Maxtor DiamondMax Plus 5120 User Manual

HARD DRIVE P RODUCT MANUAL

DiamondMax™Plus 5120

92048U8, 91792U7, 91536U6 91280U5, 91024U4, 90750U3

DiamondMax™ Plus 5120

92048U8, 91792U7, 91536U6, 91280U5, 91024U4 and 90750U3

Part #1412/B

All material contained herein Copyright © 1999 Maxtor Corporation. DiamondMax™, DiamondMax™ 4320, DiamondMax™ Plus 2500, DiamondMax™ Plus 5120 and MaxFax™ are trademarks of Maxtor Corporation. No Quibble® Service is a registered trademark of Maxtor Corporation. Other brands or products are trademarks or registered trademarks of their respective holders. Contents and specifications subject to change without notice. All rights reserved.

Corporate Headquarters

510 Cottonwood Drive Milpitas, California 95035

Tel: 408-432-1700 Fax: 408-432-4510

Research and Development Engineering Center

2190 Miller Drive Longmont, Colorado 80501

Tel: 303-651-6000 Fax: 303-678-2165

Revisions Manual No. 1412

VER.ONCENOITCESNOITPIRCSED ETAD

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B455973-3,1-3,2-2

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Before Y ou Begin

Thank you for your interest in the Maxtor DiamondMax™ Plus 5120 AT hard disk drives. This manual provides technical information for OEM engineers and systems integrators regarding the installation and use of DiamondMax hard drives.

the Maxtor Customer Service Center at 800-2MAXTOR or 408-922-2085.

Before unpacking the hard drive, please review Sections 1 through 4.

Drive repair should be performed only at an authorized repair center. For repair information, contact

CAUTION

Maxtor DiamondMax Plus 5120 hard drives are precision products. Failure to

follow these precautions and guidelines outlined here may lead to

product failure, damage and invalidation of all warranties.

2 3

BEFORE unpacking or handling a drive, take all proper electro-static discharge (ESD) precautions, including personnel and equipment grounding. Stand-alone drives are sensitive to ESD damage.

BEFORE removing drives from their packing material, allow them to reach room temperature.

During handling, NEVER drop, jar, or bump a drive.

Once a drive is removed from the Maxtor shipping container, IMMEDIATELY secure the drive through its mounting holes within a chassis. Otherwise, store the drive on a padded, grounded, antistatic surface.

NEVER switch DC power onto the drive by plugging an electrically live DC source cable into the drive's connector. NEVER connect a live bus to the drive's interface connector.

Please do not remove or cover up Maxtor factory-installed drive labels.

They contain information required should the drive ever need repair.

DIAMONDMAX PLUS 5120 PRODUCT MANUAL

Contents

Section 1 — Introduction

Maxtor Corporation 1 - 1

Products 1 - 1

Support 1 - 1 Manual Organization 1 - 1 Abbreviations 1 - 1 Conventions 1 - 2

Key Words 1 - 2

Numbering 1 - 2

Signal Conventions 1 - 2

Section 2 — Product Description

The DiamondMax™ Plus 5120 Product Features 2 - 2

Functional/Interface 2 - 2

Zone Density Recording 2 - 2 Read/Write Multiple Mode 2 - 2 UltraDMA - Mode 4 2 - 2 Multi-word DMA (EISA Type B) - Mode 2 2 - 2 Sector Address Translation 2 - 2 Logical Block Addressing 2 - 3 Defect Management Zone 2 - 3 On-the-Fly Hardware Error Correction Code (ECC) 2 - 3 Software ECC Correction 2 - 3 Automatic Head Park and Lock Operation 2 - 3

