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HAWK 1LP Family:
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ST31200W/WD/WC
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ST3620W
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Product Manual, Volume 1
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HAWK 1LP Family:
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ST31200W/WD/WC
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ST3620W
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Product Manual, Volume 1
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© 1995 Seagate Technology, Inc. All rights reserved
Publication Number: 77767461, Revision C
March 1995
Seagate®, Seagate Technology® and the Seagate logo are registered trademarks of Seagate Technology,
Inc. HAWK™, SeaFAXTM, SeaFoneTM, SeaTDDTM and SeaBOARDTM are trademarks of Seagate Technology,
Inc. Other product names are registered trademarks or trademarks of their owners.
Seagate reserves the right to change, without notice, product offerings or specifications. No part of this
publication may be reproduced in any form without written permission of Seagate Technology, Inc.
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Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. C v
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Revision status summary sheet
Revision Authority Date Writer/Eng. Sheets Affected
A Issue 10/4/94 Dean Ashby v thru viii, 1 through 71
Thomas Kiene
B PLD:85480 01/13/95 Thomas Kiene v, 20, 22, 69 and 71
C PLD:85489 03/17/95 Jim Rust, Jim Bentley v, 22, 23, 70 and 71.
Notice.
Product Manual 77767461 is Volume 1 of a two Volume document with the SCSI interface information
in the Volume 2 SCSI Interface Product Manual, P/N 77738479.
If the SCSI Interface information is needed the Volume 2 Interface Manual should be ordered, P/N
77738479.
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vi Product Manual - HAWK 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
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Table of contents
1.0 Scope......................................................................................................................................... 1
2.0 Applicable standards and reference documentation............................................................. 2
2.1 Standards ...................................................................................................................... 2
2.2 Applicable reference documents.................................................................................... 2
3.0 General description .................................................................................................................. 3
4.0 Standards features ................................................................................................................... 5
4.1. Performance .................................................................................................................. 5
4.1.1 Reliability .......................................................................................................... 5
4.2 Unformatted and formatted capacities ........................................................................... 6
4.3 Options (factory installed) .............................................................................................. 6
4.4 Optional accessories (user installed) ............................................................................. 6
4.5 Installation...................................................................................................................... 7
5.0 Performance characteristics.................................................................................................... 8
5.1 Internal drive characteristics (transparent to user) ......................................................... 8
5.2 SCSI drive Seek, Read and Write performance characteristics (Visible to User)........... 8
5.2.1 Access time ...................................................................................................... 8
5.2.2 Format drive command execution time ............................................................. 9
5.2.3 Read data command execution time................................................................. 9
5.2.4 Write data command execution time ................................................................. 9
5.3 Generalized performance characteristics.......................................................................10
5.4 Start/stop time................................................................................................................11
5.5 Prefetch/multi segmented cache control ........................................................................12
5.5.1 Cache operation................................................................................................12
5.5.2 Prefetch operation.............................................................................................13
5.6 Caching write data .........................................................................................................13
5.7 Synchronized spindle operation .....................................................................................14
6.0 Reliability specifications.......................................................................................................... 17
6.1 Error rates......................................................................................................................17
6.1.1 Read errors....................................................................................................... 17
6.1.2 Environmental interference ...............................................................................17
6.1.3 Write errors .......................................................................................................18
6.1.4 Seek errors .......................................................................................................18
6.2 Reliability and service ....................................................................................................18
6.2.1 Mean time between failure ................................................................................18
6.2.2 Preventive maintenance....................................................................................18
6.2.3 Service life ........................................................................................................18
6.2.4 Service philosophy............................................................................................19
6.2.5 Installation.........................................................................................................19
6.2.6 Service tools .....................................................................................................19
6.2.7 Product Warranty ..............................................................................................19
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Table of contents
7.0 Physical/electrical specifications ............................................................................................20
7.1 AC power requirements .................................................................................................20
7.2 DC power requirements.................................................................................................20
7.2.1 Conducted noise immunity................................................................................21
7.2.2 Power sequencing ............................................................................................21
7.2.3 12 V - current profile .........................................................................................21
7.3 Heat/power dissipation...................................................................................................22
7.4 Environmental limits.......................................................................................................22
7.4.1 Temperature .....................................................................................................22
7.4.2 Relative humidity...............................................................................................24
7.4.3 Effective altitude (sea level ref) .........................................................................24
7.4.4 Shock and vibration ..........................................................................................24
7.4.5 Air cleanliness...................................................................................................26
7.5 Electromagnetic compatibility.........................................................................................26
7.5.1 Electromagnetic susceptibility ...........................................................................26
7.6 Mechanical specifications ..............................................................................................27
7.6.1 Drive orientation................................................................................................29
7.6.2 Cooling..............................................................................................................29
7.6.3 Drive Mounting..................................................................................................29
8.0 Media characteristics ...............................................................................................................30
8.1 Media description...........................................................................................................30
9.0 Defect and error management.................................................................................................31
9.1 Drive internal defects/errors...........................................................................................31
9.2 SCSI systems error considerations................................................................................31
10.0 Option/configuration headers..................................................................................................32
10.1 Drive ID/option select header.........................................................................................32
10.2 Synchronized spindles interface ....................................................................................37
10.2.1 Electrical description .........................................................................................37
10.3 Grounding......................................................................................................................37
11.0 Interface requirement ...............................................................................................................39
11.1 General description........................................................................................................39
11.2 SCSI interface messages supported..............................................................................39
11.3 SCSI interface commands supported ............................................................................41
11.3.1 Inquiry data .......................................................................................................43
11.3.2 Mode sense data ..............................................................................................44
11.4 SCSI bus conditions and miscellaneous features supported..........................................49
11.5 Synchronous data transfer.............................................................................................50
11.5.1 Synchronous data transfer periods supported...................................................50
11.5.2 REQ/ACK offset ................................................................................................50
11.6 Physical interface...........................................................................................................51
11.6.1 DC cable and connector....................................................................................52
11.6.2 Physical characteristics.....................................................................................52
11.6.3 Connector requirements....................................................................................54
11.6.4 Electrical description .........................................................................................61
11.7 Disc drive timing ............................................................................................................65
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Table of Contents
12.0 Options......................................................................................................................................67
12.1 Front panel.....................................................................................................................67
12.2 Single unit shipping pack ...............................................................................................67
13.0 Accessories ..............................................................................................................................68
13.1 Front panel kit ................................................................................................................68
13.2 Installation manual .........................................................................................................68
14.0 Technical support services......................................................................................................69
Seagate Peripheral Family ....................................................................................................................70
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1.0 Scope
This specification describes the Seagate Technology, Inc. The Hawk 1LP Family Disc Drive. This high
capacity, high performance member of the Seagate 3.5 inch rigid disc family has a new HDA (Head/Disc
Assembly) design having improvements over previous 3.5-inch Seagate models. It has an embedded SCSI
controller. Performance information is given in Section 5. The Hawk 1LP Family drive interface is defined for
functional compatibility to a subset of the Seagate SCSI Interface Specification 77738479, and the ANSI SCSI2/SCSI-3 standards. The Hawk 1LP drives are classified as “Intelligent” peripherals. The Hawk 1LP Family
drives provide Level 2 conformance (highest level) with the ANSI SCSI-1 standard. Details of the drive SCSI
implementation are provided in Section 11 of this specification, (Vol. 1) and in the SCSI Interface Product
Manual P/N 77738479 (Vol. 2; Ver. 2).
The HAWK 1LP family (wide bus) of drives consist of the ST31200W/WD/WC and ST3620W drives.
From this point on in this Product Manual the reference to Hawk 1LP Family (Wide bus) is referred to in many
places here in as “the drive” (unless reference to individual models are necessary).
The drive printed circuit board is referred to as a PCB.
SEAGATE
*
*68 pin I/O and DC power connector shown for "W/WD" models.
"WC" Models have a single 80 pin combined SCSI I/O and DC power connector.
Figure 1-1. HAWK 1LP family (wide bus) drive
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2.0 Applicable standards and reference documentation
The drive has been developed as a system peripheral to the highest standards of design and construction. The
drive depends upon its host equipment to provide adequate power and environment in order to achieve
optimum performance and compliance with applicable industry and governmental regulations. Special
attention must be given in the areas of safety, power distribution, shielding, audible noise control, mechanical
mounting and temperature regulation.
2.1 Standards
The Hawk 1LP Family (wide bus) complies with Seagate standards as noted in the appropriate sections of this
specification and the Seagate SCSI Interface Specification, P/N 77738479 (Vol. 2, Version 2).
The Hawk 1LP Family (wide bus) is a UL Recognized component per UL 1950 and a CSA Certified component
per CAN/CSA-C22.2 No. 950-M89. It also meets the requirements of DIN VDE 0805/1993 and EN60950:1992
(IEC 950).
The Hawk 1LP (wide bus), as delivered, is designed for system integration and installation into a suitable
enclosure prior to use. As such the Hawk 1LP (wide bus) is supplied as a sub-assembly and is not subject to
Subpart J of Part 15 of the FCC Rules and Regulations nor the Radio Interference Regulations of the Canadian
Department of Communications. However, the unit has been tested using proper shielding and grounding and
found to be compliant with Class A limits of the FCC Rules and the Regulations of The Canadian Department
of Communications.
The physical design characteristics of the Hawk 1LP (Wide bus) serve to minimize radiation when installed in
an enclosure that provides reasonable shielding. As such, the Hawk 1LP (Wide bus) is capable of meeting the
Class B limits of the FCC Rules and Regulations of the Canadian Department of Communication. However,
it is the users responsibility to assure that the Hawk 1LP (wide bus) Family meets the appropriate EMI
requirements in their system. Shielded I/O cables may be required if the enclosure does not provide adequate
shielding. If the I/O cables are external to the enclosure, shielded cables should be used, with the shields
grounded to the enclosure and to the host controller.
Caution. To avoid potential service problems, observe the following precautions:
The Manufacturers installed labels must not be removed from the drive or covered with additional
labels, as they contain information required when servicing the product.
2.2. Applicable reference documents
Installation Guide Seagate P/N 77767468
Product Manual - SCSI Interface Seagate P/N 77738479
ANSI Small Computer System Interface (SCSI): Document Number ANSI3.131-1986 (X3T9/84.40 Rev. 1B)
(X3T9.2/82-2 Rev. 17B), X3T9.2/86-109 Revision 10H (SCSI-2) and X3T9.2-184 Rev. 4 (SCSI-3).
Package Test Specification Seagate P/N 30190-001 (under 100 lb.)
Package Test Specification Seagate P/N 30191-001 (over 100 lb.)
In case of conflict between this document and any referenced document, this document shall take precedence.
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3.0 General description
The drives are a member of a family of low cost, high performance, highly reliable, random access storage
devices designed to meet the needs of the OEM marketplace.
The drive records and recovers data on 3.7 inch (95 mm) fixed discs.
The drive supports the Small Computer System Interface as described in the ANSI SCSI, SCSI-2 and SCSI-
3 Interface Specifications to the extent described in this product specification (Vol. 1), which defines the product
performance characteristics of the Hawk 1LP Family (wide bus) of drives, and the SCSI Interface Product
Manual P/N 77738479 (Vol. 2, Version 2) which describes the general interface characteristics of this and other
families of Seagate 3.5-inch drives.
The drive interface supports multiple initiators, disconnect/reconnect, self configuring host software and
automatic features that relieve the host from the necessity of knowing the physical characteristics of the targets
(logical block addressing is used).
The Head/Disc Assembly (HDA) is environmentally sealed at the factory. Air recirculates within the HDA
through a nonreplaceable filter to maintain a contamination free head/disc environment.
Refer to Figure 3.0-1 for an exploded view of the drive. NEVER disassemble the Head/Disc Assembly (HDA).
This exploded view is for information only. Do not attempt to service items in the sealed environmental
enclosure (heads, media, actuator, etc.) as this requires special facilities. The drive contains no parts
replaceable by the user. The drive warranty is voided if the HDA is opened.
The Hawk 1LP Family (wide bus) drives use a dedicated landing zone at the innermost radius of the media to
eliminate the possibility of destroying or degrading data by landing in the data zone. The drive automatically
goes to the landing zone when the power is removed.
The Hawk 1LP Family (wide bus) drives incorporate an automatic shipping lock which prevents potential
damage to the heads and discs that result from movement during shipping and handling. The shipping lock
disengages when power is applied to the drive and the head load process begins.
The Hawk 1LP Family (wide bus) drives decode Track 0 location from the dedicated servo surface to eliminate
mechanical transducer adjustments and related reliability concerns.
The Hawk 1LP Family (wide bus) drives use a high performance actuator assembly that consists of a low inertia,
balanced, patented, straight arm design that provides excellent performance with minimum power dissipation.
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W/WD PCB WC PCB
Figure 3.0-1. Hawk 1LP family (wide bus) drive
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4.0 Standard features
The Hawk 1LP family (Wide bus) has the following standard features:
• Integrated SCSI Controller
• Differential SCSI drivers and receivers
• 8 or 16 bit parallel data transfer
• Asynchronous and Synchronous data transfer protocol
• Firmware downloadable via SCSI interface
• Selectable sector size from 256 to 4096 bytes/sector
• Programmable sector reallocation scheme
• Flawed sector reallocation at format time
• Programmable auto write and read reallocation
• Reallocation of defects on command (Post Format)
• 96 bit Reed-Solomon error correcting code
• Sealed Head/Disc Assembly
• No preventative maintenance or adjustment required
• Dedicated head landing zone
• Automatic shipping lock
• Automatic Thermal Compensation
• Patented Tri-Phase Servo with embedded Grey Code track address to guarantee servo positioning.
• Self diagnostics performed at power on
• 1:1 Interleave
• Zoned Bit Recording (ZBR)
• Vertical, horizontal, or top down mounting
• Dynamic spindle brake
• 256 K byte data buffer
4.1 Performance
• Programmable multi-segmentable cache buffer
• 5411 RPM Spindle. Average latency = 5.54 ms
• Command Queuing of up to 64 commands per initiator
• Background processing of queue
• Supports start and stop commands
• Low audible noise for office environment
• Low power consumption
4.1.1 Reliability
• 500,000 hour MTBF
• Adaptive seek velocity. Improved seek performance
• LSI circuitry
• Balanced low mass rotary voice coil actuator
• 5 year warranty
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4.2 Unformatted and formatted capacities
Formatted capacity depends on the number of spare reallocation sectors reserved and the number of bytes
per sector. The following table shows some typical formatted capacities.
Spare Sectors or Cylinders ST31200W/WD/WC ST3620W
Reserved for reallocation 512[1] 1024[1] 512[1] 1024[1]
MB MB
No spares 1068.27 1145.7 553.1 584.3
Nine spare sectors per cylinder [2] 1055.28 1120.29 545.9 570.2
2 spare cylinders per unit [3]
One spare sector per cylinder 1066.33 1142.39 551.4 581.2
2 spare cylinder per unit [3]
Unformatted capacity 1258.8 651.8
[1] Bytes per sector. Sector size selectable at format time. Users having the necessary equipment may modify
the data block size before issuing a format command and obtain different formatted capacities than those
listed. User available capacity depends on spare reallocation scheme selected. See Mode Select
Command and Format Command in the SCSI Interface Product Manual P/N 77738479.
[2] All nine spare sectors are on one track.
[3] Spare cylinders are on the two inner tracks.
The standard OEM model is as follows:
Formatted Data Block Size* Unformatted
512 Byte/Sector
ST31200W/WD/WC 1055.28 MB 1258.8 MB
ST3620W 545.9 MB 651.8 MB
*Nine spare sectors per cylinder (all nine spares are on one track), two spare cylinders/unit.
4.3 Options (factory installed)
The capacities shown in paragraph 4.2 are available upon request. Other capacities can be ordered depending
on sparing scheme and sector size requested.
The following options are incorporated at the time of production. See Section 12.0.
• Front panel (green LED) - See Figure 3.0-1
• Single unit shipping pack
4.4 Optional accessories (user installed)
The following accessories are available. All kits may be installed in the field. See Section 13.0.
• Front Panel Kit (with green LED) - See Figure 3.0-1
• Single Unit shipping pack kit
• Installation Guide P/N 77767468
• Adapter Accessory Frame Kit P/N 75790701 (adapts 3.5-inch drive to fit in 5.25-inch drive mounting space)
(not suitable for "WC" models)
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4.5 Installation
For option jumper locations and definitions refer to Figure 10.1-1. Drive default mode parameters are not
normally needed for installation. Refer to Section 11.3.2 for default mode parameters if they are needed.
