Figure 130: Installing the dummy cover Ê Insert the dummy cover. Notice the position of the handle. 9.4.2.4 Concluding steps Ê Install the riser module 3, see section "Installing a riser module" on page "Reassembling"...
Expansion cards and backup units 9.4.3 Replacing the OCP module Upgrade and Repair Unit Hardware: 10 minutes (URU) Tool: – Phillips PH1 / (+) No. 1 screw driver Four MAC addresses are stored on the system board. When replacing an OCP module by an OCP module with different number of ports (e.g.
Expansion cards and backup units 9.4.3.4 Concluding steps Ê Install the riser module 3, see section "Installing a riser module" on page "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê...
Expansion cards and backup units Expansion cards and riser cards Note for riser module 1: – A controller in slot 1 needs no slot bracket and is fastened with two knurled screws to the riser module 1 holder. In newer systems there may be washers between knurled screw and riser module holder (see close-up in figure 131).
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Expansion cards and backup units top cover Figure 133: Slots of riser module 1 Pos. Component Slot 1 is an internal slot only; dedicated slot for modular RAID controller Slot 2 Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units 9.5.1 Installing an expansion card After installing an EP5x0i controller with the intention to replace the Oculink onboard controller, never forget to change the system information using the Chassis ID Prom Tool. Upgrade and Repair Unit Hardware: 10 minutes (URU) Software: 5 minutes...
Expansion cards and backup units 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.
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Expansion cards and backup units Figure 136: Installing an expansion card - example riser module 1, slot 1 Ê Slot 1: Ê Carefully press the expansion card into the riser card slot, until it clicks into place. Ê If installing a RAID controller, remove the washers (see close-up in figure 131).
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Expansion cards and backup units Example PRAID EP5xxi Figure 137: Connecting cables - PRAID EP5xxi Ê If applicable, connect the corresponding FBU cable (1) to the PRAID EP5xxi. Ê Connect the HDD LED cable (2) to the PRAID EP5xxi. Figure 138: Connecting the SAS cable - PRAID EP5xxi in 3.5-inch HDD configuration Ê...
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Expansion cards and backup units Figure 139: Example - PRAID EP5xxi in riser module 1 in a 3.5-inch HDD chassis Ê If applicable, connect the FBU cable (1) to the FBU. Ê Connect the HDD LED cable (2) to connector "HDD LED" on the system board.
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Expansion cards and backup units Example PRAID EP540i with custom heat sink Only PRAID EP520i / PRAID EP540i with custom heat sink can be installed in slot 1. Figure 140: Connecting Oculink cables - PRAID EP540i Ê Connect the color-coded Oculink cables to the PRAID EP540i. Figure 141: Routing Oculink cables - PRAID EP540i Ê...
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Expansion cards and backup units Example PDUAL AP200 and PSAS CP400i Ê If applicable, install two M.2 SSDs on the PDUAL AP200, see section "Installing M.2 SSDs on PDUAL AP200" on page 236. Figure 142: Connecting cables - PDUAL AP200 Ê...
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Expansion cards and backup units Figure 144: Example routing cables - PSAS CP400i installed in slot 1, PDUAL AP200 in slot 2 Figure 145: Example routing cables - PSAS CP400i installed in slot 1, PDUAL AP200 in slot 4 Ê Install the PSAS CP400i in slot 1. Ê...
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Expansion cards and backup units Example two Retimer controllers in riser modules 2 and 3 Figure 146: Connecting cables - first Retimer controller Ê Connect the VPP cable (1) to the Retimer controller. Ê Connect the color-coded Oculink cable (2) to the Retimer controller. Ê...
Expansion cards and backup units Figure 148: Example - Retimer controllers in riser module 2 and 3 Ê Connect the VPP cable from the first Retimer controller in riser module 2 to connector "VPP CPU1" on the system board. Ê Connect the color-coded Oculink cables to the corresponding HDD backplane (see section "Replacing a 10x 2.5-inch HDD backplane"...
Expansion cards and backup units 9.5.2 Removing an expansion card After removing an EP5x0i controller with the intention to use the Oculink onboard controller or a Retimer controller, never forget to change the system information using the Chassis ID Prom Tool. Upgrade and Repair Unit Hardware: 5 minutes (URU)
Expansion cards and backup units Figure 149: Removing the expansion card - example riser module 2, slot 3 Ê Pull out the expansion card from the riser card slot. 9.5.2.3 Installing the slot cover (only slot 2-4) Figure 150: Installing the slot cover - example riser module 2 Ê...
Expansion cards and backup units 9.5.2.4 Concluding steps Ê Install the corresponding riser module, see section "Installing a riser module" on page "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê...
Expansion cards and backup units 9.5.3.1 Preliminary steps "Locating the defective server" on page 47 Ê Ê If applicable, "Configuring LAN teaming" on page 105 "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord"...
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Expansion cards and backup units "Enabling replaced components in the BIOS" on page 93 Ê Ê Inform the customer about changed WWN, MAC and SAS addresses, see "Looking for MAC/WWN/GUID and SAS addresses" on page 100. "Updating the NIC configuration file in a Linux and VMware environment" on Ê...
Expansion cards and backup units 9.5.4 Installing M.2 SSDs on PDUAL AP200 The PDUAL AP200 offers two M.2 slots (Key M) for M.2 SSDs. In combination with a PSAS CP400i controller and a RAID1 configuration, the second M.2 SSD can be used for 1:1 mirroring of the first M.2 SSD. Upgrade and Repair Unit Hardware: 5 minutes (URU)
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Expansion cards and backup units CAUTION! Both M.2 slots must be equipped if the mirroring function will be used. In this case both M.2 SSDs must be of the same type. There are more holes available to support different lengths of M.2 SSDs. Figure 152: Installing the M.2 SSD Ê...
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Expansion cards and backup units Figure 153: Attaching the bolt Ê Attach the bolt to the M.2 SSD (see close-up). Ensure that the M.2 SSD fits in the recess (A) of the bolt. Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units Figure 154: Fastening the M.2 SSD Ê Push the bolt in the corresponding hole (1). Fix the bolt with two fingers. Ê Fasten the M.2 SSD with the screw (see circle) at the bottom side (2). Ê...
Expansion cards and backup units 9.5.4.4 Software configuration The M.2 SSDs are intended to be used as boot device in a RAID 1 array. Ê Install a RAID 1 array, see description CP400i included in "Modular RAID Controllers" user guide. Ê...
Expansion cards and backup units 9.5.5.2 Replacing the M.2 SSD Ê Remove the PDUAL AP200, see section "Removing the expansion card" on page 231. Figure 156: Removing the M.2 SSD (A) Ê Remove the screw (see circle) of the defective M.2 SSD at the bottom side (1).
Expansion cards and backup units Figure 157: Removing the M.2 SSD (B) Ê Pull the M.2 SSD out of its slot. Ê Install the new M.2 SSD, see section "Installing M.2 SSDs on PDUAL AP200" on page 236. Ê Install the PDUAL AP200, see section "Installing the expansion card"...
Expansion cards and backup units 9.5.6 Replacing a riser card Field Replaceable Unit Hardware: 5 minutes (FRU) Tools: Phillips PH2 / (+) No. 2 screw driver 9.5.6.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
Expansion cards and backup units 9.5.6.3 Installing the new riser card Figure 159: Installing the riser card - example riser module 2 Ê Insert the riser card. Ê Fasten the riser card with two screws (see circles). Ê Install the expansion card, see section "Installing the expansion card"...
Expansion cards and backup units 9.5.7 Replacing a TFM Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH1 / (+) No. 1 screw driver 9.5.7.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
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Expansion cards and backup units Figure 161: Removing the TFM Ê Remove the two screws (1). Ê Remove the TFM (2). Note for replacing the TFM: The two spacer bolts can remain on the RAID controller. Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units 9.5.7.3 Installing the new TFM Example RAID controller PRAID EP400i/EP420i Figure 162: Installing the TFM (A) Ê If no TFM has been installed before: fit the two spacer bolts on the RAID controller. Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units Figure 163: Installing the TFM (B) Ê Fasten the TFM to the RAID controller with the two screws from the TFM kit. Figure 164: Connecting the FBU cable Ê Connect the FBU cable to the TFM. Ê...
