Hitachi IC35L060AVV207 Fiche technique

Hard disk drive specificationsDeskstar 180 GXP3.5 inch Ultra ATA/100 hard disk drive IC35L030AVV207IC35L060AVV207IC35L090AVV207IC35L120AVV207IC35L18

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9.8 Host Protected Area FunctionThe Host Protected Area Function provides a protected area which cannot be accessed via conventionalmethods. This prot

4. Advanced usage using protected areaThe data in the protected area is accessed by the following method:i. Issue Read Native Max Address command to g

9.9 Seek OverlapThe Deskstar 180GXP provides an accurate method for measuring seek time. The seek command isusually used to measure the device seek t

9.10 Write cache functionWrite cache is a performance enhancement whereby the device reports the completion of the write com-mand (Write Sectors, Writ

9.12 Power-Up In Standby feature setThe Power-Up In Standby feature set allows devices to be powered-up into the Standby power manage-ment state to mi

9.14 Automatic Acoustic Management feature set (AAM)This feature set allows the host to select an acoustic management level. The acoustic management l

Before Enable Address Offset ModeA reserved area has been created using a nonvolatile Set Max command.Non-Accessible(System reservedarea)Accessible(Us

9.16 48-bit Address Feature SetThe 48-bit Address feature set allows devices with capacities up to 281,474,976,710,655 sectors. Thisallows device cap

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10.0 Command ProtocolThe commands are grouped into different classes according to the protocols followed for commandexecution. The command classes wi

List of figures46Figure 52. Limits of temperature and humidity ...45Figure 51. Temperature and humidity ...

10.1 PIO Data In commandsThese commands arey Device Configuration Identifyy Identify Devicey Read Buffery Read Log Exty Read Longy Read Multipley Read

Note that the status data for a sector of data is available in the Status Register before the sector is trans-ferred to the host.If the device detects

10.2 PIO Data Out commandsThese commands are PIO Data Out commands: y Device Configuration Sety Format Tracky Security Disable Passwordy Security Era

f. The device clears the interrupt in response to the Status Register being read.The Write Multiple command transfers one block of data for each inter

10.3 Non-data commandsThe following are non-data commands: y Check Power Modey Device Configuration Freeze Locky Device Configuration Restore y Execut

4. When the device has finished processing the command, it sets BSY=0 and interrupts the host.5. In response to the interrupt, the host reads the Stat

10.4 DMA commandsDMA commands arey Read DMAy Read DMA Exty Write DMAy Write DMA ExtData transfers using DMA commands differ in two ways from PIO trans

10.5 DMA queued commandsDMA queued commands arey Read DMA Queuedy Read DMA Queued Exty Servicey Write DMA Queuedy Write DMA Queued Ext1. Command Issue

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11.0 Command descriptionsCommands marked * are alternate command codes for the previously defined command.See the next page for list of Protocol defi

127Figure 107. Idle Command (E3h/97h) ...126Figure 106. Identify Device Information (part 6 of 6) ...

0010110034Write Sector(s) Ext21000110031Write Sector(s)20000110030Write Sector(s)21001110039Write Multiple Ext210100011C5Write Multiple21100110033Writ

DDEFDisable release interruptCCEFEnable reverting to power on defaultsC2EFDisable Automatic Acoustic ManagementBBEF4 bytes of ECC apply on Read/Write

R Retry. Original meaning is obsoleted, there is no difference between 0 and 1. (Use of 0is recommended for future compatibility.).B Option Bit. I

11.1 Check Power Mode (E5h/98h)see belowStatus1 1 1 0 0 1 0 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High-

11.2 Device Configuration Overlay (B1h)see belowStatus1 0 1 1 0 0 0 1Command- - - - - - - -Device/Head- - - D - - - -Device/HeadV V V V V V V VCylinde

11.2.2 DEVICE CONFIGURATION FREEZE LOCK (subcommand C1h)The DEVICE CONFIGURATION FREEZE LOCK command prevents accidental modification of theDevice Con

Signature (A5h)7-0Checksum 15-8Integrity word (see note below)255Reserved8-2541 = SMART feature set supported01 = SMART self-test supported11 = SMAR

other reasonFFhSubcommand code is invalid08hDCO is not supported07hProtected area is now established06hDevice is now SET MAX Locked or Frozen mode05hU

11.3 Execute Device Diagnostic (90h)see belowStatus1 0 0 1 0 0 0 0Command- - - - - - - -Device/Head1 - 1 - - - - -Device/Head- - - - - - - -Cylinder H

11.4 Flush Cache (E7h)see belowStatus1 1 1 0 0 1 1 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - - -

199Figure 163. SMART Log Directory ...198Figure 162. Individual Threshold Data Structure ...

