LSI21040_技术文档

USER’S

GUIDE

LSI21040

PCI to Dual Channel

Ultra160 SCSI

Host Adapter

Version 1.1

N o v e m b e r 2 0 0 0

®

S14043.B

Electromagnetic Compatibility Notices

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

1. This device may not cause harmful interference, and

2. This device must accept any interference received, including interference that may cause undesired operation.

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 in a

residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed

and used in accordance with the instructions, may cause harmful interference to radio communications. However,

there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful

interference to radio or television reception, which can be determined by turning the equipment off and on, the user

is encouraged to try to correct the interference by one or more of the following measures:

•

Reorient or relocate the receiving antenna.

Increase the separation between the equipment and the receiver.

Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

Consult the dealer or an experienced radio/TV technician for help.

Shielded cables for SCSI connection external to the cabinet are used in the compliance testing of this Product. LSI

Logic is not responsible for any radio or television interference caused by unauthorized modification of this equipment

or the substitution or attachment of connecting cables and equipment other than those specified by LSI Logic. The

correction of interferences caused by such unauthorized modification, substitution, or attachment will be the

responsibility of the user.

The LSI Logic LSI21040 is tested to comply with FCC standards for home or office use.

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 exigences du Règlement sur le matériel brouilleur du

Canada.

This is a Class B product based on the standard of the Voluntary Control Council for Interference from Information

Technology Equipment (VCCI). If this is used near a radio or television receiver in a domestic environment, it may

cause radio interference. Install and use the equipment according to the instruction manual.

LSI Logic Corporation

North American Headquarters

Milpitas, CA

408.433.8000

ii

This document contains proprietary information of LSI Logic Corporation. The

information contained herein is not to be used by or disclosed to third parties

without the express written permission of an officer of LSI Logic Corporation.

LSI Logic products are not intended for use in life-support appliances, devices,

or systems. Use of any LSI Logic product in such applications without written

consent of the appropriate LSI Logic officer is prohibited.

Document DB15-000148-02, Second Edition (November 2000).

This document describes the LSI Logic LSI21040 PCI to Dual Channel Ultra160

SCSI Host Adapter and will remain the official reference source for all

revisions/releases of this product until rescinded by an update.

To receive product literature, visit us at http://www.lsilogic.com.

LSI Logic Corporation reserves the right to make changes to any products herein

at any time without notice. LSI Logic does not assume any responsibility or

liability arising out of the application or use of any product described herein,

except as expressly agreed to in writing by LSI Logic; nor does the purchase or

use of a product from LSI Logic convey a license under any patent rights,

copyrights, trademark rights, or any other of the intellectual property rights of

LSI Logic or third parties.

TRADEMARK ACKNOWLEDGMENT

The LSI Logic logo design, SDMS, SCRIPTS, SURElink, TolerANT, and LVD Link

are registered trademarks or trademarks of LSI Logic Corporation. All other brand

and product names may be trademarks of their respective companies.

iii

iv

Preface

This book is the primary reference and user’s guide for the LSI Logic

LSI21040 PCI to Dual Channel Ultra160 SCSI Host Adapter. It contains

a complete functional description for the LSI21040 as well as complete

physical and electrical specifications.

Audience

This document assumes that you have some familiarity with SCSI

protocol and related support devices and will benefit persons installing

and using the LSI21040.

Organization

This document has the following chapters and appendix:

•

Chapter 1, Using the LSI21040, defines the interfaces and

characteristics of the LSI21040.

Chapter 2, Installing the LSI21040, provides both quick and detailed

installation instructions.

Chapter 3, Specifying the Technical Characteristics, describes the

physical and operational environments of the LSI21040.

Appendix A, Glossary of Terms and Abbreviations, provides

definitions of various terminology that is referenced throughout this

user’s guide.

Preface

v

Related Publications

PCI Storage Device Management System SDMS™ 4.0 User’s Guide,

Order Number S14007.A

SCSI SCRIPTS Processors Programming Guide, Order Number

S14044.A

LSI53C1010-33 PCI to Dual Channel Ultra3 SCSI Multifunction

Controller Technical Manual, Order Number S14025.C

Revision Record

Revision Date

Remarks

1.0

1.1

5/00

Final version.

11/00

All product names changed from SYM to LSI.

vi

Preface

Contents

Chapter 1

Using the LSI21040

1.1

1.2

General Description

1-1

1-2

1-3

1-4

1-5

1-6

1-7

Features

1.2.1

PCI Interface

1.2.2

SCSI Interface

1.2.3

Board Characteristics

SCSI Bus Activity LED Connector

1.2.4

1.3

Benefits of Ultra160 SCSI

1.3.1

1.3.2

1.3.3

1.3.4

Double Transition (DT) Clocking

Cyclic Redundancy Check (CRC)

Domain Validation

Asynchronous Information Protection (AIP)

1.4

1.5

1.6

Benefits of LVD Link Technology

Benefits of TolerANT^®Technology

Benefits of SURElink (Extended Domain Validation)

Chapter 2

Installing the LSI21040

2.1

2.2

Quick Installation Procedure

Detailed Installation Procedure

2-1

2-2

2.2.1

2.2.2

2.2.3

2.2.4

2.2.5

2.2.6

2.2.7

Before You Start

2-2

Inserting the Host Adapter

Connecting the SCSI Peripherals

Making Internal SCSI Bus Connections

Making External SCSI Bus Connections

SCSI Bus Termination

2-2

2-6

2-9

2-14

2-17

2-23

2-25

2-26

Setting SCSI IDs

2.3

2.4

Completing the Installation

Troubleshooting

Contents

vii

Chapter 3

Specifying the Technical Characteristics

3.1

Physical Environment

3-1

3.1.1

3.1.2

3.1.3

3.1.4

3.1.5

Physical Characteristics

Electrical Characteristics

3-2

Thermal, Atmospheric Characteristics

Electromagnetic Compliance

Safety Characteristics

3-3

3.2

3.3

Operational Environment

3-4

3.2.1

3.2.2

3.2.3

The PCI Interface

3-4

The SCSI Interface

3-7

SCSI Activity LED Interface

3-10

Subsystem and Subsystem Vendor ID

Appendix A

Glossary of Terms and Abbreviations

Index

Customer Feedback

Figures

2.1

2.2

2.3

2.4

2.5

Hardware Connections for the LSI21040

Inserting the Host Adapter

2-4

2-5

2-8

2-9

SCSI Cables

Internal SCSI Ribbon Cable to Host Adapter Connection

Internal SCSI Ribbon Cable to Internal SCSI Device

Connection

2-10

2-11

2-12

2-13

2-14

2-15

2-16

2-19

2.6

2.7

2.8

2.9

Connecting Additional Internal SCSI Devices

Multiple Internal SCSI Devices Chained Together

SCSI LED Connector

External Cable to Host Adapter

2.10 External SCSI Device Cable

2.11 Multiple External SCSI Devices Chained Together

2.12 Internal SCSI Device Termination

viii

Contents

2.13 External SCSI Device Termination

2-20

2-22

3-2

2.14 Internal and External SCSI Device Termination

3.1

LSI21040 Mechanical Drawing

Tables

2.1

2.2

2.3

3.1

3.2

3.7

3.8

SCSI Bus Widths and Speeds

SCSI Bus Lengths

2-6

2-7

SCSI ID Record

2-24

3-5

PCI Connector J1 (Front)

PCI Connector J1 (Back)

LED Connector J6

3-6

3-10

Subsystem and Subsystem Vendor ID

Contents

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Contents

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Chapter 1

Using the LSI21040

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This chapter describes the LSI21040 PCI to Ultra160 SCSI Dual Channel

Host Adapter interface to PCI computer systems and includes these

topics:

•

Section 1.1, “General Description,” page 1-1

Section 1.2, “Features,” page 1-2

Section 1.3, “Benefits of Ultra160 SCSI,” page 1-5

Section 1.4, “Benefits of LVD Link Technology,” page 1-6

Section 1.5, “Benefits of TolerANT^®Technology,” page 1-6

Section 1.6, “Benefits of SURElink (Extended Domain Validation),”

page 1-7

1.1 General Description

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The LSI21040 provides an Ultra160 SCSI interface to PCI computer

systems. It is referred to as the LSI21040 throughout this guide. Installing

this adapter in your PCI system allows connection of up to 15 SCSI

devices per channel. The LSI21040 uses the LSI53C1010 PCI to

Ultra160 Multifunction Controller chip.

The dual channel LSI21040 provides 16-bit Low Voltage Differential

(LVD) and Single-Ended (SE) SCSI solutions for your computer, using

only one PCI slot. This board supports legacy Fast SCSI, Ultra SCSI,

Ultra2 SCSI, and the newest Ultra160 SCSI devices.

Channel A supports SE and LVD modes of operation. Channel B

supports only the SE mode.

The Storage Device Management System (SDMS™) software operates

the board. You may also use SCSI software provided by other vendors

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that works with the LSI53C1010. The flash memory device on the board

can incorporate the BIOS support for this host adapter. The LSI21040

has a serial EEPROM device for storing your SCSI bus configuration.

The LSI53C1010 also contains a SCSI SCRIPTS™ processor that

permits both DMA and SCSI commands to be fetched from host memory

or internal SCRIPTS RAM. Algorithms written in SCSI SCRIPTS control

the actions of the SCSI and DMA cores. The SCRIPTS processor

executes complex SCSI bus sequences independently of the host CPU.

For more information on the SCSI SCRIPTS Instruction Set used to write

these algorithms, refer to the SCSI SCRIPTS Processors Programming

Guide.

The PCI Storage Device Management System SDMS 4.0 User’s Guide

and this user’s guide contain a complete library of product information

and installation instructions. With this information, the full benefits of your

LSI21040 are available to you.

1.2 Features

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This section provides an overview of the PCI Interface, the SCSI

Interface, and Board Characteristics for the LSI21040.

1.2.1 PCI Interface

PCI interfaces I/O components to the processor and memory

subsystems in equipment ranging from PCs to servers. The PCI interface

operates as a 64-bit DMA bus master capable of 64-bit addressing. The

LSI53C1010 contains the PCI functionality for the LSI21040.

The PCI interface includes these features:

•

Complies with PCI 2.2 specification

Complies with PCI Bus Power Management Specification Rev 1.1

Complies with PC99

Supports up to 64-bit/33 MHz PCI interface for 264 Mbytes/s

bandwidth that:

–

Supports 64-bit DMA bus mastership with 64-bit addressing

Operates at 33 MHz

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–

Supports dual address cycle generation for all SCRIPTS

Presents a single electrical load to the PCI Bus (True PCI

Multifunction Device)

•

Bursts 2 to 128 Dwords across the PCI bus

Supports 32-bit or 64-bit word data bursts with variable burst lengths

Supports the PCI Cache Line Size register

Prefetches up to 8 Dwords of SCRIPTS instructions

Supports PCI Write and Invalidate, Read Line, and Read Multiple

commands

•

Bursts SCRIPTS opcode fetches across the PCI bus

Supports universal 3.3 V and 5 V PCI signaling environment

1.2.2 SCSI Interface

The SCSI interface on the LSI21040 operates as an 8-bit or 16-bit

interface. It supports 8-bit or 16-bit, synchronous and asynchronous, LVD

or SE, Fast, Ultra, Ultra2, and Ultra160 SCSI protocols in various

combinations.