Expansion cards and backup units 9.5.8.2 Installing the upgrade kit Figure 166: Removing the riser module support Ê Remove the screw (1). Ê Remove the riser module support (2). Ê Remove the riser card from riser module 3, see section "Removing the defective riser card"...
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Expansion cards and backup units Figure 168: Installing the expansion card - example full height riser module Ê Install the expansion card, see section "Installing the expansion card" on page 222. Figure 169: Installing the extension bracket Ê Fasten the extension bracket with one screw to the full height riser module (see circle).
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Expansion cards and backup units Figure 170: Installing the full height riser module Ê Insert the riser card into the system board slot and press down the green touch points (see circles). CAUTION! Make sure that the EMC springs make contact correctly (see close-ups). Upgrade and Maintenance Manual RX2530 M4...
Expansion cards and backup units Flash backup unit (FBU) The FBU backs up the memory contents of the RAID controller in the event of a power failure. You can install one FBU. Depending on the chassis (3.5-inch HDD chassis or 2.5-inch HDD chassis) the installation in the FBU holder and the position for the FBU holder are different.
Expansion cards and backup units 9.6.1.2 Preparing the FBU Figure 171: Installing the FBU in the holder (A) Ê At a slight angle, fit the FBU under both retaining brackets of the holder. Ê Push in the FBU until it locks in place. Figure 172: Installing the FBU in the holder (B) Ê...
Expansion cards and backup units Figure 173: Connecting the FBU cable to the FBU Ê Connect the cable end on the FBU to the FBU cable as shown. 9.6.1.3 Installing the FBU Figure 174: Position of the shoulder screw caps Upgrade and Maintenance Manual RX2530 M4...
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Expansion cards and backup units Figure 175: Installing the FBU with the holder Ê Insert the holder into the chassis so that the three shoulder screw caps on the chassis floor rest in the wide ends of the keyhole slots on the holder. Ê...
Expansion cards and backup units Figure 176: Routing the FBU cable Ê Route the FBU cable as shown in the figure. 9.6.1.4 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê...
Expansion cards and backup units 9.6.2 Installing an FBU in a 3.5-inch HDD chassis Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: – Phillips PH1 / (+) No. 1 screw driver (for installing TFM EP400i/EP420i) – Phillips PH2 / (+) No. 2 screw driver (for removing/installing riser card) The riser holder of riser module 3 has to be exchanged with a riser holder with shoulder screw caps (included in FBU kit).
Expansion cards and backup units 9.6.2.2 Preparing the riser holder Figure 177: Removing the riser card - example riser module 3 Ê Remove the two screws (see circles). Ê Remove the riser card. Figure 178: Installing the riser card - example riser module 3 Ê...
Expansion cards and backup units 9.6.2.3 Preparing the FBU Ê Prepare the FBU, see section "Preparing the FBU" on page 254. Figure 179: Connecting the FBU cable to the FBU Ê Connect the cable end on the FBU to the FBU cable as shown. 9.6.2.4 Installing the FBU Figure 180: Riser module with shoulder screw caps...
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Expansion cards and backup units Figure 181: Installing the FBU with the holder Ê Insert the holder into the riser module so that the three shoulder screw caps on the riser module rest in the wide ends of the keyhole slots on the holder. Ê...
Expansion cards and backup units Figure 182: Routing the FBU cable Ê Route the FBU cable as shown in the figure. 9.6.2.5 Concluding steps Ê Install the riser module 3, see section "Handling riser modules" on page "Reassembling" on page 57 Ê...
Expansion cards and backup units 9.6.3 Removing an FBU from a 2.5-inch HDD chassis Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: tool-less CAUTION! Dispose of used battery properly. Keep away from children. ● Do not throw flash backup units into the trash can. Batteries must be ●...
Expansion cards and backup units Ê Lift the holder out of the chassis. 9.6.3.3 Disconnecting the FBU cable from the FBU Figure 184: Disconnecting the FBU cable from the FBU Ê Disconnect the FBU cable from the FBU. 9.6.3.4 Removing the FBU from the holder Figure 185: Removing the FBU from the holder Ê...
Expansion cards and backup units 9.6.3.5 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê 9.6.4 Removing an FBU from a 3.5-inch HDD chassis Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: tool-less...
Expansion cards and backup units 9.6.4.2 Removing the FBU with the holder Figure 186: Removing the FBU with the holder Ê 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. After that, the shoulder screw caps on the riser module will rest in the wide ends of the keyhole slots on the holder.
Expansion cards and backup units 9.6.5 Replacing an FBU Upgrade and Repair Unit Hardware: 15 minutes (URU) Tools: tool-less CAUTION! Dispose of used battery properly. Keep away from children. ● Do not throw flash backup units into the trash can. Batteries must be ●...
Expansion cards and backup units 9.6.5.4 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê The recalibration of the FBU starts automatically, and finishes within a few minutes.
Main memory 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 section "Basic information"...
Main memory 10.1 Basic information CPU 2 DIMM 1J CPU 2 DIMM 2J PSU1 CPU 2 DIMM 1H CPU 2 DIMM 2H CPU 2 DIMM 1G CPU 2 DIMM 2G CPU 2 PSU2 CPU 2 DIMM 2K PCIe CPU 2 DIMM 1K Port 1 CPU 2 DIMM 2L YELLOW...
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On second CPU the memory channels are named G, H, J, K, L and M and placed accordingly. Figure 188: Memory slots of CPU 1 For system relevant information, see the hardware configurator of your server available online at the following address: http://ts.fujitsu.com/products/standard_servers/index.htm For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/ Upgrade and Maintenance Manual RX2530 M4...
Main memory 10.1.1 Population rules – Non-ECC DIMMs are not supported on this platform. – x4 and x8 DIMMs cannot be mixed in the same channel. – Mixing of LRDIMM with RDIMM type is not allowed per platform. – Mixing of non-3DS and 3DS LRDIMMs is not allowed per platform. –...
Main memory 10.1.2 Modes of operation 10.1.2.1 Independent Channel mode Independent Channel mode with identical DIMMs – Same letter represents identical DIMMs (capacity, rank). – Use a "balanced" platform configuration: – all available memory channels populated equally – identical DIMMs in all locations (size/speed/rank) –...
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Main memory CPU1 CPU2 ctrl. iMC1 iMC0 iMC1 iMC0 channel M (F) L (E) K (D) G (A) H (B) J (C) socket 2D 2A 1C 1M 2K 2G #DIMMs 1 CPU populated #DIMMs 2 CPUs populated Upgrade and Maintenance Manual RX2530 M4...
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Main memory Independent Channel mode with different DIMMs – Same letter represents identical DIMMs (capacity, rank). – If using two different DIMMs, use a "near-balanced" platform configuration: – all available memory channels and sockets populated equally – identical DIMMs in each "row", but different sized DIMMs in row #1 and row #2 –...
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Main memory CPU1 CPU2 ctrl. iMC1 iMC0 iMC1 iMC0 channel M (F) L (E) K (D) G (A) H (B) J (C) socket 2D 2A 1C 1M 2K 2G #DIMMs 1 CPU populated #DIMMs 2 CPUs populated (8/6) (12/4) Upgrade and Maintenance Manual RX2530 M4...
Main memory 10.1.2.2 Mirrored Channel mode – Same letter represents identical DIMMs (capacity, rank). – Channels 1A/1B/1C must be populated with identical DIMMs. – Channels 2A/2B/2C must also contain identical DIMMs but may differ from 1A/1B/1C. – Channels D-F must be populated accordingly. –...
Main memory 10.1.2.3 Rank Sparing mode Single-rank RDIMMs – Same letter represents identical DIMMs (capacity, rank). – Configurations are defined that the waste for spare-memory is minimized; performance is not prioritized, i.e. channels will be filled with two DIMMs before populating new channel. –...
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Main memory Dual-rank / quad-rank / octal-rank DIMMs – Same letter represents identical DIMMs (capacity, rank). – In Rank Sparing mode only one DIMM capacity per CPU is allowed. – "x" must always be DIMM with more ranks than "z". –...