11.5 Flush Cache Ext (EAh)...See Below...Status1 1 1 0 1 0 1 0Command- - - - - - - -Device/Head- - - D - - - -Device/Head- - - - - - - -HOB=1- - - -

11.6 Format Track (50h)see belowStatus0 1 0 1 0 0 0 0Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V V

Input parameters from the deviceSector Number In LBA mode this register specifies current LBA address bits 0-7. (L=1)Cylinder High/Low In LBA mode t

11.7 Format Unit (F7h)see belowStatus1 1 1 1 0 1 1 1Command- - - - - - - -Device/Head1 L 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - - -

11.8 Identify Device (ECh)see belowStatus1 1 1 0 1 1 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - -

The Identify Device command requests the device to transfer configuration information to the host. Thedevice will transfer a sector to the host contai

Minimum PIO Transfer Cycle Time With IORDY FlowControl15–0 (=78) Cycle time in nanoseconds (120ns, 16.6MB/s)0078H68Minimum PIO Transfer Cycle Time Wit

Command set supported 16-14 Word 83 is valid 13 (=1) FLUSH CACHE EXT command supported 12 (=1) FLUSH CACHE command supported 11 (=1) Device Configur

Command set/feature default 15-14 (=01)Word 87 is valid 13- 6 (=0)Reserved 5 (=1)General Purpose Logging feature setsupported 4-2 (=0)Reserve

Current Advanced Power Management value 15- 8 Vendor's Recommended Acoustic Mgment level 7- 0 Current Acoustic Management levelXXXXH94Hardwa

229Figure 1. Time-out values ...227Figure 182. Write Sector(s) Ext Command (34h) ...

15- 8 Checksum. This value is the two's complementof the sum of all bytes in byte 0 through 510 7- 0 (A5) SignatureXXA5H255Reserved0000H160-

11.9 Idle (E3h/97h)see belowStatus1 1 1 0 0 0 1 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - - - -

11.10 Idle Immediate (E1h/95h)see belowStatus1 1 1 0 0 0 0 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- -

11.11 Initialize Device Parameters (91h)see belowStatus1 0 0 1 0 0 0 1Command- - - - - - - -Device/Head1 - 1 D H H H HDevice/Head- - - - - - - -Cylind

11.12 NOP (00h)see belowStatus0 0 0 0 0 0 0 0CommandInitial ValueDevice/Head1 - 1 D - - - -Device/HeadInitial ValueCylinder High- - - - - - - -Cylinde

11.13 Read Buffer (E4h)see belowStatus1 1 1 0 0 1 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

11.14 Read DMA (C8h/C9h)see belowStatus1 1 0 0 1 0 0 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V V

R The retry bit. This bit is ignored.Input parameters from the deviceSector Count The number of requested sectors not transferred. This will be zer

11.15 Read DMA Ext (25h)...See Below...Status0 0 1 0 0 1 0 1Command- - - - - - - -Device/Head1 1 1 0 - - - -Device/HeadV V V V V V V VHOB=1V V V V V V

LBA (47:40)of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16)of the address of the first unrecoverable error.Cylinder Hi

1.0 GeneralThis document describes the specifications of the Deskstar 180GXP, an IBM 3.5-inch 7200-rpmATA interface hard disk drive with the followin

11.16 Read DMA Queued (C7h)see belowStatus1 1 0 0 0 1 1 1Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V

Input parameters from the device on bus releaseSector Count Bits 7 - 3 (Tag) contain the Tag of the command being bus released.Bit 2 (REL) is set to

11.17 Read DMA Queued Ext (26h)...See Below...Status0 0 1 0 0 1 0 1Command- - - - - - - -Device/Head1 1 1 0 - - - -Device/HeadV V V V V V V VHOB=1V V

