Seagate Laptop ST32000645NS User Guide

*One GB equals one billion bytes when referring to hard drive capacity. Accessible capacity may vary depending on operating environment and formatting.

**During periods of drive idle, some offline activity may occur according to the S.M.A.R.T. specification, which may increase acoustic and power to operational

levels.

2.2

FORMATTED CAPACITY

Formatted

capacity*

Guaranteed

sectors

Model

Bytes per sector

ST33000650NS

ST33000651NS

ST33000652NS

3TB

2TB

5,860,533,168

3,907,029,168

512

ST32000645NS

ST32000646NS

ST32000647NS

*One GB equals one billion bytes when referring to hard drive capacity. Accessible capacity may vary depending on operating environment and formatting.

2.2.1 LBA mode

When addressing these drives in LBA mode, all blocks (sectors) are consecutively numbered from 0 to n–1, where n is the number of

guaranteed sectors as defined above.

See Section 6.3.1, "Identify Device command" (words 60-61 and 100-103) for additional information about 48-bit addressing support of

drives with capacities over 137GB.

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2.3

DEFAULT LOGICAL GEOMETRY

CYLINDERS

16,383

READ/WRITE HEADS

SECTORS PER TRACK

LBA mode

When addressing these drives in LBA mode, all blocks (sectors) are consecutively numbered from 0 to n–1, where n is the number of

guaranteed sectors as defined above.

2.4

RECORDING AND INTERFACE TECHNOLOGY

Interface

Serial ATA (SATA)

Recording method

Perpendicular

Recording density, KBPI (Kb/in max)

Track density, KTPI (ktracks/in avg)

1638

270

Areal density (Gb/in avg)

444

Spindle speed (RPM) (± 0.2%)

7200

Internal data transfer rate (Mb/s max)

Sustained data transfer rate (MB/s max)

I/O data-transfer rate (MB/s max)

1900

155

600 (Ultra DMA mode 5)

2.5

PHYSICAL CHARACTERISTICS

Weight: (maximum) (3TB models)

Weight: (maximum) (2TB models)

Cache buffer

680g (1.499 lb)

655g (1.444 lb)

64MB (64,768KB)

2.6

SEEK TIME

Seek measurements are taken with nominal power at 25°C ambient temperature. All times are measured using drive diagnostics. The

specifications in the table below are defined as follows:

• Track-to-track seek time is an average of all possible single-track seeks in both directions.

• Average seek time is a true statistical random average of at least 5000 measurements of seeks between random tracks,

less overhead.

*TYPICAL SEEK TIMES (MS)

READ

WRITE

Track-to-track

Average

0.50

8.5

0.50

9.5

Average latency:

4.16

*Measured in performance mode.

Note. These drives are designed to consistently meet the seek times represented in this manual. Physical seeks,

regardless of mode (such as track-to-track and average), are expected to meet the noted values. However, due

to the manner in which these drives are formatted, benchmark tests that include command overhead or measure

logical seeks may produce results that vary from these specifications.

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2.7

START/STOP TIMES

3TB models

15 (max)

2TB models

13.5 (max)

20 (max)

Power-on to Ready (sec)

Standby to Ready (sec)

15 (max)

Ready to spindle stop (sec)

20 (max)

2.8

POWER SPECIFICATIONS

The drive receives DC power (+5V or +12V) through a native SATA power connector. See Figure 4 on page 22.

2.8.1 Power consumption

Power requirements for the drives are listed in the table on page 9. Typical power measurements are based on an average of drives tested,

under nominal conditions, using 5.0V and 12.0V input voltage at 25°C ambient temperature.

• Spinup power

Spinup power is measured from the time of power-on to the time that the drive spindle reaches operating speed.

• Seek mode

During seek mode, the read/write actuator arm moves toward a specific position on the disc surface and does not execute

a read or write operation. Servo electronics are active. Seek mode power represents the worst-case power consumption,

using only random seeks with read or write latency time. This mode is not typical and is provided for worst-case informa-

tion.

• Read/write power and current

Read/write power is measured with the heads on track, based on a 16-sector write followed by a 32-ms delay, then a 16-

sector read followed by a 32ms delay.

• Operating power and current

Operating power is measured using 40 percent random seeks, 40 percent read/write mode (1 write for each 10 reads)

and 20 percent drive idle mode.

• Idle mode power

Idle mode power is measured with the drive up to speed, with servo electronics active and with the heads in a random

track location.

• Standby mode

During Standby mode, the drive accepts commands, but the drive is not spinning, and the servo and read/write electron-

ics are in power-down mode.

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Table 2 3TB Drive DC power requirements

3.0Gb mode

+5V +12V

6.0Gb mode

+5V +12V

Voltage

Regulation

Avg Idle Current *

Advanced Idle Current *

Idle_A

0.36

0.49

0.37

0.49

0.15

0.13

0.50

0.41

0.24

0.01

0.16

0.14

0.50

0.41

0.24

0.01

Idle_B

Idle_C

Standby

Maximum Start Current

DC (peak DC)

0.54

0.70

0.13

2.05

3.01

0.01

0.54

0.73

0.14

2.06

2.85

0.01

3σ

AC (Peak DC)

Delayed Motor Start (DC max)

Peak operating current (random read):

Typical DC

0.32

0.75

0.78

0.33

0.75

0.78

Maximum DC

3σ

Maximum DC(peak)

1.13

1.83

1.18

1.81

3σ

Peak operating current (random write)

Typical DC

0.43

0.44

0.61

0.63

0.44

0.45

0.61

0.63

Maximum DC

3σ

Maximum DC(peak)

0.98

1.78

1.00

1.78

3σ

Peak operating current (sequential read)

Typical DC

0.64

0.66

0.48

0.50

0.65

0.67

0.48

0.50

Maximum DC

3σ

Maximum DC(peak)

1.04

0.76

1.06

0.74

3σ

Peak operating current (sequential write)

Typical DC

0.73

0.75

0.48

0.50

0.74

0.76

0.48

0.50

Maximum DC

3σ

Maximum DC(peak)

1.03

0.76

1.01

0.88

3σ

CONSTELLATION ES.2 SERIAL ATA PRODUCT MANUAL, REV. H

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Table 3 2TB Drive DC power requirements

3.0Gb mode

+5V +12V

6.0Gb mode

+5V +12V

Voltage

Regulation

Avg Idle Current *

Advanced Idle Current *

Idle_A

0.37

0.40

0.37

0.40

0.15

0.13

0.12

0.42

0.34

0.20

0.01

0.16

0.14

0.13

0.42

0.34

0.20

0.01

Idle_B

Idle_C

Standby

Maximum Start Current

DC (peak DC)

0.57

0.80

0.12

2.11

2.84

0.01

0.57

0.72

0.13

2.11

2.79

0.01

3σ

AC (Peak DC)

Delayed Motor Start (DC max)

Peak operating current (random read):

Typical DC

0.40

0.70

0.73

0.40

0.41

0.69

0.72

Maximum DC

3σ

Maximum DC(peak)

1.14

1.83

1.15

1.76

3σ

Peak operating current (random write)

Typical DC

0.42

0.43

0.55

0.57

0.42

0.43

0.54

0.56

Maximum DC

3σ

Maximum DC(peak)

1.02

1.73

1.03

1.84

3σ

Peak operating current (sequential read)

Typical DC

0.72

0.75

0.41

0.43

0.72

0.75

0.40

0.42

Maximum DC

3σ

Maximum DC(peak)

1.07

0.80

1.09

0.99

3σ

Peak operating current (sequential write)

Typical DC

0.77

0.80

0.41

0.43

0.77

0.80

0.40

0.42

Maximum DC

3σ

Maximum DC(peak)

1.07

0.87

1.08

0.81

3σ

*During periods of drive idle, some offline activity may occur according to the S.M.A.R.T. specification, which may increase acoustic and power to operational

levels.

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2.8.1.1 Typical current profiles

Figure 1.

Typical 3TB - 5V and 12V startup and operation current profiles

CONSTELLATION ES.2 SERIAL ATA PRODUCT MANUAL, REV. H

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Figure 2.