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Main memory CPU1 CPU2 ctrl. iMC1 iMC0 iMC1 iMC0 channel M (F) L (E) K (D) G (A) H (B) J (C) socket 2D 2A 1C 1M 2K 2G #DIMMs 1 CPU populated #DIMMs 2 CPUs populated Upgrade and Maintenance Manual RX2530 M4...
Main memory 10.2 Installing a memory module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 10.2.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
Main memory 10.2.3 Installing a memory module Figure 190: Opening the securing clips Ê Press the securing clips on both sides of the memory slot concerned outward. Figure 191: Installing a memory module Ê Align the notch on the bottom of the module with the crossbar in the slot. Ê...
Main memory Figure 192: Correct position of securing clips To improve the contact of the memory module perform the following steps: Ê Eject the memory module again by pressing out the securing clips at each end of the memory slot. Ê...
Main memory 10.3 Removing a memory module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 10.3.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
Main memory 10.3.3 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê "Resuming BitLocker functionality" on page 98 Ê 10.4 Replacing a memory module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less...
Main memory 10.4.4 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê "Resetting the error status after replacing memory modules or CPUs" on Ê page 90 "Enabling replaced components in the BIOS"...
Processor (CPU) Safety notes CAUTION! Do not install unsupported CPUs. For more information on supported ● CPUs, see section "Basic information" on page 288. Circuit boards and soldered parts of internal options are exposed and ● can be damaged by static electricity. Always discharge static build-up (e.g.
Processor (CPU) 11.1 Basic information CPU 2 DIMM 1J CPU 2 DIMM 2J PSU1 CPU 2 DIMM 1H CPU 2 DIMM 2H CPU 2 DIMM 1G CPU 2 DIMM 2G CPU 2 PSU2 CPU 2 DIMM 2K PCIe CPU 2 DIMM 1K Port 1 CPU 2 DIMM 2L YELLOW...
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– core frequencies of more than 3.5 GHz – both CPUs must be of the same type For system relevant information, see the hardware configurator of your server available online at the following address: http://ts.fujitsu.com/products/standard_servers/index.htm For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/ CAUTION! Depending on the CPU type, there are different heat sink types available...
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Processor (CPU) Heat sink washers Figure 197: Heat sink with blue washers Ê Always check, if the blue washers are in place. Upgrade and Maintenance Manual RX2530 M4...
Processor (CPU) 11.2 Upgrading to 2 CPU configuration Upgrade and Repair Unit Hardware: 15 minutes (URU) Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver CAUTION! – CPUs are modules which are extremely sensitive to electro-static discharges and therefore must always be handled with care. After a CPU has been removed from its protective sleeve or from its socket, place it with its smooth side down on a non-conducting, antistatic surface.
Processor (CPU) 11.2.2 Removing the socket cover Figure 198: Removing the socket cover Ê Remove the socket cover and save it for future use. Upgrade and Maintenance Manual RX2530 M4...
Processor (CPU) 11.2.3 Installing the CPU and heat sink CAUTION when replacing a system board Ê Use a magnifying glass (recommended) to inspect the socket spring contacts for damages from different angles. Do not use the spare system board if any irregularities are visible. Possible damages: –...
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Processor (CPU) Figure 200: Removing the protective cover Ê If applicable, remove the protective cover from the heat sink. Ê If re-using a heat sink, clean residual thermal paste from the heat sink surface using a lint-free cloth. Figure 201: Installing the CPU frame on the heat sink (A) Ê...
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Processor (CPU) Figure 202: Installing the CPU frame on the heat sink (B) Ê Press down the CPU frame (see arrows). The frame must click into place (see circles). Figure 203: Position pins Thin pin Empty CPU socket Thick pin Upgrade and Maintenance Manual RX2530 M4...
Processor (CPU) Figure 204: Installing the heat sink Ê Turn the heat sink upside down and check if all four blue washers are in place, see figure 197. Ensure that no screw falls out. Ê Carefully seat the heat sink onto the CPU socket. Take care of the pins.
Processor (CPU) 11.2.5 Installing four additional fan modules Figure 205: Removing fan cage foams Ê Remove the four fan cage foams from the bays 5, 6, 7 and 8. Ê Install four fan modules in bays 5, 6, 7 and 8, see section "Installing the new fan module"...
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.
Processor (CPU) 11.3.1 Preliminary steps "Locating the defective server" on page 47 Ê "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê "Getting access to the component" on page 52 Ê...
Processor (CPU) 2. Loosen the captive screws 4 and then 3 rotating them two or three turns each. 3. Repeat the step 2 until the screws 4 and 3 are completely loosened. 4. Loosen the captive screws 2 and then 1 rotating them two or three turns each.
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Processor (CPU) Figure 208: Removing the CPU Ê Press the two noses in the direction of the arrows (1) and remove the CPU from the CPU frame (2). Ê Clean residual thermal paste from the CPU surface using a lint-free cloth and store the CPU in a save place.
Processor (CPU) 11.3.4 Applying the thermal paste to the CPU 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.
Processor (CPU) Figure 210: Applying the thermal paste Ê Apply a small point-shaped amount of thermal paste (1.0 gram, see description above) to the center of the CPU surface as shown. CAUTION! Do not mix different types of thermal paste. 11.3.5 Installing the CPU and heat sink Ê...
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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.
Liquid cooling (LC) This chapter is valid for EMEIA region only. A LC configuration is provided on special release request only. Safety notes CAUTION! Do not install unsupported CPUs. For more information on supported ● CPUs, see section "Basic information" on page 306.
Liquid cooling (LC) 12.1 Basic information * Front Panel on QRL Internal USB3.0 PWR3 PWR4 Front Front VGA Front USB3.0 Panel1 CPU 2 DIMM 1J FP2 * CPU 2 DIMM 2J PSU1 CPU 2 DIMM 1H CPU 2 DIMM 2H CPU 2 DIMM 1G CPU 2 DIMM 2G CPU 2...
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– core frequencies of more than 3.5 GHz – both CPUs must be of the same type For system relevant information, see the hardware configurator of your server available online at the following address: http://ts.fujitsu.com/products/standard_servers/index.htm For Japan: http://www.fujitsu.com/jp/products/computing/servers/primergy/ Parts of the LC kit The LC kit consists of the following parts: –...
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Liquid cooling (LC) Parts of the LC device Figure 212: LC device Memory cooling units Control cable for each pump Pump for CPU 2 Pump for CPU 1 Protective covers for the heat sinks Flexible tubes Quick connector block with slot cover Quick connector with blue marking: water inlet Protective cap (orange) for the quick connector Quick connector with red marking: water outlet...
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Liquid cooling (LC) Adhesive memory pads Figure 213: Adhesive memory pads Figure 214: Assembly rules for the adhesive memory pads All sides of the memory modules that point to a cooling fin (see arrows) of a memory cooling unit (1) must be covered with an adhesive memory pad, see figure above.
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Liquid cooling (LC) Memory spacer Figure 215: Memory spacer The memory spacers are necessary to adjust the memory cooling units at the right position. CPU 2 CPU 1 Figure 216: Positions of the memory spacers The memory spacers must be installed between the following memory slots: 1J and 2J, 1G and 2G, 2K and 1K, 1A and 2A, 2D and 1D, 2F and 1F, see also figure 211 on page...
Liquid cooling (LC) 12.2 Replacing the CPU or LC device Field Replaceable Unit Hardware: 15 minutes (FRU) Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver CAUTION! CPUs are extremely sensitive to electrostatic discharge and must be handled with care.
Liquid cooling (LC) 12.2.2 Removing the LC device Figure 218: Removing the memory covers Ê Pull up the three memory covers. Figure 219: Removing the riser module 2 with the tubes Ê Remove the riser module 2, see section "Removing a riser module" on page Upgrade and Maintenance Manual RX2530 M4...
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Liquid cooling (LC) Figure 220: Slot bracket with tubes Ê Remove the slot bracket with the tubes, see section "Removing an expansion card" on page 231. Ê Disconnect the two control cables from the system board, see figure 211 on page 306.
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Liquid cooling (LC) Figure 222: Removing the LC device Ê Carefully lift up the three memory cooling units (see arrows). Ê Hold the LC device with both hands and lift up the complete LC device together with the CPUs. Upgrade and Maintenance Manual RX2530 M4...
