Upgrade and Maintenance Manual - English FUJITSU Server PRIMERGY RX2520 M1 Upgrade and Maintenance Manual Edition February 2014
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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 these safety notes are understood before using the product. Keep this manual and the manual "Safety Notes and Regulations" in a safe place for easy reference while using this product.
These uses include control of nuclear reactions in nuclear power plants, automatic airplane flight control, air traffic control, traffic control in mass transport systems, medical devices for life support, and missile guidance control in weapons systems (hereafter, "high safety use"). Customers should not use this product for high safety use unless measures are in place for ensuring the level of safety demanded of such use.
Only for the Japanese market: I Although described in this manual, some sections do not apply to the Japanese market.
Version history Issue number Reason for update Review Review February 2014 Initial release Upgrade and Maintenance Manual RX2520 M1
Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 1.1 Notational conventions 2 Before you start 2.1 2.1.1 2.1.2 2.1.3 Classification of procedures . . Customer Replaceable Units (CRU) Upgrade and Repair Units (URU) . Field Replaceable Units (FRU) . . 2.2 Average task duration . . . . . . . . . . . . . . . . . . . . . 27 2.3 Tools you need at hand . . . . . . . . . . . . . . . . . . . . 28 2.4 Documents you need at hand . . . . . . . . . . . . . . . . .
Contents 4.3 Disconnecting power cords . . . . . . . . . . . . . . . . . . 50 4.4 4.4.1 4.4.2 4.4.3 4.4.3.1 4.4.3.2 Getting access to the component Extending the server out of the rack Removing the server from the rack . Opening the server . . . . . . . . . Removing the housing cover . . Removing the air duct . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 5.2.7 5.2.8 5.2.9 5.2.10 5.2.11 5.2.11.1 5.2.11.2 5.2.12 5.2.13 5.2.14 5.2.15 5.2.15.1 5.2.15.2 5.2.16 5.2.17 5.2.17.1 5.2.17.2 5.2.18 5.2.19 Enabling SVOM boot watchdog functionality . . . . . . . Enabling replaced components in the system BIOS . . . . Verifying the memory mode . . . . . . . . . . . . . . . . Verifying the system time settings . . . . . . . . . . . . . Viewing and clearing the System Event Log (SEL) . . . . Viewing the SEL . . . . . . . . . . . . . . . . . . . .
Contents 6.4.4 Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . 104 6.5 6.5.1 6.5.2 6.5.3 6.5.4 Upgrading a power supply from 450 W to 800 W Preliminary steps . . . . . . . . . . . . . . . . . . Removing the hot-plug power supply unit . . . . . Installing the new hot-plug power supply unit . . . . Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105 105 105 106 107 6.6 6.6.1 6.6.2 6.6.3 6.6.4 6.6.5 6.6.
Contents 7.2.3 7.2.3.1 7.2.3.2 7.2.3.3 7.2.3.4 7.2.4 7.2.4.1 7.2.4.2 7.2.4.3 7.2.4.4 Removing 2.5-inch HDD / SSD modules . . Preliminary steps . . . . . . . . . . . . . Removing a 2.5-inch HDD / SSD module Installing a 2.5-inch dummy module . . . Concluding steps . . . . . . . . . . . . . Replacing a 2.5-inch HDD / SSD module . . Preliminary steps . . . . . . . . . . . . . Removing a 2.5-inch HDD / SSD module Installing a 2.5-inch HDD / SSD module . Concluding steps . . . . . . . . . . . . . . . . . . . .
Contents 9 Expansion cards and backup units . . . . . . . . . . . . . 149 9.1 Basic information . . . . . . . . . . . . . . . . . . . . . . . 149 9.2 9.2.1 9.2.1.1 9.2.1.2 9.2.1.3 153 153 153 155 . . 9.2.2 Handling slot brackets . . . . . . . . . . . . . . . . . . . . Installing a slot bracket . . . . . . . . . . . . . . . . . . . . . Installing a standard slot bracket . . . . . . . . . . . . . . Installing a slot bracket to the Network adapter D2755 . . . Installing a slot bracket to the USB 3.
Contents 9.4.2.4 9.4.3 9.4.3.1 9.4.3.2 9.4.3.3 9.4.3.4 9.4.3.5 9.4.3.6 Concluding steps . . . . . . . . . . . . . . . . . Replacing the SAS RAID controller . . . . . . . . . Preliminary steps . . . . . . . . . . . . . . . . . Removing the defective SAS RAID controller . . Installing the new SAS RAID controller . . . . . Connecting cables to the expansion card . . . . Connecting a backup unit to the expansion card . Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 10.1.1.2 10.1.1.3 Independant Channel mode . . . . . . . . . . . . . . . . . 198 Performance modes . . . . . . . . . . . . . . . . . . . . . 198 10.2 10.2.1 10.2.2 10.2.3 Installing memory modules Preliminary steps . . . . . . Installing a memory module . Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199 199 199 200 10.3 10.3.1 10.3.2 10.3.
Contents 11.5.2 11.5.2.1 11.5.2.2 11.5.3 11.5.4 11.5.4.1 11.5.4.2 11.5.4.3 11.5.5 Installing processor heat sinks . . . . . . Preparing the heat sink and processor Installing the heat sink . . . . . . . . Removing processor heat sinks . . . . . Replacing processor heat sinks . . . . . Removing the processor heat sink . . Applying thermal paste . . . . . . . . Installing the processor heat sink . . Concluding steps . . . . . . . . . . . . 11.6 Applying thermal paste 12 Accessible drives 12.
Contents 12.7 12.7.1 12.7.2 12.7.3 12.7.4 Replacing an ODD . . . . . Preliminary steps . . . . . . Removing the defective ODD Installing the new ODD . . . Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 244 245 245 245 245 12.8 12.8.1 12.8.2 12.8.3 12.8.4 12.8.4.1 12.8.4.2 12.8.5 Installing a RDX drive in 2.5-inch version . . . . . . . . Preliminary steps . . . . . . . . . . . . . . . . . . .
Contents 12.13.3 12.13.4 Installing the new LTO drive . . . . . . . . . . . . . . . . . . . 270 Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . 270 13 Front panel and external connectors . . . . . . . . . . . . . 273 13.1 Front panel module . . . . . . . . . 13.1.1 Replacing the front panel module . . 13.1.1.1 Preliminary steps . . . . . . . . . 13.1.1.2 Removing the front panel module 13.1.1.3 Installing the front panel module . 13.1.1.4 Concluding steps . . . . . . . . . 13.2 13.2.
Contents 14 System board and components 14.1 Basic information . . . . . . . . . . . . . . . . . . . . . . . 291 14.2 14.2.1 14.2.2 14.2.3 14.2.4 Replacing the CMOS battery Preliminary steps . . . . . . . Removing the battery . . . . . Installing the CMOS battery . . Concluding steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 14.5.1.1 Preliminary steps . . . . . . . . . . . . . 14.5.1.2 Installing the onboard SAS enabling key . 14.5.1.3 Concluding steps . . . . . . . . . . . . . 14.5.2 Removing the onboard SAS enabling key . . 14.5.2.1 Preliminary steps . . . . . . . . . . . . . 14.5.2.2 Removing onboard SAS enabling key . . 14.5.2.3 Concluding steps . . . . . . . . . . . . . 14.5.3 Replacing the onboard SAS enabling key . . 14.5.3.1 Preliminary steps . . . . . . . . . . . . . 14.5.3.
Contents 16.2.2 16.2.3 Memory board configuration table . . . . . . . . . . . . . . . 346 Expansion card configuration table . . . . . . . . . . . . . . . 346 16.3 16.3.1 16.3.1.1 16.3.1.2 16.3.2 16.3.2.1 16.3.2.2 16.3.3 16.3.3.1 16.3.3.2 Connectors and indicators . . . . . . . . . . Connectors and indicators on the system board Onboard connectors . . . . . . . . . . . . . Onboard indicators and controls . . . . . . Connectors and indicators on the I/O panel . . I/O panel connectors . . . . . . . . . . .
1 Introduction This Upgrade and Maintenance Manual provides instructions for the following procedures: ● Upgrading the server configuration by adding optional hardware components ● Upgrading the server configuration by replacing existing hardware components with superior ones. ● Replacing defective hardware components This manual focuses on on-site maintenance tasks.
Introduction 1.
2 Before you start Before you start any upgrade or maintenance task, please proceed as follows: Ê Carefully read the safety instructions in chapter "Important information" on page 35. Ê Make sure that all necessary manuals are available. Refer to the documentation overview in section "Documents you need at hand" on page 31. Print the PDF files if required. Ê Make yourself familiar with the procedure categories introduced in section "Classification of procedures" on page 25.
Before you start I For the latest information on hardware options, refer to your server’s hardware configurator available online at the following address: for the EMEA market: http://ts.fujitsu.com/products/standard_servers/index.htm for the Japanese market: http://jp.fujitsu.com/platform/server/primergy/system/ Please contact your local Fujitsu customer service partner for details on how to order expansion kits or spare parts.
Before you start 2.1 Classification of procedures The complexity of maintenance procedures varies significantly. Procedures have been assigned to one of three unit categories, indicating the level of difficulty and required qualification. At the beginning of each procedure, the involved unit type is indicated by one of the symbols introduced in this section. I Please ask your local Fujitsu service center for more detailed information. 2.1.
Before you start 2.1.2 Upgrade and Repair Units (URU) Upgrade and Repair Unit (URU) Upgrade and Repair Units are non hot-plug components that can be ordered separately to be installed as options (Upgrade Units) or are available to the customer through customer self service (Repair Units). I Server management error messages and diagnostic indicators on the front panel and system board will report defective Upgrade and Repair Units as customer replaceable CSS components.
Before you start 2.1.3 Field Replaceable Units (FRU) Field Replaceable Unit (FRU) Removing and installing Field Replaceable Units involves complex maintenance procedures on integral server components. Procedures will require shutting down, opening and disassembling the server. V CAUTION! Maintenance procedures involving Field Replaceable Units must be performed exclusively by Fujitsu service personnel or technicians trained by Fujitsu.
Before you start Step included Explanation Shutdown time depends on hardware and software configuration and may vary significantly. Server shutdown no Rack removal, disassembly yes Making the server available, removing the server from the rack (if applicable) Transport no Transporting the server to the service table (where required) depends on local customer conditions.
Before you start Screw driver / Bit insert / torque Screw Usage Type HDD cages to chassis, Multibay and M3 x 4.5 mm Panelhousin (silver) g Slot bracket C26192-Y10-C67 to chassis, Fan box Hexagonal cross SW5 0.6 Nm hexagonal cross SW5 System board, Front panel 0.6 Nm 2.5-inch HDD/SSDs Phillips PH0 / (+) No. 0 RDX in 2.5inch variant 0.4 Nm LTO drive M3 x 6 mm (silver) C26192-Y10-C68 M3 x 3.
Before you start Screw driver / Bit insert / torque Screw Usage ODD latch (delivered with the accessory pack) Cross 0.2 Nm ODD latch (used by factory mounting) Cylinder head Torx Plus 6 0.2 Nm Phillips PH0 / (+) No. 0 UFM nylon screw 0.06 Nm Type M2 x 5 mm (silver) C26192-Y10-C63 M2 x 4 mm (black) C26192-Y10C166 M3 x 4.5 mm (white) A3C40109082 M3 x 5 mm (silver) Phillips PH2 / (+) No. 2 USB 3.0 PCI card D3305 (contained in card kit S26361-D3305A10) 0.6 Nm Philips PH1 TFM M2.5 x 4 mm 0.
Before you start Screw driver / Bit insert / torque Screw Hexagon bolt SW5 Usage Type Front VGA UNC 4-40 heat sink captive screw 0.6 Nm Phillips PH2 / (+) No. 2 SW6 1 Nm Table 2: List of required tools and used screws 2.4 Documents you need at hand Maintenance procedures may include references to additional documentation. When preparing the maintenance task, ensure that all required manuals are available according to the overview below.
Before you start Document Description "Safety notes and regulations" Important safety information, available manual " 安全上のご注意 " for the online or as a printed copy Japanese market "FUJITSU Server PRIMERGY RX2520 M1" Operating Manual Available online "D3169 BIOS Setup Utility for FUJITSU Server PRIMERGY RX2520 M1" Reference Manual Information on configurable BIOS options and parameters, available online System board and service labels Labels inside the housing cover outlining connectors, indicators a
Before you start Document Description Additional documentation – "iRMC S4" user guide available online – RAID documentation, available online at http://manuals.ts.fujitsu.com under Industry standard servers - Expansion Cards - Storage Adapters For the Japanese market please use the following address: http://jp.fujitsu.
Before you start 34 Upgrade and Maintenance Manual RX2520 M1
3 Important information V CAUTION! Before installing and starting up a device, please observe the safety instructions listed in the following section. This will help you to avoid making serious errors that could impair your health, damage the device and endanger the data base. I Keep this manual and the other documentation (such as the technical manual, documentation DVD) close to the device. All documentation must be included if the equipment is passed on to a third party. 3.
Important information ● If the device is brought in from a cold environment, condensation may form both inside and on the outside of the device. Wait until the device has acclimatized to room temperature and is absolutely dry before starting it up. Material damage may be caused to the device if this requirement is not observed. ● Transport the device only in the original packaging or in packaging that protects it from knocks and jolts.
Important information ● Ethernet cabling has to comply with EN 50173 and EN 50174-1/2 standards or ISO/IEC 11801 standard respectively. The minimum requirement is a Category 5 shielded cable for 10/100 Ethernet, or a Category 5e cable for Gigabit Ethernet. ● Route the cables in such a way that they do not create a potential hazard (make sure no-one can trip over them) and that they cannot be damaged. When connecting the server, refer to the relevant instructions in this manual.
Important information ● Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock and will void the warranty and exempt the manufacturer from all liability. ● Devices inside the server remain hot after shutdown. Wait for a while after shutdown before installing or removing internal options. ● The circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity.
