Sony SDX-700C, SDX-700C/R Product Specifications Manual

SDX-700C
SDX-700C/R

5.25”Model

Product Specification Manual

Version 2.1

Dec. 2001

Copyright © 2001, Sony Corporation.
All right reserved.

NOTE:

This Product Specification Manual is applicable for AIT-3 drive.

Notice

This document contains proprietary information which is protected by copyright. All rights reserved. No part of
this document may be photocopied, reproduced or translated to another language without prior written consent of
Sony. The information contained in this document is subject to change without notice.

SONY MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS DOCUMENT. Sony shall not be liable
for errors contained herein, or indirect, special, incidental or consequential damages in connection with the
furnishing, performance, or use of this document.

© Copyright 1998,1999, Sony Corporation

For further information , please contact the appropriate Sony location listed below;

Sony Corporation
Tape Streamer Marketing Section
Data Storage Sales & Marketing Dept
Computer Peripherals Marketing Division
Electronic Devices Marketing Group

15F Gotenyama Hill, 4-7-35 Kitashinagawa
Shinagawa-ku, Tokyo 140-0001 Japan
TEL: 81-(0)3-5448-2289
FAX :81- (0)3-5448-7902

Sony International (Europa) GmbH

CPCE PMS

Europa Formum Dornach
Humboldtstrasse 8 D-85609
Aschheim Bei München Germany
TEL:(49) 2389-95-10 47
FAX:(49) 2389-29-21

Sony Electronics Inc.,
Component & Computer Products Group

3300 Zanker Road, San Jose,
California 95134 U.S.A.
TEL:(1) 800-352-7669

Sony Australia Limited

Information Technology Products Division

33-39 Talavera Road, North Ryde, N.S.W.2113,
Australia
TEL: (61) 2-9887-6667
FAX: (61) 2-9805-1241

