NEC EXPRESS5800/140He, EXPRESS5800/140Rd-4 Service Manual

Nec-coF()

      

      

      

      

      

      

      



     

      

      

      

      

      

      

Service Guide

EXPRESS5800/140He

E

XPRESS5800/140Rd-4

This page is intentionally left blank.

Proprietary Notice and Liability Disclaimer

The information disclosed in this document, including all designs and related materials,
is the valuable property of NEC Computers and/or its licensors. NEC Computers and/or
its licensors, as appropriate, reserve all patent, copyright and other proprietary rights to
this document, including all design, manufacturing, reproduction, use, and sales rights
thereto, except to the extent said rights are expressly granted to others.

The NEC Computers product(s) discussed in this document are warranted in accordance
with the terms of the Warranty Statement accompanying each product. However, actual
performance of each product is dependent upon factors such as system configuration,
customer data, and operator control. Since implementation by customers of each
product may vary, the suitability of specific product configurations and applications
must be determined by the customer and is not warranted by NEC Computers.

To allow for design and specification improvements, the information in this document is
subject to change at any time, without notice. Reproduction of this document or portions
thereof without prior written approval of NEC Computers is prohibited.

rev 1 January 2006
P/N 855-910645-0

Copyright 2006

NEC Computers S.A.S.

10 rue Godefroy

Immeuble OPTIMA

92821 PUTEAUX

FRANCE

This page is intentionally left blank.

- i -

Safety Notes

This section provides notes on using the server safely.

SAFETY INDICATIONS

To ensure proper and safe maintenance of the server, handle the server according to the direction
of the Maintenance Guide.

The Maintenance Guide describes possible dangers in use of the server, the dangers you
encounter if you do not observe the instructions, and the ways to avoid the dangers.

Warning labels are attached to components with possible danger or their vicinity in the server
when operating the server.

In the Maintenance Guide and the warning labels, "WARNING" and "CAUTION" are used as the
terms indicating hazardous levels. The terms are defined to have the following meanings.

WARNING

Indicates the presence of a hazard that may result in death or serious
personal injury.

CAUTION

Indicates the presence of a hazard that may cause minor personal injury,
including burns, or property damage.

Precautions and notices against hazards are presented with one of the following three symbols.
The individual symbols are defined as follows:

This symbol indicates the presence of a hazard.
An image in the symbol illustrates the hazard type. (Attention)

This symbol indicates prohibited actions. An image in the symbol illustrates a
particular prohibited action. (Prohibited Action)

This symbol indicates mandatory actions. An image in the symbol illustrates a
mandatory action to avoid a particular hazard. (Mandatory Action)

- ii -

SYMBOLS USED IN THIS GUIDE AND WARNING LABELS

Attentions

Indicates that improper use may cause an electric shock.

Indicates that improper use may cause personal injury.

Indicates that improper use may cause fingers to be caught.

Indicates that improper use may cause fumes or fire.

Indicates a general notice or warning that cannot be specifically identified.

Prohibited Actions

Indicates a general prohibited action that cannot be specifically identified.

Do not disassemble, repair, or modify the server. Otherwise, an electric shock or fire
may be caused.

Mandatory Action

Unplug the power cord of the server. Otherwise, an electric shock or fire may be
caused.

Indicates a mandatory action that cannot be specifically identified. Make sure to follow
the instruction.

- iii -

Safety Notes

This section provides notes on using the server safely. Read this section carefully to ensure proper
and safe use of the server. For symbols, see "SAFETY INDICATIONS" provided earlier.

General

WARNING

Do not use the server for services where critical high availability may directly affect
human lives.

The server is not intended to be used with or control facilities or devices concerning

human lives, including medical devices, nuclear facilities and devices, aeronautics
and space devices, transportation facilities and devices; and facilities and devices
requiring high reliability. The manufacturer assumes no liability for any accident
resulting in personal injury, death, or property damage if the server has been used in
the above conditions.

Do not use the server in any unapproved place.
Install the server on a standard EIA 19-inch rack cabinet.

Do not install the rack containing the server in a place inappropriate to the rack
installation environment.
Failure to follow these instructions may cause some bad influences to be imposed
on the server and other systems installed on the rack and also a fire or personal
injury due to falling of the rack may occur.
For the detailed explanation on the place where the server should be installed and
the earthquake-resistant construction for the rack, refer to the manual attached to
the rack.

Always install the server on a rack conforming to the relevant standard.
Install the server on a rack conforming to the EIA standard for the server to be used.

Do not use the server with installed on any other rack than standard EIA 19-inch
rack or without the installation on a proper rack. Failure to follow these instructions
may cause the server to operate incorrectly and/or personal injury or damages of
surrounding devices to occur.

Do not use the server if any smoke, odor, or noise is present.
If smoke, odor, or noise is present, immediately turn off the POWER switch and

disconnect the power plug from the outlet. Using the server in such conditions may
cause a fire.

Keep needles or metal objects away from the server.
Do not insert needles or metal objects into ventilation holes in the server or

openings in the floppy disk or CD-ROM drive. Doing so may cause an electric
shock.

Keep water or foreign matter away from the server.
Do not let any form of liquid (water etc.) or foreign matter (e.g., pins or paper clips)

enter the server. Failure to follow this warning may cause an electric shock, a fire, or
a failure of the server. When such things accidentally enter the server, immediately
turn off the power and disconnect the power plug from the outlet.

- iv -

Power Supply and Power Cord Use

WARNING

Do not hold the power plug with a wet hand.
Do not disconnect/connect the power plug while your hands are wet. Failure to

follow this warning may cause an electric shock.

CAUTION

Plug in to a proper power source.
Use a proper wall outlet. Use of an improper power source may cause a fire or a

power leak.
Do not install the server where you need an extension cord. Use of a cord that does
not meet the power specifications of the server may heat up the cord and cause a
fire.

Do not connect the power cord to an outlet that has an illegal number of
connections.

The electric current exceeding the rated flow overheats the outlet, which may cause
a fire.

Insert the power plug into the outlet as far as it goes.
Heat generation resulting from a halfway inserted power plug (imperfect contact) may

cause a fire. Heat will also be generated if condensation is formed on dusty blades of
the halfway inserted plug, increasing the possibility of fire.

Use the authorized power cord only.
Use only the power cord that comes with the server. Use of an unauthorized power

cord may cause a fire when the electric current exceeds the rated flow.
Also, observe the following to prevent an electric shock or fire caused by a damaged
cord.

• Do not stretch the cord harness.

• Do not pinch the power cord.

• Do not bend the power cord.

• Keep chemicals away from the power cord.

• Do not twist the power cord.

• Do not place any object on the power cord.

• Do not secure the power cord with staples or equivalents.

• Do not alter, modify, or repair the power cord.

• Do not use any damaged power cord. (Replace a damaged power cord with a new

one of the same specifications.)

- v -

Notes on Installing and Accessing the Rack Cabinet

CAUTION

Do not carry or install the rack cabinet only by a single person.
More than one person is required to carry or install the rack. Failure to follow this

instruction may cause the rack to fall to result in personal injury and/or breakages
of surrounding devices. In particular, a high rack (such as 44U rack) is unstable if it
is not fixed by stabilizers. More than one person must always carry or install the
rack while they support it.

Do not install the rack cabinet so that the load may be concentrated on a specific
point.

Install stabilizers on the rack so that the total load of the rack and devices mounted
on the rack is not concentrated on a singe point or join more than one rack with
each other to distribute the load. Failure to follow this instruction may cause the
rack to fall to result in personal injury.

Do not install components on the rack cabinet only by a single person.
More than one person is required to install parts including the doors and trays for

the rack. Failure to follow this instruction may cause some parts to fall to be broken
and/or to result in personal injury.

Do not leave more than one device being pulled out from the rack.
Pulling out more than one device from the rack may cause the rack to be fallen.

Only pull out a single device from the rack at a time.
Do not provide the wiring for the server to exceed the rating of the power supply.
To prevent burns, fires, and device damages, the power supplied to the server shall

not exceed the rating load of the power branch circuit. The server requires at least
two Power Cords or up to four Power Cords (depends on your configuration).
Connect each power cord to each appropriate Wall Outlet provided with 20A
branch circuit. Contact your electric constructor or the local power company for the
requirements on the wiring and installation of electric facilities.

- vi -

Installation, Relocation, Storage, and Connection

CAUTION

Never attempt to lift the server with three or less persons.
The server weighs 75 kg at maximum (depending on its hardware configuration).

Carrying the server with three or less persons may strain their back. Hold the server
firmly by its bottom with at least four persons to carry it. Do not hold the front bezel
to lift the server. The front bezel may be disengaged from the server, causing
personal injury.

Do not install the server on a rack with leaving covers removed.
Do not install the server on a rack with the cover being removed. Failure to follow

this instruction may reduce the cooling effect in the server to result in som e
malfunction and/or dusts to enter the server to result in a fire or electric shock.

Do not pinch your finger with rails or other components.
Note sufficiently that your fingers may not be caught between a rail and another

mechanical part or cut by a rail at installation or removal of the server from the rack.
Do not use the server in the place where corrosive gases exist.
Make sure not to locate or use the server in the place where corrosive gase s (sulfur

dioxide, hydrogen sulfide, nitrogen dioxide, chlorine, ammonia, ozone, etc) exist.
Also, do not set it in the environment where the air (or dust) includes components
accelerating corrosion (ex. sulfur, sodium chloride) or conductive metals. There is a
risk of a fire due to corrosion and shorts of an internal printed board.

Do not install the server in any place other than specified.
Do not install the server in the following places or any place other than specified in

this manual. Failure to follow this instruction may cause a fire.

• a dusty place

• a place exposed to direct sunlight

• a humid place such as near a boiler

• an unstable place

Do not connect any interface cable with the power cord of the server plugged to a
power source.

Make sure to power off the server and unplug the power cord from a power outlet
before installing/removing any optional internal device or connecting/disconnecting
any interface cable to/from the server. If the server is off-powered but its power cord
is plugged to a power source, touching an internal device, cable, or connector may
cause an electric shock or a fire resulted from a short circuit.

Do not use any unauthorized interface cable.
Use only interface cables provided by the manufacturer and locate a proper device

and connector before connecting a cable. Using an authorized cable or connecting a
cable to an improper destination may cause a short circuit, resulting in a fire.

Also, observe the following notes on using and connecting an interface cable.

• Do not use any damaged cable connector.

• Do not step on the cable.

• Do not use the server with loose cable

connections.

• Do not place any object on the

cable.

• Always lock the cable with

screw.

- vii -

Cleaning and Working with Internal Devices

WARNING

Do not disassemble, repair, or alter the server.
Never attempt to disassemble, repair, or alter the server on any occasion other than

described in this manual. Failure to follow this instruction may cause an electric
shock or fire as well as malfunctions of the server.

Disconnect all the power plugs before accessing inside the server, or conn ecting
the peripherals.

Make sure to power off the server and disconnect the all power plugs from a power
outlet before cleaning or installing/removing internal optional devices. Touching any
internal device of the server with its power cords connected to a power source may
cause an electric shock even of the server is off-powered.

Disconnect all the power plugs from the outlet occasionally and clean the plug with
a dry cloth. Heat will be generated if condensation is formed on a dusty plug, which
may cause a fire.

Do not look into the CD-ROM drive.
A laser beam used in the CD-ROM drive is harmful to the eyes. Do not look into or

insert a mirror into the drive while the drive is powered. If a laser beam is caught in
your eyes, you may lose your eyesight (the laser beam is invisible).