Typical 2TB - 5V and 12V startup and operation current profiles

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2.8.2 Conducted noise

Input noise ripple is measured at the host system power supply across an equivalent 80-ohm resistive load on the +12 V line or an

equivalent 15-ohm resistive load on the +5V line.

• Using 12V power, the drive is expected to operate with a maximum of 120mV peak-to-peak square-wave injected noise at

up to 10MHz.

• Using 5V power, the drive is expected to operate with a maximum of 100mV peak-to-peak square-wave injected noise at

up to 10MHz.

Note. Equivalent resistance is calculated by dividing the nominal voltage by the typical RMS read/write current.

2.8.3 Voltage tolerance

Voltage tolerance (including noise):

5V ± 5%

12V ± 5%

2.8.4 Power-management modes

The drive provides programmable power management to provide greater energy efficiency. In most systems, you can control power

management through the system setup program. The drive features the following power-management modes:

POWER MODES

HEADS

SPINDLE

BUFFER

Active

Idle_a

Idle_b

Idle_c

Standby

Sleep

Tracking

ID Biased

Parked

Rotating

Enabled

Disabled

Rotating

Rotating at lower RPM

Stopped

• Active mode

The drive is in Active mode during the read/write and seek operations.

• Idle mode

The buffer remains enabled, and the drive accepts all commands and returns to Active mode any time disc access is

necessary.

• Standby mode

The drive enters Standby mode when the host sends a Standby Immediate command. If the host has set the standby

timer, the drive can also enter Standby mode automatically after the drive has been inactive for a specifiable length of

time. The standby timer delay is established using a Standby or Idle command. In Standby mode, the drive buffer is

enabled, the heads are parked and the spindle is at rest. The drive accepts all commands and returns to Active mode any

time disc access is necessary.

• Sleep mode

The drive enters Sleep mode after receiving a Sleep command from the host. In Sleep mode, the drive buffer is disabled,

the heads are parked and the spindle is at rest. The drive leaves Sleep mode after it receives a Hard Reset or Soft Reset

from the host. After receiving a reset, the drive exits Sleep mode and enters Standby mode with all current translation

parameters intact.

• Idle and Standby timers

Each time the drive performs an Active function (read, write or seek), the standby timer is reinitialized and begins count-

ing down from its specified delay times to zero. If the standby timer reaches zero before any drive activity is required, the

drive makes a transition to Standby mode. In both Idle and Standby mode, the drive accepts all commands and returns to

Active mode when disc access is necessary.

CONSTELLATION ES.2 SERIAL ATA PRODUCT MANUAL, REV. H

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2.8.4.1 Extended Power Conditions - PowerChoice^TM

Utilizing the load/unload architecture a programmable power management interface is provided to tailor systems for reduced power

consumption and performance requirements.

The table below lists the supported power conditions available in PowerChoice. Power conditions are ordered from highest power

consumption (and shortest recovery time) to lowest power consumption (and longest recovery time) as follows: Idle_a power >= Idle_b

power >= Idle_c power >= Standby_z power. The further you go down in the table, the more power savings is actualized. For example,

Idle_b results in greater power savings than the Idle_a power condition. Standby results in the greatest power savings.

POWER CONDITION NAME

POWER CONDITION ID

DESCRIPTION

Idle_a

Reduced electronics

Idle_b

Heads unloaded. Disks spinning at full RPM

Heads unloaded. Disks spinning at reduced RPM

Heads unloaded. Motor stopped (disks not spinning)

Idle_c

Standby_z

Each power condition has a set of current, saved and default settings. Default settings are not modifiable. Default and saved settings

persist across power-on resets. The current settings do not persist across power-on resets. At the time of manufacture, the default, saved

and current settings are in the Power Conditions log match.

PowerChoice is invoked using one of two methods

• Automatic power transitions which are triggered by expiration of individual power condition timers. These timer values may

be customized and enabled using the Extended Power Conditions (EPC) feature set using the standardized Set Features

command interface.

• Immediate host commanded power transitions may be initiated using an EPC Set Features "Go to Power Condition" sub-

command to enter any supported power condition. Legacy power commands Standby Immediate and Idle Immediate also

provide a method to directly transition the drive into supported power conditions.

PowerChoice exits power saving states under the following conditions

• Any command which requires the drive to enter the PM0: Active state (media access)

• Power on reset

PowerChoice provides the following reporting methods for tracking purposes

Check Power Mode Command

• Reports the current power state of the drive

Identify Device Command

• EPC Feature set supported flag

• EPC Feature enabled flag is set if at least one Idle power condition timer is enabled

Power Condition Log reports the following for each power condition

• Nominal recovery time from the power condition to active

• If the power condition is Supported, Changeable, and Savable

• Default enabled state, and timer value

• Saved enabled state, and timer value

• Current enabled state, and timer value

S.M.A.R.T. Read Data Reports

• Attribute 192 - Emergency Retract Count

• Attribute 193 - Load/Unload Cycle Count

PowerChoice Manufacture Default Power Condition Timer Values

Default power condition timer values have been established to assure product reliability and data integrity. A minimum timer value

threshold of two minutes ensures the appropriate amount of background drive maintenance activities occur. Attempting to set a timer

values less than the specified minimum timer value threshold will result in an aborted EPC "Set Power Condition Timer" subcommand.

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POWER CONDITION NAME

MANUFACTURER DEFAULT TIMER VALUES

Idle_a

2 min

Idle_b

4 min

Idle_c

10 min

15 min

Standby_z

Setting power condition timer values less than the manufacturer specified defaults or issuing the EPC "Go to Power Condition"

subcommand at a rate exceeding the default timers may limit this products reliability and data integrity.

PowerChoice Supported Extended Power Condition Feature Subcommands

EPC SUBCOMMAND

DESCRIPTION

Restore Power Condition Settings

Go to Power Condition

Set Power Condition Timer

Set Power Condition State

PowerChoice Supported Extended Power Condition Indentifiers

POWER CONDITION

POWER CONDITION NAME

IDENTIFIERS

Standby_z

Reserved

01 - 80

Idle_a

Idle_b

Idle_c

84 - FE

Reserved

All EPC Power Conditions

2.9

ENVIRONMENTAL LIMITS

Temperature and humidity values experienced by the drive must be such that condensation does not occur on any drive part. Altitude and

atmospheric pressure specifications are referenced to a standard day at 58.7°F (14.8°C). Maximum wet bulb temperature is 82°F (28°C).

2.9.1 Temperature

a. Operating

The drive meets the operating specifications over a 41°F to 140°F (5°C to 60°C) drive case temperature range with a

maximum temperature gradient of 36°F (20°C) per hour.

The maximum allowable drive case temperature is 60°C. See Figure 3 for HDA case temperature measurement location

The MTBF specification for the drive assumes the operating environment is designed to maintain nominal case

temperature. The rated MTBF is based upon a sustained case temperature of 104°F (40°C). Occasional excursions in

operating temperature between the rated MTBF temperature and the maximum drive operating case temperature may

occur without impact to the rated MTBF temperature. However, continual or sustained operation at case temperatures

beyond the rated MTBF temperature will degrade the drive MTBF and reduce product reliability.

Air flow may be required to achieve consistent nominal case temperature values (see Section 3.4). To confirm that the

required cooling is provided for the electronics and HDA, place the drive in its final mechanical configuration, and perform

random write/read operations. After the temperatures stabilize, measure the case temperature of the drive.

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b. Non-operating

–40° to 158°F (–40° to 70°C) package ambient with a maximum gradient of 36°F (20°C) per hour. This specification

assumes that the drive is packaged in the shipping container designed by Seagate for use with drive.

HDA Temp.

Check Point

Figure 3.

Location of the HDA temperature check point

Note. Image is for reference only, may not represent actual drive

2.9.2 Humidity

2.9.2.1 Relative humidity

Operating:

5% to 90% noncondensing (30% per hour max)

5% to 95% noncondensing (30% per hour max)

Nonoperating:

2.9.3 Altitude

Operating:

–60.96 m to 3,048 m (–200 ft. to 10,000+ ft.)