Important information Working with optical disk drives and media When working with optical disk drives, these instructions must be followed. V CAUTION! ● Only use CDs/DVDs/BDs that are in perfect condition, in order to prevent data loss, equipment damage and injury. ● Check each CD/DVD/BD for damage, cracks, breakages etc. before inserting it in the drive. Note that any additional labels applied may change the mechanical properties of a CD/DVD/BD and cause imbalance and vibrations.
Important information ● Do not contaminate the CD/DVD/BD surface with fingerprints, oil, dust, etc. If dirty, clean with a soft, dry cloth, wiping from the center to the edge. Do not use benzene, thinners, water, record sprays, antistatic agents, or silicone-impregnated cloth. ● Be careful not to damage the CD/DVD/BD surface. ● Keep the CDs/DVDs/BDs away from heat sources. ● Do not bend or place heavy objects on CDs/DVDs/BDs. ● Do not write with ballpoint pen or pencil on the label (printed) side.
Important information Modules with Electrostatic-Sensitive Devices Modules with electrostatic-sensitive devices are identified by the following sticker: Figure 1: ESD label When you handle components fitted with ESDs, you must always observe the following points: ● Switch off the system and remove the power plugs from the power outlets before installing or removing components with ESDs. ● The circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity.
Important information Transporting the server ● Only transport the server in its original packaging or in packaging that protects it from impacts and jolts. For the Japanese market, transporting the device in its original packaging does not apply. ● Do not unpack the server until it is at its installation location. ● If you need to lift or transport the server, ask other people to help you. Because the PRIMERGY RX2520 M1 is large and heavy, at least two people are needed.
Important information 3.2 ENERGY STAR Products that have been certified compliant with ENERGY STAR and identified as such are in full compliance with the specification at shipping. Note that energy consumption can be affected by software that is installed or any changes that are made to the hardware configuration or BIOS or energy options subsequently. In such cases, the properties guaranteed by ENERGY STAR can no longer be assured.
Important information 3.4 FCC Class A Compliance Statement If there is an FCC statement on the device, it applies to the products covered in this manual, unless otherwise specified herein. The statement for other products will appear in the accompanying documentation.
Important information 3.5 Environmental protection Environmentally-friendly product design and development This product has been designed in accordance with the Fujitsu standard for "environmentally friendly product design and development". This means that key factors such as durability, selection and labeling of materials, emissions, packaging, ease of dismantling and recycling have been taken into account. This saves resources and thus reduces the harm done to the environment.
Important information Labels on plastic casing parts Please avoid sticking your own labels on plastic parts wherever possible, since this makes it difficult to recycle them. Returns, recycling and disposal Please handle returns, recycling and disposal in accordance with local regulations. The device must not be disposed of with domestic waste. This device is labeled in compliance with European directive 2002/96/EC on waste electrical and electronic equipment (WEEE).
4 Basic hardware procedures 4.1 Using diagnostics information Use the Fujitsu ServerView Suite management software to plan the upgrade or replacement of hardware components. Please refer to the following ServerView Suite topics: – Operation – Maintenance It is recommended to prepare local maintenance tasks using remote diagnostics procedures, as described in the "ServerView Suite Local Service Concept (LSC)" manual.
Basic hardware procedures 4.1.2 Determining the error class The Local Service Concept (LSC) allows you to identify defective server components.
Basic hardware procedures 4.1.3 Locating the defective component After determining the error class by the CSS or Global Error indicators (see section "Determining the error class" on page 48) local diagnostic indicators on the front panel and system board allow you to identify the defective component. I For further information, refer to the "ServerView Suite Local Service Concept (LSC)" manual. 4.1.3.
Basic hardware procedures Ê Switch on the ID indicator on the front and rear connector panels of the server as described in section "Locating the defective server" on page 47. 4.3 Disconnecting power cords Removing the server from the mains I If there are installed two power supplies remove both power cords. Figure 2: Removing the power cord from the PSU cable clamp Ê Open on the locking lever on the PSU cable clamp (1). Ê Disconnect the power cord from the PSU and remove it from the cable tie (2).
Basic hardware procedures 4.4 Getting access to the component V CAUTION! ● Before removing or installing covers, turn off the server and all peripheral devices. Also unplug all power cables from the outlet. Failure to do so can cause electric shock. ● In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the server must not run while the top / side cover is removed.
Basic hardware procedures Figure 3: Extending the server out of the rack Ê Remove all remaining external cables from the rear connector panel and expansion cards (see section "Connectors and indicators" on page 347). Ê If you are not using a cable mounting arm (CMA kit), ensure that the rear cables are long enough not to be strained or damaged when extending the server out of the rack.
Basic hardware procedures 4.4.2 Removing the server from the rack I In most cases maintenance tasks can be performed while the server is extended from the rack. However, depending on accessibility or security guidelines, it may make sense to completely remove the server from the rack cabinet for maintenance purposes. V CAUTION! At least two people are needed to lift the server out of the rack cabinet. (For the Japanese market, please refer to " 安全上のご注意 ".
Basic hardware procedures When using a lifter, this removal procedure needs to be carried out by maintenance personnel. Figure 4: Removing the server from the rack Ê Release the locking bars on both rails (1). Ê Lift up the front of the server as shown so that the front and middle rack mounting bolts are disengaged from the mounting points on the telescopic rails (2). Ê Lift the server out of the rear mounting points (3) and place it on an even surface. 4.4.
Basic hardware procedures ● In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the PRIMERGY RX2520 M1 server must not run while the housing cover is removed. ● For further safety information, please refer to chapter "Important information" on page 35. 4.4.3.1 Removing the housing cover Figure 5: Removing the housing cover Ê Open the locking lever (1).
Basic hardware procedures 4.4.3.2 Removing the air duct Figure 6: Removing the air duct V CAUTION! Be careful with the FBU cable. If there is a FBU installed, follow the procedure that is described in section "Removing the air duct with an FBU" on page 182 first. Ê Remove the air duct.
Basic hardware procedures 4.5 Reassembling 4.5.1 Installing the air duct Figure 7: Installing the air duct guiding points I Regard that the air duct engages in the guiding points.
Basic hardware procedures Figure 8: Installing the air duct Ê Insert the air duct first with the rear side (1). Ê Fold down the air duct (2). I If there is a FBU installed, follow the procedure that is described in section "Installing the air duct with an FBU" on page 180. 4.5.2 Closing the server V CAUTION! 58 ● Before attaching the covers, make sure no unnecessary parts or tools are left inside the server.
Basic hardware procedures 4.5.2.1 Mounting the housing cover Figure 9: Mounting the housing cover Ê Open the locking lever on the top cover. Ê Fit the housing cover on the chassis, aligning it according to the edge guide marking on the upper server surface. Ê Lower the housing cover onto the chassis. Ê Close the locking lever on the housing cover. This will slide the housing cover shut engaging the locking mechanism. 4.5.3 Mounting the server in the rack 4.5.3.
Basic hardware procedures For configurations below 55 kg: At least three people are needed to lift the server into the rack cabinet. For configurations above 55 kg: At least four people are needed to lift the server into the rack cabinet. Additionally, a lifter is required in the following cases: – The server weighs more than 50 kg. – The server weighs more than 21 kg and is to be installed above the height of 25 U.
Basic hardware procedures Figure 10: Mounting the server onto the rack rails Ê Fully extend the telescopic rails until they lock in place (1). Ê At a slight angle, lower the server onto the rear mounting point on the telescopic rails (2). Ê Fold down the server (3). Ensure that all six rack mounting bolts are properly seated in the mounting points on the telescopic rails (4) and that the locking bars engage (5).
Basic hardware procedures 4.5.3.2 Sliding the server into the rack Figure 11: Sliding the server into the rack Ê Pull up on the locking latch on both telescopic rails (1). Ê Slide the server inside the rack as far as it will go (2) until the quick release levers on the rack mounting frame lock into place. Ê Reconnect all cables except the power cord to the server rear.
Basic hardware procedures Connecting power cords to the mains V CAUTION! The power supply automatically adjusts to any mains voltage in the range of 100 VAC to 240 VAC. You may only operate the server if its rated voltage range corresponds to the local mains voltage. Figure 12: Securing power cord Ê Connect the power connector (1) to the power supply unit. Ê Close the cable clamp around the power cord (2) and lock the cable clamp (3) to secure the power cord.
Basic hardware procedures 4.7 Switching on the server V CAUTION! ● Before switching on the server, make sure the housing cover is closed. In order to comply with applicable EMC regulations (regulations on electromagnetic compatibility) and satisfy cooling requirements, the PRIMERGY RX2520 M1 server must not run while the housing cover is removed. ● After connecting all power cords, wait at least 60 seconds before pressing the On / Off button.
5 Basic software procedures 5.1 Starting the maintenance task 5.1.1 Disabling 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. On the operating system drive, BitLocker uses the compatible Trusted Platform Module (TPM) to detect if the computer's startup process has been modified from its original state.
Basic software procedures I Administrator permission required: If you are prompted for an administrator password or confirmation, type the password or provide confirmation. Ê To temporarily disable BitLocker, click Turn Off BitLocker, and then click Disable BitLocker Drive Encryption. I In order to determine which features are accessible through the BitLocker setup wizard, modify the BitLocker Group Policy settings.
Basic software procedures Ê Under Watchdog Settings, you can obtain detailed information about the current watchdog status, time out intervals and actions that are triggered if watchdog time outs are exceeded. I For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide. Viewing boot watchdog settings in ServerView Operations Manager Ê In ServerView Operations Manager Single System View select Maintenance from the Information / Operation menu.
Basic software procedures Configuring boot watchdog settings using the iRMC web frontend Ê Enter the ServerView iRMC web frontend. Ê Select the Server Management menu. Ê Under Watchdog Settings select Continue from the Boot Watchdog drop down list. Ê Click Apply for the changes to take effect. I For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide.
Basic software procedures 5.1.3 Removing backup and optical disk media Ê Ask the system administrator to eject all remaining backup or optical media from the backup or optical disk drive before removing it from the server. Ê If the backup media cannot be ejected by conventional means, and it is mandatory that the cartridge be removed prior to returning the drive for repair or disposing it, a manual tape extraction needs to be performed.
Basic software procedures 5.1.5 Note on server maintenance in a Multipath I/O environment When booting your server offline from the ServerView Suite DVD to perform an offline BIOS / firmware update using the ServerView Update DVD or collect diagnostic data using PrimeCollect in a Multipath I/O environment, there is a risk of damaging the system configuration which may leave the system unable to boot. I This is a known restriction of Windows PE with Multipath drivers.
Basic software procedures DVD: Ê Switch on the server. Ê Right after switching on the server, insert the Update DVD into the DVD drive and close the tray. USB: Ê Connect the USB stick to the server. Ê Switch on the server. If the server does not boot from DVD or USB stick, proceed as follows: Ê Reboot the server, e.g. by pressing the reset button on the front or switching the server off and then on again after a few seconds. Ê Once the server has been started, press [F12] to enter the boot menu.
Basic software procedures Ê Reboot the server, e.g. by pressing the reset button on the front or switching the server off and then on again after a few seconds. Ê Once the server has been started, press [F12] to enter the boot menu. Ê Use the Ê and Ë cursor keys to select your DVD drive as boot device and press [ENTER]. The server will now boot from the ServerView Suite DVD. Ê After the boot process is complete, select your preferred GUI language.
Basic software procedures Using the iRMC web frontend Ê Enter the ServerView iRMC web frontend. Ê Under System Overview, click Identify LED On to switch on the ID indicators. Using ServerView Operations Manager Ê In ServerView Operations Manager Single System View press the Locate button in the title bar to switch on the ID indicators. 5.2 Completing the maintenance task 5.2.
Basic software procedures 5.2.1.2 Updating or recovering the iRMC iRMC flash procedure I For the Japanese market, follow the instructions provided separately. Ê Prepare a USB stick including the bootable iRMC firmware update image. Ê Connect the USB stick to the USB port. I Ensure that only the USB device with the iRMC firmware is connected to the USB port. Remove all other USB devices temporarily. Ê Restart the server. Ê The system will detect the USB stick.
Basic software procedures Ê Ensure that the server has been shut down and disconnected from the mains as described in section "Shutting down the server" on page 49. Ê Connect the USB stick to the USB port. I Ensure that only the USB device with the iRMC firmware is connected to the USB port. Remove all other USB devices temporarily. Ê Connect the server to the mains while pushing the ID button on the front panel. Ask a second person to help you if necessary.
Basic software procedures In order to verify whether the backup or restore process has been successful, check the System Event Log (SEL) using the ServerView Operations Manager (see also section "Viewing and clearing the System Event Log (SEL)" on page 85).
Basic software procedures 5.2.3 Updating RAID controller firmware After replacing the RAID controller, it is essential to upgrade the firmware to the latest version. The latest RAID controller firmware version is available from the Fujitsu support web pages at: http://ts.fujitsu.com/support/ (EMEA market) http://jp.fujitsu.
Basic software procedures 5.2.4 Enabling Option ROM scan In order to configure an expansion card that has been installed or replaced, the card’s Option ROM has to be enabled in the system board BIOS. The card’s firmware is called by the system BIOS upon reboot and can be entered and configured. Option ROM can be enabled permanently (e.g. in case of a boot controller that may require frequent setup) or temporarily for one-time configuration.
Basic software procedures 5.2.5 Verifying and configuring the backup software solution I This task only applies to the Japanese market. Disabling backup drives Depending on the backup software solution, it may be necessary to disable or delete the backup drive from the backup software drive list and reconfigure backup jobs after completing the maintenance task.
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: Ê Enter the BIOS. Ê Select the Server Mgmt menu. Ê Under Boot Retry Counter the current number of remaining boot attempts is displayed.
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 From the Server Configuration menu pane, choose Restart Options. Ê Under Reboot Retries, specify the maximum number of boot attempts (0 to 7) in the Default for reboot tries field.
Basic software procedures 5.2.7 Enabling SVOM boot watchdog functionality If ServerView Operations Manager boot watchdog functionality has been disabled for firmware upgrade purposes (see section 5.1.2 on page 66), it has to be re-enabled to complete the maintenance task. Timer settings can be configured in the BIOS or using the ServerView iRMC web frontend: Configuring boot watchdog settings in the BIOS Ê Enter the BIOS. Ê Select the Server Mgmt menu.