• Ensure that the SCSI ID of the drive is not the same as the host adapter. The host adapter probably uses
SCSI ID 7, which is the highest priority on both 8 and 16 bit data buses.
• If multiple devices are on the bus set the drive SCSI ID to one that is not presently used by other devices on
the bus.
• If the drive is the only device on the bus, attach it to the end of the SCSI bus cable. For Hawk 1LP (wide bus)
models, terminators must be installed external to the drive. These external terminators must be provided by
the user, systems integrator or host equipment manufacturer.
• If the drive is attached to a bus that contains other devices, and the new drive is not attached to the end of
the bus, terminators should not be installed at the new drive.
• Set all appropriate option jumpers for desired operation prior to power on. If jumpers are changed after power
has been applied, recycle the drive power to make the new settings effective.
• Installation instructions are provided by host system documentation or with any additionally purchased drive
installation software. If necessary see section 14.0 for Seagate support services telephone numbers.
Formatting
• It is not necessary to low level format this drive. The drive is shipped from the factory low level formatted in
512 byte sectors.
• Reformat the drive if one of the following occurs.
- A different sector size is selected.
- A different spare sector allocation scheme is selected.
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5.0 Performance characteristics
5.1 Internal drive characteristics (transparent to user)
ST31200W/WD/WC ST3620W
Drive Capacity 1258.8 651.8 MByte (UNF)
Read/Write Heads 9 5 Data (Max)
Bytes/Track 51,803 48283 Bytes (Avg)
Bytes/Surface 139.8 130.4 Mbytes (UNF)
Tracks/Surface, Total 2700 2700 Tracks (user
accessible)
Tracks/Inch 3000 3000 TPI
Servo Heads 1 1
Internal Data Rate 26.8 to 47.2 42.4-24.4 Mbits/sec
(variable with zone)
Disc Rotational Speed 5411 +0.5% r/min 5411 +0.5% r/min
Average Rotational Latency 5.54 5.54 ms
5.2 SCSI Seek, Read and Write performance characteristics (visible to user) [8]
Refer to Section 11.7 and to the SCSI-2 Interface Product Manual 77738479 for additional timing details.
5.2.1 Seek time
Drive Level
Read Write
ms
Average - Typical [3]* 9.3 10.5
Max. [2] 11.0 12.5
Single Track - Typical [3] 1.2 1.7
Max. [2] 3.0 3.5
Full Stroke - Typical [3] 19.4 20.4
Max. [2] 22.9 23.9
Including Controller Overhead
(without disconnect) [1] [4]
Read Write
ms
Average - Typical [3] 10.2 11.4
Max. [2] 11.9 13.4
Single Track - Typical [3] 2.1 2.5
Max. [2] 3.8 4.3
Full Stroke - Typical [3] 20.4 21.4
Max. [2] 23.9 24.9
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5.2.2 Format drive command execution time (minutes) [1]
Maximum (with verify) 25
Maximum (no verify) 17
*[ ] All notes are listed in Section 5.3.1.
5.2.3 Read data command execution time [4]
(512 byte sector size, without disconnect and with read look ahead cache disabled) latency
time is included.
a. From CDB reception to the drive request for the first data byte to be transferred to the Host
ms
1. Typical (Zero Stroke Seek) 7.32 [3]*
2. Typical (Average Seek) 17.14 [3]
3. Maximum (Full Stroke Seek) 31.78 [2]
b. Single Sector Read and Transfer of data to Host (time from receipt of last byte of the CDB to the request
for a status byte transfer to Host) [7].
ms
1. Typical (Zero Stroke Seek) 7.42 [3]
2. Typical (Average Seek) 17.24 [3]
3. Maximum (Full Stroke Seek) 31.84 [2]
5.2.4 Write data command execution time [4]
(512 byte sector size, without disconnect and with read look ahead disabled) latency time
is included.
a. From CDB reception to the request for the first byte of write data from the Host.
1. Typical 1.49 ms 2. Maximum 1.61 ms
b. Single Sector Write and Data Transfer from Host [7] [6]
(Time from receipt of the last byte of the CDB to the request for a completion status transfer to the Host)
ms
1. Typical (Zero Stroke Seek) 7.72 [3]
2. Typical (Average Seek) 17.29 [3]
3. Maximum (Full Stroke Seek) 32.28 [2]
*[ ] All notes are listed in Section 5.3.1
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5.3 Generalized performance characteristics
Minimum Sector Interleave 1 to 1
Data Buffer To/From Disc Media
Data transfer rate (< 1 sector) - 512 Byte Sector
Min. [4]* 3.35 MByte/sec
Avg. [4] 4.59 MByte/sec
Max. [4] 5.35 MByte/sec
Data Buffer To/From Disc Media
Data Transfer Rate (< 1 Track) - 512 Byte Sector
Min. [4] 2.88 MByte/sec divided by (Interleave Factor)
Avg. [4] 3.94 MByte/sec divided by (Interleave Factor)
Max. [4] 4.6 MByte/sec divided by (Interleave Factor)
SCSI Interface Data
Transfer Rate (Asynchronous) [5]
W/WC Models WD Models
-Maximum Instantaneous 5.2** MBytes/sec 3.3 MBytes/sec
-Maximum Average 3.1 MBytes/sec 2.4 MBytes/sec
Sector Sizes 512 user data blocks (default)
Variable (256 to 4096) in even sector sizes
Synchronous Transfer Rate
From 1.25 MByte/sec to 20.0 MBytes/sec (See section 11.5.)
Read/Write consecutive sectors on a track Yes
Flaw reallocation performance impact (For flaws reallocated using the spare Negligible
sectors per track reallocation scheme.)
Flaw reallocation performance impact (For flaws reallocated using the spare Negligible
sectors per cylinder reallocation scheme.)
Flaw reallocation performance impact (For flaws reallocated using the spare tracks 35 ms (typical)
per volume reallocation scheme.)
Overhead time for head switch (512 byte sectors) 1 ms
Overhead time for one track cylinder switch <3 ms Typical
Average rotational latency 5.54 ms
* [ ] All notes are listed in Section 5.3.1.
** Assumes system ability to support 5.2 Mb/s and no cable loss.
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5.3.1 Notes for sections 5.2 and 5.3.
[1] Execution time measured from receipt of the last Byte of the Command Descriptor Block (CDB) to the
request for a Status Byte Transfer to the Initiator (excluding connect/disconnect).
[2] Maximum times are specified over the worst case conditions of temperature, voltage margins and drive
orientation. When comparing specified seek times, care should be taken to distinguish between typical
seek times and maximum seek times. The best comparison is obtained by system benchmark tests
conducted under identical conditions.
[3] Typical Seek values are measured under nominal conditions of temperature, voltage, and horizontal
orientation as measured on a representative sample of drives.
[4] Assumes no errors and no sector has been relocated.
[5] Rate measured from the start of the first sector transfer to or from the Host.
[6] Assumes the Initiator immediately sends Write Data to the drive when requested.
[7] Command execution requires a data transfer phase (data to or from the disc media). Assumes the initiator
is instantly ready to send/receive the data when the drive generates first request for a data byte transfer,
and assumes an average data transfer rate between the drive and the Initiator as specified in section 5.3.
[8] All performance characteristics assume that automatic adaptive temperature compensation is not in
process when the SCSI command is received. A SCSI command being executed is not interrupted for
automatic adaptive temperature compensation. If adaptive thermal compensation is in process when a
SCSI command is received, the command is queued until the compensation for the specific head being
compensated completes. When compensation completes for the specific head being compensated, the
first queued SCSI command is executed. When execution of the first queued command is complete, the
drive continues the compensation for the remaining head(s). The above procedure continues until
compensation for all heads is completed or until one minute has elapsed. If the compensation for all heads
is not complete in one minute the drive performs compensation for all of the remaining heads sequentially
without any interruption. The drive initiates an automatic adaptive temperature compensation cycle
approximately one minute after power-on, and approximately once every 10 minutes thereafter. Automatic
adaptive temperature compensation takes less than 0.1% of bus time. Automatic temperature compen-
sation also occurs at other times, but should be transparent to the user (e.g., during format, Rezero
Command, at spindle up, during read error recovery, and during Reassign Block functions). A Rezero
command can be used to reset the thermal compensation timer back to its start so that the host can know
when the next interruption for thermal compensation will occur.
5.4 Start/stop time
After DC power has been applied, the drive becomes ready within 25 seconds (15 seconds typical) if the Motor
Start Option is disabled (i.e. the motor starts as soon as the power has been applied). During this time the drive
responds to some commands over the SCSI interface* in less than 3 seconds. Stop time is less than 20 seconds
from removal of DC power.
If the Motor Start Option is enabled the internal controller accepts the commands listed in the SCSI Interface
Product Manual* less than 3 seconds after DC power has been applied. After the Motor Start Command has
been received the drive becomes ready for normal operations within 13 seconds typically. The Motor Start
Command can also be used to command the drive to stop the spindle*.
There is no power control switch on the drive.
__________
*See SCSI Interface Product Manual P/N 77738479.
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12 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
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5.5 Prefetch/multi-segmented cache control
The drive provides prefetch (read look-ahead) and multi-segmented cache control algorithms that in many
cases can enhance system performance. “Cache” as used herein refers to the drive buffer storage space when
it is used in “cache” operations. To select prefetch and cache features the host sends the Mode Select
command with the proper values in the applicable bytes in Mode Page 08h*. Prefetch and cache operation are
independent features from the standpoint that each is enabled and disabled independently via the Mode Select
command. However, in actual operation the prefetch feature overlaps cache operation somewhat as is noted
in sections 5.5.1 and 5.5.2.
All default cache and prefetch Mode parameter values (Mode Page 08h) for standard OEM versions of this drive
family are given in Tables 11.3.2-1 through 11.3.2-4.
5.5.1 Cache operation
In general, 240 kBytes of the 256 kBytes of physical buffer space in the drive can be used as storage space
for cache operations. The buffer can be divided into logical segments (Mode Select Page 08h, byte 13) from
which data is read and to which data is written. The drive maintains a table of logical block disk medium
addresses of the data stored in each segment of the buffer. If cache operation is enabled (RCD bit = 0 in Mode
Page 08h, byte 2, bit 0. See SCSI Interface Product Manual*), data requested by the host with a Read command
is retrieved from the buffer (if it is there), before any disc access is initiated. If cache operation is not enabled,
the buffer (still segmented with required number of segments) is still used, but only as circular buffer segments
during disc medium read operations (disregarding Prefetch operation for the moment). That is, the drive does
not check in the buffer segments for the requested read data, but goes directly to the medium to retrieve it. The
retrieved data merely passes through some buffer segment on the way to the host. All data transfers to the host
are in accordance with “buffer-full” ratio rules. See explanations associated with Mode page 02h (disconnect/
reconnect control) in the SCSI Interface Product Manual*.
The following is a simplified description of a read operation with cache operation enabled:
Case A - A Read command is received and the first logical block (LB) is already in cache:
1. Drive transfers to the initiator the first LB requested plus all subsequent contiguous LB’s that are already
in the cache. This data may be in multiple segments.
2. When the requested LB is reached that is not in any cache segment, the drive fetches it and any remaining
requested LB’s from the disc and puts them in a segment of the cache. The drive transfers the remaining
requested LB’s from the cache to the host in accordance with the disconnect/reconnect specification
mentioned above.
3. If the prefetch feature is enabled, refer to section 5.5.2 for operation from this point.
Case B - A Read command requests data, the first LB of which is not in any segment of the cache:
1. The drive fetches the requested LB’s from the disc and transfers them into a segment, and from there to
the host in accordance with the disconnect/reconnect specification referred to in case A.
2. If the prefetch feature is enabled, refer to section 5.5.2 for operation from this point.
___________
*SCSI Interface Product Manual P/N 77738479
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Each buffer segment is actually a self-contained circular storage (wrap-around occurs), the length of which is
an integer number of disc medium sectors. The wrap-around capability of the individual segments greatly
enhances the buffer’s overall performance as a cache storage, allowing a wide range of user selectable
configurations, which includes their use in the prefetch operation (if enabled), even when cache operation is
disabled (see section 5.5.2). The
the
size
can not be directly selected.
specification. The size in Kbytes of each segment is reported by the Mode Sense command page 08h, bytes
14 and 15. If a size specification is sent by the host in a Mode Select command (bytes 14 and 15) no new
segment size is set up by the drive, and if the “STRICT” bit in Mode page 00h (byte 2, bit 1) is set to one, the
drive responds as it does for any attempt to change unchangeable parameters (see SCSI I/O Product Manual*).
The drive supports operation of any integer number of segments from 1 to 16. Divide the 245,760 bytes in the
buffer by the number of segments to get the size (in bytes) of each segment.
5.5.2 Prefetch operation
If the Prefetch feature is enabled, data in contiguous logical blocks on the disc immediately beyond that which
was requested by a Read command can be retrieved and stored in the buffer for immediate transfer from the
buffer to the host on subsequent Read commands that request those logical blocks (this is true even if “cache”
operation is disabled). Though the prefetch operation uses the buffer as a “cache”, finding the requested data
in the buffer is a prefetch “hit”, not a “cache” operation “hit”. Prefetch is enabled using Mode Select page 08h,
byte 12, bit 5 (Disable Read Ahead - DRA bit). DRA bit = 0 enables prefetch. Since data that is prefetched
replaces data already in some buffer segment(s), the host can limit the amount of prefetch data to optimize
system performance. The drive never prefetches more logical blocks than the number specified in the prefetch
logical blocks ceiling bytes (8 and 9) of Mode page 08h.
number
Size
of segments may be selected using the Mode Select command, but
is selected only as a by-product of selecting the segment
number
During a prefetch operation, the drive crosses a cylinder boundary to fetch more data only if the Discontinuity
(DISC) bit is set to one in bit 4 of byte 2 of Mode parameters page 08h.
The operation of the prefetch feature (when enabled by DRA = 0) can be modified to an adaptable prefetch
mode, wherein prefetch is disabled as long as two sequential read operations are not for contiguous blocks
of data. If two sequential Read operations request contiguous logical blocks of data, the drive automatically
enables the prefetch feature for the end of the second Read operation. As long as sequential Read operations
request contiguous LB’s of data, prefetch operation remains enabled.
If the host uses software interleave, there will not likely ever be two sequential Read operations for contiguous
LB’s, so the adaptive prefetch feature keeps prefetch disabled, even if the DRA bit enables it. Adaptive prefetch
is enabled when the IC (Initiator Control) bit (Mode page 08h, byte 2, bit 7) is set to 0 and when DRA = 0 (prefetch
enabled).
5.6 Caching write data
Write caching is a write operation by the drive that makes use of a drive buffer storage area where the data
to be written to the medium is stored in one or more segments while the drive performs the write command.
Write caching is enabled along with read caching. For write caching, the same buffer space and segmentation
is used as set up for read functions. The buffer segmentation scheme is set up or changed independently,
having nothing to do with whether or not read and write caching is enabled or disabled. When a write command
is issued, the cache is first checked to see if any logical blocks that are to be written are already stored in the
cache from a previous read or write command. If there are, the respective cache segments are cleared. The
new data is cached for subsequent Read commands.
__________
*SCSI Interface Product Manual, P/N 77738479
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_______________________________________________________________________________________
If the number of write data logical blocks exceeds the size of the segment being written into when the end of
the segment is reached, the data is written into the beginning of the same cache segment, overwriting the data
that was written there at the beginning of the operation. However, the drive does not overwrite data that has
not yet been written to the medium.
Tables 11.3.2-1 through 11.3.2-4 show Mode default settings for the Hawk 1LP (wide bus) model drives.
5.7 Synchronized spindle operation
The synchronized spindles operation allows several drives operating from the same host to operate their
spindles at the same synchronized rotational rate. Drives operating in a system in synchronized mode can
increase the system capacity and transfer rate in a cost effective manner.
For "W" and "WD" models, the interface consists of a twisted pair cable that connects the drives in the
synchronized system in a daisy-chain configuration as shown in Figure 5.7-1. For "WC" models, the reference
index signal (SYNC) signal is on pin J1-37 of the 80-pin I/O connector. See Table 11.6.3-1b. Master/Slave
operation is autoarbitrated by each drive after head load. Alternatively, each drive in the system can be
configured by the host (using the Mode Select command Rigid Disc Drive Geometry page*) to operate in either
the master or slave mode.