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The LSI53C1010 contains the SCSI functionality for the LSI21040. This

chip is a PCI to Ultra160 SCSI Controller with LVD Link™ Universal

Transceivers. It connects directly to the SCSI bus and generates signal

timing and bus protocol in compliance with SCSI standards.

The SCSI interface includes these features:

•

Performs wide, Ultra160 SCSI synchronous data transfers as fast as

160 Mbytes/s using Double Transition (DT) clocking for Channel A

Performs wide, Ultra SCSI SE synchronous transfers as fast as

40 Mbytes/s for Channel B

•

Enables LVD or SE termination on Channel A automatically

Enables SE termination on Channel B automatically

Contains internal 68-pin high density connectors for Channel A and

Channel B

•

Contains internal ribbon connector 50-pin for Channel B

Contains external connector 68-pin high density for Channel A

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Features

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•

Provides SCSI termination power (TERMPWR) source with

autoresetting circuit protection device

Includes 8 Kbytes internal RAM for SCRIPTS instruction storage for

each channel

•

Supports SCSI Plug and Play

Supports variable block size and scatter/gather data transfers

Performs complex bus sequences without interrupts, including

restore data pointers

•

Contains a serial EEPROM for user configuration utility

Provides SCSI bus activity LED connector for each channel on one

connector

1.2.3 Board Characteristics

The LSI21040 characteristics are:

•

PCI board dimensions: 152.4 x 88.90 mm (6.875 x 3.99 inches)

PCI Universal 64-bit card edge connector

One high density 68-pin external connector

Two high density 68-pin internal connectors

One 50-pin internal ribbon connector

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SCSI Bus Activity LED connector

In Chapter 3, “Specifying the Technical Characteristics,” Figure 3.1

illustrates the mechanical drawing for this host adapter board.

1.2.4 SCSI Bus Activity LED Connector

A SCSI Bus Activity LED connector indicates the status of the SCSI bus

when an LED is attached. This LED lights when the SCSI bus is

transferring information.

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1.3 Benefits of Ultra160 SCSI

Ultra160 SCSI delivers data up to two times faster than Ultra2 SCSI.

Ultra160 SCSI is a subset of the SCSI Parallel Interface-3 (SPI-3) draft

standard that allows faster synchronous SCSI data transfer rates than

Ultra2 SCSI. When enabled, Ultra160 SCSI performs 80 megatransfers

per second resulting in approximately double the synchronous data

transfer rates of Ultra2 SCSI. The LSI53C1010 performs 16-bit, Ultra160

SCSI synchronous data transfers as fast as 160 Mbytes/s. This

advantage is most noticeable in heavily loaded systems or large block

size applications, such as video on-demand and image processing.

1.3.1 Double Transition (DT) Clocking

Ultra160 SCSI includes DT clocking in order to double data transfer

speeds without increasing the clock rate. As a result, data is clocked on

both rising and falling edges of the Request and Acknowledge signals.

1.3.2 Cyclic Redundancy Check (CRC)

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Ultra160 SCSI includes CRC to provide data bus protection. CRC offers

higher levels of data reliability by ensuring complete integrity of

transferred data. CRC is a 32-bit scheme, referred to as CRC-32. CRC

is guaranteed to detect all single bit errors, all double bit errors, or any

combination of errors within a single 32-bit range.

1.3.3 Domain Validation

Ultra160 SCSI also includes Domain Validation to provide basic integrity

checking. Domain Validation is a procedure that allows a host computer

and target SCSI peripheral to negotiate and find the optimal transfer

speed. This procedure improves overall reliability of the system.

SURElink™ extends this feature by providing three levels of integrity

checking. Refer to Section 1.6, “Benefits of SURElink (Extended Domain

Validation),” on page 1-7 for more detailed information.

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1.3.4 Asynchronous Information Protection (AIP)

The LSI53C1010 supports AIP to protect all non-data phases, including

command, status, and messages. CRC, along with AIP, provides end-to-

end protection of the SCSI I/O.

1.4 Benefits of LVD Link Technology

To support greater device connectivity and a longer SCSI cable, the

LSI21040 features LVD Link technology, the LSI Logic implementation of

Universal LVD SCSI. LVD Link transceivers provide the inherent reliability

of differential SCSI, and a long-term migration path to faster SCSI

transfer rates.

The LVD Link transceivers reduce the power needed to drive the SCSI

bus, so that the I/O drivers can be integrated directly into the chip.

LVD Link technology lowers the amplitude of noise reflections and allows

higher transmission frequencies.

The LVD Link transceivers operate in LVD and SE modes. They also

allow the chip to detect a High Voltage Differential (HVD) signal when the

chip is mistakenly connected to external HVD transceivers. When

connected, the LSI53C1010 automatically detects signal type, based on

the voltage detected. It automatically switches to the SE or LVD mode,

as appropriate.

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Important: All bus devices must be LVD or SE. If a HVD device is

detected, the board puts the SCSI bus in the high

impedance state and shuts down.

®

1.5 Benefits of TolerANT Technology

The LSI53C1010 features TolerANT technology, which includes active

negation on the SCSI drivers and input signal filtering on the SCSI

receivers. Active negation causes the SCSI Request, Acknowledge,

Data, and Parity signals to be actively driven HIGH rather than passively

pulled up by terminators.

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TolerANT receiver technology improves data integrity in unreliable

cabling environments where other devices would be subject to data

corruption. TolerANT receivers filter the SCSI bus signals to eliminate

unwanted transitions, without the long signal delay associated with

RC-type input filters. This improved driver and receiver technology helps

eliminate double clocking of data, which is the single biggest reliability

issue with SCSI operations. TolerANT input signal filtering is a built-in

feature of the LSI53C1010 and all LSI Logic Fast SCSI, Ultra SCSI,

Ultra2 SCSI, and Ultra160 SCSI devices.

The benefits of TolerANT technology include increased noise immunity

when the signal transitions to HIGH, better performance due to balanced

duty cycles, and improved fast SCSI transfer rates. In addition, TolerANT

SCSI devices do not cause glitches on the SCSI bus at power-up or

power-down. This technology protects other devices on the bus from data

corruption. When it is used with the LVD Link transceivers, TolerANT

technology provides excellent signal quality and data reliability in real

world cabling environments. TolerANT technology is compatible with both

the Alternative One and Alternative Two termination schemes proposed

by the American National Standards Institute.

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1.6 Benefits of SURElink (Extended Domain Validation)

SURElink represents the very latest SCSI interconnect management

solution. It ensures robust and low risk Ultra160 SCSI implementations

by extending the Domain Validation guidelines documented in the ANSI

T10 SPI-3 specifications. Domain Validation verifies that the system is

capable of transferring data at Ultra160 speeds, allowing it to renegotiate

to lower speed and bus width if necessary.

SURElink is the software control for the manageability enhancements in

the LSI53C1010. Fully integrated in the SDMS software solution,

SURElink provides Domain Validation at boot time as well as throughout

system operation. SURElink extends to the Distributed Management

Interface (DMI) based System Management components of SDMS,

providing the network administrator remote management capability.

SURElink Domain Validation provides three levels of integrity checking:

Basic (level 1), Enhanced (level 2), and Margined (level 3). The basic

check consists of an inquiry command to detect gross problems. The

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Benefits of SURElink (Extended Domain Validation)

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enhanced check sends a known data pattern using the Read and Write

Buffer commands to detect additional problems. The margined check

verifies that the physical parameters have some degree of margin.

By varying LVD drive strength and REQ/ACK timing characteristics,

level 3 verifies that no errors occur on the transfers. These altered

signals are only used during the diagnostic check and not during normal

system operation. Should errors occur with any of these checks, the

system can drop back to a lower transmission speed, on a per-target

basis, to ensure robust system operation.

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Chapter 2

Installing the LSI21040

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This chapter provides instructions on how to install the LSI21040 and

includes these topics:

•

Section 2.1, “Quick Installation Procedure,” page 2-1

Section 2.2, “Detailed Installation Procedure,” page 2-2

Section 2.3, “Completing the Installation,” page 2-25

Section 2.4, “Troubleshooting,” page 2-26

2.1 Quick Installation Procedure

This section provides an overview of the installation procedure. If you are

an experienced computer user with prior host adapter installation and

SCSI bus setup experience, this section may sufficiently describe the

procedure for you. If you prefer a more detailed guidance for installing

the LSI21040, proceed to Section 2.2, “Detailed Installation Procedure.”

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For safe and proper installation, check the user’s manual supplied with

your computer and perform the following steps.

Step 1. Ground yourself before removing this host adapter board.

Step 2. Remove the LSI21040 from the packing and check that it is not

damaged.

Figure 2.1 illustrates an example of this host adapter board.

Also refer to Figure 3.1 to see a more detailed drawing of this

board.

Step 3. Open your PC cabinet and select an appropriate open PCI slot.

Step 4. Insert the host adapter board.

Step 5. Connect the internal and external SCSI peripherals.

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Step 6. Terminate the SCSI bus.

The SCSI bus requires proper termination and no duplicate

SCSI IDs.

Step 7. Set the peripheral SCSI IDs.

Step 8. Make any configuration changes.

Step 9. Close your PC cabinet cover.

Step 10. Make all external SCSI bus connections.

Step 11. Refer to the PCI Storage Device Management System SDMS

4.0 User’s Guide (or the guide for the software you will use) to

load the driver software for your particular operating system.

2.2 Detailed Installation Procedure

This section provides step-by-step instructions for installing the

LSI21040, and connecting it to your SCSI peripherals. If you are

experienced in these tasks, you may prefer to use Section 2.1, “Quick

Installation Procedure.”

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2.2.1 Before You Start

Before starting, look through the following task list to get an overall idea

of the steps you will be performing. If you are not confident you can

perform the tasks as described here, LSI Logic recommends getting

assistance.

The SCSI host adapter acts on your computer’s behalf as the host to

your suite of SCSI peripherals. Each chain of SCSI peripheral devices

and their host adapter work together. They are referred to as a SCSI bus.

Each SCSI host adapter that you install can act as host for up to

15 peripheral devices, not including the adapter itself. Follow the detailed

instructions in the next section to successfully install your host adapter

board.

2.2.2 Inserting the Host Adapter

For safe and proper installation, you will need the user’s manual supplied

with your computer. Perform the following steps to install the LSI21040.

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Step 1. Ground yourself before removing this host adapter board.

Step 2. Remove the LSI21040 from the packing and check that it is not

damaged.

Figure 2.1 illustrates an example of this host adapter board.

Also refer to Figure 3.1 to see a more detailed drawing of this

board.

Step 3. Switch off the computer and unplug power cords for all

components in your system.

Step 4. Remove the cover from your computer per the instructions in

the user’s manual for your system to access the PCI slots.

Caution:

Ground yourself by touching a metal surface before

removing the cabinet top. Static charges on your body can

damage electronic components. Handle plug-in boards by

the edge; do not touch board components or gold

connector contacts. The use of a static ground strap is

recommended.

Step 5. Locate the slots for PCI plug-in board installation.

Refer to the user’s manual for your computer to confirm the

location of the PCI slots.

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The LSI21040 requires a 32-bit or 64-bit PCI slot that allows

bus master operation. If a 32-bit PCI slot is used, bits [31:0] of

the J1 connector are inserted while bits [63:32] remain

uninserted. See Figure 2.2.

Note:

For the LSI21040 to function as a 64-bit device, it must be

inserted in a 64-bit PCI slot. If the LSI21040 is inserted in

a 32-bit PCI slot, it will function as a 32-bit device.

