PRODUCT MANUAL
MPB3021AT MPB3032AT MPB3043AT MPB3052AT MPB3064AT DISK DRIVES
C141-E045-02EN
March
Revised contents
REVISION RECORD
Edition
Page
PREFACE
DEVICE CONFIGURATION
INSTALLATION CONDITIONS
Chapter
Conventions for Alert Messages
LIABILITY EXCEPTION
C141-E045-02EN
Page
CHAPTER
CONTENTS
CHAPTER
CHAPTER
Jumper configuration
Location of setting jumpers
Factory default setting
Circuit Configuration
Command code and parameters
Command block registers
Host Commands
Command descriptions
Device Response to the Reset
Device pausing an Ultra DMA data out burst
Power-on and reset
Response to power-on
FIGURES
Protocol for the command execution without data transfer
Protocol for command abort
WRITE SECTORS command protocol
Multiword DMA data transfer timing mode
TABLES
Page
1.6 Shock and Vibration 1.7 Reliability 1.8 Error Rate
1.1 Features 1.2 Device Specifications 1.3 Power Requirements
1.4 Environmental Specifications 1.5 Acoustic Noise
1.1 Features 1.1.1 Functions and performance
1.1.2 Adaptability
1.1.3 Interface
6 Write cache
5 Error correction and retry by ECC
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1.2 Device Specifications 1.2.1 Specifications summary
Table 1.1 Specifications
1.2.2 Model and product number
1.3 Power Requirements
Table 1.2 Model names and product numbers
Table 1.3 Current and power dissipation
Figure 1.1 Current fluctuation Typ. when power is turned on
Table 1.5 Acoustic noise specification
1.4 Environmental Specifications
Environmental specifications
1.5 Acoustic Noise
1.6 Shock and Vibration
Table 1.6 Shock and vibration specification
1.7 Reliability
1.8 Error Rate
1.9 Media Defects
2.1 Device Configuration
CHAPTER 2 DEVICE CONFIGURATION
2.1 Device Configuration 2.2 System Configuration
Figure 2.1 Disk drive outerview
MPB3052AT 3 disks MPB3064AT 3 disks 2 Head
1 Disk
MPB3021AT 1 disk MPB3032AT 2 disks MPB3043AT 2 disks
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MPB3043AT Model
Figure 2.2 Configuration of disk media heads
MPB3032ATT Model
2.2.2 1 drive connection
2.2 System Configuration 2.2.1 ATA interface
Figure 2.3 1 drive system configuration
AT bus
Host AT bus Host interface
Figure 2.4 2 drives configuration
2.2.3 2 drives connection
HA Host adaptor
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3.1 Dimensions 3.2 Mounting 3.3 Cable Connections 3.4 Jumper Settings
CHAPTER 3 INSTALLATION CONDITIONS
3.1 Dimensions
Figure 3.1 Dimensions
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3.2 Mounting
Figure 3.2 Orientation
Figure 3.3 Limitation of side-mounting
Figure 3.4 Mounting frame structure
Figure 3.5 Surface temperature measurement points
Table 3.1 Surface temperature measurement points and standard values
Figure 3.6 Service area
∙ Power supply connector CN1 ∙ ATA interface connector CN1
3.3 Cable Connections 3.3.1 Device connector
Figure 3.7 Connector locations
Power supply connector CN1 Mode Setting Pins
3.3.3 Device connection
3.3.2 Cable connector specifications
Table 3.2 Cable connector specifications
Figure 3.8 Cable connections
3.4.1 Location of setting jumpers
3.3.4 Power supply connector CN1
Figure 3.9 Power supply connector pins CN1 3.4 Jumper Settings
Figure 3.10 Jumper location
Figure 3.11 Factory default setting 3.4.3 Jumper configuration
3.4.2 Factory default setting
Figure 3.12 Jumper setting of master or slave device
Figure 3.14 Example 1 of Cable Select
Figure 3.13 Jumper setting of Cable Select
Figure 3.15 Example 2 of Cable Select
b Special mode
3 Special setting 1 SP1
a Default mode
Master Device
CHAPTER 4 THEORY OF DEVICE OPERATION
4.1 Outline 4.2 Subassemblies 4.3 Circuit Configuration
4.4 Power-on sequence 4.5 Self-calibration 4.6 Read/Write Circuit
4.7 Servo Control
MPB3064AT Model
4.2.2 Head
MPB 3052AT M odel
Figure 4.1 Head structure
4.2.4 Actuator
4.2.3 Spindle
4.2.5 Air filter
4.3 Circuit Configuration
Figure 4.2 MPB30xxAT Block diagram
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4.4 Power-on Sequence
Figure 4.3 Power-on operation sequence
4.5.1 Self-calibration contents
4.5 Self-calibration
Table 4.1 Self-calibration execution timechart