Do not remove the lithium and NiMH batteries.
The server contains the lithium and NiMH batteries. Do not remove the battery.

Placing the battery close to a fire or in the water may cause an explosion.
When the server does not operate appropriately due to the dead lithium and NiMH

batteries, replace only with the same or equivalent type described later in this
manual. Danger of an electric shock due to short-circuit if the battery is incorrectly
replaced.

CAUTION

Hot surface
Immediately after the server is powered off, its internal components such as hard

disk drives are very hot. Leave the server until its internal components fully cool
down before installing/removing any component.

Make sure to complete installation.
Always install a power cable, interface cable, and/or option board firmly. An

incompletely installed component may cause a contact failure, resulting in smoking
or fire.
Some components in the server must be replaced due to expiration of service life
(e.g., fan module and power supply unit). To use the server successfully, regularly
replace these components.

Protect the unused connectors with the protective cap.
The unused power supply cable connectors are covered with the protective cap to

prevent short circuits and electrical hazards. When removing the power supply cable
connector from the internal devices, attach the protective cap to the connector.
Failure to follow this warning may cause a fire or an electric shock.

- viii -

During Operation

CAUTION

Do not pull out or remove the server from the rack.
Pulling or removing the server out from the rack other than hot-swapping may cause

malfunction of the server. The server may fall and cause a personal injury.
Stay away from the fan.
Keep your hand or hair away from the cooling fan on the rear of the server.

Failure to follow this warning may get your hand or hair caught in the fan, resulting in
injury.

Avoid contact with the server during thunderstorms.
Disconnect all the power plugs from the outlet when a thunderstorm is approaching.

If it starts thundering before you disconnect the all power plugs, do not touch any
part of the server including the cables. Failure to follow this warning may cause a
fire or an electric shock.

Keep animals away from the server.
Failure to follow this warning may cause a fire or an electric shock.

Do not place any object on top of the server.
An object placed on top of the server may fall down, resulting in damage to your

property around the server.
Do not leave the CD tray open.
If dust gets on the lens of CD-ROM drive, the drive may have problems reading your

disks. Also, the CD tray may be broken by contacting any objects.
Do not use a cellular phone or pager around the server.
Turn off the cellular phone or pager. Radio interference may cause malfunctions of

the server.

- ix -

Warning Labels

The warning label is attached to components with possible danger or their vicinity in the server to
inform the user that a hazardous situation may arise when operating the server. (Do not
intentionally remove or damage any of the labels.)

If you find any labels totally/partially removed or illegible due to damage, replace them with new
ones.

Tower

Rack

- x -

Contents

1. Overview.....................................................................................................................1

1.1 Model and Product Name.................................................................................................. 1

1.2 Overview of Gibson-C/140Rd-4, Gibson-P/140Rd-4, Gibson-Px/140Rd-4..................... 2

1.3 Overview of Gibson-C/140He, Gibson-P/140He, Gibson-Px/140He............................... 2

1.4 Specifications .................................................................................................................... 3

1.4.1 Gibson-Cranford/140Rd-4 ......................................................................................... 3

1.4.2 Gibson-Cranford/140He............................................................................................. 5

1.4.3 Gibson-Potomac/140Rd-4.......................................................................................... 7

1.4.4 Gibson-Potomac/140He ............................................................................................. 9

1.4.5 Gibson-Paxville/140Rd-4......................................................................................... 11

1.4.6 Gibson-Paxville/140He............................................................................................13

1.5 Names and Functions of Components............................................................................. 15

1.6 Boards.............................................................................................................................. 26

1.6.1 Processor Board (Gibson-C: G7HRJ, Gibson-P: G7HUN, Gibson-Px: G7JBM).... 26

1.6.2 I/O Board (G7HRH)................................................................................................. 27

1.6.3 Main Board (G7HML) ............................................................................................. 29

1.6.4 Memory Board (G7HMG) ....................................................................................... 30

1.6.5 Connect Board (G7HMK)........................................................................................ 30

1.6.6 SCSI BP [5HDD] (G7HRK) .................................................................................... 31

1.6.7 SCSI BP [3HDD] (G7HRL)..................................................................................... 31

1.6.8 Front Panel 1 (G7HMN) .......................................................................................... 32

1.6.9 Front Panel 2 (G7HMP)........................................................................................... 33

1.6.10 CD/FD Board (G7HMJ)........................................................................................... 34

1.6.11 Management LAN Board (G7HTR) ........................................................................ 34

1.6.12 Power BP (G7HMM)...............................................................................................35

1.6.13 Additional SCSI BP (G7HUP)................................................................................. 36

1.7 Lamp Indications............................................................................................................. 37

1.7.1 POWER/SLEEP Lamp............................................................................................. 37

1.7.2 STATUS Lamp.........................................................................................................38

1.7.3 DISK ACCESS Lamp .............................................................................................. 39

1.7.4 LAN1/LAN2 ACCESS Lamp..................................................................................39

1.7.5 UID Lamp ................................................................................................................ 40

1.7.6 PCI Slot Lamps ........................................................................................................ 41

1.8 Cable Connection............................................................................................................42

1.8.1 140Rd-4 (Disk-Model)............................................................................................. 42

1.8.2 140Rd-4 (Device Model) ......................................................................................... 43

1.8.3 140He (With Additional HDD Cage and 5-inch Device Bay).................................44

1.9 Criteria for Installation....................................................................................................48

1.9.1 Gibson-C/140Rd-4,Gibson-P/140Rd-4,Gibson-Px..................................................48

1.9.2 Gibson-C/140He,Gibson-P/140He,Gibson/140He .................................................. 48

2. Installation, Removal or Pull-out of Server from Rack.........................................49

3. Installation or Removal of Option from Server.....................................................50

4. Maintenance and Replacement..............................................................................51

4.1 Basic Idea of Maintenance.............................................................................................. 51

- xi -

4.2

Routine Maintenance....................................................................................................... 51

4.3 Indication of Defected Devices with Lamps................................................................... 52

4.3.1 Status Lamp.............................................................................................................. 54

4.3.2 Attention Lamp ........................................................................................................ 55

4.3.3 Processor Board Error Lamp.................................................................................... 56

4.3.4 Memory Board Error Lamp ..................................................................................... 58

4.3.5 I/O Board Error Lamp..............................................................................................59

4.3.6 Power Unit Error Lamp............................................................................................ 61

4.3.7 Fan Error Lamp........................................................................................................62

4.3.8 Temperature Error Lamp.......................................................................................... 63

4.3.9 Clearing Lamp Indication ........................................................................................ 63

4.4 Off-line Maintenance Utility........................................................................................... 64

4.4.1 Starting Off-line Maintenance Utility ...................................................................... 64

4.5 Fault Repair and Troubleshooting................................................................................... 66

4.6 Dump Acquisition ........................................................................................................... 67

4.7 POST Execution.............................................................................................................. 67

4.8 TeDoLi Execution ........................................................................................................... 67

4.9 Device Replacement (1)..................................................................................................68

4.9.1 Preparation before Replacement .............................................................................. 68

4.9.2 Replacement of Hard Disk, Power Unit, 3.5-inch Device, or 5-inch Device........... 69

4.9.3 Replacement of Memory Board or DIMM .............................................................. 69

4.9.4 Replacement of Processor Board, Processor, Heat Sink or VRM............................ 73

4.9.5 Replacement of CD-ROM Drive or CD/FD Board on 140Rd-4 Chassis................. 79

4.9.6 Replacement of CD-ROM Drive, CD/FD Board or FD Drive on 140He Chassis... 81

4.9.7 Replacement of Front Panel.....................................................................................83

4.10 Device Replacement (2).................................................................................................. 84

4.10.1 Removal or Installation of Rear Access Cover ........................................................ 84

4.10.2 Removal or Installation of Front Access Cover ....................................................... 85

4.10.3 Fan Replacement...................................................................................................... 86

4.10.4 Replacement of Power Cage or Power BP............................................................... 89

4.10.5 Replacement of Management LAN Board or I/O Board ......................................... 93

4.10.6 Replacement of Additional HDD Cage or SCSI-BP (8 HDDs) on 140He Chassis 101

4.10.7 Replacement of SCSI-BP (5HDD/3HDD) on 140Rd-4 Chassis............................ 105

4.10.8 Replacement of SCSI-BP(5HDD) on 140HE Chassis........................................... 108

4.10.9 Replacement of Main Board or Connect Board on 140Rd-4 Chassis.................... 110

4.10.10 Replacement of Main Board or Connect Board on 140He Chassis ....................... 112

4.10.11 Replacement of Battery of DIMM for On-board RAID......................................... 114

4.10.12 Replacement of PCI Board..................................................................................... 118

4.11 Jumper Settings............................................................................................................. 119

5. System BIOS..........................................................................................................122

5.1 BIOS SETUP................................................................................................................. 122

5.2 Duplication of System BIOS......................................................................................... 122

6. RAS Function.........................................................................................................123

6.1 Logging ......................................................................................................................... 123

6.2 Memory Degrading Operation ...................................................................................... 123

6.3 Temperature Monitoring................................................................................................ 123

6.4 Watchdog Timer (WDT)................................................................................................123

7. Remote Management Function ............................................................................124

- xii -

8.

Troubleshooting ....................................................................................................125

8.1 Error LED Indications................................................................................................... 125

8.2 Locations of Devices Apperaing in Error Messages.....................................................125

8.2.1 Fan.......................................................................................................................... 126

8.2.2 Memory Board and DIMM .................................................................................... 127

8.2.3 Processor and VRM ............................................................................................... 128

8.3 POST Error Messages...................................................................................................129

8.4 Beep Codes.................................................................................................................... 136

8.5 Operation of Battery and DIMM for Onboard RAID ................................................... 138

8.5.1 Error Indication by POST ...................................................................................... 138

8.5.2 Error Messages by Windows Event Log................................................................ 138

8.5.3 Battery Status Check by MegaRAID Configuration Utility................................... 139

8.6 Error Messages in Remote Management....................................................................... 140

9. Other Notes (Restrictions)....................................................................................148

10. Saving/Restoring Product Information when Replacing the I/O Board............149

10.1 Overview....................................................................................................................... 149

10.2 Restoration Procedure 1 (Backup and Restoration)......................................................149

10.2.1 Overview................................................................................................................ 149

10.2.2 Requirements..........................................................................................................149

10.2.3 Details .................................................................................................................... 150

10.3 Restoration Procedure 2 (With No Backup Copy)........................................................154

10.3.1 Overview................................................................................................................ 154

10.3.2 Requirement........................................................................................................... 154

10.3.3 Details .................................................................................................................... 154

11. Maintenance Parts.................................................................................................157

11.1 Specification Number of Maintenance Parts................................................................. 157

11.2 Maintenance Parts List.................................................................................................. 159

12. Appendix ................................................................................................................163

12.1 Available PCI Boards .................................................................................................... 163

12.2 Available Options..........................................................................................................164

12.3 Block Diagram..............................................................................................................165

- 1 -

1. Overview

Development Code

Gibson- C /140Rd-4

(1) (2) (3)

(1): Development code name
(2): CPU code name (C = Cranford, P = Potomac, Px=Paxville)
(3): Chassis model (140Rd-4=Rack Type, 140He = Tower Type)

1.1 Model and Product Name

Development code Product name Description

Gibson-C/140Rd-4 Express5800/140Rd-4

(XMP/3.16G (1))

Cranford (3.16GHz/667/1M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-C/140Rd-4 Express5800/140Rd-4

(XMP/3.66G (1))

Cranford (3.66GHz/667/1M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-C/140He Express5800/140He