Step 6. Remove the blank bracket panel on the back of the computer

aligned with the PCI slot you intend to use. Save the bracket

screw.

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Figure 2.1 Hardware Connections for the LSI21040

Channel B 68-Pin

Internal High

Density SCSI

Connector J2

Channel A and B

Busy LED

Connector J6

Channel A 68-Pin

Internal High

Density SCSI

Connector J4

Channel B 50-Pin

Low Density SCSI

Connector J5

68-Pin External

High Density SCSI

Connector J3

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LSI21040 PCI Bus

Edge Connector J1

Step 7. Carefully insert edge connector J1 (see Figure 2.1) of the host

adapter into the PCI slot.

Make sure the edge connector is properly aligned before

pressing the board into place as shown in Figure 2.2. The

bracket around connector J3 should fit where you removed the

blank panel.

Note:

You may notice that the components on a PCI host adapter

face the opposite way from non-PCI adapter boards you

have in your system. This orientation is correct. The board

is keyed and will only go in one way.

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Figure 2.2 Inserting the Host Adapter

Bracket Screw

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32-bit slot

64-bit slots

Step 8. Secure the board with the bracket screw (see Figure 2.2) before

making the internal and external SCSI bus connections.

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2.2.3 Connecting the SCSI Peripherals

All internal SCSI bus connections to the LSI21040 are made with an

unshielded 68 conductor Ultra SCSI TPE ribbon cable (see Figure 2.3)

and also a 50-pin ribbon cable. The lead connected to pin 1 on the cable

is marked with a colored stripe. The connectors on this cable may also

be keyed to ensure proper pin connection.

All external SCSI bus connections to the LSI21040 are made with high

quality shielded 68 conductor cables (see Figure 2.3). The connectors on

this cable are always keyed to ensure proper pin connection.

Note:

All the cables shown in Figure 2.3 are included in the

LSI Logic Adapter Board Kit for the LSI21040.

Table 2.1 provides a list of the SCSI bus width and maximum data

transfer rate for various SCSI definitions.

Table 2.1

SCSI Bus Widths and Speeds

SCSI Bus Speed

SCSI Bus

Width, Bits

Maximum Data Rate,

Mbytes/s

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STA Terms

SCSI-1

8

5

10

20

40

80

160

Fast SCSI

8

Fast Wide SCSI

Ultra SCSI

16

8

Wide Ultra SCSI

Wide Ultra2 SCSI

Ultra160 SCSI

16

You can connect up to eight SCSI, Fast SCSI, and Ultra SCSI devices

on an SE Ultra SCSI bus only if they are evenly spaced on a 1.5-meter

Ultra SCSI cable (0.19 m between devices).

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You can connect up to four devices if they are evenly spaced on a

3-meter Ultra SCSI cable (0.75 m between devices). Your SE SCSI bus

should not exceed 3 meters (total internal and external cable lengths),

even with fewer than four devices.

For LVD applications, you can connect up to 16 devices including the

host adapter if they are evenly spaced on a 12-meter Ultra SCSI cable

(0.19 m minimum between devices). Table 2.2 provides a list of the

maximum bus lengths and the maximum number of devices for various

SCSI definitions.

Table 2.2

SCSI Bus Lengths

Maximum Bus Length, Meters¹

Maximum #

of Devices

SE

Differential

LVD

SCSI-1

6

3

25

12

–

8

Fast SCSI

Fast Wide SCSI

Ultra SCSI

3

25

16

8

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1.5²

3²

25

Ultra SCSI

–

4

Wide Ultra SCSI

Ultra2 SCSI

–

25

12

–

16

8

1.5

3

–

4

Note³

12

8

Wide Ultra2 SCSI

Ultra160 SCSI

16

1. This parameter may be exceeded in point-to-point and engineered

applications.

2. Additional spacing rules apply.

3. SE and high power differential are not defined at Ultra2 or Ultra160 speeds.

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Figure 2.3 SCSI Cables

SCSI Cable for Internal Connections

68-Pin High Density

and/or

50-Pin Low Density

SCSI Cable for External Connections

68-Pin High Density

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2.2.4 Making Internal SCSI Bus Connections

This section provides step-by-step instructions about making internal

SCSI bus connections.

Step 1. Plug one end of the 68-pin internal SCSI ribbon cable into

connector J4 or J2. Figure 2.4 illustrates an example for this

step.

Important: You must match pin 1 on this and all subsequent

connections.

Figure 2.4 Internal SCSI Ribbon Cable to Host Adapter

Connection

J2

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Step 2. If you have only two internal devices to connect, plug the other

end of the internal SCSI ribbon cable into the SCSI connector

on your internal SCSI device. Figure 2.5 illustrates an example

of this connection.

Note:

For nonterminated internal SCSI devices, a terminated

cable will be required. This connector must be on the end

of the SCSI cable.

Figure 2.5 Internal SCSI Ribbon Cable to Internal SCSI Device

Connection

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If you have more than one internal device to connect, use an internal

SCSI ribbon cable with the required number of connectors attached

along its length and proceed to the next step. Figure 2.6 illustrates this

type of a connection. If you have only one internal device, proceed to

Step 4 on page 2-13.

Step 3. Plug the cable into each additional device as needed.

Figure 2.7 provides an example of this type of chained

connection. Make sure to match pin 1 on all connections.

Figure 2.6 Connecting Additional Internal SCSI Devices

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Figure 2.7 Multiple Internal SCSI Devices Chained Together

Termination

Enabled

Termination

Disabled

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Most PC cabinets are designed with a front panel LED.

Step 4. Connect the LED cable to connector J6 on the host adapter, as

shown in Figure 2.8.

When properly connected, the front panel LED lights when

there is activity on the SCSI bus.

Connector J6 is not keyed. The orientation of the LED cable

should not matter as long as all four pins are connected. If the

LED does not light during SCSI bus activity from this host

adapter, you may have to rotate the LED cable connector 180°

on J6.

Figure 2.8 SCSI LED Connector

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LED

Cable

LED Connector J6

Left two pins are for Channel A

Right two pins are for Channel B

Some LED cables have only two wires. In this case, place the

connector on one end or the other of J6. If the LED does not

light when there is SCSI activity, put the connector on the other

half of J6.

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2.2.5 Making External SCSI Bus Connections

This section provides step-by-step instructions about making external

SCSI bus connections. To connect external SCSI devices to the

LSI21040, follow these steps:

Step 1. Plug the 68-pin HD connector on one end of a shielded external

SCSI cable into the host adapter connector J3. (Figure 2.3

provides examples of SCSI cables to use.)

This connector is in the bracket attached to the back panel of

your computer. Figure 2.9 shows how this connection is made.

Figure 2.9 External Cable to Host Adapter

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Step 2. Plug the 68-pin connector on the other end of the shielded

external SCSI cable into the SCSI connector on your external

SCSI device. Figure 2.10 illustrates an example of this

connection.

Figure 2.10 External SCSI Device Cable

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If this is the only external SCSI device on your system, proceed to

Section 2.2.6, “SCSI Bus Termination,” on page 2-17 for termination

instructions. If you have multiple SCSI devices, proceed to the next page.

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Step 3. Chain multiple devices together with shielded external SCSI

cables.

Figure 2.11 illustrates an example of these chained

connections.

Figure 2.11 Multiple External SCSI Devices Chained Together

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After you have connected all of your internal and external devices,

proceed to Section 2.2.6, “SCSI Bus Termination.”

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2.2.6 SCSI Bus Termination

The devices making up the SCSI bus are connected serially (chained

together) with SCSI cables. The first and last physical SCSI devices

connected on the ends of the SCSI bus must have their terminators

active. All other SCSI devices on the bus must have their terminators

removed or disabled. Remember that the LSI21040 is also on the SCSI

bus—its termination is automatically enabled when it is connected to the

end of the bus.

Important: To utilize Ultra2 and faster SCSI performance, you must

only have LVD devices on the bus. Do not mix any SE

devices with LVD devices or the entire bus will drop to SE,

limiting bus performance to Ultra SCSI levels.

The peripheral device terminators are usually set with jumpers, resistor

modules, or with a switch on the peripheral. Refer to the peripheral

manufacturer’s instructions and to the user’s manual for your computer

for information on how to identify the terminator type/setting for each

device and how to set/change it.

Caution:

The autoenable/disable sensing feature on the LSI21040

may enable termination erroneously if it is directly cabled to

another SCSI device or host adapter using the same

sensing method. The LSI21040 senses the presence of

SCSI devices by detecting the ground signal on

conductor 50 of the 68-pin SCSI cable and conductor 22 on

the 50-pin SCSI cable.

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The LSI21040 automatically controls SCSI bus termination for three

different bus configurations, depending on how it is connected (see

Figure 2.1). The three bus configurations are:

•

Section 2.2.6.1, “Internal Bus Connections”

Section 2.2.6.2, “External Bus Connections”

Section 2.2.6.3, “Internal and External Bus Connections”

Termination on the LSI21040 for these three different bus configurations

is discussed below.

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2.2.6.1 Internal Bus Connections

If only internal SCSI device connections to your host adapter have been

made, you must terminate the last internal device on the SCSI bus. You

must disable the terminators on all other devices. Termination on your

host adapter is automatically enabled in this case.

Figure 2.12 shows an example of how termination is determined for this

SCSI bus configuration.

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Figure 2.12 Internal SCSI Device Termination

Termination

Enabled

Termination

Disabled

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2.2.6.2 External Bus Connections

If only external SCSI device connections to your host adapter have been

made, you must terminate the last external device on the SCSI bus. You

must disable the terminators on all other devices. Termination on the host

adapter is automatically enabled in this case.

Figure 2.13 shows an example of how termination is determined for this

SCSI bus configuration.

Figure 2.13 External SCSI Device Termination

Last Device

on Chain–

With the

Terminator

Installed

Does Not

End Chain–

Termination

Disabled

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Host Adapter

Automatically

Terminated

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2.2.6.3 Internal and External Bus Connections

If you have both internal and external SCSI device connections to your

host adapter, you must terminate the last internal and last external

devices on the SCSI bus. You must also disable the termination on all

other devices. Termination on the host adapter is automatically disabled

in this case.

Figure 2.14 shows an example of how termination is determined for this

SCSI bus configuration.

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Figure 2.14 Internal and External SCSI Device Termination

Last Device

on Chain–

Termination

Enabled

Does Not

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End Chain–

Termination

Disabled

Last Device

on Chain–

Termination

Enabled

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2.2.7 Setting SCSI IDs

You must set each SCSI device and the host adapter to a separate SCSI

ID 0 through 15. SCSI ID 7 is the preset host adapter setting, giving it

the highest priority on the SCSI bus. If you plan to boot your computer

from a SCSI hard disk drive on the SCSI bus, that drive should have the

lowest SCSI ID on the bus. Typically, SCSI ID 0 is used; however, for

system performance optimization, an ID other than 0 (zero) can be used.

Refer to Chapter 2 “SCSI BIOS” of the PCI Storage Device Management

System SDMS 4.0 User’s Guide about how to set the host adapter ID

using the LSI Logic SCSI BIOS Configuration Utility.

The peripheral device SCSI IDs are usually set with jumpers or with a

switch on the peripheral. Refer to the peripheral manufacturer’s

instructions and to the user’s manual for your computer to determine the

ID of each device and how to change it.

Note:

You must not have any duplication of SCSI IDs on a SCSI

bus.

