INTEL SR1400 - Server

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Product Type Server Chassis
Model Intel Server Chassis SR1400
Dimensions (H x W x D) 1.703 x 16.930 x 26.457 inches
Weight (base chassis) 31 lbs
Power Supply One 500W power supply (DPS500)
Hard Drive Support Up to 3 fixed or hot-swap SATA/SCSI drives
Peripheral Bays Slimline bay for CD/DVD-ROM or floppy drive; optional floppy conversion kit
PCI Expansion Full-height PCI-X or PCI-Express riser connector (choose one)
Control Panel Options Standard Control Panel or Intel Local Control Panel (with LCD)
Cooling Fans Four 40x40x56mm dual-rotor fans, one 40x40x28mm single rotor fan, plus two in power supply
System Security Lockable front bezel (optional), chassis intrusion switch, lock attach point for cover
Front I/O (Standard Control Panel) 1 USB 2.0 port, 1 video port, NIC activity LEDs, system ID button
Front I/O (Local Control Panel) 2 USB 2.0 ports, LCD display, menu buttons, NIC and HDD activity LEDs
Back I/O 2 USB ports, 1 video port, I/O ports depend on server board
Operating Temperature 10° to 35°C (derated 0.5°C per 1000 ft above 305 m)
Non-Operating Temperature -40° to 70°C
Humidity (non-operating) 90% relative humidity at 30°C
Acoustic Noise 7 Bels typical at office ambient temperature
ESD Protection Tested to 15 kV; no component damage
Regulatory Compliance UL, CE, FCC Class A, VCCI, BSMI, GS, GOST R, etc.
Rack Mounting Tool-less or fixed rail kits (optional)
Compatible Server Boards Intel Server Boards SE7520JR2, SE7320VP2, SE7221BK1; integrated SR1400JR2 system

Frequently Asked Questions - SR1400 INTEL

What are the dimensions and weight of the Intel Server Chassis SR1400?
The chassis measures 1.703 inches high, 16.930 inches wide, and 26.457 inches deep. The base chassis weight is 31 lbs.
How many hard drives can be installed and what types are supported?
Up to three hard drives can be installed. Options include hot-swap SCSI, hot-swap SATA, or fixed SATA drives. A backplane or fixed drive kit is required depending on the choice.
Can I install a floppy drive and a CD/DVD-ROM drive simultaneously?
It depends. If using the slimline bay, you can install either a floppy or a CD/DVD-ROM drive, but not both unless you purchase the optional conversion kit to use a hard drive bay for the floppy drive.
What power supply does the SR1400 use?
It comes with a single 500W power supply (model DPS500). The power supply contains no user-serviceable parts; refer servicing to qualified personnel.
How do I remove the chassis cover?
First, power down the server and unplug all cables. Remove the shipping screw if present. While holding the blue button on top, slide the cover back until it stops, then lift it upward.
Is the server chassis hot-swappable for drives?
Only hot-swap SATA or SCSI drives are hot-swappable if a backplane is installed. Fixed SATA drives, floppy drives, and CD/DVD-ROM drives are not hot-swappable; the system must be powered off before installation or removal.
What control panel options are available?
Two options: the Standard Control Panel (with LEDs, USB, video port) and the Intel Local Control Panel (with LCD display, additional USB ports, requires Intel Management Module). You must choose one when ordering.
Can the SR1400 be mounted in a rack?
Yes, it is designed for rack mounting. Optional tool-less rail kit (AXXHERAIL) or fixed rail kit (AXXBRACKETS) are available. A cable management arm (AXXRACKCARM) is also optional.
What is the operating temperature range for this chassis?
The operating temperature is 10° to 35°C, derated by 0.5°C for every 1000 ft (305 m) above sea level to a maximum altitude of 10,000 ft.
What safety precautions should I take before opening the chassis?
Turn off all peripherals, press the power button, unplug all AC power cords, label and disconnect cables, wear an antistatic wrist strap attached to an unpainted metal surface, and do not operate with covers removed.

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USER MANUAL SR1400 INTEL

Intel® Server Chassis SR1400 User Guide

Order Number: C51492-002

Disclaimer

Information in this document is provided in connection with Intel ^® products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel's Terms and Conditions of Sale for such products, Intel assumes no liability whatsoever, and Intel disclaims any express or implied warranty, relating to sale and/or use of Intel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. Intel products are not designed, intended or authorized for use in any medical, life saving, or life sustaining applications or for any other application in which the failure of the Intel product could create a situation where personal injury or death may occur. Intel may make changes to specifications and product descriptions at any time, without notice.

Intel server boards contain a number of high-density VLSI and power delivery components that need adequate airflow for cooling. Intel's own chassis are designed and tested to meet the intended thermal requirements of these components when the fully integrated system is used together. It is the responsibility of the system integrator that chooses not to use Intel developed server building blocks to consult vendor datasheets and operating parameters to determine the amount of airflow required for their specific application and environmental conditions. Intel Corporation can not be held responsible if components fail or the server board does not operate correctly when used outside any of their published operating or non-operating limits.

Intel, Intel Pentium, and Intel Xeon are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries.

* Other names and brands may be claimed as the property of others.

Copyright © 2004-2005, Intel Corporation. All Rights Reserved

About this Manual

Thank you for purchasing and using the Intel® Server Chassis SR1400.

This manual is written for system technicians who are responsible for troubleshooting, upgrading, and repairing this server chassis. This document provides a brief overview of the features of the board/chassis, a list of accessories or other components you may need, troubleshooting information, and instructions on how to add and replace components on the Intel Server Chassis SR1400. For the latest version of this manual, see

http://support.intel.com/support/motherboards/server/chassis/SR1400/manual.htm.

Manual Organization

Chapter 1 provides a brief overview of the Intel Server Chassis SR1400. In this chapter, you will find a list of the server chassis features, pictures of the product, and product diagrams to help you identify components and their locations.

Chapter 2 provides instructions on adding and replacing components. Use this chapter for step-by-step instructions and diagrams for installing or replacing components such as the fans, power supply, drives, and other components.

At the back of this book, you will find some technical specifications ^1 , regulatory information, “getting help” information, and the warranty.

Product Contents, Order Options, and Accessories

The server chassis SR1400 is compatible with the following Intel® Server Boards and Systems:

Intel® Server Board SE7520JR2
Intel® Server Board SE7320VP2
Intel® Server Board SE7221BK1
Intel® Server Platform SR1400JR2 (integrated system)

Your Server Chassis SR1400 ships with the following items:

■ DPS500 power supply, installed in the chassis
- A box of hardware components, referred to below as the “hardware box”
- Low profile riser, installed in the chassis
- CD-ROM tray assembly, installed in the chassis
■ Fan distribution board, installed in the chassis
■ Fan cable, installed in the chassis
- Chassis intrusion switch, installed in the chassis
■ Attention document, in the chassis product box
Intel® Server Chassis SR1400 Quick Start User's Guide, in the chassis product box
- Six 32-6mm flat screws for installing drive component, in the hardware box
■ Seven screws for mounting the server board into the chassis, in the hardware box
- Rack handles, in the hardware box
■ USB cable, in the hardware box
■ Floppy carrier assembly, in the hardware box
- CD-ROM filler panel, in the hardware box

You must choose from several required options when purchasing this chassis ^2 :

■ Riser connector, choose one:
— Full-height PCI-X riser connector
— Full-height PCI-Express* riser connector
- Hard drive installation option, choose one:
— SCSI hot-swap backplane
— SATA hot-swap backplane
— Fixed SATA drive kit

■ Control panel, choose one:

— Standard Control Panel

— Intel ^® Local Control Panel ^3

Preface

You may need or want to purchase one or more of the following items for your server: ^4

■ Server rack cabinet and rails / brackets to mount the server into a rack

■ Cable management arm

■ Front bezel for the selected control panel option

■ Processor(s) and heat sink(s)

■ Memory DIMMs

Intel ^® Management Module (Advanced or Professional)

- Slimline CD-ROM drive or slimline DVD-ROM drive

- Slimline floppy drive

- Kit to convert a hard drive bay to a floppy drive bay

For information about which of these items have been tested and can be used with your chassis, and for ordering information for Intel products, see

http://support.intel.com/support/motherboards/server//chassis/SR1400/

Additional Information and Software

If you need more information about this product or information about the accessories that can be used with this server board, use the following resources.

These sources are available at http://support.intel.com/support/motherboards/server/chassis/SR1400/

Unless otherwise indicated in the table below, once on this Web page, type the document or software name in the search field at the left side of the screen and select the option to search “This Product.”

For this information or softwareUse this Document or Software
For in-depth technical information about this product, including BIOS settings and chipset informationTechnical Product Specification
If you just received this product and need to install itIntel® Server Chassis SR1400 Quick Start User's Guide in the product box
For virtual system tours and interactive repair informationA link to the SMaRT Tool is available under “Other Resources” at the right side of the screen
Accessories or other Intel® server productsSearch for “Spares and Configuration Guide”
Hardware (peripheral boards, adapter cards) and operating systems that have been tested with this productSearch for “Tested Hardware and Operating System List”
Server boards that have been tested with this productSearch for “Compatible Server Board”
Processors that have been tested with this productSee your server board documentation
DIMMs that have been tested with this productSee your server board documentation
To make sure your system falls within the allowed power budgetSee your server board documentation
For software to manage your Intel® serverSee your server board documentation
For drivers See your server board documentation
For firmware and BIOS updatesSee your server board documentation
For diagnostics test softwareSee your server board documentation

Safety Information

INTEL SR1400 - Safety Information - 1

WARNING

Before working with your server product, whether you are using this guide or any other resource as a reference, pay close attention to the safety instructions. You must adhere to the assembly instructions in this guide to ensure and maintain compliance with existing product certifications and approvals. Use only the described, regulated components specified in this guide. Use of other products / components will void the UL listing and other regulatory approvals of the product and will most likely result in noncompliance with product regulations in the region(s) in which the product is sold.

Emissions Disclaimer

To ensure EMC compliance with your local regional rules and regulations, the final configuration of your end system product may require additional EMC compliance testing. For more information contact your local Intel Representative.

See “Regulatory and Integration Information” for product Safety and EMC regulatory compliance information. This is an FCC Class A device. Integration of it into a Class B chassis does not result in a Class B device.

Intended Uses

This product was evaluated as Information Technology Equipment (ITE), which may be installed in offices, schools, computer rooms, and similar commercial type locations. The suitability of this product for other product categories and environments (such as: medical, industrial, telecommunications, NEBS, residential, alarm systems, test equipment, etc.), other than an ITE application, may require further evaluation.

EMC Testing

Before computer integration, make sure that the chassis, power supply, and other modules have passed EMC testing using a server board with a microprocessor from the same family (or higher) and operating at the same (or higher) speed as the microprocessor used on this server board.

INTEL SR1400 - EMC Testing - 1

Warnings

System power on/off: The power button DOES NOT turn off the system AC power. To remove power from system, you must unplug the AC power cord from the wall outlet. Make sure the AC power cord is unplugged before you open the chassis, add, or remove any components.

Hazardous conditions, devices and cables: Hazardous electrical conditions may be present on power, telephone, and communication cables. Turn off the server and disconnect the power cord, telecommunications systems, networks, and modems attached to the server before opening it. Otherwise, personal injury or equipment damage can result.

Electrostatic discharge (ESD) and ESD protection: ESD can damage disk drives, boards, and other parts. We recommend that you perform all procedures in this chapter only at an ESD workstation. If one is not available, provide some ESD protection by wearing an antistatic wrist strap attached to chassis ground—any unpainted metal surface—on your server when handling parts.

ESD and handling boards: Always handle boards carefully. They can be extremely sensitive to ESD. Hold boards only by their edges. After removing a board from its protective wrapper or from the server, place the board component side up on a grounded, static free surface. Use a conductive foam pad if available but not the board wrapper. Do not slide board over any surface.

Installing or removing jumpers: A jumper is a small plastic encased conductor that slips over two jumper pins. Some jumpers have a small tab on top that you can grip with your fingertips or with a pair of fine needle nosed pliers. If your jumpers do not have such a tab, take care when using needle nosed pliers to remove or install a jumper; grip the narrow sides of the jumper with the pliers, never the wide sides. Gripping the wide sides can damage the contacts inside the jumper, causing intermittent problems with the function controlled by that jumper. Take care to grip with, but not squeeze, the pliers or other tool you use to remove a jumper, or you may bend or break the stake pins on the board.