Cache Management 2 - 4

Buffer Segmentation 2 - 4

Read-Ahead Mode 2 - 4

Automatic Write Reallocation (AWR) 2 - 4

Write Cache Stacking 2 - 4 Major HDA Components 2 - 5

Drive Mechanism 2 - 5

Rotary Actuator 2 - 5

Read/Write Electronics 2 - 5

Read/Write Heads and Media 2 - 5

Air Filtration System 2 - 5

Microprocessor 2 - 5 Subsystem Configuration 2 - 6

Dual Drive Support 2 - 6

Cable Select Option 2 - 6 Jumper Location/Configuration 2 - 6

4092 Cylinder Limitation 2 - 6

DIAMONDMAX PLUS 5120 PRODUCT MANUAL

Section 3 — Product Specifications

Models and Capacities 3 - 1 Drive Configuration 3 - 1 Performance Specifications 3 - 1 Physical Dimensions 3 - 2 Power Requirements 3 - 3 Power Mode Definitions 3 - 3

Spin-up 3 - 3 Seek 3 - 3 Read/Write 3 - 3 Idle 3 - 3 Standby 3 - 3

Sleep 3 - 3 EPA Energy Star Compliance 3 - 3 Environmental Limits 3 - 3 Shock and Vibration 3 - 4 Reliability Specifications 3 - 4

Annual Return Rate 3 - 4

Quality Acceptance Rate 3 - 4

Start/Stop Cycles 3 - 4

Data Reliability 3 - 4

Component Design Life 3 - 4 EMC/EMI 3 - 5

EMC Compliance 3 - 5

Canadian Emissions Statement 3 - 5 Safety Regulatory Compliance 3 - 5

Section 4 — Handling and Installation

Pre-formatted Drive 4 - 1 Important Notice 4 - 1 Hard Drive Handling Precautions 4 - 1 Electro-Static Discharge (ESD) 4 - 1 Unpacking and Inspection 4 - 2 Repacking 4 - 3 Physical Installation 4 - 3 Before You Begin 4 - 4

Please Read 4 - 4

Handling Precautions 4 - 4

Tools for Installation 4 - 4

Drive Identification Information 4 - 4

Capacity Barriers 4 - 4

Protecting Your Existing Data 4 - 4 General Requirements 4 - 5

System Hardware Requirements 4 - 5

BIOS Requirements 4 - 5

DIAMONDMAX PLUS 5120 PRODUCT MANUAL

Ultra Direct Memory Access (UDMA) 4 - 5 OS Requirements for Large Capacity Hard Drives 4 - 5

Hard Drive Identification 4 - 6

Identifying IDE Devices on the Interface 4 - 6 Jumper Settings 4 - 6 Systems Using Cable Select 4 - 6

Relationship to Other IDE Devices 4 - 6 Mounting Drive in System 4 - 7 Attaching Interface and Power Cables 4 - 7 Attaching System Cables 4 - 7 System Setup 4 - 8

Setting the BIOS (CMOS) 4 - 8

BIOS (CMOS) Parameters 4 - 8 Hard Drive Preparation 4 - 10 System Hangs During Boot 4 - 12

Section 5 — AT Interface Description

Interface Connector 5 - 1 Pin Description Summary 5 - 1 Pin Description Table 5 - 2 PIO Timing 5 - 3 DMA Timing 5 - 4 Ultra DMA Timing Parameters 5 - 5

Section 6 — Host Software Interface

Task File Registers 6 - 1

Data Register 6 - 1

Error Register 6 - 1

Features Register 6 - 1

Sector Count Register 6 - 2

Sector Number Register 6 - 2

Cylinder Number Registers 6 - 2

Device/Head Register 6 - 2

Status Register 6 - 2 Command Register 6 - 3

Read Commands 6 - 3

Write Commands 6 - 3

Mode Set/Check Commands 6 - 3

Power Mode Commands 6 - 3

Initialization Commands 6 - 3

Seek, Format, and Diagnostic Commands 6 - 3

S.M.A.R.T. Commands 6 - 3 Summary 6 - 4 Control Diagnostic Registers 6 - 5

Alternate Status Register 6 - 5

iii

DIAMONDMAX PLUS 5120 PRODUCT MANUAL

Device Control Register 6 - 5 Digital Input Register 6 - 5

Reset and Interrupt Handling 6 - 6

Section 7 — Interface Commands

Command Summary 7 - 1 Read Commands 7 - 2

Read Sector(s) 7 - 2 Read Verify Sector(s) 7 - 2 Read Sector Buffer 7 - 2 Read DMA 7 - 3 Read Multiple 7 - 3 Set Multiple 7 - 3

