1998 Intergraph Computer Systems. All rights reserved. This document contains information protected by copyright, trade secret, and
trademark law. This document may not, in whole or in part, be reproduced in any form or by any means, or be used to make any
derivative work, without written consent from Intergraph Computer Systems.
Use, duplication, or disclosure by the United States Government is subject to restrictions as set forth in subdivision (c)(1)(ii) of the rights in
technical data and computer software clause at DFARS 252.227-7013. Unpublished rights are reserved under the copyright laws of the
United States.
Intergraph Computer Systems, Huntsville AL 35894-0001
Notice
Information in this document is subject to change without notice and should not be considered a commitment by Intergraph Computer
Systems. Intergraph Computer Systems shall not be liable for technical or editorial errors in, or omissions from, this document. Intergraph
Computer Systems shall not be liable for incidental or consequential damages resulting from the furnishing or use of this document.
All warranties given by Intergraph Computer Systems about equipment or software are set forth in your purchase contract. Nothing stated
in, or implied by, this document or its contents shall be considered or deemed a modification or amendment of such warrantites.
Trademarks
Intergraph Computer Systems and the Intergraph Computer Systems logo are registered trademarks of Intergraph Computer Systems.
Other brands and product names are trademarks of their respective owners.
FCC/DOC Compliance
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential
installation. This equipment generates, uses, and can radiate radio frequency energy. If the equipment is not installed and used in
accordance with the instructions, it may cause harmful interference to radio communications. However, there is no guarantee that
interference will not occur in a particular installation.
If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off
and on, try to correct the interference as follows: reorient or relocate the affected device; increase the separation between this equipment
and the affected device; connect this equipment to an outlet on a circuit different from the circuit to which the affected device is connected;
consult a dealer or an experienced radio/television technician for help.
This Class B digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations. Cet appareil
numérique de la classe B respecte toutes les exigencies du Règlement sur le materiél brouilleur du Canada.
Warnings
To reduce the risk of electrical shock, do not attempt to open the equipment unless instructed. Do not use a tool for purposes other than
instructed. Disconnect AC power by disconnecting the power cord before opening the case.
There is a danger of explosion if the battery is incorrectly replaced. Replace the battery only with the same or equivalent type as
recommended by the manufacturer. Dispose of used batteries according to the manufacturer's instructions.
There are no user serviceable parts within the power supply. In the event of failure, the power supply must be replaced by qualified service
personnel. Use Intergraph power supplies only.
Changes or modifications made to the system that are not approved by the party responsible for compliance could void the user's authority
to operate the equipment.
To comply with FCC Class B limits, you must use shielded cables with this device.
Notes
Read all safety and operating instructions before using the equipment. Keep these instructions for future reference. Follow all warnings on
the equipment or in the operating instructions.
This device is designed and manufactured to comply with approved safety standards for information processing and business equipment.
Contents
Introduction....................................................................................................................... vii
Document Conventions...................................................................................................... vii
Finding System Hardware Information............................................................................... vii
This System Reference provides information necessary to service and upgrade a TDZ 2000
GX1.
Document Conventions
vii
Bold
Commands, words, or characters that you key in literally.
ItalicVariable values that you supply, or cross-references.
Monospace
SMALL CAPSKey names on the keyboard, such as D, ALT or F3. Names of files and
Output displayed on the screen.
directories. You can type filenames and directory names in the dialog boxes
or the command line in lowercase unless directed otherwise.
CTRL+DPress a key while simultaneously pressing another key; for example, press
CTRL and D simultaneously.
Finding System Hardware Information
A System Setup document is shipped with each system, and provides detailed information
about the following:
u
Setting up the system hardware.
u
Configuring the operating system and associated system software.
u
Using the system.
u
Reinstalling system software.
An online System Introduction is delivered with the system, and provides information about
the following:
u
Intergraph Computer Systems support.
u
System hardware features.
u
Basic system controls.
u
Available hardware options.
A System Board Manual document is shipped with each system, and provides detailed
information about the following:
u
System board diagram
viii
u
Replacing and upgrading system components
u
System interrupt requests (IRQs)
u
External port and system board connectors
u
Using the BIOS Setup program
Customer Support
Intergraph Computer Systems offers an assortment of customer support options.
Hardware and Software Support Services
Intergraph Computer Systems provides a variety of hardware services for Intergraph and
third-party equipment. Services include warranty upgrades, repair depot service, on-site
hardware maintenance, system administration, and network consulting. Hardware
purchased from Intergraph Computer Systems includes a factory warranty ranging from 30
days to three years. A detailed warranty description is available on the World Wide Web;
see the Support pages at http://www.intergraph.com/ics.
Intergraph Computer Systems provides complimentary software support for 30 or 90 days
following shipment of a hardware or software product. This includes World Wide Web
access, Intergraph Bulletin Board Service access, FAXLink service, and telephone (Help
Desk) support. At the end of the complimentary support period, you can purchase other
levels of software support.
World Wide Web
You can visit Intergraph Computer Systems on the World Wide Web at
http://www.intergraph.com/ics. On these pages, you can get news and product
information, technical support information, software updates and fixes, and more.
Intergraph Bulletin Board Service
On the Intergraph Bulletin Board Service (IBBS), you can get technical support information,
software updates and fixes, and more.
To connect to the IBBS:
1. Set your system’s communications protocol for eight (8) data bits, no parity, one (1) stop
bit, and any baud rate up to 14,400.
2. Using a modem, call 1-256-730-8786. Outside the United States, call one of the mirror
3. At the login prompt, key in your user ID. If you have not connected before, type in new
4. Follow the menus to find what you need. The IBBS provides choices and online help.
If you have trouble connecting to or using the IBBS, call the Customer Response Center at
1-800-633-7248 (product entry IBBS) or leave a message for the IBBS System Operator at
1-256-730-1413.
FAXLink
To use the FAXLink:
u
u
Telephone
ix
sites listed on World Wide Web; see the Software Support pages at
http://www.intergraph.com.
to create a user ID.
Call 1-800-240-4300 for information on how to get technical support information using
the FAXLink.
Call 1-256-730-9000 to get documents (up to five per call).
To get customer support by telephone:
u
In the United States, call 1-800-633-7248 between the hours of 7:00 a.m. and 7:00
p.m. Central Time, Monday through Friday (except holidays).
u
Outside the United States, contact your local Intergraph Computer Systems subsidiary or
distributor.