Basic software procedures Ê Select the Advanced menu. Ê Select the status menu of the desired component: – Processors: CPU Status I This option is only available for multi-processor systems. – Memory: Memory Status – Expansion cards: PCI Status Ê Reset replaced components to Enable. Ê Save your changes and exit the BIOS. I For detailed information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utility reference manual. 5.2.
Basic software procedures 5.2.10 Verifying the system time settings I This task only applies to Linux environments. After the system board has been replaced, the system time is set automatically. By default, the RTC (Real Time Clock) time standard is set as the local time. If a Linux OS is used and the hardware clock has been configured as UTC (Universal Time, Coordinated) in the operating system, the BMC local time may not be mapped correctly.
Basic software procedures 5.2.11 Viewing and clearing the System Event Log (SEL) 5.2.11.1 Viewing the SEL You can view the System Event Log (SEL) using the ServerView Operations Manager or the ServerView iRMC web frontend: Viewing the SEL in ServerView Operations Manager Ê In ServerView Operations Manager Single System View select Maintenance from the Information / Operation menu. Ê Under Maintenance select System Event Log.
Basic software procedures Viewing the SEL using the iRMC web frontend Ê Enter the ServerView iRMC web frontend. Ê Select the Event Log and choose the Internal Event Log submenu. Ê Under Internal Event Log Content the SEL is being displayed. In order to filter the list, select the check boxes next to the desired event types and press Apply for the changes to take effect. I For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide. 5.2.11.
Basic software procedures I Procedures may differ depending on your Linux OS or the definition file on the client system. Use the following information as reference. Ask the system administrator to change the definition file. Ê After replacing a network controller or the system board, switch on and boot the server as described in section "Switching on the server" on page 64.
Basic software procedures 5.2.13 Enabling BitLocker functionality If BitLocker Drive Encryption has been disabled for maintenance purposes (see section "Disabling BitLocker functionality" on page 65), it has to be re-enabled to complete the service task. I If BitLocker Drive Encryption has been disabled prior to replacing components you won't be asked for a recovery key when rebooting the server after the maintenance task.
Basic software procedures 5.2.14 Performing a RAID array rebuild After replacing a hard disk drive that has been combined into a RAID array, RAID rebuild will be performed completely unattended as a background process. Ê Ensure that the RAID array rebuild has started normally. Wait until the progress bar has reached at least one percent. Ê Inform the customer about the remaining rebuild time, based on the displayed duration estimate.
Basic software procedures Ê Under Network Inventory, you will find detailed information on each network controller in the managed PRIMERGY server, including its MAC address. I This information is only available with the iRMC S4 or above. Only network controllers supporting the Command Line Protocol (CLP) will be displayed. Ê Inform the customer about the changed MAC address. 5.2.15.
Basic software procedures Ê Note down the new 16-digit WWN address found under Adapter Port Name. Ê Press [Esc] to return to the main menu and exit the QLogic BIOS utility. Ê Inform the customer about the changed WWN address. 5.2.16 Using the Chassis ID Prom Tool The Chassis ID EPROM located on a dedicated Chassis ID board or on your server’s front panel board contains system information like server name and model, housing type, serial number and manufacturing data.
Basic software procedures V CAUTION! Please note that you can only set the ATD flag. Resetting the ATD flag using the Chassis ID Prom Tool is not possible! 5.2.17 Configuring LAN teaming Use ServerView Operations Manager to obtain detailed information on existing LAN teams: Ê In ServerView Operations Manager Single System View select System Status from the Information / Operation menu. Ê Under Network Interfaces select LAN Teaming.
Basic software procedures Ê If LAN teaming has been active, you will need to restore the configuration using the LAN driver utility after replacing the system board. I For details, refer to the relevant LAN driver manual. 5.2.18 Switching off the ID indicator Press the ID button on the front panel, or use the iRMC web frontend or ServerView Operations Manager to switch off the ID indicator after the maintenance task has been concluded successfully.
Basic software procedures Executing the fan test via the iRMC Web interface Ê Log into the iRMC web interface. Ê Under Sensors select Fans. Ê Select the replaced fan in the system fans group and click Start Fan Test. I For detailed information on iRMC settings, refer to the "Integrated Remote Management Controller" user guide. Executing the fan test via ServerView Operations Manager Ê Open the ServerView Operations Manager and log in. Ê Under Administration select Server Configuration.
6 Power supply units Safety notes V CAUTION! ● Do not disassemble the power supply unit. Doing so may cause electric shock. ● Areas around the power supply unit may remain extremely hot after shutdown. After shutting down the server, wait for hot components to cool down before removing the power supply unit. ● When installing a power supply unit, ensure that the connector of the power supply unit is not damaged or bent. ● If the power supply unit is hard to remove, do not pull it out by force.
Power supply units 6.1.1 Power supply unit configurations Figure 14: Hot-plug power supply units: 450 W AC (1), 800 W AC (2), I All different hot-plug power supply units are to install, to remove or to replace in the same way. 6.1.2 Assembly rules – Mixed assembly of 450 W and 800 W hot-plug power supply units is not supported. – Always install a dummy cover into an unused power supply unit bay to comply with applicable EMC regulations and satisfy cooling requirements.
Power supply units 6.1.3 Power supply unit slots PSU 1 PSU 2 Figure 15: Power supply unit slots 6.2 Installing hot-plug power supply units Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less 6.2.1 Preliminary steps No steps needed.
Power supply units 6.2.2 Removing the dummy cover Figure 16: Removing the dummy cover Ê Press in on both release latches (1) and remove the dummy cover (2). V CAUTION! Keep the dummy cover for future use. If a power supply unit is removed and not immediately replaced by a new one, a dummy cover must be replaced in the slot to comply with applicable EMC regulations and satisfy cooling requirements.
Power supply units 6.2.3 Installing a hot-plug power supply unit Figure 17: Installing the hot-plug power supply unit Ê Push the power supply unit into its bay (1) as far as it will go until the release latch snaps in place (2). Ê Fold down the handle on the power supply unit(3). V CAUTION! Ensure that the power supply unit properly engages in its bay and is locked in position in order to prevent it from sliding out of the chassis during transportation. 6.2.
Power supply units 6.3 Removing a hot-plug power supply unit Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less I Note for servers using CMA (Cable Management Arm) Regarding of removing power supply units, additional tasks are needed, due to an interference between CMA stopper and the power supply units. Ê Unlock the CMA stopper. Ê Remove the CMA stopper with the mounted crossbar. Ê Support the CMA stopper, the crossbar and the CMA including cables with your right hand.
Power supply units 6.3.2 Removing a hot-plug power supply unit Figure 18: Removing the hot-plug power supply unit Ê Push the handle of the power supply unit halfway upward in the direction of the arrow (1). Ê Push the green release latch in direction of the arrow (2). Ê While keeping the green release latch pressed, pull the power supply unit out of its slot (3). V CAUTION! Never leave the bay for the power supply unit empty for more than two minutes during operation.
Power supply units 6.3.3 Installing a dummy cover Figure 19: Installing a dummy cover Ê Insert the dummy cover into the empty bay with the impressed arrow symbol facing up. Ê Press in on both release latches on the dummy cover (1) and carefully insert the dummy cover into its bay (2) until it locks in place. V CAUTION! Always install dummy covers into unused bay ts to comply with applicable EMC regulations and satisfy cooling requirements. 6.3.
Power supply units 6.4 Replacing a hot-plug power supply unit Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less V CAUTION! ● When replacing a power supply unit in a non-redundant power supply configuration, the server must be switched off first. ● Replace the power supply unit after specifying the one that breaks down at work by revitalization. ● Ensure to replace a defective power supply unit by a new unit of the same type. 6.4.
Power supply units 6.4.3 Installing the new hot-plug power supply unit Figure 20: Installing the hot-plug power supply unit Ê Insert the power supply unit into its slot. Ê Push the power supply unit into its slot (1) as far as it will go until the locking latch snaps in place (2). V CAUTION! Ensure that the power supply unit properly engages in its slot and is locked in position in order to prevent it from sliding out of the chassis during transportation.
Power supply units 6.5 Upgrading a power supply from 450 W to 800 W Basic information V CAUTION! No mixed power supply configuration is allowed. Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less 6.5.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê In non-redundant power supplyconfigurations, shut down the server as described in section "Shutting down the server" on page 49. Ê "Disconnecting power cords" on page 50 6.5.
Power supply units 6.5.3 Installing the new hot-plug power supply unit Figure 21: Installing the hot-plug power supply unit Ê Insert the power supply unit into its bay. Ê Push the power supply unit into its bay (1) as far as it will go until the release latch snaps in place (2).
Power supply units 6.5.4 Concluding steps Ê "Connecting the server to the power source" on page 62 Ê "Enabling BitLocker functionality" on page 88 6.6 Replacing the power backplane Field Replaceable Unit (FRU) Hardware: 10 minutes Tools: tool-less 6.6.
Power supply units 6.6.2 Disconnecting cables Figure 22: Disconnecting cables from the power backplane Ê Remove the cables from the power backplane. 6.6.3 Removing the power backplane Figure 23: Removing the power backplane (A) Ê Unlock the locking mechanism of the power backplane.
Power supply units Figure 24: Removing the power backplane (B) Ê Fold the power backplane in the direction of the arrow. Ê Push the power backplane upward. Ê Remove the power backplane.
Power supply units 6.6.4 Installing the power backplane Figure 25: Installing the power backplane (A) Ê Insert the new power backplane into the guiding hooks of the chassis (1).
Power supply units Figure 26: Installing the power backplane (B) Ê Slide the power backplane downward in the guiding hooks.
Power supply units Figure 27: Locking the power backplane Ê Press the power backplane in the direction of the arrow to lock it. 6.6.5 Reconnecting cables Figure 28: Connecting cables Ê Connect the cables.
Power supply units 6.6.6 Concluding steps Ê "Installing the air duct" on page 57 Ê "Mounting the housing cover" on page 59 Ê "Sliding the server into the rack" on page 62 If the server has been completely removed from the rack for maintenance purposes, reinstall and secure it in the rack as described in section "Mounting the server in the rack" on page 59.
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7 Hard disk drives / solid state drives Safety notes V CAUTION! ● The hard disk drive must not be removed from the installation frame by anyone except a service technician. ● HDD / SSD modules must all be marked clearly so that they can be reinstalled into their original mounting locations after an upgrade. Otherwise, data may be lost. ● Do not touch the circuitry on boards or soldered parts. Hold the metallic areas or the edges of the circuit boards.
Hard disk drives / solid state drives 7.1 Basic procedures – Solid state drives (SSDs) are always equipped before installing hard disk drives. – Hard disk drives / solid state drives with different capacities are installed from highest to lowest capacity. – Hard disk drives with different rotation speeds are installed from highest to lowest speed. – When installing hard disk drives with different bus technologies (SAS or SATA), first install SAS drives and then SATA drives.
Hard disk drives / solid state drives 7.2.1.1 HDD / SSD mounting order for 4x 2.5-inch HDD / SSD configuration Figure 29: 2.5-inch HDD / SSD mounting order configuration 2 and 3 Mounting order Bay number 7.2.1.2 HDD / SSD naming scheme for 4x 2.5-inch HDD / SSD configuration I The HDD / SSD numbering as listed in the ServerView RAID Manager differs from the HDD mounting order: 2.
Hard disk drives / solid state drives 7.2.1.3 HDD / SSD mounting order for 8x 2.5-inch HDD / SSD configurations Figure 30: 2.5-inch HDD / SSD mounting order configuration 4 Figure 31: 2.5-inch HDD / SSD mounting order configuration 6 Figure 32: 2.
Hard disk drives / solid state drives 7.2.1.4 HDD / SSD naming scheme for 8x 2.5-inch HDD / SSD configurations I The HDD / SSD numbering as listed in the ServerView RAID Manager differs from the HDD mounting order: 2.5-inch HDDs / SSDs HDD RAID Manager # Channel HDD RAID Manager # Channel 1 [0] 1 2 [4] 2 3 [1] 1 4 [5] 2 5 [2] 1 6 [6] 2 7 [3] 1 8 [7] 2 Table 5: HDD naming scheme 7.2.1.5 HDD / SSD mounting order for 12x 2.5-inch HDD / SSD configuration Figure 33: 2.
Hard disk drives / solid state drives 2.5-inch HDDs / SSDs HDD RAID Manager # 1 [0] 2 [1] 3 [2] 4 [3] 5 [4] 6 [5] 7 [6] 8 [7] 9 [8] 10 [9] 11 [10] 12 [11] Table 6: HDD naming scheme 7.2.1.7 HDD / SSD mounting order for 16x 2.5-inch HDD / SSD configuration Figure 34: 2.
Hard disk drives / solid state drives 7.2.1.8 HDD / SSD naming scheme 16x 2.5-inch HDD / SSD configuration I The HDD / SSD numbering as listed in the ServerView RAID Manager differs from the HDD mounting order: 2.5-inch HDDs / SSDs HDD RAID Manager # 1 [0] 2 [12] 3 [1] 4 [13] 5 [2] 6 [14] 7 [3] 8 [15] 9 [4] 10 [5] 11 [6] 12 [7] 13 [8] 14 [9] 15 [10] 16 [11] Table 7: HDD naming scheme 7.2.2 Installing 2.
Hard disk drives / solid state drives 7.2.2.1 Preliminary steps Ê Locate the correct drive bay as described in section "Mounting order for 2.5inch HDDs / SSDs" on page 116. 7.2.2.2 Removing a 2.5-inch dummy module Figure 35: Removing a 2.5-inch dummy module Ê Press both tabs together (1) and pull the dummy module out of its bay (2). V CAUTION! Save the dummy module for future use.
Hard disk drives / solid state drives 7.2.2.3 Installing a 2.5-inch HDD / SSD module Figure 36: Opening the 2.5-inch HDD / SSD module locking lever Ê Pinch the green locking clips (1) and open the locking lever (2). Figure 37: Inserting the 2.