Write Commands 7 - 4

Write Sector(s) 7 - 4 Write Verify Sector(s) 7 - 4 Write Sector Buffer 7 - 4 Write DMA 7 - 5 Write Multiple 7 - 5 Ultra DMA 7 - 5

Set Feature Commands 7 - 5

Set Features Mode 7 - 5

Power Mode Commands 7 - 7

Standby Immediate 7 - 7 Idle Immediate 7 - 7 Standby 7 - 7 Idle 7 - 7 Check Power Mode 7 - 7 Set Sleep Mode 7 - 7 Default Power-on Condition 7 - 7

Initialization Commands 7 - 9

Identify Drive 7 - 9

Initialize Drive Parameters 7 - 12 Seek, Format, and Diagnostic Commands 7 - 13 S.M.A.R.T. Command Set 7 - 14

Section 8 — Service and Support

Service Policy 8 - 1 No Quibble Service 8 - 1 Support 8 - 1

Glossary

Glossary GL - 1

DIAMONDMAX PLUS 5120 PRODUCT MANUAL

Figures

Figure Title Page

2 - 1 PCBA Jumper Location and Configuration 2 - 6 3 - 1 Outline and Mounting Dimensions 3 - 2 4 - 1 Multi-pack Shipping Container 4 - 2 4 - 2 Single-pack Shipping Container (Option A) 4 - 3 4 - 3 Single-pack Shipping Container (Option B) 4 - 3 4 - 4 Master, Slave and Cable Select Settings 4 - 5 4 - 5 5.25-inch Mounting Brackets and Rails 4 - 6 4 - 6 IDE Interface and Power Cabling Detail 4 - 7 4 - 7 Master, Slave and Cable Select Jumper Detail 4 - 10 5 - 1 Data Connector 5 - 1 5 - 2 PIO Data Transfer to/from Device 5 - 3 5 - 3 Multi-word DMA Data Transfer 5 - 4 5 - 4 Initiating an Ultra DMA Data In Burst 5 - 5 5 - 5 Sustained Ultra DMA Data In Burst 5 - 6 5 - 6 Host Pausing an Ultra DMA Data In Burst 5 - 6 5 - 7 Device Terminating an Ultra DMA Data In Burst 5 - 7 5 - 8 Host Terminating an Ultra DMA Data In Burst 5 - 7 5 - 9 Initiating an Ultra DMA Data Out Burst 5 - 8 5 - 10 Sustained Ultra DMA Data Out Burst 5 - 8 5 - 11 Device Pausing an Ultra DMA Data Out Burst 5 - 9 5 - 12 Host Terminating an Ultra DMA Data Out Burst 5 - 9 5 - 13 Device Terminating an Ultra DMA Data Out Burst 5 - 10

DIAMONDMAX PLUS 5120 – INTRODUCTION

SECTION 1

Introduction

Maxtor Corporation

Maxtor Corporation has been providing high-quality computer storage products since 1982. Along the way, we’ve seen many changes in data storage needs. Not long ago, only a handful of specific users needed more than a couple hundred megabytes of storage. Today, downloading from the Internet and CD-ROMs, multimedia, networking and advanced office applications are driving storage needs even higher. Even home PC applications need capacities measured in gigabytes, not megabytes.

Products

Maxtor’s products meet those demanding storage capacity requirements with room to spare. They feature proven compatibility and reliability. While DiamondMax™ Plus 5120 is the latest addition to our family of high performance 7,200 RPM desktop hard drives, the 5,400 RPM DiamondMax™ 4320 series hard drives deliver industry-leading capacity, performance and value for many PC applications.

Support

No matter which capacity, all Maxtor hard drives are supported by our commitment to total customer satisfaction and our No Quibble (http://www.maxtor.com) – puts you in touch with either technical support or customer service. We’ll provide you the information you need quickly, accurately and in the form you prefer – a fax, a downloaded file or a conversation with a representative.