(XMP/3.16G (1))

Cranford (3.16GHz/667/1M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-C/140He Express5800/140He

(XMP/3.66G (1))

Cranford (3.66GHz/667/1M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140Rd-4 Express5800/140Rd-4

(XMP/3.33G (8))

Potomac (2.83GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140Rd-4 Express5800/140Rd-4

(XMP/3.33G (8))

Potomac (3.0GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140Rd-4 Express5800/140Rd-4

(XMP/3.33G (8))

Potomac (3.33GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140He Express5800/140He

(XMP/3.33G (8))

Potomac (2.83GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140He Express5800/140He

(XMP/3.33G (8))

Potomac (3.0GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-P/140He Express5800/140He

(XMP/3.33G (8))

Potomac (3.33GHz/667/8M)×1
MEM: 1G (512MB MEMx2) Diskless

Gibson-Px/140Rd-4 Express5800/140Rd-4

(XMPD/3G(4))

Paxville (2.66GHz/667/2x2M) x 1
MEM: 1G (512MB MEMx2) Diskless

Gibson-Px/140Rd-4 Express5800/140Rd-4

(XMPD/3G(4))

Paxville (3GHz/667/2x2M) x 1
MEM: 1G (512MB MEMx2) Diskless

Gibson-Px/140He Express5800/140He

(XMPD/3G(4))

Paxville (2.66GHz/667/2x2M) x 1
MEM: 1G (512MB MEMx2) Diskless

Gibson-Px/140He Express5800/140He

(XMPD/3G(4))

Paxville (3GHz/667/2x2M) x 1
MEM: 1G (512MB MEMx2) Diskless

Official name of Canford/Potomac : 64-bit Intel® Xeon® Processor MP
Official name of Paxville : Dualcore Intel ® Xeon® Processor 7040

- 2 -

1.2 Overview of Gibson-C/140Rd-4, Gibson-P/140Rd-4,
Gibson-Px/140Rd-4

 4-sockets Server
 Rack-mount model
 4U

CAUTION

At least three persons are required to install or remove the server to/from the
rack to prevent a personal injury due to falling server.

The server weighs approximately 36 kg (47 kg at the maximum).

1.3 Overview of Gibson-C/140He, Gibson-P/140He,
Gibson-Px/140He

 4-sockets Server
 Tower model
 7U
 Can be changed to rack-mount type by using the rack conversion kit.

CAUTION

At least four persons are required to install or remove the server to/from the
rack to prevent a personal injury due to falling server.

The server weighs approximately 47 kg (75 kg at the maximum).

- 3 -

1.4 Specifications

1.4.1 Gibson-Cranford/140Rd-4

Gibson-C/140Rd-4 Specifications Description

Processor Cranford x 1 to 4
CLK 3.16GHz 3.66GHz
FSB 667MHz
Package MPGA

CPU

L2 Cache 1MB

Adopted CPU:

Cranford (3.16GHz/667/1M)
Cranford (3.66GHz/667/1M)

Chipset Intel Twin Castle

Standard 1GB (512 MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2
Adding times 8 times *1
Check ECC
ChipKill

√
Redunduncy

memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 5 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When the media bay is

installed: HDD x 3 (max.)
Single unit Ultra320 SCSI x 2ch SCSI I/F
On Board

RAID

√

Internal Standard (On Board)
External Option *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard

(1000/100/10Base-T x 2,
100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480 to 1280x1024

Graphics

VRAM 16MB

*4: On-Board

FDD 3.5" USB FDD (2Mode) *5 *5: Required option

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25"

×

Device

bay

3.5" 1" height x 5 (Disk Model)

*6

1" height x 3 + Device x1
(Device-Bay Model)

*6

Ultra320 SCSI supported B.P
*6: Disk Model and Device-Bay

Model are mutually exclusive

of BTO option.

- 4 -

Gibson-C/140Rd-4 Specifications Description

Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

I/O Slot

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *7, USB x 1*8 *8: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*7

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*7: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 2 + 2 Two units are factory-installed
Redundant power

supply

√ (Hot Swappable)

AC power redundant
configuration with maximum of
four units.

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO,

PSU, FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

4U Rack(483×741×178mm)

140Rd-4

Standard accessories EXPRESSBUILDER, Packing List,

Slide Rail, Cable Arm
Support OS W2K, W2K3, Linux

- 5 -

1.4.2 Gibson-Cranford/140He

Gibson-C/140He Specifications Remarks

Processor Cranford x 1 to 4
CLK 3.16GHz 3.66GHz
FSB 667MHz
Package MPGA

CPU

L2 Cache 1MB

Adopted CPU:

Cranford (3.16GHz/667/1M)
Cranford (3.66GHz/667/1M)

Chipset Intel Twin Castle

Standard 1GB (512 MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2

Adding times 8 times *1
Check ECC
ChipKill

√

Redunduncy
memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 13 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When optional HDD cage is

installed
Single unit Ultra320 SCSI x 2ch SCSI I/F
OnBoard

RAID

√

Internal Standard (On Board)
External Optional *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard (1000/100/10Base-T x 2,

100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480 to 1280x1024

Graphics

VRAM 16MB

*4: On-Board

FDD 3.5" FDD (3Mode)

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25" 1" height x 2 Device

bay

3.5" 1" height x 5 +8

*6

Ultra320 SCSI supported B.P

*6: When optional HDD cage is

installed.

I/O Slot Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

- 6 -

Gibson-C/140He Specifications Remarks

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *5, USB x 1 *6 *6: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*5

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*5: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 3 + 1 Three units are factory-installed
Redundant power

supply

√ (Hot Swappable)

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO,

PSU, FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

Tower

(219×681×453mm)

140He

Standard accessories EXPRESSBUILDER, Packing List,

Keyboard, Mouse
Support OS W2K, W2K3, Linux

- 7 -

1.4.3 Gibson-Potomac/140Rd-4

Gibson-P/140Rd-4 Specifications Remarks

Processor Potomac x 1 to 4
CLK 3.33GHz
FSB 667MHz
Package MPGA
L2 Cache 1MB

CPU

L3 Cache 8MB

Adopted CPU:

Potomac (2.83GHz/667/8M)
Potomac (3.0GHz/667/8M)
Potomac (3.33GHz/667/8M)

Chipset Intel Twin Castle

Standard 1GB (512MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2

Adding times 8 times *1
Check ECC
ChipKill

√

Redunduncy
memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 5 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When the media bay is

installed: HDD x 3 (max.)
Single unit Ultra 320 SCSI x 2ch SCSI I/F
On Board

RAID

√

Internal Standard (On Board)
External Option *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard (1000/100/10Base-T x 2,

100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480~1280x1024

Graphics

VRAM 16MB

*4: OnBoard

FDD 3.5" USB FDD (2Mode) *5 *5: Required option

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25"

×

Device

bay

3.5" 1" height x 5 (Disk Model)

*6

1" height x 3 + Device x1
(Device-Bay Model)

*6

Ultra320 SCSI supported B.P
*6: Disk Model and Device-Bay

Model are mutually exclusive

of BTO option.

- 8 -

Gibson-P/140Rd-4 Specifications Remarks

Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

I/O Slot

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *7, USB x 1*8 *8: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*7

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*7: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 2 + 2 Two units are factory-installed
Redundant power

supply

√ (Hot Swappable)

AC power redundant
configuration with maximum of
four units.

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO,

PSU, FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

4U Rack (483×741×178mm)

140Rd-4

Standard accessories EXPRESSBUILDER, Packing List,

Slide Rail, Cable Arm
Support OS W2K, W2K3, Linux

- 9 -

1.4.4 Gibson-Potomac/140He

Gibson-P/140He Specifications Remarks

Processor Potomac x 1~4
CLK 3.33GHz
FSB 667MHz
Package MPGA
L2 Cache 1MB

CPU

L3 Cache 8MB

Adopted CPU:

Potomac (2.83GHz/667/8M)
Potomac (3.0GHz/667/8M)
Potomac (3.33GHz/667/8M)

Chipset Intel Twin Castle

Standard 1GB (512MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2

Adding times 8 times *1
Check ECC
ChipKill

√

Redunduncy
memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 13 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When optional HDD cage is

installed
Single unit Ultra 320 SCSI x 2ch SCSI I/F
OnBoard

RAID

√

Internal Standard (On Board)
External Option *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard (1000/100/10Base-T x 2,

100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480~1280x1024

Graphics

VRAM 16MB

*4: OnBoard

FDD 3.5" FDD (3Mode)

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25" 1" height x 2 Device

bay

3.5" 1" height x 5 +8

*6

Ultra320 SCSI supported B.P

*6: When optional HDD cage is

installed.

I/O Slot Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

- 10 -

Gibson-P/140He Specifications Remarks

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *5, USB x 1 *6 *6: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*5

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*5: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 3 + 1 Three units are factory-installed
Redundant power

supply

√ (Hot Swappable)

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO, PSU,

FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

Tower

(219×681×453mm)

140He

Standard accessories EXPRESSBUILDER, Packing List,

Keyboard, Mouse
Support OS W2K, W2K3, Linux

- 11 -

1.4.5 Gibson-Paxville/140Rd-4

Gibson-Px/140Rd-4 Specifications Remarks

Processor Paxville x 1 to 4
CLK 3GHz
FSB 667MHz
Package MPGA
L2 Cache 2x2MB

CPU

L3 Cache None

Adopted CPU:

Paxville (2.66GHz/667/4M)
Paxville (3GHz/667/4M)

Chipset Intel Twin Castle

Standard 1GB (512MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2

Adding times 8 times *1
Check ECC
ChipKill

√

Redunduncy
memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 5 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When the media bay is

installed: HDD x 3 (max.)
Single unit Ultra 320 SCSI x 2ch SCSI I/F
On Board

RAID

√

Internal Standard (On Board)
External Option *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard (1000/100/10Base-T x 2,

100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480~1280x1024

Graphics

VRAM 16MB

*4: OnBoard

FDD 3.5" USB FDD (2Mode) *5 *5: Required option

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25"

×

Device

bay

3.5" 1" height x 5 (Disk Model)

*6

1" height x 3 + Device x1
(Device-Bay Model)

*6

Ultra320 SCSI supported B.P
*6: Disk Model and Device-Bay

Model are mutually exclusive

of BTO option.

- 12 -

Gibson-Px/140Rd-4 Specifications Remarks

Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

I/O Slot

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *7, USB x 1*8 *8: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*7

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*7: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 2 + 2 Two units are factory-installed
Redundant power

supply

√ (Hot Swappable)

AC power redundant
configuration with maximum of
four units.

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO,

PSU, FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

4U Rack (483×741×178mm)

140Rd-4

Standard accessories EXPRESSBUILDER, Packing List,

Slide Rail, Cable Arm
Support OS W2K, W2K3, Linux

- 13 -

1.4.6 Gibson-Paxville/140He

Gibson-Px/140He Specifications Remarks

Processor Paxville x 1~4
CLK 3GHz
FSB 667MHz
Package MPGA
L2 Cache 2x2MB

CPU

L3 Cache None

Adopted CPU:

Paxville (2.66GHz/667/4M)
Paxville (3GHz/667/4M)

Chipset Intel Twin Castle

Standard 1GB (512MB DIMM x 2)
Maximum 32GB (16 DIMMs in total)
Adding unit DDR-2 400 SDRAM DIMM

(Registered) x 2

Adding times 8 times *1
Check ECC
ChipKill

√

Redunduncy
memory

√ (supports Mirroring/Momory Raid)

Memory

Memory
Hot-plug

√

4Way-Interleave
512MB DIMM x2
1GB DIMM x2
2GB DIMM x2
Additional memory backboard

*1: When factory-installed DIMMs

are replaced

Standard None
Maximum

(Internal)

300GB or more x 13 *2

HDD

HotPlug

√

Supported HDD
SCSI: Ultra320, 10K/15Krpm,

SCA2
*2: 10Krpm/Alliance Carrier

When optional HDD cage is

installed
Single unit Ultra 320 SCSI x 2ch SCSI I/F
OnBoard

RAID

√

Internal Standard (On Board)
External Option *3

Disk
Array

No. of cards 4 (max.)

