Fujitsu MPE3064AT, MPE3102AT, MPE3136AT, MPE3170AT, MPE3204AT User Manual

...
MPE3xxxAT
DISK DRIVES
PRODUCT MANUAL
C141-E077-01EN
REVISION RECORD
Edition Date published Revised contents
01 June, 1999
The contents of this manual is subject to change without prior notice.
All Rights Reserved. Copyright 1999 FUJITSU LIMITED
C141-E077-01EN i
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PREFACE

This manual describes the MPE3xxxAT series, a 3.5-inch hard disk drive with a BUILT-IN controller that is compatible with the ATA interface.
This manual explains, in detail, how to incorporate the hard disk drives into user systems.
This manual assumes that users have a basic knowledge of hard disk drives and their application in computer systems.
This manual consists of the following six chapters:
Chapter 1 DEVICE OVERVIEW
Chapter 2 DEVICE CONFIGURATION
Chapter 3 INSTALLATION CONDITIONS
Chapter 4 THEORY OF DEVICE OPERATION
Chapter 5 INTERFACE
Chapter 6 OPERATIONS
In this manual, disk drives may be referred to as drives or devices.
C141-E077-01EN iii
Conventions for Alert Messages
This manual uses the following conventions to show the alert messages. An alert message consists of an alert signal and alert statements. The alert signal consists of an alert symbol and a signal word or just a signal word.
The following are the alert signals and their meanings:
This indicates a hazarous situation likely to result in serious personal injury if the user does not perform the procedure correctly.
This indicates a hazarous situation could result in personal injury if the user does not perform the porocedure correctly.
This indicates a hazarous situation could result in minor or moderate personal injury if the user does not perform the procedure correctly. This alert signal also indicates that damages to the product or other property, may occur if the user does not perform the procedure correctly.
This indicates information that could help the user use the product more efficiently.
In the text, the alert signal is centered, followed below by the indented message. A wider line space precedes and follows the alert message to show where the alert message begins and ends. The following is an example:
(Example)
IMPORTANT
HA (host adapter) consists of address decoder, driver, and receiver. ATA is an abbreviation of "AT attachment". The disk drive is conformed to the ATA-4 interface
The main alert messages in the text are also listed in the “Important Alert Items.”
iv C141-E077-01EN
LIABILITY EXCEPTION
"Disk drive defects" refers to defects that involve adjustment, repair, or replacement. Fujitsu is not liable for any other disk drive defects, such as those caused by user misoperation or mishandling, inappropriate operating environments, defects in the power supply or cable, problems of the host system, or other causes outside the disk drive.
C141-E077-01EN v
MANUAL ORGANIZATION
MPE3xxxAT
DISK DRIVES
PRODUCT
MANUAL
(C141-E077)
<This manual>
MPE3xxxAT
DISK DRIVES
MAINTENANCE
MANUAL
(C141-F036)
• DEVICE OVERVIEW
• DEVICE CONFIGURATION
• INSTALLATION CONDITIONS
• THEORY OF DEVICE OPERATION
• INTERFACE
• OPERATIONS
• MAINTENANCE AND DIAGNOSIS
• REMOVAL AND REPLACEMENT PROCEDURE
vi C141-E077-01EN