Cleared to zero.SRVLBA (47:40) of the address of the first unrecoverable error. (applicable only when an unrecoverable error has occurred.)Cylinder Hi

11.18 Read Log Ext (2Fh)...See Below...Status0 0 1 0 1 1 1 1Command- - - - - - - -Device/Head1 - 1 0 - - - -Device/Head- - - - - - - -HOB=1- - - - - -

Read/WriteSMARTHost vendor specific80h-9FhRead OnlySMART self-testExtended SMART self-test log07hSee NoteSMART self-testSMART self-test log06hRead Onl

11.18.2 Extended Comprehensive SMART Error logThe figure below defines the format of each of the sectors that comprise the Extended ComprehensiveSMART

Data format of each error log structure is shown in the figure below.1245Ah34Error data structure48h185th command data structure36h184th command data

Error data structure: Data format of error data structure is shown below.3420h2Life timestamp (hours)1Fh1State0Ch19Extended error data (vendor specifi

11.18.3 Extended Self-test log sectorThe figure below defines the format of each of the sectors that comprise the Extended SMART self-testlog. The Ext

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11.18.3.3 Extended Self-test log descriptor entryThe content of the self-test descriptor entry is shown below.260Bh15Vendor specific0Ah1Failing LBA

11.19 Read Long (22h/23h)see belowStatus0 0 1 0 0 0 1 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V

Input parameters from the deviceSector Count The number of requested sectors not transferred.Sector Number The sector number of the transferred sect

11.20 Read Multiple (C4h)see belowStatus1 1 0 0 0 1 0 0Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V

In LBA mode this register contains current LBA bits 0 - 7. (L=1)Cylinder High/Low The cylinder number of the last transferred sector. (L=0)In LBA mod

11.21 Read Multiple Ext (29h)...See Below...Status0 0 1 0 1 0 0 1Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V V

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

11.22 Read Native Max Address (F8h)see belowStatus1 1 1 1 1 0 0 0Command- - - - H H H HDevice/Head1 L 1 D - - - -Device/HeadV V V V V V V VCylinder Hi

11.23 Read Native Max Address Ext (27h)...See Below...Status0 0 1 0 0 1 1 1Command- - - - - - - -Device/Head1 1 1 D - - - -Device/HeadV V V V V V V V

11.24 Read Sector(s) (20h/21h)see belowStatus0 0 1 0 0 0 0 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V

2.0 General featuresy Data capacities of 30 GB - 180 GBy Spindle speeds of 7200 RPMy Fluid Dynamic Bearing motory Enhanced IDE interfacey Sector form

Input parameters from the deviceSector Count The number of requested sectors not transferred. This will be zero unless anunrecoverable error occurs.S

11.25 Read Sector(s) Ext (24h)...See Below...Status0 0 1 0 0 1 0 0Command- - - - - - - -Device/Head1 1 1 D - - - -Device/HeadV V V V V V V VHOB=1V V V

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

11.26 Read Verify Sector(s) (40h/41h)see belowStatus0 0 1 0 0 0 0 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder

Sector Number The sector number of the last transferred sector. (L=0)In LBA mode this register contains current LBA bits 0 - 7. (L=1)Cylinder High/Lo

11.27 Read Verify Sector(s) Ext (42h)...See Below...Status0 0 1 0 0 0 1 0Command- - - - - - - -Device/Head1 1 1 D - - - -Device/HeadV V V V V V V VHOB

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

11.28 Recalibrate (1xh)see belowStatus0 0 0 1 - - - -Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

11.29 Security Disable Password (F6h)see belowStatus1 1 1 1 0 1 1 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder

11.30 Security Erase Prepare (F3h)see belowStatus1 1 1 1 0 0 1 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder Hig

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11.31 Security Erase Unit (F4h)see belowStatus1 1 1 1 0 1 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High-

Identifier Zero indicates that the device should check the supplied password against theuser password stored internally. One indicates that the devic

11.32 Security Freeze Lock (F5h)see belowStatus1 1 1 1 0 1 0 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High-

11.33 Security Set Password (F1h)see belowStatus1 1 1 1 0 0 0 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High

Reserved18-255Master Password Revision CodeValid if Word 0 bit 0 = 117Password (32 bytes)01-16Control Word bit 0 : Identifier (1-Master, 0-User)