*3: N8103-81/-90 supported

LAN Standard (1000/100/10Base-T x 2,

100/10Base-T (Management LAN))

On-Board, Remote Wake UP
feature

Chip RADEON7000M

*4

Resolution 640x480~1280x1024

Graphics

VRAM 16MB

*4: OnBoard

FDD 3.5" FDD (3Mode)

Standard Slim type, X24 CD-ROM
IDE I/F Ultra ATA100 x 1ch CD-ROM/DVD-RAM can be

connected (exclusive use)

5.25" 1" height x 2 Device

bay

3.5" 1" height x 5 +8

*6

Ultra320 SCSI supported B.P

*6: When optional HDD cage is

installed.

I/O Slot Slots Total 9 Slots

(PCI Express x 3, PCI-X x 4, PCI
32Bit/33MHz x2)

- 14 -

Gibson-Px/140He Specifications Remarks

Hot Plug PCI Total 6 Slots

(PCI-X x 4, PCI 32Bit/33MHz x2)

Front Serial (RJ45) x 1 *5, USB x 1 *6 *6: The front USB port is

dedicated to USB1.1.

External
interface

Rear CRT x 1, KB (PS/2) x 1,

MS (PS/2) x 1, USB x 2,
Serial x 2

*5

, Parallel x 1,

100Bast-TX x 1, 1000Base-TX x 1,
Ultra320 SCSI x 1, ICMB x 2

*5: One of the serial ports is

exclusive use with the front
serial port. The rear serial port
is the factory default.

RAS

√ IPMI supported
Power supply 700W x 3 + 1 Three units are factory-installed
Redundant power

supply

√ (Hot Swappable)

Redundant fan

√ (Hot Swappable)

Front Power, Sleep, Reset, Dump, UID Switch
Rear None

Security key Provided

Front Power/Sleep, System Status,

HDD, LAN Link/Act x 2, UID,

Attention, Processor, MEM, IO, PSU,

FAN, TEMP

LED

Rear LAN Link/Act x2, LAN Speed, UID

Cabinet design
(WxDxH)

Tower

(219×681×453mm)

140He

Standard accessories EXPRESSBUILDER, Packing List,

Keyboard, Mouse
Support OS W2K, W2K3, Linux

- 15 -

1.5 Names and Functions of Components

140Rd-4 Front View (with Front Bezel Removed)

1 CD-ROM drive

The CD-ROM drive reads data from the inserted CD-ROM.

1-1: Access lamp (lit orange during accessing)
1-2: CD tray eject button
1-3: Emergency hole

2 3.5-inch hard disk bay/3.5-inch device bay

Additional hard disk drive slots. 1-inch thick hard disk drives can be installed in this slot. The
number following the bold-faced number indicates SCSI ID.

3 Disk lamp (green/amber)
4 Processor board

4-1 Board ejector

5 Memory board

5-1 Board ejector
5-2 POWER lamp
5-3 Attention lamp
5-4 Redundancy lamp
5-5 Attention switch

6 Additional memory board slot

1-1

1-2

1-3

2-4

2-3

2-2

2-1

2-0

1

4

3 3 3

5

5-1 5-2 5-4 5-5

4-1

6

5-3

4-1

- 16 -

140He Front View (with the Front Door Open)

1 3.5-inch floppy disk drive

Insert a 3.5-inch floppy disk to the 3.5-inch floppy disk drive to read data from the
disk or write data to the disk.

1-1: Eject button 1-2: Disk slot
1-3: Floppy disk access lamp (lit green during accessing)

2 CD-ROM drive

The CD-ROM drive reads data from the inserted CD-ROM.
2-1: Emergency eject hole
2-2: CD Tray eject button

2-3: Access lamp

(lit orange during accessing)

3

3.5-inch disk bay

The 3.5-inch hard disk bay contains additional hard disk slots. 1-inch thick hard disk
drives can be inserted into the slots. The numbe r following the bold-faced character
indicates the SCSI ID.

4 Processor board

4-1: Processor board ejector

5 Memory board

5-1: Memory board ejector

5-2: Memory board Power lamp
5-3: Memory board Attention lamp

5-4: Memory board Redundancy lamp
5-5: Memory board Attention switch

6 Additional memory board slot
7 5.25-inch device bay

DAT (digital audio tape) drive or optical disk drive may be installed in the 5.25-inch
device bay. Slot #1 (right) and slot #2 (left).

1

2-1

2-2

2-3

1-2

1-3

1-1

2 3

4

7

3-0

3-1

3-2

3

-3 3-4 4-1

5

5-1

5-2

5-3

5-4

5-5

6

- 17 -

Front View (Switches and Lamps)

140Rd-4 140He

1 POWER switch

The power switch is used to turn on/off the power. If you press the switch once, then the

POWER/SLEEP lamp goes on and the power is turned on. If you press the switch again,
the power is turned off. The system is forcibly shut down when the power switch is pressed
continuously for four seconds or longer.

2 RESET switch

The reset switch is used to reset the server.

3 SLEEP switch

Pressing the sleep switch once causes the server to enter into the slee p state (power

saving mode). Pressing the power switch in the sleep state recovers the machine to the
normal state. (This function is supported by Windows Server 2003/Windows 2000.)

4 UID (Unit ID) switch

Pressing the UID switch turns UID lamp (blue) located on the front panel and the rear

panel on and off. Pressing again the UID switch turns the lamp off.
5 POWER/SLEEP lamp (green) 6 STATUS lamp (green/amber)
7 DISK ACCESS lamp (gree n/amber) 8 LAN1 ACCESS lamp (green)
9 LAN2 ACCE SS lamp (green) 10 UID lamp (blue)

1 1 Attention lamp 12 Processor board error lamp
13 Memory board error lamp 14 I/O board error lamp
15 Power supply unit error lamp 16 FAN error lamp
17 Thermal error lamp
18 Dump switch

The dump switch is used to collect the event logs having occurred in the server.
19 CLEAR switch
20 USB3 connector

Used to connect with a device accepting the USB 1.1 interface.
21 Serial Port B connector

Used to connect with a device having a serial interface. UPS must be conne cted to Serial

Port A connector on the rear side of the server.

IMPORTANT: The shape of serial port B (on the rear
panel) connector is the same as that of the LAN and ICMB
connectors (RJ-45). Pay attention to connect the proper
cable.

1

2

3

4

18

19

5 to 10 from top

11 to 17 from top

20

21

18

1

5 to 10 from left

19

2 3 4

11 to 17 from left

20

21

- 18 -

140Rd-4 Rear View

1 Power supply unit

The power supply unit supplies DC powers to the server. Slots 3 and 4 are optional.

2 AC inlet

The AC inlet is connected with the power cord of the server. Each power supply unit has

an inlet. Use the power cord provided with the server.

3 Additional PCI board slot

Non-hot-plug slot for optional PCI board

PCI-Express (x4): 1 slot (Can contain x8 board.)
32-bit/33MHz: 2 slots

4 Additional PCI board slot

Hot-plug slot for optional PCI board

PCI-Express (x8): 2 slots

64-bit/100MHz PCI-X: 4 slots
5 PCI slot POWER lamp
6 PCI slot Fault lamp
7 PCI slot error lamp
8 I/O board error lamp
9 Processor board error lamp

10 BMC error lamp
11 1000/100/10 lamp
12 LAN connector

Used to connect with a network system on LAN.

The number following the bold-faced character shows the port number.

1-1

2

1-2

1-3 1-4

3 4

5

6

7

8
9

10

11

11

12-2

12-1

13

13

14-114-2

15

16

17 18 19 20

21

22

23

- 19 -

13 LINK/ACT lamp
14 ICMB connector

Used to connect a device having the ICMB interface. The number following the bold-faced

character shows the port number.

15 Management LAN (A-BMC) port
16 USB-1 - USB-2 connectors

The USB-1 (upper) and USB-2 (lower) connectors are connected with devices accepting

the USB interface (2.0).

17 Monitor connector

The monitor connector is connected with the display unit.

18 Serial port B connector

To be used exclusively with the serial port B connector on the front panel.

19 Serial port A connector

The serial port A connector is connected with a device having the serial interface.

The server can't directly be connected to a leased line through the connector.

20 Keyboard connector

Used to connect with the optional keyboard.

21 Mouse connector

Used to connect with the optional mouse.

22 Printer port connector

Used to connect with a printer with the Centronics interface.

23 UID lamp

- 20 -

140He Rear View

1 Power supply unit

The power supply unit supplies DC powers to the server. Slot 4 is an optional slot.

2 AC inlet

The AC inlet is connected with the power cord of the server. Each power supply unit has

an inlet. Use the power cord provided with the server.
3 Additional PCI board slot

Non-hot-plug slot for optional PCI board

PCI-Express (x4): 1 slot (Can contain x8 board.)

32-bit/33MHz: 2 slots
4 Additional PCI board slot

Hot-plug slot for optional PCI board

PCI-Express (x8): 2 slots

64-bit/100MHz PCI-X: 4 slots
5 PCI slot POWER lamp
6 PCI slot Fault lamp
7 PCI slot error lamp

2

1-2

1-3

1-4

1-1

3

4

56

7

8 9 10

11

11

12-1

12-2

13

13

17

18

19

16

20 21

22

15

14-1
14-2

23

- 21 -

8 I/O board error lamp
9 Processor board error lamp

10 BMC error lamp
11 1000/100/10 lamp
12 LAN connector

Used to connect with a network system on LAN.

The number following the bold-faced character shows the port number.

13 LINK/ACT lamp
14 ICMB connector

Used to connect a device having the ICMB interface. The number following the bold-faced

character shows the port number.

15 Management LAN (A-BMC) port
16 USB-1 - USB-2 connectors

The USB-1 (upper) and USB-2 (lower) connectors are connected with devices accepting

the USB interface (2.0).

17 Monitor connector

The monitor connector is connected with the display unit.

18 Serial port B connector

To be used exclusively with the serial port B connector on the front panel.

19 Serial port A connector

The serial port A connector is connected with a device having the serial interface.

The server can't directly be connected to a leased line through the connector.

20 Keyboard connector

Used to connect with the optional keyboard.

21 Mouse connector

Used to connect with the optional mouse.

22 Printer port connector

Used to connect with a printer with the Centronics interface.