CONTENTS

page
CHAPTER 1 DEVICE OVERVIEW ................................................................................... 1 - 1
1.1 Features .......................................................................................................................... 1 - 1
1.1.1 Functions and performance ................................................................ ............................ 1 - 1
1.1.2 Adaptability.................................................................................................................... 1 - 2
1.1.3 Interface.......................................................................................................................... 1 - 2
1.2 Device Specifications ..................................................................................................... 1 - 4
1.2.1 Specifications summary.................................................................................................. 1 - 4
1.2.2 Model and product number ............................................................................................ 1 - 5
1.3 Power Requirements................................................................ .......................................1 - 5
1.4 Environmental Specifications......................................................................................... 1 - 8
1.5 Acoustic Noise ................................................................ ...............................................1 - 8
1.6 Shock and Vibration....................................................................................................... 1 - 9
1.7 Reliability....................................................................................................................... 1 - 9
1.8 Error Rate ....................................................................................................................... 1 - 10
1.9 Media Defects................................................................................................................. 1 - 10
CHAPTER 2 DEVICE CONFIGURATION ....................................................................... 2 - 1
2.1 Device Configuration ..................................................................................................... 2 - 1
2.2 System Configuration.....................................................................................................2 - 3
2.2.1 ATA interface................................................................................................................. 2 - 3
2.2.2 1 drive connection..........................................................................................................2 - 3
2.2.3 2 drives connection......................................................................................................... 2 - 3
CHAPTER 3 INSTALLATION CONDITIONS ................................................................. 3 - 1
3.1 Dimensions................................................................ .....................................................3 - 1
3.2 Mounting........................................................................................................................ 3 - 3
3.3 Cable Connections.......................................................................................................... 3 - 7
3.3.1 Device connector............................................................................................................ 3 - 7
3.3.2 Cable connector specifications ....................................................................................... 3 - 8
3.3.3 Device connection..........................................................................................................3 - 8
3.3.4 Power supply connector (CN1) ................................................................ ...................... 3 - 9
3.3.5 System configuration for Ultra DMA............................................................................. 3 - 9
C141-E077-01EN vii
3.4 Jumper Settings .............................................................................................................. 3 - 12
3.4.1 Location of setting jumpers................................................................ ............................ 3 - 12
3.4.2 Factory default setting....................................................................................................3 - 13
3.4.3 Jumper configuration................................................................ ......................................3 - 13
CHAPTER 4 THEORY OF DEVICE OPERATION .........................................................4 - 1
4.1 Outline............................................................................................................................4 - 1
4.2 Subassemblies ................................................................................................................ 4 - 1
4.2.1 Disk................................................................................................................................4 - 1
4.2.2 Head ............................................................................................................................... 4 - 2
4.2.3 Spindle............................................................................................................................ 4 - 4
4.2.4 Actuator.......................................................................................................................... 4 - 4
4.2.5 Air filter.......................................................................................................................... 4 - 4
4.3 Circuit Configuration...................................................................................................... 4 - 5
4.4 Power-on Sequence ........................................................................................................ 4 - 7
4.5 Self-calibration ............................................................................................................... 4 - 9
4.5.1 Self-calibration contents................................................................ .................................4 - 9
4.5.2 Execution timing of self-calibration ............................................................................... 4 - 10
4.5.3 Command processing during self-calibration.................................................................4 - 10
4.6 Read/write Circuit........................................................................................................... 4 - 11
4.6.1 Read/write preamplifier (PreAMP).................................................................................4 - 11
4.6.2 Write circuit................................................................ ....................................................4 - 11
4.6.3 Read circuit..................................................................................................................... 4 - 11
4.6.4 Time base generator circuit............................................................................................. 4 - 12
4.7 Servo Control ................................................................................................................. 4 - 14
4.7.1 Servo control circuit ....................................................................................................... 4 - 14
4.7.2 Data-surface servo format...............................................................................................4 - 17
4.7.3 Servo frame format......................................................................................................... 4 - 18
4.7.4 Actuator motor control ................................................................................................... 4 - 19
4.7.5 Spindle motor control..................................................................................................... 4 - 20
CHAPTER 5 INTERFACE................................................................................................... 5 - 1
5.1 Physical Interface ................................................................ ...........................................5 - 2
5.1.1 Interface signals..............................................................................................................5 - 2
5.1.2 Signal assignment on the connector ............................................................................... 5 - 3
