Maxtor 91536D6 manuel d'utilisation
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Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Maxtor 91536D6 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.
Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.
Donc, ce qui devrait contenir le manuel parfait?
Tout d'abord, le manuel d’utilisation Maxtor 91536D6 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Maxtor 91536D6
- nom du fabricant et année de fabrication Maxtor 91536D6
- instructions d'utilisation, de réglage et d’entretien de l'équipement Maxtor 91536D6
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
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Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Maxtor 91536D6 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Maxtor 91536D6 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Maxtor en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Maxtor 91536D6, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Maxtor 91536D6, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Maxtor 91536D6. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.
Table des matières du manuel d’utilisation
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Page 1
H AR D D R IVE P R ODU C T M AN U A L DiamondMax ™ Plus 5120 92048D8, 91792D7, 91536D6 91280D5, 91024D4, 90750D3[...]
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Page 2
DiamondMax ™ Plus 5120 92048D8, 91792D7, 91536D6, 91280D5, 91024D4 and 90750D3 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 Corpora[...]
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Page 3
Revisions Manual No. 1410 V E R. O N C EN O I T C E SN O I T P I R C S E D E T A D AC 7 5 3 9 7l l A. e s a e l e r l a i t i n I 9 9 / 0 2 / 3 0[...]
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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. Drive repair should be performed only at an authorized repair center. For repair information, cont[...]
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DIAMONDMAX PLUS 5120 PRODUCT MANUAL i 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/Inte[...]
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DIAMONDMAX PLUS 5120 PRODUCT MANUAL ii 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[...]
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DIAMONDMAX PLUS 5120 PRODUCT MANUAL iii 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 In[...]
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DIAMONDMAX PLUS 5120 PRODUCT MANUAL iv 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[...]
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DIAMONDMAX PLUS 5120 PRODUCT MANUAL v 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 Sett[...]
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DIAMONDMAX PLUS 5120 – INTRODUCTION 1 – 9 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,[...]
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DIAMONDMAX PLUS 5120 – INTRODUCTION 1 – 10 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 [...]
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PRODUCT DESCRIPTION 2 – 1 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-4/Ultra DMA controller. High capacity is achieved by a balanced combination of high areal recording density and the latest data encoding and servo [...]
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PRODUCT DESCRIPTION 2 – 2 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 c[...]
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Page 14
PRODUCT DESCRIPTION 2 – 3 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 o[...]
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PRODUCT DESCRIPTION 2 – 4 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[...]
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PRODUCT DESCRIPTION 2 – 5 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 mot[...]
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PRODUCT DESCRIPTION 2 – 6 N O I T A R U G I F N O C R E P M U J0 5 J8 4 J6 4 J4 4 J2 4 J e v a l S / r e t s a M * m e t s y s e v i r d e l g n i s n i e v i r d y l n O * m e t s y s e v i r d l a u d n i e v i r d r e t s a M m e t s y s e v i r d l a u d n i e v i r d e v a l S C C O t c e l e S e l b a C * d e l b a s i D d e l b a n E O C n[...]
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PRODUCT SPECIFICATIONS 3 – 1 SECTION 3 Product Specifications Models and Capacities Performance Specifications L E D O M8 D 8 4 0 2 97 D 2 9 7 1 96 D 6 3 5 1 95 D 0 8 2 1 94 D 4 2 0 1 93 D 0 5 7 0 9 e c a f r e t n I / r e l l o r t n o C d e t a r g e t n I A M D a r t l U / 4 - A T A d o h t e M g n i d o c n E 7 1 / 6 1 L L R 4 R P E e v a e l[...]
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PRODUCT SPECIFICATIONS 3 – 2 Physical Dimensions 1 .028 max [25.9 mm] .25 ± .0 1 1 .1 22 ± .02 [28.4 mm] 1 .638 ± .005 [41 .61 mm] 1 .625 ± .02 4.000 ± .0 1 [1 0 1 .6 mm] 1 .75 ± .02 5.787 max [1 46.6 mm] 6 x 6-32 UNC T ap 4 x 6-32 UNC T ap 4.00 ± .0 1 [1 02.1 mm] 3.75 ± .0 1 [95.25 mm] Figure 3 - 1 Outline and Mounting Dimensions R E T E[...]