After loading heads, a drive autoarbitrates for occurences of the Reference Index Signal (REFIND+). If the drive
detects no REFIND+ signal on the line, it assumes master status and begins generating the REFIND+ signal.
This signal will not be visible on the line until the last drive has powered up, since any unpowered drive holds
the line low.
Using Mode Select command, drives can be re-configured by the host to be master or slave any time after the
last drive has powered up. The master provides the reference signal to which all other drives phase lock,
including the master. The master can be a drive or the host computer. All the drives may be configured as
slaves, allowing the host to provide the REFIND+ signal. All drives default to the synchronized mode when
powered up, unless J6 pins 5 and 6 are jumpered.
Each drive can be configured (jumpered) for the non-synchronized mode in which it ignores any reference
signal that might be present. The connection of the synchronized reference signal to the host is required only
if the host is to provide the reference signal. If the host does not provide the reference signal, the host should
not be connected.
__________
*SCSI Interface Product Manual P/N 77738479
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_____________________________________________________________________________________
Bottom side of PCB
DLYIND+
2
6
J7
32
J2
Sync Interface
Master Sync
4
Source
Host
(or other drive)
SCSI Bus
System
Interface
J1
J1
J1
Spindle
Control
37 [2]
+5V
47
Drive 1
Spindle
Control
37 [2]
+5V
47
Drive 2
Spindle
Control
37 [2]
+5V
47
Drive n
R
T
R
T
R
T
REFIND +
J6-6 or
J1-6A [1]
J6-10 or
J1-10A
J6-6 or
J1-6A [1]
J6-10 or
J1-10A
J6-6 or
J1-6A [1]
J6-10 or
J1-10A
J1
[1] Configuration select header. See Figure 10.1-1a, 10.1-1b and 10.2.1-1.
[2] This connection only available on "WC" Model
Figure 5.7-1. Synchronized drive interconnect diagram
The servo/read-write LSI on the master drive provides the reference signal (REFIND+). It is a 90.18 Hz crystal
generated signal. The signal is normally false/negated (nominal 0 V) and makes a transition to the true/asserted
(nominal +5 V) level to indicate the reference position during the revolution period. The trailing (falling) edge
of the reference signal is used by the master and the slave drives to phase lock their spindles. A maximum of
10 seconds is allowed for a slave to synchronize with the reference signal. The DLYIND+ signal (available on
J7-6. See Figure 5.7-1) of each synchronized drive shall occur 85.2 usec ± 20 usec after the REFIND+ signal.
Figure 5.7-2 shows the characteristics of the reference signal.
T
1
REFIND +
0
0.5 usec min.
500 usec max.
T = 0.0111 second (+/- 1.0% max); +/- 10 usec cycle to cycle variance;
Figure 5.7-2. Synchronized reference signal characteristics
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______________________________________________________________________________________
SCSI Interface Factors
The Rotational Position Locking (RPL) field in byte 17 (bits 0 and 1) of the Rigid Disc Drive Geometry mode
parameters page (page 04h) is used for enabling/disabling spindle synchronization mode*. If the target fails
to achieve synchronization, it shall create a unit attention to all initiators. The sense key shall be set to UNIT
ATTENTION and the additional sense code set to RPL STATUS CHANGE. However, in automatic arbitration
mode, UNIT ATTENTION and the RPL STATUS CHANGE is not set.
If subsequent to achieving synchronization the target detects a change of synchronization:
1) and, if the logical unit is not presently executing an I/O process for the initiator, the target shall create a unit
attention condition. The sense key shall be set to UNIT ATTENTION and the additional sense code set
to RPL STATUS CHANGE.
2) and, if the logical unit is presently executing an I/O process and no other error occurs, the target shall return
CHECK CONDITION status. The sense key shall be set to RECOVERED ERROR if the target is able to
complete the I/O process or HARDWARE ERROR if the target is unable to complete the I/O process. The
additional sense code is set to RPL STATUS CHANGE.
The drive may be operated with a rotational skew when synchronized. The rotational skew is applied in the
retarded direction (lagging the synchronized spindle master control). A rotational offset of up to 255/256 of a
revolution lagging may be selected. The amount of offset is selected by using the Mode Select command, Rigid
Disc Drive Geometry page (page 04), byte 18*. The value in byte 18 (0 - FFh) is the numerator of a fractional
multiplier that has 256 as the denominator. For example, 40h selects 40h/FFh or 1/4 of a revolution lagging
skew, 80h selects 1/2 revolution lagging skew and etc. Since the drive supports all offset values from 0 to 255,
values sent by the initiator are not rounded off. The drive translation of the digital offset values to physical
rotational offsets results in offset values whose phase error lies within the + or - 20 usec phase error with respect
to the supplied 90.18 Hz reference signal.
The drive does not have the capability to adjust the rotational offset value requested by the initiator to a physical
offset in the drive that corresponds in any way to sector boundaries or changes in ZBR zones. Such
correspondences or changes, if required, must be formulated by the initiator in order for it to calculate the value
of offset it sends to the drive.
__________
*SCSI Interface Product Manual P/N 77738479
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6.0 Reliability specifications
The following reliability specifications assume correct host/drive operational interface, including all interface
timings, power supply voltages, and environmental requirements.
Seek Errors Less than 1 in 107 seeks
Read Error Rates [1]
Unrecovered Data Less than 1 sector in 1014 bits transferred
Miscorrected Data Less than 1 sector in 1021 bits transferred
MTBF 500,000 hours
Service Life 5 years
Preventive Maintenance None required
Note. [1] Error rate specified with automatic retries and data correction with ECC enabled and all flaws
reallocated.
6.1 Error rates
The error rates stated in this specification assume the following:
• The drive is operated per this specification using DC Power as defined in this specification (see Section 7.2).
• The drive has been formatted with the SCSI FORMAT commands.
• Errors caused by media defects or host system failures are excluded from error rate computations. Refer
to Paragraph 8.0, Media Characteristics.
6.1.1 Read errors
Before determination or measurement of read error rates:
• The data that is to be used for measurement of read error rates must be verified as being written correctly
on the media.
• All media defect induced errors must be excluded from error rate calculations.
6.1.2 Environmental interference
When evaluating systems operation under conditions of Electromagnetic Interference (EMI), the performance
of the drive within the system shall be considered acceptable if the drive does not generate an unrecoverable
condition.
An unrecoverable error, or condition, is defined as one that:
1. Is not detected and corrected by the drive itself;
2. Is not capable of being detected from the error or fault status provided through the drive or SCSI interface;
or
3. Is not capable of being recovered by normal drive or system recovery procedures without operator
intervention.
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6.1.3 Write errors
Write errors can occur as a result of media defects, environmental interference, or equipment malfunction.
Therefore, write errors are not predictable as a function of the number of bits passed.
If an unrecoverable write error occurs because of an equipment malfunction in the drive, the error is classified
as a failure affecting MTBF. Unrecoverable write errors are those which cannot be corrected within two
attempts at writing the record with a read verify after each attempt (excluding media defects).
6.1.4 Seek errors
A seek error is defined as a failure of the drive to position the heads to the addressed track. There shall be no
more than one recoverable seek error in 107 physical seek operations. After detecting an initial seek error, the
drive automatically reseeks to the addressed track up to 3 times. If a reseek is successful, the Extended Sense
reports a seek positioning error (15h), no seek complete error (02h), or track follow error (09h), and the sense
key reports a recovered error (1h). If all three reseeks fail, a seek positioning error (15h) is reported with a
Medium (3h) or Hardware error (4h) reported in the Sense Key. This is an unrecoverable seek error.
Unrecoverable seek errors are classified as failures for MTBF calculations. Ref. section 5.1.1.2 of SCSI-2
Interface Product Manual P/N 77738479.
6.2 Reliability and service
6.2.1 Mean time between failure
The production disc drive shall achieve an MTBF of 500,000 hours when operated in a benign atmosphere at
an average disc drive ambient temperature of 95°F (35°C) or less as measured per this Product Manual,
paragraph 7.4.1. Short term excursions up to the specification limits of the operating environment will not affect
MTBF performance.
The following expression defines MTBF:
Estimated power-on operating hours in the period
MTBF per measurement period =
Number of drive failures in the period
Estimated power-on operation hours means power-up hours per disc drive times the total number of disc drives
in service. Each disc drive shall have accumulated at least nine months of operation. Data shall be calculated
on a rolling average base for a minimum period of six months.
Drive failure means any stoppage or substandard performance caused by drive malfunction.
6.2.2 Preventive maintenance
No routine scheduled preventive maintenance shall be required.
6.2.3 Service life
The drive shall have a useful service life of five years. Depot repair or replacement of major parts is permitted
during the lifetime (6.2.4).
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6.2.4 Service philosophy
Special equipment is required to repair the drive HDA. In order to achieve the above service life, repairs must
be performed only at a properly equipped and staffed service and repair facility. Troubleshooting and repair
of PCBs in the field is not recommended, because of the extensive diagnostic equipment required for effective
servicing. Also, there are no spare parts available for this drive. Drive warranty is voided if the HDA is opened.
6.2.5 Installation
The drive is designed, manufactured, and tested with a “Plug in and Play” installation philosophy. This
philosophy minimizes the requirements for highly trained personnel to integrate the drive into the OEM’s
system, whether in a factory or field environment.
The drive has been low level formatted at the factory and need not be reformatted.
6.2.6 Service tools
No special tools are required for site installation or recommended for site maintenance. Refer to Paragraph
6.2.4. The depot repair philosophy of the drive precludes the necessity for special tools. Field repair of the drive
is not practical since there are no user purchasable parts in the drive.
6.2.7 Product Warranty
Beginning on the date of shipment to customer and continuing for a period of five years, Seagate warrants that
each product (including components and sub-assemblies) or spare part that fails to function properly under
normal use due to defect in materials on workmanship or due to non conformance to the applicable
specifications will be repaired or replaced, at Seagate’s option and at no charge to 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 repaired or replacement item to customer. For more detailed
warranty information refer to the Standard terms and conditions of Purchase for Seagate products.
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7.0 Physical/electrical specifications
7.1 AC power requirements: None
7.2 DC Power requirements
The voltage and current requirements for a single drive are shown in the following table. Values indicated apply
at the drive power connector.
Table 7.2-1. DC power requirements
Single Ended Differential
Voltage +5 V +12 V +5 V +12 V
Regulation [5] ±5% ±5%[2] ±5% ±5%[2]
Average Idle Current [1] [3] 0.45 A 0.37 A 0.64 A 0.48 A
Maximum Starting Current (Peak) [6] 0.65 A 1.9 A 0.80 A 2.1 A
Delayed Motor Start (Max) [4] [6] 0.60 A 0.22 A 0.80 A 0.28 A
Operating Current [7]
Typ. [1] 0.73 A 0.57 A 1.23 A 0.57 A
Max. [1] 0.83 A 0.70 A 1.33 A 0.70 A
Max. (Peak) 1.0 A 1.9 A 1.4 A 2.1 A
[1] Measured with average reading DC ammeter. Instantaneous +12 V current peaks will exceed these
values.
[2] A droop of up to -10% is permissible during power up. The ±5% must be maintained after the drive signifies
that its power up sequence has been completed and that the drive is able to accept selection by the Host
Initiator.
[3] See +12 V current profile level T6 in Figure 7.2.2-1.
[4] This condition occurs when the Motor Start Option is enabled and the drive has not yet received a Start
Motor command.
[5] See paragraph 7.2.1 “Conducted Noise Immunity”.
[6] Peaks of 0.90 A (nominal) on +12 V will occur for no more than 100 ms total during the first 250 ms after
power is applied.
[7] Instantaneous peaks less than 5 msec. in duration are allowed.
General Notes from Table 7.2-1:
1. At powerup, the motor current regulator limits the 12 volt current to a peak value of less than 1.9 amperes,
although instantaneous peaks may occur as stated in note [7] above.
2. Operating condition is defined as Random Seek Reads of 64 blocks.
3. Minimum current loading for each supply voltage is not less than 30% of the maximum operating current
shown.
4. The +5 and +12 volt supplies shall employ separate ground returns.
5. Where power is provided to multiple drives from a common supply, careful consideration for individual drive
power requirements should be noted. Where multiple units are powered on simultaneously, the peak
starting current must be available to each device.
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7.2.1 Conducted noise immunity
Noise is specified as a periodic and random distribution of frequencies covering a band from DC to 10 mHz.
Maximum allowed noise values given below are peak to peak measurements and apply at the drive power
connector.
+ 5 V = 150 mV pp from 0 to 100 kHz and 45 mA pp from 100 kHz to 10 mHz.
+12 V = 150 mV pp from 0 to 100 kHz and 60 mA pp from 100 kHz to 10 mHz.
7.2.2 Power sequencing
The drive does not require power sequencing. The drive protects against inadvertent writing during power up
and down. Daisychain operation requires that power be maintained on the terminated drive to ensure proper
termination of the peripheral I/O cables.
7.2.3 12 V - current profile
Figure 7.2.2-1 identifies the drive +5 V and +12 V current profile. The current during the various times is as
shown:
T - Power is applied to the drive.
T1 - Controller self tests are performed.
T2 Spindle begins to accelerate under current limiting after performing internal diagnostics. See Note 1
of Table 7.2-1.
T3 - The spindle is up to speed and the Head-Arm restraint is unlocked.
T4 The heads move from the landing zone to the data area.
T5 - The adaptive calibration sequence is performed.
T6 - Calibration is complete and the drive is ready for reading and writing.
Note. All times and currents are typical. See Table 7.2-1 for maximum current requirements.
4
T
12V
Current
(amps)
CHANNEL 2 GND
5V
Current
(amps)
CHANNEL 1 GND
3
2
1
02468101214 18
4
3
2
1
0246810
T1
T2
Figure 7.2.2-1. Typical Hawk 1LP (wide bus) family drive +5 V and +12 V current profile
Seconds
T3
T4
12 14 16 18
T5
16
T6
20
20
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7.3 Heat/power dissipation
For drives having differential interface circuits, typical operating power dissipation is 13.0 watts (29.0 BTUs per
hour) of DC power average at nominal voltages. Typical power dissipation under idle conditions is 9.0 watts
(22.2 BTUs per hour).
7.4 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).
7.4.1 Temperature
a. Operating
The drive meets all specifications over a 4°F to 122°F (5°C to 50°C) drive ambient temperature range with
a maximum gradient of 36°F (20°C) per hour. The enclosure for the drive should be designed such that
the temperatures at the locations specified in Table 7.4.1-1, column 1 are not exceeded. Air flow may be
needed to achieve these temperature values. Operation at case temperatures above these values may
adversely affect the drive's ability to meet specifications.
The MTBF specification for the drive is based on operating at an ambient temperature of 95°F (35°C).
Occasional excursions to drive ambient temperatures of 50°C or 5°C may occur without impact to specified
MTBF. To achieve the specified MTBF, the values of Table 7.4.1-1 Column 2 must be considered
maximum average operating case temperatures. Continual or sustained operation at case temperatures
above the values shown in Column 2 may degrade MTBF.
Table 7.4.1-1. PCB and HDA temperatures
Items Column 1 Column 2
in Maximum Case Typical Case
Figure Temperatures (°C) Temperatures (°C)
7.4.1-1 Operating 50°C Ambient [3] at 35°C Ambient [1]
HDA 60 [2] 56
U2 80 72
U8 65 50
Q2 64 63
Q13 67 61
Notes.
[1] The temperatures in Column 2 were made in an enclosed box with no airflow at a pressure of one
atmosphere.
[2] No point on the HDA top cover should exceed the maximum temperature. Measure at point shown in Figure
7.4.1-1.
[3] Ambient temperature measured at the side of the drive 0.25" (6.4 mm) from the case. Air flow is
3.5 cfm, min.
b. Non-Operating
-40° to 158°F (-40° to 70°C) package ambient with a maximum gradient of 45°F (25°C) per hour. This
specification assumes that the drive is packaged in the shipping container designed by Seagate for use
with the drive.