11.34 Security Unlock (F2h)see belowStatus1 1 1 1 0 0 1 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - -

Reserved17-255Password (32 bytes)01-16Control Word bit 0 : Identifier (1-Master, 0-User) bit 1-15 : Reserved00DescriptionWordFigure 144. Security

11.35 Seek (7xh)see belowStatus0 1 1 1 - - - -Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V V V V VCy

11.36 Service (A2h)1 1 1 1 0 0 0 0Command1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - - - - -Cylinder Low- - - - - - - -Sector Number

11.37 Set Features (EFh)see belowStatus1 1 1 0 1 1 1 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

Part 1. Functional specificationDeskstar 180GXP hard disk drive specifications5

85H Disable Advanced Power Management86H Disable Power-up in Standby mode89H Disable Address Offset modeAAH Enable read look-ahead featureBBH 4 b

The idle time to Low power idle mode and Low RPM standby mode vary according to the value in SectorCount register as follows:When Low power idle mode

The device preserves enabling or disabling of Automatic Acoustic Management and the currentAutomatic Acoustic Management level setting across all form

11.38 Set Max Address (F9h)see belowStatus1 1 1 1 1 0 0 1Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V

After a successful command completion, Identify Device response words (61:60) shall reflect the maxi-mum address set with this command. If the 48-bit

11.38.1 Set Max Set Password (Feature = 01h)see belowStatus1 1 1 1 1 0 0 1Command1 - 1 D - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cy

11.38.2 Set Max Lock (Feature = 02h)see belowStatus1 1 1 1 1 0 0 1Command1 - 1 D - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder H

11.38.3 Set Max Unlock (Feature = 03h)see belowStatus1 1 1 1 1 0 0 1Command1 - 1 D - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder

11.38.4 Set Max Freeze Lock (Feature = 04h)see belowStatus1 1 1 1 1 0 0 1Command1 - 1 D - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cyl

11.39 Set Max Address Ext (37h)...See Below...Status0 0 1 1 0 1 1 1Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V

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If the device in Address Offset mode receives this command with the nonvolatile option, the devicereturns aborted error to the host.The device returns

11.40 Set Multiple (C6h)see belowStatus1 1 0 0 0 1 1 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

11.41 Sleep (E6h/99h)see belowStatus1 1 1 0 0 1 1 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - - -

11.42 S.M.A.R.T. Function Set (B0h)see belowStatus1 0 1 1 0 0 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder Hi

11.42.1 S.M.A.R.T. SubcommandIn order to select a subcommand the host must write the subcommand code to the Features Register ofthe device before issu

Upon receipt of the subcommand from the host the device asserts BSY, enables or disables theAutosave feature, clears BSY, and asserts INTRQ.11.42.1.4

11.42.1.6 SMART Read Log Sector (Subcommand D5h)This command returns the specified log sector contents to the host.The 512 bytes data are returned at

Operations command will be preserved in the Attribute Data Sectors of the device. If the device isre-enabled, these Attribute Values will be updated a

11.42.2 Device Attributes Data StructureThe following defines the 512 bytes that make up the Attribute Value information. This data structure isaccess

11.42.2.2 Individual Attribute Data StructureThe following defines the 12 bytes that make up the information for each Attribute entry in the DeviceAt

3.0 Fixed disk subsystem description3.1 Control ElectronicsThe drive is electronically controlled by a microprocessor, several logic modules, digital

Status Flag definitionsBit Definition0 Pre-failure/advisory bit0 An attribute value less than or equal to its corresponding attribute threshold indi

11.42.2.5 Total time in seconds to complete off-line data collection activityThis field tells the host how many seconds the device requires to comple

The Data Structure Checksum is the two's compliment of the result of a simple 8-bit addition of the first511 bytes in the data structure.11.42.3

11.42.3.5 Data Structure ChecksumThe Data Structure Checksum is the two's compliment of the result of a simple 8-bit addition of the first511 by

11.42.5 SMART summary error log sectorThe following figure defines the 512 bytes that make up the SMART summary error log sector. All multi-byte field

11.42.5.4 Error log data structureData format of error data structure is shown below.903Ch30Error data structure30h125th command data structure24h124

Error data structure: Data format of error data structure is shown below. 301Ch2Life time stamp (hours)1Bh1State08h19Extended error data (vendorspeci