SDX-700 series Ver.2.1 Table of Contents

Table of Contents

1. Introduction

1.1. About this product specification Manual 1- 1

1.2. Introducing the SONY AIT technology 1- 1

1.3. Features of the drive 1- 2

1.4. Reference 1- 3

1.5. How to get ECMA-222 Standard Document 1- 3

1.6. How to get ECMA-246 Standard Document 1- 3

1.7. How to get MAM Document 1- 3

2. Specifications

2.1. Specifications 2- 1

2.1.1. Dimensions 2- 1

2.1.1.1. Mounting Holes 2- 2

2.1.2. Weight 2- 4

2.1.3. Connectors 2- 4

2.1.3.1. SCSI Cables and Terminators 2- 4

2.2. Environmental specifications 2- 4

2.2.1. Temperature and Humidity Range 2- 4

2.2.2. Altitude 2- 5

2.2.3. Suspected Particulate 2- 5

2.2.4. Vibration 2- 5

2.2.5. Shock 2- 5

2.2.6. Acoustic Noise 2- 5

2.2.7. EMC 2- 5

2.2.8. Orientation 2- 5

2.3. Performance Specification 2- 6

2.3.1. Data Capacity 2- 6

2.3.2. Data Transfer Rate 2- 7

2.3.2.1. Sustained Data Transfer Rate to and from the tape 2- 7

2.3.2.2. Burst Transfer Rate to and from the SCSI Bus 2- 7

2.3.3. Initialize Time 2- 7

2.3.4. Load Time 2- 7

2.3.5. Unload Time 2- 7

2.3.6. Search Time 2- 7

2.3.7. Rewind Time 2- 7

2.3.8. Error Rate 2- 7

2.3.9. Retry Limits on Rewrites 2- 8

2.3.10. Definition of Failure 2- 8

2.3.11. Mean Time Between Failure 2- 8

2.3.12. Mean Time to Repair 2- 8

2.3.13. Component Life 2- 8

2.3.14. Durability 2- 8

2.4. Safety 2- 8

2.4.1. Conditions of Acceptability 2- 9

2.5. Installation Requirements 2- 9

2.5.1. Power Requirements 2- 9

SDX-700 series Ver.2.1 Table of Contents

2.6. Data Compression 2- 9

3. Installation

3.1. Installation Guide 3- 1

3.1.1. SCSI ID Number Jumper 3- 2

3.1.2. Termination Power Switch 3- 2

3.1.3. Parity Disable Jumper 3- 2

3.1.4. Data Compression ON Switch 3- 2

3.1.5. Power Connector 3- 3

3.1.6. SCSI 68 pin Connector 3- 3

4. Operation

4.1. Summary of LED indications 4- 1

4.2. Operator Action 4- 2

4.2.1. Powering up the SDX-700C 4- 2

4.2.2. Inserting Cassettes 4- 2

4.2.3. Removing Cassettes 4- 2

4.2.4. Hand Reset Hole 4- 2

4.2.5. Write-Protecting Cassettes 4- 3

4.3. Internal Function 4- 3

4.3.1. The Load Sequence
(Effective only for SDX-T3N,non MIC cassette ,only )
Refer to 12.2.1. Fast Media Load/Unload (Effective for
SDX1-25C, SDX1-35C and SDX2-50C, MIC cassette)

4- 3

4.3.2. The Unload Sequence
(Effective for SDX-T3N,non MIC cassette ,only )
Refer to 12.2.1. Fast Media Load/Unload (Effective for
SDX1-25C, SDX1-35C and SDX2-50C, MIC cassette)