Service guarantee. One call – or a visit to our home page on the Internet

Manual Organization

This hard disk drive reference manual is organized in the following method:

❏ Section 1 – Introduction ❏ Section 2 – Description ❏ Section 3 – Specifications ❏ Section 4 – Installation ❏ Section 5 – AT Interface ❏ Section 6 – Host Software Interface ❏ Section 7 – Interface Commands ❏ Section 8 – Service and Support ❏ Appendix – Glossary

Abbreviations

VRBBANOITPIRCSEDVRBBANOITPIRCSED

ATAtnemhcattaTABMetybagem

ipbhcnirepstibces/stibMdnocesrepstibagem

SHCrotces-daeh-rednilycces/BMdnocesrepsetybagem

bdslebicedzHMztrehagem

ABddethgiewA,slebicedsmdnocesillim

AMDsseccayromemtceridBSMtibtnacifingistsom

CCEedocnoitcerrocrorreVmstlovillim

icfhcnirepsegnahcxulfsnsdnocesonan

GnoitareleccaOIPtuptuo/tupnidemmargorp

BGetybagigMPRetunimrepsnoitulover

zHztrehipthcnirepskcart

BKetybolikAMDUsseccayromemtceridartlu

ABL)gni(sserddakcolblacigolcesµdnocesorcim

BSLtibtnacifingistsaelVstlov

AmserepmaillimWsttaw

1 – 1

DIAMONDMAX PLUS 5120 – INTRODUCTION

Conventions

If there is a conflict between text and tables, the table shall be accepted as being correct.

Key Words

The names of abbreviations, commands, fields and acronyms used as signal names are in all uppercase type (e.g., IDENTIFY DRIVE). Fields containing only one bit are usually referred to as the “name” bit instead of the “name” field.

Names of drive registers begin with a capital letter (e.g., Cylinder High register).

Numbering

Numbers that are not followed by a lowercase “b” or “h” are decimal values. Numbers that are followed by a lowercase “b” (e.g., 01b) are binary values. Numbers that are followed by a lowercase “h” (e.g., 3Ah) are hexadecimal values.

Signal Conventions

Signal names are shown in all uppercase type. All signals are either high active or low active signals. A dash character (-) at the end of a signal name

indicates that the signal is low active. A low active signal is true when it is below ViL and is false when it is above ViH. A signal without a dash at the end indicates that the signal is high active. A high active signal is true when it is above ViH and is false when it is below ViL.

When a signal is asserted, it means the signal is driven by an active circuit to its true state. When a signal is negated, it means the signal is driven by an active circuit to its false state. When a signal is released, it means the signal is not actively driven to any state. Some signals have bias

circuitry that pull the signal to either a true or false state when no signal driver is actively asserting or negating the signal. These instances are noted under the description of the signal.

1 – 2

PRODUCT DESCRIPTION

SECTION 2

Product Description

Maxtor DiamondMax™ Plus 5120 AT disk drives are 1-inch high, 3.5-inch diameter random access storage devices which incorporate an on-board ATA-5/Ultra DMA controller. High capacity is achieved by a balanced combination of high areal recording density and the latest data encoding and servo techniques.

Maxtor's latest advancements in electronic packaging and integration methods have lowered the drive's power consumption and increased its reliability. Advanced giant magneto-resistive read/write heads and a state-of-the-art head/disk assembly - using an integrated motor/spindle design - allow up to four disks in a 3.5-inch package.

Exceptionally high data transfer rates, 7,200 RPM spin speed and 9.0 ms access times make these performance series disk drives especially well-suited to high-end desktop and server applications.

DiamondMax Plus 5120 Key Features

ANSI ATA-5 compliant PIO Mode 4 interface (Enhanced IDE) Supports Ultra DMA Mode 4 for up to 66 MB/sec data transfers 2 MB buffer with multi-adaptive cache manager 7,200 RPM spin speed

9.0 ms seek time Zone density and I.D.-less recording High reliability with Outstanding shock resistance at 200 Gs High durability with 50K constant start/stop cycles Advanced multi-burst on-the-fly Error Correction Code (ECC) Extended data integrity with ECC protected data and fault tolerant servo synchronization fields Supports EPA Energy Star Standards (Green PC Friendly) with ATA powering savings commands Auto park and lock actuator mechanism Low power consumption S.M.A.R.T. Capability

Note: Maxtor defines one megabyte as 106 or one million bytes and one gigabyte as 109 or one billion bytes.