4.5.3 Command processing during self-calibration
4.6.2 Write circuit
4.6 Read/write Circuit
4.6.1 Read/write preamplifier PreAMP
Table 4.2 Write precompensation algorithm
Figure 4.4 Read/write circuit block diagram
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Figure 4.5 Frequency characteristic of programmable filter
4.6.3 Read circuit
Figure 4.6 PR4 signal transfer
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4.6.4 Time base generator circuit
Table 4.3 Write clock frequency and transfer rate of each zone
4.7 Servo Control
Figure 4.7 Block diagram of servo control circuit
4.7.1 Servo control circuit
Drives the VCM to position the head to the specified cylinder
Figure 4.8 Physical sector servo configuration on disk surface
c. Seek to specified cylinder
d. Calibration
3 A/D converter ADC
5 Power amplifier
2 Servo burst capture circuit
4 D/A converter DAC
4.7.3 Servo frame format
4.7.2 Data-surface servo format
Figure 4.9 Servo frame format
4.7.4 Actuator motor control
4.7.5 Spindle motor control
3 Stable rotation mode
2 Acceleration mode
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5.4 Command Protocol 5.5 Ultra DMA feature Set 5.6 Timing
5.1 Physical Interface 5.2 Logical Interface 5.3 Host Commands
CHAPTER 5 INTERFACE
5.1 Physical Interface 5.1.1 Interface signals
Figure 5.1 Interface signals
5.1.2 Signal assignment on the connector
Table 5.1 Signal assignment on the interface connector
signal
register access Read or Write when the device is not ready to
signal
This signal is negated to extend the host transfer cycle of any host
DDMARDY- is a flow control signal for Ultra DMA data out
5.2 Logical Interface
5.2.1 I/O registers
Table 5.2 I/O registers
5.2.2 Command block registers
3 Features register X1F1
Diagnostic code X01 No Error Detected X03 Data Buffer Compare Error
X05 ROM Sum Check Error X80 Device 1 slave device Failed
4 Sector Count register X1F2
Bit 3 HS3 CHS mode head address 3 23. LBA bit
The contents of this register indicate the device and the head number
Bit 7 Unused Bit 6 L. 0 for CHS mode and 1 for LBA mode Bit 5 Unused
Bit 2 HS2 CHS mode head address 3 22. LBA bit
DRDY
9 Status register X1F7
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Always
10 Command register X1F7
Always
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5.3 Host Commands
5.2.3 Control block registers
5.3.1 Command code and parameters
Table 5.3 Command code and parameters 1 of
Table 5.3 Command code and parameters 2 of
5.3.2 Command descriptions
1F7 HCM
At command issuance I/O registers setting contents
1 READ SECTORS X20 or
1F6 HDH
1F7 HST
At command completion I/O registers contents to be read
Error information
Status information
Figure 5.2 Execution example of READ MULTIPLE command
1 Single word DMA transfer mode
∙ The data transfer starts at the timing of DMARQ signal assertion
In LBA mode
2 Multiword DMA transfer mode
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Error information
1F7 HST
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Error information
1F7 HST
1F7 HST
At command completion I/O registers contents to be read
Error information
Status information
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
∙ The data transfer starts at the timing of DMARQ signal assertion
3 Ultra DMA transfer mode
1 Single word DMA transfer mode
2 Multiword DMA transfer mode
At command issuance I/O registers setting contents
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
This command can be issued in the LBA mode
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Error information
At command completion I/O registers contents to be read
At command completion I/O registers contents to be read
In LBA mode
At command issuance I/O registers setting contents
Error Information
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
1F7HCM
Table 5.4 Information to be read by IDENTIFY DEVICE command 1 of
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Table 5.4 Information to be read by IDENTIFY DEVICE command 2 of
Table 5.4 Information to be read by IDENTIFY DEVICE command 3 of