Liquid cooling (LC) 12.2.3 Removing the CPU Figure 223: Removing the CPU from the pump Ê Release the four hooks (see circles). Ê Carefully twist the CPU back and forth to detach the CPU frame from the pump (see arrows). This may be necessary due to the adhesive quality of the thermal paste located between the heat sink and CPU.
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Liquid cooling (LC) Figure 224: Removing the CPU from the frame Ê Press the two noses in the direction of the arrows (1) and remove the CPU from the CPU frame (2). Ê Clean residual thermal paste from the CPU and the heat sink surface using a lint-free cloth and store the CPU in a save place.
Liquid cooling (LC) 12.2.4 Installing the CPU Ê Confirm that the CPU model number printed on the top of the CPU fits with the requirements. Figure 225: Installing the CPU in the CPU frame Ê Click the CPU into the CPU frame (see arrows). Make sure that the triangle marks on CPU (A) and on CPU frame (B) are on the same edge.
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Liquid cooling (LC) When replacing the LC device Figure 226: Removing the protective cover Ê When replacing the LC device, remove the protective cover from the heat sink. Upgrade and Maintenance Manual RX2530 M4...
Liquid cooling (LC) Installing the CPU frame on the heat sink Figure 227: Installing the CPU frame on the heat sink (B) Ê Place the CPU frame onto the heat sink of the LC device. Ensure that you position the CPU frame in the right position. There is only one position which fits.
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Liquid cooling (LC) CPU 2 CPU 1 Figure 228: Installing the LC device Ê Hold the complete LC device with both hands, position it onto the CPU sockets, and align it with the memory slots. Ê Carefully press down the memory cooling units (see arrows). Figure 229: Removing the captive screws of the CPUs Ê...
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Liquid cooling (LC) Ê Connect the two control cables from the LC device to the system board, see figure 211 on page 306: – Pump 1 to connector LC1 – Pump 2 to connector LC2 Ê Install the slot bracket with the tubes in riser module 2, see section "Installing an expansion card"...
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Liquid cooling (LC) Figure 231: Routing the tubes Ê Run the tubes as shown. Upgrade and Maintenance Manual RX2530 M4...
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Liquid cooling (LC) Figure 232: Installing the memory covers Ê Position the memory covers over the memory modules and press them carefully down. Upgrade and Maintenance Manual RX2530 M4...
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Liquid cooling (LC) Figure 233: LC device completely installed Ê If applicable, remove the two orange protective caps from the tubes. Keep the protective caps for future use. Ê If you have replaced the LC device, install the two orange protective caps onto the quick connectors of the defective LC device, see position 9 in figure 212 on page 308.
Liquid cooling (LC) 12.2.6 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê 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.
Liquid cooling (LC) 12.3 Applying the thermal paste to the CPU surface For Japan, the service engineer must follow the instruction provided separately. If the CPU upgrade or replacement kit contains a new CPU heat sink, a thin layer of thermal compound has already been pre-applied to its lower surface.
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Liquid cooling (LC) Figure 235: Applying thermal paste Ê Apply a small streak of thermal paste (see description above) to the center of the CPU surface as shown. CAUTION! Do not mix different types of thermal paste. Upgrade and Maintenance Manual RX2530 M4...
Liquid cooling (LC) 12.4 Main memory for LC For general information about the main memory, see chapter "Main memory" on page 269. 12.4.1 Installing memory modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver (for the riser module) 12.4.1.1 Preliminary steps "Suspending BitLocker functionality"...
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Liquid cooling (LC) Ê Choose the memory slot according to the configuration rules, see section "Basic information" on page 270. 12.4.1.3 Installing a memory module Ê Pull up the required memory cover(s), see figure 218 on page 312. Figure 237: Opening the memory cooling units Ê...
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Liquid cooling (LC) "Switching on the server" on page 66 Ê "Resuming BitLocker functionality" on page 98 Ê 12.4.2 Removing a memory module Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No. 2 screw driver (for the riser module) 12.4.2.1 Preliminary steps "Suspending BitLocker functionality"...
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Liquid cooling (LC) 12.4.2.3 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê "Resuming BitLocker functionality" on page 98 Ê 12.4.3 Replacing memory modules Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: Phillips PH2 / (+) No.
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Liquid cooling (LC) 12.4.3.3 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê "Resetting the error status after replacing memory modules or CPUs" on Ê page 90 "Enabling replaced components in the BIOS"...
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Accessible drives Safety notes CAUTION! Before installing an accessible drive, acquaint yourself with the ● drive's user documentation. When inserting an accessible drive into the server, ensure not to ● pinch or strain any connected cables. When installing an accessible drive, hold it by its sides. Applying force ●...
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Accessible drives 13.1 Optical disk drive (ODD) 13.1.1 Basic information You can install one 5.25-inch slimline ODD. The installation bay depends on the 2.5-inch or 3.5-inch HDD configuration. The proceeding for installing/removing is identic for the 2.5-inch or 3.5-inch HDD configuration. Figure 239: Position of the ODD bay - example 3.5-inch HDD configuration Figure 240: Position of the ODD bay - example 2.5-inch HDD configuration PWR2...
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Accessible drives Storing the ODD latch Figure 242: Storing ODD latch The ODD latch is fastened with two screws to the chassis of the fan bridge. Note for configuration with up to four HDD/SSD modules In this case the ODD latch engages in an ODD lock. In the other configurations the ODD latch engages in the HDD backplane.
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Accessible drives 13.1.2 Installing the ODD Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) 13.1.2.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê...
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Accessible drives 13.1.2.3 Installing the ODD Ê If no ODD has been installed before: Ê Remove the two screws and take the ODD latch from the fan bridge (see figure 242). Figure 245: Installing the ODD latch on the ODD Ê...
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Accessible drives Figure 247: Connecting the cables to the ODD Ê Connect the ODD power cable (1) to the ODD. Ê Connect the SATA cable (2) to the ODD. The ODD power cable and the SATA cable are preinstalled. 13.1.2.4 Concluding steps "Reassembling"...
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Accessible drives 13.1.3 Removing the ODD Field Replaceable Unit Hardware: 5 minutes (FRU) Tools: – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) 13.1.3.1 Preliminary steps "Removing backup and optical disk media" on page 80 Ê...
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Accessible drives Figure 249: Removing the ODD Ê Press the ODD latch in direction of the arrow until it disengages (1). Ê Pull the ODD out of the bay (2). Figure 250: Removing the ODD latch from the ODD Ê Remove the two screws (see circles). Ê...
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Accessible drives 13.1.3.3 Installing the dummy cover Figure 251: Installing the dummy cover Ê Push the dummy cover inward until it engages at the right side. 13.1.3.4 Concluding steps "Reassembling" on page 57 Ê "Connecting the power cord" on page 63 Ê...
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Accessible drives 13.1.4 Replacing the ODD Field Replaceable Unit Hardware: 5 minutes (FRU) Tools: – Torx Plus 6 screw driver (not valid for Japan) – Phillips PH1 / (+) No. 1 screw driver (Japan) 13.1.4.1 Preliminary steps "Locating the defective server" on page 47 Ê...
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Front panel Safety notes CAUTION! When inserting the front panel module into the server, ensure not to ● pinch or strain any connected cables. Circuit boards and soldered parts of internal options are exposed and ● can be damaged by static electricity. Always discharge static build-up (e.g.
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Front panel 14.2 Front panel module 14.2.1 Replacing the front panel module Field Replaceable Unit Hardware: 10 minutes (FRU) Software: 5 minutes Tools: Phillips PH1 / (+) No. 1 screw driver Note on system information backup/restore The front panel (front panel module, front panel board or front panel on QRL) contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing data.
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Front panel 14.2.1.2 Removing the front panel module Figure 252: Disconnecting the cables (A) Ê Disconnect the front USB cable (1) and the front panel cable (2) from the system board. Figure 253: Disconnecting the cables (B) Ê If applicable, disconnect the front VGA cable from the system board. Figure 254: Removing the front panel module Ê...