Step 1. Determine the SCSI ID of each device on the SCSI bus. Note

any duplications.

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Step 2. Make any necessary changes to the SCSI IDs to eliminate

duplicates and record the IDs for future reference.

Table 2.3 provides a place to keep this record.

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Table 2.3

SCSI ID Record

SCSI ID SCSI Device Channel A

SCSI Device Channel B

15

14

13

12

11

10

9

8

7

6

5

4

3

2

1

0

LSI21040 (default)

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2.3 Completing the Installation

Before replacing the cover on your computer, review this installation

procedure check list. This can save you effort later.

Verify Installation Procedures

Done

Host adapter connection in PCI bus slot secure

Internal SCSI bus connections secure (pin-1 continuity)

External SCSI bus connections secure

Proper SCSI bus termination established

Unique SCSI IDs set and recorded for each device

Step 1. Replace the cabinet cover on your computer.

Step 2. Plug in all power cords.

Step 3. Switch power on to all devices and your computer.

Step 4. Wait for your computer to boot up.

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Step 5. To change the configuration of the host adapter, refer to

Chapter 2 “SCSI BIOS” of the PCI Storage Device

Management System SDMS 4.0 User’s Guide.

Use this guide for LSI Logic software and driver information for

various operating systems (or the user’s guide for

non-LSI Logic software you will be using).

Step 6. Load the software and drivers suitable to your application and

system.

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2.4 Troubleshooting

Check these hardware items if problems arise:

•

Cabling – Use an unshielded 68 conductor Ultra SCSI TPE ribbon

cable and a 50-pin ribbon cable for internal connections. Ensure the

pin-1 orientation is correct for internal cables. Use a 68-pin high

density SCSI cable for external connections.

SCSI Devices – Set each SCSI device and the host adapter to a

separate SCSI ID 0 through 15. You must not have any duplication

of SCSI IDs on a SCSI bus. The default SCSI ID for the host adapter

is SCSI ID 7.

Termination – Automatic termination is enabled when the LSI21040

is connected to the end of the bus. For internal and/or external bus

connections, terminate the last internal and/or external device on the

SCSI bus.

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Installing the LSI21040

Chapter 3

Specifying the

Technical

Characteristics

This chapter provides specific details about the physical environment

associated with the LSI21040. This chapter includes these topics:

•

Section 3.1, “Physical Environment,” page 3-1

Section 3.2, “Operational Environment,” page 3-4

Section 3.3, “Subsystem and Subsystem Vendor ID,” page 3-10

3.1 Physical Environment

This section provides information about the physical, electrical, thermal,

and safety characteristics of the LSI21040. Additionally, this board is

compliant with electromagnetic standards set by the FCC.

3.1.1 Physical Characteristics

The dimensions of the LSI21040 are 6.875 x 3.99 inches. Edge

connector J1 makes the PCI connection.

Connectors J4 for Channel A and J2 for Channel B are the 68-pin high

density connectors that make the internal SCSI connections. J5 is a

50-pin low density vertical connector for Channel B.

Connector J3 is a 68-pin high density connector that makes the external

SCSI connection. The J3 connector extends externally to the cabinet

through a bracket attached to the board and the face of the connector. The

bracket is a standard ISA type with a cutout to accommodate connector

J3.

Connector J6 provides connection to the computer’s drive activity LED.

This connector is a 4-pin one row right angle header. The left two pins

are for Channel A SCSI activity, while the right two pins are for Channel B

SCSI activity.

LSI21040 PCI to Dual Channel Ultra160 SCSI Host Adapter

3-1

The component height on the top and bottom of the board conforms to

the PCI Local Bus Specification Revision 2.2. Figure 3.1 illustrates the

details of the LSI21040 mechanical drawing.

Figure 3.1 LSI21040 Mechanical Drawing

J4

J2

J5

U6

U7

U8

5

U1

U2

U3

U10

U12

U13

U11

U14

A23

VDDA

VSSA

AC23

U15

LSI LOGIC HOST ADAPTER

2000 LSI Logic

C

VDDA2

A1

AC1

U16

VSSA2

U18

U17

J1T

J3

3.1.2 Electrical Characteristics

Under normal conditions, the LSI21040 maximum power requirement

that includes SCSI TERMPWR is: +5 V DC, ±5%, 3.0 A, and over the

operating range 0 °C to 55 °C.

Under abnormal conditions, such as a short on SCSI TERMPWR, +5 V

current may be higher. At temperatures of at least 25 °C, a current of 4 A

is sustained no longer than 30 seconds before the self-resetting

TERMPWR short circuit protection device (F1) opens.

The PCI PRSNT1/ and PRSNT2/ pins are set to indicate a 15 W maximum

configuration.

3-2

Specifying the Technical Characteristics

3.1.3 Thermal, Atmospheric Characteristics

The thermal, atmospheric characteristics of the LSI21040 are:

•

Temperature range: 0 °C to 55 °C (dry bulb)

Relative humidity range: 5% to 90% noncondensing

Maximum dew point temperature: 32 °C

The following parameters define the storage and transit environment for

the LSI21040:

•

Storage Temperature: −45 °C to +105 °C (dry bulb)

Relative Humidity Range: 5% to 90% noncondensing

3.1.4 Electromagnetic Compliance

The board is designed and implemented to minimize electromagnetic

emissions, susceptibility, and the effects of electromagnetic discharge.

The board carries the CE mark, VCCI, Canada mark, and meets the

requirements of FCC Class B. The board is marked with the FCC

self-certification logo.

3.1.5 Safety Characteristics

The bare board meets or exceeds the requirements of UL flammability

rating 94 V0. The bare board is also marked with the supplier’s name or

trademark, type, and UL flammability rating. Since this board is installed

in a PCI bus slot, all voltages are below the SELV 42.4 V limit.

Physical Environment

3-3

3.2 Operational Environment

Use the LSI21040 in PCI computer systems with an ISA/EISA bracket

type. The SDMS operates the board, but the design of the board does

not prevent the use of other software. An on-board flash memory device

is provided to allow BIOS code and open boot code support through PCI

and a serial EEPROM for each channel.

3.2.1 The PCI Interface

The PCI interface operates as a 64-bit DMA bus master. Edge connector

J1 makes the PCI connection, which provides connections on both the

front and back of the board. The signal definitions and pin numbers

conform to the PCI Local Bus Specification Revision 2.2 standard.

Table 3.1 and Table 3.2 show the signal assignments. The on-board

+3.3 V regulator provides power to the PCI portion of the LSI53C1010

device.

Note:

The +3.3 V pins are tied together and decoupled with high

frequency bypass capacitors to ground. No current from

these +3.3 V pins is used on the board. The board derives

power from the +5 V pins, directly and through a 3.3 V

voltage regulator. The PCI +3 V/+5 V pins are used to

differentiate between a 5 V or a 3.3 V PCI environment.

3-4

Specifying the Technical Characteristics

Table 3.1

PCI Connector J1 (Front)

Pin Signal Name

Signal Name

Pin Signal Name

−12 V

1

2

+3.3 V

C_BE3/

AD23

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

M66EN

KEYWAY

AD08

49

50

51

52

53

54

55

56

57

58

59

60

61

62

xx

63

64

65

66

67

68

69

70

AD59

71

72

73

74

75

76

77

78

79

80

81

82

83

84

85

86

87

88

89

90

91

92

93

94

TCK

AD57

GND

3

GND

TDO

4

GND

AD55

+5 V

5

AD21

AD07

AD53

+5 V

6

AD19

+3.3 V

AD05

GND

INTB/

7

+3.3 V

AD17

AD51

INTD/

8

AD03

AD49

GND (PRSNT1/)

RESERVED

GND (PRSNT2/)

KEYWAY

RESERVED

GND

9

C_BE2/

GND

+3 V / +5 V

AD47

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

AD01

IRDY/

+3.3 V

DEVSEL/

GND

+3 V / +5 V

ACK64/

+5 V

AD45

GND

AD43

+5 V

AD41

LOCK/

PERR/

+3.3 V

SERR/

+3.3 V

C_BE1/

AD14

KEYWAY

RESERVED

GND

CLK

AD39

GND

AD37

REQ/

+3 V / +5 V

AD35

+3 V / +5 V

AD31

C_BE6/

C_BE4/

GND

AD33

AD29

GND

AD63

RESERVED

GND

AD27

AD12

AD61

AD25

AD10

+3 V / +5 V

Note: Highlighted signals are not connected.

Operational Environment

3-5

Table 3.2

PCI Connector J1 (Back)

Pin Signal Name

Signal Name

Pin Signal Name

TRST/

1

AD24

IDSEL

+3.3 V

AD22

AD20

GND

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

AD09

49

50

51

52

53

54

55

56

57

58

59

60

61

62

xx

AD58

71

72

73

74

75

76

77

78

79

80

81

82

83

84

85

86

87

88

89

90

91

92

93

94

+12 V

2

KEYWAY

C_BE0/

+3.3 V

AD06

GND

TMS

3

AD56

TDI

4

AD54

+5 V

5

+3 V / +5 V

AD52

INTA/

6

INTC/

7

AD18

AD16

+3.3 V

FRAME/

GND

AD04

AD50

+5 V

8

GND

RESERVED

+3 V / +5 V

RESERVED

KEYWAY

RESERVED

RST/

9

AD02

AD48

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

AD00

AD46

+3 V / +5 V

REQ64/

+5 V

GND

TRDY/

GND

AD44

AD42

STOP/

+3.3 V

SDONE

SBO/

+5 V

+3 V / +5 V

AD40

KEYWAY

GND

+3 V / +5 V

GNT/

xx

AD38

63

64

65

66

67

68

69

70

GND

C_BE7/

C_BE5/

+3 V / +5 V

PAR64

AD62

AD36

RESERVED

AD30

PAR

AD34

AD15

+3.3 V

AD13

AD11

GND

+3.3 V

AD28

AD32

RESERVED

GND

AD26

GND

AD60

RESERVED

Note: Highlighted signals are not connected.

3-6

Specifying the Technical Characteristics

3.2.2 The SCSI Interface

The SCSI interface conforms to ANSI X 3T10.11/1142. The SCSI

interface operates as 16-bit, synchronous or asynchronous, SE or LVD,

and supports Ultra160 SCSI protocols. Arbitration is supported for 8-bit

(at lower SCSI speeds) and 16-bit. Active SE or LVD SCSI termination

is provided automatically. SCSI termination power is supplied by the

board.

Connectors J3 and J4 for Channel A and J2 and J5 for Channel B make

the SCSI interface. Refer to Figure 2.1 on page 2-4 to see an example

of this interface. J2 and J4 are 68-pin high density right angle connectors

for internal SCSI connections. J5 is a 50-pin low density vertical

connector. External connector J3 is a shielded 68-pin high density right

angle connector exposed in the back panel bracket.

LVD/SE dual mode, active termination is provided on the LSI21040 for

Channel A. SE SCSI termination is provided for Channel B. The

LSI21040 supplies SCSI bus TERMPWR through a blocking diode and

a self-resetting 1.5 A short circuit protection device. A 40 MHz oscillator

is installed on the LSI21040. This oscillator provides the clock frequency

necessary to support Ultra160 SCSI transfers of up to 160 Mbytes/s.

Table 3.3 and Table 3.4 show the signal assignments for J2 and J5.

Table 3.5 and Table 3.6 show the signal assignments for J4 and J3.