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PRODUCT SPECIFICATIONS 3 – 3 Power Requirements 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. Idle The drive is spinning, the actuator is parked and powe[...]
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PRODUCT SPECIFICATIONS 3 – 4 Reliability Specifications Annual Return Rate < 1.5% Annual Return Rate (ARR) indicates the average against products shipped. ARR includes all reasons for returns (failures, handling damage, NDF), but does not include inventory credit returns. Quality Acceptance Rate < 500 DPPM The quality acceptance rate indica[...]
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PRODUCT SPECIFICATIONS 3 – 5 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[...]
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INSTALLATION 4 – 12 SECTION 4 Handling and Installation Pre-formatted Drive This Maxtor hard drive has been formatted at the factory. Do not use a low-level formatting program. Important Notice There are a number of system BIOS’s currently in use which do not support hard drives with more than 4095 cylinders (2.1 gigabytes). This section contai[...]
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INSTALLATION 4 – 13 Unpacking and Inspection Retain any packing material for reuse. Inspect the shipping container for evidence of damage in transit. Notify the carrier immediately in case of damage to the shipping container. As they are removed, inspect drives for evidence of shipping damage or loose hardware. If a drive is damaged (and no conta[...]
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INSTALLATION 4 – 14 Figure 4 - 2 Single Pack Shipping Container (Option A) Figure 4 - 3 Single Pack Shipping Container (Option B) Repacking If a Maxtor drive requires return, repack it using Maxtor packing materials, including the antistatic bag. Physical Installation Recommended Mounting Configuration The DiamondMax™ Plus 5120 drive design all[...]
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Page 26
INSTALLATION 4 – 15 1 Before Y ou Begin IMPORTANT – PLEASE READ! Please read this Installation Sheet completely before installing the Maxtor hard drive. It gives general information for installing a Maxtor hard drive in a typical computer system. If you don’t understand the installation steps, have a qualified computer technician install the [...]
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Page 27
INSTALLATION 4 – 16 3 Hard Drive Identification IDE stands for Integrated Drive Electronics and EIDE is Enhanced IDE. The IDE or EIDE interface is designed to support two devices – typically hard drives – on a single ribbon cable through one 40 pin connector on the mother board or interface card. Some mother boards and interface cards may hav[...]
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Page 28
INSTALLATION 4 – 17 4 Mounting Drive in System Turn the computer OFF, disconnect the power cord and remove the cover. Refer to the computer user’s manual for information on removing the cover. Each system manufacturer uses different types of cases, including desktop, mini-tower, full tower and other special configurations. As a result, there ar[...]
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INSTALLATION 4 – 18 5 Attaching Interface and Power Cables In order for the computer to recognize that the Maxtor hard drive is in the system, the power cable and IDE interface cable must be properly connected. 1 Attach an available IDE interface connector to J1 on the Maxtor hard drive. The striped or colored edge of the IDE interface cable indi[...]
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Page 30
INSTALLATION 4 – 19 7 System Setup The following procedures are designed for systems using the DOS 5.0 (or higher), Windows 95 and Windows 98 operating systems. For other operating systems (e.g., Windows NT, OS2, UNIX, LINUX and Novell NetWare), refer to the operating system user’s manual for the BIOS setting and other installation requirements[...]
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Page 31
INSTALLATION 4 – 20 Set the Cylinder, Head and Sector values with the values listed on the drive label. The drive label is located on the top cover of the drive. The fields LZone (Landing Zone) and WPcom (Write Pre-comp) are not used by the Maxtor hard drive. These fields may be set to 0 or by the values assigned by the BIOS. Note : Each BIOS man[...]