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“W” Model PCB
U17
U16
U15
U2Ø
U5
“WC” Model PCB
J1
U10
U8
U11
U7
*
U3
U4
U14 U1
*
U2
U1
HDA
Q13
Q4
Q1
Q2
3
“WD” Model PCB
SEAGATE
*
U3
U4
U2
U1
Q13
Q4
Q1
Q2
U17
U2Ø
U5
U16
U15
U7
U8
U11
U10
J1
Figure 7.4.1-1. Locations of components listed in Table 7.4.1-1
U17
U2Ø
U24
U16
U15
U2
U7
U8
U3
U4
U1
Q13
Q4
Q1
Q2
U11
U19 U1ØU18U5
J1
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24 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
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7.4.2 Relative humidity
The values below assume that no condensation on the drive occurs.
a. Operating
8% to 80% relative humidity with a maximum gradient of 10% per hour.
b. Non-Operating
5% to 95% relative humidity.
7.4.3 Effective altitude (Sea level reference)
a. Operating
-1000 to +10,000 feet (-305 to +3048 metres)
b. Non-Operating
-1000 to +40,000 feet (-305 to +12,210 metres)
7.4.4 Shock and vibration
Shock and vibration limits specified in this document are measured directly on the drive chassis. If the drive
is installed in an enclosure to which the stated shock and/or vibration criteria is applied, resonance’s may occur
internally to the enclosure resulting in drive movement in excess of the stated limits. If this situation is apparent,
it may be necessary to modify the enclosure to minimize drive movement.
The limits of shock and vibration defined within this document are specified with the drive mounted by any of
the four methods shown in Figure 7.4.4-1.
7.4.4.1 Shock
a. Operating
The drive, as installed for normal operation, shall operate error free while subjected to intermittent shock
not exceeding 10 g’s at a maximum duration of 11 ms (half sinewave). Shock may be applied in the X, Y,
or Z axis.
b. Nonoperating
The limits of nonoperating shock shall apply to all conditions of handling and transportation. This includes
both isolated drives and integrated drives.
The drive subjected to nonrepetitive shock not exceeding 75 g’s at a maximum duration of 11 ms (half
sinewave) shall not exhibit device damage or performance degradation. Shock may be applied in the X,
Y, or Z axis.
c. Packaged
The drive as packaged in a single or multiple drive pack of gross weight 20 pounds (8.95 kg) or less by
Seagate for general freight shipment shall withstand drop test from heights listed below against a concrete
floor or equivalent. For additional details refer to specifications 30190-001 (under 100 lbs) or 30191-001
(over 100 lbs).
Package Size Drop Height
600 - 1800 in3 (9,832 - 29,502 cm3) 48 in (121 cm)
>1800 in3 (>29,502 cm3) 42 in (106 cm)
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SEAGATE
1
B
1
B
1
A
A
B
1
A
B
E
A
D
C
1
C
SEAGATE
C
1
D
1
1
E
1
D
X
Z
E
Y
1
Z
Y
X
E
D
C
Figure 7.4.4-1. Recommended mounting
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26 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
_____________________________________________________________________________________
7.4.4.2 Vibration
a. Operating
The drive, as installed for normal operation, shall operate error free while subjected to continuous vibration
not exceeding
5-22 Hz @ 0.040 inches (1.03 mm) displacement peak-to-peak
22-400 Hz @ 0.5 g
Vibration may be applied in the X, Y, or Z axis.
b. Nonoperating
The limits of nonoperating vibration shall apply to all conditions of handling and transportation. This
includes both isolated drives and integrated drives.
The drive shall not incur physical damage or degraded performance as a result of continuous vibration not
exceeding
5-22 Hz @ 0.081 inches (2.05 mm) displacement peak-to-peak
22-400 Hz @ 2.00 g’s
Vibration may be applied in the X, Y, or Z axis.
7.4.5 Air cleanliness
The drive is designed to operate in a typical office environment with minimal environmental control.
7.5 Electromagnetic compatibility
7.5.1 Electromagnetic susceptibility
As a component assembly, the drive is not required to meet any susceptibility performance requirements. It
is the responsibility of the system integrator to perform those tests required to ensure that equipment operating
in the same system as the drive does not adversely affect the performance of the drive. See section 6.1.2, and
see Table 7.2-1, DC Power Requirements.
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7.6 Mechanical specifications
The following nominal dimensions are exclusive of the decorative front panel accessory. However, dimensions
of the front panel are shown in the figure below. Refer to Figure 7.6-1a and 7.6-1b for detailed mounting
configuration dimensions.
Height: 1.00 in 25.4 mm
Width: 4.00 in 101.6 mm
Depth: 5.74 in 145.8 mm
Weight: 1.5 pounds 0.68 kilograms
[4]
[3]
C
[1]
B
[2]
H
K
N
[4]
M
F
A
J
G
D
E
Notes:
Mounting holes three on each side, 6-32 UNC.
[1]
Max screw length into side of drive 0.15 in. (3.81
mm). Screw tightening torque 6.0 in-lb (.675 NM)
max with minimum thread engagement of 0.12 in.
(3.05 mm).
Mounting holes four on bottom, 6-32 UNC. Max
[2]
screw length into bottom of drive 0.20 in. (5.08
mm). Screw tightening torque 6.0 in-lb (.675 NM)
max with minimum thread engagement of 0.12 in.
(3.05 mm).
Power and interface connections can extend past the
[3]
"A" dimension by 0.040 in. (1.02 mm).
Decorative front panel.
[4]
A
5.74
B
4.00
C
1.00
D
2.362
E
F
4.000
G
H
1.750
J
3.750
K
P
2.370
L
M
4.000
N
0.19
P
0.015
L
Inches Millimeters
0.010
.620
.250
1.00
±
±
+
–
±
±
±
+
–
±
±
±
±
±
±
max
0.010
0.026
0.010
0.010
0.010
0.010
0.010
0.005
0.010
0.010
0.010
0.010
0.010
0.010
145.80
101.60
25.40
60.00
15.75
101.60
6.35
44.45
95.25
60.20
25.40
101.60
4.83
0.381
±
±
+
–
±
±
±
+
–
±
±
±
±
±
±
max
.25
.25
.66
.25
.25
.25
.25
.25
.12
.25
.25
.25
.25
.25
.25
Figure 7.6-1a. Mounting configuration dimensions (68 pin I/O connector) ("W" and "WD" models)
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28 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
________________________________________________________________________________________
[3]
C
[1]
L
Pin 1
Connector Centerline
J
[2]
H
K
[4]
G
D
F
A
Notes:
[1]
[2]
B
[3]
[4]
E
Mounting holes three on each side, 6-32 UNC.
Max screw length into side of drive 0.15 in. (3.81
mm). Screw tightening torque 6.0 in-lb (.675 NM)
max with minimum thread engagement of 0.12 in.
(3.05 mm).
Mounting holes four on bottom, 6-32 UNC. Max
screw length into bottom of drive 0.20 in. (5.08
mm). Screw tightening torque 6.0 in-lb (.675 NM)
max with minimum thread engagement of 0.12 in.
(3.05 mm).
Power and interface connections can extend past
the "A" dimension by 0.040 in. (1.02 mm).
Connector is centered on drive within ±0.020 in.
(.508 mm).
Inches
± .010
5.74
A
B
C
D
E
F
G
H
J
K
L
4.00
1.00
2.362
.620
4.000
.250
1.750
3.750
2.370
0.181
± .010
+ .026
– .010
± .010
± .010
± .010
+ .010
– .005
± .010
± .010
± .010
+ .018
– .013
Millimeters
145.80
101.60
25.40
60.00
15.75
101.60
6.35
44.45
95.25
60.20
4.597
± .25
± .25
+ .66
– .25
± .25
± .25
± .25
+ .25
– .12
± .25
± .25
± .25
+ .45
– .33
Figure 7.6-1b. Mounting configuration dimensions (80 pin I/O and DC power connector)
("WC" models)
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7.6.1 Drive Orientation
The balanced rotary arm actuator design of the drive allows it to be mounted in any orientation. All drive
performance characterization, however, has been done with the drive in horizontal (discs level) and vertical
(drive on its side) orientations, and these are the two preferred mounting orientations.
7.6.2 Cooling
Cabinet cooling must be designed by the customer so that the ambient temperature immediately surrounding
the drive will not exceed temperature conditions specified in 7.4.1. Specific consideration should be given to
make sure adequate air circulation is present around the PCBs to meet the requirements of 7.4.1.
7.6.3 Drive mounting
When mounting the drive using the bottom holes care must be taken to ensure that the drive is not physically
distorted due to a stiff non-flat mounting surface. The allowable mounting surface stiffness is 80 lb/in (14.0
N/mm). The following equation and paragraph define the allowable mounting surface stiffness:
k*x = 80 lb (14.0 N)
where 'k' represents the mounting surface stiffness (units of lb/in or N/mm), and 'k' represents the out-of-plane
mounting surface distortion (units of inches or millimetres). The out-of-plane distortion ('x') is determined by
defining a plane with three of the four mounting points fixed and evaluating the out-of-plane deflection of the
fourth mounting point when a known force is applied to the fourth point.
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8.0 Media characteristics
8.1 Media description
The media used on the drive has a diameter of approximately 95 mm (approximately 3.7 inches). The aluminum
substrate is coated with a thin film magnetic material and overcoated with a proprietary protective layer for
improved durability and environmental protection.
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9.0 Defect and error management
The drive, as delivered, complies with this specification. The read error rate and specified storage capacity are
not dependent upon use of defect management routines by the host (initiator).
Defect and error management in the SCSI system involves the drive internal defect/error management and
SCSI systems error considerations (errors in communications between Initiator and the drive). Tools for use
in designing a defect/error management plan are briefly outlined in this section, with references to other
sections where further details are given.
9.1 Drive internal defects/errors
Identified defects are recorded on the drive defects list tracks (referred to as the primary or ETF defect list).
These known defects are reallocated during the initial drive format operation at the factory. (See Format Unit
command Section 5.2.1.2 in SCSI Interface Product Manual P/N 77738479). Data correction by ECC can be
applied to recover data from additional flaws if they occur.
Details of the SCSI commands supported by the drive are described in SCSI Product Interface Manual, P/N
77738479. Also, more information on the drive Error Recovery philosophy is presented in Section 6 of the SCSI
Interface Product Manual.
9.2 SCSI systems error considerations
Information on the reporting of operational errors or faults across the interface is given in SCSI Interface
Product Manual. Message Protocol System is described in the SCSI Interface Product Manual. Several of the
messages are used in the SCSI systems error management system. The Request Sense command returns
information to the host about numerous kinds of errors or faults. The Receive Diagnostic Results reports the
results of diagnostic operations performed by the drive.
Status returned by the drive to the Initiator is described in the SCSI Interface Manual. Status reporting plays
a role in the SCSI systems error management and its use in that respect is described in sections where the
various commands are discussed.
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10.0 Option/configuration headers
10.1 Drive ID/option select header
Figure 10.1-1a shows a bottom view of the drive (PCB toward viewer) for the purpose of showing the drive ID
and configuration option select jumper connectors for "W/WD" models. Figure 10.1-1c shows the jumper
connectors for "WC" Model. Figure 10.1-1b shows a rear view of the "W/WD" models drive for the purpose of
showing J1-auxiliary which has a duplicate pin configuration and purpose of J6 (Figure 10.1-1a) on the rear
of the drive. Both J1-auxiliary and J6 have pins for selecting drive ID and for connecting the synchronized
spindle cable and the remote LED cable. Only one or the other should be used, although using both at the
same time would not damage the drive. The notes following the figures describe the functions of the various
jumper positions on the three connectors J2, J1-auxiliary and J6. Suggested part number for the unusual J2
jumper is Molex 52747-0211 (Seagate P/N 77679052).
Drive with HDA up,
PCB down,
viewed from front
HDA
J6
+5V
Ground
[2]
SCSI ID = 0
SCSI ID = 1
SCSI ID = 2
SCSI ID = 3
SCSI ID = 4
SCSI ID = 5
SCSI ID = 6
[3]
SCSI ID = 7
SCSI ID = 8
SCSI ID = 9
SCSI ID = 10
SCSI ID = 11
SCSI ID = 12
SCSI ID = 13
SCSI ID = 14
SCSI ID = 15
A3A2A
Host Alternate
[4]
Usage Plug:
+5V
Remote LED
[4]
Dashed area is optional host circuitry (external
to the drive) connected to host supplied optional
usage plug. Drive PCB circuitry for Pin 8 includes
a 150 Ω series resistor.
1197531
8642
Ground
SSP
Pin 1
A
1
Pin 1
End
J6
Drive Front
J2
Jumper
Positions
Reserved
Motor Start
Motor Start
Write Protect
Parity Option
Terminators
Term. Power
from Drive
Term. Power
to SCSI Bus
Term. Power
from SCSI Bus
0
Optional connections to switching circuits
in host equipment to establish drive ID.
Pins 2, 4, 6 and 8 are driven low for
250 ms after PWR ON and reset to
allow jumper selectable SCSI ID. [4]
R
ESDSMEWPPETETPT
Delay
Enable
Enable
J2
Position A
SCSI I/O
Connector
J1-DC Power
Connector
P
J1-SCSI I/O
J1-Auxiliary
Pin 1
[5]
[5]
[6]
[5]
See Figure
10.1-1b
[2]
Figure 10.1-1a. "W/WD" models drive ID and option select header (Front and side header details)
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____________________________________________________________________________________________
Drive HDA (rear view, PCB facing downward)
SCSI I/O Connector
J1
Pin 1
+5V Ground
Pin 12A
SCSI ID = 0
SCSI ID = 1
SCSI ID = 2
SCSI ID = 3
SCSI ID = 4
SCSI ID = 5
SCSI ID = 6
[3]
SCSI ID = 7
SCSI ID = 8
SCSI ID = 9
SCSI ID = 10
SCSI ID = 11
SCSI ID = 12
SCSI ID = 13
SCSI ID = 14
SCSI ID = 15
A3A2A
Host Alternate
[4]
Usage Plug:
+5V
Remote LED
[4]
Dashed area is optional host circuitry (external
to the drive) connected to host supplied optional
usage plug. Drive PCB circuitry for Pin 8 includes
a 150 Ω series resistor.
1197531
8642
Ground
SSP
J1-Auxiliary
Pin 1A
[2]
A
1
0
1P2P3P4P
J1-DC Power
PCB
Optional connections to switching circuits
in host equipment to establish drive ID.
Pins 2, 4, 6 and 8 are driven low for
250 ms after PWR ON and reset to
allow jumper selectable SCSI ID. [4]
Figure 10.1-1b. "W/WD" models drive ID and option select header J1-auxiliary (Rear header details)
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34 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. A
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Drive with HDA up,
[7]
J6
SCSI ID = 0
SCSI ID = 1
SCSI ID = 2
SCSI ID = 3
SCSI ID = 4
SCSI ID = 5
SCSI ID = 6
SCSI ID = 7
SCSI ID = 8
SCSI ID = 9
SCSI ID = 10
SCSI ID = 11
SCSI ID = 12
SCSI ID = 13
SCSI ID = 14
SCSI ID = 15
Sync Spindle
Remote LED
PCB down,
viewed from front
HDA
A3A2A
A
1
0
Pin 1
[8]
Pin 1
End
J6
Drive Front
Jumper
Positions
Motor Start
Motor Start
Write Protect
Parity Option
CATH
J2
Delay
Enable
J2
R
ESDSMEWPP
Remote LED
J1
Pin 1
E
[7]
[9][9]
Figure 10.1-1c. "WC" model drive ID and Option select header. (front and side header details)
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______________________________________________________________________________________
Notes for Figure 10.1-1a and 10.1-1b:
[1] Notes explaining the functions of the various jumpers on jumper header connectors J2, J1-auxiliary and
J6 are given below in left to right order of jumper position. The term “default” means as standard OEM
units are configured when shipped from factory . “Off” means no jumper is installed; “On” means a jumper
is installed. “Off” or “On” underlined is f actory default condition.
[2] The PCB on "WC" models does not have connector J1-auxiliary , b ut has a single 80 pin combined SCSI
I/O and DC power connector instead of the pictured 68 pin SCSI I/O, J1-auxiliary and 4 pin DC power
connectors. Included among the 80 pins are the SCSI ID, Motor Start and Delayed Motor Start select
functions, and the synchronous spindle master sync signal (REFIND+) and the remote LED signals. Do
not use J2 and J6 for these five functions if the host uses the ones included in the 80 pin connector . See
Table 11.6.3-1c for a list of pin n umbers vs . signals for the 80 pin connector .