23 UID lamp

- 22 -

Internal View - 140Rd-4

1 Fan bay
2 Hot-plug PCI slot
3 Non-hot-plug PCI slot
4 Power supply cage

1

2

3

4

- 23 -

Internal View - 140He

1 Power supply cage
2 Non-hot-plug PCI slot
3 Hot-plug PCI slot
4 Fan bay

1

2

3

4

- 24 -

Internal Configuration

140Rd-4, HDD 5-slot model

PCI slot

Power supply unit

I/O board

Power BP

Main board

Connect board

Front Panel 1/2

CD/FD board

Processor board

Processor

Memory board

3.5-inch disk bay

Connect board

Fan

- 25 -

140He, same as 140Rd-4, plus the following:

3.5-inch disk bay

Optional hard disk bays (8)

5.25-inch disk
bays

- 26 -

1.6 Boards

1.6.1 Processor Board (Gibson-C: G7HRJ, Gibson-P: G7HUN,
Gibson-Px: G7JBM)

No. Name No. Name
1

VRM#1 connector

2

VRM#2 connector

3

HMZD connector (To main Board)

4

VRM#4connector

5

VRM#3 connector

6

Processor#3/VRM#3 error LED

7

Processor #3 Slot

8

Processor#4/VRM#4 error LED

9

Processor #4 Slot

10

Processor #2 Slot

11

Processor#2/VRM#2 error LED

12

Processor#1/VRM#1 error LED

13

Processor #1 Slot

3

1

2 4 5

13

10

9

7

6

8 11

12

- 27 -

1.6.2 I/O Board (G7HRH)

I/O Board Connector

No. Name No. Name
1

HMZD connector (To main board)

2

SCSI connector (To SCSI BP)

3

SCSI connector
(From On Board SCSI Ch1)

4

SCSI connector
(From On Board SCSI Ch2)

5

PCI-X Slot (#6 to #9 from left)

6

PCI-EXPRESS Slot (#3 to #5 from left)

7

PCI Slot (33MHz/32Bit)
(#1 to #2 from left)

8

1000/100/10Base-TX
(#1 to #2 from top)

9

USB connector (#1 to #2 from top)

10

VGA connector

11

Serial port B connector

12

Parallel connector

13

Serial port A connector

14

Keyboard/Mouse connector
(Upper: Mouse, lower: Keyboard)

15

A-BMC I/F connector

16

Battery connector for RAID

17

DIMM connector for RAID

18

Connector for power BP

19

Connectors for fan box
Upper right: #1, Lower right: #4
Upper middle: #2, Lower middle: #5
Upper left: #3, Lower left: #6

20

CMOS/password clear jumper switch

19

18

17

16

15

14

2 1

3

4

10 13

12

11

9 8

7

6 5

20

- 28 -

I/O Board LED

No. Name No. Name
1

FAN#6 error l amp

2

FAN#3 error l amp

3

FAN#2 error l amp

4

FAN#5 error l amp

5

FAN#4 error l amp

6

FAN#1 error l amp

7

PCI Slot#4 Power lamp

8

PCI Slot#5 Power lamp

9

PCI Slot#6 Fault lamp

10

PCI Slot#6 Power lamp

11

PCI Slot#7 Power lamp

12

PCI Slot#8 Power lamp

13

PCI Slot#9 Fault lamp

14

PCI Slot#9 Power lamp

15

PCI Slot#9 error lamp

16

PCI Slot#8 error lamp

17

PCI Slot#8 Fault lamp

18

PCI Slot#7 error lamp

19

PCI Slot#7 Fault lamp

20

PCI Slot#6 error lamp

21

PCI Slot#5 error lamp

22

PCI Slot#5 Fault lamp

23

PCI Slot#4 error lamp

24

PCI Slot#4 Fault lamp

25

PCI Slot#3 error lamp

26

PCI Slot#2 error lamp

27

PCI Slot#1 error lamp

28

From top:
IO Board error lamp
Processor Board error lamp
BMC error lamp

1 2 3 4 5 6

7

8

9

10
11

12
13

14

15 16 17 1819202122232425262728

- 29 -

1.6.3 Main Board (G7HML)

No. Name No. Name
1

Additional SCSI BP power connector

2

Connect Board connector

3

HMZD connector
(From Processor Board)

4

Memory Slot #3 connector

5

Memory Slot #4 connector

6

HMZD connector (rear)
(From I/O Board)

7

Memory Slot #2 connector

8

Memory Slot #1 connector

9

Connect Board connector

9

1

2

3

8 7 6 5 4

- 30 -

1.6.4 Memory Board (G7HMG)

No. Name No. Name
1

Attention switch

2

Redundancy lamp

3

Attention lamp

4

Power lamp

5

DIMM #4 error lamp

6

DIMM #3 error lamp

7

MRL Switch

8

DIMM #2 error lamp

9

DIMM #1 error lamp

10

DIMM Slot #4

11

DIMM Slot #3

12

DIMM Slot #2

13

DIMM Slot #1

14

Card edge connector (To Main Board)

15

Switch to turn on DIMM slot
error lamp

1.6.5 Connect Board (G7HMK)

No. Name No. Name
1

Main BP connector (To Main Board)

2

SCSI BP connector (To Main Board)

1

2

2

14

910111213

3
4
5

6
7

8

1

15

- 31 -

1.6.6 SCSI BP [5HDD] (G7HRK)

No. Name No. Name
1

Connect Board connector
(rear)

2

HDD #4 connector (ID: 3)

3

Additional SCSI BP connector
(rear, dedicated to 140He )

4

HDD #4 lamp

5

HDD #2 connector (ID: 1)

6

Power connector for devices
(rear, dedicated to 140He )

7

HDD #2 lamp

8

Power connector for devices
(rear, dedicated to 140He )

9

CD/FD Board connector

10

Connect Board connector (rear)

11

Front Panel connector

12

HDD #1 lamp

13

HDD #1 connector (ID: 0)

14

HDD #3 lamp

15

HDD #3 connector (ID: 2)

16

HDD #5 lamp

17

HDD #5 connector (ID: 4)

1.6.7 SCSI BP [3HDD] (G7HRL)

No. Name No. Name
1

Connect Board connector (rear)

2

Connector for devices (rear)

3

HDD #2 connector (ID: 1)

4

HDD #2 lamp

5

CD/FD Board connector

6

Connect Board connector (rear)

7

Front Panel connector

8

HDD #1 lamp

9

HDD #1 connector (ID: 0)

10

HDD #3 lamp

11

HDD#3 connector (ID: 2)

1 2 3 4 5 6 7 8 9

17 16 15 14

13

12

10 11

1

2 5 6 7

3 4

11 10 9 8

- 32 -

1.6.8 Front Panel 1 (G7HMN)

No. Name No. Name
1

Power switch

2

Card edge for SCSI BP

3

Buzzer

4

UID switch

5

Sleep switch

6

Reset switch

7

Front Panel 2 connector

8

UID lamp

9

LAN2 access lamp

10

LAN1 access lamp

11

Disk access lamp

12

Status lamp

13

Power/Sleep lamp

2

1

3

FRONT

6

5

4

8

9

10

11

12

13

7

REAR

- 33 -

1.6.9 Front Panel 2 (G7HMP)

No. Name No. Name
1

Serial port connector (RJ45)

2

USB connector

3

Clear switch

4

DUMP switch

5

Front Panel 1 connector

6

Thermal error lamp

7

FAN erro r lamp

8

Power unit error lamp

9

I/O board error lamp

10

Memory board error lamp

11

Processor board error lamp

12

Attention lamp

FRONT

1

2

3

4

REAR

5

6

7
8
9

10

11
12

- 34 -

1.6.10 CD/FD Board (G7HMJ)

No. Name No. Name
1

CD-ROM connector

2

FDD connector

3

SCSI BP connector

1.6.11 Management LAN Board (G7HTR)

No. Name No. Name
1

ICMB#1 connector

2

ICMB#2 connector

3

Management LAN (A-BMC)
connector

4

I/O Board connector

1

2 3

43 1 2

- 35 -

1.6.12 Power BP (G7HMM)

No. Name No. Name
1

Open Sensor switch cable connector

2

PSU#1 connector

3

I/O Board connector

4

PSU#2 connector

5

PSU#3 connector

6

PSU#4 connector

7

Jumper switch for identifying chassis type
Short: 140Rd-4 (Rack)
Open: 140He (Tower)

7

1 2 3 4 5 6

- 36 -

1.6.13 Additional SCSI BP (G7HUP)

No. Name No. Name
1

SCSI connector (rear)

2

HDD #5 connector (ID: 8)

3

HDD #6 connector (ID: 9)

4

HDD #5 lamp

5

HDD #6 lamp

6

HDD #1 connector (ID: 0)

7

HDD #2 connector (ID: 1)

8

HDD #1 lamp

9

Power connector
(rear, from Main-Bo ar d)

10

HDD #2 lamp

11

HDD #3 lamp

12

Power connector
(rear, from Main-Bo ar d)

13

HDD #4 lamp

14

HDD #3 connector (ID: 2)

15

HDD #4 connector (ID: 3)

16

HDD #7 lamp

17

HDD #8 lamp

18

HDD #7 connector (ID: 10)

19

HDD #8 connector (ID: 11)

20

SCSI BP (for 5-HDDs) connector
(rear, dedicated for 140He)

1 2 3 4 5 6 7 8

9

10

11
12

13

1415161718 19 20

- 37 -

1.7 Lamp Indications

The following describes lamps on the server and their indications.

1.7.1 POWER/SLEEP Lamp

The green POWER/SLEEP lamp lights while the server is powered. When the server is
off-powered, the POWER/SLEEP lamp goes off.

If the OS supports the power-saving mode, pressing the SLEEP switch or issuing a command to
enter into the power-saving mode blinks the POWER/SLEEP lamp in green. Pressing the SLEEP
switch once again places the server back in the normal mode.

The power-saving mode is only available when the OS supports the power-saving feature such as
Windows Server 2003/Windows 2000. Some OS's allow you to set the server to automatically turn
in the power-saving mode when no access is made to the server for a certain period of time or to
select the power-saving mode with a command.

140Rd-4 140He

POWER/SLEEP lamp

SLEEP switch

SLEEP switch

- 38 -

1.7.2 STATUS Lamp

The STATUS lamp stays lit in green when the server is in successful operation. When the STATUS
lamp is unlit, flashing in green or lit/flashing in amber, it indicates that the server has failed.

See Chapter 4 for indications of the STATUS lamp, descriptions, and actions to take.

140Rd-4 140He

NOTES:

 If the server has the ESMPRO or Off-line Maintenance

Utility installed, you can view the System Event Log
(SEL) to identify the cause of a trouble.

 To cycle power to the server, shut down the server from

the OS and reboot it, if available. If the shutdown from
the OS is unavailable, reset or execute the forced shut
down or disconnect and connect the power cord to
reboot the server.

STATUS lamp

- 39 -

1.7.3 DISK ACCESS Lamp

The DISK ACCESS lamp indicates the state of hard disk drives in the 3.5-inch disk bay.
This lamp lights in green every time any of such hard disk drives is accessed.
When the DISK ACCESS lamp is lit in amber, it indicates that a hard disk drive error occurred. To

identify a failed hard disk drive, see the lamps provided for each hard disk drive.

140Rd-4 140He

1.7.4 LAN1/LAN2 ACCESS Lamp

The LAN1/LAN2 ACCESS lamp is lit green when the server is connected to LAN. The lamp
blinks while the server is accessed through the LAN (for packet transmission). The value next to
the icon indicates the number of the network port on the rear panel.

140Rd-4 140He

DISK ACCESS lamp

LAN2 ACCESS lamp

LAN1 ACCESS lamp

- 40 -

1.7.5 UID Lamp

Pressing the UID switch on the front panel turns the UID lamp located on the front and rear of the
server on. The blue lamp allows you to locate the server you're working on. Use the UID switch
when the several servers are installed in the system.

Pressing the UID switch again turns off the UID lamp.

140Rd-4 140He

UID switch

UID lamp

UID switch

UID lamp

- 41 -

1.7.6 PCI Slot Lamps

PCI SLot Power Lamp

The lamp lights green when the hot-plug PCI slot contains PCI board and the power is supplied to
the PCI board. If no PCI board is installed or the power is not supplied to the board, the lamp goes
off.