Have the following information available when you call:
u
Your service number, which identifies your site to Intergraph Computer Systems. You
use your service number for warranty or maintenance calls.
u
Your Customer Personal Identification Number (CPIN). You get a CPIN the first time
you call the Customer Response Center; it is associated with your service number for
future call logging.
u
The product’s name or model number.
u
The product’s serial number. Software product serial numbers are included in the
product packaging. Hardware product serial numbers are on a sticker affixed to the
hardware product.
u
Your name and telephone number.
u
A brief description of the question or problem.
x
More Support Options
To get information on more customer support options:
u
Visit the Support pages on the World Wide Web at http://www.intergraph.com/ics.
u
For hardware support questions in the United States, call 1-800-763-0242.
u
For software support questions in the United States, call 1-800-345-4856.
u
Outside the United States, contact your local Intergraph Computer Systems subsidiary or
distributor.
1 A ccessing the System
The TDZ 2000 GX1 features an extensible chassis architecture designed for ease of upgrades
and expansion. The design provides easy access to AGP, PCI, and ISA card slots, memory,
processors, and power supply.
This chapter lists hand tools and describes servicing restrictions, methods for avoiding
electrostatic discharge, and how to remove and attach cover panels.
Before You Begin..........................................................................................................2
Protecting Against Electrostatic Discharge.....................................................................2
Opening and Closing the Case .......................................................................................3
System Components.......................................................................................................5
1
2
Before You Begin
WARNING Disconnect the system from AC power before servicing internal components! Failure
to remove AC power may result in equipment damage or personal injury.
NOTE“Right side” and “left side” are as seen from the front of the unit.
CAUTIONFollow all warnings and cautions in servicing instructions. If you fail to follow documented,
approved procedures, personal injury and damage to equipment can result.
CAUTIONUse an antistatic wrist strap for all servicing procedures to avoid the possibility of
electrostatic discharge.
CAUTIONDo not use the bottom portion of the face panel or the lip at the top, rear of the unit as a hand
hold when moving the system. Equipment damage and personal injury can result.
CAUTIONDo not overtighten screws and other fasteners to avoid damaging threads.
Tools
You will need the following tools to service the system:
u
Antistatic wrist strap
u
Antistatic mat connected to an earth ground
u
Quarter-inch nutdriver
u
No. 1 and No. 2 Phillips screwdrivers
u
Small or medium flat-blade standard screwdriver
You do not need any tools to open the TDZ 2000 GX1 case.
Protecting Against Electrostatic Discharge
Electrostatic discharge (ESD) can damage sensitive components inside the unit. Take the
following precautions when working with internal components:
u
Unplug the unit from AC power before servicing any electronic component inside the
chassis. Remember that the TDZ 2000 GX1 is always on when connected to AC power.
u
Touch the bare metal of the chassis to ensure the chassis and your body are at the same
electric potential.
u
Attach the antistatic wrist strap to its connector on the antistatic mat. Ensure that the
metal conductor bead in the elastic sleeve of the antistatic strap contacts bare skin.
u
Handle all printed circuit boards as little as possible and by the edges only.
u
Leave new parts in their protective packaging until you install them.
Opening and Closing the Case
Opening the system for service or upgrades consists of two simple steps. Remove the top
cover first, then remove the left side panel. No tools are needed. You need only remove the
top cover and left side panel for most routine service procedures. See Chapter 2, “Servicing
the System,” for additional details on removing and replacing case components.
CAUTIONBefore you open the case, shut down the system and turn off power to the system and
external devices (including peripheral drives and display). Use caution to avoid injury when
lifting the computer or removing covers and other hardware.
NOTERemoving the right side panel is necessary only for servicing internal bay disk drives, the
plastic cowling on the right panel, or the face panel.
To open the case:
3
1. Ensure the system is shut down and that you have disconnected the system and any
attached external devices from AC power.
2. Grasp the lip on the top cover at the rear of the system and press up on the release. See
the following figure.
Press up on release located under lip
3. Keep pressing the release, slide the top cover back until it stops, remove it from the
chassis, and set it aside.
4. Grasp the cowling at the bottom of the left side panel and lift.
5. Slide the left side panel back until it stops, remove it from the chassis, and set it aside.
4
6. Repeat steps 4 and 5 to remove the right side panel, if necessary.
To close the case:
1. Place the side panel on the chassis so that all tabs on the rear of the chassis insert into
their slots.
NOTEWhen installing the left side panel, ensure that the security tab aligns with its corresponding
slot on the panel.
2. Push the side panel toward the front of the chassis, then push down to seat the panel.
3. Repeat steps 1 and 2 to install the remaining side panel, if necessary.
4. Place the top cover on the chassis so that all tabs are inserted into their slots.
5. Slide the top cover forward until it locks into place.
CAUTIONAfter servicing or upgrading the system, always replace the covers that were removed. The
covers ensure the system maintains proper air flow, so internal components do not overheat
and fail. The covers also ensure that electromagnetic interference (EMI) emissions remain
below the standard requirements.
System Components
The front, left view below depicts the major components of the system. Covers, cables,
system board details, and expansion cards are not shown.
5
Power supply with fan
CD-ROM drive
Floppy di sk
drive
Rear
chassis
fan
System board
External
5.25-inch
device bays
Power LED
Disk activity LED
Internal
drive bays
Forward chassis fan
6
2 Servicing the System
This chapter describes how to replace the standard parts within a TDZ 2000 GX1 system.
Obey all warning and caution labels while replacing parts.
Note that internal parts servicing procedures assume you have removed the left side panel
from the system. After you have finished servicing the system, replace panels as described in
Chapter 1, “Accessing the System.”
NOTEFor information on servicing the system board, processors, processor terminator, memory,
battery, or the dual processor retension module (DPRM), see the
Before You Begin..........................................................................................................8
Case Components ..........................................................................................................8
LEDs, Light Pipe, and Power Switch ...........................................................................22
System Board Manual
.
7
8
Before You Begin
WARNING Disconnect the system from AC power before servicing internal components! Failure
to remove AC power may result in equipment damage or personal injury.
NOTESee Chapter 1, “Accessing the System,” for instructions on opening the system and
protecting against electrostatic discharge.
CAUTIONFollow all warnings and cautions in servicing instructions. If you fail to follow documented,
approved procedures, personal injury or damage to equipment can result.
CAUTIONUse an antistatic wrist strap for all servicing procedures to avoid the possibility of
electrostatic discharge.
CAUTIONDo not overtighten screws and other fasteners to avoid damaging threads.
Case Components
Ordinarily you will not need to replace any of the external case components unless they are
broken or cosmetically damaged. All case components are designed for durability, but the
item that may require replacement first is the door and hinge assembly.