11.42.6 Self-test log data structureThe following figure defines the 512 bytes that make up the Self-test log sector. All multibyte fields shownin the

11.42.7 Error reportingThe following table shows the values returned in the Status and Error Registers when specific error con-ditions are encountered

11.43 Standby (E2h/96h)see belowStatus1 1 1 0 0 0 1 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

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Output Parameters To The DriveSector Count Time-out Parameter. If it is 0, the time-out interval (Standby Timer) is NOTdisabled. If it is nonzero, th

11.44 Standby Immediate (E0h/94h)see belowStatus1 1 1 0 0 0 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High

11.45 Write Buffer (E8h)see belowStatus1 1 1 0 1 0 0 0Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -Cylinder High- - - - -

11.46 Write DMA (CAh/CBh)see belowStatus1 1 0 0 1 0 1 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V

Input parameters from the deviceSector Count The number of requested sectors not transferred. This will be zero unless anunrecoverable error occurs.S

11.47 Write DMA Ext (35h)...See Below...Status0 0 1 1 0 1 0 1Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V V V V

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

11.48 Write DMA Queued (CAh/CBh)see belowStatus1 1 0 0 1 1 0 0Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV

Input parameters from the device on bus releaseSector Count Bits 7 - 3 (Tag) contain the Tag of the command being bus released.Bit 2 (REL) is set to

11.49 Write DMA Queued Ext (36h)...See Below...Status0 0 1 1 0 1 1 0Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V

4.0 Drive characteristicsThis section describes the characteristics of the drive.4.1 Default logical drive parametersThe default of the logical drive

cleared to zero.SRVLBA (47:40) of the address of the unrecoverable error. (applicable onlywhen an unrecoverable error has occurred.)Cylinder High (HOB

11.50 Write Log Ext (3Fh)...See Below...Status0 0 1 1 1 1 1 1Command- - - - - - - -Device/Head1 - 1 D - - - -Device/Head- - - - - - - -HOB=1- - - - -

The first sector of the log to be written high order, bits (15:8).Log AddressDefinitionCylinder Low PreviousThe first sector of the log to be written

11.51 Write Long (32h/33h)see belowStatus0 0 1 1 0 0 1 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V

Input parameters from the deviceSector Count The number of requested sectors not transferred.Sector Number The sector number of the sector to be tra

11.52 Write Multiple (C5h)see belowStatus1 1 0 0 0 1 0 1Command- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV V V V

Sector Number The sector number of the last transferred sector. (L=0)In LBA mode this register contains current 1.5 LBA bits 0 - 7. (L=1)Cylinder Hig

11.53 Write Multiple Ext (39h)...See Below...Status0 0 1 1 0 1 1 0Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V V

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

11.54 Write Sector(s) (30h/31h)see belowStatus0 0 1 1 0 0 0 RCommand- - - - H H H HDevice/Head1 L 1 D H H H HDevice/HeadV V V V V V V VCylinder HighV

4.2 Data sheet27Number of data bands46.3Areal density - max (Gbits/in2)72 [Track density max (Ktpi) - optimized 40GB) 76Track density max

Sector Number The sector number of the last transferred sector. (L=0)In LBA mode this register contains current LBA bits 0 - 7. (L=1)Cylinder High/Lo

11.55 Write Sector(s) Ext (34h)...See Below...Status0 0 1 1 0 1 0 0Command- - - - - - - -Device/Head- 1 - D - - - -Device/HeadV V V V V V V VHOB=1V V

LBA (47:40) of the address of the first unrecoverable error.Cylinder High (HOB=1)LBA (23:16) of the address of the first unrecoverable error.Cylinder

12.0 TimingsThe timing of BSY and DRQ in Status Register is shown in the figure below.400 nsStatus RegisterBSY=1OUT to CommandRegisterDevice Busy Aft

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AAbbreviations used, 1Acoustics, 57Actuator, 7Address Offset, 91Addressing of registers, 38Advanced Power Management, 90AT signal connector, 21Automat

PPasswords, 80Performance characteristics, 12PIO Data In commands, 96PIO Data Out commands, 98PIO timings, 27PList physical format, 19Power management

© Copyright Hitachi Global StorageTechnologies Hitachi Global Storage Technologies5600 Cottle RoadSan Jose, CA 95193Produced in the United States4/03A