PCI Slot Fault Lamp

If an error occurred on PCI board or the slot installed the PCI board, this lamp lights in amber.
If the driver of a Hot Plug PCI board is stopped by Windows Server 2003/Windows 2000 for Hot

Remove or Hot Replace, the PCI slot fault lamp blinks in amber.
Refer to the User's Guide for PCI hot-plug features.

See Chapter 4 for any other lamps.

PCI Slot Power Lamp

PCI Slot Fault Lamp

- 42 -

1.8 Cable Connection

1.8.1 140Rd-4 (Disk-Model)

Cables to be used

From To Cable No

1 IO Board (G7HRH_P24) A-BMC Board

(G7HTR_P1)

Signal 804-063141-0110

A-BMC CABLE (01 1)

2 IO Board (G7HRH_P4) IO Board (G7HRH_P5) Signal

(SCSI)

804-063107-5110
UL TRA320M CABLE (511)

3 Power-BP (G7HMM_P6) Open Sensor Switch Signal 804-062937-0200

OPEN SENSOR CABLE (020)

SCSI BP
(5HDD)

Main Board

IO board

Power BP

A

-BMC

Board

Processor board

Memory board

2

1

CD/FD

Power Module

Power Module

Power Module
(Option)

A

C

Power Module
(Option)

Memory board (Option)
Memory board (Option)
Memory board (Option)

Open Sensor Switch

3

Connect
board

Connect
board

CD­ROM

AC AC A

C

- 43 -

1.8.2 140Rd-4 (Device Model)

Cables to be used

From To Cable No

1 IO Board

(G7HRH_P24)

A-BMC Board
(G7HTR_P1)

Signal 804-063141-0110

A-BMC CABLE (01 1)

2 IO Board (G7HRH_P4) IO Board (G7HRH_P5) Signal

(SCSI)

804-063107-5110
UL TRA320M CABLE (511)

3 Power-BP

(G7HMM_P6)

Open Sensor Switch Signal 804-062937-0200

OPEN SENSOR CABLE (020)

3.5" Device 4 IO Board (G7HRH_P3)
Terminated

Signal
(SCSI)

Option

804-063223-001
SCSI 3CONN (U320) L1=800

5 SCSI BP (G7HRL_P20) 3.5" Device Power 804-063224-027

3.5" POWER CABLE (027)

SCSI BP
(3HDD)

Main Board

IO board

Power BP

A

-BMC

Board

Processor board

Memory board

2

1

CD/FD
board

Power Module

Power Module
Power Module

(Option)

A

C

Power Module
(Option)

Memory board (Option)
Memory board (Option)
Memory board (Option)

Open Sensor Switch

3

Connect
board

Connect
board

CD­ROM

3.5-inch
Device

Terminator

4

5

A

C

AC A

C

- 44 -

1.8.3 140He (With Additional HDD Cage and 5-inch Device
Bay)

To connect a 5.25-inch device to on-board SCSI controller in I/O board

SCSI BP
(5HDD)

Main Board

IO board

Power BP

A

-BMC

Board

Processor board

Memory board

2

1

CD/FD
board

Power Module

Power Module

Power Module

A

C

Power Module
(Option)

Memory board (Option)
Memory board (Option)
Memory board (Option)

Open Sensor Switch

3

Connect
board

Connect
board

CD-R

5.25-inch
Device 1

Terminator

4

5

5.25-inch
Device 2

A

dditional
SCSI BP
(8HDD)

FDD

8

7

9

10

6

AC AC A

C

PCI DAC

（

Option

）

- 45 -

Cables to be used

From To Cable No

1 IO Board

(G7HRH_P24)

A-BMC Board
(G7HTR_P1)

Signal 804-063141-0110

A-BMC CABLE (01 1)

2 IO Board

(G7HRH_P4)

IO Board
(G7HRH_P5)

Signal (SCSI) 804-063107-5110

ULTRA320MCABLE (511)

3 Power-BP

(G7HMM_P6)

Open Sensor Switch Signal 804-062937-0200

OPEN SENSOR CABLE

(020)
5" Device 1
5" Device 2

4 IO Board

(G7HRH_P3)

Terminated

Signal (SCSI) 804-063148-003A

SCSI 4CONN (U320)

L1=1400
5" Device 1 5 SCSI BP (5HDD)

(G7HRK_P10, P11)

5" Device 2

Power 804-062935-010-03

5"POWER CABLE (040)

6 SCSI BP (8HDD)

(G7HUP_P13)

PCI disk array
controller (option)

Signal (SCSI) 804-063107-565

UL TRA320M CABLE (565)

7 SCSI BP (5HDD)

(G7HRK_P9)

SCSI BP (8HDD)
(G7HUP_P11)

Signal 804-062902-115

BOX-10PIN CABLE
SCSI BP (8HDD)
(G7HUP_P10)

8 Main Board

(G7HML_P25)

SCSI BP (8HDD)
(G7HUP_P12)

Power 804-063225-001

SCSI BP POWER CABLE

(100)

9 CD/FD Board

(G7HMJ_P2)

FDD Drive Signal (FDD) 8000530000

1.0MM-pitch, 26-conductor,

FFC (010)
FAN Connecter 1 10 SCSI BP

(G7HUP_P9)

FAN Connecter 2

Power/Signal
(FAN I/F)

804-063226-000

FAN CABLE

- 46 -

AC AC A

C

To connect a SCSI cage to on-board SCSI controller in I/O board

SCSI BP
(5HDD)

Main Board

IO board

Power BP

A

-BMC

Board

Processor board

Memory board

2

1

CD/FD
board

Power Module

Power Module

Power Module

A

C

Power Module
(Option)

Memory

board

(Option)

Memory board(Option)

Memory

board

(Option)

Open Sensor Switch

3

Connect
board

Connect
board

CD-R
OM

5.25-inch
Device

Terminator

6

5

5.25-inch
Device

A

dditional
SCSI BP
(5HDD)

PCI SCSI
（Option）

8

7

9

10

4

- 47 -

Cables to be used

From To Cable No
1 IO Board

(G7HRH_P24)

A-BMC Board
(G7HTR_P1)

Signal 804-063141-0110

A-BMC CABLE (01 1)

2 IO Board

(G7HRH_P4)

IO Board
(G7HRH_P5)

Signal (SCSI) 804-063107-5110

UL TRA320M CABLE (511)

3 Power-BP

(G7HMM_P6)

Open Sensor Switch Signal 804-062937-200

OPEN SENSOR CABLE (020)

5" Device 1
5" Device 2

4 PCI SCSI board

(Option)

Terminated

Signal (SCSI) 804-063148-003A

SCSI 4CONN (U320) L1=1400

5" Device 1 5 SCSI BP (5HDD)

(G7HRK_P10, P11)

5" Device 2

Power 804-062935-010-03

5"POWER CABLE (040)

6 SCSI BP (8HDD)

(G7HUP_P13)

IO Board
(G7HRH_P3)

Signal (SCSI) 804-063107-565

UL TRA320M CABLE (565)

7 SCSI BP (5HDD)

(G7HRK_P9)

SCSI BP (8HDD)
(G7HUP_P11)

Signal 804-062902-115

BOX-10PIN CABLE
SCSI BP (8HDD)
(G7HUP_P10)

8 Main Board

(G7HML_P25)

SCSI BP (8HDD)
(G7HUP_P12)

Power 804-063225-001

SCSI BP POWER CABLE (100)

9 CD/FD Board

(G7HMJ_P2)

FDD Drive Signal (FDD) 8000530000

1.0MM-pitch, 26-conductor,

FFC (010)
FAN Connecter 1 10 SCSI BP

(G7HUP_P9)

FAN Connecter 2

Power/Signal
(FAN I/F)

804-063226-000

FAN CABLE

- 48 -

1.9 Criteria for Installation

1.9.1 Gibson-C/140Rd-4,Gibson-P/140Rd-4,Gibson-Px

Major
classification

Minor classification Standard Remarks

Power source Single-phase bipolar with

ground terminal

Voltage

100-127 Vac±10%
200-240 Vac±10%

Frequency

50Hz±1Hz or
60Hz±1Hz

Input power

Waveform distortion 10%
Input current 12A / 6A
Apparent current 1200VA (Max.)
Active current 1176W (Max.)
Rush current

Power
consumption

Power factor 98%
Temperature 10 to 35ºC Environmental

conditions

Humidity 20 to 80%RH

No condensation

1.9.2 Gibson-C/140He,Gibson-P/140He,Gibson/140He

Major
classification

Minor classification Standard Remarks

Power source Single-phase bipolar with

ground terminal

Voltage

100-127 Vac±10%
200-240 Vac±10%

Frequency

50Hz±1Hz or
60Hz±1Hz

Input power

Waveform distortion 10%
Input current 18A (Max.) / 9A (Max.)
Apparent current 1800VA (Max.)
Active current 1764W (Max.)
Rush current

Power
consumption

Power factor 98%
Temperature 10 to 35ºC Environmental

conditions

Humidity 20 to 80%RH

No condensation

- 49 -

2. Installation, Removal or Pull-out of Server

from Rack

See "Installation of Server on Rack" in the User's Guide.

CAUTION

At least three persons are required to install or remove the server to/from the
rack to prevent a personal injury due to falling server.

The server weighs approximately 36 kg (47 kg at the maximum).

- 50 -

3. Installation or Removal of Option from

Server

For the installation or removal of an option from the Server, see "Installation of Option in Server"
in the User's Guide and the manual coming with the option.

- 51 -

4. Maintenance and Replacement

4.1 Basic Idea of Maintenance

 If a fault occurs during system operation, always acquire the dump if possible (by trying

to acquire the dump actually).

 If the dump can be acquired, issue the difficulty through the appropriate route to request

the detailed analysis.

 The server is normally equipped with the A-BMC (Advanced Baseboard Management

Controller).
The proper arrangement of the A-BMC connection environment enables remote

management (maintenance) to be done.
Refer to the User's Guide for details.

 At the occurrence of a hardware error, the new feature of the Server can indicate the

defected location by lighting the proper one of the lamps installed on the front of the
Server or boards. (See Section 4.3 for details.)

The feature allows the defected location to be identified definitely.

4.2 Routine Maintenance

The table below lists the routine maintenance items.

No Working item Period Remarks

1 Cleaning of fans and inlets 1 year
2 Check by T&D 1 year Use of maintenance T&D (TeDoLi)
3 Check of catches of switches 1 year
4 Replacement of battery for onboard RAID 2 years 2 years or 500 charges, which is

earlier

The batteriey for onboard RAID is maintenance parts for a fee.
If any other option is added to the Server, follow the routine maintenance procedures of the option.

- 52 -

4.3 Indication of Defected Devices with Lamps

The Server is equipped with lamps on the front panel and boards to support the indication of
defected devices.

If an error occurs, any of the Status and error (typical cause) lamps on the front panel and error
(detailed cause) lamps installed on boards light or blink to indicate the device or location at which
the error occurs.

The Status and error lamps except the fan error lamps can remain lit if the DC power is turned off.

Front Panel (140Rd-4)

Front Panel (140He)

STATUS lamp
Error lamps (typical cause lamp)

From top:
– Attention lamp
– Processor board error lamp
– Memory board error lamp
– I/O board error lamp
– Power supply unit error lamp
– Fan error lamp
– Thermal error lamp

STATUS lamp
Error lamps (typical cause lamp)

From left:
– Attention lamp
– Processor board error lamp
– Memory board error lamp
– I/O board error lamp
– Power supply unit error lamp
– Fan error lamp
– Thermal error lamp

- 53 -

* Among the typical cause lamps, the I/O Board error and Processor Board error lamps are

installed on the rear face of the Server. The BMC error lamp, or a detailed cause lamp, is also
installed on the rear face of the Server.