Safety Cautions

Read all caution and safety statements in this document before performing any of the instructions. See also Intel Server Boards and Server Chassis Safety Information or at http://support.intel.com/support/motherboards/server/sb/CS-010770.htm

INTEL SR1400 - Safety Cautions - 1

The power supply in this product contains no user-serviceable parts. Refer servicing only to qualified personnel.

INTEL SR1400 - Safety Cautions - 2

Do not attempt to modify or use the supplied AC power cord if it is not the exact type required. A product with more than one power supply will have a separate AC power cord for each supply.

INTEL SR1400 - Safety Cautions - 3

The power button on the system does not turn off system AC power. To remove AC power from the system, you must unplug each AC power cord from the wall outlet or power supply.

The power cord(s) is considered the disconnect device to the main (AC) power. The socket outlet that the system plugs into shall be installed near the equipment and shall be easily accessible.

INTEL SR1400 - Safety Cautions - 4

SAFETY STEPS: Whenever you remove the chassis covers to access the inside of the system, follow these steps:

  1. Turn off all peripheral devices connected to the system.
  2. Turn off the system by pressing the power button.
  3. Unplug all AC power cords from the system or from wall outlets.
  4. Label and disconnect all cables connected to I/O connectors or ports on the back of the system.
  5. Provide some electrostatic discharge (ESD) protection by wearing an antistatic wrist strap attached to chassis ground of the system—any unpainted metal surface—when handling components.
  6. Do not operate the system with the chassis covers removed.

INTEL SR1400 - Safety Cautions - 5

After you have completed the six SAFETY steps above, you can remove the system covers. To do this:

  1. Unlock and remove the padlock from the back of the system if a padlock has been installed.
  2. Remove and save all screws from the covers.
  3. Remove the covers.

INTEL SR1400 - Safety Cautions - 6

For proper cooling and airflow, always reinstall the chassis covers before turning on the system. Operating the system without the covers in place can damage system parts. To install the covers:

  1. Check first to make sure you have not left loose tools or parts inside the system.
  2. Check that cables, add-in boards, and other components are properly installed.
  3. Attach the covers to the chassis with the screws removed earlier, and tighten them firmly.
  4. Insert and lock the padlock to the system to prevent unauthorized access inside the system.
  5. Connect all external cables and the AC power cord(s) to the system.

INTEL SR1400 - Safety Cautions - 7

A microprocessor and heat sink may be hot if the system has been running. Also, there may be sharp pins and edges on some board and chassis parts. Contact should be made with care. Consider wearing protective gloves.

INTEL SR1400 - Safety Cautions - 8

Danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Dispose of used batteries according to manufacturer's instructions.

INTEL SR1400 - Safety Cautions - 9

The system is designed to operate in a typical office environment. Choose a site that is:

  • Clean and free of airborne particles (other than normal room dust).
  • Well ventilated and away from sources of heat including direct sunlight.
  • Away from sources of vibration or physical shock.
  • Isolated from strong electromagnetic fields produced by electrical devices.
  • In regions that are susceptible to electrical storms, we recommend you plug your system into a surge suppressor and disconnect telecommunication lines to your modem during an electrical storm.
  • Provided with a properly grounded wall outlet.
  • Provided with sufficient space to access the power supply cord(s), because they serve as the product's main power disconnect.

Boards and Server Chassis Safety Information (《Intel

服务器主板与服务器机箱安全信息》)。

Component Identification 26

Internal Components....26

Standard Control Panel 27

Intel ^® Local Control Panel....28

Back Panel Features....29

Peripheral Devices....30

Hard Disk Drives 30

Floppy / CD-ROM / DVD-ROM Slimline Carriers 31

Advanced Management Options....31

Intel ^® Management Module 31

Rack-Mounted Systems 32

Front Bezels....32

2 Hardware Installations and Upgrades.... 33

Before You Begin....33

Tools and Supplies Needed 33

System References....33

Removing and Installing the Chassis Cover 34

Removing the Chassis Cover....34

Installing the Chassis Cover 35

Removing and Installing the Front Bezel 36

Removing the Front Bezel....36

Installing the Front Bezel....37

Removing and Installing the Processor Air Duct....37

Removing the Processor Air Duct 38

Installing the Processor Air Duct 38

Removing and Installing the Air Baffle 40

Removing the Air Baffle....40

Installing the Air Baffle....41

Installing and Removing a Hard Disk Drive....41

Removing a SATA or SCSI Hot-swap Hard Disk Drive....42

Installing a SATA or SCSI Hot-swap Hard Disk Drive 43

Installing a Fixed SATA Hard Disk Drive....44

Removing a Fixed SATA Hard Disk Drive....49

Installing or Removing a Floppy Drive (Slimline or Standard)....50

Installing a Floppy Drive into Slimline Bay (Backplane Installed)....50

Removing a Floppy Drive from the Slimline Bay (Backplane Installed) 53

Installing Floppy Drive into Slimline Bay (No Backplane Installed) 53

Removing a Floppy Drive from the Slimline Bay (No Backplane Installed)....58

Installing a Floppy Drive into the Converted Hard Drive Bay (Backplane Installed).....59

Removing a Floppy Drive from the Converted Hard Drive Bay....63

Contents

Installing or Removing a CD-ROM or DVD-ROM Drive 63

Installing a DVD-ROM or CD-ROM Drive into Slimline Bay (Backplane Installed) .....64

Removing a CD-ROM or DVD-ROM Drive from the Slimline Bay (Backplane Installed)65

Installing DVD-ROM or CD-ROM Drive into Slimline Bay (No Backplane Installed)....66

Installing and Removing a PCI Riser Connector....69

Installing a PCI Riser Connector 69

Removing a PCI Riser Connector 72

Installing and Removing a PCI Add-in Card....73

Installing a PCI Add-in Card....73

Removing a PCI Add-in Card....75

Replacing the Control Panel 75

Replacing a System Fan....77

Replacing the Power Supply 77

Removing and Installing the SATA or SCSI Backplane 79

Removing the SATA or SCSI Backplane 80

Installing the SCSI or SATA Backplane 81

Technical Reference 83

Cable Routing 83

Power Supply Specifications 85

500-W Single Power Supply Input Voltages....85

500-W Single Power Supply Output Voltages....85

System Environmental Specifications 86

Equipment Log and Worksheets 87

Equipment Log 87

Current Usage 88

Calculating Power Usage 88

Regulatory and Compliance Information....91

Product Regulatory Compliance 91

Product Safety Compliance....91

Product EMC Compliance – Class A Compliance....91

Certifications / Registrations / Declarations....92

Product Regulatory Compliance Markings 92

Electromagnetic Compatibility Notices....93

FCC (USA) 93

Industry Canada (ICES-003) 94

Europe (CE Declaration of Conformity)....94

VCCI (Japan)....95

BSMI (Taiwan)....95

Korean RRL Compliance....95

Regulated Specified Components....96

Getting Help 97

Intel® Server Issue Report Form.... 99

Warranty 103

Limited Warranty for Intel ^® Chassis Subassembly Products....103

Contents

Extent of Limited Warranty 103

Warranty Limitations and Exclusions 104

Limitations of Liability 104

How to Obtain Warranty Service....105

Telephone Support....105

Returning a Defective Product 105

Figures

Figure 1. Intel ^® Server Chassis SR1400 23

Figure 2. Internal Component Locations....26

Figure 3. Standard Control Panel Features 28

Figure 4. Intel ^® Local Control Panel Features 29

Figure 5. Chassis Back....29

Figure 6. Optional Peripherals .... 30

Figure 7. Removing the Chassis Cover ....34

Figure 8. Installing the Chassis Cover 35

Figure 9. Standard Front Bezel....36

Figure 10. Intel® Local Control Panel Front Bezel 36

Figure 11. Removing the Front Bezel 36

Figure 12. Installing the Front Bezel ...... 37

Figure 13. Removing the Processor Air Duct....38

Figure 14. Preparing the Processor Air Duct 38

Figure 15. Installing the Processor Air Duct....39

Figure 16. Removing the Air Baffle ....40

Figure 17. Installing the Air Baffle....41

Figure 18. Removing a Hot-swap Hard Drive Carrier from Chassis 42

Figure 19. Removing the Retention Device from a Hot-swap Drive Carrier....42

Figure 20. Attaching a Hot-swap Hard Disk Drive to a Carrier....43

Figure 21. Inserting a Hot-swap Hard Disk Drive Assembly into the Chassis....43

Figure 22. Removing a Fixed Hard Drive Carrier from the Chassis....44

Figure 23. Removing the Retention Device from a Fixed Drive Carrier....45

Figure 24. Attaching the Fixed Hard Drive to the Carrier....45

Figure 25. Connecting the Fixed SATA Drive Power Cable Adapter....46

Figure 26. Installing the Fixed SATA Drive Data Cables 47

Figure 27. Installing the Fixed SATA Drive Power Cables....48

Figure 28. Installing a Floppy Drive into the Slimline Carrier....51

Figure 29. Installing Floppy Flat Flex Cable to a Floppy Drive ....51

Figure 30. Installing the Slimline Floppy Drive into the Chassis 52

Figure 31. Installing a Slimline Floppy Drive into the Carrier 54

Figure 32. Installing the Flat Flex Cable ....55

Figure 33. Installing the Floppy Drive Interposer Board....56

Figure 34. Installing the Slimline Floppy Drive into the Chassis 57

Figure 35. Removing the Rails from the Floppy Drive Conversion Kit Carrier....59

Figure 36. Inserting a Drive into the Floppy Conversion Kit Carrier....60

Figure 37. Attaching a Drive to Floppy Drive Conversion Kit Carrier....60

Figure 38. Install the Rails onto the Floppy Drive Conversion Kit Carrier....61

Figure 39. Installing the Flat Flex Cable to the Floppy Drive 61

Figure 40. Installing the Slimline Floppy Drive into the Chassis 62

Contents

Figure 41. Installing a DVD-ROM / CD-ROM Drive into the Carrier....64

Figure 42. Installing a DVD/CDROM Drive into the Chassis 65

Figure 43. Installing a DVD-ROM or CD-ROM Drive into the Carrier 67

Figure 44. Installing a DVD-ROM or CD-ROM Drive into the Chassis....68

Figure 45. Removing the PCI Riser Assembly from the Chassis....69

Figure 46. Installing an Add-in Card Connector into the PCI Riser Assembly 70

Figure 47. Installing the PCI Riser Assembly into the Chassis....71

Figure 48. Removing the PCI Riser Assembly from the Chassis....73

Figure 49. Installing an Add-in Card to the PCI Riser Assembly....74

Figure 50. Installing the PCI Riser Assembly into the Chassis....74

Figure 51. Removing the Control Panel from the Chassis....76

Figure 52. Removing the Power Supply Connections 78

Figure 53. Removing the SATA or SCSI Backplane from the Chassis....80

Figure 54. Installing a SATA or SCSI Backplane into the Chassis 81

Figure 55. Cable Routing Around the Air Baffle....83

Tables

Table 1. Server Chassis Features....24

Table 2. Cable Routing Around Air Baffle for Fixed Drive Installation....84

Table 3. Cable Routing Around Air Baffle for Hot-Swap Drive Installation....84

Table 4. Product Certification Markings....92

1 Server Chassis Features

This chapter briefly describes the main features of Intel® Server Chassis SR1400. This chapter provides pictures of the product, a list of the server features, and diagrams showing the location of important components and connections on the server chassis.

The Intel Server Chassis SR1400 is shown in the following picture.