To replace the hinge or door, you must first remove the top cover. To replace the face panel,
you must remove the top cover and the door.
To replace the top cover:
1. Remove the top cover. See Chapter 1, “Accessing the System,” for details.
2. Install the new cover.
To replace the door assembly:
1. Remove the top cover. See Chapter 1, “Accessing the System,” for details.
2. Lift the door and hold it at a 90-degree angle from the face panel.
3. Insert a small flat-blade screwdriver between the door and hinge, near one of the square
holes on the underside of the door.
9
Guide slot (1 per side)
Door
Locking tabs
Stop tabs
Hinge
Stop tabs
4. Pull the door toward you and pry the hinge and door apart until one side of the door
releases from its locking tab.
5. Repeat steps 3 and 4 for the other side of the door hinge.
6. Remove the door.
7. Do both of the following on the underside of the door:
−
Spread the release tabs on the large emblem and remove it
−
Squeeze the release tabs on the small emblem and remove it
8. Slide the hinge toward the front of the chassis until it stops.
9. Use a flat-blade screwdriver and pry each of the stop tabs on the hinge until the hinge
releases from the rails.
10. Orient the new hinge so that the locking tabs face down and insert the new hinge into
the track and push it forward until it stops.
11. Hold the hinge, align the beveled edges of the hinge with the guide slots on the door,
and push the door firmly onto the hinge until it snaps into place.
12. Press the two emblems onto the door until they snap into place.
13. Operate the door to test its movement.
14. Install the top cover. See Chapter 1, “Accessing the System,” for details.
10
To replace the hinge rails:
1. Remove the door. See the procedure above for details.
2. Slide the hinge toward the front of the chassis until it stops.
3. Use a flat-blade screwdriver and pry each of the stop tabs on the hinge until the hinge
releases from the rails.
Hinge rails
4. Remove the hinge from the rail.
5. Press a hinge rail toward the middle of the chassis until all four tabs release.
6. Lift the hinge rail off the chassis.
7. Orient the new hinge rail the same way as the one you removed, place the tabs in the
slots, and press outward until the rail snaps into place.
8. From the front of the chassis, slide the hinge into the rails.
To replace the face panel:
1. Remove the top cover and both side panels. See Chapter 1, “Accessing the System,” for
details.
2. Remove the door. See the “To replace the door assembly” procedure above for details.
3. Push the hinge back, away from the front of the chassis.
4. Use a flat-blade screwdriver to gently pry and release each of the plastic tabs on both
sides of the chassis. The tabs on the right side of the chassis are recessed. First release
the bottom tabs, release the middle tabs, and then release the top tabs.
CAUTIONRelease the tabs with care. Do not apply more pressure than necessary.
11
Tab
(3 per side)
Light pipe guides
Standoff pos t s
(4 per side)
Tab
(3 per side)
Standby swit ch
5. Pull the face panel away from the chassis slightly to ensure all tabs are released.
6. Grasp the left side of the face panel and pivot it left to expose the standby switch and
cable.
7. Spread the switch mount locking tabs, grasp the switch, and pull the switch out of its
mount.
8. Turn the face panel downward until the standby switch button drops out.
9. Place the left side of the new face panel near the left, front of the chassis and orient the
switch so that the black and green wires are at the bottom.
10. Push the standby switch into the mount until it snaps into place.
11. Place the standby switch button into its hole and push firmly until it seats.
12. Align the new face panel with the tab notches and light pipe guides, and carefully push
the panel onto the chassis until all tabs engage.
13. Install the door, left and right side panels, and top cover.
To replace the left or right side plastic cowling:
1. Remove the top cover, then remove the side panel that has the plastic you want to
replace. See Chapter 1, “Accessing the System,” for details.
2. Place the side panel, with the cowling side down, on a flat, padded surface.
12
(
)
3. Remove the screw that secures the plastic to the side panel.
4. Grasp one side of the panel, press the release tabs, and lift the panel off the plastic.
5. Turn the side panel over and press the new plastic onto the panel until the release tabs
engage.
6. Turn the side panel over and install the screw.
7. Install the side panel onto the chassis.
8. Install the top cover. See Chapter 1, “Accessing the System,” for details.
Peripheral Drives
This section explains how to replace the floppy, CD-ROM, and internal and external bay
disk drives. See Chapter 5, “Peripherals,” for details on drive configuration and cables.
Floppy Disk Drive
To replace the floppy disk drive:
1. Disconnect the power cable and data cable from the drive (CDSK146). Note the
position of the red stripe on the data cable.
2. Remove the two screws that secure the floppy drive to the chassis. See the following
figure.
CD-ROM mounting screws
2 each side
Floppy drive mount i ng scr ews
3. From inside the chassis, push the back of the floppy drive until the bezel clears the
chassis, and slide the device out.
4. Slide the new floppy drive into the chassis and align the mounting holes.
5. Install the two mounting screws.
6. Connect the data cable and the power cable.
CD-ROM Drive
To replace the CD-ROM drive:
1. Disconnect the power cable, data cable, and audio cable from the CD-ROM drive.
2. Remove the screws that secure the CD-ROM drive to the chassis. See the previous
figure.
3. From inside the chassis, push the back of the CD-ROM until the bezel clears the chassis,
then slide the device out.
4. Remove the mounting guide from the right side of the CD-ROM. See the following
figure.
13
Mounting gui de
5. Note the jumper settings on the rear of the CD-ROM.
6. Install the mounting guide on the right side of the new CD-ROM.
7. Slide the new CD-ROM drive into the chassis and align the mounting holes.
8. Install the screws that secure the CD-ROM to the chassis.
9. Connect the audio cable, data cable, and power cable.
14
External Bay Devices
If a removable disk module is installed in the external bay, see the vendor documentation for
disk drive and module replacement instructions.
To replace an external bay device:
1. Disconnect the SCSI cable and power cable from the device.
2. If the device is a disk drive, remove the two screws securing the disk drive tray or device
to the chassis. See the following figure.
Screws
3. From inside the chassis, push the tray or device out of the external bay, grasp the front,
and then slide it out of the bay.
4. If the device is a disk drive, remove the screws that secure the drive to the tray and
remove the drive.
5. Do all of the following:
−
Note the SCSI ID jumper settings on the old device
−
Set the SCSI ID on the new device to the same ID as the old device
−
Disable termination on the new device
See Chapter 5, “Peripherals,” for details on these tasks.
6. If the device is a disk drive, place the new drive in the tray, align the mounting holes
and install the mounting screws that secure the disk drive to the tray. See the following
figure.