Hard disk drives / solid state drives Ê Insert the HDD module into a drive bay and carefully push back as far as it will go (1). Ê Close the locking lever to lock the hard disk drive in place (2). 7.2.2.4 Concluding steps Ê "Performing a RAID array rebuild" on page 89 7.2.3 Removing 2.5-inch HDD / SSD modules Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less 7.2.3.
Hard disk drives / solid state drives In order to permanently remove an operational HDD module that is part of a RAID array from the server, you first need to delete the array using ServerView RAID Manager or BIOS Utility. V CAUTION! All data on all HDDs / SSDs in the array will be lost! Be sure to back up your data before deleting a RAID array. I For further information, please refer to the "ServerView Suite RAID Management" user guide and manuals of RAID controller. 7.2.3.2 Removing a 2.
Hard disk drives / solid state drives Figure 39: Removing a 2.5-inch HDD / SSD module Ê Pull the HDD / SSD module completely out of its bay. 7.2.3.3 Installing a 2.5-inch dummy module V CAUTION! If the removed HDD / SSD module is not replaced immediately, always replace a dummy module into the unused HDD / SSD bay to comply with applicable EMC regulations and satisfy cooling requirements.
Hard disk drives / solid state drives Figure 40: Installing a 2.5-inch dummy module Ê Slide the dummy module into the drive bay until it locks in place. 7.2.3.4 Concluding steps Ê "Performing a RAID array rebuild" on page 89 7.2.4 Replacing a 2.5-inch HDD / SSD module Customer Replaceable Unit (CRU) Hardware: 5 minutes Tools: tool-less V CAUTION! ● RX2520 M1 Only remove an HDD / SSD module during operation if the drive is not currently being accessed.
Hard disk drives / solid state drives ● Under no circumstances should you remove an HDD / SSD module while the system is in operation if you are not sure that the drive is operated by a RAID controller and belongs to a disk array that is operating in RAID level 0, 1, 1E, 10, 5, 50, 6 or 60. An HDD / SSD module can only be replaced during operation in conjunction with a corresponding RAID configuration. ● 7.2.4.
Hard disk drives / solid state drives 7.3 Replacing SAS / SATA HDD / SSD backplanes 7.3.1 Replacing the 4x 2.5-inch HDD SAS backplane Field Replaceable Unit (FRU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 7.3.1.
Hard disk drives / solid state drives 7.3.1.2 Removing the 4x 2.5-inch SAS HDD backplane Figure 41: Disconnecting cables from the 4x 2.5-inch HDD SAS backplane Ê Disconnect all cables from the 4x 2.5-inch HDD SAS backplane: – SAS / SATA cable – Power cables Figure 42: Removing the 4x 2.5-inch HDD SAS backplane Ê Remove the screw. Ê Remove the 4x 2.5-inch HDD SAS backplane.
Hard disk drives / solid state drives 7.3.1.3 Installing the 4x 2.5-inch HDD SAS backplane Figure 43: Installing the 2.5-inch HDD SAS backplane Ê Insert the 4x 2.5-inch HDD SAS backplane in that way that it is in the guiding recesses (see circles). Ê Fasten the 4x2.5-inch HDD SAS backplane with the screw (see arrow). Figure 44: Reconnecting cables to the 4x 2.
Hard disk drives / solid state drives Ê Reconnect all cables to the 2.5-inch HDD SAS backplane: – Power cable C4 to SAS backplane connector X6 – If applicable power cable C5 to SAS backplane connector X9 – SAS cable to backplane connectors X1 I For a complete cabling overview, please refer to section "List of used cables" on page 331. 7.3.1.4 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Installing 2.
Hard disk drives / solid state drives Ê Remove all HDD / SSD modules from the server as described in section "Removing 2.5-inch HDD / SSD modules" on page 124. V CAUTION! Ensure that all hard disk drives are uniquely identified so that you can reinsert them into their original bays after replacing the HDD backplane. Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 7.3.2.2 Removing the 12x2.5-inch HDD SAS backplane Figure 45: Disconnecting cables from the 12x 2.
Hard disk drives / solid state drives Figure 46: Removing the 2.5-inch HDD SAS backplane (A) Ê Remove the three screws of the 12x 2.5-inch HDD SAS backplane (see circles). Ê Shift the backplane slightly to the left to disengage the nose (1) Figure 47: Removing the 2.5-inch HDD SAS backplane (B) Ê Tilt out the 12x 2.5-inch HDD SAS backplane as shown.
Hard disk drives / solid state drives Ê At a slight angle, unhinge the 12x 2.5-inch HDD SAS backplane from the guides on the drive cage and remove it. 7.3.2.3 Installing the 12x 2.5-inch HDD SAS backplane Figure 48: Installing the 12x 2.5-inch HDD SAS backplane (A) Ê At a slight angle, fit the 12x 2.5-inch HDD SAS backplane into the guides on the bottom of the chassis. Ê Fold in the 12x 2.5-inch HDD SAS backplane.
Hard disk drives / solid state drives Figure 49: Fastening the 2.5-inch HDD SAS backplane (A) Ê Secure the 12x 2.5-inch HDD SAS backplane with the three screws. Figure 50: Connecting cables to the 12x 2.5-inch HDD SAS backplane Ê Reconnect all cables to the 12x 2.
Hard disk drives / solid state drives – SAS cable C9 connected to SAS controller connector MLC1 to primary backplane connectors X1 – SAS cable C9 connected to SAS controller connector MLC2 to secondary backplane connectors X2 I For a complete cabling overview, please refer to section "List of used cables" on page 331. 7.3.2.4 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Installing 2.
Hard disk drives / solid state drives Figure 51: Disconnecting cables from the 4x 2.5-inch HDD SAS backplane Ê Disconnect all cables from the 4x 2.5-inch HDD SAS backplane: – SAS / SATA cable – Power cables Figure 52: Removing the 4x 2.
Hard disk drives / solid state drives Ê Remove the screw. Ê Push the HDD cage out. 7.4.2 Installing a HDD cage Field Replaceable Unit (FRU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver Figure 53: Removing the 4x 2.5-inch HDD SAS backplane Ê Insert the HDD cage. Ê Fasten the HDD cage with the screw.
Hard disk drives / solid state drives Figure 54: Reconnecting cables to the 4x 2.5-inch HDD SAS backplane Ê Reconnect all cables to the 2.
8 System fan Safety notes V CAUTION! ● Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock. ● Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options. ● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g.
System fan 8.2 Replacing the system fan Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: tool-less 8.2.1 Preliminary steps Ê "Locating the defective server" on page 47 Ê "Getting access to the component" on page 51 Ê "Locating the defective component" on page 49 8.2.
System fan Ê Take the system fan by the green touch points. Ê Lift the system fan out of the fan box. 8.2.3 Installing a system fan Figure 56: Installing a system fan module Ê Insert the system fan as shown. Ê Press down on the system fan until it locks. 8.2.4 Concluding steps Ê "Reassembling" on page 57 I When a system fan module fails, the remaining fans will start operating at full speed.
System fan 8.3 Removing the fan box Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: screw driver 8.3.1 Preliminary steps Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 8.3.2 Removing the fan box FAN4 FAN2 Figure 57: Removing a fan module Ê Take the two system fans by the green touch points and lift the system fans out of the fan box.
System fan Figure 58: Removing the fan box Ê Remove the two screws. Figure 59: Removing the fan box Ê Take the fan box by the green touch points and lift the fan box out of the chassis.
System fan 8.3.3 Installing the fan box Figure 60: Installing the fan box Ê Take the fan box by the green touch points and insert the fan box.
System fan Figure 61: Installing the fan box Ê Fasten the fan box with the 2 screws. Ê Install the two fan modules see section "Installing a system fan" on page 143. 8.3.
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9 Expansion cards and backup units Safety notes V CAUTION! ● Do not damage or modify internal cables or devices. Doing so may cause a device failure, fire, or electric shock. ● Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options. ● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity.
Expansion cards and backup units Slot 6 Slot 5 Slot 4 Slot 3 Slot 2 Slot 1 Slot 7 Figure 62: PCI slot overview PCI slot Type Mechanical connector Electrical interface 1 PCIe Gen 2 x8 x4 preferred slot for Modular LAN controller (with NCSI connector) CPU1 2 PCIe Gen 3 x8 x8 CPU1 150 Function 3 PCIe Gen 3 x8 x8 CPU1 4 PCIe Gen 3 x8 x8 only available with CPU2 5 PCIe Gen 3 x8 x8 only available with CPU2 6 PCIe Gen 3 x8 x8 only available with CPU2 7 PCIe Gen 3 x8 x8
Expansion cards and backup units Expansion card overview and installations sequence Vendor/Type Bus Max# Slot 1 Slot2 Slot3 Slot4 Slot5 Slot6 Slot7 VGA PCIe USB 3.0 USB 3.0 PCIe x1 adapter card x1 1 PCI1.0 1 SAS/RAID RAID Ctrl SAS 6G 1GB (D3116C) x8 1 PCI3.0 1 RAID Ctrl SAS 6G 5/6 x8 1 512MB (D2616) PCI2.0 1 RAID Ctrl SAS 6G 0/1 X8 1 (D2607) PCI2.0 1 RAID Ctrl SAS 6G 8Port ex 1 GB x8 2 PCI3.0 1 2 SAS(Backup) LSI SAS 9200-8e (3080) x8 3 PCI2.0 6 4 5 1 2 3 LPe12002 x8 4 PCI1.
Expansion cards and backup units For the latest information on supported expansion cards, refer your server’s hardware configurator available online at the following address: for the EMEA market: http://ts.fujitsu.com/products/standard_servers/index.htm for the Japanese market: http://jp.fujitsu.
Expansion cards and backup units 9.2 Handling slot brackets Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.2.1 Installing a slot bracket 9.2.1.1 Installing a standard slot bracket Figure 63: Installing a standard slot bracket (A) Ê Place the controller on the mounting tabs on the slot bracket.
Expansion cards and backup units Figure 64: Installing a standard slot bracket (B) Ê Secure the slot bracket to the controller with two M3 x 4.5 mm screws.
Expansion cards and backup units 9.2.1.2 Installing a slot bracket to the Network adapter D2755 Figure 65: Network adapter D2755 - Mounting the slot bracket (A) Ê Place the controller on the mounting tabs on the slot bracket (1). Ê Carefully shift the slot bracket towards the controller until the plug shells engage with the cut-outs in the slot bracket connector panel (2). Ê Ensure that the ESD springs on the plug shells properly engage with the slot bracket as shown (see close-ups).
Expansion cards and backup units Figure 66: Network adapter D2755 - Mounting the slot bracket (B) Ê Secure the slot bracket to the controller with two M3 x 4.5 mm screws.
Expansion cards and backup units 9.2.1.3 Installing a slot bracket to the USB 3.0 interface card D3305 V CAUTION! The USB 3.0 interface card D3305 comes pre-assembled with a full height slot bracket. When replacing the slot bracket, ensure to use the original M3 x 5 mm screws. Standard M3 screws may damage onboard components. Figure 68: Mounting the slot bracket (A) Ê Place the controller on the mounting tabs on the slot bracket.
Expansion cards and backup units Figure 69: Mounting the PCI slot bracket (B) Ê Secure the slot bracket to the controller with the two M3 x 5 mm screws contained in the expansion card kit. 9.2.2 Removing a slot bracket Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver Removing the slot bracket Ê Remove the two screws. Ê Remove the controller from the mounting tabs on the slot bracket.
Expansion cards and backup units 9.3 Expansion cards 9.3.1 Installing expansion cards Upgrade and Repair Unit (URU) Hardware: 5 minutes Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.3.1.
Expansion cards and backup units 9.3.1.2 Removing the slot bracket Figure 70: Removing the slot bracket Ê Remove the screw. Ê Remove the slot bracket. V CAUTION! Keep the slot bracket for further use. Always replace slot brackets into unused PCI slot openings to comply with applicable EMC regulations and satisfy cooling requirements. 9.3.1.3 Installing an expansion card Ê Remove the expansion card from its protective packaging.
Expansion cards and backup units Figure 71: Installing the expansion card Ê Carefully insert the expansion card into the desired PCI slot and press down firmly until it is fully seated in the slot. Ê Fasten the expansion card with the screw. Ê If applicable, install SFP+ transceiver modules into the new expansion card, as described in section "Installing SFP+ transceiver modules" on page 186. Ê If applicable, connect internal cables to the expansion card.
Expansion cards and backup units Ê If applicable, "Enabling Option ROM scan" on page 78. Ê "Enabling SVOM boot watchdog functionality" on page 82 Ê "Enabling BitLocker functionality" on page 88 9.3.2 Removing expansion cards Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.3.2.
Expansion cards and backup units Figure 72: Removing an expansion card Ê If applicable, "Removing an SFP+ transceiver module" on page 190. Ê Remove the screw. Ê Carefully remove the expansion card from its slot.
Expansion cards and backup units 9.3.2.3 Installing a PCI slot bracket V CAUTION! Always replace slot brackets into unused PCI slot openings to comply with applicable EMC regulations and satisfy cooling requirements. Figure 73: Installing a slot bracket Ê Insert a slot bracket into the unused PCI slot opening. Ê Fasten slot bracket with the screw. 9.3.2.
Expansion cards and backup units 9.3.3 Replacing expansion cards Upgrade and Repair Unit (URU) Hardware: 5 minutes Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver Note on network settings recovery I When replacing network controllers or the system board, network configuration settings in the operating system will be lost and replaced by default values. This applies to all static IP address and LAN teaming configurations.
Expansion cards and backup units Ê If the slot bracket on the defective expansion card is to be reused, remove it from the board as described in section "Removing the slot bracket" on page 160. 9.3.3.3 Installing an expansion card Ê If applicable, "Installing a slot bracket" on page 153. Ê "Installing expansion cards" on page 159. Ê If applicable, "Installing SFP+ transceiver modules" on page 186. 9.3.3.