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INSTALLATION 4 – 21 3 If the BIOS was set to AUTO DETECT, follow the instructions in Section 7 to prepare the hard drive using the MaxBlast installation software. If other BIOS settings were used, access the system BIOS SETUP program and set the parameters to a User Definable Type with 4,092 cylinders, 16 heads and 63 sectors per track for the Ma[...]
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Page 33
AT INTERFACE DESCRIPTION 5 – 22 SECTION 5 AT Interface Description Interface Connector All DiamondMax™ Plus 5120 AT drives have a 4 0- pin ATA interface connector mounted on the PCBA. The drive may connect directly to the host; or it can also accommodate a cable connection (max cable length: 18 inches). Figure 5 - 1 Data Connector Pin Descripti[...]
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AT INTERFACE DESCRIPTION 5 – 23 Pin Description Table PIN NAME PIN I/O SIGNAL NAME SIGNAL DESCRIPTION RESET - 01 I Host Reset Reset signal from the host system. Active during power up and inactive after. DD0 17 I/O Host Data Bus 16 bit bi-directional data bus between host and drive. Lower 8 bits used for register and ECC byte transfers. All 16 bi[...]
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AT INTERFACE DESCRIPTION 5 – 24 TIMING PARAMETERS MODE 0 MODE 1 MODE 2 MODE 3 MODE 4 t0 Cycle Time (min) 600 ns 383 ns 240 ns 180 ns 120 ns t1 Address valid to DIOR-/DIOW- setup (min) 70 ns 50 ns 30 ns 30 ns 25 ns t2 DIOR-/DIOW- 16-bit (min) 165 ns 125 ns 100 ns 80 ns 70 ns t2i DIOR-/DIOW- recovery time (min) 70 ns 25 ns t3 DIOW- data setup (min)[...]
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Page 36
AT INTERFACE DESCRIPTION 5 – 25 DMA Timing TIMING PARAMETERS MODE 0 MODE 1 MODE 2 t0 Cycle Time (min) 480 ns 150 ns 120 ns tC DMACK to DMARQ delay tD DIOR-/DIOW- (min) 215 ns 80 ns 70 ns tE DIOR- data access (min) 150 ns 60 ns tF DIOR- data hold (min) 5 ns 5 ns 5 ns tG DIOR-/DIOW- data setup (min) 100 ns 30 ns 20 ns tH DIOW- data hold (min) 20 ns[...]
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AT INTERFACE DESCRIPTION 5 – 26 Ultra DMA Timing TIMING PARAMETERS (all times in nanoseconds) MODE 0 MODE 1 MODE 2 MIN MAX MIN MAX MIN MAX t CYC Cycle Time (from STROBE edge to STROBE edge) 114 75 55 t2 CYC Two cycle time (from rising edge to next rising edge or from falling edge to next falling edge of STROBE ) 235 156 117 t DS Data setup time ([...]
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AT INTERFACE DESCRIPTION 5 – 27 Figure 5 - 5 Sustained Ultra DMA Data In Burst t DVH DSTROBE at device DD(15:0) at device DSTROBE at host DD(15:0) at host t DVH t CYC t CYC t DVS t DVS t DH t DS t DH t DS t 2CYC t DH t DVH t 2CYC DMARQ (device) DMACK- (host) STOP (host) HDMARDY- (host) DSTROBE (device) DD(15:0) (device) t SR t RFS t RP Figure 5 -[...]
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AT INTERFACE DESCRIPTION 5 – 28 t AZ t IORDYZ CRC DMARQ (device) DMACK- (host) STOP (host) HDMARDY- (host) DSTROBE (device) DD(15:0) DA0, DA1, DA2, CS0-, CS1- t ACK t LI t MLI t DVS t LI t ACK t ACK t ZAH t DVH t SS t LI Figure 5 - 7 Device Terminating an Ultra DMA Data In Burst t DVH CRC t AZ DMARQ (device) DMACK- (host) STOP (host) HDMARDY- (ho[...]