500,000 hour MTBF

2 – 1

PRODUCT DESCRIPTION

Product Features

Functional / Interface

Maxtor DiamondMax™ Plus 5120 hard drives contain all necessary mechanical and electronic parts to interpret control signals and commands from an AT-compatible host computer. See Section 3 Product Specifications, for complete drive specifications.

Zone Density Recording

The disk capacity is increased with bit density management – common with Zone Density Recording. Each disk surface is divided into 16 circumferential zones. All tracks within a given zone contain a constant number of data sectors. The number of data sectors per track varies in different zones; the outermost zone contains the largest number of data sectors and the innermost contains the fewest.

Read/Write Multiple Mode

This mode is implemented per ANSI ATA/ATAPI-5 specification. Read/Write Multiple allows the host to transfer a set number of sectors without an interrupt request between them, reducing transfer process overhead and improving host performance.

UltraDMA - Mode 4

Maxtor DiamondMax Plus 5120 hard drives fully comply with the new ANSI Ultra DMA protocol, which greatly improves overall AT interface performance by significantly improving burst and sustained data throughput.

Multi-word DMA (EISA Type B) - Mode 2

Supports multi-word Direct Memory Access (DMA) EISA Type B mode transfers.

Sector Address Translation

All DiamondMax Plus 5120 drives feature a universal translate mode. In an AT/EISA-class system, the drive may be configured to any specified combination of cylinders, heads and sectors (within the range of the drive's formatted capacity). DiamondMax Plus 5120 drives power-up in a translate mode:

LEDOMLYCDHTPSenoZLmocPWABLXAMYTICAPAC

8U84029386,936136)*()*(464,000,04BM084,02 7U29719227,436136)*()*(677,999,43BM029,71 6U63519267,926136)*()*(690,000,03BM063,51 5U08219208,426136)*()*(614,000,52BM008,21 4U42019148,916136)*()*(827,999,91BM042,01 3U05709188,416136)*()*(840,000,51BM005,7

(*) The fields LZone (Landing Zone) and WPcom (Write Pre-comp) are not used by the Maxtor hard drive and the values may be either 0 or the values set by the BIOS. All capacities listed in the above table are based on 106 or one million bytes.

2 – 2

PRODUCT DESCRIPTION

Logical Block Addressing

The Logical Block Address (LBA) mode can only be utilized in systems that support this form of translation. The cylinder, head and sector geometry of the drive, as presented to the host, differs from the actual physical geometry. The host AT computer may access a drive of set parameters: number of cylinders, heads and sectors per track, plus cylinder, head and sector addresses. However, the drive can’t use these host parameters directly because of zoned recording techniques. The drive translates the host parameters to a set of logical internal addresses for data access.

The host drive geometry parameters are mapped into an LBA based on this formula:

LBA = (HSCA - 1) + HHDA x HSPT + HNHD x HSPT x HCYA (1)

where HSCA = Host Sector Address, HHDA = Host Head Address

= (HSCA - 1) + HSPT x (HHDA + HNHD x HCYA) (2)

HCYA = Host Cylinder Address, HNHD = Host Number of Heads HSPT = Host Sectors per Track

The LBA is checked for violating the drive capacity. If it does not, the LBA is converted to physical drive cylinder, head and sector values. The physical address is then used to access or store the data on the disk and for other drive related operations.

Defect Management Zone (DMZ)

Each drive model has a fixed number of spare sectors per drive, all of which are located at the end of the drive. Upon detection of a bad sector that has been reassigned, the next sequential sector is used.

For example, if sector 3 is flagged, data that would have been stored there is “pushed down” and recorded in sector 4. Sector 4 then effectively becomes sector 3, as sequential sectors are “pushed down” across the entire drive. The first spare sector makes up for the loss of sector 3, and so maintains the sequential order of data. This push down method assures maximum performance.