From top:
I/O board error lamp
Processor board error lamp
BMC error lamp

From left:
I/O board error lamp
Processor board error lamp
BMC error lamp

- 54 -

4.3.1 Status Lamp

In the normal operation status, the Status lamp lights green.
If an error occurs, the Status lamp operates as follows depending on error types:

 Blinking green,
 Going off,
 Lighting umber, or
 Blinking umber.

The meaning of the lamp behavior in each state is described below.

STATUS lamp
indication

Description Action

Lit green

The server is operating normally.

–

The server is in operation with
its processor or memory
degraded.

Flashing
green

A memory 1-bit error frequ ently
occurs.

Check lamp indications on front panel.
Start the BIOS SETUP and select [Main] ­[Processor Settings] to identify the degraded
processor and replace it as soon as possible.

The server is off-powered. Power on the server.
POST is in progress. Wait for a while. The STATUS lamp will light

in a few seconds after POST completion.
A proce ss o r error occurred
(IERR).
A processor therm al error was
detected. (Thermal-Trip)
A watchdog timer has timed out.
An uncorrectable memory error
was detected.
A PCI system erro r occurred.
A PCI parity error occurred.
A processor bus error was
detected.

Cycle power to the server. If POST displays

an error message, take a note on the

message and take an appropriate measure

including parts replacement.

Unlit

Memory dumping is requested. Wait until memory dumping completes.
A thermal error (critical) was
detected.

Check internal fans for dust or debris. Also

make sure that the fans are firmly connected.

If this error indication persists, replace the

fan.
A volt age error (critical) was
detected.

Lit amber

All the power supplyies failed to
operate.

Replace the possibly faulty package.

A power alar m was detected in a
power supply unit.

Replace the power supply unit.
A fan alarm was detected. Make sure that the fan units are firmly

connected.

If this error indication persists, replace the

fan.

Flashing
amber

A thermal error (warning) was
detected.

Check internal fans for dust or debris. Also

make sure that the fans are firmly connected.

If this error indication persists, replace the

fan.

- 55 -

A volt age error (warning) was
detected.

Replace the possibly faulty package.

4.3.2 Attention Lamp

If the defected location cannot be identified automatically or several errors occur at more than one
location, the Attention lamp goes on umber. (The lamp is off in the normal operation status.)

If the lamp lights, check the log to identify the locations at which the errors occur.

140Rd-4 140He

A

ttention lamp

- 56 -

4.3.3 Processor Board Error Lamp

The Processor Board Error lamp is installed on each of the front and rear faces of the Server. The
lamp lights amber when the Processor Board is defected. (The lamp is off in the normal operation
status.)

When the lamp goes on, check the status of the Processor/VRM Error lamps. If any of the four
lamps lights, it means an error has occurred on the corresponding processor or VRM.

Processor board error lamp

Processor/VRM error lamps

Processor board error lamp

- 57 -

Processor board error lamp

Processor/VRM error lamps

Processor board error lamp

REAR FRONT

- 58 -

4.3.4 Memory Board Error Lamp

The Memory Board Error lamp lights amber if an error occurs on any of the Memory Board or any
of the DIMMs installed on a board. (The lamp is off in the normal operation status.)

Check the Attention lamps on the Memory Boards to identify the defected Memory Board. Further,
pressing the DIMM slot error lamp ON switch on the defected Memory Board allows the relevant
DIMM Slot Error Lamp to go on to identify the slot having the defected DIMM.

Before pressing the DIMM slot error lamp ON switch, remove the Memory Board from the Server.
If the Memory Board is removed from the Server, pressing the DIMM slot error lamp ON switch

allows the relevant SIMM Slot Error lamp to go on.

140Rd-4 140He

DIMM slot error lamps

Switch for DIMM slot error lamp

Memory board Attention lamp

FRONT

Memory Board Error
lamp

- 59 -

4.3.5 I/O Board Error Lamp

The I/O Board Error lamp is installed on each of the front and rear faces of the Server. The lamp
goes on umber if an error occurs on the I/O Board. (The lamp is off in the normal operation status.)

When the lamp on the front face of the Server goes on umber, check the BMC Error and PCI Slot
Error lamps on the rear face of the Server. If the BMC Error lamp lights umber, replace the I/O
Board. If any of the PCI Error lamps lights umber, replace the PCI Board inserted to the slot
having the lamp being on. If the error lamp lights umber again in spite of clearing the lamp after
the replacement, replace the I/O Board.

I/O board error lamp

I/O board error lamp

BMC error lamps

PCI slot #1 error lamp

PCI slot #2 error lamp

PCI slot #3 error lamp

PCI slot #4

error lamp

PCI slot #5 error lamp

PCI slot #6

error lamp

PCI slot #9 error lamp

PCI slot #8 error lamp

PCI slot #7 error lamp

- 60 -

I/O board error lamp

BMC error lamp

I/O board error lamp

PCI slot #1 error lamp
PCI slot #2 error lamp
PCI slot #3 error lamp
PCI slot #4 error lamp
PCI slot #5 error lamp
PCI slot #6 error lamp
PCI slot #7 error lamp
PCI slot #8 error lamp
PCI slot #9 error lamp

- 61 -

4.3.6 Power Unit Error Lamp

The Power Unit Error lamp goes on umber when an error occurs in any of the power units.
Check the status of the power unit lamps. If the lamp on any of the power units lights amber, an

error occurs in the corresponding power unit. Replace the power unit.
The Power Unit Error lamp is off in the normal operation status.
In the normal operation status, the Power Unit lamp blinks green if a power cable is connected to

the power unit and lights green if the power of the Server is turned on.

Power unit error lamp

Power unit error lamps

Power unit error
lamps

Power unit error lamp

- 62 -

4.3.7 Fan Error Lamp

The Fan Error lamp lights amber when any of the fans is defected. (The lamp is off in the normal
operation status.)

Check the Fan Error lamps within the Server to identify the defected fan.
When a fan error or a temperature error in the Server is detected, the Status lamp also lights or

blinks amber. The covers must be removed to check the Fan Error lamps within the Server or
replace the defected fan. See Chapter 4 for details.

140Rd-4 140He

The Fan Error lamps in the Server are located as shown in the figure below.

Fan error lamp

FAN #1

FAN #2

FAN #3

FAN #4

FAN #5

FAN #6

FAN #1 error lamp

FAN #4 error lamp

FAN #5 error lamp

FAN #2 error lamp

FAN #3 error lamp

FAN #6 error lamp

REAR

FAN #1

FAN #2

F

AN #3

FAN

FAN #5

FAN #6

FAN #2 error lamp

FAN #4 error lamp

FAN #5 error

FAN #3 error lamp

FAN #6 error lamp

FAN #4 error lamp

FRONT

- 63 -

4.3.8 Temperature Error Lamp

When the temperature in the Server exceeds the normal operation range, the Temperature Error
lamp goes on. (The lamp is off in the normal operation status.)

Check the room temperature in the area in which the Server is installed.
When the fan unit temperature error is detected, the Status lamp also lights or blinks amber.

140Rd-4 140He

4.3.9 Clearing Lamp Indication

An error indication can be cleared in any of the following ways, which vary depending on the
types of errors occurred.

Any error indication should be cleared after the cause of the error is removed.

 Press the Clear switch on the front panel to restart the Server.
 Select [Server]→[Clear FRU LED] in the BIOS SETUP and choose "YES" to restart the

Server.

 At the occurrence of a processor error, select [MAIN]→[Processor Setting]→[Processor

Retest] in the BIOS SETUP and choose "YES" to restart the Server.

 At the occurrence of a memory error, select [MAIN]→[Processor Setting]→[Processor

Retest] in the BIOS SETUP and choose "YES" to restart the Server.

NOTES:

 Use this feature to find suspicious devices; if several

devices indicate errors because of one defected device,
this should help you find the device that caused the
initial error.

 Also use a proper tool including the Offline Maintenance

Utility to identify the suspicious device.

Thermal error lamp

- 64 -

4.4 Off-line Maintenance Utility

The Offline Maintenance Utility can be started in various ways.
While the Offline Maintenance Utility can be started manually, it may be started automatically at

the occurrence of an error.

4.4.1 Starting Off-line Maintenance Utility

Refer to the User's Guide for details of starting the Offline Maintenance Utility.
Starting the Offline Maintenance Utility allows the following features to be executed:

Indicating IPMI information

The feature indicates or backs up the system event log (SEL), sensor device report (SDR), and/or
maintenance/replacement device information (FRU) in IPMI.

This feature allows faults and events occurring in the system to be examined to identify the device
which should be replaced.

Indicating BIOS setup information

The feature indicates the current BIOS setting values or outputs the values to a text file.

Indicating system information

The feature indicates the information on the processor and/or BIOS or outputs the information to a
text file.

Managing system information

The feature backs up (saves) the information and/or settings specific for the customer system.
Without the backup, the information and/or settings specific for the customer system cannot be
recovered in the repair or replacement of a board.

However, the system information includes information allowed to be backed up, that disabled to be
backed up, and that requiring no backup.

The information disabled to be backed up is applied by the default setting at the shipment from the
factory in the replacement of a base board. Accordingly, always check the information before the
replacement and recover it manually after the replacement.

- 65 -

 Information allowed to be backed up

– Product information of FRU information (including model name, N part number, FR, and serial

number of main unit)

– Chassis information of FRU information (including chassis specification number)
– Setting data of BIOS SETUP (excluding AC LINK of BIOS SETUP)
– Setting data of BMC and RomPilot

 Information disabled to be backed up

– Setting onb oar d RAI D

The onboard RAID setting information can be backed up by using [RAID
Configuration Save/restore] in the Tool Menu of EXPRESBUILDER or
PowerConsolePlus, management software on OS. Refer to the User's Guide or the
online documentation of PowerConsolePlus found in EXPRESBUILDER

– Settings on option boards
– Setting of AC LINK in BIOS SETUP

 Information requiring no backup

– PKG information of FRU information (including specification number, COMP, and serial

number)

– MAC address of onboard LAN

Starting several utilities

The following utilities installed in the maintenance partition can be started by
EXPRESSBUILDER:

 System management
 System diagnosis
 Setting maintenance partition

Chassis recognition

Making the UID lamp on the front panel of the Server blink.
Allowing the Server subject to maintenance to be identified. Use the feature when more than one

server are installed.

- 66 -

4.5 Fault Repair and Troubleshooting

If a fault occurs during system operation, always acquire the dump if possible (by trying to acquire
the dump actually).

If the dump can be acquired, issue the difficulty through the appropriate route to request the
detailed analysis.

For troubleshooting, basically execute the POST and T&D program to check whether a hardware
error occurs or not. Then any error indication appears on the display.

Figure 4.1 shows the flow of the troubleshooting based on the POST and T&D program.

Power ON

Run POST.

Error?

Suppose suspected package

depending on message.

Run TeDoLi.

Replace the package.

Error?

Suppose suspected package

depending on message.

Analyze log by

ESMPRO etc.

Replace the package.

Log?

Suppose suspected package

depending on message.

Good

Replace the package.

Figure 4.1 Troubleshooting flow

Y

N

Y

N

Y

N

- 67 -

4.6 Dump Acquisition

The dump can be acquired by pressing the dump switch on the front of the Server. The destination
of the dump is the boot device. Note that the dump may not be acquired due to OS setting.