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AT INTERFACE DESCRIPTION 5 – 29 t DH t DS t DVH HSTROBE at host DD(15:0) at host HSTROBE at device DD(15:0) at device t DVH t CY C t CYC t DVS t DVS t DS t DH t 2CYC t DH t DVH t 2CYC DMARQ (device) DMACK- (host) STOP (host) DDMARDY- (device) HSTROBE (host) DD(15:0) (host) DA0, DA1, DA2, CS0-, CS1- t UI t ACK t ENV t ZIORDY t LI t DVS t DVH t ACK[...]
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AT INTERFACE DESCRIPTION 5 – 30 DMARQ (device) DMACK- (host) STOP (host) DDMARDY- (device) HSTROBE (host) DD(15:0) (host) t SR t RFS t RP Figure 5 - 11 Device Pausing an Ultra DMA Data Out Burst DMARQ (device) DMACK- (host) STOP (host) DDMARDY- (device) HSTROBE (host) DD(15:0) (host) DA0, DA1, DA2, CS0-, CS1- t ACK t LI t MLI t DVS t LI t LI t AC[...]
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Page 42
AT INTERFACE DESCRIPTION 5 – 31 DMARQ (device) DMACK- (host) STOP (host) DDMARDY- (device) HSTROBE (host) DD(15:0) (host) DA0, DA1, DA2, CS0-, CS1- t ACK t MLI t DVS t LI t LI t ACK CRC t DVH t ACK t IORDYZ t MLI t RP t RFS Figure 5 - 13 Device Terminating an Ultra DMA Data Out Burst[...]
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Page 43
HOST SOFTWARE INTERFACE 6 – 1 SECTION 6 Host Software Interface The host communicates with the drive through a set of controller registers accessed via the host’s I/O ports. These registers divide into two groups: the Task File, used for passing commands and command parameters and the Control/Diagnostic registers. Task File Registers The Task F[...]
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Page 44
HOST SOFTWARE INTERFACE 6 – 2 Sector Count Register Holds the number of sectors to be sent during a Read or Write command, and the number of sectors per track during a Format command. A value of zero in this register implies a transfer of 256 sectors. A multi- sector operation decrements the Sector Count register. If an error occurs during such a[...]
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HOST SOFTWARE INTERFACE 6 – 3 Command Register Contains code for the command to be performed. Additional command information should be written to the task file before the Command register is loaded. When this register is written, the BUSY bit in the Status register sets, and interrupt request to the host clears; invalid commands abort. (Detailed [...]
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HOST SOFTWARE INTERFACE 6 – 4 COMMAND NAME COMMAND CODE PARAMETERS USED b7 b6 b5 b4 b3 b2 b1 b0 F SC SN C SDH Recalibrate 0 0 0 1 xxxx N N N N D Read Sector(s) 0 0 1 0 0 0 L x N Y Y Y Y Read DMA 1 1 0 0 1 0 0 x N Y Y Y Y Write Sector(s) 0 0 1 1 0 0 L x N Y Y Y Y Write DMA 1 1 0 0 1 0 1 x N Y Y Y Y Write Verify Sector(s) 0 0 1 1 1 1 0 0 N Y Y Y Y [...]
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Page 47
HOST SOFTWARE INTERFACE 6 – 5 Control Diagnostic Registers These I/O port addresses reference three Control/Diagnostic registers: I/O PORT READ WRITE 3F6h Alternate Status Fixed Disk Control 3F7h Digital Input Not used Alternate Status Register Contains the same information as the Status register in the Task File. However, this register may be re[...]
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Page 48
HOST SOFTWARE INTERFACE 6 – 6 Reset and Interrupt Handling Reset Handling One of three different conditions may cause a reset: power on, hardware reset or software reset. All three cause the interface processor to initialize itself and the Task File registers of the interface. A reset also causes a set of the Busy bit in the Status register. The [...]