5.2 Logical Interface.............................................................................................................5 - 6
C141-E077-01ENviii
5.2.1 I/O registers....................................................................................................................5 - 6
5.2.2 Command block registers............................................................................................... 5 - 8
5.2.3 Control block registers ................................................................ ...................................5 - 13
5.3 Host Commands................................................................ .............................................5 - 13
5.3.1 Command code and parameters......................................................................................5 - 14
5.3.2 Command descriptions................................................................................................... 5 - 16
5.3.3 Error posting................................................................ ...................................................5 - 66
5.4 Command Protocol................................................................ .........................................5 - 67
5.4.1 Data transferring commands from device to host...........................................................5 - 67
5.4.2 Data transferring commands from host to device...........................................................5 - 69
5.4.3 Commands without data transfer.................................................................................... 5 - 71
5.4.4 Other commands............................................................................................................. 5 - 72
5.4.5 DMA data transfer commands........................................................................................5 - 72
5.5 Ultra DMA Feature Set...................................................................................................5 - 74
5.5.1 Overview........................................................................................................................5 - 74
5.5.2 Phases of operation................................................................ .........................................5 - 75
5.5.3 Ultra DMA data in commands........................................................................................ 5 - 75
5.5.3.1 Initiating an Ultra DMA data in burst.............................................................................5 - 75
5.5.3.2 The data in transfer......................................................................................................... 5 - 76
5.5.3.3 Pausing an Ultra DMA data in burst............................................................................... 5 - 76
5.5.3.4 Terminating an Ultra DMA data in burst........................................................................5 - 77
5.5.4 Ultra DMA data out commands...................................................................................... 5 - 79
5.5.4.1 Initiating an Ultra DMA data out burst...........................................................................5 - 79
5.5.4.2 The data out transfer....................................................................................................... 5 - 80
5.5.4.3 Pausing an Ultra DMA data out burst............................................................................. 5 - 80
5.5.4.4 Terminating an Ultra DMA data out burst......................................................................5 - 81
5.5.5 Ultra DMA CRC rules.................................................................................................... 5 - 83
5.5.6 Series termination required for Ultra DMA....................................................................5 - 84
5.6 Timing............................................................................................................................ 5 - 85
5.6.1 PIO data transfer............................................................................................................. 5 - 85
5.6.2 Multiword data transfer .................................................................................................. 5 - 86
5.6.3 Ultra DMA data transfer................................................................................................. 5 - 87
5.6.3.1 Initiating an Ultra DMA data in burst.............................................................................5 - 87
5.6.3.2 Ultra DMA data burst timing requirements....................................................................5 - 88
5.6.3.3 Sustained Ultra DMA data in burst................................................................................. 5 - 90
5.6.3.4 Host pausing an Ultra DMA data in burst ...................................................................... 5 - 91
C141-E077-01EN ix
5.6.3.5 Device terminating an Ultra DMA data in burst............................................................. 5 - 92
5.6.3.6 Host terminating an Ultra DMA data in burst................................................................. 5 - 93
5.6.3.7 Initiating an Ultra DMA data out burst...........................................................................5 - 94
5.6.3.8 Sustained Ultra DMA data out burst............................................................................... 5 - 95
5.6.3.9 Device pausing an Ultra DMA data out burst.................................................................5 - 96
5.6.3.10Host terminating an Ultra DMA data out burst...............................................................5 - 97
5.6.3.11Device terminating an Ultra DMA data in burst.............................................................5 - 98
5.6.4 Power-on and reset ......................................................................................................... 5 - 99
CHAPTER 6 OPERATIONS................................................................................................ 6 - 1
6.1 Device Response to the Reset................................................................ ......................... 6 - 1
6.1.1 Response to power-on .................................................................................................... 6 - 2
6.1.2 Response to hardware reset ................................................................ ............................ 6 - 3
6.1.3 Response to software reset.............................................................................................. 6 - 4
6.1.4 Response to diagnostic command ................................................................ .................. 6 - 5
6.2 Address Translation........................................................................................................6 - 6
6.2.1 Default parameters..........................................................................................................6 - 6
6.2.2 Logical address...............................................................................................................6 - 7
6.3 Power Save..................................................................................................................... 6 - 8
6.3.1 Power save mode............................................................................................................6 - 8
6.3.2 Power commands ................................................................ ...........................................6 - 10
6.4 Defect Management........................................................................................................ 6 - 10
6.4.1 Spare area ....................................................................................................................... 6 - 11
6.4.2 Alternating defective sectors ................................................................ .......................... 6 - 11
6.5 Read-Ahead Cache.........................................................................................................6 - 13
6.5.1 Data buffer configuration ...............................................................................................6 - 13
6.5.2 Caching operation........................................................................................................... 6 - 14
6.5.3 Usage of read segment.................................................................................................... 6 - 15
6.6 Write Cache.................................................................................................................... 6 - 20
C141-E077-01ENx