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
14 SET FEATURES XEF
Table 5.5 Features register values and settable modes
X‘08’ Mode
PIO default transfer mode
PIO flow control transfer mode
X‘09’ Mode
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Word 59 = 0000 The READ MULTIPLE and WRITE MULTIPLE commands are
Table 5.6 Diagnostic code
Diagnostic code
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
1 This register indicates X‘00’ in the LBA mode 17 FORMAT TRACK
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
This command is operated under the following conditions
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
At command issuance I/O registers setting contents
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Error information
At command completion I/O registers contents to be read
At command issuance I/O registers setting contents
Point of timer
Disable of timer
Period of timer
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
Error information
At command completion I/O registers contents to be read
At command completion I/O registers contents to be read
At command issuance I/O registers setting contents
Period of timer
Error information
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
This command is the only way to make the device enter the sleep mode
27 CHECK POWER MODE X98 or XE5
At command completion I/O registers contents to be read
Error information
The host checks the power mode of the device with this command
Error information
At command issuance I/O registers setting contents
At command completion I/O registers contents to be read
1F7 HCM
Table 5.7 Features Register values subcommands and functions
At command completion I-O registers setting contents
At command issuance I-O registers setting contents
Subcommand
Error information
Table 5.8 Format of device attribute value data
Table 5.9 Format of insurance failure threshold value data
Power-on time
Read error rate
Seek error rate
Number of power-on-power-off times
Bits 2 to 15 Reserved bits ∙ Check sum
∙ Raw attribute value Raw attributes data is retained
∙ Failure prediction capability flag
∙ Insurance failure threshold
At command completion I/O registers contents to be read
NOTE - This command may take longer than 30 s to complete
At command issuance I/O registers setting contents
Error information
ICRC
5.3.3 Error posting
Table 5.10 Command code and parameters
ABRT
5.4 Command Protocol
5.4.1 Data transferring commands from device to host
Figure 5.3 Read Sectors command protocol
Figure 5.4 Protocol for command abort
5.4.2 Data transferring commands from host to device
Figure 5.5 WRITE SECTORS command protocol
5.4.3 Commands without data transfer
Figure 5.6 Protocol for the command execution without data transfer
5.4.4 Other commands
5.4.5 DMA data transfer commands
Figure 5.7 Normal DMA data transfer
5.5 Ultra DMA feature set 5.5.1 Overview
5.5.3 Ultra DMA data in commands
5.5.2 Phases of operation
5.5.3.1 Initiating an Ultra DMA data in burst
5.5.3.3 Pausing an Ultra DMA data in burst
5.5.3.2 The data in transfer
5.5.3.4 Terminating an Ultra DMA data in burst
b Host terminating an Ultra DMA data in burst
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5.5.4 Ultra DMA data out commands
5.5.4.1 Initiating an Ultra DMA data out burst
5.5.4.3 Pausing an Ultra DMA data out burst
5.5.4.2 The data out transfer
5.5.4.4 Terminating an Ultra DMA data out burst
b Device terminating an Ultra DMA data out burst
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5.5.5 Ultra DMA CRC rules
Table 5.11 Recommended series termination for Ultra DMA
5.5.6 Series termination required for Ultra DMA
Figure 5.8 Ultra DMA termination with pull-up or pull-down
5.6 Timing 5.6.1 PIO data transfer
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Figure 5.9 PIO data transfer timing
5.6.2 Single word DMA data transfer
Figure 5.10 Single word DMA data transfer timing
Figure 5.11 Multiword DMA data transfer timing mode
5.6.3 Multiword data transfer
5.6.4.1 Initiating an Ultra DMA data in burst
5.6.4 Ultra DMA data transfer
Figure 5.12 Initiating an Ultra DMA data in burst