Expansion cards and backup units 9.4 SAS RAID controller in PCI slot 7 9.4.1 Installing the SAS RAID controller Upgrade and Repair Unit (URU) Hardware: 10 minutes Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.4.1.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 9.4.1.
Expansion cards and backup units Ê Place the controller on the mounting tabs on the slot bracket (1). Ê Secure the slot bracket to the controller with two M3 x 4.5 mm screws (2). 9.4.1.3 Installing the SAS RAID controller Ê Remove the SAS RAID controller from its protective packaging. I For further instructions regarding controller settings, please refer to the accompanying documentation.
Expansion cards and backup units 9.4.1.4 Connecting cables to the expansion card Ê Connect SAS cables to the SAS RAID controller. I For a complete cabling overview, please refer to section "List of used cables" on page 331. 9.4.1.5 Connecting a backup unit to the expansion card Ê If applicable, connect a FBU to the expansion card as described in section "Installing a FBU" on page 174. 9.4.1.
Expansion cards and backup units 9.4.2 Removing the SAS RAID controller Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.4.2.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 9.4.2.
Expansion cards and backup units Ê Loosen the screw on the RAID card holder (1). Ê Carefully pull up on the SAS RAID controller in a vertical motion and remove it from its slot (2). 9.4.2.3 Removing the SAS RAID card holder Figure 77: Removing the RAID card holder Ê Remove the screws(1). Ê Remove the slot bracket (2). 9.4.2.
Expansion cards and backup units 9.4.3 Replacing the SAS RAID controller Upgrade and Repair Unit (URU) Hardware: 5 minutes Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 9.4.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 9.4.3.
Expansion cards and backup units 9.4.3.5 Connecting a backup unit to the expansion card Ê If applicable, connect a FBU to the expansion card as described in section "Installing a FBU" on page 174. 9.4.3.6 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê In order to configure an expansion card that has been installed or replaced, the card’s Option ROM has to be enabled in the system board BIOS.
Expansion cards and backup units 9.5 Backup Units 9.5.1 Basic information The Flash Backup Unit (FBU) backs up the memory contents of the connected SAS RAID controller in the event of a power failure. The PRIMERGY RX2520 M1 server can accommodate up to two backup units. Figure 78: FBU mounting positions 1 Mounting position for first FBU 2 Mounting position for second FBU 9.5.2 Installing a FBU Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: Phillips PH1 / (+) No.
Expansion cards and backup units V CAUTION! For further safety information, please refer to chapter "Important information" on page 35. 9.5.2.1 Preliminary steps Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 9.5.2.2 Installing TFM to the RAID controller (if applicable) I To connect an FBU to the controller D3116 you need a TFM.
Expansion cards and backup units Figure 80: Mounting the TFM kit (A) Ê Fit the spacer bolts on the TFM on SAS RAID controller. Ê Secure the TFM on the controller with the three screws . 9.5.2.3 Preparing the FBU Figure 81: Installing the FBU in the FBU holder (A) Ê At a slight angle, fit the FBU under both retaining brackets of the FBU holder as shown. Ê Push in the FBU until it locks in place.
Expansion cards and backup units Figure 82: Installing the FBU in the FBU holder (B) Ê Ensure that the FBU is properly seated in the holder. 9.5.2.4 Connecting the FBU cable to the FBU Figure 83: Connecting the FBU adapter cable to the FBU Ê Connect the cable end on the FBU module to the FBU adapter cable as shown.
Expansion cards and backup units 9.5.2.5 Installing the FBU holder onto the air duct Figure 84: Installing the FBU holder (A) I Note the positions of the fixation bolts on the air duct and keyhole slots on the FBU holder. Figure 85: Installing the FBU holder (B) Ê Thread the FBU cable through the gap in the air duct.
Expansion cards and backup units Figure 86: Installing the FBU holder (C) Ê Insert the FBU holder into the air duct so that the three hooks on the air duct rest in the wide ends of the keyhole slots on the FBU holder. Ê Slide the FBU holder in as far as it will go. The hooks on the air duct will lock in the narrow ends of the keyhole slots on the FBU holder. Ê Ensure that the locking handle on the FBU holder properly snaps in place (3).
Expansion cards and backup units 9.5.2.6 Installing the air duct with an FBU Figure 87: Connecting the FBU to the controller Ê Insert the air duct. Ê Connect the FBU cable to the RAID controller. Ê Route the cable in such a way that the cable is not pinched under the air duct. 9.5.2.7 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê If applicable, "Updating RAID controller firmware" on page 77.
Expansion cards and backup units 9.5.3 Removing a FBU Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: tool-less V CAUTION! Do not throw backup units into the trash can. Batteries must be disposed of in accordance with local regulations concerning special waste. For further safety information, please refer to section "Environmental protection" on page 45. 9.5.3.
Expansion cards and backup units 9.5.3.2 Removing the air duct with an FBU Figure 88: Disconnecting the FBU cable Ê Carefully disconnect the FBU cable from the RAID controller (see arrow). 9.5.3.
Expansion cards and backup units Ê Lift up the green locking handle on the FBU holder (1) while sliding the FBU holder to the left as far as it will go (2). I After that, the hooks on the air duct will rest in the wide ends of the keyhole slots on the holder. Ê Lift the FBU holder from the air duct (3). Ê Pull the FBU cable through the gap in the air duct. 9.5.3.
Expansion cards and backup units Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 9.5.4.2 Removing a FBU from the air duct Ê "Removing the FBU holder from the air duct" on page 182 9.5.4.3 Disconnecting the FBU cable from the FBU Figure 90: Disconnecting the FBU adapter cable from the FBU Ê Press down on the locking latch on the FBU cable and disconnect the FBU adapter cable.
Expansion cards and backup units 9.5.4.4 Removing the FBU from the holder Figure 91: Removing the FBU from the holder Ê Pull the FBU at a slight angle out of the holder. 9.5.4.5 Installing a new FBU Ê "Connecting the FBU cable to the FBU" on page 177 Ê "Preparing the FBU" on page 176 Ê "Installing the FBU holder onto the air duct" on page 178 9.5.4.
Expansion cards and backup units Ê "Switching on the server" on page 64 Ê If applicable, "Updating RAID controller firmware" on page 77. Ê "Enabling SVOM boot watchdog functionality" on page 82 9.6 Handling SFP+ transceiver modules For Fiber Channel over Ethernet (FCoE) configurations, the Ethernet server adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules. 9.6.
Expansion cards and backup units Ê Remove the SFP+ transceiver module from its protective packaging. Ê Remove the optical port plug from the new / additional SFP+ transceiver module. V CAUTION! – Always keep the protective port plugs attached to the transceiver optical bores and fiber-optic cable connectors until you are ready to make a connection. – Save the protective port plug for future use.
Expansion cards and backup units Inserting the SFP+ transceiver module Figure 94: Inserting the SFP+ transceiver module Ê Insert and slide the SFP+ transceiver module into the socket connector as far as it will go. I If only one slot is equipped with a SFP+ transceiver module, use the primary connector as shown.
Expansion cards and backup units Ê Carefully fold up and latch the locking bail. Figure 96: Attaching the protective optical port plug Ê If the SFP+ transceiver module is not immediately connected to an LC connector, attach the protective optical port plug to the transceiver optical bores.
Expansion cards and backup units Installing the secondary SFP+ transceiver module Figure 97: Installing the secondary SFP+ transceiver module Ê If applicable, install the secondary SFP+ transceiver module accordingly. 9.6.2 Removing an SFP+ transceiver module Upgrade and Repair Unit (URU) Tool: Hardware: 5 minutes tool-less For Fiber Channel over Ethernet (FCoE) configurations, the ethernet server adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules.
Expansion cards and backup units Figure 98: Removing the protective optical port plug Ê If present, remove the protective optical port plug from the SFP+ transceiver module. V CAUTION! Save the protective port plug for future use.
Expansion cards and backup units Figure 99: Unlatching the locking bail Ê Carefully unlatch and fold down the locking bail on the SFP+ transceiver module to eject the transceiver from the socket connector. Figure 100: Removing the SFP+ transceiver Ê Pull the SFP+ transceiver module out of its socket connector. Ê Reattach the protective optical port plug to the transceiver optical bores. I Place the removed SFP+ transceiver module in an antistatic bag or other protective environment.
Expansion cards and backup units 9.6.3 Replacing SFP+ transceiver modules Upgrade and Repair Unit (URU) Tool: Hardware: 5 minutes tool-less For Fiber Channel over Ethernet (FCoE) configurations, the ethernet server adapter is equipped with one or two SFP+ (small form-factor pluggable) transceiver modules. Removing SFP+ transceiver modules Ê Remove the defective SFP+ transceiver module(s) as described in section "Removing an SFP+ transceiver module" on page 190.
Expansion cards and backup units 194 Upgrade and Maintenance Manual RX2520 M1
10 Main memory Safety notes V CAUTION! ● Do not install unsupported third party memory modules. For further information on supported memory modules, refer to section "Basic information" on page 196. ● Memory modules remain hot after shutdown. Wait for components to cool down before installing or removing memory modules to prevent burns. ● Do not insert and remove memory modules repeatedly. Doing so may cause failures.
Main memory 10.1 Basic information DIMM 1A DIMM 2A DIMM 1B DIMM 2B DIMM 1C DIMM 2C DIMM 2F DIMM 1F DIMM 2E DIMM 1E DIMM 2D DIMM 1D Figure 101: Memory overview – The system board is equipped with 12 memory slots (6 connectors per CPU). – In mono processor configurations only 6 memory slots are usable. – The system has to be equipped with at least one memory module per processor.
Main memory 10.1.1 Memory sequence 10.1.1.1 Population rules – Populate memory slot 1 / channel A (DIMM 1A) first. – In case of dual processor configurations, populate memory slot 1 / channel D (DIMM 1D) second. – Within all channels, memory slot 1 must be populated prior to slot 2. (for all CPUs). – If memory modules with different ranks are used, always populate the higher number rank DIMM first (starting from slot 1).
Main memory 10.1.1.2 Independant Channel mode CPU Channel DIMM 1A #DIMMs 1 2 3 4 5 6 1 1 1 1 1 1 #DIMMs 2 3 4 5 6 7 8 9 10 11 12 1 1 1 1 1 1 1 1 1 1 1 A 2A CPU1 B 1B 2B C 1C D 2C 1D 2D CPU2 E 1E 2E F 1F 2F 6 6 6 6 6 6 6 12 mono CPU configuration 4 4 4 7 7 7 7 7 7 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 5 5 3 3 3 3 9 9 9 9 dual CPU configuration 2 2 2 5 2 5 2 5 2 5 2 8 5 2 8 5 2 8 5 11 2 8 5 11 2 8 6 4 4 4 4 4 4 4 4 4 10 10 10 10.1.1.
Main memory 10.2 Installing memory modules Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: tool-less 10.2.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 10.2.2 Installing a memory module Ê Identify the correct memory slot see section "Memory sequence" on page 197.
Main memory Figure 103: Installing memory modules (B) Ê Align the notch on the bottom of the module with the crossbar in the slot. Ê Press down on the memory module until the securing clips snap into the cutouts at each end of the module. 10.2.
Main memory 10.3 Removing memory modules Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: tool-less 10.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 10.3.
Main memory Figure 105: Removing memory modules (B) Ê Remove the ejected memory module. 10.3.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Updating or recovering the system board BIOS and iRMC" on page 73 Ê "Switching on the server" on page 64 Ê "Enabling SVOM boot watchdog functionality" on page 82 Ê "Enabling BitLocker functionality" on page 88 10.
Main memory Ê "Shutting down the server" on page 49. Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 10.4.2 Removing the defective memory module Ê Remove the defective memory module as described in section "Removing a memory module" on page 201. 10.4.3 Installing a new memory module Ê Install memory module as described in section "Installing a memory module" on page 199. 10.4.
Main memory 204 Upgrade and Maintenance Manual RX2520 M1
11 Processors Safety notes V CAUTION! ● Do not install unsupported processors. For further information on supported processors, refer to section "Basic information" on page 206. ● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs) ● Do not touch the circuitry on boards or soldered parts.
Processors 11.1 Basic information The system board D3169 offers two sockets for Intel Xeon processors. 11.1.1 Supported processors – Intel Xeon E5-2500 processor series CPUs – Socket type: LGA 2011 package – Thermal Design Power (TDP) class: up to 95 W 11.1.
Processors 11.2 Installing processors Upgrade and Repair Unit (URU) Tool: Hardware: 15 minutes Software: 5 minutes Phillips PH2 / (+) No. 2 screw driver V CAUTION! Processors are extremely sensitive to electrostatic discharge and must be handled with care. After a processor has been removed from its protective sleeve or from its socket, place it upside down on a nonconducting, antistatic surface. Never push a processor over a surface. 11.2.
Processors 11.2.2.1 Removing the protective cover Figure 107: Opening socket release lever Ê Unlatch the socket release lever by pushing it down and away from the socket (1) and then swivel it up (2)K Figure 108: Opening the load plate Ê Open the load plate of the processor socket. V CAUTION! Handle the locking frame carefully. In a vertical position, the small clip (see circle) can scratch the system board.
Processors Figure 109: Removing the protective cover Ê Remove the black protective cover from the processor socket. 11.2.2.2 Installing the new processor Figure 110: Installing the processor I Notice the coding! Ê Hold the processor with your thumb and index finger. Ê Place the new processor on the socket.
Processors I Make sure that the recesses on the processor are aligned with the corresponding markings on the socket. V CAUTION! – Ensure that the processor is level in the socket. – Be careful not to touch or bend the pins on the processor socket. – Never touch the underside of the processor. Even minor soiling such as grease from the skin can impair the processor’s operation or destroy the processor. – Ensure not to scrape or dent the processor edges.
Processors Figure 112: Closing the socket release lever Ê Close the socket release lever (1) and latch it under the load plate retention tab (2) to lock down the load plate. Ê If applicable, install the second processor accordingly. 11.2.