FIGURES

page
1.1 Current fluctuation (Typ.) when power is turned on....................................................... 1 - 7
2.1 Disk drive outerview ...................................................................................................... 2 - 1
2.2 1 drive system configuration .......................................................................................... 2 - 3
2.3 2 drives configuration................................................................ .....................................2 - 3
3.1 Dimensions................................................................ .....................................................3 - 2
3.2 Direction.........................................................................................................................3 - 3
3.3 Limitation of side-mounting...........................................................................................3 - 4
3.4 Mounting frame structure................................................................ ............................... 3 - 4
3.5 Surface temperature measurement points ....................................................................... 3 - 5
3.6 Service area ................................................................ ....................................................3 - 6
3.7 Connector locations........................................................................................................ 3 - 7
3.8 Cable connections........................................................................................................... 3 - 8
3.9 Power supply connector pins (CN1)...............................................................................3 - 9
3.10 Cable configuration........................................................................................................3 - 10
3.11 Cable type detection using CBLID- signal
(Host sensing the condition of the CBLID- signal) ........................................................ 3 - 11
3.12 Cable type detection using IDENTIFY DEVICE data
(Device sensing the condition of the CBLID- signal)..................................................... 3 - 11
3.13 Jumper location .............................................................................................................. 3 - 12
3.14 Factory default setting....................................................................................................3 - 13
3.15 Jumper setting of master or slave device........................................................................3 - 13
3.16 Jumper setting of Cable Select ................................................................ ....................... 3 - 14
3.17 Example (1) of Cable Select...........................................................................................3 - 14
3.18 Example (2) of Cable Select...........................................................................................3 - 14
4.1 Head structure................................................................................................................. 4 - 3
4.2 MPE3xxxAT Block diagram.......................................................................................... 4 - 6
4.3 Power-on operation sequence......................................................................................... 4 - 8
4.4 Block diagram of servo control circuit ........................................................................... 4 - 14
4.5 Physical sector servo configuration on disk surface.......................................................4 - 16
4.6 Servo frame format......................................................................................................... 4 - 18
5.1 Execution example of READ MULTIPLE command .................................................... 5 - 19
5.2 Read Sector(s) command protocol.................................................................................. 5 - 68
5.3 Protocol for command abort........................................................................................... 5 - 69
C141-E077-01EN xi
5.4 WRITE SECTOR(S) command protocol........................................................................5 - 70
5.5 Protocol for the command execution without data transfer ............................................ 5 - 71
5.6 Normal DMA data transfer............................................................................................. 5 - 73
5.7 Ultra DMA termination with pull-up or pull-down ........................................................ 5 - 84
5.8 PIO data transfer timing.................................................................................................. 5 - 85
5.9 Multiword DMA data transfer timing (mode 2) ............................................................. 5 - 86
5.10 Initiating an Ultra DMA data in burst.............................................................................5 - 87
5.11 Sustained Ultra DMA data in burst................................................................................. 5 - 90
5.12 Host pausing an Ultra DMA data in burst ...................................................................... 5 - 91
5.13 Device terminating an Ultra DMA data in burst............................................................. 5 - 92
5.14 Host terminating an Ultra DMA data in burst................................................................. 5 - 93
5.15 Initiating an Ultra DMA data out burst...........................................................................5 - 94
5.16 Sustained Ultra DMA data out burst............................................................................... 5 - 95
5.17 Device pausing an Ultra DMA data out burst.................................................................5 - 96
5.18 Host terminating an Ultra DMA data out burst............................................................... 5 - 97
5.19 Device terminating an Ultra DMA data out burst........................................................... 5 - 98
5.20 Power-on Reset Timing.................................................................................................. 5 - 99
6.1 Response to power-on .................................................................................................... 6 - 2
6.2 Response to hardware reset ................................................................ ............................ 6 - 3
6.3 Response to software reset.............................................................................................. 6 - 4
6.4 Response to diagnostic command ................................................................ .................. 6 - 5
6.5 Address translation (example in CHS mode).................................................................. 6 - 7
6.6 Address translation (example in LBA mode) .................................................................6 - 8
6.7 Sector slip processing..................................................................................................... 6 - 11
6.8 Alternate cylinder assignment ........................................................................................ 6 - 12
6.9 Data buffer configuration ...............................................................................................6 - 13
C141-E077-01ENxii