On-the-Fly Hardware Error Correction Code (ECC)

5 symbols, single burst, guaranteed

Software ECC Correction

22 symbols, single burst, guaranteed

Automatic Park and Lock Operation

Immediately following power down, dynamic braking of the spinning disks delays momentarily allowing the read/write heads to move to an inner mechanical stop. A small fixed magnet holds the rotary actuator in place as the disk spins down. The rotary actuator is released only when power is again applied.

2 – 3

PRODUCT DESCRIPTION

Cache Management

Buffer Segmentation

The data buffer is organized into two segments: the data buffer and the micro controller scratch pad. The data buffer is dynamically allocated for read and write data depending on the commands received. A variable number of read and write buffers may exist at the same time.

Read-Ahead Mode

Normally, this mode is active. Following a read request, disk read-ahead begins on the first sector and continues sequentially until the allocated buffer is full. If a read request is received during the read-ahead operation, the buffer is examined to determine if the request is in the cache. If a cache hit occurs, readahead mode continues without interruption and the host transfer begins immediately.

Automatic Write Reallocation (AWR)

This feature is part of the write cache and reduces the risk of data loss during deferred write operations. If a disk error occurs during the disk write process, the disk task stops and the suspect sector is reallocated to a pool of alternate sectors located at the end of the drive. Following reallocation, the disk write task continues until it is complete.

Write Cache Stacking

Normally, this mode is active. Write cache mode accepts the host write data into the buffer until the buffer is full or the host transfer is complete. A command complete interrupt is generated at the end of the transfer.

A disk write task begins to store the host data to disk. Host write commands continue to be accepted and data transferred to the buffer until either the write command stack is full or the data buffer is full. The drive may reorder write commands to optimize drive throughput.

2 – 4

PRODUCT DESCRIPTION

Major HDA Components

Drive Mechanism

A brush-less DC direct drive motor rotates the spindle at 7,200 RPM (±0.1%). The dynamically balanced motor/spindle assembly ensures minimal mechanical run-out to the disks. A dynamic brake provides a fast stop to the spindle motor upon power removal. The speed tolerance includes motor performance and motor circuit tolerances.

Rotary Actuator

All DiamondMax™ Plus 5120 drives employ a rotary voice coil actuator which consists of a moving coil, an actuator arm assembly and stationary magnets. The actuator moves on a low-mass, low-friction center shaft. The low friction contributes to fast access times and low power consumption.

Read/Write Electronics

An integrated circuit mounted within the sealed head disk assembly (near the read/write heads) provides up to eight head selection (depending on the model), read pre-amplification and write drive circuitry.

Read/Write Heads and Media

Low mass, low force giant magneto-resistive read/write heads record data on 3.5-inch diameter disks. Maxtor uses a sputtered thin film medium on all disks for DiamondMax Plus 5120 drives.

Air Filtration System

All DiamondMax Plus 5120 drives are assembled in a Class 100 controlled environment. Over the life of the drive, a 0.1 micron filter and breather filter located within the sealed head disk assembly (HDA) maintain a clean environment to the heads and disks. DiamondMax Plus 5120 drives are designed to operate in a typical office environment with minimum environmental control.

Microprocessor

The microprocessor controls the following functions for the drive electronics:

Command execution Cache management Data correction and error recovery Diagnostic execution Data sequencing Head positioning (including error recovery) Host interface Index detection Spin speed control Seeks Servo S.M.A.R.T.

2 – 5

PRODUCT DESCRIPTION

Subsystem Configuration

Dual Drive Support

Two drives may be accessed via a common interface cable, using the same range of I/O addresses. The drives are jumpered as device 0 or 1 (Master/Slave), and are selected by the drive select bit in the Device/Head register of the task file.

All Task File registers are written in parallel to both drives. The interface processor on each drive decides whether a command written to it should be executed; this depends on the type of command and which drive is selected. Only the drive selected executes the command and activates the data bus in response to host I/O reads; the drive not selected remains inactive.

A master/slave relationship exists between the two drives: device 0 is the master and device 1 the slave. When J50 is closed (factory default, figure 2-1), the drive assumes the role of master; when open, the drive acts as a slave. In single drive configurations, J50 must be closed.