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Front panel Figure 255: Removing cables from the front panel module Ê Open the cable tie and disconnect the front panel cable (1). Please do not cut the cable tie. Ê Remove the two corresponding screws and disconnect the front USB cable (2).
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Front panel Figure 256: Connecting cables to the front panel module Ê Connect the front panel cable and secure it with the cable tie (1). Ê Push the front USB connector in the corresponding recess and fasten the front USB cable with two screws (2). Ê...
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Front panel Figure 258: Connecting the cables (A) Ê Connect the front panel cable (1) and the front USB cable (2) to the system board. Figure 259: Connecting the cables (B) Ê If applicable, connect the front VGA cable to the system board. 14.2.1.4 Concluding steps "Installing the chassis foams"...
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Front panel 14.3 Front VGA board 14.3.1 Installing the front VGA board Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH1 / (+) No. 1 screw driver 14.3.1.1 Preliminary steps "Shutting down the server" on page 49 Ê "Disconnecting the power cord"...
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Front panel 14.3.1.3 Installing the front VGA board Figure 261: Installing the front VGA board Ê Push the front VGA connector in the corresponding recess (1) and fasten the front VGA board with two screws (2). Ê Route the cable tie under the front VGA board (3). 14.3.1.4 Concluding steps "Installing the front panel module"...
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Front panel "Disconnecting the power cord" on page 50 Ê "Getting access to the component" on page 52 Ê "Removing the front panel module" on page 345 Ê 14.3.2.2 Removing the front VGA board Figure 262: Removing the front VGA board Ê...
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Front panel 14.3.3 Replacing the front VGA board Upgrade and Repair Unit Hardware: 10 minutes (URU) Tools: Phillips PH1 / (+) No. 1 screw driver 14.3.3.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
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Front panel 14.4 Front panel on QRL (10x 2.5-inch HDD configuration) 14.4.1 Replacing the front panel on QRL Field Replaceable Unit Hardware: 10 minutes (FRU) Software: 5 minutes Tools: Phillips PH1 / (+) No. 1 screw driver Note on system information backup/restore The front panel (front panel module, front panel board or front panel on QRL) contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing data.
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Front panel 14.4.1.2 Removing the front panel on QRL The front panel on QRL and the front panel cable are combined in one spare part. Figure 263: Disconnecting the front panel cable Ê Pull up the locking bar (1). Ê Remove the front panel cable (2). Figure 264: Removing the front panel on QRL (A) Ê...
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Front panel Figure 265: Removing the front panel on QRL (B) Ê Remove the front panel. Ê Pull the front panel cable out of the opening. 14.4.1.3 Installing the front panel on QRL Figure 266: Installing the front panel (A) Ê...
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Front panel Figure 267: Installing the front panel (B) Ê Position the front panel on the ear. Ê Fasten the front panel with two screws (see figure 264). Figure 268: Connecting the front panel cable Ê Bend the cable 90 degrees by hand for easier routing. Ê...
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Front panel Ê For systems with 10x 2.5-inch HDD backplane (Combo): Ê Check the firmware of iRMC S5 and revision of Combo backplane, see section "PCIe configuration with 1x Retimer controller in riser module 2 (slot 3)" on page 176. You need this information to select the right system in the Chassis ID Prom Tool.
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Front panel Upgrade and Maintenance Manual RX2530 M4...
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Serial interface Safety notes CAUTION! For more information, see chapter "Important information" on page 15.1 Installing the serial interface Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less Figure 270: Serial interface kit Long slot bracket The long slot bracket is not used in this server. Serial interface with short slot bracket Upgrade and Maintenance Manual RX2530 M4...
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Serial interface 15.1.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê "Getting access to the component" on page 52 Ê 15.1.2 Removing the slot cover Ê...
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Serial interface Ê Install the corresponding riser module, see section "Installing a riser module" on page Figure 272: Connecting the serial interface cable Ê Connect the serial interface cable to the system board connector "SERIAL". 15.1.4 Concluding steps "Reassembling" on page 57 Ê...
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Serial interface 15.2 Removing the serial interface Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 15.2.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
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Serial interface Ê Remove the corresponding riser module, see section "Removing a riser module" on page Figure 274: Removing the serial interface - example riser module 1 Ê Remove the serial interface. 15.2.3 Installing the slot cover Ê Install the corresponding slot cover, see section "Installing the slot cover (only slot 2-4)"...
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Serial interface 15.3 Replacing the serial interface Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 15.3.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
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System board and components 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 ●...
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System board and components 16.1 Basic information This section provides instructions for the system board and the following components: CMOS battery ● The real-time clock is powered by a lithium coin cell (CMOS battery) when mains get lost. This cell lasts up to five years, depending on ambient temperature and use.
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System board and components 16.2 CMOS battery 16.2.1 Replacing the CMOS battery Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less; recommended: tooth pick Safety notes CAUTION! The CMOS battery must be replaced with an identical battery or with ●...
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System board and components 16.2.1.2 Replacing the defective CMOS battery Figure 275: Replacing the CMOS battery Ê Press the locking spring into direction of the arrow (1), so that the CMOS battery jumps out of its socket. Ê Remove the CMOS battery (2). CAUTION! Sharp tools such as screw drivers might damage system board components in case of slipping.
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System board and components 16.3 Trusted Platform Module (TPM) There are different TPM kits available. The procedures of installing, removing and replacing are identic. Figure 276: TPM installation kit - example 1 Figure 277: TPM installation kit - example 2 Special screw for TPM TPM spacer TPM bit insert for TPM special...
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System board and components 16.3.1 Installing the TPM Field Replaceable Unit Hardware: 5 minutes (FRU) Software: 5 minutes Tools: – Bit screw driver – TPM bit insert For Japan: – TPM module fixing tool (S26361-F3552-L909) 16.3.1.1 Preliminary steps "Suspending BitLocker functionality" on page 77 Ê...
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System board and components Figure 279: Inserting the TPM spacer on the system board Ê Insert the TPM spacer into the hole on the system board. Figure 280: TPM bit insert Ê Attach the TPM bit insert or TPM module fixing tool (Japan) to a bit screw driver.
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System board and components Ê Fasten the TPM with the special screw for the TPM using the TPM bit insert or TPM module fixing tool (Japan) (2). CAUTION! Do not fasten the screw too firmly. Stop it by extent where the head of the screw lightly touches the TPM (torque value of 0.6 Nm, the description of this torque value doesn't apply to Japan).
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System board and components 16.3.2 Removing the TPM Field Replaceable Unit Hardware: 30 minutes (FRU) Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screw driver Removing the TPM: – Bit screw driver – flat nose pliers –...
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For more information on how to disable BitLocker drive encryption, see the Microsoft Knowledge Base. See the Fujitsu web pages for more details. Ê Disable TPM in the system board BIOS. Proceed as follows: Ê Switch on or restart your server.
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System board and components Figure 282: Removing the TPM screw Ê Locate the slotted lower end of the TPM screw (1). Ê Carefully loosen the TPM screw using a thin slotted screw driver (e.g. watchmaker's screw driver) or the dedicated TPM screw driver (Japan) (2). CAUTION! Ensure to turn the screw clockwise in order to remove it! Slowly and carefully increase the pressure on the screw until it begins...
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System board and components Figure 283: Removing the TPM spacer Ê Using a flat nose pliers, press together the hooks on the TPM spacer (1, see close-up) and remove it from the system board (2). If the TPM is to be replaced, the TPM spacer may remain on the system board.
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System board and components 16.3.3 Replacing the TPM Field Replaceable Unit Hardware: 35 minutes (FRU) Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screw driver Replacing the TPM: – Bit screw driver – TPM bit insert –...
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System board and components 16.3.3.2 Removing the defective TPM Ê Remove the TPM, see section "Removing the TPM" on page 373. Ê Leave the TPM spacer on the system board when removing the defective TPM. 16.3.3.3 Installing the new TPM The TPM spacer is already present on the system board.
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System board and components 16.4 iRMC microSD card The iRMC microSD card is necessary for using the embedded Lifecycle Management (eLCM) functionality of the iRMC. It requires a valid eLCM license key, which is always purchased together with the iRMC microSD card and activated through the iRMC web interface.