TABLES

page
1.1 Specifications ................................................................................................................. 1 - 4
1.2 Model names and product numbers................................................................................1 - 5
1.3 Current and power dissipation........................................................................................ 1 - 6
1.4 Environmental specifications.......................................................................................... 1 - 8
1.5 Acoustic noise specification...........................................................................................1 - 8
1.6 Shock and vibration specification................................................................................... 1 - 9
3.1 Surface temperature measurement points and standard values....................................... 3 - 5
3.2 Cable connector specifications ....................................................................................... 3 - 8
4.1 Self-calibration execution timechart...............................................................................4 - 10
4.2 Transfer rate of each zone...............................................................................................4 - 13
5.1 Interface signals..............................................................................................................5 - 2
5.2 Signal assignment on the interface connector.................................................................5 - 3
5.3 I/O registers....................................................................................................................5 - 7
5.4 Command code and parameters......................................................................................5 - 14
5.5 Information to be read by IDENTIFY DEVICE command ............................................ 5 - 30
5.6 Features register values and settable modes ...................................................................5 - 35
5.7 Diagnostic code................................................................ ..............................................5 - 39
5.8 Features Register values (subcommands) and functions ................................................ 5 - 49
5.9 Format of device attribute value data.............................................................................. 5 - 51
5.10 Format of insurance failure threshold value data............................................................ 5 - 52
5.11 Contents of security password........................................................................................ 5 - 56
5.12 Contents of SECURITY SET PASSWORD data ........................................................... 5 - 61
5.13 Relationship between combination of Identifier and Security level,
and operation of the lock function.................................................................................. 5 - 61
5.14 Command code and parameters......................................................................................5 - 66
5.15 Recommended series termination for Ultra DMA.......................................................... 5 - 84
5.16 Ultra DMA data burst timing requirements....................................................................5 - 88
6.1 Default parameters..........................................................................................................6 - 6
C141-E077-01EN xiii
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CHAPTER 1 DEVICE OVERVIEW

1.1 Features

1.2 Device Specifications
1.3 Power Requirements
1.4 Environmental Specifications
1.5 Acoustic Noise
1.6 Shock and Vibration
1.7 Reliability
1.8 Error Rate
1.9 Media Defects
Overview and features are described in this chapter, and specifications and power requirement are described.
The MPE3xxxAT series are a 3.5-inch hard disk drive with a built-in ATA controller. The disk drive is compact and reliable.
1.1 Features

1.1.1 Functions and performance

(1) Compact
The disk has 1, 2, 3 or 4 disks of 95 mm (3.5 inches) diameter, and its height is 26.1 mm (1 inch).
(2) Large capacity
The disk drive can record up to 6.48 GB (formatted) on one disk using the 16/17 EPR4ML recording method and 15 recording zone technology. The MPE3xxxAT series have a formatted capacity of 6.48 GB to 25.68 GB respectively.
(3) High-speed Transfer rate
The disk drive has an internal data rate up to 30.4 MB/s. The disk drive supports an external data rate up to 16.7 MB/s or 66.6 MB/s (ultra DMA mode 4).
C141-E077-01EN 1 - 1
(4) Average positioning time
Use of a rotary voice coil motor in the head positioning mechanism greatly increases the positioning speed. The average positioning time is 9.5 ms (at read).

1.1.2 Adaptability

(1) Power save mode
The power save mode feature for idle operation, stand by and sleep modes makes the disk drive ideal for applications where power consumption is a factor.
(2) Wide temperature range
The disk drive can be used over a wide temperature range (5°C to 55°C).
(3) Low noise and vibration
In Ready status, the noise of the disk drive is only about 3.6 bels (MPE3273AT, Typical Sound Power per ISO7779 and ISO9296).

1.1.3 Interface

(1) Connection to interface
With the built-in ATA interface controller, the disk drive can be connected to an ATA interface of a personal computer.
(2) 512-KB data buffer
The disk drive uses a 512-KB or 2-MB data buffer to transfer data between the host and the disk media.
In combination with the read-ahead cache system described in item (3) and the write cache described in item (6), the buffer contributes to efficient I/O processing.
(3) Read-ahead cache system
After the execution of a disk read command, the disk drive automatically reads the subsequent data block and writes it to the data buffer (read ahead operation). This cache system enables fast data access. The next disk read command would normally cause another disk access. But, if the read ahead data corresponds to the data requested by the next read command, the data in the buffer can be transferred instead.
C141-E077-01EN1 - 2
(4) Master/slave
The disk drive can be connected to ATA interface as daisy chain configuration. Drive 0 is a master device, drive 1 is a slave device.
(5) Error correction and retry by ECC
If a recoverable error occurs, the disk drive itself attempts error recovery. The 40 bytes ECC has improved buffer error correction for correctable data errors.
(6) Write cache
When the disk drive receives a write command, the disk drive posts the command completion at completion of transferring data to the data buffer completion of writing to the disk media. This feature reduces the access time at writing.
C141-E077-01EN 1 - 3