Cable Select Option

CSEL (cable select) is an optional feature per ANSI ATA specification. Drives configured in a multiple drive system are identified by CSEL’s value:

– If CSEL is grounded, then the drive address is 0. – If CSEL is open, then the drive address is 1.

Jumper Location/Configuration

Darkened jumper pins indicate factory-installed (default) shunts.

Figure 2-1

PCBA Jumper Location and Configuration

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*delbasiD

delbanE

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delbanE

devreseRyrotcaFO

devreseRyrotcaF O

NOITARUGIFNOCREPMUJ05J84J64J44J24J

*metsysevirdelgnisnievirdylnO

metsysevirdlaudnievirdevalS

noitatimiLrednilyC2904

desolC=CtluafeD=*yeK

*metsysevirdlaudnievirdretsaM

C O

O C

)dellatsnirepmuj(

nepO=O

)dellatsnirepmujon(

4092 Cylinder Limitation

On some older BIOS', primarily those that auto-configure the disk drive, a hang may occur when the drive cylinder value exceeds 4096. The 4092 Cylinder Limitation jumper reduces the capacity in the Identify Drive to 4092 allowing large capacity drives to work with older BIOS'. A software driver is required to access the full capacity of the drive.

2 – 6

Product Specifications

Models and Capacities

LEDOM

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Drive Configuration

LEDOM8U840297U297196U635195U082194U420193U05709

ecafretnI/rellortnoCdetargetnI AMDartlU/5-ATA

dohteMgnidocnE 71/61LLR4RPE

evaelretnI1:1

metsySovreS deddebmE

epyT/eziSreffuB MARDSBM2

ecafruSrepsenoZataD61

sdaeH/secafruSataD876543

sksiDforebmuN443322

ytisneDlaerA7.3ni/bG

ecafruSrepskcarT )srednilyC( 696,41

ytisneDkcarT225,41ipt

ytisneDgnidroceR552-991ipbk

ytisneDxulF icfk172-112

kcolB/rotceSrepsetyB215

kcarTrepsrotceS42-0104

evirDrepsrotceS

8U840297U297196U635195U082194U420193U05709

084,02029,71063,51008,21042,01705,0

01saetybagemenosenifedrotxaM

464,000,04677,999,43690,000,03614,000,52827,999,91840,000,51

PRODUCT SPECIFICATIONS

SECTION 3

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Performance Specifications

LEDOM8U840297U297196U635195U082194U420193U05709

semiTkeeS )lacipyt(

kcarT-ot-kcarTsm1

egarevAsm0.9

mumixaM sm02<

ycnetaLegarevA4.81sm

deepSlanoitatoR )%1.0±( 7,2 MPR00

daehrevOrellortnoC sm5.0<

etaRrefsnarTataD

ecafretnImorf/oT

)2edoM-AMDartlU(

ecafretnImorf/oT

)2edoM-AMDdrow-itluM/4OIP(

aideMmorf/oT ces/BM4.23otpu

emiTtratS )ydaeRevirDot0( lacipytces8.8<

ces/BM7.66otpu

ces/BM7.61otpu

3 – 1

PRODUCT SPECIFICATIONS

Physical Dimensions

RETEMARAPDRADNATSCIRTEM

thgieHsehcni20.1sretemillim9.52 htgneLsehcni87.5sretemillim6.641

htdiWsehcni00.4sretemillim1.201

thgieWsdnuop3.1smargolik95.0

1.028 max [25.9 mm]

6 x 6-32 UNC Tap

4 x 6-32 UNC Tap

4.000 ± .01 [101.6 mm]

5.787 max

[146.6 mm]

1.75 ± .02

1.638 ± .005 [41.61 mm]

1.122 ± .02 [28.4 mm]

1.625 ± .02

.25 ± .01

4.00 ± .01

[102.1 mm]

3.75 ± .01

[95.25 mm]

3 – 2

Figure 3 - 1

Outline and Mounting Dimensions

Power Requirements (Average)

EDOM%01±V21%5±V5REWOP

pu-nipS )kaep( Am0442Am063

keeSAm949Am134W5.31

etirW/daeRAm314Am054W2.7

eldIAm014Am293W9.6

ybdnatSAm32Am022W4.1

peelSAm12Am741W0.1

Power Mode Definitions

Spin-up

The drive is spinning up following initial application of power and has not yet reached full speed.