Disk drive tray
15
Bracket
Bracket screws
Disk drive screw holes
7. If the device is not a disk drive, remove the mounting guide from the old device and
install it to the new device. See the following figure.
Mounting gui de
8. Slide the device or tray into the chassis and align the mounting holes.
9. Secure the device or tray to the chassis using the screws you removed previously.
10. Connect the SCSI and power cables to the device.
Internal Bay Disk Drives
Internal disk drives are housed in a mounting bracket. You must remove the entire
mounting bracket to replace any or all internal disk drives.
To replace an internal bay disk drive:
1. Remove the right and left covers. See Chapter 1, “Accessing the System,” for details.
16
2. Disconnect the data and power cables from the disk drives.
3. Remove the two screws that secure the mounting bracket to the right side of the chassis.
See the following figure.
Power
switch
Drive bracket screws
Light pipes
4. Remove the three screws that secure the mounting bracket to the left side of the chassis.
Screws
NOTETo prevent the mounting bracket from slipping, steady the bracket with a free hand as you
remove the final screw.
5. Pull the mounting bracket out of the chassis.
6. Remove the four screws that secure the old drive to the bracket. See the following
figure.
Mounting bracket
Drive s crews
Drive s crews
7. Do all of the following:
−
Note the SCSI ID jumper settings on the old drive
−
Set the SCSI ID on the new drive to the same ID as the old drive
17
−
Disable termination on the new drive
See Chapter 5, “Peripherals,” for details on these tasks.
8. Install the new drive into the bracket.
NOTEOrient each hard disk drive in the bracket such that the printed circuit board is facing the
system board and the label is facing outward
9. Install the two screws that secure the mounting bracket to the right side of the chassis.
10. Install the three screws that secure the mounting bracket to the left side of the chassis.
11. Install the right side panel.
12. Connect the SCSI cable and the power cable to the new drive.
18
Power Supply
See Chapter 6, “Power Supply and Cooling Fans” for details on the power supply.
To replace the power supply:
1. Unplug the AC power cord from the rear of the unit.
2. Remove the top cover and left side panel. See the previous section for details.
3. Disconnect the power cables from all internal devices.
4. Remove the four outer screws from the rear of the power supply, as shown in the
following figure.
CAUTIONSupport the power supply as you remove the screws. Do not to let the power supply fall as
you remove the fourth screw.
Outer screws
Outer screws
5. Remove the power supply assembly.
NOTEBe careful as you thread the mounting bracket on the power supply assembly between the
processors and rear fan.
6. Remove the screws securing the mounting bracket to the power supply, as shown in the
following figure.
Mounting bracket screws
Mounting bracket screws
7. Attach the mounting bracket to the new power supply, and then install the new power
supply assembly using the outer screws.
8. Connect the power cables to the system board and internal devices. See Chapter 6,
“Power Supply and Cooling Fans,” for connection details.
WARNING Before connecting the AC power cord, set the voltage range switch on the power
supply to the proper range, to avoid damaging the system or causing personal injury.
For AC connections of 90-132 VAC, set the switch to 115. For AC connections of 200264 VAC, set the switch to 230.
19
9. Plug the AC power cord into its connector on the back of the chassis.
Expansion Cards
See the System Board Manual for connector and socket locations.
To replace an expansion card:
1. Disconnect the external device (if any) attached to the expansion card connector on the
rear of the card.
2. Disconnect any internal cables that connect the card to another device (if installed).
3. Remove the screw that secures the card to the left card guide.
4. Pull the expansion card straight out and place it on an antistatic surface.
5. Slide the new card into the same slot from which you removed the old card.
6. Install the screw that secures the card to the left card guide.
7. Connect any cables from other internal devices, if installed.
20
8. Connect the external device (if any) to the external port on the rear of the card.
Fans
NOTEArrows on the fan indicate airflow direction and rotation. Ensure system fans are installed
with the airflow direction arrow pointing in the correct direction.
To replace the rear system fan:
1. Disconnect the fan power cable.
2. Remove the screw securing the fan assembly to the chassis, and remove the fan assembly
from the system. See the following figure.
Screw
3. Note the airflow direction of the fan and the position of the fan cable.
4. Remove the four screws securing the mounting bracket and grille to the fan.
NOTEBe careful not to misplace the four washers when you remove the screws.
5. Ensure the new fan is oriented correctly, and then mount the grille, washers, and
mounting bracket to the new fan using the four screws you removed previously.
6. Slide the fan assembly into position in the chassis rear panel, and secure it using the
single screw you removed previously.
7. Connect the fan power cable.
To replace the front system fan:
1. Remove the face panel. See the “Case Components” section above for details.
2. Remove all full-length expansion cards. See the “Expansion Cards” section above for
details.
3. Remove the two screws that secure the right card guide to the chassis. See the following
figure.
Screws
Bottom ri ght side
4. Lift the card guide up to disengage the mounting tabs, pull it backward, and then
remove it from the chassis.
5. Disconnect the fan power cable.
21
6. Note the airflow direction of the fan.
7. Remove the four screws securing the fan assembly to the front of the chassis and remove
the fan assembly.
8. Remove the two screws securing the the fan to the mounting bracket.
9. Ensure that the airflow direction arrow on the new fan is pointing in the correct
direction, and then secure the fan to the mounting bracket using the two screws you
removed previously.
10. Place the new fan assembly into position within the chassis, and then secure it to the
chassis using the four screws you removed previously.
11. Insert the card guide tabs into the slots and push the card guide down until the tabs
engage.
CAUTIONBe sure not to pinch the speaker power cable when installing the card guide.
12. Install the two screws that secure the card guide to the chassis.
13. Connect the fan power cable.
14. Install the expansion cards you removed previously (if any).
15. Install the face panel.
See Chapter 6, “Power Supply and Cooling Fans,” for details on fans.
22
LEDs, Light Pipe, and Power Switch
See the System Board Manual for connector and socket locations, and for LED, power switch
cable, and connector details.
To replace an LED:
1. Remove the internal bay disk drives. See the “Internal Bay Disk Drives” section for
details.
2. Note the locations of each of the LEDs on the light pipe (CFAB055).
3. Remove the LED from its mount on the light pipe, then disconnect the LED cable from
its connector on the system board.
4. Remove the LED cable from the chassis.
5. Route the new LED cable through the chassis and connect it to the appropriate
connector on the system board.
6. Press the LED into its mount on the light pipe.
To replace the light pipe:
1. Remove the face panel. See the “Case Components” section earlier in this chapter for
details.
2. Remove the internal bay disk drives. See the “Internal Bay Disk Drives” section earlier
in this chapter for details.