4- 3

4.3.3. Power-Fail or SCSI Reset Handling 4- 4

4.3.4 Diagnostic and Normal Status Displays 4- 4

4.3.4.1. Diagnostic Status Display 4- 4

4.3.4.2. Normal Status Display 4- 5

4.4. TapeAlert 4- 5

4.5. Tape Format 4- 5

4.5.1. Tape Partitions 4- 6

4.5.1.1. Formatting partitions 4- 6

4.6. Maintenance , Troubleshooting and Service 4- 6

4.6.1. Head Cleaning 4- 6

4.6.1.1. Message when cleaning cassette is necessary 4- 6

4.6.1.2. Usage of cleaning cassette 4- 6

4.6.2. Troubleshooting Guide 4- 7

4.6.2.1. Operational Problems 4- 7

4.6.2.2. Replace Tape 4- 10

4.6.2.3. Media Warning 4- 10

4.6.3. Clearance for Service 4- 10

4.6.4. Packaging for Return to Sony 4- 10

SDX-700 series Ver.2.1 Table of Contents

5. SCSI Interface

5.1. Introduction 5- 1

5.1.1. Overview of the SCSI Interface 5- 1

5.1.2. Supported Messages 5- 1

5.1.3. Supported and Unsupported Commands 5- 2

5.2. SCSI BUS Operation 5- 2

5.2.1. Typical SCSI Operation 5- 2

5.2.2. Disconnect 5- 3

5.3. Message Specification 5- 4

5.3.1. COMMAND COMPLETE (00h) 5- 4

5.3.2. EXTENDED MESSAGE (01h) 5- 5

5.3.2.1. PARALLEL PROTOCOL REQUEST (04h) 5- 6

5.3.2.2. SYNCHRONOUS DATA TRANSFER REQUEST (01h) 5- 6

5.3.2.3. WIDE DATA TRANSFER REQUEST 5- 8

5.3.3. SAVE DATA POINTER (02h) 5- 9

5.3.4. RESTORE POINTERS (03h) 5- 9

5.3.5. DISCONNECT (04h) 5- 9

5.3.6. INITIATOR DETECTED ERROR (05h) 5- 9

5.3.7. ABORT (06h) 5- 10

5.3.8. MESSAGE REJECT (07h) 5- 10

5.3.9. NO OPERATION (08h) 5- 10

5.3.10. MESSAGE PARITY ERROR (09h) 5- 10

5.3.11. BUS DEVICE RESET (0ch) 5- 10

5.3.12. IDENTIFY (80h-FFh) 5- 11

5.3.13. IGNORE WIDE RESIDUE (23h) 5- 11

5.4. Status Specification 5- 11

6. Command Specification

6.1. ERASE 19h 6- 2

6.2. INQUIRY 12h 6- 3

6.3. LOAD / UNLOAD 1Bh 6- 8

6.4. LOCATE 2Bh 6- 10

6.5. LOG SELECT 4Ch 6- 11

6.6. LOG SENSE 4Dh 6- 13

6.6.1. The Log Page Descriptor 6- 14

6.6.2. The Log Parameter Descriptor 6- 15

6.6.3. Supported Log Pages 6- 16

6.6.3.1. Summary List of Supported Pages 6- 17

6.6.4. Write and Read Error Counters Pages 6- 17

6.6.5. Last N Error Events List 6- 18

6.6.6. TapeAlert Log Page 6- 19

6.6.7. Tape Log Page(Sony Unique) 6- 19

6.6.8. Tape Capacity Log Page 6- 24

6.6.9. Drive Usage Log Page (Sony Unique) 6- 26

6.6.10. Read and Write Frame Error Counter Page 6- 27

6.6.11. Data Compression Transfer Log Page 6- 28

6.6.12. AIT Log Page (3Ch) 6- 29

SDX-700 series Ver.2.1 Table of Contents

6.6.13. MIC Fixed Length Information page (3Dh) 6- 30

6.6.14. MIC Variable Length Information Page (3Eh) 6- 33

6.7. MODE SELECT 15h 6- 40

6.7.1. Disconnect-Reconnect Page (02h) 6- 43

6.7.2. Control Mode Page (0Ah) 6- 44

6.7.3. Data Compression Control Page (0Fh) 6- 45

6.7.4. Device Configuration Page (10h) 6- 47

6.7.5. Medium Partitions Parameter Page (11h) 6- 49

6.7.6. Medium Partitions Parameter Page
(for multi-partitioned tapes)(11h)

6- 51

6.7.7. Informational Exceptions Control Page (1Ch) 6- 54

6.7.8. AIT Device Configuration Page (31h) 6- 55

6.7.9. Append Partition (32h) 6- 57

6.7.10. Delete Partition (33h) 6- 60

6.8. MODE SENSE 1Ah 6- 64

6.8.1. Mode Sense 31h ( AIT Device Configuration Page) 6- 66

6.9. PERSISTENT RESERVE IN 5Eh 6- 67

6.10. PERSISTENT RESERVE OUT 5Fh 6- 71

6.11. PREVENT ALLOW MEDIUM REMOVAL 1Eh 6- 74

6.12. READ 08h 6- 75

6.13. READ BLOCK LIMITS 05h 6- 77

6.14. READ BUFFER 3Ch 6- 78

6.15. READ POSITION 34h 6- 80

6.16. RECEIVE DIAGNOSTIC RESULTS 1Ch 6- 82

6.17. RELEASE UNIT 17h 6- 84

6.18. REPORT DENSITY SUPPORT 44h 6- 85

6.19. REPORT LUNS A0h 6- 88

6.20. REQUEST BLOCK ADDRESS 02h 6- 89

6.21. REQUEST SENSE 03h 6- 90

6.22. RESERVE UNIT 16h 6- 98

6.23. REWIND 01h 6- 99

6.24. SEEK BLOCK 0Ch 6- 100

6.25. SEND DIAGNOSTIC 1Dh 6- 101

6.26. SPACE 11h 6- 103

6.26.1. CHECK CONDITION 6- 105

6.26.2. Sony SDX-700C unique implementation for SPACE 6- 105