Seek

A random access operation by the disk drive.

Read/Write

Data is being read from or written to the drive.

PRODUCT SPECIFICATIONS

Idle

The drive is spinning, the actuator is parked and powered off and all other circuitry is powered on. The drive is capable of responding to read commands within 40 ms.

Standby

The spin motor is not spinning. The drive will leave this mode upon receipt of a command that requires disk access. The time-out value for this mode is programmable. The buffer is active to accept write data.

Sleep

This is the lowest power state – with the interface set to inactive. A software or hardware reset is required to return the drive to the Standby state.

EPA Energy Star Compliance

Maxtor Corporation supports the goals of the U.S. Environmental Protection Agency’s Energy Star program to reduce the electrical power consumption of computer equipment.

Environmental Limits

RETEMARAPGNITAREPOEGAROTS/GNITAREPO-NON

erutarepmeTC°55otC°5)C°04-(erutarepmetwol

.snoitidnocdecudni-toh;yrogetaccitamilc

tneidarGlamrehT (ruohrepC°52 )mumixam

ytidimuHevitaleR %59ot%5 gnisnednoc-non( )

bluBteW 72°C )mumixam(

edutitlAteef000,01ot002-teef000,04ot002-

esioNcitsuocA )edomeldI( rewopdnuosegarevaABd53

)enohporcim01,9777OSIrep(

,3.105dohtem,E018-DTS-LIMrep)C°17(erutarepmethgih

3 – 3

PRODUCT SPECIFICATIONS

Shock and Vibration

RETEMARAPGNITAREPOGNITAREPO-NON

kcohSlacinahceMsrorreon,sm0.2,sG02 egamadon,sm0.2,sG002

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Reliability Specifications

Annual Return Rate

< 1.5% Annual Return Rate (ARR) indicates the average against products

Quality Acceptance Rate

< 500 DPPM The quality acceptance rate indicates the percentage of Maxtor

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shipped. ARR includes all reasons for returns (failures, handling damage, NDF), but does not include inventory credit returns.

products successfully installed by our customers, and/or the number of defective parts per million (DPPM) encountered during the entire installation process.

Start/Stop Cycles

50,000 (minimum) This indicates the minimum cycles for reliable start/stop function at a

≥ 60% confidence level.

Data Reliability

< 1 per 10

bits read Data errors (non-recoverable). Average data error rate allowed with all

error recovery features activated.

Component Design Life

5 years (minimum) Component design life is defined as a.) the time period before

identified wear-out mechanisms impact the failure rate, or b.) the time period up to the wear-out point when useful component life expires.

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PRODUCT SPECIFICATIONS

EMC/EMI

Radiated Electromagnetic Field Emissions - EMC Compliance

The hard disk drive mechanism is designed as a subassembly for installation into a suitable enclosure and is therefore not subject to Subpart J of Part 15 of FCC Rules (47CFR15) or the Canadian Department of Communications Radio Interference Regulations. Although not required, the disk mechanism has been tested within a suitable end-use product and found to comply with Class B limits of the FCC Rules and Regulations of the Canadian Department of Communications.

The CE Marking indicates conformity with the European Union Low Voltage Directive (73/23/EEC) when the disk mechanism is installed in a typical personal computer. Maxtor recommends that testing and analysis for EMC compliance be performed with the disk mechanism installed within the user's end-use application.

Canadian Emissions Statement

This digital apparatus does not exceed the Class B limits for radio noise emissions from digital apparatus as set out in the radio interference regulations of the Canadian department of communications.

Le present appareil numerique n'emet pas de bruit radioelectriques depassant les limites applicables aux appareils numeriques de Class B prescrites dans le reglement sur le brouillage radioelectrique edicte par le ministere des communications du Canada.

Safety Regulatory Compliance

All Maxtor hard drives comply with relevant product safety standards such as CE, CUL, TUV and UL rules and regulations. As delivered, Maxtor hard drives are designed for system integration before they are used.

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