–60.96 m to 12,192 m (–200 ft. to 40,000+ ft.)

Nonoperating:

2.9.4 Shock

All shock specifications assume that the drive is mounted securely with the input shock applied at the drive mounting screws. Shock may

be applied in the X, Y or Z axis.

2.9.4.1 Operating shock

These drives comply with the performance levels specified in this document when subjected to a maximum operating shock of 70 Gs

(read) and 40 Gs (write) based on half-sine shock pulses of 2ms. Shocks should not be repeated more than two times per second.

2.9.4.2 Nonoperating shock

The nonoperating shock level that the drive can experience without incurring physical damage or degradation in performance when

subsequently put into operation is 300 Gs based on a nonrepetitive half-sine shock pulse of 2ms duration.

2.9.5 Vibration

All vibration specifications assume that the drive is mounted securely with the input vibration applied at the drive mounting screws.

Vibration may be applied in the X, Y or Z axis.

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2.9.5.1 Operating vibration

The maximum vibration levels that the drive may experience while meeting the performance standards specified in this document are

specified below.

5–22 Hz

0.25 Gs

0.50 Gs

0.25 Gs

22–350 Hz

350–500 Hz

20 - 1500Hz *(RROV)

12.5 rads/s w/RVFF

* Rotary Random Operating Vibration

2.9.5.2 Nonoperating vibration

The maximum nonoperating vibration levels that the drive may experience without incurring physical damage or degradation in

performance when subsequently put into operation are specified below.

10–500 Hz Linear Random

4.9 Grms ref

2.10 ACOUSTICS

Drive acoustics are measured as overall A-weighted acoustic sound power levels (no pure tones). All measurements are consistent with

ISO document 7779. Sound power measurements are taken under essentially free-field conditions over a reflecting plane. For all tests,

the drive is oriented with the cover facing upward.

Note. For seek mode tests, the drive is placed in seek mode only. The number of seeks per second is defined by the

following equation:

(Number of seeks per second = 0.4 / (average latency + average access time)

Table 4 Fluid Dynamic Bearing (FDB) motor acoustics

IDLE*

PERFORMANCE SEEK

ST33000650NS

ST33000651NS

ST33000652NS

2.8 bels (typ)

3.0 bels (max)

3.2 bels (typ)

3.4 bels (max)

ST32000645NS

ST32000646NS

ST32000647NS

*During periods of drive idle, some offline activity may occur according to the S.M.A.R.T. specification, which may increase acoustic and power to operational

levels.

2.11 TEST FOR PROMINENT DISCRETE TONES (PDTS)

Seagate follows the ECMA-74 standards for measurement and identification of PDTs. An exception to this process is the use

of the absolute threshold of hearing. Seagate uses this threshold curve (originated in ISO 389-7) to discern tone audibility and

to compensate for the inaudible components of sound prior to computation of tone ratios according to Annex D of the ECMA-

74 standards.

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2.12 ELECTROMAGNETIC IMMUNITY

When properly installed in a representative host system, the drive operates without errors or degradation in performance when subjected

to the radio frequency (RF) environments defined in the following table:

Table 5 Radio frequency environments

PERFORMANCE

LEVEL

REFERENCE

STANDARD

TEST

DESCRIPTION

Electrostatic

discharge

Contact, HCP, VCP: ± 4 kV; Air: ± 8 kV

EN 61000-4-2: 95

Radiated RF

immunity

80 to 1000 MHz, 3 V/m,

80% AM with 1 kHz sine

EN 61000-4-3: 96

ENV 50204: 95

900 MHz, 3 V/m, 50% pulse modulation @ 200 Hz

Electrical fast

transient

± 1 kV on AC mains, ± 0.5 kV on external I/O

EN 61000-4-4: 95

Surge immunity ± 1 kV differential, ± 2 kV common, AC mains

EN 61000-4-5: 95

EN 61000-4-6: 97

Conducted RF

immunity

150 kHz to 80 MHz, 3 Vrms, 80% AM with 1 kHz sine

Voltage dips,

interrupts

0% open, 5 seconds

0% short, 5 seconds

40%, 0.10 seconds

70%, 0.01 seconds

EN 61000-4-11: 94

2.13 RELIABILITY

2.13.1 Annualized Failure Rate (AFR) and Mean Time Between Failures (MTBF)

The product shall achieve an Annualized Failure Rate (AFR) of 0.73% (MTBF of 1.2 million hours) when operated nominal power and

typical case temperatures of 40°C. Operation at temperatures outside the specifications in Section 2.9 may increase the product AFR

(decrease MTBF). AFR and MTBF are population statistics that are not relevant to individual units.

AFR and MTBF specifications are based on the following assumptions for business critical storage system environments:

• 8760 power-on-hours per year.

• Operations at nominal voltages.

• Temperatures outside the specifications in Section 2.9 may reduce thee product reliability.

• Normal I/O duty cycle for enterprise nearline applications. Operation at excessive I/O duty cycle may degrade product reli-

ability.

The enterprise application nearline environment of power-on-hours, temperature, and I/O duty cycle affect the product AFR and MTBF.

Nonrecoverable read errors

Annualized Failure Rate (AFR)

Load unload cycles

1 per 10 bits read, max

0.73% (nominal power, 40°C case temperature)

300,000 cycles

Warranty

To determine the warranty for a specific drive, use a web browser to access the

following web page:: http://www.seagate.com/support/warranty-and-returns

From this page, click on the "Verify Your Warranty" link. You will be asked to provide

the drive serial number, model number (or part number) and country of purchase.The

system will display the warranty information for your drive.

Preventive maintenance

None required.

2.14 AGENCY CERTIFICATION

2.14.1 Safety certification

These products are certified to meet the requirements of UL60950-1, CSA60950-1 and EN60950 and so marked as to the certify agency.

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2.14.2 Electromagnetic compatibility

Hard drives that display the CE mark comply with the European Union (EU) requirements specified in the Electromagnetic

Compatibility Directive (2004/108/EC) as put into place 20 July 2007. Testing is performed to the levels specified by the product

standards for Information Technology Equipment (ITE). Emission levels are defined by EN 55022, Class B and the immunity levels are

defined by EN 55024.

Drives are tested in representative end-user systems. Although CE-marked Seagate drives comply with the directives when used in the

test systems, we cannot guarantee that all systems will comply with the directives. The drive is designed for operation inside a properly

designed enclosure, with properly shielded I/O cable (if necessary) and terminators on all unused I/O ports. Computer manufacturers and

system integrators should confirm EMC compliance and provide CE marking for their products.

Korean RRL

If these drives have the Korean Communications Commission (KCC) logo, they comply with paragraph 1 of Article 11 of the

Electromagnetic Compatibility control Regulation and meet the Electromagnetic Compatibility (EMC) Framework requirements of the

Radio Research Laboratory (RRL) Communications Commission, Republic of Korea.

These drives have been tested and comply with the Electromagnetic Interference/Electromagnetic Susceptibility (EMI/EMS) for Class B

products. Drives are tested in a representative, end-user system by a Korean-recognized lab.

• Family name: Constellation ES.2 Serial ATA

• Certificate number: STX-Constell-ES (B)

• Date of Certification: August 20, 2009

Australian C-Tick (N176)

If these models have the C-Tick marking, they comply with the Australia/New Zealand Standard AS/NZ CISPR22 and meet the

Electromagnetic Compatibility (EMC) Framework requirements of the Australian Communication Authority (ACA).

2.14.3 FCC verification

These drives are intended to be contained solely within a personal computer or similar enclosure (not attached as an external device). As

such, each drive is considered to be a subassembly even when it is individually marketed to the customer. As a subassembly, no Federal

Communications Commission verification or certification of the device is required.

Seagate has tested this device in enclosures as described above to ensure that the total assembly (enclosure, disc drive, motherboard,

power supply, etc.) does comply with the limits for a Class B computing device, pursuant to Subpart J, Part 15 of the FCC rules.