Processors 11.3 Removing processors Upgrade and Repair Unit (URU) Tool: Hardware: 15 minutes Software: 5 minutes Phillips PH2 / (+) No. 2 screw driver 11.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing processor heat sinks" on page 222 11.3.
Processors Figure 113: Opening socket release lever Ê Unlatch the socket release lever by pushing it down and away from the socket (1) and then swivel it up (2). Figure 114: Opening the load plate Ê Open the load plate of the processor socket. V CAUTION! Handle the locking frame carefully. In a vertical position, the small clip (see circle) can scratch the system board.
Processors Figure 115: Removing the processor Ê Carefully remove the defective processor from its socket in a vertical motion. V CAUTION! Be careful not to touch or bend the spring contacts on the processor socket. Ê Thoroughly clean residual thermal paste from the processor surface using a lint-free cloth. Ê Store the processor in a save place for later reuse. V CAUTION! Processors are extremely sensitive to electrostatic discharge and must be handled with care.
Processors 11.3.2.1 Installing the protective cover Figure 116: Attaching the protective socket cover Ê Carefully lower the protective socket cover onto the processor socket in a vertical motion until it snaps in place. I Notice the coding! Figure 117: Closing the load plate Ê Close the load plate of the processor.
Processors Figure 118: Close the socket release lever Ê Close the socket release (1) lever and latch it under the load plate retention tab to lock down the load plate (2). 11.3.
Processors V CAUTION! Processors are extremely sensitive to electrostatic discharge and must be handled with care. After a processor has been removed from its protective sleeve or from its socket, place it upside down on a nonconducting, antistatic surface. Never push a processor over a surface. 11.4.
Processors Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê If applicable, "Updating or recovering the system board BIOS and iRMC" on page 73 Ê "Switching on the server" on page 64 Ê "Enabling SVOM boot watchdog functionality" on page 82 Ê "Enabling BitLocker functionality" on page 88 218 Upgrade and Maintenance Manual RX2520 M1
Processors 11.5 Handling processor heat sinks Field Replaceable Unit (FRU) if thermal paste is involved Hardware: 15 minutes Upgrade and Repair Unit (URU) Tool: Phillips PH2 / (+) No. 2 screw driver 11.5.1 Preliminary steps Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 11.5.
Processors 11.5.2.1 Preparing the heat sink and processor When installing a new heat sink Figure 120: Removing the protective heat sink cover Ê Remove the protective cover from the heat sink. V CAUTION! Ensure not to touch the heat-conductive paste on the bottom of the heat sink. When reusing a heat sink Ê Ensure that all residual thermal paste has been thoroughly cleaned off the copper surface of the heat sink.
Processors 11.5.2.2 Installing the heat sink Figure 121: Installing the heat sink Ê Align the heat sink with the uncovered copper heat pipes (H, see above) facing towards the PSU. Ê Carefully seat the heat sink on the four threaded holes as shown (see closeup). V CAUTION! – Ensure that the screws on the heat sink are properly seated on the threaded holes.
Processors 11.5.3 Removing processor heat sinks Figure 122: Removing the processor heat sink (A) Ê Loosen the four captive screws on the heat sink in a crossover pattern (1-4).
Processors Figure 123: Removing the processor heat sink (B) Ê Carefully turn the heat sink back and forth to detach it from the processor (1). I This may be necessary due to the adhesive quality of the thermal paste located between the heat sink and processor. V CAUTION! Pay special attention not to damage any system board components surrounding the processor socket. Ê Lift the heat sink out of the chassis (2).
Processors 11.5.4.2 Applying thermal paste Ê Apply thermal paste to the processor surface as described in section "Applying thermal paste" on page 225. I If the processor upgrade or replacement kit contains a new CPU heat sink, a thin layer of thermal compound has already been pre-applied to its lower surface. In this case, please proceed with section "Installing the heat sink" on page 221. 11.5.4.
Processors 11.6 Applying thermal paste Field Replaceable Unit (FRU) Tool: Hardware: 5 minutes tool-less I– For the Japanese market, the service engineer must follow the instruction provided separately. – If the processor upgrade or replacement kit contains a new CPU heat sink, a thin layer of thermal compound has already been pre-applied to its lower surface. In this case, please proceed with section "Installing processor heat sinks" on page 219.
Processors Figure 125: Applying thermal paste Ê Apply a dot of thermal paste to the center of the processor surface as shown. I Two graduation marks on the syringe equal the correct amount of thermal paste for one processor. V CAUTION! Do not mix different types of thermal paste.
12 Accessible drives Safety notes V CAUTION! ● Before installing an accessible drive, acquaint yourself with the drive's user documentation. ● When inserting an accessible drive into the server, ensure not to pinch or strain any connected cables. ● When installing an accessible drive, hold it by its sides. Applying force to the top of the casing may cause failures. ● When disposing of, transferring, or returning a backup drive, ensure that all backup media has been removed from the drive.
Accessible drives 12.1 Basic informations Mounting order for accessible drives in the front panel cage PRIMERGY RX2520 M1 server offers one 5.25-inch accessible drive bays for optical disk drives and backup drives: Figure 126: Accessible drives in front panel cage No. Accessible drive Bay Max. no. 1 Local Service Display 3.5-inch bay 1 2 Optical disk drive 5.
Accessible drives Figure 128: Accessible drive (RDX) in HDD bay for 2.5-in HDD version 12.2 Installing a Local Service Display (LSD) module Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: tool-less 12.2.
Accessible drives 12.2.2 Removing the LSD dummy cover Figure 129: Removing the LSD dummy cover Ê Take the LSD dummy cover by the two recessed grips and pull out the LSD dummy cover. V CAUTION! Save the LSD dummy cover for future use. Always replace dummy covers into unused drive bays to comply with applicable EMC regulations and satisfy cooling requirements.
Accessible drives 12.2.3 Installing a LSD module Figure 130: Installing the LSD module Ê Insert the LSD module into the bay and push in until it locks in place. Figure 131: Installing the LSD module Ê Connect the LSD cable to the LSD module (1). Ê Connect the LSD cable to the connector SMB1 of the system board (2). Ê Route the LSD cable through the upper cable guide (3).
Accessible drives 12.2.4 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Enabling BitLocker functionality" on page 88 12.3 Removing a LSD module Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: tool-less 12.3.
Accessible drives 12.3.2 Removing the LSD module Figure 132: Removing the LSD cable Ê Remove the LSD cable from the LSD module (1) and the connector on the system board (2).
Accessible drives Figure 133: Unlocking the LSD module Ê Press in on the locking latch to disengage the LSD module. Figure 134: Unlocking the LSD module Ê Pull the LSD module out of the bay.
Accessible drives Figure 135: Insert the LSD dummy cover Ê Insert the LSD dummy cover into the bay. 12.3.3 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Enabling BitLocker functionality" on page 88 12.
Accessible drives 12.4.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 12.4.2 Removing the defective LSD module Ê "Removing the LSD module" on page 233 12.4.3 Installing the new LSD module Ê "Installing a LSD module" on page 231 12.4.
Accessible drives 12.5.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 12.5.2 Removing the ODD dummy module Figure 136: Removing the ODD dummy module Ê Pull the locking latch upward to unlock the ODD dummy module. V CAUTION! Save the ODD dummy module for future use.
Accessible drives Figure 137: Removing the dummy module Ê Pull the ODD dummy module out. 12.5.
Accessible drives Ê Take the ODD latch from its place on the bottom of the front panel module. I For the Japanese market: You can find the ODD latch in the delivered accessory kit. Figure 139: Installing the ODD latch Ê Mount the ODD latch to the ODD (1) and secure it with two screws (2).
Accessible drives 12.5.4 Installing an ODD Figure 140: Installing the ODD Ê Insert the ODD into the bay and push in until it locks in place.
Accessible drives Figure 141: Installing the ODD Ê Run the SATA and power cables through the ODD bay opening as shown. Ê Connect the power cable to the ODD (1). Ê Connect the SATA cable to the ODD (2). 12.5.
Accessible drives 12.6 Removing the optical disc drive (ODD) Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH0 / (+) No. 0 screw driver 12.6.1 Preliminary steps Ê Ask the system administrator to eject all remaining backup or optical media from the backup or optical disk drive before removing it from the server.
Accessible drives Ê Disconnect the SATA cable (1) and the power cable (2). Ê Pull the locking latch upward to unlock the ODD. Ê Push the ODD out of the bay. Figure 143: Removing the ODD latch Ê Remove the two screws (1). Ê Remove the ODD latch on the rear of the ODD (2). Ê Fix the ODD latch in the bottom of the front panel module see figure 138 on page 238.
Accessible drives Figure 144: Installing the ODD dummy module Ê Insert the ODD dummy module. 12.6.3 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Enabling BitLocker functionality" on page 88 12.7 Replacing an ODD Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH0 / (+) No.
Accessible drives 12.7.1 Preliminary steps Ê Ask the system administrator to eject all remaining backup or optical media from the backup or optical disk drive before removing it from the server. Ê "Disabling BitLocker functionality" on page 65 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 12.7.2 Removing the defective ODD Ê "Removing the ODD" on page 242 12.7.
Accessible drives 12.8 Installing a RDX drive in 2.5-inch version I Notes on RDX drive USB cabling: – A USB 2.0 RDX drive may be replaced by a USB 3.0 RDX drive with previous cabling. – A USB 3.0 RDX drive may be connected with a USB 2.0 cable to an onboard USB 2.0 connector with limited performance. – For full performance, connect the USB 3.0 RDX drive to a USB 3.0 interface card by USB 3.0 cable. – The USB 3.0 cable cannot be connected to a USB 2.0 RDX drive.
Accessible drives Figure 145: Inserting the RDX drive in the drive cage Ê Insert the RDX drive into the bay and push in. Figure 146: Fastening the RDX drive in the drive cage Ê Fasten the RDX drive with 4 screws in the drive cage.
Accessible drives 12.8.3 Installing the RDX drive Figure 147: Installing the RDX drive Ê Insert the RDX with the drive cage in the bay. Ê Insert the HDD cage in bay1 see "Installing a HDD cage" on page 139.
Accessible drives 12.8.4 Connecting the RDX drive 12.8.4.1 Connecting the RDX drive to the system board Figure 148: Connecting the cables to the RDX drive Ê Fasten the drive cage with the screw (1). Ê Connecting the power cable C5 to the RDX drive (2). Ê Connecting the USB cable C17 to the RDX drive (3). Ê Connect the USB cable C17 to the connector USB INT1 on the system board (4). Ê Route the cables as shown. 12.8.4.2 Connecting the RDX drive to the USB 3.0 interface card Ê Install the USB 3.
Accessible drives Figure 149: Installing the RDX drive cage Ê Fasten the drive cage with the screw. Figure 150: Connecting the USB cable to the USB 3.0 interface card Ê Connecting the power cable C5 to the RDX drive (1). Ê Connecting the USB cable C22 to the RDX drive (2). Ê Route the cables as shown. Ê Connect the USB cable C22 to the USB 3.0 interface card (3).
Accessible drives 12.8.5 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Verifying and configuring the backup software solution" on page 79 Ê "Enabling BitLocker functionality" on page 88 12.9 Removing a RDX drive in 2.5-inch version Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 12.9.
Accessible drives Figure 151: Removing the cables from the RDX drive Ê Removing the screw that fasten the drive cage(1). Ê Disconnecting the USB cable (2). Ê Disconnecting the power cable (3). Figure 152: Unlocking the drive cage Ê Remove the drive cage.
Accessible drives 12.9.
Accessible drives Figure 154: Installing tape drive dummy cover Ê Insert the tape drive dummy cover into the drive cage.
Accessible drives Ê Fasten the tape drive dummy module with 2 screws. Ê Insert the drive cage into bay 2, for further information see sectjon "Installing the RDX drive" on page 248. Ê Insert the HDD cage into bay 1, for further information see sectjon "Installing a HDD cage" on page 139. Ê If applicable, remove the USB 3.0 interface card as describe in section "Removing an expansion card" on page 165 12.9.
Accessible drives Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 12.10.2 Removing the defective RDX drive Ê "Removing the drive cage" on page 251 Ê "Removing a RDX drive out of the cage" on page 253 12.10.3 Installing the new RDX drive Ê "Installing a RDX drive in the cage" on page 246 Ê "Installing the RDX drive" on page 248 12.10.
Accessible drives 12.11.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 12.11.2 Removing the drive cage Ê Remove the screws on the rear side of the drive cage see also"Removing the drive cage" on page 264.
Accessible drives Figure 157: Removing the cover plate Ê Remove the cover plate. 12.11.
Accessible drives Ê Remove the four screws. Ê Pull out the tape drive dummy module. 12.11.4 Installing an LTO drive in the cage Figure 159: Inserting the LTOdrive Ê Insert the LTO drive into the bay and push in.
Accessible drives Figure 160: Fastening the LTO drive in the drive cage Ê Fasten the LTO drive with 4 screws in the drive cage using the upper screw holes.
Accessible drives Figure 161: Connecting the cover plate Ê Connect the cover plate to the LTO drive. 12.11.
Accessible drives Ê Push the LTO cage into the bay. Figure 163: Connecting the cables to the LTO Ê Fasten the drive cage with the screw (1). Ê Connect the cable to the LTO drive (2). Ê Connect the cable to the power cable (3). Ê Connect the cable to the system board (4) 12.11.
Accessible drives 12.12 Removing an LTO drive in 2.5-inch version Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 12.12.
Accessible drives 12.12.2 Removing the drive cage Figure 164: Unlocking the drive cage Ê Remove the screw that fixed the drive cage in the bay (1). Ê Remove the cable from the LTO drive (2). Figure 165: Removing the drive cage Ê Pull the drive cage out of the bay.
Accessible drives 12.12.3 Removing an LTO drive out of the cage Figure 166: Removing the cover plate Ê Remove the cover plate from the drive cage.
Accessible drives Ê Remove the four screws. Figure 168: Removing the LTO drive Ê Pull the LTO drive out.
Accessible drives 12.12.4 Installing the tape drive dummy module Figure 169: Installing the tape drive dummy module (A) Ê Push the tape drive dummy module into the drive cage.