3. Disconnect the LEDs from the light pipe.
Power LED
Disk activ i ty LED
4. Squeeze the mounting tabs on the light pipe inward and push the light pipe through its
mounting hole.
5. From inside the chassis, remove the light pipe.
Top of chassis
6. Orient the new light pipe so that the Power LED mounts face up, and press the light
pipe through its mounting hole until it snaps into place.
7. Push each of the LEDs into its respective mount on the new light pipe.
8. Install the internal bay disk drives.
9. Install the face panel.
To replace the power switch:
1. Remove the face panel. See the “Case Components” section earlier in this chapter for
details.
2. Disconnect the power switch cable connector from the system board.
3. Remove the switch cable from the chassis.
4. Insert the connector end of the switch cable through the cable access hole on the front of
the chassis and route the new switch cable through the chassis.
5. Connect the switch cable to the connector on the system board.
6. Press the switch into its mount on the face panel.
7. Install the face panel and the switch button.
23
24
3 Upgrading the System
This chapter describes upgrading memory and processors, as well as installing expansion
cards, internal SCSI drives, and external SCSI drives.
Before You Begin........................................................................................................ 26
Adding a Processor......................................................................................................26
SCSI ID Guidelines........................................................................................33
SCSI Termination Guidelines for External Devices ........................................34
Connecting the Device ...................................................................................34
Changing SCSI Host Adapter or Device Settings............................................34
25
26
Before You Begin
WARNING Disconnect the system from AC power before servicing internal components! Failure
to remove AC power may result in equipment damage or personal injury.
NOTE“Right side” and “left side” are as seen from the front of the unit.
NOTESee Chapter 1, “Accessing the System,” for instructions on opening the system and
protecting against electrostatic discharge.
CAUTIONFollow all warnings and cautions in servicing instructions. If you fail to follow documented,
approved procedures, personal injury and damage to equipment can result.
CAUTIONUse an antistatic wrist strap for all servicing procedures to avoid the possibility of
electrostatic discharge.
CAUTIONDo not overtighten screws and other fasteners to avoid damaging threads.
Adding a Processor
You can upgrade a single processor system to a dual processor system. You can upgrade a
processor to a faster processor.
Processors are mounted in a dual processor retention module (DPRM), which surrounds the
processor slots. See the system board diagram in the System Board Manual for the location
of processor slots and related connectors.
Single-to-Dual Upgrade
You can upgrade to dual processors in the following ways:
u
You can purchase a TDZ 2000 GX1 single-to-dual processor upgrade kit from
Intergraph Computer Systems. The kit contains all the hardware, software, and
documentation required to perform the upgrade.
u
You can purchase a second processor and voltage regulator module (VRM) from another
vendor.
After completing the hardware upgrade, you must also upgrade to a multi-processor version
of Windows NT. You can upgrade the operating system in the following ways:
u
You can purchase the Intergraph upgrade kit mentioned previously. The kit contains all
the hardware, software, and documentation required to perform the upgrade.
u
If you have or purchase a Windows NT 4.0 Workstation Resource Kit (ISBN 1-57231-
343-9), you can use software on the kit’s CD-ROM to upgrade Windows NT 4.0. The
files required for the upgrade are
u
You can back up all critical system data, install the second processor, and reinstall
Windows NT 4.0 to load the required multi-processor Hardware Abstraction Layer
(HAL).
Adding Expansion Cards
You can install Accelerated Graphics Port (AGP), Peripheral Component Interconnect (PCI),
non-compliant PCI, Industry Standard Architecture (ISA), and Plug-n-Play (PnP) expansion
cards in the system. See below for a general description of the types of cards.
u
PCI cards contain configuration registers that define resource information to the system
during startup. PCI cards do not require manual system configuration when installing
the card. The system BIOS detects the board’s presence during startup and reads
information from the board’s configuration registers to assign the necessary system
resources.
27
UPTOMP.EXE , UPTOMP.INF, and UPTOMP.TXT.
NOTEAll PCI expansion cards sold by Intergraph fully comply with the
Interconnect Specification, 2.1.
u
Non-compliant PCI cards mechanically comply with the Peripheral Component
Peripheral Component
Interconnect Specification 2.1, but do not contain configuration registers that allow the
system to automatically assign the necessary resources. These cards install in PCI slots,
but you must configure the BIOS to assign system resources before installing the card.
In this regard, they are like ISA cards, as described below.
u
ISA cards do not contain registers that define the resource information to the system
during startup. Therefore, you must configure the BIOS to define the card to the system
before installing the ISA card. This reserves system resources for the card.
u
PnP cards are ISA cards that contain configuration registers like PCI cards. During
startup, the system BIOS automatically detects the installed card and assigns the
necessary system resources. Since a PnP card is ISA-based, you install it in the ISA slot.
NOTEAssign system resources for an ISA card and any non-compliant PCI cards before
installation. See the “Assigning System Resources” section below.
Each installed PCI card must draw less than 25 watts of power. The total allowable
maximum wattage for PCI cards is 175 watts. The PCI slots are limited to 25 watts power
dissipation per the Peripheral Component Interconnect Specification 2.1.
28
Slot Locations
The expansion slots are located at the bottom, left section of the system board, as shown in
the following figure. Slot 6 is a shared PCI/ISA slot. You can install a card in the sixth PCI
slot or in the ISA slot, but not in both.
If you are upgrading or replacing an Intergraph graphics, geometry, or VGA/power supply
card, see the following tables for part numbers and recommended PCI slot designations.
Intergraph Graphics Card Part Numbers
The table below lists the part numbers of Intergraph graphics cards specified in the PCI Slot
Designation table in the following section.
Adapter Kit
Graphics Card
AccelGraphics AccelStar II AGPFDSPA281MSMT545
AccelGraphics AccelStar II PCIFDSPA261MSMT541
Matrox Millennium II AGPFOPT195MSMT471
Matrox Millennium II PCIFDSP977MSMT473
RealiZm II ZX25 Graphics CardFOPT208MSMT415
RealiZm II VX25 Graphics CardFOPT209MSMT411
RealiZm II VX113A Graphics CardFOPT235MSMT496
RealiZm II Geometry Accelerator (Lynx 3)FDSP989MSMT492
RealiZm II Geometry Accelerator (Lynx 4)FOPT197MSMT493
Raven DSFOPT259MSMT491
Intense 3D Pro 2200SFOPT184MSMT447
Matrox DigiDesktopMSMT505MSMT505
If you are installing double card sets, such as a graphics card and a geometry accelerator,
repeat the following procedure for the second card. See the documentation that came with
the card for details on connecting the two cards.