Operation with noncertified assemblies is likely to result in interference to radio and television reception.

Radio and television interference. This equipment generates and uses radio frequency energy and if not installed and used in strict

accordance with the manufacturer’s instructions, may cause interference to radio and television reception.

This equipment is designed to provide reasonable protection against such interference in a residential installation. However, there is no

guarantee that interference will not occur in a particular installation. If this equipment does cause interference to radio or television,

which can be determined by turning the equipment on and off, you are encouraged to try one or more of the following corrective

measures:

• Reorient the receiving antenna.

• Move the device to one side or the other of the radio or TV.

• Move the device farther away from the radio or TV.

• Plug the computer into a different outlet so that the receiver and computer are on different branch outlets.

If necessary, you should consult your dealer or an experienced radio/television technician for additional suggestions. You may find

helpful the following booklet prepared by the Federal Communications Commission: How to Identify and Resolve Radio-Television

Interference Problems. This booklet is available from the Superintendent of Documents, U.S. Government Printing Office, Washington,

DC 20402. Refer to publication number 004-000-00345-4.

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2.15 ENVIRONMENTAL PROTECTION

Seagate designs its products to meet environmental protection requirements worldwide, including regulations restricting certain chemical

substances.

2.15.1 European Union Restriction of Hazardous Substances (RoHS) Directive

The European Union Restriction of Hazardous Substances (RoHS) Directive, restricts the presence of chemical substances, including

Lead, Cadmium, Mercury, Hexavalent Chromium, PBB and PBDE, in electronic products, effective July 2006. This drive is

manufactured with components and materials that comply with the RoHS Directive.

2.15.2 China Restriction of Hazardous Substances (RoHS) Directive

This product has an Environmental Protection Use Period (EPUP) of 20 years. The following table contains information

mandated by China's "Marking Requirements for Control of Pollution Caused by Electronic Information Products"

Standard.

"O" indicates the hazardous and toxic substance content of the part (at the homogenous material level) is lower than the threshold defined

by the China RoHS MCV Standard.

"X" indicates the hazardous and toxic substance content of the part (at the homogenous material level) is over the threshold defined by the

China RoHS MCV Standard.

2.16 CORROSIVE ENVIRONMENT

Seagate electronic drive components pass accelerated corrosion testing equivalent to 10 years exposure to light industrial environments

containing sulfurous gases, chlorine and nitric oxide, classes G and H per ASTM B845. However, this accelerated testing cannot

duplicate every potential application environment. Users should use caution exposing any electronic components to uncontrolled

chemical pollutants and corrosive chemicals as electronic drive component reliability can be affected by the installation environment. The

silver, copper, nickel and gold films used in Seagate products are especially sensitive to the presence of sulfide, chloride, and nitrate

contaminants. Sulfur is found to be the most damaging. In addition, electronic components should never be exposed to condensing water

on the surface of the printed circuit board assembly (PCBA) or exposed to an ambient relative humidity greater than 95%. Materials used

in cabinet fabrication, such as vulcanized rubber, that can outgas corrosive compounds should be minimized or eliminated. The useful life

of any electronic equipment may be extended by replacing materials near circuitry with sulfide-free alternatives.

2.17 REFERENCE DOCUMENTS

Self-Encrypting Drives Reference Manual

Seagate part number: 100515636

Trusted Computing Group (TCG) Documents (apply to Self-Encrypting Drive models only)

TCG Storage Architecture Core Specification, Rev. 1.0

TCG Storage Security Subsystem Class Enterprise Specification, Rev. 1.0

In case of conflict between this document and any referenced document, this document takes precedence.

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2.18 PRODUCT WARRANTY

Beginning on the date of shipment to the customer and continuing for the period specified in your purchase contract, Seagate warrants

that each product (including components and subassemblies) that fails to function properly under normal use due to defect in materials or

workmanship or due to nonconformance to the applicable specifications will be repaired or replaced, at Seagate’s option and at no charge

to the customer, if returned by customer at customer’s expense to Seagate’s designated facility in accordance with Seagate’s warranty

procedure. Seagate will pay for transporting the repair or replacement item to the customer. For more detailed warranty information, refer

to the standard terms and conditions of purchase for Seagate products on your purchase documentation.

The remaining warranty for a particular drive can be determined by calling Seagate Customer Service at

1-800-468-3472. You can also determine remaining warranty using the Seagate web site (www.seagate.com). The drive serial number is

required to determine remaining warranty information.

Shipping

When transporting or shipping a drive, use only a Seagate-approved container. Keep your original box. Seagate approved containers are

easily identified by the Seagate Approved Package label. Shipping a drive in a non-approved container voids the drive warranty.

Seagate repair centers may refuse receipt of components improperly packaged or obviously damaged in transit. Contact your authorized

Seagate distributor to purchase additional boxes. Seagate recommends shipping by an air-ride carrier experienced in handling computer

equipment.

Storage

The maximum recommended storage period for the drive in a non-operational environment is 90 days. Drives should be stored in the

original unopened Seagate shipping packaging whenever possible. Once the drive is removed from the Seagate original packaging the

recommended maximum period between drive operation cycles is 30 days. During any storage period the drive non-operational

temperature, humidity, wet bulb, atmospheric conditions, shock, vibration, magnetic and electrical field specifications should be

followed.

Product repair and return information

Seagate customer service centers are the only facilities authorized to service Seagate drives. Seagate does not sanction any third-party

repair facilities. Any unauthorized repair or tampering with the factory seal voids the warranty.

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3.0 CONFIGURING AND MOUNTING THE DRIVE

This section contains the specifications and instructions for configuring and mounting the drive.

3.1

HANDLING AND STATIC-DISCHARGE PRECAUTIONS

After unpacking, and before installation, the drive may be exposed to potential handling and electrostatic discharge (ESD) hazards.

Observe the following standard handling and static-discharge precautions:

Caution:

• Before handling the drive, put on a grounded wrist strap, or ground yourself frequently by touching the metal chassis of a

computer that is plugged into a grounded outlet. Wear a grounded wrist strap throughout the entire installation procedure.

• Handle the drive by its edges or frame only.

• The drive is extremely fragile—handle it with care. Do not press down on the drive top cover.

• Always rest the drive on a padded, antistatic surface until you mount it in the computer.

• Do not touch the connector pins or the printed circuit board.

• Do not remove the factory-installed labels from the drive or cover them with additional labels. Removal voids the warranty.

Some factory-installed labels contain information needed to service the drive. Other labels are used to seal out dirt and

contamination.

3.2

CONFIGURING THE DRIVE

Each drive on the Serial ATA interface connects point-to-point with the Serial ATA host adapter. There is no master/slave relationship

because each drive is considered a master in a point-to-point relationship. If two drives are attached on one Serial ATA host adapter, the

host operating system views the two devices as if they were both “masters” on two separate ports. Both drives behave as if they are

Device 0 (master) devices.

3.3

SERIAL ATA CABLES AND CONNECTORS

The Serial ATA interface cable consists of four conductors in two differential pairs, plus three ground connections. The cable size may be

30 to 26 AWG with a maximum length of one meter (39.37 in). See Table 6 for connector pin definitions. Either end of the SATA signal

cable can be attached to the drive or host.

For direct backplane connection, the drive connectors are inserted directly into the host receptacle. The drive and the host receptacle

incorporate features that enable the direct connection to be hot pluggable and blind mateable.

For installations which require cables, you can connect the drive as illustrated in Figure 4.

Signal connector

Power connector

Signal cable

Power cable

Figure 4.

Attaching SATA cabling

Each cable is keyed to ensure correct orientation. Constellation ES.2 Serial ATA drives support latching SATA connectors.

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3.4

DRIVE MOUNTING

You can mount the drive in any orientation using four screws in the side-mounting holes or four screws in the bottom-mounting holes. See

Figure 5 for drive mounting dimensions. Follow these important mounting precautions when mounting the drive:

• Allow a minimum clearance of 0.030 in (0.76mm) around the entire perimeter of the drive for cooling.