NOTE: If the dump switch is pressed once, it will be
masked until the DC power is turned off. Thus, always turn
off the DC power after dump acquisition.

4.7 POST Execution

The POST is executed at the power-on or reset operation. If an error occurs, the relevant error
message appears on the display. See Chapter 8 for the error messages.

4.8 TeDoLi Execution

Insert the attached EXPRESSBUILDER in the CD-ROM drive to start it and select the system
diagnosis from the menu to start TeDoLi. Then perform proper operations following the menus
appearing on the display.

NOTE: Always disconnect the LAN cable from the Server
before executing the system diagnosis because it may have
bad influences on the network.

- 68 -

4.9 Device Replacement (1)

This section describes the procedures of replacing maintenance devices. After a device is replaced,
turn on the power of the Server and run the test program to confirm that the Server operates
normally.

Refer to the User's guide for how to install or remove maintenance devices.

IMPORTANT: If the hardware configuration is modified,
always provide the system update.

WARNING

Observe the following instructions to work with the server safely.

• Do not look into the CD-ROM drive.

• Disconnect the power plug before working with the server.

• Do not remove the lithium, Ni-CD, and/or NiMH battery

unnecessarily.

CAUTION

Observe the following instructions to work with the server safely.

• Do not lift the server by yourself.

• Make sure to complete installation.

• Do not install or remove the component with the cover being

attached.

• High temperature

4.9.1 Preparation before Replacement

Prepare the following before a device replacement:

 Take proper measures against static electricity including wearing of a wrist strap.
 Shut down OS and turn of the DC power.
 Disconnect the AC cables from the power units for the AC power-off.
 Disconnect all the cables from their mating connectors on the front and rear faces of the

unit.

 Make 1 - 2-meter working space at the front, back, left, right, and top of the unit.

- 69 -

4.9.2 Replacement of Hard Disk, Power Unit, 3.5-inch Device,
or 5-inch Device

Refer to the User's Guide for how to replace the hard disk, power unit, 3.5-inch device or 5-inch
device.

4.9.3 Replacement of Memory Board or DIMM

The Server supports the online spare memory, memory mirroring, and memory RAID
configuration features as well as the normal memory configuration. For the setups and notes on the
features, refer to the User's Guide.

Also, refer to the User's Guide for the addition of a Memory Board or DIMM to the Server.
In the redundant memory configuration (memory mirroring or memory RAID configuration), the

Memory Board can be removed for DIMM replacement while the power of the Server remains ON
(hot-pluggable).

The following describes how to replace a Memory Board or DIMM in the normal or hot-pluggable
configuration:

In the redundant memory configuration, the Redundancy lamp on the Memory Board goes on
green when the power of the Server is turned on.

The figure shows the Server mounted on the 140Rd-4 chassis. The Server on the 140He chassis is
different only in that it is mounted longitudinally. The replacement procedure is the same for both
servers, except when specified otherwise.

[Replacement in normal configuration]

1. Make sure that the power of the Server is set to OFF and disconnect the power cables

from all the power units.

2. Release the lock on the front bezel by using the security key to remove the front bezel.

3. Remove the memory slot cover on the front of the Server (by removing the two captive

screws).

- 70 -

4. Release the lock of the ejectors and open them.

5. Hold the ejectors and pull out the Memory Board from the Server.

6. To replace a DIMM, remove it from the Memory Board.

7. Do the reverse procedure for the installation.

- 71 -

[Replacement in hot-pluggable configuration]

1. Release the lock on the front bezel by using the security key to remove the front bezel.

2. Remove the memory slot cover on the front of the Server (by removing the two captive

screws).

3. Press the Attention button on the Memory Board in which an error occurs (with the

Attention lamp lighting umber). The Power lamp on the Memory Board goes off.

- 72 -

4. Wait a few minutes for the board to cool down, and pull out the Memory Board from the

Server.

When the button switch for DIMM slot error lamp is pushed, parts of the error can be

specified.

We recommend you wait for a few minutes after the Power lamp goes off because any
Memory Board is heated excessively during power distribution.

5. Replace the Memory Board or DIMM and install the new or modified Memory Board in

the Server.

6. Press the Attention button on the installed Memory Board.

The Power lamp on the Memory Board blinks green and goes on after a while.

7. Install the memory slot cover and the front bezel.

- 73 -

4.9.4 Replacement of Processor Board, Processor, Heat Sink
or VRM

The figure shows the Server mounted on the 140Rd-4 chassis. The Server on the 140He chassis is
different only in that it is mounted longitudinally. The replacement procedure is the same for both
servers except when specified otherwise.

1. Release the lock on the front bezel by using the security key to remove the front bezel.

2. Remove the memory slot cover on the front of the Server (by removing the two captive

screws).

3. Remove the processor slot cover (by removing 2 screws.)

4. Release the lock and open the left and right ejectors together.

- 74 -

5. Hold the processor board securely with both hands to remove it from the Server.

Take special care for the processor board because it is considerably heavy. Hold the
bottom of the board with both hands.

6. Remove the processor, heat sink, or VRM from the board. See the descriptions below for

the removal procedures.

7. To replace the processor board, remove it from the processor board tray (by removing the

12 screws).

8. Do the reverse procedure for the installation.

- 75 -

[Removal of heat sink]
Notes:

 Note on work

In the entire maintenance, it is recommended to wear gloves for measures against static
electricity and prevention of injuries.

 Thermal interface

Thermal interface (cool seat) is put between the heat sink and the processor.
The thermal interface is softened at a higher temperature and hardened at a lower

temperature.
To allow the heat sink to be removed easily, start the removal procedure as soon as

possible after the power-off of the Server.

 Note on removal of screws (4) fixing heat sink

After putting insulation seat (such as insulation sponge) on the Processor board to allow
stable work.

 Note on removal of heat sink

The heat sink includes thin metallic plates. Take sufficient note so that your hands may
not be cut by the plates.

1. Remove the screws (4) fixing the heat sink.

- 76 -

2. Remove the heat sink. Swing it from side to side for easy removal.

NOTE: If the heat sink cannot be removed at all, heat it

with a dryer first.

[Replacement of processor]

1. Open the lever of the socket on which the processor is installed to its end completely.

2. Remove the processor from the socket.

- 77 -

3. Install a new processor in the reverse procedure.

Note the direction of the processor in the installation. Match the pin mark on the
processor with that on the socket to install it correctly.

[Installation of heat sink]

Install the heat sink in the procedure reverse to the removal.

Notes:

Any used thermal interface cannot be reused.
If the heat sink is removed from the processor once, remove the thermal interface pasted on the

processor and heat sink completely by using a plastic paddle or plate. Then paste new thermal
interface on the heat sink

 For replacement of processor board

Use the new thermal interface attached to the processor board of a maintenance device.

 For replacement of processor

Use the new thermal interface attached to the processor of a maintenance device.

 For replacement of heat sink

Use the new thermal interface attached to the heat sink of a maintenance device.

Pin mark

- 78 -

1. Put the heat sink with the attached heat sink pasted on the processor quietly. The heat sink

has no specific front and rear sides.

2. Fix the heat sink by using the screws (4) with the heat sink pressed downward by a hand.

[Replacement of VRM]

1. Open the left and right levers on the VRM socket together to their ends and pull out the

VRM directly above.

2. Install the VRM in the reverse procedure.

- 79 -

4.9.5 Replacement of CD-ROM Drive or CD/FD Board on
140Rd-4 Chassis

Note:

Do not apply this procedure to the replacement of the CD-ROM drive, CD/FD board or FD drive
installed in the Server on the 140He chassis because the FD cable must be removed. See the next
subsection for the replacement of these devices installed in the Server on the 140He chassis.

1. Release the lock on the front bezel by using the security key to remove the front bezel.

2. Remove the screw (1) fixing the CD-ROM module on the front face of the Server.

3. Hold the handle on the CD-ROM module and pull out the module toward you to remove

it from the Server.

CD-ROM module

CD-ROM module handle CD-ROM module fixing screw

CD-ROM drive

CD/FD board

CD-ROM tra

y

- 80 -

4. Remove the screws (2) fixing the CD/FD board .

5. Remove the CD-ROM drive and tray as shown in the photo below (no screws are

required to fix them).

6. Remove the CD/FD board from CD-ROM drive.

7. Do the reverse procedure for the installation.

- 81 -

4.9.6 Replacement of CD-ROM Drive, CD/FD Board or FD Drive
on 140He Chassis

1. Release the lock on the front bezel by using the security key to remove the front bezel.

2. Loosen the captive screw (2) on the rear of the Server, slide the rear access cover to the

rear direction, and lift the cover to remove it from the Server.

3. If a 5-inch device is installed, disconnect all the cables connected to the 5-inch device to

remove it from the Server.

4. Disconnect the FD cable from the mating connector on the FD drive. Do not disconnect

the connector at the other end.

IMPORTANT: Always disconnect the FD cable before
pulling out the CD-ROM module or FD drive installed in
the Server on the 140He chassis. If not, the FD cable will be
broken.

Captive screws

FD drive

FD cable

Disconnect FD cable from FD drive.

- 82 -

5. To replace the FD drive, remove the screw (1) fixing the FD drive module on the front of

the Server.
To replace the CD-ROM drive or FD/CD board, remove the screw (1) fixing the

CD-ROM module on the front of the Server.

6. To replace the FD drive, pull out the FD drive module toward you from the Server.

To replace the CD-ROM drive or FD/CD board, hold the handle on the CD-ROM module
to pull out it toward you from the Server.

7. To replace the FD drive, remove the drive from the FD bracket (no screws are required to

fix them).

8. To replace the CD-ROM drive or FD/CD board, remove the screws (2) fixing the CD/FD

board to remove it.

9. Remove the CD-ROM drive and tray as shown in the photo below (no screws are

required to fix them).

10. Remove the CD/FD board from CD-ROM drive.

11. Do the reverse procedure for the installation.

FD drive module
fixing screw

CD-ROM module
handle

CD-ROM module
fixing screw

- 83 -

4.9.7 Replacement of Front Panel

The figure shows the Server mounted on the 140Rd-4 chassis. The Server on the 140He chassis is
different only in that it is mounted longitudinally. The replacement procedure is the same for both
the Server on the 140Rd-4 chassis and that on the 140He chassis if not specified especially.

1. Release the lock on the front bezel by using the security key to remove the front bezel.

2. Loosen the captive screw (1) fixing the front panel on the Server by using a proper

screwdriver.

3. Hold the captive screw loosened in step 2 above and pull out the front panel module

toward you to remove it from the Server.

Front panel module

4. Do the reverse procedure for the installation.

Front panel module fixing screw

- 84 -

4.10 Device Replacement (2)

Before any device other than those described in Section 4.9 above can be removed, the rear and
front access covers must be removed in the status that the Server is pulled out from the rack.

Refer to the User's Guide for how to pull out the Server from the rack.

4.10.1 Removal or Installation of Rear Access Cover

1. Loosen the captive screw fixing the rear access cover by using a proper screwdriver, slide

the cover to the rear direction, and lift the cover to remove it from the Server.

2. When the rear access cover is installed, check that no tools and screws are left in the

Server, that the proper devices are securely installed in the Server, and that there are no
uninstalled devices.

3. Mate the tab on the rear access cover with the slot on the frame of the Server, slide the

rear access cover to the front direction while pressing it to the Server lightly, and fasten
the captive screw to fix it.

Captive screw

Captive screws