Accessible drives Ê Fasten the tape drive dummy module in the drive cage with 4 screws. Figure 171: Installing the cover plate Ê Fasten the cover plate.
Accessible drives Ê Push the drive cage in. Ê Fasten the drive cage with the screw see also "Installing the LTO cage" on page 261. 12.12.
Accessible drives 12.13 Replacing the LTO drive in 2.5-inch version Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 12.13.
Accessible drives Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Verifying and configuring the backup software solution" on page 79 Ê "Enabling BitLocker functionality" on page 88 RX2520 M1 Upgrade and Maintenance Manual 271
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13 Front panel and external connectors Safety notes V CAUTION! ● When inserting the front panel module into the server, ensure not to pinch or strain any connected cables. ● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs) ● Do not touch the circuitry on boards or soldered parts.
Front panel and external connectors To avoid the loss of non-default settings when replacing the system board, a backup copy of important system configuration data is automatically stored from the system board NVRAM to the Chassis ID EPROM. After replacing the system board the backup data is restored from the Chassis ID board to the new system board.
Front panel and external connectors 13.1.1.2 Removing the front panel module Figure 173: Disconnecting the front panel cable Ê Disconnect the front panel cable from the system board (1). Ê If applicable, disconnect the front VGA cable from the system board see section "Removing the front VGA cable" on page 282. Ê Push the locking latches upward (2) to disengage the locking mechanism. Ê Carefully pull the front panel module out of its bay (3).
Front panel and external connectors Figure 174: Connecting the front panel cable to the front panel module Ê Connect the front panel cable to the new front panel module as shown. Figure 175: Connecting the front panel cable Ê Insert the front panel module into the front panel cage and carefully push in until it locks in place.
Front panel and external connectors Figure 176: Connecting front panel cables Ê Connect the front panel cable to the system board. Ê Run the front panel cable through the cable clamps as shown. Ê If applicable, connect the front VGA cable to the front VGA connector of the system board as described in section "Installing the front VGA connector" on page 278. 13.1.1.
Front panel and external connectors Ê "Enabling SVOM boot watchdog functionality" on page 82 Ê "Enabling BitLocker functionality" on page 88 13.2 Front VGA connector 13.2.1 Installing the front VGA connector Field Replaceable Unit (FRU) Hardware: 10 minutes Tools: Socket screw driver (5 mm) Wrench key for UNC #4-40 hexagon bolts 13.2.1.
Front panel and external connectors 13.2.1.3 Preparing the front panel module Figure 177: Breaking out the front VGA cover plate Ê Break out the VGA cover plate on the front panel cover. I Please note that once removed, the VGA cover plate cannot be refitted. 13.2.1.4 Installing the front VGA connector Figure 178: Front VAG cable Ê Remove the two hexagon bolts from the connector.
Front panel and external connectors Figure 179: Mounting the front VGA connector Ê Insert the front VGA connector with the longer connector side to the left. Ê Fasten the front VGA connector in the front panel module with two hexagon bolts. 13.2.1.
Front panel and external connectors Figure 180: Connecting front panel cables Ê Connect the front VGA cable to the system board. Ê Run the front VGA cable through the cable clamps as shown. 13.2.1.
Front panel and external connectors 13.2.2 Removing the front VGA connector Field Replaceable Unit (FRU) Hardware: 10 minutes Tools: Socket screw driver (5 mm) Wrench key for UNC #4-40 hexagon bolts 13.2.2.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 13.2.2.
Front panel and external connectors 13.2.2.3 Removing the front VGA connector Figure 182: Removing front VGA connector from the front panel module Ê Remove two hexagon bolts. Ê Push the VGA connector out of the front panel module. 13.2.2.4 Re-installing the front panel module Ê "Installing the front panel module" on page 275 13.2.2.
Front panel and external connectors 13.2.3 Replacing the front VGA connector Field Replaceable Unit (FRU) Hardware: 15 minutes Tools: Socket screw driver (5 mm) Wrench key for UNC #4-40 hexagon bolts 13.2.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 13.2.3.
Front panel and external connectors Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling BitLocker functionality" on page 88 13.3 Front cage 13.3.1 Replacing the front panel cage Upgrade and Repair Unit (URU) Hardware: 10 minutes Tools: Phillips PH2 / (+) No. 2 screw driver 13.3.1.
Front panel and external connectors Multicage Figure 183: Removing the multicage Ê Remove the two screws. Ê Push the multicage out of the chassis frontward. Ê Remove the installed modules.
Front panel and external connectors Panelhousing Figure 184: Removing the panelhousing Ê Remove the screw. Ê Push the panelhousing out of the chassis frontward. Ê "Removing the front panel module" on page 275 13.3.1.3 Re-installing the front panel cage Multicage Ê Install the removed modules.
Front panel and external connectors Figure 185: Inserting the front panel cage Ê Insert the front panel cage. Ê Fasten the front panel cage with two screws Panelhousing Ê "Installing the front panel module" on page 275 Figure 186: Inserting the front panel cage Ê Insert the front panel cage. Ê Fasten the front panel cage with the screw.
Front panel and external connectors 13.3.1.4 Concluding steps Ê Connect all cables from the modules that are installed in the front panel cage.
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14 System board and components Safety notes V CAUTION! ● Devices and components inside the server remain hot after shutdown. After shutting down the server, wait for hot components to cool down before installing or removing internal options. ● Circuit boards and soldered parts of internal options are exposed and can be damaged by static electricity. Always discharge static build-up (e.g. by touching a grounded object) before handling electrostaticsensitive devices (ESDs).
System board and components The onboard SAS enabling key enables the SAS functionality of the Onboard controller. 14.2 Replacing the CMOS battery Upgrade and Repair Unit (URU) Hardware: 5 minutes Tools: tool-less; recommended: tooth pick Safety notes V CAUTION! ● The CMOS battery must be replaced with an identical battery or with a battery type recommended by the manufacturer. ● Keep lithium batteries away from children. ● Do not throw batteries into the trash can.
System board and components 14.2.2 Removing the battery Figure 187: Replacing the CMOS battery Ê Press out on the locking spring to eject the depleted CMOS battery (1). Ê If the CMOS battery cannot be ejected this way, use a toothpick (recommended) or similar tool as a lever: Insert the toothpick between the battery and locking spring as shown (2). V CAUTION! Do not use sharp-edged tools like screw drivers as they may damage system board components when slipping.
System board and components 14.2.3 Installing the CMOS battery Figure 188: Installing the CMOS battery Ê At a slight angle, fit the new CMOS battery into its socket as shown (1). V CAUTION! Ensure to insert the CMOS battery with the positive pole (label side) facing up as shown (see close-up). Ê Fold down the CMOS battery (2) until it locks in place. Ê Ensure that the locking spring (3) is properly engaged. 14.2.
System board and components Ê "Switching on the server" on page 64 Ê "Verifying system information backup / restore" on page 75 Ê "Verifying the system time settings" on page 84 14.3 USB Flash Module (UFM) This section provides information on how to install, remove or replace the USB Flash Module (UFM). 14.3.1 Installing the UFM Field Replaceable Unit (FRU) Hardware: 5 minutes Software: 5 minutes Tools: tool-less 14.3.1.
System board and components 14.3.1.
System board and components Figure 191: Installing the UFM Ê Connect the UFM to the system board, snapping in the UFM spacer. 14.3.1.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling SVOM boot watchdog functionality" on page 82 Ê "Enabling BitLocker functionality" on page 88 14.3.1.4 Software configuration The UFM delivery set includes the "Recovery Tool CD" to setup the ESXi configuration.
System board and components Ê The server should now boot from the "Recovery Tool CD". Ê Follow the on-screen instructions. 14.3.2 Removing the UFM Field Replaceable Unit (FRU) Hardware: 5 minutes Tools: Phillips PH0 / (+) No. 0 screw driver 14.3.2.
System board and components 14.3.2.2 Removing the UFM Figure 192: Removing the UFM (A) Ê Remove the nylon screw on the defective UFM (1). Ê Disconnect and remove the defective UFM (2). Ê The UFM spacer remains on the system board. 14.3.2.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling BitLocker functionality" on page 88 14.3.
System board and components Tools: – Phillips PH0 / (+) No. 0 screw driver – combination pliers and flat nose pliers 14.3.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 14.3.3.
System board and components Ê Remove the UFM spacer (2). Figure 194: Installing the UFM (B) Ê Fit the new UFM on the UFM connector and the remaining UFM spacer (1). Ê Secure the UFM to the UFM spacer with the nylon screw (2). Destroying the defective UFM V CAUTION! The UFM contains customer information (e.g. IP address, license numbers). After replacing the UFM, hand the defective UFM over to the customer.
System board and components Figure 195: Destroying the defective UFM Ê Use a pair of combination pliers (1) and flat nose pliers (2) to break the UFM in half as shown.
System board and components 14.3.3.4 Concluding steps Ê "Installing the air duct" on page 57 Ê "Mounting the housing cover" on page 59 Ê "Sliding the server into the rack" on page 62 If the server has been completely removed from the rack for maintenance purposes, reinstall and secure it in the rack as described in section "Mounting the server in the rack" on page 59.
System board and components 14.4 Trusted Platform Module (TPM) 14.4.1 Installing the TPM Upgrade and Repair Unit (URU) Hardware: 5 minutes Software: 5 minutes Tools: Phillips PH2 / (+) No. 2 screw driver Installing the TPM: – Bit screw driver – TPM bit insert (*) (*) For the Japanese market: – TPM module fixing tool (S26361-F3552-L909) 14.4.1.
System board and components 14.4.1.2 Installing the TPM Figure 196: TPM kit 1 TPM (Trusted Platform Module) 3 Special screw for TPM 2 TPM spacer 4 TPM bit insert for TPM special screw 2 Cut-out for TPM spacer I The black TPM spacer is not used in this server.
System board and components Figure 198: Installing the TPM spacer Ê Snap the TPM spacer into the cut-out in the system board. Figure 199: TPM bit insert Ê Attach the TPM bit insert or TPM module fixing tool (Japanese market) to a bit screw driver.
System board and components Figure 200: Securing the TPM Ê Connect the new TPM to the system board. Ê Secure the TPM with the TPM screw using the TPM bit insert. I Do not fasten the screw too firmly. Stop as soon as the head of the screw lightly touches the TPM. 14.4.1.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê Enable TPM in the system board BIOS. Proceed as follows: Ê Switch on or restart your server.
System board and components Ê Set the TPM Support and TPM State settings to Enabled. Ê Under Pending TPM operation, select the desired TPM operation mode. Ê Save your changes and exit the BIOS. I For detailed information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utilty reference manual available online at http://jp.fujitsu.com/platform/server/primergy/manual/.
System board and components 14.4.2 Removing the TPM Field Replaceable Unit (FRU) Hardware: 30 minutes Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screw driver Removing the TPM: – flat nose pliers – thin slotted screw driver (2 x 0.4 mm) (*) (*) For the Japanese market: – Dedicated TPM screw driver (CWZ8291A) V CAUTION! Advise your contact persons that they must provide you with TPM backup copies. For security reasons, the TPM must be restored/resaved by the customer.
System board and components 14.4.2.1 Preliminary steps Ê Before removing the TPM, it is necessary to remove BitLocker-protection from the computer and to decrypt the volume. Ask the system administrator to turn off BitLocker-protection using the BitLocker setup wizard available either from the Control Panel or Windows Explorer: Ê Open Bitlocker Drive Encryption by clicking the Start button, clicking Control Panel, clicking Security, and then clicking Bitlocker Drive Encryption.
System board and components Ê Save your changes and exit the BIOS. I For detailed information on how to access the BIOS and modify settings, refer to the corresponding BIOS Setup Utilty reference manual available online at (http://jp.fujitsu.com/platform/server/primergy/manual/. Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 14.4.2.
System board and components Ê Carefully loosen the TPM screw using a thin slotted screw driver (e.g. watchmaker's screw driver) or the dedicated TPM screw driver (Japanese market) (2). V CAUTION! Ensure to turn the screw clockwise in order to remove it! Slowly and carefully increase the pressure on the screw until it begins to turn. The effort when loosing the screw should be as low as possible. Otherwise the thin metal bar may break, rendering it impossible to loosen the screw. Ê Remove the TPM screw.
System board and components 14.4.2.3 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 14.4.3 Replacing the TPM Field Replaceable Unit (FRU) Hardware: 40 minutes Tools: Removing the system board: – Phillips PH2 / (+) No. 2 screw driver Replacing the TPM: – – – – (*) Bit screw driver TPM bit insert (*) flat nose pliers thin slotted screw driver (2 x 0.
System board and components Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 Ê "Removing the fan box" on page 144 14.4.3.2 Removing the TPM Ê "Removing the TPM" on page 309 Ê Leave the TPM spacer on the system board when removing the defective TPM. 14.4.3.3 Re-installing the TPM Figure 203: TPM spacer Ê The TPM spacer is already present on the system board.
System board and components 14.4.3.4 Concluding steps Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling BitLocker functionality" on page 88 14.5 Onboard SAS enabling key I The onboard SAS enabling key needs to be installed in order to enable SAS connector SAS 1-4 on the system board. 14.5.
System board and components 14.5.1.2 Installing the onboard SAS enabling key Figure 204: onboard SAS enabling key Ê Locate the onboard SAS enabling key mounting location on the system board. Figure 205: Onboard SAS enabling key mounting location Ê Connect the onboard SAS enabling key to system board connector "SKU key".
System board and components 14.5.1.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling BitLocker functionality" on page 88. 14.5.2 Removing the onboard SAS enabling key Field Replaceable Unit (FRU) Hardware: 5 minutes Tools: tool-less 14.5.2.
System board and components 14.5.2.2 Removing onboard SAS enabling key Figure 206: onboard SAS enabling key mounting location Ê Firmly pull up on the release lash until the onboard SAS enabling key pops out of its connector. 14.5.2.3 Concluding steps Ê "Reassembling" on page 57 Ê "Connecting the server to the power source" on page 62 Ê "Switching on the server" on page 64 Ê "Enabling BitLocker functionality" on page 88. 14.5.