• Use only 6-32 UNC mounting screws.

• The screws should be inserted no more than 0.150 in (3.81mm) into the bottom or side mounting holes.

• Do not overtighten the mounting screws (maximum torque: 6 in-lb).

• Do not cover breather hole on top cover.

Breather Hole

Do Not

Cover

• Breather hole location - top cover

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3.4.1 Mechanical specifications

Refer to Figure 5 for detailed mounting configuration dimensions. See Section 3.4, “Drive mounting.”

3TB models

2TB models

Weight: (max)

1.499 lb

1.444 lb

680 g

655 g

Note. These dimensions conform to the Small Form Factor Standard documented in SFF-8301 and

SFF-8323, found at www.sffcommittee.org.

Figure 5.

Mounting dimensions—top, side and end view

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4.0 ABOUT FIPS

The Federal Information Processing Standard (FIPS) Publication 140-2 is a U.S. Government Computer Security Standard used to

accredit cryptographic modules. It is titled 'Security Requirements for Cryptographic Modules (FIPS PUB 140-2)' and is issued by the

National Institute of Standards and Technology (NIST).

Purpose

This standard specifies the security requirements that will be satisfied by a cryptographic module utilized within a security system

protecting sensitive but unclassified information. The standard provides four increasing, qualitative levels of security: Level 1, Level 2,

Level 3 and Level 4. These levels are intended to cover the wide range of potential applications and environments in which cryptographic

modules may be employed.

Seagate Enterprise SEDs

The SEDs referenced in this Product Manual have been validated by CMVP and have been thoroughly tested by a NVLAP accredited lab

to satisfy FIPS 140-2 Level 2 requirements. In order to operate in FIPS Approved Mode of Operation, these SEDs require security

initialization. For more information, refer to 'Security Rules' section in the 'Security Policy' document uploaded on the NIST website. To

reference the product certification visit - http://csrc.nist.gov/groups/STM/cmvp/documents/140-1/1401vend.htm and search for

"Seagate".

Level 2 security

Security Level 2 enhances the physical security mechanisms of a Security Level 1 cryptographic module by adding the requirement for

tamper-evidence, which includes the use of tamper-evident coatings or seals on removable covers of the module. Tamper-evident

coatings or seals are placed on a cryptographic module so that the coating or seal must be broken to attain physical access to the critical

security parameters (CSP) within the module. Tamper-evident seals are placed on covers to protect against unauthorized physical access.

In addition Security Level 2 requires, at a minimum, role-based authentication in which a cryptographic module authenticates the

authorization of an operator to assume a specific role and perform a corresponding set of services..

Figure 6.

Example of FIPS tamper evidence labels.

Note. Does not represent actual drive.

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5.0 ABOUT SELF-ENCRYPTING DRIVES

Self-encrypting drives (SEDs) offer encryption and security services for the protection of stored data, commonly known as “protection of

data at rest.” These drives are compliant with the Trusted Computing Group (TCG) Enterprise Storage Specifications as detailed in

Section 2.17.

The Trusted Computing Group (TCG) is an organization sponsored and operated by companies in the computer, storage and digital

communications industry. Seagate’s SED models comply with the standards published by the TCG.

To use the security features in the drive, the host must be capable of constructing and issuing the following two ATA commands:

• Trusted Send

• Trusted Receive

These commands are used to convey the TCG protocol to and from the drive in their command payloads.

5.1

DATA ENCRYPTION

Encrypting drives use one inline encryption engine for each port, employing AES-256 data encryption in Cipher Block Chaining (CBC)

mode to encrypt all data prior to being written on the media and to decrypt all data as it is read from the media. The encryption engines

are always in operation and cannot be disabled.

The 32-byte Data Encryption Key (DEK) is a random number which is generated by the drive, never leaves the drive, and is inaccessible

to the host system. The DEK is itself encrypted when it is stored on the media and when it is in volatile temporary storage (DRAM)

external to the encryption engine. A unique data encryption key is used for each of the drive's possible16 data bands (see Section 5.5).

5.2

CONTROLLED ACCESS

The drive has two security providers (SPs) called the "Admin SP" and the "Locking SP." These act as gatekeepers to the drive security

services. Security-related commands will not be accepted unless they also supply the correct credentials to prove the requester is

authorized to perform the command.

5.2.1 Admin SP

The Admin SP allows the drive's owner to enable or disable firmware download operations (see Section 5.4). Access to the Admin SP is

available using the SID (Secure ID) password or the MSID (Manufacturers Secure ID) password.

5.2.2 Locking SP

The Locking SP controls read/write access to the media and the cryptographic erase feature. Access to the Locking SP is available using

the BandMasterX or EraseMaster passwords. Since the drive owner can define up to 16 data bands on the drive, each data band has its

own password called BandMasterX where X is the number of the data band (0 through 15).

5.2.3 Default password

When the drive is shipped from the factory, all passwords are set to the value of MSID. This 32-byte random value can only be read by

the host electronically over the interface. After receipt of the drive, it is the responsibility of the owner to use the default MSID password

as the authority to change all other passwords to unique owner-specified values.

5.3

RANDOM NUMBER GENERATOR (RNG)

The drive has a 32-byte hardware RNG that it is uses to derive encryption keys or, if requested to do so, to provide random numbers to the

host for system use, including using these numbers as Authentication Keys (passwords) for the drive’s Admin and Locking SPs.

5.4

DRIVE LOCKING

In addition to changing the passwords, as described in Section 5.2.3, the owner should also set the data access controls for the individual

bands. The variable "LockOnReset" should be set to "PowerCycle" to ensure that the data bands will be locked if power is lost. In

addition "ReadLockEnabled" and "WriteLockEnabled" must be set to true in the locking table in order for the bands "LockOnReset"

setting of "PowerCycle" to actually lock access to the band when a "PowerCycle" event occurs. This scenario occurs if the drive is

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removed from its cabinet. The drive will not honor any data read or write requests until the bands have been unlocked. This prevents the

user data from being accessed without the appropriate credentials when the drive has been removed from its cabinet and installed in

another system.

When the drive is shipped from the factory, the firmware download port is unlocked.

5.5

DATA BANDS

When shipped from the factory, the drive is configured with a single data band called Band 0 (also known as the Global Data Band)

which comprises LBA 0 through LBA max. The host may allocate Band1 by specifying a start LBA and an LBA range. The real estate

for this band is taken from the Global Band. An additional 14 Data Bands may be defined in a similar way (Band2 through Band15) but

before these bands can be allocated LBA space, they must first be individually enabled using the EraseMaster password.

Data bands cannot overlap but they can be sequential with one band ending at LBA (x) and the next beginning at LBA (x+1).

Each data band has its own drive-generated encryption key and its own user-supplied password. The host may change the Encryption

Key (see Section 5.6) or the password when required. The bands should be aligned to 4K LBA boundaries.

5.6

CRYPTOGRAPHIC ERASE

A significant feature of SEDs is the ability to perform a cryptographic erase. This involves the host telling the drive to change the data

encryption key for a particular band. Once changed, the data is no longer recoverable since it was written with one key and will be read

using a different key. Since the drive overwrites the old key with the new one, and keeps no history of key changes, the user data can

never be recovered. This is tantamount to an instantaneous data erase and is very useful if the drive is to be scrapped or redispositioned.

5.7

AUTHENTICATED FIRMWARE DOWNLOAD

In addition to providing a locking mechanism to prevent unwanted firmware download attempts, the drive also only accepts download

files which have been cryptographically signed by the appropriate Seagate Design Center.

Three conditions must be met before the drive will allow the download operation:

1. The download must be an SED file. A standard (base) drive (non-SED) file will be rejected.

2. The download file must be signed and authenticated.

3. As with a non-SED drive, the download file must pass the acceptance criteria for the drive. For example it must be applicable to the

correct drive model, and have compatible revision and customer status.