[3] Either jumper plugs in one of the patterns shown or external circuitry can be used to establish Drive ID.
The drive uses headers J6 or J1-auxiliary for drive ID determination only during a 250 ms initialization
period following power-on or after a drive reset. During this initialization period, the drive control logic
checks the logic state of pins 1, 3, 5 and 7. A ground on a pin indicates an asserted low state, while an
open circuit, high impedance or +5 V indicates a negated high state. The drive user can install jumper
plugs to connect pins 2, 4, 6 and 8 to pins 1, 3, 5 and 7, respectively , in the desired ID pattern. See figures
10.1-1a and 10.1-1b. The drive only connects ground to pins 2, 4, 6 and 8 during the 250 ms initialization
period. The user may install a cable on J6 or J1-auxiliary in order to connect the drive ID pattern to pins
1, 3, 5 and 7 through some external switching circuit. The drive ID should be applied for at least the
250 ms period. During the remaining operational time of the drive, the drive does not poll pins 1, 3, 5 and
7 for drive ID, unless a reset occurs. See Note [4] for information on the use of pins 2, 4, 6 and 8 during
non-initialization periods.
[4] During non-initialization periods when the drive does not connect ground to pins 2, 4, 6 and 8, these pins
can be used for non-drive ID functions. Theref ore , instead of using jumper plugs to estab lish driv e ID, a
cable can be connected to either J6 or J1-auxiliary to connect busy LED as shown and make parallel
connections of pins 1, 3, 5 and 7 to external drive ID switching or jumpering circuits. If connected as
shown, pin 8 lights the drive busy LED when the drive connects ground to that pin. Connection can be
made to pin 6 to conduct the synchronized spindle reference signal, REFIND+ to the host and to other
Seagate disk drives. Spindle synchronization typically works effectively only if all driv es connected through
pin 6 are identical in make and model. During the 250 ms initialization period the busy LED lights and the
REFIND+ signal goes to 0 V.
J6 can be used to establish drive ID using jumper plugs (or remote ID selectors) and a cable can be
plugged simultaneously to J1-auxiliary to connect to busy LED and the synchronized spindle signal SSP.
The vice-versa arrangement is possible also . Two separate drive ID determining locations should not be
used, however.
[5] These jumper positions apply to "W" model only.
[6] This jumper position applies to "W" and "WD" models only.
[7] These signals are also on J1 (see Table 11.6.3-1c), in which case the J2 and J6 jumper headers are not
used.
[8] Drive is probably shipped with this jumper installed, but it should be removed if the system uses REFIND+
on J1-37.
[9] Not used by "WC" models.
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continued from previous page
J2
Jumper
Installation Jumper Function Description
RES
Off/On Reserved. Default is no jumper installed.
DS ME
Off Off Spindle starts immediately after power up - Default setting.
Off On Drive spindle does not start until Start Unit command received from host.
On Off Spindle Startup is delayed by SCSI ID times 12 seconds after power is applied, i.e., drive 0
spindle starts immediately when DC power connected, drive 1 starts after 12 second delay ,
drive 2 starts after 24 second delay, etc.
On On Drive spindle starts when Start Unit command received from host. Delayed start feature is
overridden and does not apply when ME jumper is installed.
WP
On Entire drive is write protected.
Off Drive is not write protected. Default is no WP jumper installed.
PE
On Parity checking and parity error reporting by the drive is enabled. Default is PE jumper
installed.
Off Drive does not report result of parity checking to host.
TE ("W" models only)
On With the jumper installed, the on-board (non-removable) terminator circuits are enabled (con-
nected to the I/O lines). Default is jumper installed.
Off T erminator circuits not connected to I//O lines.
TP TP (TP jumpers do not apply to "WC" models)
Off Off No terminator power is connected to drive terminators or SCSI bus I/O pin 26.
On Off Drive supplies its own terminator power only. J umper on this position is factory default.
Off On Drive supplies power to I/O pin 26 of SCSI bus; none to internal terminators. When drives
have differential I/O circuits, a jumper on the right TP position may be needed to power
external terminators (see system documentation). The "WD" model drive has differential I/
O circuits which have no terminator circuits on the drive. The "WC" model drive has no
provisions for terminators and no provisions f or terminator power in the 80 pin I/O connector .
On On Drive supplies terminator power to itself (internal connection) and to I/O pin 26 of SCSI bus.
This is a legal jumper setting.
TP Position A
On This horizontally positioned jumper across the two TP positions nearest PCB edge, con-
nects terminator power from SCSI bus I/O pin 26 to the drive's internal terminators (Not
applicable to "WD/WC" models).
Off See above explanations for TP jumpers.
J1-Auxiliary, J6
Jumper
Installation Jumper Function Description
A3,A2,A1,A0Drive ID on SCSI Bus (J1-auxiliary or J6 may be used, as the ID circuits are wired in paral-
lel). The drive ID is binary coded positionwise i.e., jumper in position A3 is drive ID 8, A2 is
drive ID 4, position A1 is ID 2, position A0 is ID 1 and no jumpers is ID 0. Default is ID = 0.
Both J1-auxiliary and J6 should not be used at the same time, because at some future time
when the ID is changed the user could fail to configure both J1-auxiliary and J6 the same.
"WC" Models, do not have J1-auxiliary.
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continued from previous page
SSP Used only as a cable connection for the reference index signal (REFIND+) (J1-6A and J6
Pin 6, bottom) for sync spindle feature. J1-10A or J6-10 provides ground. See paragraphs
10.2, 5.7 for description of synchronized spindle operation. When no cable is connected,
only drive ID jumpers should be installed.
Do not put a jumper between pins 5 and 6 when not using synchronized spindle operation.
BUSY LED See Note [4]
10.2 Synchronized spindles interface
The Synchronized Spindles Interface (SSI) allows several drives operating from the same host to operate their
spindles at a synchronized rotational rate. Details of the electrical and physical interfaces follow in paragraphs
10.2.1 and 10.2.1.2 and 10.2.1.3. The system operation is described in paragraph 5.7. Spindle synchronization
typically works effectively only if all drives connected to the REFIND+ signal are identical make and model.
10.2.1 Electrical description
The electrical interface consists of one digital TTL reference index signal and ground. The reference index
signal (REFIND+) is an output if the drive is configured as a master and is an input otherwise. The reference
index signal is connected from drive to drive in a daisychain fashion as shown in Figure 5.7-1.
10.2.1.1 Drivers and receivers
Figure 10.2.1-1 shows a diagram of the driver/receiver circuit. The driver circuits have the following electrical
specifications.
Negated (False): 0.0 V to +0.4 V @ I = - 48 mA (max).
Asserted (True): + 2.24 V to +5.25 V @ I = +250 uA.
Main PCB
Driver Receiver
J1-37 [1]
J6-6 or J1-6A
J6-10 or J1-10A
J1-47 [1]
+5V
2K Ohm
*
REFIND +
GND
[1] This connection exists on "WC" Models only. Use one or the other, but not both J1-auxiliary and J6.
Figure 10.2.1-1. SCSI reference index signal driver/receiver combination
__________
*See paragraph 10.2.1.2
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10.2.1.2 Termination
The reference index signal (REFIND+) is terminated with a 2 K ohm resistor. Each drive has a termination
resistor located on the Main PCB. The terminator resistor is not removable and is always in the circuit.
10.2.1.3 Physical interface
The dimensions of the connectors (J1-auxiliary and J6) mounted on the drive PCB to interconnect the drives
is shown in Figure 10.2.1-2a. They are 12 pin, 6 jumper position gold header type connectors. Pins 6 and 10
are used for connecting the Reference Index signal from drive to drive as shown in Figure 10.2.1-2a. Pin 6 is
REFIND+ and Pin 10 is ground. Either J1-auxiliary or J6 may be used. "WC" models have REFIND+ on
J6-6 and J1-37.
.485 max
.020 +/- .001
(square)
.157
+/- .010
.394 +/- .010
.0787
(2mm)
typ
.0787 (2mm) typ [1]
[1]
.157
+/- .010
.236 max
.090
-.128
.048 min
.033 +/- .004
Figure 10.2.1-2a. Configuration select header specification for J6. (Connector at front end of PCB)
J1-Auxiliary
SCSI I/O Connector J1
GND
Position 1A [1]
J1-DC Power
REFIND+
Position 1PPosition 1
1P2P3P4P
Figure 10.2.1-2b. Configuration select header specification for J1-auxiliary. (Connector at rear of PCB on
"W/WD" models)
10.3 Grounding
Signal ground (PCB) and HDA ground are connected together in the drive and cannot be separated by the user.
The equipment in which the drive is mounted is connected directly to the HDA and PCB with no electrically
isolating shock mounts. If it is desired for the system chassis to not be connected to the HDA/PCB ground, the
systems integrator or user must provide a nonconductive (electrically isolating) method of mounting the drive
in the host equipment.
[1] Applies only to "W/WD" models. "WC" models have the synchronous spindle signal on J6 and on pin 37
(called "SYNC") of the 80 pin I/O connector. See Table 11.6.3-1a.
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11.0 Interface requirements
11.1 General description
This section partially describes the interface requirements as implemented on the drives. The major portion
of the interface requirements/implementation is described in the Seagate SCSI Interface Product Manual,
P/N 77738479. This section has tables that give the Hawk 1LP (wide bus) Family drives version of the SCSI
implementation described in the 77738479 document.
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11.2 SCSI interface messages supported
Table 11.2-1 following lists the messages supported by the SCSI-1, SCSI-2 and SCSI-3 modes of the Hawk
1LP (wide bus) Family drives.
Table 11.2-1. SCSI messages supported by Hawk 1LP (wide bus) family drives
Msg Supported by:
Code SCSI-1 SCSI-2/SCSI-3 Message Name
01h[1] Y Y Extended messages
06h Y Y Abort
0Dh Y Y Abort tag
0Ch Y Y Bus device reset
0Eh Y Y Clear queue
00h Y Y Command complete
12h Y Y Continue I/O process
04h Y Y Disconnect
80h-FFh Y Y Identify
23h N N Ignore wide residue (two bytes)
0Fh N N Initiate recovery
05h Y Y Initiator detected error
0Ah N N Linked command complete [2]
0Bh N N Linked command complete with flag [2]
09h Y Y Message parity error
07h Y Y Message reject
[1] N N Modify data pointer
08h Y Y No operation
Queue tag messages (two bytes)
21h Y Y Head of queue tag
22h Y Y Ordered queue tag
20h Y Y Simple queue tag
10h N N Release recovery
03h Y Y Restore pointers
02h Y Y Save data pointer
[1] Y Y Synchronous data transfer req.
13h Y Y Target Transfer disable
11h N N Terminate I/O process
[1] N Y Wide data transfer request
Notes.
[1] Extended messages (see P/N 77738479 SCSI Interface Product Manual).
[2] Customer Unique
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11.3 SCSI interface commands supported
Table 11.3-1 following lists the SCSI interface commands that are supported in the SCSI-1, SCSI-2 and SCSI3 modes of the drive. Hawk 1LP (wide bus) Family drives can be changed back and forth between SCSI-1,
SCSI-2 and SCSI-3 modes using the Change Definition Command. OEM standard drives are shipped set to
operate in SCSI-2/SCSI-3 mode.
Table 11.3-1. Commands supported by Hawk 1LP (wide bus) family drives
Com’d Supported by:
Code SCSI-1 SCSI-2/SCSI-3 Command Name
00h Y Y Test unit ready
01h Y Y Rezero unit
03h Y Y Request sense
Y Y Extended sense
Y Y Field pointer bytes
Y Y Actual retry count bytes
Y Y Deferred error supported
04h Y Y Format unit [1]
07h Y Y Reassign blocks
08h Y Y Read
0Ah Y Y Write
0Bh Y Y Seek
12h Y Y Inquiry
Y Y Vital product data page
Y Y Unit serial number page
Y Y Implemented operating def. page
Y Y Firmware numbers page
Y Y Date code page
Y Y Jumper settings page
15h Y Y Mode select (same pages as mode sense
command, see below)
16h Y Y Reserve
Y Y 3rd parity reserve
N N Extent reservation
17h Y Y Release
18h N N Copy
1Ah Y Y Mode sense
Y Y Unit attention page (00h)
Y Y Byte 2 bit 4 (unit attn bit)
Y Y Byte 2 bit 5 (DEID bit
Y Y Error recovery page (01h)
Y Y Disconnect/reconnect
Control page (02h)
Y Y Format page (03h)
Y Y Rigid disc drive geometry page (04h)
N Y Verify error recovery page (07h)
Y Y Caching parameters page (08h)
N Y Control mode page (0Ah)
N Y Notch and Partition Page (0C)
(Media Zones)
[1] The drive can format to any even number of bytes per sector from 180 to 4096.
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continued from previous page
Com’d Supported by:
Code SCSI-1 SCSI-2/SCSI-3 Command Name
1Bh Y Y Start unit/stop unit (spindle ceases rotating)
1Ch Y Y Receive diagnostic results
Y Y Supported diagnostics pages
Y Y Translate page
1Dh Y Y Send diagnostics page
Y Y Supported diagnostics pages
Y Y Translate page
25h Y Y Read capacity
28h Y Y Read extended
2Ah Y Y Write extended
2Bh Y Y Seek extended
2Eh Y Y Write and verify
2Fh Y Y Verify
30h N N Search data high
31h N N Search data equal
32h N N Search data low
33h N N Set limits
34h N N Prefetch
35h N Y Synchronize cache
36h N N Lock-unlock-cache
37h Y Y Read defect data
39h N N Compare
3Ah N N Copy and verify
3Bh Y Y Write buffer
3Ch Y Y Read buffer
3Eh Y Y Read long
3Fh Y Y Write long
40h Y Y Change definition
41h N N Write same
42-4Bh N N Not used
4Ch Y Y Log select
4Dh Y Y Log sense
4E-54 N N Not used
55h Y Y Mode select (10)
56h N Y Reserve (10)
57h N Y Release (10)
58-59 N N Not used
5Ah Y Y Mode sense (10)
5B-5F N N Not used
60-BFh N N Not used
C0-DFh N N Not used
EO-FFh N N Not used
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11.3.1 Inquiry data
11.3.1.1 Standard Inquiry data
Table 11.3.1-1 following lists the Standard Inquiry command data that the drive should return to the initiator
per the format given in the SCSI Interface Product Manual (P/N 77738479).
Table 11.3.1-1. Hawk 1LP (wide bus) drive standard inquiry data
BYTES DATA (HEX)
0-15 00 00 ** *** 8F 00 ( ) ( ) 53 45 41 47 41 54 45 20 Vendor ID
16-31 53 54 [33][31][32][30][30] [57][20] 20 20 20 20 20 20 20 Product ID
32-47 R# R# R# R# S# S# S# S# S# S# S# S# 00 00 00 00
48-63 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
64-79 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
80-95 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
96-111 00 43 6F 70 79 72 69 67 68 74 20 28 63 29 20 31* *Copyright
112-127 39* 39* 32* 20 53 65 61 67 61 74 65 20 41 6C 6C 20 Notice
128-143 72 69 67 68 74 73 20 72 65 73 65 72 76 65 64 20
144-148 D# D# D# D#
*Copyright Year - changes with actual year.
Notes.
** 01 means SCSI-1 implemented;
02 means SCSI-2/SCSI-3 implemented. Some SCSI-3 features are also implemented. The drive can be
changed between these two configurations. Default is 02.
*** 01 means response data is in SCSI-1 format and has compatibility with Common Command Set data.
02 means response data is in SCSI-2/SCSI-3 format. The drive can be changed between these two
configurations. Default is 02.
( ) Inquiry data reports 01 32 if 16 bit wide address and data bus is used; 00 12 if 8 bit wide address and data
bus is used.
R# Four ASCII digits representing the last four digits of the product Firmware Release number. This
information is also given in the Vital Product Data Page C0h, together with servo RAM and ROM release
numbers.
S# Eight ASCII digits representing the eight digits of the product serial number.
D# Four ASCII digits representing the firmware distribution diskette serial number.
[ ] Bytes 18 through 24 will reflect model of drive. Shown here are hex values for ASCII codes representing
“ST31200W”.
11.3.1.2 Inquiry Vital Product data
Instead of the standard Inquiry data shown in Table 11.3.1-1, the initiator can request several Vital Product
Data pages by setting the Inquiry command EVPD bit to one. The SCSI, Version 2 Interface Product Manual
P/N 77738479, Section 5.1.1.3.1 lists the Vital Product Data pages supported and describes their formats. A
separate Inquiry command must be sent to the drive for each Vital Product Data page the initiator wants the
drive to send back.