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Page 49
INTERFACE COMMANDS 7 – 1 SECTION 7 Interface Commands The following section describes the commands (and any parameters necessary to execute them), as well as Status and Error register bits affected. Read Commands Read Sector(s) Read Verify Sector(s) Read Sector Buffer Read DMA Multi-word DMA Ultra DMA Read Multiple Set Multiple Write Commands Wri[...]
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Page 50
INTERFACE COMMANDS 7 – 2 Read Commands Read Sector(s) Reads from 1 to 256 sectors, as specified in the Command Block, beginning at the specified sector. (A sector count of 0 requests 256 sectors.) Immediately after the Command register is written, the drive sets the BSY bit and begins execution of the command. If the drive is not already on the d[...]
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Page 51
INTERFACE COMMANDS 7 – 3 Read DMA Multi-word DMA Identical to the Read Sector(s) command, except that 1. The host initializes a slave-DMA channel prior to issuing the command, 2. Data transfers are qualified by DMARQ and are performed by the slave-DMA channel and 3. The drive issues only one interrupt per command to indicate that data transfer ha[...]
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Page 52
INTERFACE COMMANDS 7 – 4 Set Multiple Mode Enables the controller to perform Read and Write Multiple operations, and establishes the block count for these commands. Before issuing this command, the Sector Count register should be loaded with the number of sectors per block. The drives support block sizes of 2, 4, 8 and 16 sectors. When this comma[...]
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Page 53
INTERFACE COMMANDS 7 – 5 Write Multiple Performs similarly to the Write Sector(s) command, except that: 1. The controller sets BSY immediately upon receipt of the command, 2. Data transfers are multiple sector blocks and 3. The Long bit and Retry bit is not valid. Command execution differs from Write Sector(s) because: 1. Several sectors transfer[...]
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Page 54
INTERFACE COMMANDS 7 – 6 Set Feature Commands Set Features Mode Enables or disables features supported by the drive. When the drive receives this command it: 1. Sets BSY, 2. Checks the contents of the Features register, 3. Clears BSY and 4. Generates an interrupt. If the value of the register is not a feature supported by the drive, the command i[...]
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Page 55
INTERFACE COMMANDS 7 – 7 Power Mode Commands Standby Immediate – 94h/E0h Spin down and do not change time out value. This command will spin the drive down and cause the drive to enter the STANDBY MODE immediately. If the drive is already spun down, the spin down sequence is not executed. Idle Immediate – 95h/E1h Spin up and do not change time[...]
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Page 56
INTERFACE COMMANDS 7 – 8 When enabling the Automatic Power Down sequence, the value placed in the Sector Count register is multiplied by five seconds to obtain the Time-out Interval value. If no drive commands are received from the host within the Time-out Interval, the drive automatically enters the STANDBY mode. The minimum value is 5 seconds. [...]
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Page 57
INTERFACE COMMANDS 7 – 9 Initialization Commands Identify Drive Allows the host to receive parameter information from the drive. When the command is received, the drive: 1. Sets BSY, 2. Stores the required parameter information in the sector buffer, 3. Sets the DRQ bit and 4. Generates an interrupt. The host may then read the information out of t[...]
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INTERFACE COMMANDS 7 – 10 WORD CONTENT DESCRIPTION 50 Reserved 51 15-8 = PIO data transfer mode 7-0 = not used 52 15-8 = DMA data transfer mode 7-0 = not used 53 15 = reserved 2, 1 = the fields supported in words 88 are valid, 0 = the fields supported in words 88 are not valid 1, 1 = the fields reports in words 64-70 are valid, 0 = the fields rep[...]
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INTERFACE COMMANDS 7 – 11 WORD CONTENT DESCRIPTION 83 Command sets supported. If words 82, 83 and 84 = 0000h or FFFFh command set notification not supported. 15 = shall be cleared to zero 14 = shall be set to one 13-1 = reserved 0, 1 = supports Download Microcode command 84 Command set extensions supported. If words 84, 85 and 86 = 0000h or FFFFh[...]