5.8

POWER REQUIREMENTS

The standard drive models and the SED drive models have identical hardware, however the security and encryption portion of the drive

controller ASIC is enabled and functional in the SED models. This represents a small additional drain on the 5V supply of about 30mA

and a commensurate increase of about 150mW in power consumption. There is no additional drain on the 12V supply. See the tables in

Section 2.8 for power requirements on the standard (non-SED) drive models.

5.9

SUPPORTED COMMANDS

The SED models support the following two commands in addition to the commands supported by the standard (non-SED) models as

listed in Table 7:

• Trusted Send (5Eh) or Trusted Send DMA (5Fh)

• Trusted Receive (5Ch) or Trusted Receive DMA (5Dh)

5.10 REVERTSP

SED models will support the RevertSP feature which erases all data in all bands on the device and returns the contents of all SPs

(Security Providers) on the device to their original factory state. In order to execute the RevertSP method the unique PSID (Physical

Secure ID) printed on the drive label must be provided. PSID is not electronically accessible and can only be manually read from the

drive label or scanned in via the 2D barcode.

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5.11 ATA SECURITY ERASE UNIT COMMAND ON SED SATA DRIVES

The ATA SECURITY ERASE UNIT command shall support both the Normal and Enhanced erase modes with the following

modifications/additions:

• Normal Erase: Normal erase shall be accomplished by changing the media encryption key for the drive followed by an

overwrite operation that repeatedly writes a single sector containing random data to the entire drive. The write operation

shall bypass the media encryption. On reading back the overwritten sectors, the host will receive a decrypted version,

using the new encryption key, of the random data sector (the returned data will not match what was written).

• Enhanced Erase: Enhanced erase shall be accomplished by changing the media encryption key for the drive.

5.12 SANITIZE DEVICE - CRYPTO SCRAMBLE EXT

This command cryptographically erases all user data on the drive by destroying the current data encryption key and replacing it with a

new data encryption key randomly generated by the drive. Sanitize Device is a command field B4h and Feature field 0011h (CRYPTO

SCRAMBLE EXT).

The drive shall support the Sanitize Feature Set as defined in ANSI/INCITS ACS-2 with the exceptions and/or modifications described in

this section.

The drive shall not support the OVERWRITE EXT and BLOCK ERASE EXT sub-commands.

Support of the SANITIZE FREEZE LOCK EXT command shall be determined on a customer-specific basis. OEM drives shall support

the command.

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6.0 SERIAL ATA (SATA) INTERFACE

These drives use the industry-standard Serial ATA interface that supports FIS data transfers. It supports ATA programmed input/output

(PIO) modes 0–4; multiword DMA modes 0–2, and Ultra DMA modes 0–6.

For detailed information about the Serial ATA interface, refer to the “Serial ATA: High Speed Serialized AT Attachment” specification.

6.1

HOT-PLUG COMPATIBILITY

Constellation ES.2 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA

Revision 2.6 specification. This specification can be downloaded from www.serialata.org.

Caution:

The drive motor must come to a complete stop (Ready to spindle stop time indicated in Section 2.7)

prior to changing the plane of operation. This time is required to insure data integrity.

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6.2

SERIAL ATA DEVICE PLUG CONNECTOR PIN DEFINITIONS

Table 6 summarizes the signals on the Serial ATA interface and power connectors.

Table 6 Serial ATA connector pin definitions

SEGMENT PIN

FUNCTION

DEFINITION

Ground

A+

2nd mate

Differential signal pair A from Phy

A-

Ground

B-

2nd mate

Differential signal pair B from Phy

B+

Signal

Ground

2nd mate

Key and spacing separate signal and power segments

V₃₃

3.3V power

V₃₃

3.3V power

V₃₃

3.3V power, pre-charge, 2nd mate

1st mate

Ground

V₅

2nd mate

5V power, pre-charge, 2nd mate

5V power

V₅

Power

V₅

5V power

P10

P11

P12

P13

P14

P15

Ground

2nd mate

Ground or LED signal If grounded, drive does not use deferred spin

Ground

V₁₂

1st mate.

12V power, pre-charge, 2nd mate

12V power

V₁₂

12V power

Notes:

1. All pins are in a single row, with a 1.27mm (0.050”) pitch.

2. The comments on the mating sequence apply to the case of backplane blindmate connector only. In this case, the mating sequences

are:

• the ground pins P4 and P12.

• the pre-charge power pins and the other ground pins.

• the signal pins and the rest of the power pins.

3. There are three power pins for each voltage. One pin from each voltage is used for pre-charge when installed in a blind-mate back-

plane configuration.

4. All used voltage pins (V_x) must be terminated.

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6.3

SUPPORTED ATA COMMANDS

The following table lists Serial ATA standard commands that the drive supports. For a detailed description of the ATA commands, refer to

the Serial ATA: High Speed Serialized AT Attachment specification. See “S.M.A.R.T. commands” on page 38.for details and

subcommands used in the S.M.A.R.T. implementation.

Table 7 Supported ATA commands

COMMAND NAME

COMMAND CODE (IN HEX)

Check Power Mode

Device Configuration Freeze Lock

Device Configuration Identify

Device Configuration Restore

Device Configuration Set

Device Reset

B1 / C1

B1 / C2

B1 / C0

B1 / C3

Download Microcode

Execute Device Diagnostics

Flush Cache

Flush Cache Extended

Format Track

Identify Device

Idle

Idle Immediate

Initialize Device Parameters

Read Buffer

Read DMA

Read DMA Extended

Read DMA Without Retries

Read Log Ext

Read Multiple

Read Multiple Extended

Read Native Max Address

Read Native Max Address Extended

Read Sectors

Read Sectors Extended

Read Sectors Without Retries

Read Verify Sectors

Read Verify Sectors Extended

Read Verify Sectors Without Retries

Recalibrate

Sanitize Device - Status Ext

Sanitize Device - Crypto Scramble Ext

Sanitize Device - Freeze Lock Ext

Security Disable Password

Security Erase Prepare

Security Erase Unit

B4 / 0000

B4 / 0011

B4 / 0020

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COMMAND NAME

COMMAND CODE (IN HEX)

Security Freeze

Security Set Password

Security Unlock

Seek

Set Features

Set Max Address

Note: Individual Set Max Address

commands are identified by the value

placed in the Set Max Features regis-

ter as defined to the right.

Address:

Password:

Lock:

Unlock:

Freeze Lock:

Set Max Address Extended

Set Multiple Mode

Sleep

S.M.A.R.T. Disable Operations

S.M.A.R.T. Enable/Disable Autosave

S.M.A.R.T. Enable Operations

S.M.A.R.T. Execute Offline

S.M.A.R.T. Read Attribute Thresholds

S.M.A.R.T. Read Data

S.M.A.R.T. Read Log Sector

S.M.A.R.T. Return Status

S.M.A.R.T. Save Attribute Values

S.M.A.R.T. Write Log Sector

Standby

B0 / D9

B0 / D2

B0 / D8

B0 / D4

B0 / D1

B0 / D0

B0 / D5

B0 / DA

B0 / D3

B0 / D6

Standby Immediate

Trusted Send

5E (SED drives only)

Trusted Send DMA

5F (SED drives only)

Trusted Receive

5C (SED drives only)

Trusted Receive DMA

Write Buffer

5D (SED drives only)

Write DMA

Write DMA Extended

Write DMA FUA Extended

Write DMA Without Retries

Write Log Extended

Write Multiple

Write Multiple Extended

Write Multiple FUA Extended

Write Sectors

Write Sectors Without Retries

Write Sectors Extended

Write Uncorrectable

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6.3.1 Identify Device command

The Identify Device command (command code EC ) transfers information about the drive to the host following power up. The data is

organized as a single 512-byte block of data, whose contents are shown in Table 7 on page 31. All reserved bits or words should be set to

zero. Parameters listed with an “x” are drive-specific or vary with the state of the drive. See Section 2.0 on page 5 for default parameter

settings.

The following commands contain drive-specific features that may not be included in the Serial ATA specification.