INTEL SR1400 - Server Chassis Features - 1

natural_image Illustration of a server rack with drive bays and a central port (no text or symbols)

Figure 1. Intel® Server Chassis SR1400

Table 1 summarizes the major features of the server chassis. ^5
Table 1. Server Chassis Features

FeatureDescription
Dimensions1.703 inches high16.930 inches wide26.457 inches deep31 pounds (base chassis weight)
Hard Drives (dependent on option selected)Up to three fixed, hot-swap SATA or hot-swap SCSI drives
Peripherals (dependent on option selected)Slimline bay for CD-ROM, DVD-ROM drive, or floppy driveKit to convert one hard drive bay into a floppy drive bay (optional accessory)PCI riser card (configurations depend on accessories used)
Control Panel (dependent on option selected)Standard Control Panel:Intel® Local Control Panel (requires installation of the optional Intel® Management Module – Advanced or Intel® Management Module – Professional)
LEDs and displays (dependent on option selected)With Standard Control Panel:NIC1 ActivityNIC2 ActivityPower / SleepSystem StatusSystem IdentificationHard Drive ActivityWith Intel® Local Control Panel:NIC1 ActivityNIC2 ActivityPower / SleepSystem StatusSystem IdentificationHard Drive ActivityLCD Display

Continued

Table 1. Server Chassis Features (continued)

Power SupplyOne 500W power supply
System SecurityLockable front bezel (optional accessory)Chassis intrusion switchLock attach point for chassis cover
FansFour 40x40x56mm dual-rotor fansOne 40x40x28mm single rotor fanTwo 40x40x28mm fans in the power supply
USB (dependent on option selected)One front panel USB port with Standard Control PanelTwo front panel USB ports with Intel® Local Control PanelTwo back panel USB ports
Video^® One front panel video port (available only with Standard Control Panel)One rear panel video port

Component Identification

Internal Components

The diagram below shows the server chassis with a server board installed into it.

A B C D E F G H I J TP01298

A. Slimline drive bay (drive not included) F. Server board
B. Backplane (optional component) G. Processor air duct
C. Power supply air baffle H. Fan module
D. Power supply I. Control panel (Standard Control Panel shown)
E. PCI add-in card riser assembly J. Hard drive bays (drives not included)

Not shown: rack handles, optional front bezel, chassis cover

Figure 2. Internal Component Locations

Standard Control Panel

The diagram below shows the features available on the Standard Control Panel. The Standard Control Panel is one of two required control options that can be selected. The other option is the Intel® Local Control Panel. For instructions on installing the Standard Control Panel, see “Replacing the Control Panel.”

BA F GEDC 1 2 H I L K J TP00779

CalloutFeature Function
ANIC 2 activity LEDBlinking green light indicates network activity.
BNIC 1 activity LEDContinuous green light indicates a link between the system and the network to which it is connected.
C Power/Sleep button Toggles the system power on/off. Sleep button for ACPI-compatible operating systems.
D Power/Sleep LED Continuous gr green light indicates the system has power applied to it.Blinking green indicates the system is in S1 sleep state (see Note 1)No light indicates the power is off / is in ACPI S4 or S5 state.
EHard disk drive activity LEDRandom blinking green light indicates hard disk drive activity (SCSI or SATA).No light indicates no hard disk drive activity.
FSystem Fault LEDSolid green indicates normal operationBlinking green indicates degraded performanceSolid amber indicates a critical or non-recoverable conditionBlinking amber indicates a non-critical conditionNo light indicates POST is running or the system is off (see Note 1)
GSystem Identification LEDSolid blue indicates system identification is activeNo light indicates system identification is not activated
HSystem identification buttonToggles the front panel ID LED and the baseboard ID LED on and off. The baseboard LED is visible from the rear of the chassis and allows you to locate the server from the rear of a rack of systems.
IReset buttonReboots and initializes the system.
JUSB 2.0 portAllows you to attach a USB component to the front of the chassis.
KNMI buttonPuts the server in a halt-state for diagnostic purposes.
LVideo portAllows you to attach a video monitor to the front of the chassis. The front and rear video ports cannot be used at the same time.

Figure 3. Standard Control Panel Features

Intel® Local Control Panel

The diagram below shows the features available on the Intel ^® Local Control Panel. The Intel Local Control Panel is one of two required control options that can be selected. The other option is the Standard Control Panel. For instructions on installing the Standard Control Panel, see “Replacing the Control Panel”.

INTEL SR1400 - Intel® Local Control Panel - 1

NOTE

This control panel requires the installation of the Intel ^® Management Module, Professional or Advance Edition. Some server boards do not support this control panel. See your server board documentation to determine if this control panel is compatible with your server board.

A B C D E F M L K J HIN G TP00780

CalloutFeature Function
A USB 2.0 port Allows you to attach a USB component to the front of the chassis.
B LCD displayScreen on which system information is displayed.
C Menucontrol button, scroll upScroll up one option at a time.
D Menucontrol button, scroll downScroll down one option at a time.
E Menucontrol button, scroll leftMove to the previous option.
FMenu control button, scroll rightMove to the previous page.
GSystem Identification LEDSolid blue indicates system identification is active.No light indicates system identification is not activated.
HPower/Sleep LEDContinuous green light indicates the system has power applied to it.Blinking green indicates the system is in S1 sleep state.No light indicates the power is off / is in ACPI S4 or S5 state.
IPower/Sleep buttonToggles the system power on/off. Sleep button for ACPI-compatible operating systems.

Continued

CalloutFeature Function
J SystemStatus LED Solid greenindicates normal operation.Blinking green indicates degraded performance.Solid amber indicates a critical or non-recoverable condition.Blinking amber indicates a non-critical condition.No light indicates POST is running or the system is off.
LNIC 1 activity LEDContinuous green light indicates a link between the system and the network to which it is connected.Blinking green light indicates network activity.
KNIC 2 activity LED
MHard disk activity LEDRandom blinking green light indicates hard disk drive activity (SCSI or SATA).No light indicates no hard disk drive activity is taking place.
N Resetbutton Reboots and initializes the system.

Figure 4. Intel® Local Control Panel Features

Back Panel Features

A B C D TP01299

A. Low-profile add-in card bracket C. AC power receptacle

B. Full-height add-in card bracket D. I/O ports (see note)

Note: I/O connectors vary, depending on the server board installed. See your server board documentation for port identification.

Figure 5. Chassis Back

Peripheral Devices

The chassis provide locations and hardware for installing hard drives, a floppy drive, CD-ROM drive, or DVD-ROM drive. The drives must be purchased separately. The following figure shows the available options.

A B TP00782

A. Slimline floppy drive / DVD-ROM drive / CD-ROM drive
B. Hard drive bays (3)

Figure 6. Optional Peripherals

Hard Disk Drives

There are three options for hard drive support: SCSI hot-swap or SATA (hot-swap and a non-hot-swap configuration are available). If the non-hot-swap configuration is used, before replacing a hard drive, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

The left drive bay can be converted to be used as a floppy bay. To use the bay for a floppy drive, the AXXFLOPHDDTRAY accessory kit must be used.

For instructions on installing hard drives, see "Installing and Removing a Hard Disk Drive".

INTEL SR1400 - Hard Disk Drives - 1

NOTES

Drives can consume up to 17 watts of power each. Drives must be specified to run at a maximum ambient temperature of 45^ .

The Intel Server Chassis SR1400 does not support all SCSI or Serial ATA hard drives. See “Additional Information and Software” for an Internet link to a list of supported hardware.

Floppy / CD-ROM / DVD-ROM Slimline Carriers

The slimline drive carriers can be used with one slimline floppy, CD-ROM or DVD-ROM drive. There are two carriers that ship with the chassis; one carrier is for a CD-ROM or DVD-ROM, and the other is for a slimline floppy. Unless the optional kit to convert a hard drive bay to a floppy drive bay is used, you cannot install both a CD-ROM / DVD-ROM drive and a floppy drive.

The floppy drive / CD-ROM / DVD-ROM carriers can be inserted or removed only when system power is turned off. Drives in the slimline carriers are NOT hot swappable, regardless of whether one of the backplanes is installed. For installation instructions on installing a floppy drive see “Installing or Removing a Floppy Drive”. For installation instructions on installing a CD-ROM drive or DVD-ROM drive, see “Installing or Removing a CD-ROM or DVD-ROM Drive”.

NOTE

The Intel Server Chassis SR1400 does not support all slimline floppy, CD-ROM or DVD-ROM hard drives. See “Additional Information and Software” for an Internet link to a list of supported hardware. Intel provides accessory kits for these drives.

Advanced Management Options

Intel® Management Module

Two versions of the Intel ^® Management Module are available to provide additional server management features.

  • The Intel Management Module - Professional Edition contains a hardware mezzanine card that plugs into the server board.
  • The Intel Management Module - Advanced Edition includes a hardware mezzanine card, a 10/100 Mb NIC mezzanine card, and cables.

For installation instructions on installing either Intel Management Module, see the instructions provided with the management module.

NOTE

Some server boards may not support the Intel ^® Management Module. See your server board documentation to determine if this feature is compatible with your server board.

Rack-Mounted Systems

Your Server Chassis SR1400 is designed to be mounted into a rack. The SR1400 chassis can be mounted using one of the two accessories. The first is a tool-less rail kit and the second is a fixed rail kit. When installing the chassis into a rack, Intel recommends you install systems from the bottom of the rack to the top. In other words, install the first system in the rack into the bottom position of the rack, the second system in the second position from the bottom, and so on. Instructions for installing your chassis into a rack are included in the rail kit.

The order numbers are as follows:

■ Tool-less Rail Kit: AXXHERAIL
■ Fixed Rail Kit: AXXBRACKETS
- Cable Management Arm: AXXRACKCARM (requires the tool-less rail kit)

Front Bezels

The optional front bezels provide a snap-on design that allows for maximum airflow through the server chassis. Two bezels are available. One fits a system that has the Standard Control Panel installed. The other is used for a chassis with the other Intel Local Control Panel. Each bezel provides a lock to secure the hard drive and floppy drive / CD-ROM / DVD-ROM drive area. For instructions on installing either of the front bezels, see “Removing and Installing the Front Bezel”.

The order numbers for the bezels are:

■ ADWBEZBLACK: Black bezel for use with the Standard Control Panel.
- ADWLCDBEZEL: Black bezel for use with the Intel ^ Local Control Panel.

2 Hardware Installations and Upgrades

Before You Begin

Before working with your server product, pay close attention to the safety instructions at the beginning of this manual. See “Safety Information.”

This document provides instructions for adding and replacing chassis components. For instructions on replacing components on the server board, such as the processor and memory DIMMs, see the instructions provided with the server board.

Tools and Supplies Needed

  • Phillips * (cross head) screwdriver (#1 bit and #2 bit)
    ■ Antistatic wrist strap and conductive foam pad (recommended)

System References

All references to left, right, front, top, and bottom assume the reader is facing the front of the chassis as it would be positioned for normal operation.

Removing and Installing the Chassis Cover

Removing the Chassis Cover

The Server Chassis SR1400 must be operated with the top cover in place to ensure proper cooling. You will need to remove the top cover to add or replace components inside of the platform. Before removing the top cover, power down the server and unplug all peripheral devices and the AC power cable. None of the components inside the chassis are hot-swappable.

INTEL SR1400 - Removing the Chassis Cover - 1

NOTE

A nonskid surface or a stop behind the chassis may be needed to prevent the chassis from sliding on your work surface.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Turn off all peripheral devices connected to the server. Turn off the server.
  3. Disconnect the AC power cord.
  4. Remove the shipping screw (if installed). See letter "A" in the figure below.
  5. While holding in the blue button at the top of the chassis in (see letter "B"), slide the top cover back until it stops (See letter "C").
  6. Lift the cover upward to remove it.

Diagram illustrating a device's internal components and assembly, labeled A, B, C with arrows indicating flow or movement.

TP00784

Figure 7. Removing the Chassis Cover

Installing the Chassis Cover

  1. Place the cover over the chassis so that the side edges of the cover sit just inside the chassis sidewalls.
  2. Slide the cover forward until it clicks into place. See letter "A" in the figure below.
  3. (Optional) Insert the shipping screw at the center of the top cover. See letter "B" in the figure.
  4. Reconnect all peripheral devices and the AC power cord.

A B TP01301

Figure 8. Installing the Chassis Cover

Removing and Installing the Front Bezel

The front bezels are available as optional accessories for the Server Chassis SR1400. Two front bezel options are available. One is used for the Standard Control Panel and the other is used with the Intel ^® Local Control Panel. See the diagrams below to identify your front bezel. Note the orientation in the figures below – the control panel is at the right. If you are installing a bezel on your chassis, make sure you position it as shown.