6.26.2.1. Super High Speed Search 6- 105

6.26.2.2. Data Buffer Management 6- 105

6.27. TEST UNIT READY 00h 6- 106

6.28. VERIFY 13h 6- 107

6.29. WRITE 0Ah 6- 109

6.30. WRITE BUFFER 3Bh 6- 111

6.31. WRITE FILEMARKS 10h 6- 113

7. Drive Diagnostics

7.1. Overview 7- 1

7.2. Diagnostic Test 7- 1

7.2.1. Power-on Self Test 7- 1

SDX-700 series Ver.2.1 Table of Contents

7.2.2. SEND DIAGNOSTIC command – Self Test 7- 2

7.2.3. SEND DIAGNOSTIC command – Individual Test 7- 2

7.2.4. Diagnostic Test Number Summary 7- 3

7.2.5. RECEIVE DIAGNOSTIC RESULT command 7- 4

7.2.6. Diagnostics Results Reference 7- 6

7.2.7. Diagnostic Tests requiring additional parameters 7- 7

7.2.7.1. Error Rate Test (02) Diagnostic Parameters 7- 7

7.2.7.2. Read Data Exerciser (43h) Diagnostic Parameters 7- 8

8. Appendix A: ASC & ASCQ Alphabetic Order

8-

1

9. Appendix B: ASC & ASCQ Numeric Order

9-

1

10. Appendix C: SCSI Commands ( OP Code Order)

10-

1

11. Appendix D: ASC & ASCQ for AIT (Sony Unique)

11-

1

12. Appendix E: Introduction to AIT-3 MIC

12.1. MIC Data Structures 12- 1

12.1.1 MIC Header 12- 1

12.1.2. System Log 12- 1

12.1.3. User Volume Note & User Partition Note 12- 2

12.1.4. Super High Speed Search Map 12- 2

12.1.5. Example of Usage 12- 2

12.2. Functional Benefits 12- 3

12.2.1. Fast Media Load / Unload 12- 3

12.2.2. Data Integrity / Media Management 12- 5

12.2.2.1. Sample Application for MIC 12- 5

13. Appendix F: Miscellaneous Notes to AIT-3 contact type MIC

13.1. Partition Numbering in the DDS Emulation Mode 13- 1

13.2. AIT Log Sense 13- 1

13.3 Write Protection Tab on SDX2 cassette 13- 1

13.4. Unique Serial Number in MIC 13- 1

13.5. AIT Cassette Manufacturer ID in MIC 13- 1

13.6. AIT Cassette Secondary ID in MIC 13- 2

13.7. Unreadable MIC 13- 2

13.8. Example SCSI Command Sequence for MIC 13- 3

13.8.1. How to create User Notes in AIT-3 MIC 13- 3

13.8.1.1. Procedure for writing user data on MIC using LOG SELECT
command

13- 4

13.8.2. User Data Length : 380 byte 13- 6

13.8.2.1. Procedure of reading user data on MIC using LOG SENSE
Command

13- 6

13.8.3. How to update the User Volume Note 13- 8

13.8.4. How to Update the User Partition Note 13- 8

13.8.5. How to Expand or Shrink the User Volume Note 13- 9

SDX-700 series Ver.2.1 Table of Contents

13.8.6. How to Expand or Shrink the User Partition Note 13- 9

13.8.7. User Notes Hints 13- 9

14. Appendix G: MIC

(SCSI Interface Specification for AIT multiple Partitioning)

14.1. MIC Features 14- 1

14.2. The Default Mode for Drive 14- 1

14.3. Cassette has a Mode 14- 1

14.4. Re-Using Cassettes 14- 1

14.5. Mode Select Page 31h (AIT Device Configuration Page) 14- 2

14.6. Mode Sense Page 31h (AIT Device Configuration Page) 14- 4

14.7. Mode Select Page 32h (Append Partition) 14- 5

14.8. Mode Select Page 33h (Delete Partition) 14- 8

14.9. Mode Select / Sense Page 34h (Partition Attribute) 14- 12

14.10. Mode Select Page 11h (for multi-partitioned Tapes) 14- 13

14.11. Log Sense Page 31h (Tape Capacity Page) 14- 17

14.12. Create Multi-Partitioned Tapes 14- 18

14.13. Un-readable MIC 14- 20

14.14. Write Protection TAB 14- 20

14.15. LOADING / UNLOADING 14- 20

14.16. Application Notes 14- 22

14.16.1. Backup Techniques with MIC Cassettes 14- 22

14.16.2. How to change Active Partition 14- 22

14.16.3 Retention 14- 22

15. Appendix H : Glossary

15- 1

1.Introduction

SONY AIT-3 drive SDX-700 series Ver.2.1

1-1

1. Introduction

1.1 About this Product Specification Manual

This Product Specification Manual is applicable for AIT-3 drive.

This manual provides information about the Sony SDX-700 series Advanced Intelligent Tape Drives which is
necessary to integrate the drives into OEM products. This manual describes the specifications, SCSI Interface,
diagnostics, operation and installation of the Sony AIT-3 Tape Drives.