For other cards, such as internal modems or SCSI adapters, see the documentation that came
with the card for details on installation, configuration, cable connections, and operation.
30
To install an expansion card:
1. Locate an open slot. If you are installing any of the Intergraph RealiZm II products, see
the table above for required slot assignments.
2. Remove the blanking plate for the slot. Keep the retaining screw.
3. Remove the expansion card from its antistatic packaging.
4. Slide the expansion card carefully into the card guides. Ensure that the gold-fingered
connectors on the board’s edge are aligned properly with the slot connector.
5. Push the card into the slot firmly and evenly until it is fully seated in the slot connector.
6. Inspect the connection. If it does not appear to be correct, remove and reinstall the card.
7. Install the retaining screw.
8. Attach any required cables to the internal or external connectors.
9. Install covers and restart the system.
Assigning System Resources
Some expansion cards include a configuration diskette that you can use to reserve the system
resources required for the card. Other expansion cards do not include a diskette, but require
that you manually program the BIOS with the configuration information.
See the System Setup for details on assigning system resources and configuring the BIOS for
expansion cards, a list of available system address resources (DMA, I/O, memory), and
related details.
NOTETreat non-compliant PCI cards and PCMCIA cards as ISA cards for assigning system
resources.
Adding Internal SCSI Drives
The system features a Wide Ultra2 SCSI adapter to support internal and external mass
storage devices.
The TDZ 2000 GX1 features the following peripheral bays:
u
One 3.5-inch x 1.0-inch external bay for floppy or combo drive.
u
One 5.25-inch x 1.6-inch external bay for CD-ROM.
u
Two 5.25-inch x 1.6-inch external bays for disk drives or other devices.
u
Three 3.5-inch x 1.0-inch or two 3.5-inch x 1.6-inch internal bays for system or optional
disks.
See the following for related information and important details:
u
System Board Manual for details on SCSI connector locations and pinouts.
u
Chapter 5, “Peripherals,” for details on drive locations, jumpers, and cables.
u
Chapter 6, “Power Supply and Cooling Fans,” for details on power supply cable
connectors and pinouts.
Remember the following when installing devices in the system’s drive bays:
u
If you are installing a SCSI drive, have the vendor’s documentation available to follow
instructions for setting the SCSI ID, enabling or disabling termination, installing device
drivers when required, and configuring other drive attributes.
u
If you are installing a drive that connects to an adapter card (such as an EIDE drive), see
the vendor’s documentation for installing the adapter card and required cables. See the
“Adding Expansion Cards” section above for details.
u
If you are installing a removable disk drive module, see the vendor’s documentation for
installing the module, removing terminators, and setting the SCSI ID.
NOTEInternal SCSI drives are not terminated. The internal SCSI cable provides termination. You
must disable termination on any drive that you install in the system.
31
Device Locations
You can add optional mass storage devices to the internal and external drive bays. The
following table provides the drive locations and related information. See the figure below.
Location
1CD-ROMExternal5.25-inch x 1.6-inch—
2Floppy driveExternal3.55-inch x 1.0-inch—
3Add-on deviceExternal5.25-inch x 1.6-inch4
4Add-on deviceExternal5.25-inch x 1.6-inch3
5Add-on disk driveInternal3.5-inch x 1.0-inch2
6Optional disk driveInternal3.5-inch x 1.0 or 1.6-inch1
7System disk driveInternal3.5-inch x 1.0 or 1.6-inch0
NOTEYou can install a total of three 3.5-inch x 1.0-inch drives or a total of two 3.5-inch x 1.6-inch
drives in the internal drive bay.
The following figure shows drive locations. Devices are installed in all locations for figure.
The CD-ROM, floppy drive, and system drive are standard. Other devices are available as
options.
Location 5 — add-on dri ve
Location 6 — add-on dri ve
Location 7 — system dri ve
To install devices in external or internal device bays, follow the instructions in Chapter 2,
“Servicing the System.”
Adding External SCSI Drives
You can add external Low Voltage Differential Signaling (LVDS) SCSI drives to the system
by connecting them to a SCSI port on the back of the system. The TDZ 2000 GX1 features a
Wide Ultra2 SCSI adapter. See the System Board Manual for a figure of port locations.
NOTEMost SCSI adapters do not recognize a hard disk drive that was formatted using a different
brand of adapter. For example, a hard disk drive formatted with an Adaptec SCSI adapter
will not work with a Symbios SCSI adapter. You must use only Symbios-formatted hard disk
drives with a Symbios SCSI adapter.
SCSI Cable Length Guidelines
The number of drives and length of the cables used to connect the drives is a factor when
using SCSI-2, and Ultra SCSI drives. SCSI-2 and Ultra SCSI impose shorter cable
restrictions than SCSI-1. The total length of the SCSI cabling must not exceed the
following:
33
Drives
SCSI-1SCSI-2Ultra SCSIWide Ultra2 SCSI
1 to 46 meters3 meters3 meters12 meters
5 to 76 meters3 meters1.5 meters12 meters
8 to 15N/AN/AN/A12 meters
NOTEThe SCSI controller (on the system board or an adapter card) counts as one device.
The total length of the SCSI cabling is the sum of the following:
u
Ultra SCSI cable inside the system—14 inches (35.5 cm)
u
SCSI cable inside each device—average 8 inches (20 cm)
u
SCSI cable between the system and the first device
u
SCSI cable between each device
SCSI Cable Quality Guidelines
To ensure data integrity and optimum performance, do the following:
u
Use only Intergraph SCSI cables. Cables from other vendors may not provide adequate
shielding.
u
Use the shortest cables possible to connect SCSI devices to the system and to each other.
SCSI ID Guidelines
By default, specific devices use the following SCSI IDs:
u
System disk drive (standard) uses ID 0
u
SCSI bus always uses ID 7
NOTETo easily determine the ID of each SCSI device on the system, restart the system. When the
BIOS screen displays, look for the list of SCSI devices and write down the ID for each device.
Some SCSI devices feature push switches to set the ID, while others have DIP switches or
jumpers. See the vendor documentation for details on setting the ID.
34
SCSI Termination Guidelines for External Devices
Follow the guidelines below for terminating SCSI devices:
u
Enable termination on the last external drive on the SCSI cable chain.
u
Disable termination on all other external drives on the SCSI cable chain.
u
Use only an active terminator on externally-terminated devices.