INTEL SR1400 - Removing and Installing the Front Bezel - 1

natural_image Front view diagram of a server rack unit with ventilation slots and ports (no text or symbols)

Figure 9. Standard Front Bezel

INTEL SR1400 - Removing and Installing the Front Bezel - 2

natural_image Technical line drawing of a rectangular electronic device with a central button and two ports (no text or symbols)

Figure 10. Intel® Local Control Panel Front Bezel

Removing the Front Bezel

Use the steps below if your system includes either the standard front bezel or the front bezel for the Intel Local Control Panel.

  1. Unlock the bezel.
  2. Disconnect any cables attached to the front of the control panel.
  3. Pull the bezel out from the chassis.

TP01303

Figure 11. Removing the Front Bezel

Installing the Front Bezel

Use the steps below if your system includes either the standard front bezel or the front bezel for the Intel Local Control Panel. The front bezel is optional.

  1. At each end of the bezel, line up the center notch on the bezel with the center guide on the rack handles.

  2. Push the bezel onto the front of the chassis until it clicks into place.

  3. Connect any necessary cables to the front control panel area at the right side of the chassis.

TP01302

Figure 12. Installing the Front Bezel

Removing and Installing the Processor Air Duct

Always operate your server chassis with the processor air duct in place. The air duct is required for proper airflow to maintain proper cooling of the processors.

For instructions on adding or replacing a processor, first remove the processor air duct, and then see your server board user guide for instructions on processor installations and removals. Return to these instructions to reinstall the processor air duct after installing your processor and heat sink.

Removing the Processor Air Duct

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Lift the processor air duct from its location over the two processor sockets.

INTEL SR1400 - Removing the Processor Air Duct - 1

natural_image Diagram of an electronic device chassis with a blue arrow indicating a component or connection, labeled TP01317 (no text or symbols on the diagram itself)

Figure 13. Removing the Processor Air Duct

Installing the Processor Air Duct

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. If you are installing the processor air duct for the first time after installing a second processor, remove the tab on the back side of the processor air duct. See the figure below.

INTEL SR1400 - Installing the Processor Air Duct - 1

natural_image Hand holding a small object with a ruler, viewed from above (no text or symbols visible)

Figure 14. Preparing the Processor Air Duct

  1. Place the processor air duct over the processor socket(s). See the figure below. The front edge of the air duct should contact the fan module and the top of the installed air duct should be flush with the top surface of the power supply. Use caution not to pinch or disengage cables that may be near or under the air duct.

INTEL SR1400 - Installing the Processor Air Duct - 2

natural_image Diagram of an electronic device chassis with a blue arrow pointing to a component, showing internal circuitry and storage areas (no text or symbols)

Figure 15. Installing the Processor Air Duct

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  2. Plug all peripheral devices and the AC power cable back into the server.

Removing and Installing the Air Baffle

Some installation processes will require that you remove the air baffle that is placed behind the hard drive bays, next to the fan module near the front of your server. The steps below describe how to remove and then install the air baffle. Use these steps only when it is indicated as necessary for a component installation process.

Always operate your server chassis with the air baffle in place. The air baffle is required for proper airflow within the chassis.

Removing the Air Baffle

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Note how the cables are routed over and under the air baffle. You will need to re-route these cables.
  5. Pull up on the air baffle to remove it. See the figure below. You may need to remove or hold cables out of the way.

INTEL SR1400 - Removing the Air Baffle - 1

natural_image Isometric technical diagram of an internal server rack with a blue arrow pointing to a component (no text or symbols present)

Figure 16. Removing the Air Baffle

Installing the Air Baffle

  1. Lower the baffle into the chassis between the power supply and the drive bay area, to the left of the fan module.

  2. While setting the baffle into place, route the cables beneath it appropriately. See "Cable Routing" for help in determining where the cables should be routed.

  3. Fit the tab that extends from the front of the baffle under the drive bay area.

  4. Line up the guide pins on the baffle with the matching holes in the chassis floor and in the backplane if you have a backplane installed. See letter "A" in the figure below.

  5. Push down firmly on the air baffle to secure it to the chassis.

TP01320

Figure 17. Installing the Air Baffle

Installing and Removing a Hard Disk Drive

Up to three hard drives of one of the following types can be installed, depending on the hard drive installation option used in your server chassis and the drives supported by your server board.

■ Three hot-swap SCSI drives if the SCSI backplane is installed.

■ Three hot-swap SATA drives if the SATA backplane is installed.

■ Three fixed SATA drives if the fixed drive kit is installed.

INTEL SR1400 - Installing and Removing a Hard Disk Drive - 1

NOTE

The Intel Server Chassis SR1400 does not support all hard drives. See “Additional Information and Software” for an Internet link to a list of supported hardware.

Removing a SATA or SCSI Hot-swap Hard Disk Drive

Use these instructions only if you have installed the SATA or SCSI backplane kit.

  1. Remove the front bezel if it is installed. For instructions, see "Removing and Installing the Front Bezel."
  2. Press in on the green latch at the front of the hard drive carrier. See letter "A" in the figure below.
  3. Pull out on the black lever and slide the carrier from the chassis. See letter "B" in the figure below.

B A TP00786

Figure 18. Removing a Hot-swap Hard Drive Carrier from Chassis

  1. Remove the four screws that attach the plastic retention device or the previously installed hard drive to the drive carrier. Two screws are at each side of the retention device or the hard drive. If required, store the plastic retention device for future use.

Technical diagram of an internal component with labeled parts and a blue arrow indicating direction, accompanied by a magnified view showing screw assembly.

Figure 19. Removing the Retention Device from a Hot-swap Drive Carrier

Installing a SATA or SCSI Hot-swap Hard Disk Drive

  1. Remove the hard drive from its wrapper and place it on an antistatic surface.

  2. Set any jumpers and/or switches on the drive according to the drive manufacturer's instructions.

  3. With the drive circuit-side down, position the connector end of the drive so that it is facing the rear of the drive carrier. See Figure 20.

  4. Align the holes in the drive to the holes in the drive carrier and attach it to the carrier with the screws that were attached to the plastic retention device.

Diagram illustrating the assembly process of a hard disk drive, showing component disassembly and mounting mechanism.

TP00736

Figure 20. Attaching a Hot-swap Hard Disk Drive to a Carrier

  1. With the black lever in the fully open position, slide the drive assembly into the chassis. The green latch at the front of the drive carrier must be to the right. Do not push on the black drive carrier lever until the lever begins to close by itself.

  2. When the black drive carrier lever begins to close by itself, push on it to lock the drive assembly into place.

INTEL SR1400 - Installing a SATA or SCSI Hot-swap Hard Disk Drive - 2

natural_image Diagram of a printer or scanner device with labeled parts A and B, showing internal structure and airflow direction (no text or symbols beyond labels)

Figure 21. Inserting a Hot-swap Hard Disk Drive Assembly into the Chassis

  1. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."

Installing a Fixed SATA Hard Disk Drive

Use these instructions only if you have installed the fixed drive kit.

INTEL SR1400 - Installing a Fixed SATA Hard Disk Drive - 1

CAUTION

Fixed drives are NOT hot swappable. Before removing or replacing the drive, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the front bezel if it is installed. For instructions, see "Removing and Installing the Front Bezel."
  4. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  5. Press the latch on the back of the fixed drive carrier and slide it out of the bay. See letter "A" in the figure below to identify the latch at the rear of the carrier.

INTEL SR1400 - CAUTION - 1

natural_image Diagram showing a device with an attached rack and a base, connected by blue arrows indicating direction (no text or symbols present)

Figure 22. Removing a Fixed Hard Drive Carrier from the Chassis

  1. Remove the four screws that attach the plastic retention device or the previously installed hard drive to the drive carrier. Two screws are at each side of the retention device or the hard drive. If required, store the plastic retention device for future use.

INTEL SR1400 - CAUTION - 2

natural_image Technical diagram of a mechanical housing with a blue upward arrow indicating motion or force, no text or symbols present.

TP01304
Figure 23. Removing the Retention Device from a Fixed Drive Carrier

  1. With the drive circuit-side down, position the connector end of the drive so that it is facing the back of the carrier.
  2. Attach the hard drive to the carrier using the four screws removed from the carrier.

Technical diagram showing assembly of a hard disk with screw and mechanical components, labeled with component A

TP00788
Figure 24. Attaching the Fixed Hard Drive to the Carrier

  1. Insert the drive into the bay until it clicks into place.
  2. If it is not already installed, connect the SATA power cable adapter to the 3x2 power supply cable that extends from your power supply. See letters "A" and "B" in the figure below. The power cable adapter was provided to you with the fixed drive kit.

Diagram showing cable routing between a computer drive and connected to three connected modules labeled A, B, and C.

TP01170
Figure 25. Connecting the Fixed SATA Drive Power Cable Adapter

  1. For each drive you install, route one SATA data cable from the server board or add-in card to the hard drive, with the right-angle end of the SATA data cable connected to the server board or add-in card SATA connector. See your server board documentation or add-in card documentation for assistance in locating the SATA connectors on the board or add-in card.
  2. See letters "C", "D", and "E" in Figure 26 and the arrow that leads from these letters to the component in the chassis. This component is the air baffle that is referred to in the following steps. The letters "C" and "D" point to the cutouts that are referred to in the step below. The letter "E" is the tab at the top of the air baffle.
  3. Data cables for drives installed to the right of the air baffle must be routed through the two cutouts in the top of the air baffle (letters "C" and "D" in the figure) and under the tab (letter "E"). The data cable for a drive installed to the left of the air baffle must be routed through the rear cutout of the air baffle (letter "D") and under the tab (letter "E"). You may need to remove the air baffle to route the cables underneath it. To see how to remove and then install the air baffle, see "Removing and Installing the Air Baffle."
  4. Connect the loose end of the data cable to the rear of the SATA drive. See letter "A" in the figure to identify the location of the connector at the rear of the SATA drive.

A B C D E TP01305

Figure 26. Installing the Fixed SATA Drive Data Cables

  1. See letter "B" in Figure 27 and the arrow that leads from this letter to the component in the chassis. This component is the air baffle that is referred to in the following steps. The letter "B" points to the cutout that is referred to.

  2. Power cables for drives installed to the right side of the air baffle must be routed beneath the front cutout in the underside of the air baffle. The power cable for a drive installed to the left of the air baffle does not need to be routed under the air baffle. See letter "B" in the figure below to identify the air baffle and the cutout area. You may need to remove the air baffle to route cables underneath it. To see how to remove and then install the air baffle, see "Removing and Installing the Air Baffle."

  3. Connect the SATA power cable adapter end(s) to the rear of the SATA drive. See letter "A" in the figure below to locate the connector on the SATA drive.

A B A TP01306

Figure 27. Installing the Fixed SATA Drive Power Cables

  1. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."
  2. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  3. Plug all peripheral devices and the AC power cable back into the server.

Removing a Fixed SATA Hard Disk Drive

INTEL SR1400 - Removing a Fixed SATA Hard Disk Drive - 1

CAUTION

Fixed drives are NOT hot swappable. Before removing or replacing the drive, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”
  5. Disconnect the SATA data connector and power cables from the rear of the SATA drive.
  6. Press the latch on the back of the fixed drive carrier and slide it out of the bay.
  7. Remove the four screws that attach the hard drive to the drive carrier. Lift the drive from the carrier. Store the drive in an anti-static bag.
  8. If you are not installing a new drive, place the plastic retention device into the drive carrier, using the four screws you removed from the hard drive.
  9. Insert the screws that held the drive in the carrier into the screw locations on the carrier for future use.
  10. Slide the drive carrier back into the chassis until it clicks into place.

INTEL SR1400 - CAUTION - 1

NOTE

For proper airflow, the hard drive carrier must be replaced in the chassis, even if no hard drive is installed in it.

  1. (Optional) Install the front bezel. For instructions, see “Removing and Installing the Front Bezel.”
  2. Install the chassis cover. For instructions, see "Removing the Chassis Cover."
  3. Plug all peripheral devices and the AC power cable back into the server.

Installing or Removing a Floppy Drive (Slimline or Standard)

Floppy drives are installed in different ways, depending on the following items:

  • The SATA or SCSI backplane is installed and you want to install the floppy drive into the slimline drive bay.
  • No backplane is installed and you want to install the floppy drive into the slimline drive bay.
  • The SATA or SCSI backplane is installed and you have installed a CD-ROM or DVD-ROM drive into the slimline drive bay. You want to install the floppy drive into a bay that was intended for a hard drive (optional conversion kit is required).