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System board and components Figure 285: Installing the iRMC microSD card Ê With the label facing up, insert the iRMC microSD card into the microSD card slot (1) until it locks in place (2). The onboard position of the microSD card slot can be found in section "Connectors and indicators on the system board"...
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System board and components Ê If applicable, remove the riser module 3, see section "Removing a riser module" on page 16.4.2.2 Removing the iRMC microSD card Figure 286: Removing the iRMC microSD card Ê To eject the iRMC microSD card, gently push it in and then let go (1). Ê...
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System board and components 16.4.3.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê "Getting access to the component" on page 52 Ê Ê...
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System board and components 16.5 M.2 SSD The system board offers two M.2 slots (Key M) with support for 42 mm, 60 mm, 80 mm and 110 mm long M.2 SSDs. With the M.2 SSD an internal SSD is offered. This SSD can be configured as a boot device or data storage device. 16.5.1 Installing an M.2 SSD Upgrade and Repair Unit Hardware: 5 minutes...
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System board and components PCIe PCIe Port 1 Port 1 YELLOW YELLOW PCIe PCIe Port 0 Port 0 CPU 1 DIMM 1C CPU 1 DIMM 2C CPU 1 DIMM 1B CPU 1 DIMM 2B CPU 1 DIMM 1A CPU 1 DIMM 2A SSD1 SSD1 SSD2...
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System board and components Figure 289: Installing the M.2 SSD Ê With the label facing up, insert the M.2 SSD into the M.2 slot at a slight angle. Figure 290: Fastening the M.2 SSD Ê Fasten the M.2 SSD with the screw (see circle). 16.5.1.3 Concluding steps "Reassembling"...
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VMware Knowledge Base 2145210. http://kb.vmware.com/s/article/2145210 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. http://jp.fujitsu.com/platform/server/primergy/software/vmware/manual/ Upgrade and Maintenance Manual RX2530 M4...
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System board and components 16.5.2 Removing an M.2 SSD Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: – Phillips PH1 / (+) No. 1 screw driver – Hexagon screw driver (for moving the screw to another hexagon stand-off) 16.5.2.1 Preliminary steps "Shutting down the server"...
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System board and components Figure 292: Removing the M.2 SSD (B) Ê Pull the M.2 SSD out of its slot. Ê If no new M.2 SSD will be installed: Ê Fasten the screw to the corresponding hexagon stand-off (see orange circles in figure 288).
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System board and components 16.5.3.2 Replacing the M.2 SSD Ê Remove the defective M.2 SSD, see section "Removing an M.2 SSD" on page 387. Ê Install the new M.2 SSD, see section "Installing an M.2 SSD" on page 383. 16.5.3.3 Concluding steps "Reassembling"...
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System board and components 16.6 Dual microSD 64GB Enterprise 16.6.1 Installing the Dual microSD 64GB Enterprise Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 16.6.1.1 Preliminary steps "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê...
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System board and components Figure 294: Connecting the cable to the Dual microSD 64GB Enterprise Ê Connect the cable to the Dual microSD 64GB Enterprise. Figure 295: Installing the Dual microSD 64GB Enterprise Ê Insert the Dual microSD 64GB Enterprise into the connector "Internal USB 3.0"...
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System board and components Figure 296: Connecting the cable to the system board Ê Connect the cable to the connector "ROC" on the system board. For the cable plan, see chapter "Appendix B" on page 437. 16.6.1.3 Concluding steps "Installing the air duct" on page 74 Ê...
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Knowledge Base 2145210. http://kb.vmware.com/s/article/2145210 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 Dual microSD 64GB Enterprise. http://jp.fujitsu.com/platform/server/primergy/software/vmware/manual/ Upgrade and Maintenance Manual RX2530 M4...
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System board and components 16.6.2 Removing the Dual microSD 64GB Enterprise Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 16.6.2.1 Preliminary steps "Shutting down the server" on page 49 Ê "Disconnecting the power cord" on page 50 Ê "Getting access to the component"...
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System board and components "Connecting the power cord" on page 63 Ê "Switching on the server" on page 66 Ê 16.6.3 Replacing the Dual microSD 64GB Enterprise Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: tool-less 16.6.3.1 Preliminary steps "Locating the defective server"...
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System board and components Ê Install both microSD cards on the new Dual microSD 64GB Enterprise. Proceed as described in the following: Figure 299: Installing the microSD card Ê With the label facing up, insert the microSD card into the microSD slot on the controller (1) until it locks in place (2).
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System board and components 16.6.4 Replacing the microSD card Upgrade and Repair Unit Hardware: 5 minutes (URU) Tools: a pair of side-cutting pliers 16.6.4.1 Preliminary steps "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê...
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System board and components Ê Install the new microSD card on the Dual microSD 64GB Enterprise. Proceed as described in the following: Ê With the label facing up, insert the microSD card into the microSD slot on the controller until it locks in place (see figure 299). Ê...
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System board and components 16.7 System board 16.7.1 Replacing the system board Field Replaceable Unit Hardware: 40 minutes (FRU) Software: 20 minutes Tools: Replacing the system board: – Phillips PH2 / (+) No. 2 screw driver – hexagon screw driver 5mm (for OCP bolts) –...
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System board and components Note on TPM The system board can be equipped with an optional TPM. This module enables third party programs to store key information (e. g. drive encryption using Windows Bitlocker Drive Encryption). If the customer is using TPM functionality, the TPM has to be removed from the defective system board and connected to the new system board.
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System board and components Note on network settings recovery When replacing the system board, network configuration settings in the system will be lost and replaced by default values. This applies to all static IP address and LAN teaming configurations. Ensure to note down your current network settings before replacing the system board.
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System board and components Ê Remove all riser modules, see section "Expansion cards and riser cards" on page 219. Ê If applicable, remove the OCP module, see section "Removing the OCP module" on page 215. Ê If applicable, remove the iRMC microSD card, see section "Removing the iRMC microSD card"...
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System board and components Figure 301: Position of the screws Ê Remove the 12 screws (see blue circles, orange circles show the centering bolts) from the system board. Upgrade and Maintenance Manual RX2530 M4...
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System board and components Figure 302: Removing the system board Ê Use both hands to lift the system board carefully out of the chassis in a slight angle. Thereby you pull the connectors out of the I/O panel. CAUTION! Always take the system board with both hands! Never lift the system board one-sided or at a heat sink, because the solder connections between the socket and the system board come under tension and increase the risk of damage and malfunction!
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System board and components 16.7.1.3 Installing the new system board Ê Check the settings on the new system board, see section "Onboard settings" on page 433. Ê Insert the system board by holding it at a slight angle. Slide the connectors into the I/O panel (see figure 302 on page 404).
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System board and components Ê Connect all cables to the system board: – Front panel cable – Front USB cable – Power cable for HDD backplane – SATA cable(s) for HDD backplane – SATA cable for ODD (if applicable) – Power cable for ODD (if applicable) –...
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System board and components Ê Install all riser modules, see section "Expansion cards and riser cards" on page 219. Ê Install all PSUs, see section "Installing a hot-plug PSU" on page 114. Ê Only for system with air cooling: install the air duct, see section "Installing the air duct"...
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System board and components Ê Select the Save & Exit menu. Ê Select Save Changes and Exit or Save Changes and Reset. Ê Verify that the Global Error indicator stops flashing. "Resuming BitLocker functionality" on page 98 Ê Ê If applicable, reconfigure your network settings in the operation system according to the original configuration of the replaced controller (expansion card or onboard).
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Appendix A 17.1 Mechanical overview 17.1.1 Server front Figure 303: Front side 2.5-inch HDDs (up to 4 HDDs) Figure 304: Front side 2.5-inch HDDs (up to 8 HDDs) Figure 305: Front side 2.5-inch HDDs (up to 10 HDDs) Pos. Component ID card Front VGA (option) / dummy cover Front panel and indicators...
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Appendix A Figure 306: Front side 3.5-inch HDDs Pos. Component ODD (option) / dummy cover ID card Front VGA (option) / dummy cover Front panel and indicators 4x 3.5-inch HDDs / dummy modules Upgrade and Maintenance Manual RX2530 M4...