Operational Environment

3-7

Table 3.3

Signal

Internal Channel B SCSI Connector J2

Signal

N/C

GND

SATN

GND

SBSY

SACK

SRST

SMSG

SSEL

SC_D

SREQ

SI_O

SD8

Signal

GND

1

2

3

4

5

6

7

8

53

54

55

56

57

58

59

60

61

62

63

64

65

66

67

68

N/C

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

SD13

SD14

SD15

SDP1

SD0

SD1

SD2

SD3

SD4

SD5

SD6

SD7

SDP

GND

CPRSNT_A 50

TERMPWR 51

TERMPWR 52

36

37

38

39

40

41

42

43

44

45

46

47

48

49

GND

SD12

9

10

11

12

13

14

15

16

SD9

SD10

SD11

TERMPWR 17

TERMPWR 18

Note: NC pins are not connected.

Table 3.4

Internal Channel B SCSI Connector J5

Signal

GND

SD0

GND

SD1

GND

SD2

GND

SD3

GND

SD4

GND

SD5

1

2

3

4

5

6

7

8

Signal

SD6

GND

SD7

GND

SDP

GND

14

15

16

17

18

19

20

21

Signal

N/C

27

28

29

30

31

32

33

34

35

36

37

38

Signal

GND

SRST

GND

SMSG

GND

SSEL

GND

SC_D

GND

SREQ

GND

39

40

41

42

43

44

45

46

47

48

49

50

GND

SATN

GND

SBSY

GND

SACK

9

CPRSNT_C 22

10

11

12

13

N/C

23

24

25

SI_O

GND

TERMPWR 26

Note: NC pins are not connected.

3-8

Specifying the Technical Characteristics

Table 3.5

Signal

Internal Channel A SCSI Connector J4

Signal

SD12+

SD13+

SD14+

SD15+

SDP1+

SD00+

SD01+

SD02+

SD03+

SD04+

SD05+

SD06+

SD07+

SDP+

1

2

3

4

5

6

7

8

TERMPWR

N/C

GND

SATN+

GND

SBSY+

SACK+

SRST+

SMSG+

SSEL+

SC_D+

SREQ+

SI_O+

SD08+

SD09+

SD10+

SD11+

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

SD12−

SD13−

SD14−

SD15−

SDP1−

SD00−

SD01−

SD02−

SD03−

SD04−

SD05−

SD06−

SD07−

SDP−

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

TERMPWR 52

N/C

53

54

55

56

57

58

59

60

61

62

63

64

65

66

67

68

GND

SATN−

GND

SBSY−

SACK−

SRST−

SMSG−

SSEL−

SC_D−

SREQ−

SI_O−

SD08−

SD09−

SD10−

SD11−

9

10

11

12

13

14

15

16

17

GND

DIFFSENS

TERMPWR

GND

CPRSNT/

TERMPWR 51

Note: NC pins are not connected.

Table 3.6

Signal

External SCSI Connector J3

Signal

SD12+

SD13+

SD14+

SD15+

SDP1+

SD00+

SD01+

SD02+

SD03+

SD04+

SD05+

SD06+

SD07+

SDP+

1

2

3

4

5

6

7

8

9

TERMPWR 18

SD12−

SD13−

SD14−

SD15−

SDP1−

SD00−

SD01−

SD02−

SD03−

SD04−

SD05−

SD06−

SD07−

SDP−

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

TERMPWR

N/C

GND

SATN−

GND

SBSY−

SACK−

SRST−

SMSG−

SSEL−

SC_D−

SREQ−

SI_O−

SD08−

SD09−

SD10−

SD11−

52

53

54

55

56

57

58

59

60

61

62

63

64

65

66

67

68

N/C

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

GND

SATN+

GND

SBSY+

SACK+

SRST+

SMSG+

SSEL+

SC_D+

SREQ+

SI_O+

SD08+

SD09+

SD10+

SD11+

10

11

12

13

14

15

16

17

GND

DIFFSENS

TERMPWR

GND

CPRSNT/

TERMPWR

Note: NC pins are not connected.

Operational Environment

3-9

3.2.3 SCSI Activity LED Interface

The SCSI activity LED interface on the LSI21040 is a four-wire

arrangement that allows you to connect an LED harness to the board.

The buffered GPIO0_FETCH line (maximum output low voltage 0.4 V

and minimum output low current 16 mA) is pulled low to complete the

circuit when a harness with an LED is attached. Connector J6 is the

SCSI busy LED connector. Table 3.7 provides the signal definitions for

the SCSI Busy LED connector.

Table 3.7

LED Connector J6

Signal Name

Channel A LED+

Channel A LED−

Channel B LED–

Channel B LED+

1

2

3

4

3.3 Subsystem and Subsystem Vendor ID

The Subsystem ID and System Vendor ID for the LSI21040 are provided

in Table 3.8. The EEPROM of the LSI21040 contains the ID numbers.

During system initialization, the ID numbers are loaded into the

Subsystem Vendor ID and Subsystem ID registers of the LSI21040 SCSI

Controller (the LSI53C1010). For more information on the operation of

the Subsystem Vendor ID and Subsystem ID registers, refer to the

LSI53C1010-33 PCI to Dual Channel Ultra3 SCSI Multifunction

Controller Technical Manual.

Table 3.8

Subsystem and Subsystem Vendor ID

Subsystem

ID Number

Subsystem Vendor ID

Subsystem ID

1000

1040

3-10

Specifying the Technical Characteristics

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Appendix A

Glossary of Terms and

Abbreviations

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160/m

Active

Termination

Address

AIP

An industry initiative extension of the Ultra160 SCSI specification that

requires support of Double Transition Clocking, Domain Validation, and

Cyclic Redundancy Check.

The electrical connection required at each end of the SCSI bus,

composed of active voltage regulation and a set of termination resistors.

Ultra, Ultra2, and Ultra160 SCSI require active termination.

A specific location in memory, designated either numerically or by a

symbolic name.

Asynchronous Information Protection provides error checking for

asynchronous, nondata phases of the SCSI bus.

Asynchronous

Data Transfer

One of the ways data is transferred over the SCSI bus. It is slower than

synchronous data transfer.

_{34.732 pc}BIOS

Basic Input/Output System. Software that provides basic read/write

capability. Usually kept as firmware (ROM based). The system BIOS on

the mainboard of a computer is used to boot and control the system. The

SCSI BIOS on the host adapter acts as an extension of the system BIOS.

Bit

A binary digit. The smallest unit of information a computer uses. The

value of a bit (0 or 1) represents a two-way choice, such as on or off,

true or false, and so on.

Bus

A collection of unbroken signal lines across which information is

transmitted from one part of a computer system to another. Connections

to the bus are made using taps on the lines.

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Bus Mastering

A high-performance way to transfer data. The host adapter controls the

transfer of data directly to and from system memory without interrupting

the computer’s microprocessor. This is the fastest way for multitasking

operating systems to transfer data.

Byte

A unit of information consisting of eight bits.

CISPR

A special international committee on radio interference (Committee,

International and Special, for Protection in Radio).

Configuration

Refers to the way a computer is set up; the combined hardware

components (computer, monitor, keyboard, and peripheral devices) that

make up a computer system; or the software settings that allow the

hardware components to communicate with each other.

CPU

CRC

Central Processing Unit. The “brain” of the computer that performs the

actual computations. The term Microprocessor Unit (MPU) is also used.

Cyclic Redundancy Check is an error detection code used in Ultra160

SCSI. Four bytes are transferred with the data to increase the reliability

of data transfers. CRC is used on the Double Transition (DT) Data-In and

DT Data-Out phases.

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Device Driver

DMA

A program that allows a microprocessor (through the operating system)

to direct the operation of a peripheral device.

Direct Memory Access.

Differential SCSI A hardware configuration for connecting SCSI devices. It uses a pair of

lines for each signal transfer (as opposed to Single-Ended SCSI which

references each SCSI signal to a common ground).

DMA Bus

Master

A feature that allows a peripheral to control the flow of data to and from

system memory by blocks, as opposed to PIO (Programmed I/O) where

the processor is in control and the flow is by byte.

Domain

Validation

Domain Validation is a software procedure in which a host queries a

device to determine its ability to communicate at the negotiated Ultra160

data rate.

DT Clocking

In Double Transition (DT) Clocking data is sampled on both the asserting

and deasserting edge of the REQ/ACK signal. DT clocking may only be

implemented on an LVD SCSI bus.

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A-2

Glossary of Terms and Abbreviations

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Dword

A double word is a group of four consecutive bytes or characters that are

stored, addressed, transmitted, and operated on as a unit. The lower two

address bits of the least significant byte must equal zero in order to be

Dword aligned.

EEPROM

EISA

Electronically Erasable Programmable Read Only Memory. A memory

chip typically used to store configuration information. See NVRAM.

Extended Industry Standard Architecture. An extension of the 16-bit ISA

bus standard. It allows devices to perform 32-bit data transfers.

External SCSI

Device

A SCSI device installed outside the computer cabinet. These devices are

connected in a continuous chain using specific types of shielded cables.

Fast-20

The SCSI Trade Association (STA) supports the use of “Ultra SCSI” over

the term “Fast-20”. Please see Ultra SCSI.

Fast-40

The SCSI Trade Association (STA) supports the use of “Ultra2 SCSI”

over the term “Fast-40”. Please see Ultra2 SCSI.

Fast SCSI

A standard for SCSI data transfers. It allows a transfer rate of up to

10 Mbytes/s over an 8-bit SCSI bus and up to 20 Mbytes/s over a 16-bit

SCSI bus.

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FCC

Federal Communications Commission.

File

A named collection of information stored on a disk.

Firmware

Software that is permanently stored in ROM. Therefore, it can be

accessed during boot time.

Hard Disk

Host

A disk made of metal and permanently sealed into a drive cartridge. A

hard disk can store very large amounts of information.

The computer system in which a SCSI host adapter is installed. It uses

the SCSI host adapter to transfer information to and from devices

attached to the SCSI bus.

Host Adapter

A circuit board or integrated circuit that provides a SCSI bus connection

to the computer system.

Internal SCSI

Device

A SCSI device installed inside the computer cabinet. These devices are

connected in a continuous chain using an unshielded ribbon cable.

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IRQ

ISA

Interrupt Request Channel. A path through which a device can get the

immediate attention of the computer’s CPU. The PCI bus assigns an IRQ

path for each SCSI host adapter.

Industry Standard Architecture. A type of computer bus used in most

PCs. It allows devices to send and receive data up to 16 bits at a time.

Kbyte

Kilobyte. A measure of computer storage equal to 1024 bytes.

Local Bus

A way to connect peripherals directly to computer memory. It bypasses

the slower ISA and EISA buses. PCI is a local bus standard.

Logical Unit

A subdivision, either logical or physical, of a SCSI device (actually the

place for the device on the SCSI bus). Most devices have only one logical

unit, but up to eight are allowed for each of the eight possible devices on

a SCSI bus.

LUN

Logical Unit Number. An identifier, zero to seven, for a logical unit.

LVD Link

Low Voltage Differential Link allows greater Ultra2 SCSI device

connectability and longer SCSI cables. LVD Link lowers the amplitude of

noise reflections and allows higher transmission frequencies. Detailed

information may be found in Section 1.4, “Benefits of LVD Link

Technology,” on page 1-6.

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Mainboard

A large circuit board that holds RAM, ROM, the microprocessor, custom

integrated circuits, and other components that make a computer work. It

also has expansion slots for host adapters and other expansion boards.