The Sony SDX-700C drive uses data compression to achieve high capacity and high transfer rates. Actual capacity
and transfer rate depends on the source file type. The capacity ratings listed in the next subsection are based on a
230 meter tape AIT-3 cassette. The Sony SDX-700C drive is a high capacity data storage device using Advanced
intelligent tape (AIT) technology. The Sony SDX-700C drive achieves high data integrity through read-after-write, an
additional level of Error Correction Code, and other features.

The Sony SDX-700C drives provide MIC technology that automatically enhance reliability and performance. The
Sony SDX-700C drives provide read and write capability for MIC user data area.

1.2

Introducing The Sony AIT Technology

While magnetic storage technologies continue to push the envelope of recording density and provide higher
capacities and transfer rates every 18 to 24 months, improvements in time to access this data have become very
limited. Since 1990, tape recording densities have increased up to ten fold, while the time to access this data has
increased less than two fold, creating a large mismatch between the amount of stored data and the ability to access
it.

This large “gap” between data access latency and area density has created a dilemma in application development
and limited the potential to implement truly cost-effective tertiary storage solutions. Many applications compensated
for this deficiency by incorporating multiple redundant tape drives, at higher cost, to achieve an acceptable level of
service for their users. Sony’s new Advanced Intelligent Tape design has recognized this need and provided an
innovative approach to solving the data latency problem while increasing capacity and data transfer rates.

Traditional, older tape technologies relied mostly on conventional mechanical means, such as faster search speeds
or an on-tape index to improve access to stored data. While improvements in electronics and magnetics have been
the main enablers of increased capacity and transfer rates, rarely have these same technologies been employed to
significantly improve access to data.

Sony’s Advanced Intelligent Tape (AIT) architecture has deviated from conventional designs and employed
electronic enhancements to significantly improve access to stored data, using a captive, non-volatile memory chip
contained within the magnetic data cartridge. Known as Memory-In-Cassette, or MIC, this memory chip provides a
direct and immediate connection to the tape drive’s on-board processors to enable quick media load, fast access to
user files and provide a wealth of data about the history and current state of the data cartridge.

1.Introduction

SONY AIT-3 drive SDX-700 series Ver.2.1

1-2

1.3 Features of the drive

Major features of the Sony SDX-700C include:

• Capacity

25 Gbyte typical when using 170 meter tape AIT-1 cassette (SDX-T3N or SDX1-25C)

-Approximately 50Gbyte to 75 Gbyte with Data Compression

35 Gbyte typical when using 230 meter tape AIT-1 cassette (SDX1-35C)

-Approximately 70 Gbyte to 105 Gbyte with Data Compression

50 Gbyte typical when using 230 meter tape AIT-2 cassette (SDX2-36C and SDX2-50C)

-Approximately 100 Gbyte to 150 Gbyte with Data Compression

100 Gbyte typical when using 230 meter tape AIT-3 cassette (SDX3-100C)

-Approximately 200 Gbyte to 300 Gbyte with Data Compression

• Sustained transfer rate – 8 Mbyte/sec (Approximately 16 Mbyte/sec to 24 Mbyte/sec with Data Compression)
When using AIT-1 cassette.

• Sustained transfer rate – 12 Mbyte/sec (Approximately 24 Mbyte/sec to 36 Mbyte/sec with Data Compression)
When using AIT-2 cassette and AIT-3 cassette.

• Supported Format : AIT-1, AIT-2, AIT-3

• Not compatible with the DDS and EXABYTE format tapes

• Burst transfer rate

12 Mbyte/sec Asynchronous

160 Mbyte/sec Synchronous

• 18 MB Buffer Memory

• 3.5 inch form factor

• Embedded SCSI interface (Ultra160LVD, Single-ended or Low Voltage differential)

• SCSI bus fairness

• Supports Variable or Fixed record length

• Supports SCSI Disconnection/Reconnect

• Read After Write (RAW) On and Off capability

• Read Retry On and Off capability

• Frame rewrite function

• Three levels of Error Correction Code (ECC)

• High Speed search (120 times nominal Read/Write speed) of AIT3 mode

• Random read, Append write

• Repeat Write option

• MIC Support (Automatic reliability and performance enhancement.)