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Page 60
INTERFACE COMMANDS 7 – 12 Initialize Drive Parameters Enables the drive to operate as any logical drive type. The drive will always be in the translate mode because of Zone Density Recording, which varies the number of sectors per track depending on the zone. Through setting the Sector Count Register and Drive Head Register, this command lets the[...]
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Page 61
INTERFACE COMMANDS 7 – 13 Seek, Format and Diagnostic Commands Seek Initiates a seek to the track, and selects the head specified in the Command block. 1. Sets BSY in the Status register, 2. Initiates the Seek, 3. Resets BSY and 4. Generates an interrupt. The drive does not wait for the seek to complete before returning the interrupt. If a new co[...]
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Page 62
INTERFACE COMMANDS 7 – 14 S.M.A.R.T. Command Set Execute S.M.A.R.T. The Self-Monitoring Analysis and Reporting Technology (S.M.A.R.T.) command has been implemented to improve the data integrity and data availability of hard disk drives. In some cases, a S.M.A.R.T. capable device will predict an impending failure with sufficient time to allow user[...]
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Page 63
SERVICE AND SUPPORT 8 – 1 SECTION 8 Service and Support Service Policy Repairs to any DiamondMax™ Plus 5120 drive should be made only at an authorized Maxtor repair facility. Any unauthorized repairs or adjustments to the drive void the warranty. To consistently provide our customers with the best possible products and services, Maxtor develope[...]
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Page 64
SERVICE AND SUPPORT 8 – 2 MaxFax ™ Service Use a touch-tone phone to order Technical Reference Sheets, Drive Specifications, Installation Sheets and other documents from our 24-hour automated fax retrieval system. Requested items are sent to your fax machine. U.S. and Canada Language support: English, Spanish Phone 800-2MAXTOR, listen for optio[...]
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Page 65
GLOSSARY GL – 1 GLOSSAR Y Glossary A ACCESS To obtain data from, or place data into, RAM, a register, or data storage device. ACCESS TIME The interval between the issuing of an access command and the instant that the target data may be read or written. Access time includes seek time, latency and controller overhead time. ADDRESS A number, general[...]
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Page 66
GLOSSARY GL – 2 CYLINDER On several disk surfaces sharing a common rotational axis, the aggregate of tracks at a given radial position. A set of disk tracks that are simultaneously under the set of read/ write heads. This three-dimensional storage volume can be accessed after a single seek. CYLINDER ZERO The outermost cylinder in a drive that can[...]
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Page 67
GLOSSARY GL – 3 FILE ALLOCATION TABLE (FAT) Allocates space on the disk for files, one cluster at a time; locks out unusable clusters; identifies unused (free) area; and lists a file’s location. With two FAT’s present, the second copy ensures consistency and protects against loss of data if one of the sectors on the first FAT is damaged. FLUX[...]
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Page 68
GLOSSARY GL – 4 LOGICAL ADDRESS A storage location address that may not relate directly to a physical location. Usually used to request information from a controller, which performs a logical to physical address conversion, and in turn, retrieves the data from a physical location in the mass storage peripheral. LOGICAL BLOCK ADDRESSING Defines th[...]
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Page 69
GLOSSARY GL – 5 R RANDOM ACCESS MEMORY (RAM) Memory designed so that any storage location can be accessed randomly, directly and individually. This is contrasted to sequential access devices such as tape drives. READ To access a storage location and obtain previously recorded data. To sense the presence of flux reversals on magnetic media. Usuall[...]
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GLOSSARY GL – 6 T THIN-FILM HEAD A magnetic transducer manufactured by deposition of magnetic and electrical materials on a base material contrasted with prior art mechanical methods. Read/write heads whose read/write element is deposited using integrated circuit techniques rather than being manually wound. THIN-FILM MEDIA See plated thin film me[...]
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M AXT OR C ORPORA TION 510 C OTT ONW OOD D RIVE M ILPIT AS ,C ALIFORNIA 95035[...]