Connecting the Device
To add an external SCSI device:
1. Connect one end of the external SCSI cable to the Wide Ultra2 SCSI port
2. Connect the other end of the cable to the SCSI device.
3. Set the SCSI ID of the device to an unused number.
4. If the SCSI device is:
−
the last or only device on the SCSI chain, enable SCSI termination
−
NOT the last or only device on the SCSI chain, disable SCSI termination
5. Ensure that the power switch on the device is in the off position, and then connect the
power cord to the device and then to an AC receptacle.
6. Turn on the power to the device and any other devices on the SCSI chain.
7. Start the system. If necessary, install the software drivers and configure the drive
according to the vendor’s instructions.
Changing SCSI Host A d apter or Device Settings
Depending on your system configuration or the capabilities of SCSI devices connected to
your system, you may need to use the SCSI Configuration Utility to change host adapter or
device settings. See the System Setup for details.
4 System Hardware Overview and
Specifications
This chapter contains general, technical information about the hardware in a TDZ 2000
GX1.
If your system includes any of the following hardware, refer to the documentation delivered
with the hardware for additional information:
u
Monitor(s)
u
Uninterruptible power supply
u
External SCSI devices
The following figure shows the major components and assemblies inside the system.
Power supply with fan
CD-ROM drive
Floppy di sk
drive
Rear
chassis
fan
System board
External
5.25-inch
device bays
Internal
drive bays
Forward chassis fan
Functional Diagram
The following diagram shows the power and data signals of the base unit components.
37
Power
Data
Power and Da t a
System Board
AC In
Speaker
Keyboard
Mouse
Monitor
AC In
Power Supply
Fans
Floppy Disk Drive
CD-ROM Dri v e
Serial
Ports
Parallel
Port
EIDE/SCSI
Controller
USB
Disk Drives
(Internal/External)
38
SCSI Cable Routing Diagram
The following diagram shows how the three SCSI cables should be routed when connecting
SCSI devices.
AGP slot
CD-ROM drive
Front-accessible
devices
External LVDS
SCSI connector
LVDS SCSI
adapter
ISA slot
System board
System Configuration Summary
The following table summarizes the main features of the system.
Feature
Processors400 or 450 MHz Intel Pentium II Xeon with external 512 KB cache
MemoryFour banks, one DIMM per bank, non-interleaved
Memory Width72 bits wide (8 bits ECC-protected)
Memory StyleIndustry-standard 3.3 volt 168-pin DIMM (unbuffered)
Memory TypeSDRAM (Synchronous Dynamic Random Access Memory)
Memory Speed100 MHz
Min/Max Memory32 MB / 1 GB
Memory Expansion32 MB, 64 MB, 128 MB, or 256 MB increments
Description
Internal drives
Chassis
FeatureDescription
NetworkingOne integrated 10/100 Mbps, PCI bus-mastering, ACPI and PC97
compliant Ethernet adapter, with Wake-On-LAN support
SCSIOne single channel, 16-bit, Wide Ultra2 (LVDS) SCSI controller
for internal and external SCSI devices
MousePrimax 3-button mouse
KeyboardPS/2 style
GraphicsAccelGraphics AccelStar II, Intergraph RealiZm II (ZX25, VX25,
VX113), Intense 3D Pro 2200S, Matrox Digital Desktop, Millenium
II, and Raven-DS
System Disk Drive4.5 GB or 9.1 GB 7200 RPM (Wide Ultra)
4.5 GB or 18.0 GB 7,200 RPM (Wide Ultra2 -- LVDS)
4.5 GB, 9.1 GB, or 18.0 GB 10,000 RPM (Wide Ultra2 -- LVDS)
CD-ROM32X EIDE CD-ROM
I/O SlotsOne full-length Accelerated Graphics Port (AGP), five full-length
PCI, one full-length PCI/ISA
Peripheral BaysThree 3.5-inch x 1.0-inch or two 3.5-inch x 1.6-inch internal bays
for system disk and optional disks
One 3.5-inch x 1.0-inch external bay for floppy drive
One 5.25-inch x 1.6-inch external bay for CD-ROM
Two 5.25-inch x 1.6-inch external bays for optional devices
I/O PortsOne PS/2 Mouse port and one PS/2 Keyboard port
One Parallel port, EPP- and ECP-compatible
Two Serial (COM) ports
MIDI/game port
Two Universal Serial Bus (USB) ports
One Wide Ultra2 SCSI port (LVDS)
Ethernet Port (RJ45 connector)
Audio Ports: Microphone, Line In, Line Out
AudioIntegrated Crystal 4235 audio CODEC and Crystal CS9236
Wavetable Synthesizer
Power SupplyManually-ranging, 300 watts with Wake On Lan support (WOL)
39
40
System Model Number
The model number on the unit identifies the system hardware and software configuration.
The following table defines the individual digits.
4:Intense 3D Pro 2200S
7:Matrox Millennium II (4 MB)
A:RealiZm II ZX25
B:RealiZm II VX25
G:RealiZm II VX113A
H:Matrox DigiDesktop
J:AccelGraphics AccelStar II
The following table lists the main chip components on the MSMT559 system board.
41
Component
Form FactorExtended ATX
System ChipsetIntel 82440GX
System BIOSPhoenix
Processor(s)Single or dual Intel Pentium II Xeon; 400 or 450 MHz
Sound ControllerCrystal 4235 audio CODEC
Ethernet ControllerIntel 82558 10/100 Mpbs PCI Lan controller with WOL
Combo ControllerNational PC97307 Super I/O
PCI/AGP ControllerIntel 82443GX
PCI/ISA/IDE ControllerIntel 82371EB Xcelerator (PIIX4E)
Universal Serial Bus PortsIntel 82371EB Xcelerator (PIIX4E)
See the System Board Manual for detailed information on the system board.
Specifications
The following specifications apply to the TDZ 2000 GX1.
Item
Dimensions
Weight55 LB. (25 kg) fully configured
Maintenance
clearance
AC line voltage (US)90 - 132 VAC, 47 - 63 Hz, 1 phase, 15A/125 V receptacle
AC line voltage
(International)
Power consumption780 W (based on 6.5 A, 120 VAC, 60 Hz)
Recommended room
SCSI Disk Drives........................................................................................... 49
43
44
Peripheral Cables
This section provides information on peripheral cables and associated connections. See the
System Board Manual for additional details. Cable illustrations are not to scale. You can
identify the cables and connectors using their spacing as reference.
CAUTIONYou must disable termination on any SCSI device you install internally. If you do not disable
termination, the system may fail to start or may behave erratically.
The following illustration and table show the cable connectors and the locations to which
they attach. This cable (MCBL316) is approximately 46 inches long.