• MIC Support (Read and write capability for MIC user data area.)

• Remote-MIC Support

• SCSI bus fairness

• TapeAlert

1.Introduction

SONY AIT-3 drive SDX-700 series Ver.2.1

1-3

1.4 Reference

Please refer to the following documents for additional information:

• SCSI-2

1

ANSI X3.131.-1996 Small Computer Systems Interface-2 (SCSI-2).

• SCSI Parallel Interface-2 (SPI-2) ANSI X3T10-1142D rev 20b.

ANSI X3T9.2/86-109 (Revision 10H, or above), available through ANSI.

• SCSI Parallel Interface-3 (SPI-3) ANSI T10/B02D Revision 14

• Medium Auxiliary Memory (MAM) Access Method.

ANSI T10/99-148r7

• ALDC - Adaptive Lossless Data Compression (ALDC) Algorithm;
ECMA-222, available through

2

ECMA.

• 8mm Wide Magnetic Tape Cartridge for Information Interchange - Helical Scan Recording AIT-1 Format;
ECMA-246, AIT-1-MIC Format; ECMA-291, AIT-2 Format; ECMA-292 available through ECMA. AIT-3 Format will
be released from ECMA on January 2002.
See http://www.iso.ch/

8mm Wide Magnetic Tape Cartridge for Information Interchange - Helical Scan Recording AIT-1 Format;

3

ISO/4IEC 15780, AIT-1-MIC Format; ISO/IEC 18809, AIT-2 Format; ISO/IEC 18810, available through JIS in
language Japanese. AIT-3 Format will be released from ISO on March 2002.
See http://www.iso.ch/

8mm Wide Magnetic Tape Cartridge for Information Interchange - Helical Scan Recording AIT-1 Format; JIS X
6145:2000, AIT-1-MIC Format; JIS X 6146:2001, AIT-2 Format; JIS X 6147:2001 available through JIS in
Japanese language. AIT-3 Format will be released from JIS on June 2002.
See http://www.jsa.or.jp/

1.5 How to get ECMA-222 Standard Document

You can get ECMA-222 Standard Document file from the following URL.

ftp:// ftp.ecma.ch/ecma-st/Ecma-222.pdf

1.6

How to get ECMA-246 Standard Document

You can get ECMA-246 Standard Document file from the following URL.

ftp:// ftp.ecma.ch/ecma-st/Ecma-246.pdf

ftp:// ftp.ecma.ch/ecma-st/Ecma-291.pdf

ftp:// ftp.ecma.ch/ecma-st/Ecma-292.pdf

1.7. How to get MAM Document

ftp:// ftp.t10.org/t10/document.99/99-148r7.pdf

These files are Adobe Portable Document Format. You can browse and print these files by using
Adobe® Acrobat® Reader application program.

1

ANSI (American National Standard for Industry)

2

ECMA (European Computer Manufacturers Association)

3

ISO (International Organization for Standardization)

4

IEC (International Electro technical Commission)

1.Introduction

SONY AIT-3 drive SDX-700 series Ver.2.1

1-4

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2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-1

2. Specifications

Physical, environmental and performance specifications for the SDX-700C and SDX-700C/R.

2.1. Specifications

2.1.1. Dimensions

The SDX-700C

Height 41.2 mm (1.62 in) ± 0.5 mm (0.02 in)

Width 101.6 mm (4.00 in) ± 0.5 mm (0.02 in)
Depth 155.0 mm (6.10 in) ± 0.5 mm (0.02 in)

The SDX-700C/R

Height 41.2 mm (1.62 in) ± 0.5 mm (0.02 in)

Width 146.0 mm (5.75 in) ± 0.5 mm (0.02 in)
Depth 155.0 mm (6.10 in) ± 0.5 mm (0.02 in)

Note :

The above dimensions do not include the front panel thickness, eject button and SCSI connector.

Figure 2-1: Dimensions (SDX-700C)

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-2

2.1.1.1. Mounting Holes

Figure 2-2a gives details of the mounting holes for the Sony SDX-700C, and figure 2-2b for the Sony SDX-700C/R.