Look carefully at the heading titles below before beginning your installation to be sure you are following the correct instructions for your system.

INTEL SR1400 - Installing or Removing a Floppy Drive (Slimline or Standard) - 1

CAUTION

Floppy drives are NOT hot swappable. Before removing or replacing the drive, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

Installing a Floppy Drive into Slimline Bay (Backplane Installed)

Use these instructions if you are installing a floppy drive into the slimline drive bay at the upper left side of your chassis and your system includes either the SATA or SCSI backplane. You will know if you have one of these backplanes installed if you can install either hot-swap SATA or hot-swap SCSI drives.

INTEL SR1400 - Installing a Floppy Drive into Slimline Bay (Backplane Installed) - 1

NOTE

The carrier for the slimline floppy drive that is used in these instructions was sent to you in the hardware kit that came with your Server Chassis SR1400.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”

Hardware Installations and Upgrades

  1. Align the two holes at the left side of the floppy drive with the two cutouts in the floppy drive carrier. See letter "A" in the figure below.

  2. Lower the right side of the floppy drive into the carrier until it clicks into place. See letter "B" in the figure below.

Technical diagram showing a device with labeled components A and B, including a zoomed-in view of the component.

TP01082
Figure 28. Installing a Floppy Drive into the Slimline Carrier

  1. Open the connector on the rear of the floppy drive by pulling up on the connector cover. See letter "A" in the figure below.

  2. Insert one end of the 26-pin floppy drive flat flex cable end into the connector. See letter "B" in the figure.

  3. Push down on the connector cover to lock the cable into place. See letter "C" in the figure.

Technical diagram illustrating three stages of a mechanical assembly with labeled components A, B, and C, showing motion and assembly steps.

TP01144
Figure 29. Installing Floppy Flat Flex Cable to a Floppy Drive

  1. Slide the floppy drive assembly into the slimeline bay of the chassis until it clicks into place. See letter "A" in the figure below.
  2. Open the connector labeled "Floppy Con" on the backplane by pulling up on the connector cover. See letter "B" in the figure below.
  3. Insert the loose end of the floppy cable into the backplane connector. See letter "C" in the figure.
  4. Push in on the connector cover to lock the cable into place. See letter "D" in the figure.
  5. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  6. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."
  7. Plug all peripheral devices and the AC power cable back into the server.

B C D A TP01158

Figure 30. Installing the Slimline Floppy Drive into the Chassis

Removing a Floppy Drive from the Slimline Bay (Backplane Installed)

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”
  5. Pull up at the top of the connector on the backplane labeled "Floppy Con" to release the flat flex cable from it.
  6. Push in on the blue lever at the rear of the drive carrier.
  7. Slide the floppy drive carrier out through the front of the chassis.
  8. Remove the flat flex cable from the rear of the floppy.
  9. Press downward on the side of the carrier to release the drive from the drive carrier.
  10. Store the floppy drive carrier and the flat flex cable for future use.
  11. Install the slimline filler panel into slimline bay if no drive is to be installed into the bay.
  12. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  13. (Optional) Install the front bezel. For instructions, see “Removing and Installing the Front Bezel.”
  14. Plug all peripheral devices and the AC power cable back into the server.

Installing Floppy Drive into Slimline Bay (No Backplane Installed)

NOTE

The carrier for the slimline floppy drive that is used in these instructions was sent to you in the hardware kit that came with your Server Chassis SR1400. The interposer board and floppy drive power adapter cable used in these instructions was sent to you with your fixed drive kit.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”

Hardware Installations and Upgrades

  1. Align the two holes at the left side of the floppy drive with the two cutouts in the floppy drive carrier. See letter "A" in the figure below.
  2. Lower the right side of the floppy drive into the carrier until it clicks into place. See letter "B" in the figure below.

Technical diagram showing a device with labeled components A and B, including a zoomed-in view of the component.

TP01082
Figure 31. Installing a Slimline Floppy Drive into the Carrier

  1. Open the connector on the rear of the floppy drive by pulling up on the connector cover. See letter "A" in the figure below.
  2. Insert one end of the 26-pin flat flex cable end into the connector. See letter "B" in the figure.
  3. Push down on the connector cover to lock the cable into place. See letter "C" in the figure.
  4. Open the connector on the interposer board by pulling out on the connector cover. See letter "D" in the figure below.
  5. Insert the loose end of the floppy cable into the interpose board connector. See letter "E" in the figure.
  6. Push in on the connector cover to lock the cable into place. See letter "F" in the figure.

Technical diagram illustrating a mechanical assembly process with labeled steps A through F, showing fluid flow and component placement.

Figure 32. Installing the Flat Flex Cable

Hardware Installations and Upgrades

  1. Lower the interposer board into the floppy drive tray at the rear of the floppy drive and engage the notch on the board. See Letter "A" in the figure below.
  2. Attach the interposer board to floppy drive with the screw that was included with the interposer board. See letter "B" in the figure. In the diagram, the flat flex cable been removed for clarity.

Technical diagram showing assembly steps of a mechanical component with labeled parts A and B, including blue arrows indicating motion direction.

TP01164

Figure 33. Installing the Floppy Drive Interposer Board

  1. Slide the floppy drive assembly into the chassis until it clicks into place. See letter "A" in the figure below.
  2. Connect the 2x2 end of the floppy drive power cable that was included with your kit to the 2x2 power connector on the SATA power adapter cable. See letters "B" and "C" in the figure below.
  3. Connect the remaining end of the floppy drive power cable to the power connector on the rear of the floppy drive. See letter "D" in the figure.
  4. Connect the floppy drive data cable that was included with your kit between the floppy drive data connector and the server board. See letters "E" and "F" in the figure. See your server board documentation for assistance in locating the connector location on the server board.
  5. Route the floppy drive data cable over the air baffle, as shown in the diagram below.

Diagram showing cable connection to a device with labeled components A, B, C, D, E and connectors F, B, C, D

TP01174

Figure 34. Installing the Slimline Floppy Drive into the Chassis

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  2. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."
  3. Plug all peripheral devices and the AC power cable back into the server.

Removing a Floppy Drive from the Slimline Bay (No Backplane Installed)

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”
  5. Detach the power and data cables from the rear of the floppy drive.
  6. Detach the data cable from the server board and remove the cable from the chassis.
  7. Push in on the blue lever at the rear of the drive carrier.
  8. Slide the floppy drive carrier out through the front of the chassis.
  9. Remove the screw that attaches the interposer board to the drive. Lift the interposer board from the drive.
  10. Remove the flat flex cable from the floppy drive and from the interposer board.
  11. Press downward on the side of the carrier to release the drive from the drive carrier.
  12. Store the floppy drive carrier, the interposer board, the flat flex cable, and the floppy drive data cable for future use.
  13. Install the slimline filler panel into slimline bay if no drive is to be installed into the bay.
  14. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  15. (Optional) Install the front bezel. For instructions, see “Removing and Installing the Front Bezel.”
  16. Plug all peripheral devices and the AC power cable back into the server.

Installing a Floppy Drive into the Converted Hard Drive Bay (Backplane Installed)

The slimline floppy drive conversion kit can only be installed into a system that is using either the SATA or the SCSI backplane. The conversion kit must be installed in the left hard drive bay.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see "Removing and Installing the Front Bezel."
  5. Remove the left hot-swap hard drive carrier from the chassis.
  6. Remove the screws that attach the slide rails to the floppy drive conversion kit carrier.

Diagram illustrating the assembly of a computer drive into a hard drive, with labeled components and directional arrows indicating motion.

TP01307

Figure 35. Removing the Rails from the Floppy Drive Conversion Kit Carrier

Hardware Installations and Upgrades

  1. Slide the floppy drive into the drive carrier, rear of the drive first, with the underside of the drive facing down.
  2. Line up the holes in the side of the drive with the holes in the carrier. See letter "A" in the figure below.

Technical diagram of a device with labeled components A and an arrow indicating direction or movement

TP01308

Figure 36. Inserting a Drive into the Floppy Conversion Kit Carrier

  1. Attach the floppy drive to the carrier with the screws that came with your floppy drive conversion kit. One screw attaches at each side. See the figure below.

INTEL SR1400 - Hardware Installations and Upgrades - 2

natural_image Diagram of a computer drive chassis showing internal components and mounting points (no text or labels)

TP01323

Figure 37. Attaching a Drive to Floppy Drive Conversion Kit Carrier

  1. Reattach the slide rails onto floppy drive conversion kit carrier. See the figure below.

INTEL SR1400 - Hardware Installations and Upgrades - 3

natural_image Diagram of an open computer drive chassis showing internal components and blue directional arrows indicating rotation (no text or symbols present)

TP01309
Figure 38. Install the Rails onto the Floppy Drive Conversion Kit Carrier

  1. Open the connector on the rear of the floppy drive by pulling up on the connector cover. See letter "A" in the figure below.
  2. Insert one end of the flat flex cable end into the floppy drive connector. See letter "B" in the figure.
  3. Push down on the connector cover to lock the cable into place. See letter "C" in the figure.

Diagram illustrating three stages of a curved structural component with labeled parts A, B, and C, showing force application and deformation.

TP01311
Figure 39. Installing the Flat Flex Cable to the Floppy Drive

  1. Slide the carrier assembly into left hard drive bay until it clicks into place. See letter "A" in the figure below.
  2. Open the connector labeled "Floppy Con" on the backplane by pulling up on the connector cover. See letter "B" in the figure below.
  3. Insert the loose end of the flat flex cable into the backplane connector. See letter "C" in the figure.
  4. Push in on the connector cover to lock the cable into place. See letter "D" in the figure.

B C D A TP013

Figure 40. Installing the Slimline Floppy Drive into the Chassis

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover"
  2. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."
  3. Plug all peripheral devices and the AC power cable back into the server.

Removing a Floppy Drive from the Converted Hard Drive Bay

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”
  5. Open the connector labeled "Floppy Con" on the backplane by pulling up on the connector cover. Remove the flat flex cable from the backplane.
  6. Push in on the lever at the rear of the floppy carrier and slide the drive from the front of the chassis.
  7. Open the connector cover on the rear of the floppy drive by pulling up on it. Release the flat flex cable from the drive.
  8. Remove the two screws at each side that hold the drive rails to the drive carrier. Lift the two rails from the carrier.
  9. Disconnect the two screws attaching the drive to the converted hard drive bay carrier.
  10. Install an empty hot-swap hard drive carrier into chassis drive bay if no floppy or hard drive is to be installed into the bay.
  11. Store the screws, the converted drive bay carrier, the side rails, and the flat flex cable for future use.
  12. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  13. (Optional) Install the front bezel. For instructions, see “Removing and Installing the Front Bezel.”
  14. Plug all peripheral devices and the AC power cable back into the server.

Installing or Removing a CD-ROM or DVD-ROM Drive

INTEL SR1400 - Installing or Removing a CD-ROM or DVD-ROM Drive - 1

CAUTION

CD-ROM and DVD-ROM drives are NOT hot swappable. Before removing or replacing the drive, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

Installing a DVD-ROM or CD-ROM Drive into Slimline Bay (Backplane Installed)

INTEL SR1400 - Installing a DVD-ROM or CD-ROM Drive into Slimline Bay (Backplane Installed) - 1

NOTE

The carrier for the slimline DVD-ROM drive / CD-ROM drive was pre-installed in the slimline drive bay of your Server Chassis SR1400.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see "Removing and Installing the Front Bezel."
  5. Push in on the blue lever at the rear of the CD-ROM / DVD-ROM drive carrier and push the carrier out through the front of the chassis.
  6. Align the two holes at left edge of DVD-ROM /CD-ROM drive with the cutouts in drive carrier. See letter "A" in the figure below.
  7. Lower the right side of the DVD-ROM / CD-ROM drive into the carrier until it clicks into place. See letter "B" in the figure below.
  8. Use the two screws indicated in the figure to attach the interposer board to the DVD-ROM / CD-ROM drive. See letters "C" and "D" in the figure.
  9. Attach the 44-pin CD-ROM drive cable to the exposed side / back of the interposer board. See letter "E" in the figure.