System board and components 14.5.3.1 Preliminary steps Ê "Disabling BitLocker functionality" on page 65 Ê "Locating the defective server" on page 47. Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê "Getting access to the component" on page 51 14.5.3.2 Replacing the onboard SAS enabling key Ê "Removing onboard SAS enabling key" on page 318 Ê "Installing the onboard SAS enabling key" on page 316 14.5.3.3 Concluding steps Ê "Reassembling" on page 57.
System board and components Tools: Replacing the system board: – Phillips PH2 / (+) No. 2 screw driver – Magnifying glass for inspecting processor socket springs (recommended) Replacing the TPM: – Bit screw driver – TPM bit insert (*) – thin slotted screw driver (2 x 0.4 mm) (*) ( ) * For the Japanese market: – Dedicated TPM screw driver (CWZ8291A) – TPM module fixing tool (S26361-F3552-L909) If a UFM is installed: – Phillips PH1 / (+) No.
System board and components If the contact persons DO NOT have a backup copy available, inform them that replacing the TPM will cause to lose all data. Note on system information backup / restore I The front panel module contains the Chassis ID EPROM that contains system information like server name and model, housing type, serial number and manufacturing data.
System board and components 14.6.1 Preliminary steps Ê "Note on network settings recovery" on page 321 Ê "Disabling BitLocker functionality" on page 65 Ê "Disabling SVOM boot watchdog functionality" on page 66 Ê "Locating the defective server" on page 47 Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê Disconnect all external cables.
System board and components 14.6.2 Removing the defective system board Ê Remove all cables from the system board. Ê Remove the following components from the system board as shown in the related sections: – Heat sink: see section "Removing processor heat sinks" on page 222 I Leave the processor on the defective board for now. – Memory modules: see section "Removing memory modules" on page 201 I Ensure to take note of the memory modules’ mounting positions for reassembly.
System board and components Figure 207: Detaching the system board Ê Remove 11 screws from the system board (see circles). I If there was an SAS RAID controller installed the screw (1) is already removed.
System board and components Figure 208: Removing the system board Ê Slightly lift up the system board by the memory module ejectors and a PCI slot in order to detach it from the centering bolts (C). Ê Carefully shift the system board towards the server front until the plug shells disengage from the cut-outs in the connector panel (1). Ê Hold the defective system board by the memory module ejectors and a PCI slot and at a slight angle lift it out of the chassis.
System board and components 14.6.3 Installing the system board 14.6.3.1 Mounting the system board Figure 209: Installing the system board Ê Hold the new system board by the memory module ejectors and a PCI slot. V CAUTION! – Do not lift or handle the system board by any of its heat sinks! – Ensure not to damage the EMI springs to comply with applicable EMC regulations and satisfy cooling requirements and fire protection measures. Ê At a slight angle, lower the system board into the chassis.
System board and components Figure 210: Securing the system board Ê Secure the system board with 11 screws (M3 x 6 mm, C26192-Y10-C68) (see circles). I If you want to install a SAS RAID controller, do not insert the screw markt with (1). I Screw torque: 0.6 Nm (not applicable for the Japanese market) Tighten the screws in a cross diagonal pattern. Ê Verify the settings on the new system board (see figure "Onboard settings" on page 358). 14.6.3.
System board and components Removing processors from the defective system board Ê Carefully remove the processors from their sockets on the defective system board as described in "Removing a processor" on page 212. V Remove and reinstall one processor at a time. Do not remove the second processor from the defective system board until the first processor has been installed on the new system board. Installing processors on the new system board Ê "Installing the processor" on page 207.
System board and components – UFM: install the UFM spacer to the system board and install the UFM see section "Installing the UFM" on page 295 – TPM (if applicable): see section "Installing the TPM" on page 304 Ê "Installing the power backplane" on page 110 Ê "Installing the fan box" on page 146 Ê "Reassembling" on page 57 Ê If applicable, activate TPM functionality in the system BIOS under Security > TPM (Security Chip) Setting > Security Chip.
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15 Cables This chapter provides information on how to connect, disconnect and route cables. Safety notes V CAUTION! ● Always hold cables by their connectors when disconnecting them. Never pull on the cable to disconnect cables. ● Ensure that none of the cables are scraped, strained or otherwise damaged while replacing system components. ● Immediately replace cables with damaged shielding. ● Always use shielded network cables. 15.
Cables Configuration No Name Cable number Routing C7 CBL SAS 2XMINI 110 T26139Y3963-V111 4x 2.5-inch SAS BP to 12x2.5inch SAS BP C8 CBL SAS 2XMINI 320 T26139SAS BP to SAS Y3963-V101 controller C9 CBL SAS 2XMINI 470 T261392.5-inch SAS BP Y3963-V103 to SAS controller CBL SAS C10 2XMIN 540 2.5-inch SAS BP to SAS on T26139system Y3963-V116 board/SAS controller CBL SAS C11 2XMIN 650 4x2.
Cables No Name C22 CBL USB3.0A N 0,8M Cable number Routing T26139Y4039-A80 USB3.0 cable for RDX3.
Cables 15.2 Cabling plans 15.2.1 Configuration 2 4x 2.5-inch HDD model with onboard SAS/SATA controller Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 (opt.) PWR PWR CTRL C12 P W R C5 SAS BP D3169 SB X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 C4 PWR HDD/ODD2 SMB 4 USB INT 1 SAS 1-4 C10 Figure 211: Cabling - 4x 2.
Cables 4x 2.5-inch HDD model with SAS controller Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 (opt.) PWR PWR CTRL C12 P W R C5 SAS BP SB D3169 X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 C4 PWR HDD/ODD2 SMB 4 USB INT 1 SAS 1-4 SAS C10 MLC1 MLC2 Controller ler 1 MLC1 FBU C21 FBU Figure 212: Cabling - 4x 2.
Cables 15.2.2 Configuration 3 4x 2.5-inch HDD model with LTO drive Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 (opt.) PWR P W R PWR CTRL C12 C5 SAS BP SB D3169 X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 PWR HDD/ODD2 SMB 4 C4 C18 SAS 1-4 SAS LTO C10 USB INT 1 SAS/PWR ((opt.) MLC1 MLC2 Controller ler 1 MLC1 FBU C21 FBU Figure 213: Cabling - 4x 2.
Cables 15.2.3 Configuration 4 8x 2.5-inch HDD model Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 C15 Data ODD (opt.) PWR P W R PWR CTRL C12 C5 SAS BP SB D3169 X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 C4 PWR HDD/ODD2 SMB 4 USB INT 1 SAS 1-4 SAS SAS BP C10 X9 4 x 2.5“ C9 MLC1 MLC2 X6 Controller ler 1 MLC1 FBU X1 C21 FBU Figure 214: Cabling - 8x 2.
Cables 15.2.4 Configuration 5 8x 2.5-inch HDD model with optional RDX drive via onboard contr. (USB2.0) Power Backpll P W R C T R L P W R Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 PWR (opt.) P W R PWR CTRL C12 C5 SAS BP SB D3169 X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 PWR HDD/ODD2 SMB 4 USB INT 1 SAS 1-4 C4 RDX C17 PWR SAS Controller ler 1 MLC2 (opt.) ( Data MLC1 C10 FBU SAS BP X9 C21 4 x 2.
Cables 8x2.5-inch HDD model with optional RDX drive via interface card (USB 3.0) Power Backpll P W R C T R L P W R Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 PWR (opt.) C12 PWR CTRL P W R C5 SAS BP SB D3169 X9 Frontpanel 4 x 2.5“ Front VGA X6 SMB 1 X1 SATA 2 PWR HDD/ODD1 PWR HDD/ODD2 SMB 4 C4 RDX3.0 PWR USB INT 1 SAS 1-4 USB3.0 Controller USB3.0 SAS MLC1 ((opt.) Data C22 SAS BP Controller ler 1 MLC2 X9 C10 4 x 2.
Cables 15.2.5 Configuration 6 8x 2.5-inch HDD model with LTO tape drive Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 SAS BP C14 C1 X9 4 x 2.5“ X6 X1 PWR CTRL P W R C5 SB D3169 C11 Frontpanel SAS BP X9 4 x 2.5“ Front VGA X6 SMB 1 SATA 2 PWR HDD/ODD1 X1 C4 PWR HDD/ODD2 SMB 4 USB INT 1 C18 SAS 1-4 MLC1 SAS C10 MLC2 LTO (opt.) SAS/PWR Controller ler 1 MLC1 FBU C21 FBU Figure 217: Cabling - 8x 2.
Cables 15.2.6 Configuration 7 12x 2.5-inch HDD model Power Backpll P W R P W R C T R L Frontpanel + 2x USB Front VGA (optional) C6 C2 LSD C14 (opt.) C1 ODD Data C15 PWR (opt.) P W R PWR CTRL C12 C5 SAS BP SB D3169 12 x2.5“ Frontpanel X3 Front VGA SMB 1 X17 SATA 2 X15 PWR HDD/ODD1 C4 PWR HDD/ODD2 SMB 4 X1 USB INT 1 SAS X2 C9 SAS 1-4 C9 MLC1 MLC2 Controller ler 1 MLC1 FBU C21 FBU Figure 218: Cabling - 12x2.
Cables 15.2.7 Configuration 8 16x 2.5-inch HDD model Power Backpll P W R C T R L P W R Frontpanel + 2x USB Front VGA (optional) C6 C2 SAS BP C14 C1 4 x 2.5“ X9 X6 X1 PWR CTRL P W R 1 C7 SB D3169 SAS BP 12 x2.5“ Frontpanel X3 Front VGA X17 SMB 1 X15 SATA 2 SMB 4 PWR HDD/ODD1 PWR HDD/ODD2 C4 X1 USB INT 1 C9 SATA 1-4 SAS Controller er X2 C9 MLC1 MLC2 1 MLC1 FBU C21 FBU Figure 219: Cabling - 16x 2.
16 Appendix 16.1 Mechanical overview 16.1.1 Server front Figure 220: Server front side Pos.
Appendix 16.1.2 Server rear Figure 221: PRIMERGY RX2520 M1 rear Pos.
Appendix 16.1.3 Server interior Figure 222: PRIMERGY RX2520 M1 interior (example: 2.5-inch HDD model) Pos.
Appendix 16.2 Configuration tables 16.2.1 Hard disk drives / solid state drives mounting order Please refer to chapter "Hard disk drives / solid state drives" on page 115. 16.2.2 Memory board configuration table Please refer to chapter "Main memory" on page 195. 16.2.
Appendix 16.3 Connectors and indicators 16.3.1 Connectors and indicators on the system board 16.3.1.1 Onboard connectors USB INT1 Slot 6* PCIe x8 (mech. x8) PWR Slot 5* PCIe x8 (mech.
Appendix No. Print Description 1 PWR CTRL Power management connector 2 PWR ATX power supply connector 3 PWR HDD/ODD 1 left backplane 4 PWR HDD/ODD 2 right backplane 5 Front VGA Front panel VGA connector 6 SMB 1 LSD module 7 Frontpanel Front panel connector (2.5-inch version) 8 USB INT 1 / 2 USB 2.0 connectors for USB backup drives 9 Frontpanel Front panel connector (3.
Appendix 16.3.1.2 Onboard indicators and controls USB INT1 Slot 6* PCIe x8 (mech. x8) PWR Slot 5* PCIe x8 (mech.
Appendix Indicator B C Status off CSS yellow on (Customer Self yellow Service) flashing GEL (Global Error LED) Description no critical event (CSS component) prefailure detected (CSS component) CSS component failure off no critical event (non CSS component) orange on prefailure detected (non CSS component) non CSS component failure Possible reasons: orange flashing – – – – sensor reports overheating sensor is defective CPU error software reports an error F Standby power yellow on voltage ok
Appendix 1 Video connector (blue) 4 Shared LAN connector (LAN 1) 2 Management LAN connector 5 Serial connector COM1(turquoise) 3 Standard LAN connector (LAN 2) 6 4 USB connectors (black) Depending on BIOS settings, the shared LAN connector may also be used as a management LAN connector. For further information, please refer to the corresponding BIOS Setup Utility reference manual. The serial connector COM1 can be used as default interface or to communicate with the iRMC S4.
Appendix Indicator Global error indicator 3 CSS indicator ID indicator Status Description off no critical event (non CSS component) orange on prefailure detected (non CSS component) orange flashing non CSS component failure off no critical event (CSS component) yellow on prefailure detected (CSS component) yellow flashing CSS component failure blue on server has been highlighted using ServerView Operations Manager, iRMC web frontend or the ID button on the front panel for easy identific
Appendix 16.3.3 Connectors and indicators on the front panel 16.3.3.
Appendix 16.3.3.
Appendix Local diagnostic indicators Pos.
Appendix Pos.
Appendix Buttons Pos. Button 4 Function This button highlights the ID indicator on the front and I/O panels for easy server identification. ID button This button is used to reboot the system. It can be pressed using the end of a paper clip. 2 Reset button V CAUTION! Risk of data loss! This button is used to troubleshoot software and device driver errors. It can be pressed using the end of a paper clip.
Appendix 16.4 Onboard settings USB INT1 Slot 6* PCIe x8 (mech. x8) PWR Slot 5* PCIe x8 (mech.
Appendix Setting Status Description Default: Password delete and Recovery BIOS options disabled Password skip enabled 1 JP1 Password Skip/Recovery BIOS This jumper setting will permanently delete the current BIOS password and apply default BIOS settings. Recovery BIOS enabled Default 2 BIOS- Flash Write WP Protect Flash Write Protect enabled Default 3 JP8 Flash Security Disable Flash security disabled 16.
Appendix Component Notes System board no TPM, UFM or expansion cards installed CPU with CPU heat sink 1 memory module installed in DIMM slot 1A Front panel module Power supply unit Table 9: Minimum startup configuration - components Cable Notes Front panel cable Power cable Table 10: Minimum startup configuration - cables Ê "Shutting down the server" on page 49 Ê "Disconnecting power cords" on page 50 Ê Take the system down to its minimum startup configuration.