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11.3.2 Mode Sense data
The Mode Sense command provides a means for the drive to report its operating parameters to the initiator.
The drive maintains four sets of Mode parameters, Default values, Saved values, Current values and
Changeble values.
Default values are hard coded in the drive firmware that is stored in flash E-PROM nonvolitile memory on the
drive PCB. Default values can be changed only by donwloading new firmware into the flash E-PROM. An
initiator can request and receive from the drive a list of Default values and use those in a Mode Select command
to set up new Current and Saved values.
Saved values are stored on the disk media using a Mode Select command. Only parameter values that are
allowed to be changed can be changed by this method. See "Changeable values" defined below. Parameters
in the Saved values list that are not changeable by the Mode Select command get their values from the Default
values storage.
Current values are volitile values currently being used by the drive to control its operation. A Mode Select
command can be used to change these values (only those that are changeable). Originally, they are installed
from Saved or Default values after a power on reset, hard reset, or Bus Device Reset message.
Changeable values form a bit mask, stored in non-volitile memory, that dictates which of the Current values
and Saved values can be changed by a Mode Select command. A "one" allows a change to a corresponding
bit; a "zero" allows no change. For example, in Table 11.3.2-1a refer to Mode page 01, in the first row entitled
"CHG". These are hex numbers representing the changeable values for Mode page 01. Note in columns 1 and
2 (bytes 00 and 01), there is 00h, which indicates that in bytes 00 and 01 none of the bits are changeable. Note
also that bytes 04, 05, 06 and 07 are not changeable, because those fields are all zeros. In bytes 02, hex value
FF equates to the binary pattern 1111 1111. If there were a zero in any bit position in the field, it would mean
that bit is not changeable. However, bits 7 - 0 are changeable, because those bits are all ones, In this particular
case, it indicates 8 error recovery control bits are all changeable. FF in column 4 indicates all bits in byte 3 are
changeable.
The Changeable values list can only be changed by downloading new firmware into the flash E-PROM.
On drives requiring unique Saved values, the required unique Saved values are stored into the Saved values
storage location on the media prior to shipping the drive. Some drives may have unique firmware with unique
Default values also.
On standard OEM drives the Saved values are taken from the Default values list and stored into the Saved
values storage location on the media prior to shipping.
When a drive is powered up, it takes Saved values from the media and stores them to the Current values storage
in volitile memory. It is not possible to change the Current values (or the saved values) with a Mode Select
command before the drive is up to speed and is "ready". An attempt to do so results in a "Check Condition"
status being returned.
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The following tables list the values of the data bytes returned by the drive in response to the Mode Sense
command pages for SCSI-1 and SCSI-2/SCSI-3 implementation (see SCSI Interface Product Manual, P/N
77738479).
DEFINITIONS:
DEF = Default value. Standard drives are shipped configured this way.
CHG = Changeable bits; indicates if default value is changeable.
Table 11.3.2-1. Mode sense data, ST31200 wide default values
(SCSI-1 implementation)
Bytes 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
Mode
Sense 63 00 00 08
Data 00 00 00 00 00 00 02 00
MODE PAGE HEADERS AND PARAMETER DATA BYTES
Mode
Page 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
DEF
01 81 06 00 21 30 00 00 FF
CHG
01 00 00 EF FF 00 00 00 00
DEF
02 82 0A 80 80 00 0A 00 00 00 00 00 00
CHG
02 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
03 83 16 00 09 00 09 00 00 00 12 00 55 02 00 00 01 00 0D 00 17 40 00 00 00
CHG
03 00 00 FF FF FF FF 00 00 FF FF 00 00 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
04 84 12 00 0A 8C 09 00 00 00 00 00 00 00 00 00 00 00 00 00 00
CHG
04 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
DEF
08 88 12 10 00 FF FF 00 00 FF FF FF FF 80 03 00 00 00 00 00 00
CHG
08 00 00 BD FF FF FF FF FF FF FF 00 00 A0 FF FF FF 00 00 00 00
DEF
00 80 02 00 00
CHG
00 00 00 36 00
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Table 11.3.2-2. Mode sense data, ST31200 wide default values
(SCSI-2/SCSI-3 implementation)
Bytes 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
Mode 9F 00 00 08
Sense 00 00 00 00 00 00 02 00
Data
MODE PAGE HEADERS AND PARAMETER DATA BYTES
Mode
Page 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
DEF
01 81 0A 00 21 30 00 00 00 16 00 FF FF
CHG
01 00 00 EF FF 00 00 00 00 FF 00 00 00
DEF
02 82 0E 80 80 00 0A 00 00 00 00 00 00 00 00 00 00
CHG
02 00 00 FF FF 00 00 00 00 00 00 00 00 80 00 00 00
DEF
03 83 16 00 09 00 09 00 00 00 12 00 55 02 00 00 01 00 0D 00 17 40 00 00 00
CHG
03 00 00 FF FF FF FF 00 00 FF FF 00 00 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
04 84 16 00 0A 8C 09 00 00 00 00 00 00 00 00 00 00 00 00 00 00 15 23 00 00
CHG
04 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 FF 00 00 00 00 00
DEF
07 87 0A 00 21 30 00 00 00 00 00 FF FF
CHG
07 00 00 0F FF 00 00 00 00 00 00 00 00
DEF
08 88 12 10 00 FF FF 00 00 FF FF FF FF 80 03 00 00 00 00 00 00
CHG
08 00 00 BD 00 FF FF FF FF FF FF 00 00 A0 FF FF FF 00 00 00 00
DEF
0A 8A 0A 00 10 00 00 00 00 00 00 00 00
CHG
0A 00 00 01 01 00 00 00 00 00 00 00 00
DEF
0C 8C 16 80 00 00 17 00 00 00 00 00 00 00 0A 89 08 00 00 00 00 00 00 10 00
CHG
0C 00 00 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
DEF
00 80 02 00 00
CHG
00 00 00 36 00
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Table 11.3.2-3. Mode sense data, ST3620 (wide bus) default values (SCSI-1 implementation)
Bytes 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
Mode
Sense 63 00 00 08
Data 00 00 00 00 00 00 02 00
Mode MODE PAGE HEADERS AND PARAMETER DATA BYTES
Page
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
DEF
01 81 06 00 21 30 00 00 FF
CHG
01 00 00 FF FF 00 00 00 00
DEF
02 82 0A 80 80 00 0A 00 00 00 00 00 00
CHG
02 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
03 83 16 00 05 00 05 00 00 00 0A 00 50 02 00 00 01 00 0C 00 15 40 00 00 00
CHG
03 00 00 FF FF FF FF 00 00 FF FF 00 00 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
04 84 12 00 0A 8C 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00
CHG
04 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 03 FF 00
DEF
08 88 12 10 00 FF FF 00 00 FF FF FF FF 80 03 00 00 00 00 00 00
CHG
08 00 00 BD 00 FF FF FF FF FF FF 00 00 A0 FF FF FF 00 00 00 00
DEF
00 80 02 00 00
CHG
00 00 00 36 00
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Table 11.3.2-4. Mode sense data, ST3620 (wide bus) default values (SCSI-2 implementation)
Bytes 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
Mode 9F 00 00 08
Sense00 00 00 00 00 00 02 00
Data
Mode MODE PAGE HEADERS AND PARAMETER DATA BYTES
Page
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
DEF
01 81 0A 00 21 30 00 00 00 16 00 FF FF
CHG
01 00 00 EF FF 00 00 00 00 FF 00 00 00
DEF
02 82 0E 80 80 00 0A 00 00 00 00 00 00 00 00 00 00
CHG
02 00 00 FF FF 00 00 00 00 00 00 00 00 80 00 00 00
DEF
03 83 16 00 05 00 05 00 00 00 0A 00 50 02 00 00 01 00 0C 00 15 40 00 00 00
CHG
03 00 00 FF FF FF FF 00 00 FF FF 00 00 00 00 FF FF 00 00 00 00 00 00 00 00
DEF
04 84 16 00 0A 8C 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00 15 23 00 00
CHG
04 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 03 FF 00 00 00 00 00
DEF
07 87 0A 00 21 30 00 00 00 00 00 FF FF
CHG
07 00 00 0F FF 00 00 00 00 00 00 00 00
DEF
08 88 12 10 00 FF FF 00 00 FF FF FF FF 80 03 00 00 00 00 00 00
CHG
08 00 00 BD 00 FF FF FF FF FF FF 00 00 A0 FF FF FF 00 00 00 00
DEF
0A 8A 0A 00 10 00 00 00 00 00 00 00 00
CHG
0A 00 00 01 01 00 00 00 00 00 00 00 00
DEF
0C 8C 16 80 00 00 17 00 00 00 00 00 00 00 0A 89 04 00 00 00 00 00 00 10 00
CHG
0C 00 00 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
DEF
00 80 02 00 00
CHG
00 00 00 36 00
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11.4 SCSI Bus Conditions and Miscellaneous Features Supported
Asynchronous SCSI bus conditions supported by the drive are listed in Table 11.4-1. These conditions cause
the SCSI device to perform certain actions and can alter the phase sequence. Other miscellaneous operating
features supported are also listed here.
Table 11.4-1. Supported SCSI bus conditions and other misc. features
Condition/Feature Supported by:
SCSI-1 SCSI-2/SCSI-3 Conditions or Feature
Y Y Attention Condition
Y Y Reset Condition
Y Y Contingent Allegiance Condition
N N Asynchronous Event Notification
Y Y Arbitrating System
Y Y Disconnect/Reconnect
Y Y Asynchronous Data Transfer
Y Y Synchronous Data Transfer
Y Y Synchronized (locked) Spindle Operation
Y Y Differential Interface Circuits available
Y Y Segmented Caching
N N Zero Latency Read
Y Y Queue tagging (up to 64 Que tags supported)
Y Y Deferred Error Handling
Y Y Parameter Rounding
Y Y Reporting actual retry count in Extended Sense bytes 15,
16 and 17.
Y Y Adaptive Caching (available only on some drives)
Y Y SMP = 1 in Mode Select command needed to save
RPL and Rotational Offset bytes (in Table 5.2.1-25
of Vol. II).
[1] [1] Flag and Link bits in Control Byte supported
Y Y Immediate status on Start/Stop command
N N Immediate status on Format unit and Synchronize
Cache commands
N N Format progress indication
SCSI-1 SCSI-2/SCSI-3 Status Supported
Y Y Good
Y Y Check Condition
N N Condition Met/Good
Y Y Busy
[1] [1] Intermediate/Good
N N Intermediate/Condition Met/Good
Y Y Reservation Conflict
Y Y Queue Full
Notes:
[1] Option supported only if customer requests.
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11.5 Synchronous data transfer
11.5.1 Synchronous data transfer periods supported
Table 11.5-1 and 11.5-2 list Synchronous Data transfer periods supported by the drive. The data transfer period
to be used by the drive and the initiator is established by an exchange of messages during the Message Phase
of operation. See the section on message protocol in the SCSI Interface manual.*
Table 11.5-1. Synchronous data transfer periods
M (Decimal) Transfer Period (M times 4 nanoseconds)
25 100
31 125
37 150
50 200
62 250
75 300
87 350
100 400
11.5.2 REQ/ACK offset
The maximum REQ/ACK offset supported by the Hawk 1LP (wide bus) family is 15 (0Fh).
__________
*SCSI Interface Product Manual, P/N 77738479
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11.6 Physical interface
Figure 11.6-1a shows the locations of the physical interface components for the "W/WD" models. Shown are
the locations of the D.C. power connector, the SCSI interface connector, and the drive select and option select
header. For the "W" models, the D.C. power is included in the 80 pin I/O connector. It has no separate D.C.
power connector. See Figure 11.6-1b and Table 11.6.3-1c.
Details of the physical, electrical and logical characteristics are given in paragraphs following, while the SCSI
operational aspects of Seagate drive interfaces are given in the Seagate SCSI Interface Product Manual,
P/N 77738479.
Pin
1P
2P
3P
4P
Power
+12V
+12V ret
+ 5V ret
+ 5V
J1
Pin 1
J1-Auxiliary
Pin 1A
Pin 1
68 Pin
SCSI I/O
Connector
J1
J1-Auxiliary
Pin 1A
J1-DC Power
Pin 1P
J1-DC Power
1P2P3P4P
PCB
J2
J6
Figure 11.6-1a. "W/WD" models drive physical interface
J2
80 Pin SCSI I/O
and Power
Connector
Pin 1
J6
Figure 11.6-1b. "WC" drive models physical interface (80 pin SCSI I/O and DC power connector)
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11.6.1 DC cable and connector
For "W/WD" models the drive receives DC power through a 4 pin connector mounted at the rear of the main
PCB (see Figure 11.6.3-1a). Recommended part numbers of the mating connector are listed below, but
equivalent parts may be used (see Table 11.6.1-1).
Table 11.6.1-1. Mating connector parts
Type of cable Connector Contacts (20-14 AWG)
14 AWG AMP 1-480424-0 AMP 60619-4 (Loose Piece)
AMP 61117-4 (Strip)
For "WC" models, the D.C. power is routed with the SCSI bus signals through the 80 pin I/O connector. Current
carrying capacity is for one drive only plugged directly into the Host 80 pin I/O connector (no cable). See Table
11.6.3-1c for pin assignments. There is no provision for a separate DC power connector.
11.6.2 Physical characteristics
This section defines the connectors, cables, signals, terminators and bus timing needed to implement SCSI.
11.6.2.1 Physical description
The "W" and "WD" models drives may be daisy-chained together or with other compatible SCSI devices using
a common cable. Both ends of the cable must be terminated. The drive implements either single-ended or
differential drivers and receivers. All signals are common between all SCSI devices. The drive may be daisychained only with SCSI devices having the same type drivers and receivers. Devices having single ended
interface circuits cannot be on the same daisychain with devices having differential interface circuit. A
maximum of 16 SCSI devices (including the Host) may be daisy-chained together. The SCSI Devices at both
ends of the daisychain are to be terminated. Intermediate SCSI devices shall not be terminated (see Figure
11.6.3-2). Do not remove the terminator power source selector jumper TP (Figure 10.1-1). On drives not
requiring terminators disable internal terminators by removing jumper TE (ST31200W only) or remove any
external terminators.
"WC" model drives plug into PCB or bulkhead connectors in the Host. They may be connected in a daisy-chain
by the host backplane wiring or PCB circuit runs that have adequate DC current carrying capacity to support
the number of drives plugged into the PCB or bulkhead connectors. A single 80 pin I/O connector cannot
support the DC current needs of several drives, so
no daisy-chain cables
should be used. A single drive
connected via a cable to a host 80 pin I/O connector is not recommended.
11.6.2.2 Cable requirements ("W" and "WD" models only)
The maximum total cable length for use with drives having differential I/O drivers and receiver circuits shall be
25 metres (82 ft.). A stub length of no more than 0.2 metre (0.66 ft.) is allowed off the mainline interconnection
with any connected equipment. An ideal impedance match with cable terminators implies a cable characteristic
impedance of 122 ohms. Differential I/O pin assignments are shown in Table 11.6.3-1.
In general, cables having the characteristic impedance’s given above are not available; however, impedance’s
that are somewhat lower are satisfactory. A characteristic impedance of 100 ohm ±10% is recommended for
unshielded flat or twisted pair ribbon cable. However, most available cables have a somewhat lower
characteristic impedance. To minimize discontinuities and signal reflections, cables of different impedance’s
should not be used in the same bus. Implementations may require tradeoffs in shielding effectiveness, cable
length, the number of loads, transfer rates, and cost to achieve satisfactory system operation. If shielded and
unshielded cables are mixed within the same SCSI bus, the effect of impedance mismatch must be carefully
considered. Proper impedance matching is especially important in order to maintain adequate margin at FAST
SCSI transfer rates.
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T
*
Disc Drive or
Other SCSI
Device
SCSI Device
Host Adapter/Initiator
Disc Drive or
Other SCSI
Device
* * *
1 thru 16
SCSI Devices
Disc Drive or
Other SCSI
Device
T
** ** *
VIEW B
T indicates termination required
Total Interface cable length must not exceed that specified in paragraph 11.6.2. (Including host adapter/
initiator).