Main Memory

The part of a computer’s memory which is directly accessible by the CPU

(usually synonymous with RAM).

Mbyte

Megabyte. A measure of computer storage equal to 1024 kilobytes.

Motherboard

See Mainboard. In some countries, the term Motherboard is not

appropriate.

Multitasking

The executing of more than one command at the same time. This allows

programs to operate in parallel.

Multithreading

The simultaneous accessing of data by more than one SCSI device. This

increases the data throughput.

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A-4

Glossary of Terms and Abbreviations

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NVRAM

NonVolatile Random Access Memory. Actually an EEPROM

(Electronically Erasable Read Only Memory chip) used to store

configuration information. See EEPROM.

Operating

System

A program that organizes the internal activities of the computer and its

peripheral devices. An operating system performs basic tasks such as

moving data to and from devices, and managing information in memory.

It also provides the user interface.

Parity Checking

A way to verify the accuracy of data transmitted over the SCSI bus. The

parity bit in the transfer is used to make the sum of all the 1 bits either

odd or even (for odd or even parity). If the sum is not correct, the

information may be retransmitted or an error message may appear.

Passive

The electrical connection required at each end of the SCSI bus,

Termination

composed of a set of resistors. It improves the integrity of bus signals.

PCI

Peripheral Component Interconnect. A local bus specification that allows

connection of peripherals directly to computer memory. It bypasses the

slower ISA and EISA buses.

Peripheral

^{44.25 pc}Devices

A piece of hardware (such as a video monitor, disk drive, printer, or

CD-ROM) used with a computer and under the computer’s control. SCSI

peripherals are controlled through a SCSI host adapter.

Pin-1

Orientation

The alignment of pin 1 on a SCSI cable connector and the pin-1 position

on the SCSI connector into which it is inserted. External SCSI cables are

always keyed to insure proper alignment, but internal SCSI ribbon cables

sometimes are not keyed.

PIO

Programmed Input/Output. A way the CPU can transfer data to and from

memory using the computer’s I/O ports. PIO is usually faster than DMA,

but requires CPU time.

Port Address

Also Port Number. The address through which commands are sent to a

host adapter board. This address is assigned by the PCI bus.

Port Number

Queue Tags

See Port Address.

A way to keep track of multiple commands that allow for increased

throughput on the SCSI bus.

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RAM

Random Access Memory. The computer’s primary working memory in

which program instructions and data are stored and are accessible to the

CPU. Information can be written to and read from RAM. The contents of

RAM are lost when the computer is turned off.

RISC Core

ROM

LSI Logic SCSI chips contain a RISC (Reduced Instruction Set

Computer) processor, programmed through microcode SCRIPTS.

Read Only Memory. Memory from which information can be read but not

changed. The contents of ROM are not erased when the computer is

turned off.

SCAM

SCSI Configured AutoMatically. A method to automatically allocate SCSI

IDs using software when SCAM compliant SCSI devices are attached.

SCRIPTS

Processor

The SCRIPTS processor allows users to fine tune SCSI operations with

regard to unique vendor commands or new SCSI specifications. The

SCRIPTS processor fetches SCRIPTS instructions from system memory

to control operation of the LSI53C8XX or LSI53C10XX device.

SCSI

Small Computer System Interface. A specification for a high-performance

peripheral bus and command set. The original standard is referred to as

SCSI-1.

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SCSI-2

The SCSI specification which adds features to the original SCSI

standard.

SCSI-3

The current SCSI specification which adds features to the SCSI-2

standard.

SCSI Bus

A host adapter and one or more SCSI peripherals connected by cables

in a linear chain configuration. The host adapter may exist anywhere on

the chain, allowing connection of both internal and external SCSI

devices. A system may have more than one SCSI bus by using multiple

host adapters.

SCSI Device

SCSI ID

Any device that conforms to the SCSI standard and is attached to the

SCSI bus by a SCSI cable. This includes SCSI host adapters and SCSI

peripherals.

A way to uniquely identify each SCSI device on the SCSI bus. Each SCSI

bus has eight available SCSI IDs numbered 0 through 7 (or 0 through 15

for Wide SCSI). The host adapter usually gets the highest ID, (7 or 15)

giving it priority to control the bus.

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A-6

Glossary of Terms and Abbreviations

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SCSI SCRIPTS

A SCSI programming language that works with the SCRIPTS processor

that is embedded on the LSI53C8XX or LSI53C10XX device. These

SCRIPTS reside in host computer system memory.

SDMS

Storage Device Management System. An LSI Logic software product that

manages SCSI system I/O.

Single-Ended

SCSI

A hardware specification for connecting SCSI devices. It references each

SCSI signal to a common ground. This is the most common method (as

opposed to differential SCSI which uses a separate ground for each

signal).

STA

SCSI Trade Association. A group of companies that cooperate to

promote SCSI parallel interface technology as a viable mainstream I/O

interconnect for commercial computing.

SURElink

The domain validation method developed and used by LSI Logic.

SURElink provides three levels of integrity checking: Basic (level 1),

Enhanced (level 2), and Margined (level 3).

Synchronous

Data Transfer

One of the ways data is transferred over the SCSI bus. Transfers are

clocked with fixed frequency pulses. This is faster than asynchronous

data transfer. Synchronous data transfers are negotiated between the

SCSI host adapter and each SCSI device.

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System BIOS

TolerANT

Controls the low-level POST (Power-On Self-Test), and basic operation

of the CPU and computer system.

A technology developed and used by LSI Logic to improve data integrity,

data transfer rates, and noise immunity, through the use of active

negation and input signal filtering.

Ultra SCSI

A standard for SCSI data transfers. It allows a transfer rate of up to

20 Mbytes/s over an 8-bit SCSI bus and up to 40 Mbytes/s over a 16-bit

SCSI bus. SCSI Trade Association (STA) supports using the term “Ultra

SCSI” over the older term “Fast-20”.

Ultra2 SCSI

Ultra160 SCSI

A standard for SCSI data transfers. It allows a transfer rate of up to

40 Mbytes/s over an 8-bit SCSI bus, and up to 80 Mbytes/s over a 16-bit

SCSI bus. SCSI Trade Association (STA) supports using the term “Ultra2

SCSI” over the term “Fast-40”.

A standard for SCSI data transfers. It allows a transfer rate of up to

160 Mbytes/s over a 16-bit SCSI bus.

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VCCI

VDE

Voluntary Control Council for Interference.

Verband Deucher Elektroniker (Association of German Electrical

Engineers).

Virtual Memory

Wide SCSI

Space on a hard disk that can be used as if it were RAM.

A SCSI-2 feature allowing 16-bit or 32-bit transfers on the SCSI bus. This

dramatically increases the transfer rate over the standard 8-bit SCSI bus.

Wide Ultra SCSI The SCSI Trade Association (STA) term for SCSI bus width 16-bits, SCSI

bus speed maximum data rate 40 Mbytes/s.

Wide Ultra2

SCSI

The SCSI Trade Association (STA) term for SCSI bus width 16-bits, SCSI

bus speed maximum data rate 80 Mbytes/s.

Word

A two byte (or 16-bit) unit of information.

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A-8

Glossary of Terms and Abbreviations

Index

A

I

asynchronous information protection

feature of Ultra160 1-6

inserting the host adapter 2-2, 2-5

installation procedure 2-2

installation procedure check list 2-25

internal SCSI bus connections 2-9

internal SCSI device connection 2-10

internal SCSI device termination 2-19

internal SCSI ribbon cable 2-9

B

board characteristics 1-4

bus configurations 2-17

L

C

LED

chained connection 2-11, 2-16

connecting the SCSI peripherals 2-6

cyclic redundancy check

cable 2-13

connector 2-13

LED connector

SCSI bus activity 1-4

LVD Link technology benefits 1-6

feature of Ultra160 1-5

D

M

desktop management interface 1-7

detailed installation procedure 2-2

domain validation verifying 1-7

double transition clocking 1-5

duplication of SCSI IDs 2-23

multiple internal SCSI devices 2-12

O

operational environment 3-4

E

edge connector 2-4

P

electrical characteristics 3-2

electromagnetic compliance 3-3

erroneous termination 2-17

external SCSI bus connections 2-14

external SCSI device 2-15

PCI connector J1 (back) 3-6

PCI connector J1 (front) 3-5

^{PCI interface 1-2}, 3-4

peripheral device SCSI IDs 2-23

peripheral device terminators 2-17

physical characteristics 3-1

physical environment 3-1

external SCSI device termination 2-20

F

features 1-2

front panel LED 2-13

R

ribbon cable 2-6

G

S

GPIO0_FETCH line 3-10

safety characteristics 3-3

SCSI

H

bus connections 2-6

bus termination 2-17

IDs 2-23

hardware connections 2-4

^{interface 1-3 to 1-4}, 3-7

LED connector 2-13

LSI21040 PCI to Dual Channel Ultra160 SCSI Host Adapter

IX-1

SCSI (Cont.)