1.2 Device Specifications

1.2.1 Specifications summary

Table 1.1 shows the specifications of the disk drive.
Table 1.1 Specifications
MPE3064AT MPE3102AT MPE3136AT MPE3170AT MPE3204AT MPE3273AT Formatted Capacity (*1) 6.48 GB 10.24 GB 13.66 GB 17.08 GB 20.49 GB 27.32 GB Number of Disks 1 2 2 3 3 4 Number of Heads 2 3 4 5 6 8 Number of Cylinders
(User + Alternate & SA) Bytes per Sector 512 Recording Method 16/17 EPR4ML Track Density 17,250 TPI Bit Density 299,100 BPI Rotational Speed 5,400 rpm Average Latency 5.56 ms Positioning time
• Minimum
• Average
• Maximum
Start/Stop time
• Start (0 rpm to Drive Read)
• Stop (at Power Down)
Interface ATA–4
Data Transfer Rate
• To/From Media
• To/From Host Data buffer 512 KB or 2 MB Physical Dimensions
(Height × Width × Depth) Weight 620 g
*1: Capacity under the LBA mode.
Under the CHS mode (normal BIOS specification), formatted capacity, number of cylinders, number of heads, and number of sectors are as follows.
16.7 MB/s Max. (burst PIO mode 4, burst DMA mode 2), 66.6 MB/s Max. (burst ultra DMA mode 4)
(Read) 9.5 ms typical, (Write) 10.5 ms typical
(Read) 18 ms typical, (Write) 19 ms typical
Typical: 8 sec., Maximum: 16 sec. Typical: 20 sec., Maximum: 30 sec.
26.1 mm max. × 101.6 mm × 146.0 mm
16,348 + 137
1.5 ms typical
(Maximum Cable length: 0.46 m)
16.1 to 30.4 MB/s
(1.03” max. × 4.0” × 5.75”)
Model Formatted Capacity No. of Cylinder No. of Heads No. of Sectors MPE3064AT 6,488.29 MB 13,410 15 63 MPE3102AT 10,248.37 MB 16,383 16 63 MPE3136AT 13,664.55 MB 16,383 16 63 MPE3170AT 17,080.61 MB 16,383 16 63 MPE3204AT 20,496.74 MB 16,383 16 63 MPE3273AT 27,329.21 MB 16,383 16 63
C141-E077-01EN1 - 4

1.2.2 Model and product number

Table 1.2 lists the model names and product numbers.
Table 1.2 Model names and product numbers
Model Name Capacity
(user area) MPE3064AT 6.48 GB No. 6-32UNC MPE3102AT 10.24 GB No. 6-32UNC MPE3136AT 13.66 GB No. 6-32UNC MPE3170AT 17.08 GB No. 6-32UNC MPE3204AT 20.49 GB No. 6-32UNC MPE3273AT 27.32 GB No. 6-32UNC

1.3 Power Requirements

(1) Input Voltage
+ 5 V ±5 %
+ 12 V ±8 %
(2) Ripple
Mounting
Screw
Order No. Remarks
CA05367-B321 CA05367-B331 CA05367-B341 CA05367-B351 CA05367-B361 CA05367-B381
+12 V +5 V Maximum 200 mV (peak to peak) 100 mV (peak to peak) Frequency DC to 1 MHz DC to 1 MHz
(3) Current Requirements and Power Dissipation
Table 1.3 lists the current and power dissipation.
C141-E077-01EN 1 - 5
Table 1.3 Current and power dissipation
Mode of Operation
Model MPE3064ATMPE3102/
Spin up 1500
Idle (Ready) (*3) 140 170 200 240 340 3.4 3.7 4.1 4.6
R/W (On Track) (*4) 180 210 240 280 620 5.3 5.6 6.0 6.5
Seek (Random) (*5) Seek/W/R
Standby 7 7 7 7 185 1.0 1.0 1.0 1.0
Sleep 7 7 7 7 185 1.0 1.0 1.0 1.0
*1 Current is typical rms except for spin up.
*2 Power requirements reflect nominal values for +12V and +5V power.
*3 Idle mode is in effect when the drive is not reading, writing, seeking, or executing any commands. A portion of the R/W circuitry is powered
down, the spindle motor is up to speed and the Drive ready condition exists.
*4 R/W mode is defined as 50% read operations and 50% write operations on a single physical track.
*5 Seek/W/R mode is defined as 33% seek operations, 33% write operations and 33% read operations.
1800 peak
300 330 360 400 620 6.7 7.1 7.4 7.9
Typical RMS current (*1) [mA]
+12 V +5 V
MPE3136
AT
1500
1800 peak
MPE3170/
MPE3204
AT
1600
1800 peak
MPE3273ATAll Models MPE3064ATMPE3102/
1800 peak
1600
572
592 peak
Typical Power (*2) [watts]
MPE3136
21.1 21.1 22.3 22.3
MPE3170/
MPE3204
AT
MPE3273
AT
AT
C141-E077-01EN1 - 6
(4) Current fluctuation (Typ.) when power is turned on
[A]
0.5
0.0
[A]
1.5
1.0
0.5
+5VDC
1
(0.5A/div)
0.0
10
Note:
Maximum current is 1.9 A.
Figure 1.1 Current fluctuation (Typ.) when power is turned on
(5) Power on/off sequence
The voltage detector circuit monitors +5 V and +12 V. The circuit does not allow a write signal if either voltage is abnormal. This prevents data from being destroyed and eliminates the need to be concerned with the power on/off sequence.
32 54 [seconds]876
+12VDC
2
(0.5A/div)
C141-E077-01EN 1 - 7