Technical diagram showing assembly steps of a computer monitor with labeled components A, B, C, D, and E

Figure 41. Installing a DVD-ROM / CD-ROM Drive into the Carrier

  1. Slide the DVD-ROM / CD-ROM drive carrier into the chassis. See letter "A" in the figure below.

  2. Connect the loose end of the CD-ROM drive cable to the backplane connector. See letter "B" in the figure.

Technical diagram showing a mechanical assembly with labeled components A and B, including directional arrows and component details.

TP01155
Figure 42. Installing a DVD/CDROM Drive into the Chassis

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover."

  2. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."

  3. Plug all peripheral devices and the AC power cable back into the server.

Removing a CD-ROM or DVD-ROM Drive from the Slimline Bay (Backplane Installed)

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."

  2. Power down the server and unplug all peripheral devices and the AC power cable.

  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."

  4. Remove the front bezel if it is installed. For instructions, see "Removing and Installing the Front Bezel."

  5. Disconnect the CD-ROM data cable from the backplane.

  6. Push in on the blue lever at the rear of the drive carrier. Slide the drive carrier out through the front of the chassis.

  7. Press downward on the side of the carrier release the drive from the drive carrier.

  8. Disconnect the data cable from the rear of the CD-ROM or DVD-ROM drive.

  9. Remove the two screws at the rear of the CD-ROM or DVD-ROM drive to disconnect the interposer board.

  10. Store the screw and interposer board for future use. Suggestion: tape the screw to the drive carrier.

  11. Slide the empty drive carrier into the chassis until it clicks into place.
  12. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  13. (Optional) Install the front bezel. For instructions, see “Removing and Installing the Front Bezel.”
  14. Plug all peripheral devices and the AC power cable back into the server.

Installing DVD-ROM or CD-ROM Drive into Slimline Bay (No Backplane Installed)

INTEL SR1400 - Installing DVD-ROM or CD-ROM Drive into Slimline Bay (No Backplane Installed) - 1

NOTE

The carrier for the slimline DVD-ROM drive / CD-ROM drive was pre-installed in the slimline drive bay of your Server Chassis SR1400. The interposer board and floppy drive power adapter cable used in these instructions was sent to you with your fixed drive kit.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the front bezel if it is installed. For instructions, see “Removing and Installing the Front Bezel.”
  5. Push in on the blue lever at the rear of the CD-ROM / DVD-ROM drive carrier and push the carrier out through the front of the chassis.

  6. Align the two holes at left edge of DVD-ROM / CD-ROM drive with the cutouts in drive carrier. See letter "A" in the figure below.

  7. Lower the right side of the DVD-ROM / CD-ROM drive into the carrier until it clicks into place. See letter "B" in the figure below.
  8. Use the two screws indicated in the figure to attach the interpose board to the DVD-ROM / CD-ROM drive. See letters "C" and "D" in the figure.

A B C D D TP01166

Figure 43. Installing a DVD-ROM or CD-ROM Drive into the Carrier

  1. Insert the DVD-ROM / CD-ROM drive carrier into the chassis. See letter "A" in the figure below.
  2. If it is not already connected, connect the 2x3 end of the DVD-ROM/CD-ROM drive power cable that was included with your fixed drive kit to the 2x3 power connector on the SATA power adapter cable. See letters "B" and "C" in the figure below.
  3. Connect the drive power cable to the power connector on the rear of the DVD-ROM or CD-ROM drive. See letter "D" in the figure.
  4. Connect the DVD-ROM / CD-ROM drive data cable that was included with your kit between the interposer board and the IDE connector on the server board. See letters "E" and "F" in the figure. See your server board documentation for assistance in locating the connector location on the server board.
  5. Route the DVD-ROM / CD-ROM drive data cable over the top of air baffle, as shown in the diagram below.
  6. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  7. (Optional) Install the front bezel. For instructions, see "Removing and Installing the Front Bezel."
  8. Plug all peripheral devices and the AC power cable back into the server.

Diagram illustrating network device connections with labeled ports A, B, C, D, E and a server rack, showing cable routing and port layout.

TP01167

Figure 44. Installing a DVD-ROM or CD-ROM Drive into the Chassis

Installing and Removing a PCI Riser Connector

You received your server chassis with your choice of one of two PCI riser solutions.

INTEL SR1400 - Installing and Removing a PCI Riser Connector - 1

CAUTION

PCI riser connectors are NOT hot swappable. Before removing or replacing the riser connector, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

Installing a PCI Riser Connector

To install the PCI riser connector, use the following instructions.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Pull up on the two latches on the assembly. See letter "A" in the figure below.
  5. Lift the PCI riser assembly from the chassis.

A B TP01312

Figure 45. Removing the PCI Riser Assembly from the Chassis

Hardware Installations and Upgrades

  1. Line up the screws on the riser assembly with the slot and the large hole on the riser connector.
  2. Press and hold the blue riser locking lever. See letter "A" in the figure below.
  3. Place riser connector onto the retention pins.
  4. Slide the riser connector to the right to lock it into place.
  5. Release the blue locking lever.

Technical diagram showing assembly of a mechanical component with labeled parts A and B, including a hand pressing a component.

Figure 46. Installing an Add-in Card Connector into the PCI Riser Assembly

  1. Install a PCI add-in card, if desired. For instructions, see "Installing a PCI Add-in Card."
  2. Position the riser assembly over the PCI sockets on the server board (see letter "A" in the figure below), lining up the four hooks at the rear of the riser assembly (see letter "B") with the four slots in the rear of the chassis (see letter "C").
  3. Push the riser assembly down until the assembly is securely seated.

A B C TP01316

Figure 47. Installing the PCI Riser Assembly into the Chassis

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  2. Plug all peripheral devices and the AC power cable back into the server.

Removing a PCI Riser Connector

The PCI riser connector can be replaced if it fails or if a different option is required. To replace the PCI riser connector, use the following instructions to remove it, and then follow the instructions under “Installing a PCI Riser Connector” to install a new riser connector.

INTEL SR1400 - Removing a PCI Riser Connector - 1

NOTE

To eliminate the possibility of installing the replacement connector on the wrong side of the PCI riser assembly, replace one connector at a time.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Lift up on the two blue levers to lift the PCI riser assembly from the chassis.
  5. Remove any PCI add-in cards that are installed in the connector. For instructions, see "Removing a PCI Add-in Card."
  6. Push back on the blue release lever at the end of the riser connector. While holding the lever back, push firmly on the other edge of the board to disengage the board from the riser.
  7. Follow the steps under “Installing a PCI Riser Connector” to install a replacement riser connector.
  8. Install the chassis cover. For instructions, see "Installing the Chassis Cover."

Installing and Removing a PCI Add-in Card

Installing a PCI Add-in Card

In the slots provided by the PCI riser connector, you can install either one or two add-in cards. Use the following instructions to install an add-in card.

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Pull up on the two latches on the assembly. See letter "A" in the figure below.
  5. Lift the PCI riser assembly from the chassis.

A B TP0131

Figure 48. Removing the PCI Riser Assembly from the Chassis

Hardware Installations and Upgrades

  1. Open the PCI retention clip on the PCI riser card assembly. See letter "A" in the figure below.

  2. Remove the filler panel at the back of the riser assembly. See letter "B" in the figure below.

  3. Insert the add-in card until it seats in riser card connector. Make sure the bracket inserts into the matching slot. See letter "C".

  4. Close the retention clip. See letter "A" in the figure.

Technical diagram showing assembly of a mechanical component with labeled parts A, B, and C, including a hand interacting with the component.

TP01315
Figure 49. Installing an Add-in Card to the PCI Riser Assembly

  1. Position the riser assembly over the PCI sockets on the server board (see letter "A" in the figure below), lining up the four hooks at the rear of the riser assembly (see letter "B") with the four slots in the rear of the chassis (see letter "C").

  2. Push the riser assembly down until the assembly is securely seated.

A B C TP01316

Figure 50. Installing the PCI Riser Assembly into the Chassis

  1. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  2. Plug all peripheral devices and the AC power cable back into the server.

Removing a PCI Add-in Card

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Pull up on the two latches on the riser assembly.
  5. Lift the PCI riser assembly from the chassis.
  6. Open the PCI retention clip on the PCI riser card assembly.
  7. Remove the add-in card
  8. Close the retention clip.
  9. Position the riser assembly over the PCI sockets on the server board.
  10. Push the riser assembly down until the assembly is securely seated.
  11. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  12. Plug all peripheral devices and the AC power cable back into the server.

Replacing the Control Panel

The steps for replacing the Standard Control Panel and the Intel ^® Local Control Panel are nearly identical. Use the steps below for both varieties of the control panel. Where necessary, differences between the two control panels are noted.

Your server must be operated with a control panel installed.

INTEL SR1400 - Replacing the Control Panel - 1

CAUTION

The control panel is NOT hot swappable. Before removing or replacing the control panel, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."

  4. Press the latch at the back of the control panel. See letter "A" in the figure below.

  5. Slide the control panel out through the front of the chassis far enough so that you can reach the front panel and USB cable connectors at the rear of the control panel. See letter "B" in the figure. You may need to disconnect the ends of the front panel and USB cables that are attached to the server board or to a backplane board to create sufficient slack to slide the control panel module from the chassis.

  6. Disconnect the front panel cable and the USB cable from the front panel control board at the rear of the control panel. See letters "C" and "D" in the figure.

INTEL SR1400 - CAUTION - 1

NOTE

The cables at the rear of the control panel are positioned differently for the Intel ^® Local Control Panel and the Standard Control Panel. In the Local Control Panel, the USB cable (letter “D” in the figure below) is perpendicular to the front panel cable (letter “C” in the figure below), instead of parallel to it. Note the positions as you remove the cables from the control panel.

C D B A B TP01297

Figure 51. Removing the Control Panel from the Chassis

  1. Connect the front panel cable and the USB cable to the replacement control panel.
  2. Slide the replacement control panel into the chassis until it clicks into place.
  3. If you needed to disconnect the front panel or USB cable from the server board or from a backplane board, reconnect the cable(s).
  4. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  5. Plug all peripheral devices and the AC power cable back into the server.

Replacing a System Fan

The system fans at the front of the Server Chassis SR1400 can be individually replaced if one of them fails. Use the steps below to replace either a dual rotor fan or a single rotor fan.

The fans that are integrated into the power supply cannot be replaced separately. If one of the fans in the power supply fails, the power supply must be replaced.

To replace a dual rotor system fan, use the following instructions.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the processor air duct. For instructions, see "Removing the Processor Air Duct."
  5. Follow the cable from the failed fan to the connector on the fan distribution board.
  6. Disconnect the cable from the fan distribution board.
  7. There are no screws or connections to loosen. Lift the failed fan from the fan module assembly.
  8. Note the position of the raised arrows in the top of the replacement fan. Position the fan so one arrow points to the left, and the other arrow points to the rear of the chassis.
  9. With the fan arrows oriented correctly, insert the replacement fan into the fan module.
  10. Connect the power cable for the fan into the fan distribution board.
  11. Install the processor air duct. For instructions, see "Installing the Processor Air Duct."
  12. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  13. Plug all peripheral devices and the AC power cable back into the server.

Replacing the Power Supply

INTEL SR1400 - Replacing the Power Supply - 1

CAUTION

The power supply is NOT hot swappable. Before removing or replacing the power supply, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

The power supply can be replaced if it fails or if one of the fans that is integrated into it fails. To replace the power supply, use the following instructions.

  1. Observe the safety and ESD precautions at the beginning of this book. See “Safety Information.”
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the air baffle. For instructions, see "Removing the Air Baffle."
  5. Unplug the power signal cable, main power cable, and CPU power cables that are connected to the server board. See your server board documentation to locate the connection points. If you have a backplane installed, you may need to disconnect the flex cable from the server board to access one or more of these cables. See letter "A" in the figure below to locate the flex cable.
  6. If you have a backplane installed, disconnect the 2x3 power cable from the backplane. See letter "B" in the figure below.
  7. If you are using fixed drives, disconnect the 2x3 power cable adapter from the power supply cable.

A B TP01149

Figure 52. Removing the Power Supply Connections

  1. There are no screws or connections to loosen. Lift up on the front edge of the power supply (closest to the front of the chassis).
  2. Pull the power supply toward you to disengage it from the clips that hold it at the rear of the chassis.
  3. Lift the power supply from the chassis.
  4. Set the replacement power supply into the chassis.
  5. Push the power supply towards the rear of the chassis, engaging it underneath the two clips at the rear of the chassis.
  6. Connect the power signal cable, the main power cable, and the CPU power cable to the server board. See your server board documentation to locate the connection points on the server board.
  7. If you are using a backplane, connect the 2x3 power cable to the backplane.