4.3 Drive organization4.3.1 Drive formatUpon shipment from Hitachi Globals Storage Technologies manufacturing the drive satisfies the sectorcontinuity

4.4 Performance characteristicsDrive performance is characterized by the following parameters:y Command overheady Mechanical positioning- Seek time- L

The terms “Typical” and “Max” are used throughout this specification with the following meanings:Typical. The average of the drive population tested

4.4.2.4 Cylinder switch time (Cylinder skew)1.672 kTPICylinder switch time - typical (ms)Figure 8. Cylinder switch timeCylinder switch time is defin

4.4.4 Data transfer speed100Buffer-Host (max)29.4Sustained - read typical34.5Instantaneous - typicalDisk-Buffer transfer (Zone 26)56.3Sustained - read

Hard disk drive specificationsDeskstar 180 GXP3.5 inch Ultra ATA/100 hard disk drive IC35L030AVV207IC35L060AVV207IC35L090AVV207IC35L120AVV207IC35L18

4.4.5 Throughput4.4.5.1 Simple sequential accessThe following figure illustrates the case of the three-disk enclosure. 0.640.61Sequential Read (Zone

Operating mode DescriptionActuator is unloaded and spindle motor is stopped. Only soft reset or hardreset can change the mode to standbySleepActuator

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5.0 Defect flagging strategyMedia defects are remapped to the next available sector during the Format Process in manufacturing.The mapping from LBA t

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6.0 Specification6.1 Electrical interface6.1.1 Connector locationRefer to the following illustration to see the location of the connectors. Figure 1

6.1.2 Signal definitionThe pin assignments of interface signals are listed in the figure below:GND40OCI/ODASP-39TTLICS1-38TTLICSO-37TTLIDA236TTLIDA035

DA0-DA2 Address used to select the individual register in the drive.CS0- Chip select signal generated from the Host address bus. When active, one of

The drive is configured as either Device 0 or 1 depending upon the value of CSEL.y If CSEL is grounded, the device address is 0y If CSEL is open, the

The termination resistors on the device side are implemented on the drive side asfollows:y33 Ω for DD0 thru DD15, DMARQ, INTRQy82 Ω for CS0-, CS1-, DA

1st Edition (Revision 1.0) S-08K-0000-00 (18 December 2001) Preliminary2nd Edition (Revision 2.0) S-08K-0000-00 (18 April 2002) Preliminary3rd Edition

6.2 Signal timings6.2.1 Reset timingsDrive reset timing.t10t14RESET-BUSYFigure 21. System reset timing chart31–RESET high to not BUSYt1425RESET low wi

6.2.2 PIO timingsThe PIO cycle timings meet Mode 4 of the ATA/ATAPI-6 description.t1t9t0t2 t2it3 t4t5 t6t1Read dataDD(15:0)DIOR-,DIOW-CS(1:0)DA(2:0)Wr

6.2.2.2 Read DRQ interval timeFor read sectors and read multiple operations the interval from the end of negation of the DRQ bit untilsetting of the

6.2.3 Multiword DMA timingsThe Multiword DMA timing meets Mode 2 of the ATA/ATAPI-6 description.WRITE DATAREAD DATADMACK-DMARQDIOR-/DIOW-t0tLR/tLWtJtI

6.2.4 Ultra DMA timingsThe Ultra DMA timing meets Mode 0,1,2,3 4, and 5 of the Ultra DMA Protocol.6.2.4.1 Initiating Read DMADSTROBEHDMARDY-DMACK-DMA

6.2.4.2 Host Pausing Read DMADSTROBEHDMARDY-DMACK-DMARQtSRSTOPtRFSFigure 29. Ultra DMA cycle timing chart (Host pausing Read)50–60–60–60–70–75–HDMARD

6.2.4.3 Host Terminating Read DMADSTROBEHDMARDY-DMACK-DMARQSTOPtMLItRPDD(15:00)tZAHxxxxxxxxxxxxxxxxxxxxxDevice drives DDHost drives DDtCHtCSCRCtLItAC

6.2.4.4 Device Terminating Read DMADSTROBEHDMARDY-DMACK-DMARQSTOPtMLItLIDD(15:00)tZAHxxxxxxxxxxxxxxxxxxDevice drives DDHost drives DDtCHtCSCRCtSStACK

6.2.4.5 Initiating Write DMAHSTROBEDDMARDY-DMACK-DMARQSTOPtUItACKtENVtZIORDY tLItUItCYC tCYCt2CYCDD(15:0)xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxHost dr

6.2.4.6 Device Pausing Write DMAHSTROBEDDMARDY-DMACK-DMARQtSRSTOPtRFSFigure 37. Ultra DMA cycle timing chart (Device Pausing Write)50–60–60–60–70–75–

Table of contents476.5 DC power requirements ...466.4.2 Corrosion test ...