1.4 Environmental Specifications

Table 1.4 lists the environmental specifications.
Table 1.4 Environmental specifications
Temperature
• Operating
• Non-operating
• Thermal Gradient
Humidity
• Operating
• Non-operating
• Maximum Wet Bulb
Altitude (relative to sea level)
• Operating
• Non-operating

1.5 Acoustic Noise

5°C to 55°C (ambient) 5°C to 60°C (disk enclosure surface) –40°C to 60°C 20°C/hour or less
8% to 80%RH (Non-condensing) 5% to 85%RH (Non-condensing) 29°C
–60 to 3,000 m (–200 to 10,000 ft) –60 to 12,000 m (–200 to 40,000 ft)
Table 1.5 lists the acoustic noise specification.
Sound Power per ISO 7779 and ISO9296 (Typical at 1m)
Sound Pressure (Typical at 1m)
Table 1.5 Acoustic noise specification
Model MPE3064AT
Idle mode (DRIVE READY)
Seek mode (Random) 4.0 bels 4.1 bels 4.2 bels 4.2 bels Idle mode
(DRIVE READY) Seek mode (Random) 35 dBA 36 dBA 37 dBA 37 dBA
3.4 bels 3.5 bels 3.6 bels 3.6 bels
29 dBA 30 dBA 31 dBA 31 dBA
MPE3102AT MPE3136AT
MPE3170AT MPE3204AT
MPE3273AT
C141-E077-01EN1 - 8

1.6 Shock and Vibration

Table 1.6 lists the shock and vibration specification.
Table 1.6 Shock and vibration specification
Vibration (swept sine, one octave per minute)
• Operating
• Non-operating
Shock (half-sine pulse, 11 ms duration)
• Operating
• Non-operating

1.7 Reliability

(1) Mean time between failures (MTBF)
The mean time between failures (MTBF) is 500,000 POH (power on hours) or more (operation: 24 hours/day, 7 days/week).
5 to 300 Hz, 0.5G-0-peak (without non-recovered errors) 5 to 400 Hz, 4G-0-peak (no damage)
10G (without non-recovered errors) 75G (no damage)
This does not include failures occurring during the first three months after installation.
MTBF is defined as follows:
MTBF= (H)
"Disk drive defects" refers to defects that involve repair, readjustment, or replacement. Disk drive defects do not include failures caused by external factors, such as damage caused by handling, inappropriate operating environments, defects in the power supply host system, or interface cable.
(2) Mean time to repair (MTTR)
The mean time to repair (MTTR) is 30 minutes or less, if repaired by a specialist maintenance staff member.
(3) CSS cycle
The number of CSS must be less than 40,000.
Total operation time in all fields
number of device failure in all fields
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(4) Service life
In situations where management and handling are correct, the disk drive requires no overhaul for five years when the DE surface temperature is less than 48°C. When the DE surface temperature exceeds 48°C, the disk drives requires no overhaul for five years or 20,000 hours of operation, whichever occurs first. Refer to item (3) in Subsection 3.2 for the measurement point of the DE surface temperature.
(5) Data assurance in the event of power failure
Except for the data block being written to, the data on the disk media is assured in the event of any power supply abnormalities. This does not include power supply abnormalities during disk media initialization (formatting) or processing of defects (alternative block assignment).