  8. If you are using a backplane, connect the backplane flex cable to server board if you needed to detach it earlier.

  9. If you are using a fixed drive kit, connect the 2x3 power cable to the SATA power cable adapter.
  10. Install the air baffle. For instructions, see "Installing the Air Baffle."
  11. Install the chassis cover. For instructions, see "Installing the Chassis Cover."
  12. Plug all peripheral devices and the AC power cable back into the server.

Removing and Installing the SATA or SCSI Backplane

You received your server chassis with your choice of one of drive installation options:

■ A hot-swap SCSI option that came with a SCSI backplane board.
- A hot-swap SATA option that came with a SATA backplane board.
- A fixed SATA drive option. This option does not include a board to install.

INTEL SR1400 - Removing and Installing the SATA or SCSI Backplane - 1

CAUTION

The backplane is NOT hot swappable. Before removing or replacing the backplane, you must first take the server out of service, turn off all peripheral devices connected to the system, turn off the system by pressing the power button, and unplug the AC power cord from the system or wall outlet.

The backplane board and the hardware that came with the backplane can be replaced if your backplane fails or if a different option is required. To replace the backplane, use the following instructions to remove and then to install a backplane.

Removing the SATA or SCSI Backplane

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."

  2. Power down the server and unplug all peripheral devices and the AC power cable.

  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."

  4. Remove the air baffle. For instructions, see "Removing the Air Baffle."

  5. Remove all hot-swap drive carriers. For instructions, see "Error! Reference source not found."

  6. Disconnect all cables from the backplane:

  7. Loosen the blue captive screw at the right side of the backplane. See letter "A" in the figure below.

  8. Slide the board to the right until it stops. Do not pull on any components on the board – grasp only on the edges of the board. See letter "B" in the figure.

  9. Lift the backplane from the chassis. The holes in the backplane will slide from the matching pins in the chassis. If any of the pins catches on the holes, it means you have not slid the board fully to the right. See letter "C" in the figure.

Diagram of a computer motherboard with labeled components and directional arrows indicating movement or process flow.

TP01146
Figure 53. Removing the SATA or SCSI Backplane from the Chassis

Installing the SCSI or SATA Backplane

  1. Observe the safety and ESD precautions at the beginning of this book. See "Safety Information."
  2. Power down the server and unplug all peripheral devices and the AC power cable.
  3. Remove the chassis cover. For instructions, see "Removing the Chassis Cover."
  4. Remove the air baffle. For instructions, see "Removing the Air Baffle."
  5. Remove all hot-swap drive carriers. For instructions, see "Error! Reference source not found."
  6. Set the backplane board in place so that the holes in the board fit through the pegs in the bottom of the server chassis. See letter "A" in the figure below.
  7. Slide the board to the left until it stops. Do not pull on any components on the board – grasp only on the edges of the board. See letter “B” in the figure.
  8. Tighten the blue captive screw at the right side of the backplane board. See letter "C" in the figure.

Diagram of a computer motherboard with labeled components and directional arrows indicating movement or process flow.

TP01146

Figure 54. Installing a SATA or SCSI Backplane into the Chassis

  1. Connect the following cables to the backplane:

  2. Front panel cable
    ■ Power cable

  3. Flex cable. The cable indicates the end that is to be connected to the backplane.
  4. (SCSI backplane only): SCSI Channel A cable. The cable indicates the end that is to be connected to the backplane.
    ■ (SATA backplane only): SATA cable(s).
    ■ Floppy drive cable, if applicable
  5. CD-ROM drive cable, if applicable

  6. Install the air baffle. For instructions, see "Installing the Air Baffle."

  7. Install the chassis cover. For instructions, see "Installing the Chassis Cover."

  8. Install the hot-swap hard drive(s), if applicable. For instructions, see “Removing a SATA or SCSI Hot-swap Hard Disk Drive.”
  9. (Optional) Install the front bezel. For instructions, see "Installing the Front Bezel."

Cable Routing

When you add or remove components from your server chassis, make sure your cables are routed correctly before reinstalling the chassis cover. Use caution to make sure no cables or wires are pinched and that the airflow from the fans is not blocked. Use the tables and figure below to determine the correct cable routing.

A B C D E F G

TP01321

Figure 55. Cable Routing Around the Air Baffle
INTEL SR1400 - Cable Routing - 2

NOTE

For cable routing that refers to letter "D", route cables underneath the indicated tab.

Table 2. Cable Routing Around Air Baffle for Fixed Drive Installation

CableABCDEFG
MainPowerCableX
CPUPowerCableX
PowerSignalCableX
Front Panel USB CableXX
FrontPanelCableX
FloppyDataCableX
CDROMDataCableX
SATAPowerCable
SATA Data Cable(s)X X X

Table 3. Cable Routing Around Air Baffle for Hot-Swap Drive Installation

CableABCDEFG
Main Power CableX
CPU Power Cable
Power Signal CableX
Front Panel USB CableXX
Backplane Flex CableX
SATA Data Cable(s)XXX
SCSI Cable(s)X
CD ROM Data CableX

Power Supply Specifications

500-W Single Power Supply Input Voltages

■ 100-127 V\~ at 50/60 Hz; 8.2 A max.
■ 200-240 V\~ at 50/60 Hz; 4.1 A max.

500-W Single Power Supply Output Voltages

The table below lists the total wattage available from the power subsystem for each voltage. Ensure that your loads do not exceed the combined total wattage of 500 Watts. For information about calculating the power usage for your configuration, see “Calculating Power Usage.”

Table 1. 500-W Power Supply System Output Capability

VoltageMaximumCurrent
+3.3 V 16 A
+5.0 V 12 A
+5 V Standby 2 A
+12.0 35 A
-12.0 V 0.5 A

INTEL SR1400 - 500-W Single Power Supply Output Voltages - 1

CAUTION

Do not exceed a combined power output of 90Watts for the +5 V and +3.3 V outputs. Exceeding a combined 90 Watts will overload the power subsystem and may cause the power supplies to overheat and malfunction.

System Environmental Specifications

Table 2. Environmental Specifications

TemperatureNon-operatingOperating-40 ° to 70 °C.10 ° to 35 °C; derated 0.5 °C for every 1000 ft (305 m) to a maximum of 10,000 ft.
HumidityNon-operating90% relative humidity (non-condensing) at 30 °C.
ShockOperatingPackaged2.0 g, 11 msec, 1/2 sineOperational after an 18" free fall.
Acoustic noise 7 Bels in sound power for a typical office ambient temperature(65-75 °F).Your selection of peripherals may change the noise level.
Electrostatic discharge (ESD) Tested to 15 kilovolts (kV); no component damage.

Equipment Log

Use this equipment log to record information about your server.

Item ManufacturerName and Model Number Serial NumberDate Installed
Chassis
Server Board
Processor Speed and Cache
Memory
Video Display
Keyboard
Mouse
Diskette Drive A
CD-ROM Drive
Hard Disk Drive
Hard Disk Drive
Hard Disk Drive
Intel® Management Module
Intel® Local Control Panel

Current Usage

Calculating Power Usage

The total combined wattage for your configuration must be less than the wattage rating for your power supply. Use the worksheets in this section to calculate the total used by your configuration. See the documentation that came with your add-in boards for their current and voltage information.

Worksheet, Calculating DC Power Usage

Table 3. Power Usage Worksheet 1

Current (maximum)
Device +3.3 V +5 V -5 V +12 V -12 V 5 V Standby
Baseboard, Front Panel Board and Fans
Processor(s)
Memory
3.5-inch DisketteDrive
CD-ROM Drive
1st Hard Drive
2nd Hard Drive
3rd Hard Drive
Expansion Board1
Expansion Board2
Intel® ManagementModule
Local ControlPanel
Total Current

at voltage leve

Worksheet, Total Combined Power Used by the Server

  1. From the previous worksheet, enter the total current for each column.
  2. Multiply the voltage by the total current to get the total wattage for each voltage level.
  3. Add the total wattage for each voltage level to arrive at the total combined power usage for the power subsystem.

Table 4. Power Usage Worksheet 2

Voltage level and total current(V X A = W)Total Wattsfor each voltage level
(+3.3 V) X (____ A) ____ W(+5 V) X (____ A) ____ W(+12 V) X (____ A) ____ W(-12 V) X (____ A) ____ W(5 V standby) X (____ A) ____ W
Total Combined Wattage ____W

INTEL SR1400 - Worksheet, Total Combined Power Used by the Server - 1

CAUTION

Do not exceed a combined power output of 140 Watts for the +5 V and +3.3 V outputs. Exceeding a combined 140 Watts will overload the power subsystem and may cause the power supplies to overheat and malfunction.

Equipment Log and Worksheets

Regulatory and Compliance Information

Product Regulatory Compliance

Product Safety Compliance

The Server Chassis SR1400 complies with the following safety requirements:

  • UL60950 – CSA 60950(USA / Canada)
    ■ EN60950 (Europe)
    ■ IEC60950 (International)
    ■ CB Certificate & Report, IEC60950 (report to include all country national deviations)
    ■ GS License (Germany)
    ■ GOST R 50377-92 - License (Russia)
    ■ Belarus License (Belarus)
    ■ Ukraine License (Ukraine)
    ■ CE - Low Voltage Directive 73/23/EEE (Europe)
    ■ IRAM Certification (Argentina)
    ■ GB4943-CNCA Certification (China)

Product EMC Compliance – Class A Compliance

The Server Chassis SR1400 has been has been tested and verified to comply with the following electromagnetic compatibility (EMC) regulations when installed a compatible Intel® host system. For information on compatible host system(s) refer to Intel's Server Builder Web site or contact your local Intel representative.

■ FCC /ICES-003 - Emissions (USA/Canada) Verification
- CISPR 22 – Emissions (International)
■ EN55022 - Emissions (Europe)
■ EN55024 - Immunity (Europe)
■ EN61000-3-2 - Harmonics (Europe)
■ EN61000-3-3 - Voltage Flicker (Europe)
■ CE – EMC Directive 89/336/EEC (Europe)
■ VCCI Emissions (Japan)

■ AS/NZS 3548 Emissions (Australia / New Zealand)

■ BSMI CNS13438 Emissions (Taiwan)

■ GOST R 29216-91 Emissions (Russia)

■ GOST R 50628-95 Immunity (Russia)

■ Belarus License (Belarus)

■ Ukraine License (Ukraine)

RRL MIC Notice No. 1997-41 (EMC) & 1997-42 (EMI) (Korea)

■ GB 9254 - CNCA Certification (China)

■ GB 17625 - (Harmonics) CNCA Certification (China)

Certifications / Registrations / Declarations

■ UL Certification (US/Canada)
■ CE Declaration of Conformity (CENELEC Europe)
■ FCC/ICES-003 Class A Attestation (USA/Canada)
■ VCCI Certification (Japan)
■ C-Tick Declaration of Conformity (Australia)
■ MED Declaration of Conformity (New Zealand)
■ BSMI Certification (Taiwan)
■ GOST R Certification / License (Russia)
■ Belarus Certification / License (Belarus)
■ RRL Certification (Korea)
- IRAM Certification (Argentina)
■ CNCA Certification (China)
■ Ecology Declaration (International)

Product Regulatory Compliance Markings

This product is marked with the following Product Certification Markings:

Table 4. Product Certification Markings

Regulatory Compliance Country Marking
cULus Listing Marks USA/CanadaINTEL SR1400 - Product Regulatory Compliance Markings - 1
GS Mark GermanyINTEL SR1400 - Product Regulatory Compliance Markings - 2INTEL SR1400 - Product Regulatory Compliance Markings - 3
CE Mark EuropeINTEL SR1400 - Product Regulatory Compliance Markings - 4
FCC Marking (Class A) USAThis device complies with Part 15 of the FCC Rules. Operation of this device is subject to the following two conditions:(1) This device may not cause harmful interference, and(2) This device must accept any interference received,including interference that may cause undesired operation.Manufactured by Intel Corporation
EMC Marking (Class A) CanadaCANADA ICES-003 CLASS ACANADA NMB-003 CLASSE A
VCCI Marking (Class A) Japanこの装置は、クラスA情報技術装置です。この装置を家庭環境で使用すると電波妨害を引き起こすことがあります。この場合には使用者が適切な対策を講ずるよう要求されることがあります。VCCI-A

continued

Table 4. Product Certification Markings (continued)

Regulatory Compliance Country Marking
BSMI Certification Number & Class A WarningTaiwanINTEL SR1400 - Product Regulatory Compliance Markings - 5
警告使用者:這是甲類的資訊產品,在居住的環境中使用時,可能會造成射頻干擾,在這種情況下,使用者會被要求採取某些適當的對策
GOST R Marking RussiaINTEL SR1400 - Product Regulatory Compliance Markings - 6
RRL MIC Mark KoreaINTEL SR1400 - Product Regulatory Compliance Markings - 7
China Compulsory Certification MarkChinaINTEL SR1400 - Product Regulatory Compliance Markings - 8

Electromagnetic Compatibility Notices

FCC (USA)

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

For questions related to the EMC performance of this product, contact:

Intel Corporation

5200 N.E. Elam Young Parkway

Hillsboro, OR 97124

1-800-628-8686

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

■ Reorient or relocate the receiving antenna.
■ Increase the separation between the equipment and the receiver.
- Connect the equipment to an outlet on a circuit other than the one to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.