WORD

DESCRIPTION

VALUE

Configuration information:

• Bit 15: 0 = ATA; 1 = ATAPI

• Bit 7: removable media

• Bit 6: removable controller

• Bit 0: reserved

0C5A

Number of logical cylinders

16,383

ATA-reserved

0000

Number of logical heads

Retired

0000

Retired

Number of logical sectors per logical track: 63

Retired

003F

7–9

10–19

0000

Serial number: (20 ASCII characters, 0000 = none)

ASCII

Retired

Obsolete

0000

0400

0000

Firmware revision

(8 ASCII character string, padded with blanks to end of string)

23–26

27–46

x.xx

Drive model number:

(40 ASCII characters, padded with blanks to end of string)

(Bits 7–0) Maximum sectors per interrupt on Read multiple and Write

multiple (16)

8010

0000

Reserved

Standard Standby timer, IORDY supported and may be disabled

ATA-reserved

2F00

0000

0200

0007

PIO data-transfer cycle timing mode

Retired

Words 54–58, 64–70 and 88 are valid

Number of current logical cylinders

Number of current logical heads

Number of current logical sectors per logical track

Current capacity in sectors

xxxx

57–58

Number of sectors transferred during a Read Multiple

or Write Multiple command

xxxx

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WORD

DESCRIPTION

VALUE

Total number of user-addressable LBA sectors available

(see Section 2.2 for related information)

*Note: The maximum value allowed in this field is: 0FFFFFFFh

(268,435,455 sectors, 137GB). Drives with capacities over 137GB will

have 0FFFFFFFh in this field and the actual number of user-address-

able LBAs specified in words 100-103. This is required for drives that

support the 48-bit addressing feature.

60–61

0FFFFFFFh*

Retired

0000

Multiword DMA active and modes supported

(see note following this table)

xx07

Advanced PIO modes supported (modes 3 and 4 supported)

Minimum multiword DMA transfer cycle time per word (120 ns)

0003

0078

Recommended multiword DMA transfer cycle time per word

(120 ns)

0078

Minimum PIO cycle time without IORDY flow control (240 ns)

Minimum PIO cycle time with IORDY flow control (120 ns)

ATA-reserved

00F0

0078

0000

69–74

Queue depth

001F

Serial ATA capabilities

xxxx

Reserved for future Serial ATA definition

Serial ATA features supported

Serial ATA features enabled

Major version number

003E

Minor version number

0028

Command sets supported

364B

Command sets supported

7C03

4003 See Word 108-111 note.

(4003H = 0100000000000011

binary)

Command sets support extension

(see note following this table)

Command sets enabled

30xx

Command sets enabled

0001

4000

Command sets enable extension

Ultra DMA support and current mode (see note following this table)

Security erase time

xx3F

0000

Enhanced security erase time

Master password revision code

Hardware reset value

FFFE

xxxx

95–99

ATA-reserved

0000

ST33000650NS = 5,860,533,168

ST33000651NS = 5,860,533,168

ST33000652NS = 5,860,533,168

ST32000645NS = 3,907,029,168

ST32000646NS = 3,907,029,168

ST32000647NS = 3,907,029,168

Total number of user-addressable LBA sectors available (see Section

support the 48-bit addressing feature. Maximum value:

0000FFFFFFFFFFFFh.

100–103

104–107

ATA-reserved

0000

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WORD

DESCRIPTION

VALUE

108–111

The mandatory value of the world wide name (WWN) for the drive.

NOTE: This field is valid if word 84, bit 8 is set to 1 indicating 64-bit

WWN support.

Each drive will have a unique

value.

112–127

128

ATA-reserved

Security status

Seagate-reserved

ATA-reserved

Integrity word

0000

0001

129–159

160–254

255

xxxx

0000

xxA5

Note. See the bit descriptions below for words 63, 84, and 88 of the Identify Drive data.

Description (if bit is set to 1)

BIT

WORD 63

Multiword DMA mode 0 is supported.

Multiword DMA mode 1 is supported.

Multiword DMA mode 2 is supported.

Multiword DMA mode 0 is currently active.

Multiword DMA mode 1 is currently active.

Multiword DMA mode 2 is currently active.

WORD 84

BIT

SMART error logging is supported.

SMART self-test is supported.

Media serial number is supported.

Media Card Pass Through Command feature set is supported.

Streaming feature set is supported.

GPL feature set is supported.

WRITE DMA FUA EXT and WRITE MULTIPLE FUA EXT commands are supported.

WRITE DMA QUEUED FUA EXT command is supported.

64-bit World Wide Name is supported.

Obsolete.

9-10

11-12

Reserved for TLC.

IDLE IMMEDIATE command with IUNLOAD feature is supported.

Shall be set to 1.

Shall be cleared to 0.

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BIT

WORD 88

Ultra DMA mode 0 is supported.

Ultra DMA mode 1 is supported.

Ultra DMA mode 2 is supported.

Ultra DMA mode 3 is supported.

Ultra DMA mode 4 is supported.

Ultra DMA mode 5 is supported.

Ultra DMA mode 6 is supported.

Ultra DMA mode 0 is currently active.

Ultra DMA mode 1 is currently active.

Ultra DMA mode 2 is currently active.

Ultra DMA mode 3 is currently active.

Ultra DMA mode 4 is currently active.

Ultra DMA mode 5 is currently active.

Ultra DMA mode 6 is currently active.

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6.3.2 Set Features command

This command controls the implementation of various features that the drive supports. When the drive receives this command, it sets

BSY, checks the contents of the Features register, clears BSY and generates an interrupt. If the value in the register does not represent a

feature that the drive supports, the command is aborted. Power-on default has the read look-ahead and write caching features enabled.

The acceptable values for the Features register are defined as follows:

Table 8 Set Features command values

Enable write cache (default).

Set transfer mode (based on value in Sector Count register).

Sector Count register values:

00 Set PIO mode to default (PIO mode 2).

01 Set PIO mode to default and disable IORDY (PIO mode 2).

08 PIO mode 0

09 PIO mode 1

0A PIO mode 2

0B PIO mode 3

0C PIO mode 4 (default)

20 Multiword DMA mode 0

21 Multiword DMA mode 1

22 Multiword DMA mode 2

40 Ultra DMA mode 0

41 Ultra DMA mode 1

42 Ultra DMA mode 2

43 Ultra DMA mode 3

44 Ultra DMA mode 4

45 Ultra DMA mode 5

46 Ultra DMA mode 6

Enable use of SATA features

Disable read look-ahead (read cache) feature.

Disable write cache

Disable use of SATA features

Enable read look-ahead (read cache) feature (default).

Report full capacity available

Note. At power-on, or after a hardware or software reset, the default values of the features are as indicated above.

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6.3.3 S.M.A.R.T. commands

S.M.A.R.T. provides near-term failure prediction for disc drives. When S.M.A.R.T. is enabled, the drive monitors predetermined drive

attributes that are susceptible to degradation over time. If self-monitoring determines that a failure is likely, S.M.A.R.T. makes a status

report available to the host. Not all failures are predictable. S.M.A.R.T. predictability is limited to the attributes the drive can monitor. For

more information on S.M.A.R.T. commands and implementation, see the Draft ATA-5 Standard.

SeaTools diagnostic software activates a built-in drive self-test (DST S.M.A.R.T. command for D4 ) that eliminates unnecessary drive

returns. The diagnostic software ships with all new drives and is also available at:

http://www.seagate.com/support/downloads/seatools/.

This drive is shipped with S.M.A.R.T. features disabled. You must have a recent BIOS or software package that supports S.M.A.R.T. to

enable this feature. The table below shows the S.M.A.R.T. command codes that the drive uses.

Table 9 S.M.A.R.T. commands

CODE IN FEATURES

S.M.A.R.T. COMMAND

S.M.A.R.T. Read Data

S.M.A.R.T. Enable/Disable Attribute Autosave

S.M.A.R.T. Save Attribute Values

S.M.A.R.T. Execute Off-line Immediate (runs DST)

S.M.A.R.T. Read Log Sector

S.M.A.R.T. Write Log Sector

S.M.A.R.T. Enable Operations

S.M.A.R.T. Disable Operations

S.M.A.R.T. Return Status

Note. If an appropriate code is not written to the Features Register, the command is aborted and 0x04 (abort) is written

to the Error register.