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Appendix A 17.1.2 Server rear Figure 307: Rear side with air cooling Figure 308: Rear side with liquid cooling Pos. Component Up to 2 PSUs / dummy cover PCI slot 4 / riser module 3 PCI slot 3 / riser module 2 / dedicated slot for quick connector block (liquid cooling) PCI slot 2 / riser module 1 (see figure 133) PCI slot 1 / riser module 1 (see figure 133)
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Appendix A 17.1.3 Server interior Servers with air cooling Figure 309: Interior (example 3.5-inch HDDs) Pos. Component Up to 2 PSUs / dummy cover Front panel module / front VGA (option) / dummy cover Up to 4x 3.5-inch HDDs / dummy modules ODD (option) / dummy cover Fan modules CPUs...
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Appendix A Figure 310: Interior (example: 2.5-inch HDDs) Pos. Component Up to 2 PSUs / dummy cover Front panel module / front VGA (option) / dummy cover ODD (option) / dummy cover Up to 8x 2.5-inch HDDs / dummy modules Fan modules CPUs Main memory...
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Appendix A Server with liquid cooling (LC) Figure 311: Interior (example: 10x 2.5-inch HDDs) Pos. Component Up to 2 PSUs / dummy cover Front panel on QRL Up to 10x 2.5-inch HDDs / dummy modules SAS expander board Fan modules CPUs with LC Main memory with memory covers Riser module 1...
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Appendix A 17.2 Connectors and indicators 17.2.1 Connectors and indicators on the system board There are two variants of the system board: – D3383-A – D3383-C (only for 10x 2.5-inch HDDs) 17.2.1.1 Onboard connectors Internal USB3.0 PWR3 Front Front VGA Front USB3.0 Panel1 CPU 2 DIMM 1J...
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Appendix A Pos. Print Description Internal USB3.0 Connector for Dual microSD 64GB Enterprise Front VGA Connector for optional front VGA USB 3.0 FRONT Front USB connector HDD PWR3 Power connector for HDD backplane Connector for LC pump for CPU 2 FRONTPANEL1 Front panel connector FAN 15/16 Power connector for system fan 15 and 16...
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Appendix A Internal USB3.0 PWR3 PWR4 CPU 2 DIMM 1J 15/16 CPU 2 DIMM 2J PSU1 CPU 2 DIMM 1H CPU 2 DIMM 2H CPU 2 DIMM 1G CPU 2 DIMM 2G 13/14 CPU 2 PSU2 11/12 CPU 2 DIMM 2K PCIe Slot 4 CPU 2 DIMM 1K...
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Appendix A Pos. Print Description FAN 7/8 Power connector for system fan 7 and 8 FAN 5/6 Power connector for system fan 5 and 6 Connector for LC pump for CPU 1 FAN 3/4 Power connector for system fan 3 and 4 FAN 1/2 Power connector for system fan 1 and 2 SMB4 (I2C5)
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Appendix A 17.2.1.2 Onboard indicators and controls Internal USB3.0 PWR3 PWR4 Front Front VGA Front USB3.0 Panel1 CPU 2 DIMM 1J CPU 2 DIMM 2J PSU1 CPU 2 DIMM 1H CPU 2 DIMM 2H CPU 2 DIMM 1G CPU 2 DIMM 2G CPU 2 PSU2 CPU 2 DIMM 2K...
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Appendix A Indicator Status Description A - Identification The server has been highlighted using ServerView Operations Manager, iRMC web blue on interface or the ID button on the front panel for easy identification. The server has been highlighted for easy flashing blue identification using the iRMC (AVR) with disabled local VGA output.
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Appendix A Indicator Status Description M - Standby orange on All standby voltages ok Power N - Main Power green on All main voltages ok O- MBC green on PSU power ok P - MBC orange on MBC error T - M.2 SSD orange on M.2 SSD faulty Upgrade and Maintenance Manual...
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Appendix A 17.2.2 Server front 17.2.2.1 Indicators on the front panel Figure 315: Indicators on the front panel module Figure 316: Indicators on the front panel on QRL Upgrade and Maintenance Manual RX2530 M4...
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Appendix A Pos. Label Indicator Status Description The server has been highlighted using ServerView Operations indicator, blue on Manager, iRMC web interface or the see also ID button on the front panel for easy "iRMC- identification. related status The server has been highlighted for flashing signals"...
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Appendix A Pos. Label Indicator Status Description The server is switched off. – The server has been switched on but Power Cycle Delay settings delay it from turning on for a green on Power-on specified time. indicator – The server is switched on and operating normally.
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Appendix A iRMC-related status signals Global error ID indicator Description indicator A remote connection has been blue flashing established. Local VGA output has been disabled during the remote session. An emergency flash of the iRMC firmware blue flashing orange flashing is in progress.
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Appendix A 17.2.2.3 Indicators on the hot-plug HDD/SSD module Figure 318: Indicators on the hot-plug HDD/SSD module Pos. Label Indicator Status Description The HDD/SSD is inactive. Access indicator green on The HDD/SSD being accessed No HDD/SSD error detected. An HDD/SSD error has been detected.
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Appendix A 17.2.3 Server rear 17.2.3.1 Connectors on the I/O panel Figure 319: Connectors on the I/O panel Pos. Description USB 3.0 connector OCP module (optional, different variants) USB 3.0 connector Management LAN connector (for iRMC S5 server management function) Shared LAN connector (LAN1) LAN connector (LAN2) Video connector (VGA)
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Appendix A 17.2.3.2 Indicators on the I/O panel ID, CSS and Global Error indicators Figure 320: ID, CSS and Global Error indicators Pos. Indicator Status Description The server has been highlighted using ID indicator, ServerView Operations Manager, iRMC web see also blue on interface or the ID button on the front panel for "iRMC-...
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Appendix A Pos. Indicator Status Description No critical event detected (CSS component). Prefailure event detected (CSS component). orange For HDDs see also "HDD prefailure detection" indicator on page 429 flashing CSS component failure detected. orange Note on CSS and Global Error indicators on the I/O panel: If CSS and Global Error indicators are located in the same place on the I/O panel of the server, also check the indicators on the front panel to determine if a CSS or Global Error event has been detected.
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Appendix A LAN indicators Figure 321: LAN indicators Pos. Indicator Status Description A LAN connection has been green on established. link/transfer LAN is not connected. indicator flashing LAN data transfer is in progress. green yellow on Data traffic at a transfer rate of 1 Gbit/s. Data traffic at a transfer rate of LAN speed green on...
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Appendix A 17.2.3.3 Indicators on PSUs (hot-plug PSUs) Figure 322: PSU status indicator (AC PSU) Figure 323: PSU status indicator (DC PSU) Pos. Indicator Status Description green The server is switched off, but AC voltage / flashing DC voltage is present (standby mode). The server is switched on and operating green on properly.
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Appendix A 17.2.3.4 Indicator on FJBU Figure 324: Indicator on FJBU Pos. Indicator Status Description flashing The battery unit is charging. green flashing green The battery unit is discharging. slowly FJBU status green on The battery unit is fully charged. indicator A battery unit failure has been detected.
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Appendix A 17.3 Onboard settings SSD1 SSD2 SATA SATA INDICATE CPU 1 SATA r card / slot 1 and 2 (CPU 1) CPU 1 DIMM 2D VROC CPU 1 DIMM 1D CPU 1 DIMM 2E VPP CPU1 CPU 1 DIMM 1E CPU 1 DIMM 2F HDD LED CPU 1 DIMM 1F...
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Appendix A 17.4 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.
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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! Upgrade and Maintenance Manual...
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Appendix A Upgrade and Maintenance Manual RX2530 M4...
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Appendix B The following documents are available in this appendix: – "Cable plan for FUJITSU Server PRIMERGY RX2530 M4 Reference Manual" – "List of Released Adapters incl. Installation sequence and priority" – "List of all used screws for PRIMERGY Servers - Assembled in Germany and Japan"...
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Appendix B Upgrade and Maintenance Manual RX2530 M4...
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Reference Manual - English Cable plan for FUJITSU Server PRIMERGY RX2530 M4 Reference Manual September 2018...