peripherals 2-6

ribbon cable 2-9

serial EEPROM 1-4

setting SCSI IDs 2-23

SURElink benefits 1-7

T

termination 2-17

(erroneous) 2-17

thermal, atmospheric characteristics 3-3

TolerANT technology benefits 1-7

U

Ultra SCSI 2-6

Ultra160 SCSI 1-5

asynchronous information protection 1-6

benefits 1-5

cyclic redundancy check 1-5

domain validation 1-5

double transition clocking 1-5

IX-2

Index

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Insight Electronics

Tel: 847.413.8530

Tel: 800.853.9953

http://www.insight-electronics.com

I. E.

Tel: 303.649.1800

W. E.

Wyle Electronics

Idaho Springs

B. M.

Tel: 877.922.9363

http://www.wyle.com

B. M.

Tel: 303.567.0703

Tel: 847.885.9700

Minnesota

Champlin

Alabama

Daphne

Connecticut

Cheshire

Indiana

Fort Wayne

I. E.

W. E.

Indianapolis

A. E.

B. M.

Tel: 800.557.2566

I. E.

Tel: 334.626.6190

A. E.

I. E.

Tel: 203.271.5700

Tel: 203.272.5843

Tel: 219.436.4250

Tel: 888.358.9953

Eden Prairie

Huntsville

B. M.

Tel: 800.255.1469

A. E.

B. M.

I. E.

Tel: 256.837.8700

Wallingford

W. E. Tel: 800.605.9953

Minneapolis

Tel: 256.705.3559

Tel: 256.830.1222

Tel: 800.964.9953

Tel: 317.575.3500

A. E.

Tel: 612.346.3000

W. E. Tel: 800.860.9953

St. Louis Park

W. E.

Delaware

North/South

Iowa

W. E.

Cedar Rapids

A. E.

Tel: 612.853.2280

I. E.

Tel: 612.525.9999

Alaska

A. E.

Tel: 800.526.4812

Tel: 800.638.5988

Tel: 302.328.8968

A. E.

Tel: 800.332.8638

Tel: 319.393.0033

Mississippi

B. M.

A. E.

Tel: 800.633.2918

Arizona

Phoenix

A. E.

B. M.

W. E.

Kansas

W. E.

Kansas City

A. E.

Lenexa

I. E.

W. E. Tel: 856.439.9110

W. E. Tel: 256.830.1119

Tel: 303.457.9953

Tel: 480.736.7000

Tel: 602.267.9551

Tel: 800.528.4040

Florida

Altamonte Springs

Missouri

W. E. Tel: 630.620.0969

St. Louis

Tel: 913.663.7900

B. M.

I. E.

Tel: 407.682.1199

Tel: 407.834.6310

Tempe

I. E.

Tucson

A. E.

Tel: 913.492.0408

A. E.

I. E.

Tel: 314.291.5350

Tel: 314.872.2182

Tel: 480.829.1800

Tel: 520.742.0515

Boca Raton

Kentucky

W. E.

Central/Northern/ Western

A. E.

I. E.

Tel: 561.997.2540

Tel: 937.436.9953

Montana

Bonita Springs

A. E.

Tel: 800.526.1741

B. M.

Tel: 941.498.6011

Arkansas

Tel: 800.984.9503

Tel: 800.767.0329

Tel: 800.829.0146

W. E. Tel: 801.974.9953

Clearwater

W. E.

Tel: 972.235.9953

I. E.

Tel: 727.524.8850

Nebraska

Fort Lauderdale

California

Agoura Hills

A. E.

Tel: 800.332.4375

A. E.

Tel: 954.484.5482

Louisiana

W. E.

North/South

A. E.

W. E. Tel: 303.457.9953

W. E. Tel: 800.568.9953

Miami

B. M.

Tel: 818.865.0266

Tel: 713.854.9953

Granite Bay

Nevada

Las Vegas

B. M.

Tel: 305.477.6406

B. M.

Irvine

A. E.

B. M.

I. E.

Tel: 916.523.7047

Tel: 800.231.0253

Tel: 800.231.5775

Orlando

A. E.

Tel: 800.528.8471

Tel: 407.657.3300

Tel: 949.789.4100

Tel: 949.470.2900

Tel: 949.727.3291

Tel: 800.626.9953

W. E. Tel: 702.765.7117

W. E. Tel: 407.740.7450

Tampa

W. E. Tel: 800.395.9953

St. Petersburg

Maine

A. E.

W. E.

New Hampshire

Tel: 800.272.9255

Tel: 781.271.9953

A. E.

Tel: 800.272.9255

W. E.

W. E. Tel: 781.271.9953

Los Angeles

A. E.

Tel: 727.507.5000

Maryland

Baltimore

A. E.

W. E.

Columbia

A. E.

W. E.

Tel: 818.594.0404

Tel: 800.288.9953

New Jersey

North/South

Georgia

Atlanta

A. E.

Tel: 410.720.3400

Tel: 800.863.9953

Sacramento

A. E.

Tel: 201.515.1641

Tel: 609.222.6400

A. E.

W. E.

Tel: 916.632.4500

Tel: 800.627.9953

Tel: 770.623.4400

Tel: 770.980.4922

B. M.

Mt. Laurel

B. M.

I. E.

Tel: 800.673.7461

Tel: 410.381.3131

San Diego

W. E. Tel: 800.876.9953

Duluth

I. E.

Tel: 856.222.9566

A. E.

B. M.

I. E.

Tel: 858.385.7500

Pine Brook

Tel: 858.597.3010

Tel: 800.677.6011

Tel: 800.829.9953

I. E.

Tel: 678.584.0812

Tel: 800.851.2282

Tel: 801.365.3800

Massachusetts

Boston

A. E.

W. E.

Burlington

I. E.

Marlborough

B. M.

Woburn

B. M.

Tel: 973.244.9668

W. E. Tel: 800.862.9953

Parsippany

W. E.

Hawaii

A. E.

Tel: 978.532.9808

Tel: 800.444.9953

San Jose

I. E.

Tel: 973.299.4425

A. E.

B. M.

I. E.

Tel: 408.435.3500

Tel: 408.436.0881

Tel: 408.952.7000

Wayne

W. E. Tel: 973.237.9010

Idaho

A. E.

Tel: 781.270.9400

W. E. Tel: 801.974.9953

Santa Clara

New Mexico

W. E. Tel: 480.804.7000

Albuquerque

Tel: 800.673.7459

W. E.

Tel: 800.866.9953

Woodland Hills

Tel: 800.552.4305

A. E.

Tel: 818.594.0404

A. E.

Tel: 505.293.5119

Westlake Village

I. E.

Tel: 818.707.2101

U.S. Distributors

by State

(Continued)

New York

South Carolina

Washington

Hauppauge

A. E.

Tel: 919.872.0712

Kirkland

I. E.

Tel: 516.761.0960

W. E. Tel: 919.469.1502

I. E.

Tel: 425.820.8100

Long Island

Maple Valley

South Dakota

A. E.

W. E.

Tel: 516.434.7400

Tel: 800.861.9953

B. M.

Seattle

A. E.

Tel: 206.223.0080

A. E.

Tel: 800.829.0116

W. E. Tel: 612.853.2280

Rochester

Tel: 425.882.7000

Tel: 800.248.9953

A. E.

I. E.

W. E.

Tel: 716.475.9130

Tel: 716.242.7790

Tel: 800.319.9953

W. E.

Tennessee

W. E. Tel: 256.830.1119

East/West

West Virginia

A. E.

Tel: 800.638.5988

Smithtown

A. E.

Tel: 800.241.8182

Tel: 800.633.2918

B. M.

Tel: 800.543.2008

Wisconsin

Milwaukee

Syracuse

A. E.

Tel: 315.449.4927

Texas

Arlington

B. M.

A. E.

W. E.

Tel: 414.513.1500

Tel: 800.867.9953

North Carolina

Raleigh

Tel: 817.417.5993

Wauwatosa

Austin

A. E.

B. M.

I. E.

Tel: 414.258.5338

A. E.

I. E.

W. E.

Tel: 919.859.9159

Tel: 919.873.9922

Tel: 800.560.9953

Tel: 512.219.3700

Tel: 512.258.0725

Tel: 512.719.3090

Wyoming

I. E.

A. E.

W. E.

Tel: 800.332.9326

Tel: 801.974.9953

W. E. Tel: 800.365.9953

Dallas

North Dakota

A. E.

W. E.

Tel: 800.829.0116

Tel: 612.853.2280

A. E.

B. M.

Tel: 214.553.4300

Tel: 972.783.4191

Ohio

Cleveland

W. E. Tel: 800.955.9953

El Paso

A. E.

W. E.

Dayton

A. E.

I. E.

Tel: 216.498.1100

Tel: 800.763.9953

A. E.

Houston

A. E.

Tel: 800.526.9238

Tel: 713.781.6100

Tel: 713.917.0663

Tel: 614.888.3313

Tel: 937.253.7501

Tel: 800.575.9953

B. M.

W. E. Tel: 800.888.9953

Richardson

W. E.

Strongsville

I. E.

Tel: 972.783.0800

B. M.

Tel: 440.238.0404

Rio Grande Valley

Valley View

A. E.

Tel: 210.412.2047

I. E.

Tel: 216.520.4333

Stafford

I. E.

Tel: 281.277.8200

Oklahoma

W. E.

Tulsa

A. E.

I. E.

Tel: 972.235.9953

Utah

Centerville

B. M.

Murray

I. E.

Salt Lake City

A. E.

W. E. Tel: 800.477.9953

Tel: 918.459.6000

Tel: 918.665.4664

Tel: 801.295.3900

Tel: 801.288.9001

Oregon

Beaverton

B. M.

I. E.

Tel: 801.365.3800

Tel: 503.524.1075

Tel: 503.644.3300

Portland

A. E.

W. E.

Vermont

Tel: 503.526.6200

Tel: 800.879.9953

A. E.

Tel: 800.272.9255

W. E. Tel: 716.334.5970

Pennsylvania

Virginia

Mercer

A. E.

Tel: 800.638.5988

I. E.

Philadelphia

Tel: 412.662.2707

W. E. Tel: 301.604.8488

Haymarket

A. E.

B. M.

W. E.

Tel: 800.526.4812

Tel: 877.351.2355

Tel: 800.871.9953

B. M.

Springfield

B. M. Tel: 703.644.9045

Tel: 703.754.3399

Pittsburgh

A. E.

W. E.

Tel: 412.281.4150

Tel: 440.248.9996

Rhode Island

A. E.

W. E.

800.272.9255

Tel: 781.271.9953

Direct Sales

Representatives by State

(Components and Boards)

E. A.

E. L.

GRP

I. S.

ION

R. A.

Earle Associates

Electrodyne - UT

Group 2000

Infinity Sales, Inc.

ION Associates, Inc.

Rathsburg Associ-

ates, Inc.

Texas

Austin

ION

Arlington

ION

Tel: 512.794.9006

Tel: 817.695.8000

Tel: 281.376.2000

Houston

ION

SGY

Synergy Associates,

Inc.

Utah

Salt Lake City

Arizona

Tempe

E. A.

E. L.

Tel: 801.264.8050

Wisconsin

Muskego

Tel: 480.921.3305

R. A.

Saukville

R. A.

Tel: 414.679.8250

California

Calabasas

Tel: 414.268.1152

I. S.

Irvine

I. S.

Tel: 818.880.6480

Tel: 714.833.0300

San Diego

E. A.

Tel: 619.278.5441

Illinois

Elmhurst

R. A.

Tel: 630.516.8400

Indiana

Cicero

R. A.

Ligonier

R. A.

Tel: 317.984.8608

Tel: 219.894.3184

Tel: 317.838.0360

Plainfield

R. A.

Massachusetts

Burlington

SGY

Tel: 781.238.0870

Michigan

Byron Center

R. A.

Tel: 616.554.1460

Good Rich

R. A.

Novi

R. A.

Tel: 810.636.6060

Tel: 810.615.4000

North Carolina

Cary

GRP

Tel: 919.481.1530

Ohio

Columbus

R. A.

Tel: 614.457.2242

Dayton

R. A.

Tel: 513.291.4001

Independence

R. A.

Tel: 216.447.8825

Pennsylvania

Somerset

R. A.

Tel: 814.445.6976

Sales Offices and Design

Resource Centers

LSI Logic Corporation

Fort Collins

New Jersey

Red Bank

125 Half Mile Road

Suite 200

Red Bank, NJ 07701

Tel: 732.933.2656

Fax: 732.933.2643

Canada

Ontario

Ottawa

260 Hearst Way

Suite 400

Kanata, ON K2L 3H1

2001 Danfield Court

Fort Collins, CO 80525

Tel: 970.223.5100

Corporate Headquarters

1551 McCarthy Blvd

Milpitas CA 95035

Tel: 408.433.8000

Fax: 970.206.5549

Fax: 408.433.8989

NORTH AMERICA

California

Irvine

18301 Von Karman Ave

Suite 900

♦ Tel: 613.592.1263

Florida

Boca Raton

2255 Glades Road

Suite 324A

Boca Raton, FL 33431

Tel: 561.989.3236

Fax: 561.989.3237

Fax: 613.592.3253

Cherry Hill - Mint Technology

215 Longstone Drive

Cherry Hill, NJ 08003

Tel: 856.489.5530

Fax: 856.489.5531

INTERNATIONAL

France

Paris

LSI Logic S.A.