1764325
ConnectorConnects To
1Wide Ultra2 SCSI expansion card
2System Disk at Location 7 (internal bay)
3Disk at Location 6 (internal bay)
4Disk at Location 5 (internal bay)
5Device at Location 4 (external bay)
6Device at Location 3 (external bay)
7SCSI terminator
See “Device Locations” in Chapter 3, “Upgrading the System,” for details on standard
peripheral locations.
EIDE Cable Connection Locations
The following illustration and table show the cable connectors and the locations to which
they attach. This cable is (MCBL121) approximately 10.5 in (26.7 cm) long.
132
ConnectorConnects To
1Secondary EIDE connector, system board
2Optional device at Location 3 (external bay)
3EIDE CD-ROM CDSK196 at Location 1
Floppy Cable Connection Locations
45
The following illustration and table show the cable connectors and the locations to which
they attach. This cable (MCBL106) is standard and is approximately 17 in (43.1 cm) long.
12
ConnectorConnects To
1Floppy disk drive connector, system board
2Floppy disk drive
Peripheral Configuration
This section provides illustrations and information on configuring common peripherals for
the system.
See the following for related information:
u
System Board Manual for cable connector locations and pinouts.
u
Chapter 6, “Power Supply and Cooling Fans,” for power cable information and pinouts.
46
u
Vendor documentation provided with the peripheral device.
EIDE CD-ROM Drive
The following figure shows the back of the EIDE CD-ROM drive (CDSK196).
Device ConnectorCableConnects to
Audio (analog)MCBL199Audio connector, system board
EIDEMCBL121Secondary EIDE connector, system board
PowerP3Power supply
The Mode Select header is jumpered “Master” as shown.
Floppy Disk Drive
The following figure shows the cable connectors on the back of the floppy disk drive
(CDSK146).
Audio connector
Mode Select (set to Master)
EIDE connector
Power c on nector
Power connector
Data cable connector
Device ConnectorCableConnects to
PowerP4Power supply
DataMCBL106Floppy disk drive connector, system board
SCSI CD Recorder (CDSK212)
The following figure shows the back of the CD recorder.
To disable SCSI termination, remove the TE jumper from connector J2. To enable parity,
remove the PD jumper from connector J2. For optimum performance, remove all jumpers
from J2.
50
Use jumpers as defined in the following table to set the SCSI ID.
This chapter describes the 300-watt power supply available in TDZ 2000 GX1 systems, and
the power-related pinouts, cooling fans, and hardware monitoring devices.
Power Supply...............................................................................................................52
The power supply provides up to 300 watts of power, and uses a manual switch for selecting
either 115 VAC (90-132 VAC range) or 230 VAC (180-264 VAC range) for domestic or
oversea locations. The input frequency is 47-63 Hz, single phase. Input current is 5 amps
maximum for the 115 VAC range and 2.5 amps for the 230 VAC range. At full load, the
power supply has a minimum efficiency of 65 percent. The power supply is enclosed in a
case that includes a fan to provide additional airflow through the system.
When you connect AC power to the system, the computer is powered in its lowest “trickle”
power state (the 5V Standby output is On) and the Power LED glows yellow, though the fans
do not run. In this respect, the TDZ 2000 GX1 is always powered on.
The power supply contains no user- or field-serviceable parts. You must install a new power
supply if an internal component is defective.
The power supply has the following DC output specifications.
P2P3P4P5P6Unit
+3.3
1
+12-12-5+5
2
VDC
Stdby
Nominal Output
Voltages
Maximum
Current Rating
P1
1
+5
403012.5.31ADC
1
1. Maximum combined +5V and +3.3V power is 250 Watts
2. The +5V Stdby (Standby) output shall remain ON with the AC input power connected,
whether the power supply DC outputs are disabled (OFF) or enabled (ON) by the powerup circuitry.
Cable Connectors
The following table lists the cable connectors from the power supply that connect to the
system board and other devices.
The TDZ 2000 GX1 has three cooling fans. One is inside the power supply; the others are
mounted in the chassis. All fans are 12 VDC. The fans pressurize the chassis and force
warm air out from the vents. Hardware controls the dynamic speed of each two-wire fan.
See the System Board Manual for connector locations and fan cable pinouts. See also
Chapter 2, “Servicing the System,” for details on replacing the chassis fans.
The table below summarizes fan information.
55
Fan
Chassis fan 1Bottom front120 mmInto the chassisOption cards
Chassis fan 2Top rear120 mmInto the chassisProcessors, drives
Power supplyPower supply80 mmOut of the chassisPower supply
The two chassis fans (CFAN172) are field replaceable.
The power supply fan is not field replaceable. If the fan requires replacement, you must
replace the power supply.
Arrows on each fan indicate airflow direction and rotation, as in the following illustration.
LocationSizeAirflowDevices Cooled
Rotation
Side view of fan
Airflow
Ensure that you install each chassis fan with the airflow direction arrow pointing toward the
inside of the chassis.
56
Index
57
A
Accessing internal components, 1
Airflow direction and fan rotation,
55
Assigning resources for option
cards, 30
C
Cable connectors
power supply (CPWS189), 53
Cable lengths
external SCSI drives, 33
Cable quality for external SCSI
devices, 33
Case
closing after service, 4
opening for service, 3
replacing door assembly, 8
replacing face panel, 10
replacing hinge rails, 10
replacing side plastic cowling,
11
replacing top cover, 8
CD-ROM drive
replacing, 13
Closing case after service, 4
Combo controller, 41
Component list
system board, 41
Configuration summary
system, 38
Configuring peripherals, 43
CPWS189 (300-watt power
supply), 52
D
DC output specifications
power supply (CPWS189), 52
Disk drives, 49
Door assembly replacement, 8
E
EIDE CD-ROM drive (CDSK196),
46
Electrostatic discharge
protecting against, 2
Ethernet controller, 41
External bay disk drives
replacing, 14
External SCSI drive
connecting, 34
External SCSI drives
adding, 32
F
Face panel replacement, 10
Fans
airflow direction and rotation,
55
power supply, 55
replacing, 20
system (CFAN172), 55
Floppy disk drive
replacing, 12
Floppy disk drive (CDSK146), 46
Functional diagram
system, 37, 38
G
Graphics cards
upgrading, 28
H
Hardware
optional, 42
overview
system, 36
overview and specifications,
35
Hinge rails
58
replacing, 10
Host adapter (SCSI)
changing settings, 34
I
ID guidelines for SCSI devices, 33
Installing an option card, 29
Internal bay disk drives