6.2.4.7 Device Terminating Write DMAHSTROBEDDMARDY-DMACK-DMARQSTOPtMLItRPDD(15:00)xxxxxxxxxxxxxxxxxxxxxxxxxxHost drives DDtCHtCSCRCtLItACKtACKtRFStLI

6.2.4.8 Host Terminating Write DMAHSTROBEDDMARDY-DMACK-DMARQSTOPtMLItLIDD(15:00)Host drives DDtCHtCSCRCtSStACKtACKtLItIORDYZxxxxxxxxxxxxxxxxxxxxxxxxx

6.2.5 Addressing of registersThe host addresses the drive through a set of registers called the Task File. These registers are mappedinto the I/ O spa

6.3 Jumper settings6.3.1 Jumper pin locationJumper pinsFigure 44. Jumper pin location (2- and 3-disk model shown)6.3.2 Jumper pin identificationPin AP

6.3.3 Jumper pin assignmentThere are four jumper settings as shown in the following sections: y 16 logical head default (normal use)y 15 logical head

6.3.4 Jumper positions6.3.4.1 16 logical head default (normal use)The figure below shows the jumper positions used to select Device 0, Device 1, Cabl

6.3.4.2 15 logical head defaultThe figure below shows the jumper positions used to select Device 0, Device 1, Cable Selection, orDevice 1 (Slave) Pre

6.3.4.3 Capacity clip to 2GB/32GBThe figure below shows the jumper positions used to select Device 0, Device 1, Cable Selection, orDevice 1 (Slave) P

6.3.4.4 Power Up In StandbyThe figure below shows the jumper positions used to select Device 0, Device 1, Cable Selection, orDevice 1 (Slave) Present

6.4 Environment6.4.1 Temperature and humidity-40 to 65°C5 to 95% non-condensing35°C non-condensing–300 to 12,000 mTemperatureRelative humidityMaximum

708.13 Status Register ...698.12 Sector Number Register ...

-40 -20 0 20 40 60Temperature (C)0102030405060708090100Relative Humidity (%)Environment SpecificationWet Bulb 29.4CWet Bulb 35C36C/95%31C/90%55C/15%65

6.5 DC power requirementsThe following voltage specifications apply at the power connector of the drive. Damage to the driveelectronics may result if

0.71204100Sleep average0.91204140Standby average21175030860Start up (max)13890181160Silent R/W peak7.994606490Silent R/W average111790181160Random R/W

6.5.3 Power supply generated ripple at drive power connector0-10150+12V DC0-10100+5V DCMHzMaximum (mV pp)Figure 57. Power supply generated ripple at d

6.6 Reliability6.6.1 Data integrityNo more than one sector is lost at Power loss condition during the write operation when the write cacheoption is di

6.7 Mechanical specifications6.7.1 Physical dimensionsBREATHERHOLE (*)Dia. 2.0  } 0.119.7  } 0.438.9  } 0.4101.6  } 0.4146  } 0.625.4  } 0.4LEFT

BREATHER HOLEFigure 59. Bottom and side views of 30GB - 60GB models with breather hole and mounting hole locationsAll dimensions in the above figure a

6.7.2 Hole locationsThe mounting hole location and size of the drive are shown below.Side View(5)(6) (7)Bottom View(1)(2)(3)(4)I/F Connector(4X) Max.