* Closed end type connector used.
** Open end type (in-line application) connector used.
*** Host need not be on the end of the daisychain. Another device can be on the end with the terminator. The
host can be anywhere in the daisychain, having no terminator.
Figure 11.6.2.-1. Interface cabling
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Cable for "WD" model drives
Only nonshielded cable is applicable. A 68 conductor flat cable or two, 34 conductor cables shall be used.
Conductors should be on 50 (1.27 mm) mil centers to be used with connector listed in 11.6.3.1. A minimum
conductor size of 28 AWG should be used to minimize noise effects.
Suggested nonshielded flat cable part numbers are:
Flat cable - 35M-3365-68 Twisted pair - Spectra Twist in flat 455-248-68
Equivalent parts may be used.
Cables for "WC" drive models
The 80 pin connector option is intended for use on drives that plug directly into a PCB, wall or bracket mounted
connector in the host equipment. Cable mounted connectors are not recommended.
11.6.3 Connector requirements
11.6.3.1 Mating connectors for "W/WD" model
The nonshielded cable connector shall be a 68 conductor connector consisting of two rows of 34 male contacts
with adjacent contacts 1.27 mm (0.050 inch) apart.
Recommended Mating Connector Part Numbers for above flat cable are:
Closed end Amp Model 749925-5 (50 mil conductor centers, 28 or 30 AWG wire)
(for cable ends) use two, 34 conductor, 50 mil center flat cable with this
(cable “C” in paragraph 11.6.2). Can only be used on
cable ends.
Open end Amplimite 88-5870-294-5 W/O Strain Relief, (25 mil conductor centers, 30 AWG
wire). Use either on cable ends or in cable middle
section for daisychain installations.
The disc drive device connector is a nonshielded 68 conductor connector consisting of two rows of 34 female
pins with adjacent pins 1.27 mm (0.050 inches) apart. The connector is keyed by means of its shape (see Figure
11.6.3-1a).
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Position 1Position 1Position 1
.218
(5.54)
.100
(2.54)
.050
(1.27)
1.816
(46.13)
1.650
(41.91)
Position 1
.388
(9.86
.650
(16.51)
(19.05)
3.650
(92.71)
HDA
.750
.42
(10.67)
Position 1A
ref
.0787
(2.00)
4
(3.61)
PCB ref
.60
(15.24)
Position 1P
3
.834 ± .010
(21.18)
.079
(2.00)
.142
12
.054
(1.37)
.20
typ
(5.08)
.065
x 45° chamfer typ
(1.65)
ref
.315 ± .010
(8.00)
+.001
–.002
dia
.083
(2.1)
Trifurcated Pins
(4 places)
Figure 11.6.3-1. Non shielded SCSI device connector ("W/WD"models)
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Recommended PCB or bulkhead mounted connectors are:
Straight-in connector (most commonly used): Right angle to PCB connector:
Seagate P/N: 77678703 Seagate P/N: 77678559
Amp US P/N: 2-557103-1 Amp US P/N: 2-557101-1
Amp Japan P/N: 5-175475-9 Amp Japan P/N: 5-175474-9
2.70
(.106)
*
Section X–X
1.32
(.052)
Pin 1
Side View
1.52
(.060)
57.87
(2.278)
*
62.15
(2.447)
Housing
0.15
0.15
0
–0.15
+ .000
[
– .006
MYM
–Y–
± 0.15
(± .005)
MYM
7.00
(.276)
12.70
(.500)
[
Front View
Insert cable
X
connector here
Top View
PCB Contacts
Contacts are recessed along the center strip (see side view).
*
0.50
(.020)
0.3
(.012)
MYM
Pin 1
1.27
(.05)
Typ
X
C
of Datum Y
L
Back View
Figure 11.6.3-1b. Nonshielded 80 pin I/O and DC power connector for "WC" models
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11.6.3.2 Mating connectors for "WC" models
The nonshielded connector shall be an 80 conductor connector consisting of two rows of 40 contacts with
adjacent contacts 50 mils (1.27 mm) apart. The connector is keyed by its shape. The characteristics of the
drive's PCB mounted connector are shown in Figure 11.6.3-1b.
Recommended mating flat cable connector part numbers are:
Seagate P/N: 77678558
Amp P/N: 557089-7
11.6.3.3 J2 Jumper plug part number
Option select header connector J2 on the PCB (see Figure 10.1-1) uses an unusual type of jumper plug,
so its part number is given here for reference:
Molex 52747-0211 (Seagate P/N 77679052).
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Table 11.6.3-1a. "WD" models differential cable pin assignments (Nonshielded connector)
Note. The minus sign next to the signals indicates asserted state is the low voltage of
the two levels used for logic signals.
Connector Cable Connector
Signal Contact Conductor Contract Signal
Name* Number Number Number Name
+DB(12) 1 1 2 35 -DB(12)
+DB(13) 2 3 4 36 -DB(13)
+DB(14) 3 5 6 37 -DB(14)
+DB(15) 4 7 8 38 -DB(15)
+DB(P1) 5 9 10 39 -DB(P1)
Ground 6 11 12 40 Ground
+DB(0) 7 13 14 41 -DB(0)
+DB(1) 8 15 16 42 -DB(1)
+DB(2) 9 17 18 43 -DB(2)
+DB(3) 10 19 20 44 -DB(3)
+DB(4) 11 21 22 45 -DB(4)
+DB(5) 12 23 24 46 -DB(5)
+DB(6) 13 25 26 47 -DB(6)
+DB(7) 14 27 28 48 -DB(7)
+DB(P) 15 29 30 49 -DB(P)
DIFFSENS 16 31 32 50 Ground
TermPwr 17 33 34 51 TermPwr
TermPwr 18 35 36 52 TermPwr
Reserved 19 37 38 53 Reserved
+ATN 20 39 40 54 -ATN
Ground 21 41 42 55 Ground
+BSY 22 43 44 56 -BSY
+ACK 23 45 46 57 -ACK
+RST 24 47 48 58 -RST
+MSG 25 49 50 59 -MSG
+SEL 26 51 52 60 -SEL
+C/D 27 53 54 61 -C/D
+REQ 28 55 56 62 -REQ
+I/O 29 57 58 63 -I/O
Ground 30 59 60 64 Ground
+DB(8) 31 61 62 65 -DB(8)
+DB(9) 32 63 64 66 -DB(9)
+DB(10) 33 65 66 67 -DB(10)
+DB(11) 34 67 68 68 -DB(11)
Notes. 1. The conductor number refers to the conductor position when using 0.025 inch centerline flat ribbon
cable. Other cable types may be used to implement equivalent contact assignments.
* See paragraph 11.6.4.1 for detailed electrical characteristics of these differential signals.
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Table 11.6.3-1b. "WC" models single ended, 80 pin cable pin assignments (Non-shielded connector)
Signal Pin Number Signal Pin Number
+12 V 1 12 V GND 41
+12 V 2 12 V GND 42
+12 V 3 12 V GND 43
+12 V 4 12 V GND 44
NC 5 NC 45
NC 6 NC 46
-D11 7 GND 47
-D10 8 GND 48
-D9 9 GND 49
-D8 10 GND 50
-IO 11 GND 51
-REQ 12 GND 52
-CO 13 GND 53
-SEL 14 GND 54
-MSG 15 GND 55
-RST 16 GND 56
-ACK 17 GND 57
-BSY 18 GND 58
-ATN 19 GND 59
-DBP 20 GND 60
-DB7 21 GND 61
-DB6 22 GND 62
-DB5 23 GND 63
-DB4 24 GND 64
-DB3 25 GND 65
-DB2 26 GND 66
-DB1 27 GND 67
-DB0 28 GND 68
-DP1 29 GND 69
-D15 30 GND 70
-D14 31 GND 71
-D13 32 GND 72
-D12 33 GND 73
+5 V 34 5 V GND 74
+5 V 35 5 V GND 75
+5 V 36 5 V GND 76
SYNC [1] 37 LEDC [2] 77
MTRON [3] 38 DL YDST [4] 78
SCSIAO [5] 39 SCSIA1 [5] 79
SCSIA2 [5] 40 SCSIA3 [5] 80
Notes: Singals [1] thru [5] are used in place of installing jumpers and cables on option select connectors J2,
J5 and J6. See also notes following Figure 10.1-1.
[1] Synchronous spindle synchronizing signal, generated by either host or drive.
[2] Front panel LED signal; indicates driv e activity for host front panel hard drive activity indicator.
[3] Asserted by host to enable Motor Start option (enables starting motor via SCSI bus command).
[4] Asserted by host to enable Delayed Motor Start option (motor starts at power on or after a delay
of 12 seconds times drive ID). This and [3] above are mutually exclusive options.
[5] Binary code on A3, A2, A1 and A0 asserted by host to set-up SCSI bus ID in drive.
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Note. The minus sign next to the signals indicates asserted state is the low voltage of the two levels used
for logic signals.
Table 11.6.3-1c. "W" models single ended cable pin assignments (nonshielded connector)
Connector Cable Connector
Signal Contact Conductor Contact Signal
Name* Number Number Number Name
Ground 1 1 2 35 -DB(12)
Ground 2 3 4 36 -DB(13)
Ground 3 5 6 37 -DB(14)
Ground 4 7 8 38 -DB(15)
Ground 5 9 10 39 -DB(P1)
Ground 6 11 12 40 -DB(0)
Ground 7 13 14 41 -DB(1)
Ground 8 15 16 42 -DB(2)
Ground 9 17 18 43 -DB(3)
Ground 10 19 20 44 -DB(4)
Ground 11 21 22 45 -DB(5)
Ground 12 23 24 46 -DB(6)
Ground 13 25 26 47 -DB(7)
Ground 14 27 28 48 -DB(P)
Ground 15 29 30 49 Ground
Ground 16 31 32 50 Ground
TermPwr 17 33 34 51 Ter mPwr
TermPwr 18 35 36 52 Ter mPwr
Reserved 19 37 38 53 Reserved
Ground 20 39 40 54 Ground
Ground 21 41 42 55 -ATN
Ground 22 43 44 56 Ground
Ground 23 45 46 57 -BSY
Ground 24 47 48 58 -ACK
Ground 25 49 50 59 -RST
Ground 26 51 52 60 -MSG
Ground 27 53 54 61 -SEL
Ground 28 55 56 62 -C/D
Ground 29 57 58 63 -REQ
Ground 30 59 60 64 -I/O
Ground 31 61 62 65 -DB(8)
Ground 32 63 64 66 -DB(9)
Ground 33 65 66 67 -DB(10)
Ground 34 67 68 68 -DB(11)
**Notes. 1. See paragraph 11.6.4.1 for detailed electrical characterics of these signals.
2. The conductor number refers to the conductor position when using 0.025-inch
certerline flat ribbon cable. Other cables types may be used to implement
equivalent contact assignments.
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11.6.4 Electrical description
"W/WC" models use single ended interface signals. These signals must be terminated with 110 ohm active
termination circuits at each end of the total cable. "WC" model drives have no provisions for adding terminators
on the PCB. Some method of external termination must be provided by the user, systems integrator or the host
equipment manufacturer. On models "W" terminator power can be supplied from the drive to the I/O connector
by the drive by properly positioning the TP jumper plug. See Figure 10.1-1a. Single Ended circuits use open
collector or three state drivers. See Figure 11.6.4-1a and 11.6-1b.
The "WD" model drives use differential interf ace signals and each of these must be terminated at each end of
the total cable with 330 ohms to +5 V and 330 ohms to ground with 150 ohms between each differential pair .
All I/O circuits are open collector, three state drivers. See Figure 11.6.4-1b for circuit drawing. "WD" model
drives have no provisions for adding terminators on the PCB. Some method of external termination must be
provided (where needed) by the user , systems integ rator or host equipment manuf acturer. The "WD" model
drive can furnish terminator power to the SCSI I/O cable by properly positioning the TP jumper plug. See
Figure 10.1-1a.
11.6.4.1 Single ended drivers/receivers
Typical single ended driver and receiver circuits f or the "W/WC" model drives are shown in Figure 11.6.4-1a.
Terminator circuits shown (Note [1]) are to be enabled ("W" model) or installed externally ("WC" model) only
when the disc drive is first or last in the daisychain.
T ransmitter characteristics
Single ended drives use an ANSI SCSI compatible open collector single ended driver . This driver is capab le
of sinking a current of 48 mA with a low level output voltage of 0.4 volt.
Receiver characteristics
Single ended drives use an ANSI SCSI single ended receiver with hysteresis gate or equivalent as a line
receiver.
Line Driver
Transmitter
(or transceiver)
(2)
TP TP
(4)
Flat
110
Ohm
Cable
Pair
(3)
(1)
Line Receiver
(4)
110
(1)
Ohm
Receiver
(2)
[1] Part of active terminator circuits. Termination is required when the drive is first or last in the daisychain.
Terminators and a place to plug them must be provided by the user, systems integrator or systems
designer.
[2] ANSI SCSI compatible circuits
[3] Total interface cable length should not e xceed that specified in par agraph 11.6.2.2.1.
[4] Arrangements for connecting terminator power to the terminators must be made by the systems de-
signer. The "WC" model drives cannot furnish terminator power because the 80 pin I/O connector has no
pins devoted to terminator power. See para graph 11.6.4.
[5] Interface signals levels and logical sense at the drive I/O connector are defined as follows:
Logic Level Driver Output Receiver Input
Negated (0) >2.5 V: <5.25 V >2.0 V: <5.25 V
Asserted (1) <0.4 V: >0.0 V <0.8 V: >0.0 V
The difference in the voltages betw een input and output signals is due to the losses in the cable.
Figure 11.6.4-1a. Typical single ended transmitters and receivers
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11.6.4.2 Differential drivers/receivers
Typical differential driver and receiver circuits used b y the "WD" model driv es are shown in Figure 11.6.4-1.
The drive has no provisions for terminator circuits on the drives.
Differential signals
All differential interface signals consist of two lines denoted +SIGNAL and -SIGNAL. A signal is true when
+SIGNAL is more positive than -SIGNAL, and a signal is false when -SIGNAL is more positive than +SIGNAL. All assigned signals shall be terminated at each end of the cable as shown in Figure 11.6.4-1. Drive
user, systems integrator or OEM man ufacturer must pro vide some external means of termination. Terminator
power can be supplied by the drive to the I/O cable by properly positioning a jumper plug. See Figure 10.1-1.
Output characteristics
Each signal driven by differential interface drives shall have the following output characteristics when measured at the disc drive SCSI connector:
Low-level output voltage* = 2.0 V maximum at Low-level output current = 55 milliamps.
High-level output voltage* = 3.0 V minimum at High-level output current = -55 milliamps
Differential voltage = 1.0 V minimum with common-mode voltage ranges from -7 V dc to +12 V dc.
* These voltages shall be measured between the output terminal and the SCSI device’s logic ground refer-
ence.
The output characteristics shall additionally conform to EIA RS-485-1983.
Input characteristics
Each signal received by diff erential interf ace drives shall ha ve the following input characteristics when measured at the disc drive SCSI connector:
Input current on either input = +2.0 milliamps maximum (includes both receivers and passive drivers).
This requirement shall be met with the input voltage varying between -7 V dc and +12 V dc, with power on or
off, and with the hysteresis equaling 35 mv, minimum.
The input characteristics shall additionally conform to EIA RS-485-1983.
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+5V
5.6K
Transmit/Receive
Enable (1)
DIFFSENS (6) Disable
Transmit or
Receive
Signal (2)
SCSI Device at Beginning of I/O Cable
(usually Host Adaptor/Initiator)
+5V
TE
LSI
XCVR
RE
R2
Term
(5)
Power
330
(4)
Ohm
1
1
+5V
Transmit/Receive
Enable (1)
DIFFSENS (6)
Transmit or
Receive
Signal (2)
5.6K
Ohm
330
Ohm
150
(7)
Twisted or Flat
(3)
Cable Pair
+5V
TE
LSI
XCVR
RE
Disable
R2
1
1
Term
Power
330
Ohm
150
Ohm
330
Ohm
(5)
(4)
(7)
SCSI Device at End of I/O Cable
(Drive/Target)
Notes.
[1] Positive Logic Enables Transmitter (+5 V = Asserted)
Negative Logic Enables Receivers (0 V = Asserted)
[2] Negative Logic Signal (0 V = Asserted)
[3] Total interface cable length should not exceed value given in section 11.6.2.1 from first SCSI device at
beginning to end of daisychain. See section 11.6.4.1 for signal characteristics.