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Cable plan Contents Front page Contents List of used cables List of used cables (continuation) Basic Basic + Dual microSD 64GB Enterprise Front VGA + R-Shape BPL 2,5" onboard 3,5" onboard 3,5" onboard + PDUAL AP200 2,5" PSAS CP4xxi 2,5" PSAS + EP420e 3,5"...
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Cable plan List of used cables Name Number Routing CBL FRONT PANEL T26139-Y4015-V302 System board to Front panel 500 + 250 mm System board to HDD BPL CBL_PWR_4P_2x4P T26139-Y3959-V308 R-Shape and L-Shape CBL_PWR_ODD_470 T26139-Y3990-V303 System board to ODD CBL_Data_ODD_770 T26139-Y4028-V305 System board to ODD CBL_Front_VGA T26139-Y3994-V302...
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Cable plan List of used cables (continuation) Name Number Routing Other options CBL OCU BUNDLE 660 T26139-Y4050-V1 System board to 10x Combo BPL CBL_TFM_EP540_550 T26139-Y4031-V107 FBU to EP5xxi (3,5” Chassis) CBL_TFM_EP540_830 T26139-Y4031-V109 FBU to EP5xxi (2,5” Chassis) CBL_HDD_SIGNAL_200 T26139-Y2361-V103 HDD LED EP5xxi to system board CBL HOST-BP4X T26139-Y4040-V70 EP5xx to 3,5”...
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Cable plan Basic System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 HDD LED RX2530 M4...
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Cable plan Basic + Dual microSD 64GB Enterprise System Board Front Panel D3383-A/C Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 HDD LED Dual microSD...
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Cable plan Front VGA + R-Shape BPL System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA 2,5" HDD SATA 0-3 Backplane R-Shape SATA 4-7...
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Cable plan 2,5" onboard System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA 2,5" HDD SATA 0-3 Backplane R-Shape SATA 4-7 HDD LED 2,5"...
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Cable plan 3,5" onboard System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 3,5" HDD HDD LED Backplane RX2530 M4...
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Cable plan 3,5" onboard + PDUAL AP200 System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 3,5"...
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Cable plan 2,5" PSAS CP4xxi System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 2,5" HDD SATA 4-7 Backplane R-Shape HDD LED...
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Cable plan 2,5" PSAS + EP420e System Board Front Panel D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 2,5" HDD SATA 4-7 Backplane R-Shape HDD LED...
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Cable plan 3,5" PSAS CP4xxi Front Panel System Board D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 3,5"...
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Cable plan 2,5" PRAID CP4xxi / EP4xxi Front Panel System Board D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 2,5"...
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Cable plan 3,5" PRAID CP4xxi / EP4xxi System Board Front Panel D3383-A FRONTPANEL Front Panel USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 3,5"...
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Cable plan 10x 2,5" PRAID EP4xxi System Board Front Panel D3383-C Front Panel FRONTPANEL USB 3.0 Front Front VGA ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 10x 2,5" BPL PCIe 1 ODD Data / SATA SATA 0-3 SAS 3.0 SATA 4-7 Expander...
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Cable plan 10x 2,5" PRAID EP4xxi + Oculink onb. System Board Front Panel D3383-C Front Panel FRONTPANEL USB 3.0 Front Front VGA ODD PWR PWR 3 PWR 4 VPP1 10x 2,5" BPL VPP2 PCIe 0 PCIe 1 ODD Data / SATA SAS 3.0 SATA 0-3 Expander...
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Cable plan 10x 2,5" PRAID EP4xxi + Retimer System Board Front Panel D3383-C Front Panel FRONTPANEL USB 3.0 Front Front VGA ODD PWR PWR 3 OOB-Cabling PWR 4 iRMCS5-FW ≥ 1.25P; Bpl-Rev: ≥ ChassisCustomInfoField0 VPP1 iRMCS5-FW ≤ 1.25P; Bpl-Rev: ≤ ChassisCustomInfoField0 VPP2 10x 2,5"...
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Cable plan 3,5" PRAID EP5xxi System Board Front Panel D3383-A FRONTPANEL Front Panel USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 SATA 4-7 3,5"...
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Cable plan 2,5" PRAID EP5xxi Front Panel System Board D3383-A Front Panel FRONTPANEL USB 3.0 Front Front VGA VGA Module ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 2,5" HDD SATA 4-7 Backplane R-Shape HDD LED...
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Cable plan 10x 2,5" PRAID EP5xxi System Board Front Panel D3383-C FRONTPANEL Front Panel USB 3.0 Front Front VGA ODD PWR PWR 3 PWR 4 VPP1 VPP2 PCIe 0 10x 2,5" BPL PCIe 1 ODD Data / SATA SATA 0-3 SAS 3.0 SATA 4-7 Expander...
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Cable plan 10x 2,5" EP5xxi 8xHDD 2xPCIeSSD System Board Front Panel D3383-C FRONTPANEL Front Panel USB 3.0 Front Front VGA ODD PWR PWR 3 OOB-Cabling PWR 4 iRMCS5-FW ≥ 1.25P; Bpl-Rev: ≥ ChassisCustomInfoField0 VPP1 iRMCS5-FW ≤ 1.25P; Bpl-Rev: ≤ ChassisCustomInfoField0 VPP2 PCIe 0 10x 2,5"...
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Cable plan 10x Retimer NVME Front Panel System Board D3383-C Front Panel FRONTPANEL USB 3.0 Front Front VGA ODD PWR PWR 3 PWR 4 VPP1 VPP2 NVME BPL PCIe 0 PCIe 1 ODD Data / SATA SATA 0-3 X10A SATA 4-7 HDD LED Con 5 Port 0...
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System Name: PRIMERGY RX2530 M4 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 System PCI Slot # 3 n/a if 4 FH M.2 SSD1...
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Adapter Installation Sequence Order within Adapter Adapter Class Category Adapter Product Name Max # Category (Cluster) Description (Softwarepool) Adapter 3 n/a if 4 FH M.2 SSD1 M.2 SSD2 Controller Card - SAS int PSAS CP400i PSAS CP403i Controller Card - SAS ext PSAS CP400e Devices - PCIe-SSD AIC PACC EP P4600 AIC Mixed-Use...
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Adapter Installation Sequence Order within Adapter Adapter Class Category Adapter Product Name Max # Category (Cluster) Description (Softwarepool) Adapter 3 n/a if 4 FH M.2 SSD1 M.2 SSD2 POP EP 100Gb 1 port Omni Path IB HCA 56Gb 2 port FDR PIB EP 100Gb 1 port EDR Controller Card - Fibre Channel PFC EP LPe31000 1x 16Gb Emulex...
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List of all used screws for PRIMERGY Servers Assembled in Germany and Japan January 2017...
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/ JIS 1012 type A3C40137316 / LSZ: L3-25419-01 hexagon head C26192-Y10-C151 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 Copyright 2017 FUJITSU LIMITED...
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M3 x 6 mm F6-SW2N3-06121 with spring Phillips PH2 silver 0.6 Nm and washer M3 x 6 mm C26192-Y10-C111 Phillips PH2 silver 0.6 Nm countersink S308 M3 x 6 mm F6-SSA3-06121 Phillips PH2 silver 0.6 Nm countersink Copyright 2017 FUJITSU LIMITED...
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S506 C26192-Y10-C211 Phillips PH1 black 0,2 Nm M3 x 4,5 mm UNC standoff EOL: V26827-B408- hexagon screw 4-40 x 7,8 mm V989 S601 silver 0.6 Nm driver 5 mm bolt: 4,9 mm V26827-B265-V5 total: 12,7 mm Copyright 2017 FUJITSU LIMITED...
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5 mm / silver 0,6 Nm provided by screw with cross PZ2 chassis spacer. vendor) Denotation scheme S2xx : Screws M2x S3xx : Screws M3x S4xx : Screws M4x S5xx : Screws for special application S6xx : Bolts Copyright 2017 FUJITSU LIMITED...
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Description 04. July 2017 Old: “hexagon nut” Name of a tool for fastening hexagon bolt 05. July 2017 New: “hexagon spanner head” hexagon screw driver Changed part number of the 27. July 2017 S306 F6-SW2N3-06121 screw Copyright 2017 FUJITSU LIMITED...