Any changes or modifications not expressly approved by the grantee of this device could void the user's authority to operate the equipment. The customer is responsible for ensuring compliance of the modified product.

Only peripherals (computer input/output devices, terminals, printers, etc.) that comply with FCC Class A or B limits may be attached to this computer product. Operation with noncompliant peripherals is likely to result in interference to radio and TV reception.

All cables used to connect to peripherals must be shielded and grounded. Operation with cables, connected to peripherals, that are not shielded and grounded may result in interference to radio and TV reception.

Industry Canada (ICES-003)

English translation of the notice above:

This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the interference-causing equipment standard entitled “Digital Apparatus,” ICES-003 of the Canadian Department of Communications.

Europe (CE Declaration of Conformity)

This product has been tested in accordance too, and complies with the Low Voltage Directive (73/23/EEC) and EMC Directive (89/336/EEC). The product has been marked with the CE Mark to illustrate its compliance.

VCCI (Japan)

English translation of the notice above:

This is a Class A product based on the standard of the Voluntary Control Council for Interference (VCCI) from Information Technology Equipment. If this is used near a radio or television receiver in a domestic environment, it may cause radio interference. Install and use the equipment according to the instruction manual.

BSMI (Taiwan)

The BSMI Certification Marking and EMC warning is located on the outside rear area of the product.

Korean RRL Compliance

INTEL SR1400 - Korean RRL Compliance - 1

English translation of the notice above:

  1. Type of Equipment (Model Name): On License and Product
  2. Certification No.: On RRL certificate. Obtain certificate from local Intel representative
  3. Name of Certification Recipient: Intel Corporation
  4. Date of Manufacturer: Refer to date code on product
  5. Manufacturer/Nation: Intel Corporation/Refer to country of origin marked on product

Regulated Specified Components

To maintain the UL listing and compliance to other regulatory certifications and/or declarations, the following regulated components must be used and conditions adhered to. Interchanging or use of other component will void the UL listing and other product certifications and approvals.

Updated product information for configurations can be found on the Intel Server Builder Web site at the following URL:

http://channel.intel.com/go/serverbuilder

If you do not have access to Intel's Web address, please contact your local Intel representative.

■ Server Chassis (base chassis is provided with power supply and fans)—UL listed.
- Server board—you must use an Intel server board—UL recognized.
- Add-in boards—must have a printed wiring board flammability rating of minimum UL94V-1. Add-in boards containing external power connectors and/or lithium batteries must be UL recognized or UL listed. Any add-in board containing modem telecommunication circuitry must be UL listed. In addition, the modem must have the appropriate telecommunications, safety, and EMC approvals for the region in which it is sold.
- Peripheral Storage Devices—must be UL recognized or UL listed accessory and TUV or VDE licensed. Maximum power rating of any one device is 19 watts. Total server configuration is not to exceed the maximum loading conditions of the power supply.

World Wide Web

http://support.intel.com/support/motherboards/server/SR1400

Telephone

All calls are billed US \$25.00 per incident, levied in local currency at the applicable credit card exchange rate plus applicable taxes. (Intel reserves the right to change the pricing for telephone support at any time without notice).

Before calling, fill out the “Issue Report Form” on the following pages.

In U.S. and Canada 1-800-404-2284
In Europe
UK08706072439Finland 9 693 79297
France 01 41 918529Denmark 38 487077
Germany069 95096099Norway 23 1620 50
Italy 02 696 33276Sweden 08 445 1251
Spain 91 377 8166Holland 020 487 4562
In Asia-Pacific region
Australia1800 649931Indonesian 001-803 65 7249
Hong Kong852 2 844 4456Malaysia 1-800 80 1390
Korea822 767 2595New Zealand 0800 444 365
PRC800 820 1100Pakistan 632 6368415 (IDD via Philippines)
Singapore65 213-1311Philippines 1-800 1 651 0117
Taiwan2 2545-1640Thailand 1-800 6310003
India0006517-830 3634Vietnam 632 6368416 (IDD via Philippines)
In Japan
0120-868686 (Domestic)81-298-47-0800 (outside country)
In Latin America
Brazil0021-0811-408-5540Ecuador 999-119, 800-628-8686 (via AT&T)
Mexico001-800-628-8686Guatemala 99-99-190, 800-628-8686 (via AT&T)
Colombia980-9-122-118Venezuela 800-11-120, 800-628-8686 (via AT&T)
Costa Rica0-800-011-0395Argentina 001-800-222-1001, 800-628-8686 (via AT&T)
Panama001-800-628-8686Paraguay 008-11, 800-628-8686 (via AT&T)
Chile800-532-992Peru 0-800-50000, 800-628-8686 (via AT&T)
Miami1-800-621-8423Uruguay 000-410, 800-628-8686 (via AT&T)

For an updated support contact list, see http://www.intel.com/support/9089.htm/

Intel® Server Issue Report Form

Date Submitted:

Company Name:

Contact Name:

Email Address:

Intel Server Product:

Priority (Critical, Hot, High, Low):

Brief Problem Description. Provide a brief description below. See the last page for space to include a detailed problem description.

Board / Chassis Information

Server Board DIMM Configuration
☐ Intel Server BoardSE7520JR2DIMM1A MB:
☐ Other (list):DIMM1A Vendor/part number:
Baseboard Revision – PBA#:DIMM1B MB:
Baseboard Serial Number:DIMM1B Vendor/part number:
CPU1 Speed/Stepping/Spec:DIMM2AMB:
CPU2 Speed/Stepping/Spec:DIMM2A Vendor/part number:
System BIOS Version:DIMM2BMB:
HSC Firmware Version:DIMM2B Vendor/part number:
DIMM3AMB:
DIMM3A Vendor/part number:
DIMM3BMB:
DIMM3B Vendor/part number:

Operating System Information

Operating System ____

Version

Service Pack # ____

Peripheral Information

Check each box below that is used, and provide the requested information

Peripheral Card Or Peripheral Description DriverRevisionIRQ # I/O BaseAddressFW Rev#
Add-in Cards
☐ Add-in Card
☐ Add-in Card
☐ Add-in Card
Video
☐ On-Board Video
☐ Add-in Video
NIC
☐ On-Board NIC1
☐ On-Board NIC2

Hard Drive Information:

☐ IDE # of drives installed: ____

Make/Model/Firmware Revision ____

☐ SCSI # of drives installed: ____

Make/Model/Firmware Revision

☐ SATAI # of drives installed: ____

Make/Model/Firmware Revision

Intel Server Issue Report Form

Complete Problem Description

In the space below, provide a complete description of the steps used to reproduce the problem or a complete description of where the problem can be found. Please also include any details on troubleshooting already done.

Limited Warranty for Intel® Chassis Subassembly Products

Intel warrants that the Products (defined herein as the Intel ^ chassis subassembly and all of its various components and software delivered with or as part of the Products) to be delivered hereunder, if properly used and installed, will be free from defects in material and workmanship and will substantially conform to Intel's publicly available specifications for a period of three (3) years after the date the Product was purchased from an Intel authorized distributor. Software of any kind delivered with or as part of products is expressly provided “as is” unless specifically provided for otherwise in any software license accompanying the software.

If any Product furnished by Intel which is the subject of this Limited Warranty fails during the warranty period for reasons covered by this Limited Warranty, Intel, at its option, will:

• REPAIR the Product by means of hardware and/or software; OR
• REPLACE the Product with another Product; OR
- REFUND the then-current value of the Product if Intel is unable to repair or replace the Product.

If such Product is defective, transportation charges for the return of Product to buyer within the USA will be paid by Intel. For all other locations, the warranty excludes all costs of shipping, customs clearance, and other related charges. Intel will have a reasonable time to make repairs or to replace Product or to refund the then-current value of the Product.

In no event will Intel be liable for any other costs associated with the replacement or repair of Product, including labor, installation or other costs incurred by buyer and in particular, any costs relating to the removal or replacement of any product soldered or otherwise permanently affixed to any printed circuit board.

This Limited Warranty, and any implied warranties that may exist under state law, apply only to the original purchaser of the Product.

Extent of Limited Warranty

Intel does not warrant that Products to be delivered hereunder, whether delivered stand-alone or integrated with other Products, including without limitation semiconductor components, will be free from design defects or errors known as “errata.” Current characterized errata are available upon request.

This Limited Warranty does not cover damages due to external causes, including accident, problems with electrical power, usage not in accordance with product instructions, misuse, neglect, alteration, repair, improper installation, or improper testing.

Warranty Limitations and Exclusions

These warranties replace all other warranties, expressed or implied including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Intel makes no expressed warranties beyond those stated here. Intel disclaims all other warranties, expressed or implied including, without limitation, implied warranties of merchantability and fitness for a particular purpose. Some jurisdictions do not allow the exclusion of implied warranties, so this limitation may not apply.

All expressed and implied warranties are limited in duration to the limited warranty period. No warranties apply after that period. Some jurisdictions do not allow limitations on how long an implied warranty lasts, so this limitation may not apply to you.

Limitations of Liability

Intel's responsibility under this, or any other warranty, implied or expressed, is limited to repair, replacement, or refund, as set forth above. These remedies are the sole and exclusive remedies for any breach of warranty. Intel is not responsible for direct, special, incidental, or consequential damages resulting from any breach of warranty under another legal theory including, but not limited to, lost profits, downtime, goodwill, damage to or replacement of equipment and property, and any costs of recovering, reprogramming, or reproducing any program or data stored in or used with a system containing this product. Some jurisdictions do not allow the exclusion or limitation of incidental or consequential damages, so the above limitations or exclusions may not apply to you.

This limited warranty gives you specific legal rights, and you may also have other rights that vary from jurisdiction to jurisdiction.

Any and all disputes arising under or related to this Limited Warranty shall be adjudicated in the following forums and governed by the following laws: for the United States of America, Canada, North America, and South America, the forum shall be Santa Clara, California, USA, and the applicable law shall be that of the State of California, USA; for the Asia Pacific region, the forum shall be Singapore and the applicable law shall be that of Singapore; for Europe and the rest of the world, the forum shall be London and the applicable law shall be that of the United Kingdom.

In the event of any conflict between the English language version and any other translated version(s) of this Limited Warranty, the English language version shall control.

How to Obtain Warranty Service

To obtain warranty service for this Product, you may contact Intel or your authorized distributor.

North America and Latin America—To obtain warranty repair for the product, please go to the following Web site to obtain instructions:

http://support.intel.com/support/motherboards/draform.htm

In Europe and in Asia—Contact your original authorized distributor for warranty service.

Any replacement Product is warranted under this written warranty and is subject to the same limitations and exclusions for the remainder of the original warranty period.

Telephone Support

If you cannot find the information you need on Intel's World Wide Web site (http://www.intel.com/), call your local distributor or an Intel Customer Support representative. See "Getting Help" for telephone numbers.

Returning a Defective Product

Before returning any product, call your authorized dealer/distribution authority.

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Brand : INTEL

Model : SR1400

Category : Server