1.8 Error Rate

Known defects, for which alternative blocks can be assigned, are not included in the error rate count below. It is assumed that the data blocks to be accessed are evenly distributed on the disk media.
(1) Unrecoverable read error
Read errors that cannot be recovered by read retries without user's retry and ECC corrections shall occur no more than 10 times when reading data of 10 according to the disk drive's error recovery procedure, and include read retries accompanying head offset operations.
(2) Positioning error
Positioning (seek) errors that can be recovered by one retry shall occur no more than 10 times in 107 seek operations.

1.9 Media Defects

Defective sectors are replaced with alternates when the disk is formatted prior to shipment from the factory (low level format). Thus, the host sees a defect-free device.
Alternate sectors are automatically accessed by the disk drive. The user need not be concerned with access to alternate sectors.
Chapter 6 describes the low level format at shipping.
15
bits. Read retries are executed
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CHAPTER 2 DEVICE CONFIGURATION

2.1 Device Configuration

2.2 System Configuration
2.1 Device Configuration
Figure 2.1 shows the disk drive. The disk drive consists of a disk enclosure (DE), read/write preamplifier, and controller PCA. The disk enclosure contains the disk media, heads, spindle motors actuators, and a circulating air filter.
Figure 2.1 Disk drive outerview
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(1) Disk
The outer diameter of the disk is 95 mm. The inner diameter is 25 mm. The number of disks used varies with the model, as described below. The disks are rated at over 40,000 start/stop operations.
MPE3064AT: 1 disk MPE3102AT, MPE3136AT: 2 disks MPE3170AT, MPE3204AT: 3 disks MPE3273AT: 4 disks
(2) Head
The heads are of the contact start/stop (CSS) type. The head touches the disk surface while the disk is not rotating and automatically lifts when the disk starts.
(3) Spindle motor
The disks are rotated by a direct drive Hall-less DC motor.
(4) Actuator
The actuator uses a revolving voice coil motor (VCM) structure which consumes low power and generates very little heat. The head assembly at the tip of the actuator arm is controlled and positioned by feedback of the servo information read by the read/write head. If the power is not on or if the spindle motor is stopped, the head assembly stays in the specific CSS zone on the disk and is fixed by a mechanical lock.
(5) Air circuilation system
The disk enclosure (DE) is sealed to prevent dust and dirt from entering. The disk enclosure features a closed loop air circulation system that relies on the blower effect of the rotating disk. This system continuously circulates the air through the recirculation filter to maintain the cleanliness of the air in the disk enclosure.
(6) Read/write circuit
The read/write circuit uses a LSI chip for the read/write preamplifier. If inproves data reliability by preventing errors caused by external noise.
(7) Controller circuit
The controller circuit consists of an LSI chip to improve reliability. The high-speed microprocessor unit (MPU) achieves a high-performance AT contorller.
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2.2 System Configuration

2.2.1 ATA interface

Figures 2.2 and 2.3 show the ATA interface system configuration. The drive has a 40-pin PC AT interface connector and supports the PIO transfer till 16.7 MB/s (PIO mode 4), the DMA transfer till 16.7 MB/s (Multiword DMA mode 2), and the ultra DMA transfer till 66.6 MB/s (Ultra DMA mode 4).

2.2.2 1 drive connection

Host Disk drive
AT bus
(Host interface)

2.2.3 2 drives connection

Host Disk drive #0
AT bus
(Host interface)
HA
(Host adaptor)
ATA interface
Figure 2.2 1 drive system configuration
HA
(Host adaptor)
Disk drive #1
ATA interface
Note:
When the drive that is not conformed to ATA is connected to the disk drive is above configuration, the operation is not guaranteed.
Figure 2.3 2 drives configuration
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IMPORTANT
HA (host adaptor) consists of address decoder, driver, and receiver. ATA is an abbreviation of "AT attachment". The disk drive is conformed to the ATA-4 interface.
At high speed data transfer (PIO mode 3, mode 4, DMA mode 2 or ultra DMA mode 4), occurrence of ringing or crosstalk of the signal lines (AT bus) between the HA and the disk drive may be a great cause of the obstruction of system reliability. Thus, it is necessary that the capacitance of the signal lines including the HA and cable does not exceed the ATA-3 and ATA-4 standard, and the cable length between the HA and the disk drive should be as short as possible.
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CHAPTER 3 INSTALLATION CONDITIONS

3.1 Dimensions

3.2 Mounting
3.3 Cable Connections
3.4 Jumper Settings
3.1 Dimensions
Figure 3.1 illustrates the dimensions of the disk drive and positions of the mounting screw holes. All dimensions are in mm.
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