6.7.3Connector locationsFigure 62. Connector locations6.7.4 Drive mountingThe drive will operate in all axes (6 directions). Performance and error rat

6.8 Vibration and shockAll vibration and shock measurements recorded in this section are made with a drive that has no mount-ing attachments for the s

11111.2.4 DEVICE CONFIGURATION SET (subcommand C3h) ...11111.2.3 DEVICE CONFIGURATION IDENTIFY (subcommand C2h) ...11

6.8.2.2 Swept sine vibrationy 2 G (Zero to peak), 5 to 500 to 5 Hz sine wavey 0.5 oct/min sweep ratey 3 minutes dwell at two major resonances6.8.3 Op

6.9 AcousticsThe upper limit criteria of the octave sound power levels are given in Bels relative to one picowatt and areshown in the following table.

6.10 Identification labelsThe following labels are affixed to every drive shipped from the drive manufacturing location in accord-ance with the approp

6.11 Safety6.11.1 UL and CSA standard conformityThe product is qualified per UL 1950 Third Edition and CAN/CSA C22.2 No. 950-M95, Third Edition, forus

6.12 Electromagnetic compatibilityWhen installed in a suitable enclosure and exercised with a random accessing routine at maximum datarate, the drive

Part 2. Interface specificationDeskstar 180GXP hard disk drive specifications61

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7.0 GeneralThis specification describes the host interface of the Deskstar 180GXP hard disk drive.The interface conforms to the Working Document of I

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8.0 RegistersInvalid addressxxxAACommandStatus111NA LBA bits 24–271 LBA bits 24–271011NADevice/HeadDevice/Head.011NA LBA bits 16–231 LBA bits 16–

20011.42.5 SMART summary error log sector ...19911.42.4 SMART Log Directory ...

8.1 Alternate Status RegisterERRIDXCORDBQDSC/SERVDFRDYBSY01234567Alternate Status RegisterFigure 69. Alternate Status RegisterThis register contains

8.5 Data RegisterThis register is used to transfer data blocks between the device data buffer and the host. It is also theregister through which sect

-H3,-H2,-H1,-H0 --Head Select. These four bits are the 1's complement of the binary coded address of thecurrently selected head. -H0 is the least

Bit DefinitionsAddress Mark Not Found. AMN=1 indicates that data address mark has not beenfound after finding the correct ID field for the requested

8.13 Status RegisterERRIDXCORRDRQDSC/SERVDFDRDYBSY01234567Status RegisterFigure 74. Status RegisterThis register contains the device status. The conte

9.0 General operation9.1 Reset response There are three types of resets in ATA:Power On Reset (POR). The device executes a series of electrical circ

9.1.1 Register initializationAfter power on, hard reset, or software reset, the register values are initialized as shown in the figurebelow.50hAlterna

9.2 Diagnostic and reset considerationsFor each Reset and Execute Device Diagnostic the diagnostic is done as follows:Power On Reset. DASP- is read b

9.3 Sector Addressing ModeAll addressing of data sectors recorded on the drive media is by a logical sector address. The logicalCHS address for the dr

9.4 Overlapped and queued featureOverlap allows devices to perform a bus release so that the other device on the bus may be used. Toperform a bus rele

231Index...22912.0 Timings...

9.5 Power management featureThe power management feature set permits a host to reduce the power required to operate the drive. Itprovides a set of com

9.5.4 Interface capability for power modesEach power mode affects the physical interface as defined in the following table.InactiveNoXXSleepInactiveYe

9.6 S.M.A.R.T. functionThe intent of Self-Monitoring Analysis and Reporting Technology (S.M.A.R.T) is to protect user data andprevent unscheduled syst

disabled. Disabling SMART disables the delivering of error log information via the SMART READ LOGSECTOR command.If a device receives a firmware modifi

9.7 Security Mode Feature SetSecurity Mode Feature Set is a powerful security feature. With a device lock password, a user can pre-vent unauthorized a

The system manufacturer or dealer who intends to enable the device lock function for end-users must setthe master password even if only single level p

9.7.4.3 Operation from POR after User Password is setWhen Device Lock Function is enabled, the device rejects media access command until aSecurity Un

9.7.4.4 User Password LostIf the User Password is forgotten and High level security is set, the system user cannot access any data.However the device

9.7.5 Command tableThis table shows the response of the device to commands when the Security Mode Feature Set (Devicelock function) is enabled.Command

ExecutableExecutableCommand abortedWrite Sector(s) ExtExecutableExecutableCommand abortedWrite Sector(s)ExecutableExecutableCommand abortedWrite Multi