Table 5.12 Ultra DMA data burst timing requirements 1 of
5.6.4.2 Ultra DMA data burst timing requirements
negatedMinimum delay time required for output
tZIORDY
Table 5.12 Ultra DMA data burst timing requirements 2 of
tIORDYZ
tACK
5.6.4.3 Sustained Ultra DMA data in burst
Figure 5.13 Sustained Ultra DMA data in burst
5.6.4.4 Host pausing an Ultra DMA data in burst
Figure 5.14 Host pausing an Ultra DMA data in burst
5.6.4.5 Device terminating an Ultra DMA data in burst
Figure 5.15 Device terminating an Ultra DMA data in burst
5.6.4.6 Host terminating an Ultra DMA data in burst
Figure 5.16 Host terminating an Ultra DMA data in burst
5.6.4.7 Initiating an Ultra DMA data out burst
Figure 5.17 Initiating an Ultra DMA data out burst
5.6.4.8 Sustained Ultra DMA data out burst
Figure 5.18 Sustained Ultra DMA data out burst
5.6.4.9 Device pausing an Ultra DMA data out burst
Figure 5.19 Device pausing an Ultra DMA data out burst
5.6.4.10 Host terminating an Ultra DMA data out burst
Figure 5.20 Host terminating an Ultra DMA data out burst
5.6.4.11 Device terminating an Ultra DMA data in burst
Figure 5.21 Device terminating an Ultra DMA data out burst
5.6.5 Power-on and reset
Figure 5.22 Power-on Reset Timing
6.6 Write Cache 6.1 Device Response to the Reset
6.1 Device Response to the Reset 6.2 Address Translation
6.3 Power Save 6.4 Defect Management 6.5 Read-Ahead Cache
CHAPTER 6 OPERATIONS
6.1.1 Response to power-on
Figure 6.1 Response to power-on
6.1.2 Response to hardware reset
Figure 6.2 Response to hardware reset
6.1.3 Response to software reset
Figure 6.3 Response to software reset
6.1.4 Response to diagnostic command
Figure 6.4 Response to diagnostic command
Default parameters
6.2.1 Default parameters
6.2 Address Translation
Figure 6.5 Address translation example in CHS mode
6.2.2 Logical address
Figure 6.6 Address translation example in LBA mode 6.3 Power Save
6.3.1 Power save mode
∙ Power-on sequence is completed
1 Active mode
A device enters the active mode under the following conditions
∙ A command other than power commands is issued
6.3.2 Power commands
6.4 Defect Management
Figure 6.7 Sector slip processing
6.4.1 Spare area
6.4.2 Alternating defective sectors
Defective
Sector physical
Figure 6.8 Alternate cylinder assignment
unused
Figure 6.9 Data buffer configuration
6.5.1 Data buffer configuration
6.5 Read-Ahead Cache
6.5.2 Caching operation
6.5.3 Usage of read segment
HAP Segment only for read DAP
4 Following shows the cache enabled data for next read command
Cache enabled data
Stores the read-requested data upto this point
Mis-hit data
a. Sequential command just after non-sequential command
3 Sequential read
Empty data
Read-ahead data
HAP Read-ahead data DAP Last LBA Start LBA b. Sequential hit
HAP Completion of transferring requested data
Hit data
4 Finally, the cache data in the buffer is as follows Read-ahead data
c. Non-sequential read command just after sequential read command
HAP Read-ahead data DAP
Start LBA
3 The cache data for next read command is as follows Cache data
Last position at previous read command
DAP Last position at previous read command
HAP set to hit position for data transfer
stopped
6.6 Write Cache
When the write cache function is enabled, the transferred data from the host by the WRITE SECTORS is not completely written on the disk medium at the time that the interrupt of command complete is generated. When the unrecoverable error occurs during the write operation, the command execution is stopped. Then, when the drive receives the next command, it generates an interrupt of abnormal end. However an interrupt of abnormal end is not generated when a write automatic assignment succeeds. However, since the host may issue several write commands before the drive generates an interrupt of abnormal end, the host cannot recognize that the occurred error is for which command generally. Therefore, it is very hard to retry the unrecoverable write error for the host in the write cache operation generally. So, take care to use the write cache function
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