Immeuble Europa

53 bis Avenue de l'Europe

B.P. 139

78148 Velizy-Villacoublay

Cedex, Paris

Irvine, CA 92612

♦ Tel: 949.809.4600

Georgia

Alpharetta

2475 North Winds Parkway

Suite 200

Alpharetta, GA 30004

Tel: 770.753.6146

Fax: 770.753.6147

New York

Fairport

550 Willowbrook Office Park

Fairport, NY 14450

Tel: 716.218.0020

Fax: 716.218.9010

Fax: 949.809.4444

Pleasanton Design Center

5050 Hopyard Road, 3rd Floor

Suite 300

Pleasanton, CA 94588

Tel: 925.730.8800

♦ Tel: 33.1.34.63.13.13

North Carolina

Raleigh

Phase II

4601 Six Forks Road

Suite 528

Raleigh, NC 27609

Tel: 919.785.4520

Fax: 919.783.8909

Fax: 33.1.34.63.13.19

Fax: 925.730.8700

Illinois

Oakbrook Terrace

Two Mid American Plaza

Suite 800

Oakbrook Terrace, IL 60181

Tel: 630.954.2234

Germany

Munich

LSI Logic GmbH

Orleansstrasse 4

San Diego

7585 Ronson Road

Suite 100

San Diego, CA 92111

Tel: 858.467.6981

81669 Munich

Fax: 630.954.2235

♦ Tel: 49.89.4.58.33.0

Fax: 858.496.0548

Fax: 49.89.4.58.33.108

Kentucky

Oregon

Silicon Valley

1551 McCarthy Blvd

Sales Office

M/S C-500

Milpitas, CA 95035

Bowling Green

Beaverton

15455 NW Greenbrier Parkway

Suite 235

Beaverton, OR 97006

Tel: 503.645.0589

Stuttgart

1262 Chestnut Street

Bowling Green, KY 42101

Tel: 270.793.0010

Mittlerer Pfad 4

D-70499 Stuttgart

♦ Tel: 49.711.13.96.90

Fax: 270.793.0040

Fax: 49.711.86.61.428

♦ Tel: 408.433.8000

Fax: 503.645.6612

Fax: 408.954.3353

Design Center

Maryland

Bethesda

6903 Rockledge Drive

Suite 230

Bethesda, MD 20817

Tel: 301.897.5800

Fax: 301.897.8389

Italy

Milan

LSI Logic S.P.A.

Texas

Austin

M/S C-410

Tel: 408.433.8000

Fax: 408.433.7695

9020 Capital of TX Highway North

Building 1

Suite 150

Austin, TX 78759

Tel: 512.388.7294

Centro Direzionale Colleoni

Palazzo Orione Ingresso 1

20041 Agrate Brianza, Milano

♦ Tel: 39.039.687371

Wireless Design Center

11452 El Camino Real

Suite 210

San Diego, CA 92130

Tel: 858.350.5560

Fax: 39.039.6057867

Fax: 512.388.4171

Massachusetts

Waltham

200 West Street

Waltham, MA 02451

Japan

Tokyo

LSI Logic K.K.

Rivage-Shinagawa Bldg. 14F

4-1-8 Kounan

Plano

Fax: 858.350.0171

500 North Central Expressway

Suite 440

♦ Tel: 781.890.0180

Colorado

Boulder

4940 Pearl East Circle

Suite 201

Boulder, CO 80301

Plano, TX 75074

Fax: 781.890.6158

♦ Tel: 972.244.5000

Minato-ku, Tokyo 108-0075

Fax: 972.244.5001

Burlington - Mint Technology

77 South Bedford Street

Burlington, MA 01803

Tel: 781.685.3800

Fax: 781.685.3801

♦ Tel: 81.3.5463.7821

Fax: 81.3.5463.7820

Houston

20405 State Highway 249

Suite 450

Houston, TX 77070

Tel: 281.379.7800

♦ Tel: 303.447.3800

Fax: 303.541.0641

Osaka

Crystal Tower 14F

1-2-27 Shiromi

Colorado Springs

Minnesota

Minneapolis

8300 Norman Center Drive

Suite 730

Minneapolis, MN 55437

Chuo-ku, Osaka 540-6014

4420 Arrowswest Drive

Colorado Springs, CO 80907

Tel: 719.533.7000

Fax: 281.379.7818

♦ Tel: 81.6.947.5281

Fax: 81.6.947.5287

Fax: 719.533.7020

♦ Tel: 612.921.8300

Fax: 612.921.8399

Sales Offices and Design

Resource Centers

(Continued)

Korea

Seoul

LSI Logic Corporation of

Korea Ltd

10th Fl., Haesung 1 Bldg.

942, Daechi-dong,

Kangnam-ku, Seoul, 135-283

Tel: 82.2.528.3400

Fax: 82.2.528.2250

The Netherlands

Eindhoven

LSI Logic Europe Ltd

World Trade Center Eindhoven

Building ‘Rijder’

Bogert 26

5612 LZ Eindhoven

Tel: 31.40.265.3580

Fax: 31.40.296.2109

Singapore

LSI Logic Pte Ltd

7 Temasek Boulevard

#28-02 Suntec Tower One

Singapore 038987

Tel: 65.334.9061

Fax: 65.334.4749

Sweden

Stockholm

LSI Logic AB

Finlandsgatan 14

164 74 Kista

♦ Tel: 46.8.444.15.00

Fax: 46.8.750.66.47

Taiwan

Taipei

LSI Logic Asia, Inc.

Taiwan Branch

10/F 156 Min Sheng E. Road

Section 3

Taipei, Taiwan R.O.C.

Tel: 886.2.2718.7828

Fax: 886.2.2718.8869

United Kingdom

Bracknell

LSI Logic Europe Ltd

Greenwood House

London Road

Bracknell, Berkshire RG12 2UB

♦ Tel: 44.1344.426544

Fax: 44.1344.481039

♦ Sales Offices with

Design Resource Centers

International Distributors

Australia

Hong Kong

Yokohama-City

United Kingdom

New South Wales

Reptechnic Pty Ltd

3/36 Bydown Street

Hong Kong

AVT Industrial Ltd

Unit 608 Tower 1

Cheung Sha Wan Plaza

833 Cheung Sha Wan Road

Kowloon, Hong Kong

Tel: 852.2428.0008

Innotech

2-15-10 Shin Yokohama

Kohoku-ku

Yokohama-City, 222-8580

Tel: 81.45.474.9037

Maidenhead

Azzurri Technology Ltd

16 Grove Park Business Estate

Waltham Road

White Waltham

Maidenhead, Berkshire SL6 3LW

Neutral Bay, NSW 2089

♦ Tel: 612.9953.9844

Fax: 81.45.474.9065

Fax: 612.9953.9683

Tel: 44.1628.826826

Fax: 852.2401.2105

Fax: 44.1628.829730

Milton Keynes

Ingram Micro (UK) Ltd

Garamonde Drive

Wymbush

Milton Keynes

Buckinghamshire MK8 8DF

Tel: 44.1908.260422

Macnica Corporation

Hakusan High-Tech Park

1-22-2 Hadusan, Midori-Ku,

Yokohama-City, 226-8505

Tel: 81.45.939.6140

Belgium

Acal nv/sa

Lozenberg 4

1932 Zaventem

Tel: 32.2.7205983

Fax: 32.2.7251014

Serial System (HK) Ltd

2301 Nanyang Plaza

57 Hung To Road, Kwun Tong

Kowloon, Hong Kong

Tel: 852.2995.7538

Fax: 852.2950.0386

Fax: 81.45.939.6141

The Netherlands

Eindhoven

Acal Nederland b.v.

Beatrix de Rijkweg 8

5657 EG Eindhoven

Tel: 31.40.2.502602

Fax: 31.40.2.510255

China

Beijing

LSI Logic International

Services Inc.

Beijing Representative

Office

India

Bangalore

Spike Technologies India

Private Ltd

951, Vijayalakshmi Complex,

2nd Floor, 24th Main,

J P Nagar II Phase,

Swindon

EBV Elektronik

12 Interface Business Park

Bincknoll Lane

Wootton Bassett,

Swindon, Wiltshire SN4 8SY

Tel: 44.1793.849933

Fax: 44.1793.859555

Room 708

Canway Building

66 Nan Li Shi Lu

Xicheng District

Beijing 100045, China

Tel: 86.10.6804.2534 to 38

Fax: 86.10.6804.2521

Switzerland

Brugg

LSI Logic Sulzer AG

Mattenstrasse 6a

CH 2555 Brugg

Tel: 41.32.3743232

Fax: 41.32.3743233

Bangalore, India 560078

♦ Tel: 91.80.664.5530

Fax: 91.80.664.9748

♦ Sales Offices with

Israel

Tel Aviv

Eastronics Ltd

11 Rozanis Street

P.O. Box 39300

Tel Aviv 61392

Tel: 972.3.6458777

Fax: 972.3.6458666

Design Resource Centers

France

Rungis Cedex

Azzurri Technology France

22 Rue Saarinen

Sillic 274

94578 Rungis Cedex

Tel: 33.1.41806310

Fax: 33.1.41730340

Taiwan

Taipei

Avnet-Mercuries

Corporation, Ltd

14F, No. 145,

Sec. 2, Chien Kuo N. Road

Taipei, Taiwan, R.O.C.

Tel: 886.2.2516.7303

Japan

Tokyo

Daito Electron

Sogo Kojimachi No.3 Bldg

1-6 Kojimachi

Chiyoda-ku, Tokyo 102-8730

Tel: 81.3.3264.0326

Fax: 81.3.3261.3984

Germany

Haar

EBV Elektronik

Hans-Pinsel Str. 4

D-85540 Haar

Tel: 49.89.4600980

Fax: 49.89.46009840

Fax: 886.2.2505.7391

Lumax International

Corporation, Ltd

7th Fl., 52, Sec. 3

Nan-Kang Road

Taipei, Taiwan, R.O.C.

Global Electronics

Corporation

Nichibei Time24 Bldg. 35 Tansu-cho

Shinjuku-ku, Tokyo 162-0833

Tel: 81.3.3260.1411

Fax: 81.3.3260.7100

Technical Center

Munich

Tel: 886.2.2788.3656

Fax: 886.2.2788.3568

Avnet Emg GmbH

Stahlgruberring 12

81829 Munich

Tel: 49.89.45110102

Fax: 49.89.42.27.75

Prospect Technology

Corporation, Ltd

4Fl., No. 34, Chu Luen Street

Taipei, Taiwan, R.O.C.

Tel: 886.2.2721.9533

Tel: 81.471.43.8200

Wuennenberg-Haaren

Peacock AG

Fax: 886.2.2773.3756

Marubeni Solutions

1-26-20 Higashi

Shibuya-ku, Tokyo 150-0001

Tel: 81.3.5778.8662

Fax: 81.3.5778.8669

Graf-Zepplin-Str 14

D-33181 Wuennenberg-Haaren

Tel: 49.2957.79.1692

Fax: 49.2957.79.9341

Wintech Microeletronics

Co., Ltd

7F., No. 34, Sec. 3, Pateh Road

Taipei, Taiwan, R.O.C.

Tel: 886.2.2579.5858

Shinki Electronics

Myuru Daikanyama 3F

3-7-3 Ebisu Minami

Fax: 886.2.2570.3123

Shibuya-ku, Tokyo 150-0022

Tel: 81.3.3760.3110

Fax: 81.3.3760.3101


型号：	LSI21040
厂家：	ETC
描述：	LSI21040 PCI to Dual Channel Ultra 160 SCSI host adapter user＇s guide v1.1 11/00 LSI21040 PCI到双通道Ultra 160 SCSI主机适配器的用户指南V1.1 11/00\n PC
文件：	总72页 (文件大小：1157K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

LSI21040 [ETC]

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