[4] I/O Line terminators. If SCSI device is a Seagate disc drive, terminators and a place to plug them in must
be provided external to the drive by user or systems integrator where needed. The drive has no terminators
and there are no provisions on the drive for terminator installation.
[5] Arrangements for connecting terminator power to the terminators must be made by the systems designer.
As a help, drive +5 V power can be made available on model ST31200WD on SCSI bus pins 17, 18, 51
and 52 for powering external terminators. The drive option select header jumpers (TP) (Figure 10.1-1a)
must be installed in the proper position to provide terminator power from the drive to the SCSI bus.
[6] SCSI I/O line (pin 16) disables I/O circuits if single-ended cable is plugged in.
[7] SCSI I/O cable ground. See Table 11.6.3-1.
Figure 11.6.4-1b. Typical differential I/O line transmitter/receiver and terminators
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11.6.4.3 Terminator requirements
Drive I/O termination is not provided internally on "WD/WC" model drives. Terminator circuits must be provided in some manner
facturer . It is highly recommended that ANSI SCSI-2 Standard's Alternative 2 termination (active termination)
be used for single-ended model "W" and model "WC" applications, especially if the bus will be operated at
transfer rates abov e 5 Mbytes/sec. The "W" model provides on-board active termination that can be disabled
by removal of the enable jumper TE (see Figure 10.1-1). Power for the external ter minators may be taken
from the "W/WD" model drives (see paragraph 11.6.4.3) by installing a jumper plug on one of the J2-TP
positions (see Figure 10.1-1a). If the TP jumper is not installed terminator power must be supplied by some
other source. All single initiator/single target (nondaisychain) applications require that the Initiator and disc
drive be terminated. Daisychain applications require that only the units at each end of the daisychain be
terminated. All other peripherals on the chain should not be terminated. (See Figure 11.6.3-2).
Note. Remove external terminator modules where terminators are not required. Removal of terminator
power source selection jumper TP (see Figure 10.1-1a) does not disconnect the terminators from
the circuit.
Note. ACTIVE TERMINATORS ARE HIGHLY RECOMMENDED FOR USED IN THE DAISYCHAIN AS
DESCRIBED ABOVE. ACTIVE AND PASSIVE TERMINATORS SHOULD NOT BE MIXED ON THE
SAME SCSI BUS.
external
to the "WD/WC" model drives by the user , systems integrator or OEM manu-
11.6.4.4 Terminator power
The "W/WD" model drives may be configured to provide terminator power via pins 17, 18, 51 and 52 of the
SCSI Bus, to supply power to the SCSI b us . See Figure 11.6.3-1a and 10.1-1. The drive can provide power
both to external terminators at the drive end and to the SCSI Bus terminator power lines to provide power for
terminators at the other end of the I/O cable.
SCSI devices providing terminator power (TERMPWR) shall have the following characteristics:
V TERM = 4.50 V to 5.25 V
800 mA min source drive capability
1.0 A maximum
The "WC" model drives cannot furnish terminator power, because no pins in the 80 pin I/O connector are
devoted to terminator pow er.
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11.7 Disc drive SCSI timing
Table 11.7-1. Disc drive SCSI timing
Waveform Waveform
Description Symbol [1] Table [1] Typical Max
Target Select Time (no Arbitration) T00 N/A <1 µs 250 µs
Target Select Time (with Arbitration) T01 4.5-1,2 2.34 µs 2.44 µs
Target Select to Command T02 4.5-1 3.82 µs 3.84 µs
Target Select to MSG Out T03 4.5-2 1.62 µs 1.66 µs
Identify MSG to Command T04 4.5-3 3.56 µs 3.64 µs
Command to Status T05 4.5-5 Command Dependent
Command to Data (para. In) T06 4.5-9 Command Dependent
Command to Data (para. Out) T07 4.5-10 Command Dependent
Command to Data (Write to Data Buffer) T08 4.5-10 Command Dependent
Command to Disconnect MSG T09 4.5-6 Command Dependent
Disconnect MSG to Bus Free T10 4.5-6,14 0.68 µs 0.78 µs
Disconnect to Arbitration (for Reselect) T11 4.5-6 Command Dependent
This measures disconnected CMD overhead.
Target win Arbitration(for Reselect) T12 4.5-7 3.0 µs
Arbitration to Reselect T13 4.5-7 1.82 µs
Reselect to Identify MSG In T14 4.5-7 1.52 µs
Reselect Identify MSG to Status T15 4.5-8 Command Dependent
Reselect Identify MSG to Data (media) T16 4.5-11 Command Dependent
Data to Status T17 4.5-15 Command Dependent
Status to Command Complete MSG T18 4.5-5,8,15 1.04 µs
Command Complete MSG to Bus Free T19 4.5-5,8,15 0.80 µs
Data to Save Data Pointer MSG T20 4.5-14 5.00 µs
Save Data Pointer MSG to Disconnect
MSG T21 4.5-14 0.85 µs
Command Byte Transfer T22 4.5-4 0.06 µs
Next Command Byte Access 4.5-4
Next CDB Byte Access (Byte 2 of 6) T23.6.2 4.5-4 0.54 µs 0.64 µs
Next CDB Byte Access (Byte 3 of 6) T23.6.3 4.5-4 0.11 µs 0.14 µs
Next CDB Byte Access (Byte 4 of 6) T23.6.4 4.5-4 0.12 µs 0.14 µs
Next CDB Byte Access (Byte 5 of 6) T23.6.5 4.5-4 0.13 µs 0.14 µs
Next CDB Byte Access (Byte 6 of 6) T23.6.6 4.5-4 0.11 µs 0.14 µs
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continued from previous page
Waveform Waveform
Description Symbol [1] Table [1] Typical Max.
Asynchronous Data Transfer Characteristics: (continued)
Next CDB Byte Access (Byte 2 of 10) T23.10.2 4.5-4 0.51 µs 0.60 µs
Next CDB Byte Access (Byte 3 of 10) T23.10.3 4.5-4 0.13 µs 0.14 µs
Next CDB Byte Access (Byte 4 of 10) T23.10.4 4.5-4 0.11 µs 0.14 µs
Next CDB Byte Access (Byte 5 of 10) T23.10.5 4.5-4 0.12 µs 0.14 µs
Next CDB Byte Access (Byte 6 of 10) T23.10.6 4.5-4 0.12 µs 0.14 µs
Next CDB Byte Access (Byte 7 of 10) T23.10.7 4.5-4 0.11 µs 0.14 µs
Next CDB Byte Access (Byte 8 of 10) T23.10.8 4.5-4 0.12 µs 0.12 µs
Next CDB Byte Access (Byte 9 of 10) T23.10.9 4.5-4 0.11 µs 0.14 µs
Next CDB Byte Access (Byte 10 of 10) T23.10.10 4.5-4 0.13 µs 0.14 µs
Data In Byte Transfer (parameter) T24 4.5-12 0.06 µs
Data Out Byte Transfer (parameter) T25 4.5-13 0.06 µs
Next Data In Byte Access (parameter) T26 4.5-12 0.10 µs 0.14 µs
Next Data Out Byte Access (parameter) T27 4.5-13 0.12 µs 0.14 µs
Data In Byte Transfer (media) [2] T28 4.5-12 0.04 µs 0.06 µs
Data Out Byte Transfer (media) [2] T29 4.5-13 0.04 µs 0.06 µs
Next Data In Byte access (media [2] T30 4.5-12 0.12 µs 0.14 µs
Next Data Out Byte access (media [2] T31 4.5-13 0.10 µs 0.14 µs
MSG IN Byte Transfer T32 4.5-5,7 0.06 µs
4.5-8,14,15
MSG OUT Byte Transfer T33 4.5-2 0.06 µs
STATUS Byte Transfer T34 4.5-5,8 0.06 µs
4.5-15
Synchronous Data Transfer Characteristics:
Request Signal Transfer Period [3] - - various 800 ns
Notes.
[1] See SCSI-2 Interface Manual P/N 77738479 (called Volume II), section 4.5
[2] Maximum SCSI asynchronous interface transfer rate is given in section 5.3.
[3] Synchronous Transfer Period is determined by negotiations between an Initiator and a Drive. The Drive
is capable of setting periods as given in section 11.5. See also sections 3.1.5.2 and 3.5.3.2 of the SCSI2 Interface Product Manual (P/N 77738479) for a description of synchronous data transfer operation.
General timing diagrams for SCSI interface operation are shown in the SCSI-2 Interface Product Manual
P/N 77738479, Section 4.5. The specific timing values that apply to this drive are listed in Table 11.7-1.
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12.0 Options
All options are incorporated or packaged at the manufacturing facility.
12.1 Front panel
The normal front panel available is black plastic. Other panel colors may be special ordered. Each panel has
a single rectangular green LED indicator lens which, when glowing, indicates the drive is selected.
12.2 Single unit shipping pack
The drive is normally shipped in bulk packaging to provide maximum protection against transit damage. Units
shipped individually require additional protection as provided by the single unit shipping pack. Users planning
single unit distribution should specify this option.
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13.0 Accessories
All accessories are designed for implementation by the customer.
13.1 Front panel kit
Same as 12.1 but includes all mounting hardware to support field installation.
13.2 Installation guide
Guide (P/N 77767468) provides basic information on the care and handling of Winchester disc peripherals in
general. Some information needed when installing the drive is included to assist individuals not familiar with
the product. It also includes basic information to assist in obtaining service for the drive.
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14.0 Seagate Technical support services
Seagate Technology provides technical support literature and diagnostic utilities to Authorized Distributors.
Please contact your dealer for technical support and installation troubleshooting. Product Technical Support
is available for all Seagate products by calling the SeaFAXTM, SeaFONETM, SeaTDDTM or SeaBOARD
services. These are toll calls.
SeaFAX number: United States 408/438-2620 England 44-62-847-7080
You can use a touch-tone telephone to access Seagate’s automated FAX delivery system and select technical
support information by return FAX. This service is available 24 hours a day, 7 days a week.
Seagate Technical Support FAX: 408/438-8137
You can FAX specific questions or comments to Seagate technical support specialists 24 hours daily.
Responses are FAXed between 8:00 a.m. and 5:00 p.m. (Pacific time), Monday through Friday.
SeaFone telephone number: 408/438-8222
The enhanced phone system provides recorded technical information on selected Seagate products while you
are on hold. Technical support specialists are available to answer questions from 8:00 AM to 5:00 PM PST,
Monday through Friday. Recordings are accessible 24 hours a day, 7 days a week.
SeaTDD telephone number: 408/438-5382
TDD is a Telecommunication Device for the Deaf where two people can communicate using a keyboard that
is connected to the phone line. A TDD device is required to access this service. This service is available from
8:00 AM to 5:00 PM PST, Monday through Friday.
TM
SeaBOARD service:
The Seagate Technical Support Bulletin Board System (BBS) is available 24 hours a day, 7 days a week. A
modem is required to access this service. Model required. (300–9600 baud, 8-N-1). This is a toll call.
With this service you can access:
• Specifications and jumper configurations for all Seagate products.
• Reprints of Seagate documentation.
• A directory of information and helpful utilities that you can download to your own computer.
BBS Modem
Location Number
USA, Mexico, Latin America 408/438-8771
England 44-62-847-8011
France 33-1-40-67-1034
Germany 49-89-140-9331
Singapore 65-292-6973
Australia 61-2-756-2359
Korea 82-2-556-7294
Thailand 662-531-8111
CompuServe:
Online technical support for Seagate Products is available on CompuServe. Type "Go Seagate" to access our
technical support forum.
Page 78
70 Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. C
_____________________________________________________________________________________
Seagate Peripheral Family
Listed below are some of the SEAGATE Peripheral family members. For specific information on each member,
refer to the appropriate documents.
Model Model Product Unformatted
Name Number Manual Interface Capacity (MB)
HAWK 1 Family
ST11200 ST11200N/ND/NC 77738476(I) SCSI-2 1248*
ST1980N/ND/NC 77738476(I) SCSI-2 1021*
ST1950N 77738476(I) SCSI-2 953
ST1830N 77738476(I) SCSI-2 834
HAWK 2 Family
ST12400 ST12400N/ND/NC 77767450(I) SCSI-2 2537*
ST11900N/ND/NC 77767450(I) SCSI-2 2003*
ST12400 Wide ST12400W/WD/WC 77767457(I) SCSI-2 2537*
HAWK 1LP Family
ST31200 ST31200N/ND/NC 77767452(I) SCSI-2 1258.8*
ST3620N/NC 77767452(I) SCSI-2 651.8*
ST31200 Wide ST31200W/WD/WC 77767461(I) SCSI-2 1258.8*
ST3620W 77767461(I) SCSI-2
HAWK 2LP Family
ST32430 ST32430N/ND 77767471(I) SCSI-2 2.59 GB*
ST31230N/ND 77767471(I) SCSI-2 1.28 GB*
ST32430 Wide ST32430W/WD/WC/DC 77767480(I) SCSI-2 2.59 GB*
ST31230W/WD/WC/DC 77767480(I) SCSI-2 1.28 GB*
HAWK 2XL Family
ST32151 ST32151N 77767489(I) SCSI-2
ST31051N 77767489(I) SCSI-2
HAWK 4 Family
ST15230 ST15230N/ND 77767472(I) SCSI-2 5170 MB*
ST15230 Wide ST15230W/WD/WC/DC 77767479(I) SCSI-2 5170 MB*
SCSI INTERFACE
SCSI Interface Manual, Vol. 2 77765466 (II)** SCSI-2 N/A**
SCSI Interface Manual; Vol. 2; Ver. 2 77738479 (II)** SCSI-2/SCSI-3 N/A**
* Product Manual covers both Single-Ended and Differential Interfaces.
** Interface Manual for several different Product Manuals (Volume 2 of 2 Volume set).
Page 79
Product Manual - Hawk 1LP Family (Wide bus) SCSI-2 (Volume 1), Rev. C 71
______________________________________________________________________________________
continued from previous page
Model Model Product Unformatted
Name Number Manual Interface Capacity
(MB)
ST3600 ST3500N 77738477(I) SCSI-2 502
ST3600N 77738477(I) SCSI-2 617
ST3610N/ND/NC 77738495(I) SCSI-2 635*
ST3600A 77738485 AT (IDE) 617
ST1480 ST1400N 77765458(I) SCSI-2 383
Family ST1401N 77765458(I) SCSI-2 39 0
ST1480N 77765458(I) SCSI-2 492
ST1481N 77765458(I) SCSI-2 492
ST1581N 77738471(I) SCSI-2 610
ST1480A 77738463 AT (IDE) 490
ST1400A 77738463 AT (IDE) 381
ST1401A 77738463 AT (IDE) 395
WREN 5 ST4442E 77765300 ESDI 442 (15 Hd, 1412 Cyl)
Family ST4383E 77765300 ESDI 383 (13 Hd, 1412 Cyl)
ST4384E 77765300 ESDI 383 (15 Hd, 1224 Cyl)
ST4702N 77765336 SCSI 702
ST4385ND
ST4702ND 77765366 SCSI 385, 702 (Dif. I/O)*
ST4385N 77765378 SCSI 385 (15 Hd, 791 Cyl)
WREN 6 ST4766N/ND 77765353 SCSI 766 (Dif. I/O)*
Family ST4766E 77765358 ESDI 766, 383
WREN 6 HH ST2383N/502N 77765414 SCSI-1 383, 502
Family ST2274A/383A 77765393 AT (IDE) 274, 383
ST2182E/383E 77765369 ESDI 182, 383
WREN 7 ST41200N/ND 77765417 SCSI 1200*
Family ST41200N/ND 77765374 SCSI-2 1200*
WREN 8 ST41650N 77765470 (I) SCSI-2 1650
Family ST41651N/ND 77738474 (I) FAST SCSI-2 1650
WREN 9 ST42100N 77738475 (I) FAST SCSI-2 2200
Family
WRENRNR-2 ST4767N 77765445 (I) SCSI-2 767 (Fast Access)
Family ST4767E/769E 77765457 ESDI 767
* Product Manual covers both Single-Ended and Differential Interfaces.
Page 80
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Page 82
Seagate Technology, Inc.
920 Disc Drive, Scotts Valley, California 95066-4544, USA
Publication Number: 77767461, Rev. C (03/95) Printed in USA
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