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data bands 26

Index

Data encryption 26

Data Encryption Key 26

data-transfer rates 3

DC power 8

ACA 19

acoustics 17

Active 13

Active mode 13

actuator arm 8

Admin SP 26

decrypt 26

Default logical geometry 7

default MSID password 26

DEK 26

density 7

Device Configuration Freeze Lock 31

Device Configuration Identify 31

Device Configuration Restore 31

Device Configuration Set 31

Device Reset 31

dimensions 24

disc surface 8

Download Microcode 31

Drive Locking 26

drive mounting 24

AES-256 data encryption 26

Agency certification 18

altitude 16

ambient 16

ambient temperature 7, 8

Annualized Failure Rate (AFR) 18

areal density 3, 7

ATA commands 31

Australia/New Zealand Standard AS/NZ CISPR22 19

Australian Communication Authority (ACA) 19

Australian C-Tick 19

average idle current 9, 10

Average latency 7

Electrical fast transient 18

Electromagnetic compatibility 19

Electromagnetic Compatibility (EMC) 19

Electromagnetic Compatibility control Regulation 19

Electromagnetic Compatibility Directive (2004/108/

EC) 19

Average seek time 7

Band 0 27

BandMasterX 26

BPI 7

Electromagnetic immunity 18

Electrostatic discharge 18

electrostatic discharge (ESD) 22

EN 55022, Class B 19

EN 55024 19

EN60950 18

enclosures 19

encryption engine 26

encryption key 27

environmental

buffer 7

cables and connectors 22

cache 7

capacity 6

CBC 26

CE mark 19

certification 18

limits 15

Check Power Mode 31

China RoHS directive 20

Cipher Block Chaining 26

compatibility 19

EraseMaster 26

error-correction algorithms 3

errors 18

ESD 22

Conducted noise 13

Conducted RF immunity 18

Configuring the drive 22

connectors 22

EU 19

EU RoHS directive 20

European Union (EU) requirements 19

Execute Device Diagnostics 31

Corrosive environment 20

Cryptographic erase 27

CSA60950-1 18

FCC verification 19

features 3

Cylinders 7

FIPS 25

firmware download port 27

Flush Cache 31

Data Bands 27

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Flush Cache Extended 31

Format Track 31

Formatted capacity 6

mounting 23

mounting configuration 24

mounting screws 16

mounting the drive 22

MSID 26

geometry 7

Global Data Band 27

gradient 16

noise 13

guaranteed sectors 6, 7

nominal power 7

non-operating

temperature 16

Nonoperating shock 16

Nonoperating vibration 17

Nonrecoverable read errors 18

Handling precautions 22

heads 7

humidity 16

humidity limits 15

Operating power 8

Operating shock 16

Operating vibration 17

I/O data-transfer rate 7

Identify Device 31

Identify Device command 33

Idle 13, 31

Idle Immediate 31

password 26

Idle mode 8, 13

passwords 26

PDT 17

Information Technology Equipment (ITE) 19

Initialize Device Parameters 31

Input noise ripple 13

input voltage 8

peak operating current 9, 10

Physical characteristics 7

Physical Secure ID 27

point-to-point 4, 22

Power consumption 8

power consumption 8

Power modes 13

interface 7, 29

interference 19

internal data-transfer rate OD 7

is 7

ISO document 7779 17

ITE 19

Power specifications 8

PowerCycle 26

Power-management modes 13

Power-on to Ready 8

precautions 22

printed circuit board 22

programmable power management 13

Prominent Discrete Tones 17

protection of data at rest 26

PSID 27

KCC 19

Korean Communications Commission 19

Korean RRL 19

latency 7

latency time 8

LBA mode 6, 7

Locking SP 26

LockOnReset 26

logical geometry 7

quick reference 5

Radiated RF immunity 18

radio and television interference 19

radio frequency (RF) 18

Random number generator 26

random seeks 8

maintenance 18

Manufacturers Secure ID 26

master/slave 4

Read Buffer 31

Read DMA 31

maximum start current 9, 10

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Read DMA Extended 31

Read DMA without Retries 31

read errors 18

Read Log Ext 31

Read Multiple 31

Read Multiple Extended 31

Read Native Max Address 31

Read Native Max Address Extended 31

Read Sectors 31

Security Erase Unit 31

Security Freeze 32

security providers 26

Security Set Password 32

Security Unlock 32

Seek 32

seek mode 8

Seek mode power 8

Seek time 7

Read Sectors Extended 31

Read Sectors Without Retries 31

Read Verify Sectors 31

Read Verify Sectors Extended 31

Read Verify Sectors Without Retries 31

read/write actuator arm 8

Read/write heads 7

Read/write power 8

Recalibrate 31

recording density 7

recording method 7

Recording technology 7

reference

self-encrypting drives 26

Serial ATA (SATA) interface 29

serial ATA ports 4

Servo electronics 8

servo electronics 8

Set Features 32

Set Max Address 32

Set Max Address Extended 32

Set Multiple Mode 32

shipping container 16

Shock 16

SID 26

single-track seeks 7

Sleep 13, 32

Sleep mode 13

documents 20

relative humidity 16

Reliability 18

sound 17

RevertSP 27

RF 18

Specification summary table 5

spindle speed 7

RMS read/write current 13

RNG 26

RoHS 20

Spinup power 8

Standby 13, 32

Standby Immediate 32

Standby mode 8, 13

standby timer 13

RRL 19

Standby to Ready 8

Start/stop times 8

static-discharge 22

subassembly 19

S.M.A.R.T. Disable Operations 32

S.M.A.R.T. Enable Operations 32

S.M.A.R.T. Enable/Disable Autosave 32

S.M.A.R.T. Execute Offline 32

S.M.A.R.T. implementation 31

S.M.A.R.T. Read Attribute Thresholds 32

S.M.A.R.T. Read Data 32

S.M.A.R.T. Read Log Sector 32

S.M.A.R.T. Return Status 32

S.M.A.R.T. Save Attribute Values 32

S.M.A.R.T. Write Log sector 32

Safety certification 18

Surge immunity 18

TCG 26

temperature 7, 15

limits 15

non-operating 16

Test for Prominent Discrete Tones 17

timer 13

Sanitize Device 31

timers 13

sanitize feature set 28

track density 7

SATA 29

Track-to-track 7

screws 16

Seagate Technology Support Services 1

sectors 6

Sectors per track 7

Secure ID 26

Track-to-track seek time 7

Trusted Computing Group 26

Trusted Receive 32

trusted receive 26, 27

Trusted Receive (5Ch) 27

Trusted Receive DMA 32

Trusted Receive DMA (5Dh) 27

Security Disable Password 31

Security Erase Prepare 31

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Trusted Send 32

trusted send 26, 27

Trusted Send (5Eh) 27

Trusted Send DMA 32

Trusted Send DMA (5Fh) 27

UL60950-1 18

Vibration 16

voltage 8

Voltage dips, interrupts 18

Voltage tolerance 13

weight 7

wet bulb temperature 16

Write Buffer 32

Write DMA 32

Write DMA Extended 32

Write DMA FUA Extended 32

Write DMA Without Retries 32

Write Log Extended 32

Write Multiple 32

Write Multiple Extended 32

Write Multiple FUA Extended 32

Write Sectors 32

Write Sectors Extended 32

Write Sectors Without Retries 32

Write Uncorrectable 32

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Seagate Technology LLC

AMERICAS Seagate Technology LLC 10200 South De Anza Boulevard, Cupertino, California 95014, United States, 408-658-1000

ASIA/PACIFIC Seagate Singapore International Headquarters Pte. Ltd. 7000 Ang Mo Kio Avenue 5, Singapore 569877, 65-6485-3888

EUROPE, MIDDLE EAST AND AFRICA Seagate Technology SAS 16-18 rue du Dôme, 92100 Boulogne-Billancourt, France, 33 1-4186 10 00

Publication Number: 100633157, Rev. H

September 2012

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