Figure 2-2a: SDX-700C Mounting Holes

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-3

Figure 2-2b: SDX-700C/R Mounting Holes

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-4

2.1.2. Weight

SDX-700C 750 grams, without a cassette and a front bezel.

SDX-700C/R 1020 grams, without a cassette and a front bezel.

2.1.3. Connectors

The SDX-700C has a SCSI connector with a power connector and Jumpers at the positions shown in Figure 2-3. All
other connectors are for use by Sony’s manufacturing and service facilities only.

Figure 2-3: Connector Positions

2.1.3.1. SCSI Cables and Terminators

The Single-Ended SCSI configuration and Low-Voltage-differential SCSI configuration are supported by SDX-700C
and SDX-700C/R. The hardware specification of this interface can be found in Clause 3. Physical Characteristics,
of the X3T10/1142D (SCSI Parallel Interface2) standard. Only unshielded connectors are supported. Possible cable
and connector sources are listed below. This does not imply that these are the only sources for SCSI accessories.

Note: When using high speed data transfer with the SDX-700C, it is recommended that total length of the SCSI data
cable not exceeded 1.5m for Single Ended SCSI configuration. As for Low-Voltage-differential SCSI configuration ,
less than 12m is recommended.

Cable 30 AWG Ribbon

Hitachi UL 20848 (or equivalent)

Connector AMP 1-786090-7 (or equivalent)

2.2.

Environmental Specifications

The specifications which apply when media is present may be different than these.

2.2.1. Temperature and Humidity Range

Temperature

Operating 5 ºC to 40 ºC (∆T < 10 ºC/h)
Non-Operating(mech.) -40 ºC to 70 ºC (∆T < 20 ºC/h)
Non-Operating(tape) -40 ºC to 45 ºC (∆T < 20 ºC/h)

Humidity

Operating 20 to 80% RH, non-condensing

Maximum wet bulb temperature = 26 ºC
Non-operating (mech.) 5 to 95%RH(∆RH<30%/h)
Non-operating (tape) 20 to 80%RH(∆RH<30%/h)

Note:

Do not cover the FAN. The drive can malfunction if the internal temperature rises too high.

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-5

2.2.2. Altitude

Operating 0 to 10,000 feet

2.2.3. Suspended Particulate

Operating

Less than 150 microgram/m

3

Based Sampling period 24 hours

2.2.4. Vibration

Operating Swept Sine 5 to 500Hz, @0.25G Peak 1 Octave/min.

3 axis, 3 directions
Non-operating Swept Sine 5 to 500Hz, @ 0.5G Peak 1 Octave/min.

3 axis, 3 directions

2.2.5.

Shock

Operating No Data Loss

Half Sine

Performance

5 G Peak 3 ms

3 axes, 3 directions

*Interval 10 seconds

Non-operating No Device Damage

Half Sine

90 G Peak 3 ms

(30 G Peak 11 ms)

3 axes, 3 directions

*

Interval 10 seconds

2.2.6.

Acoustic Noise

The ambient noise level is no greater than 25 dB (A). The sound-meter on (A) scale is located 1m in front of the
center of the drive front panel. (A): A curve weight

Streaming Write/Read 35dB(A)
Insert/Eject 60dB(A)

2.2.7.

EMC

EMI/EMS Radiated Emissions /

Conducted noise
Emissions

EN 55022 / 94 + EN 55022 A1 / 95 class B

EMS ESD

(Front Panel Only,
integrated product)

Discharge Voltage
Less than 15kV: No operation failure
Less than 20kV: No drive damage

2.2.8. Orientation

The SDX-700C can be installed in three different mounting positions as shown in the figure below. Each position has
a maximum tolerance of ± 10 degrees.

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-6

Figure 2-4: Mounting Attitude and Tolerance

2.3.

Performance Specification

The data capacity, data transfer rate and data reliability specifications this chapter require the media to conform to
the AIT-1, AIT-2, AIT-3 Media Specification and also require the drive and media to remain within their respective
operating and non-operating environmental specifications. The specifications below also assume that the C3 ECC
frame is generated on writing and used as necessary on reading, and further assumes that read-after-write rewrites
are used as necessary on writing.

2.3.1.

Data Capacity

The SDX-700C includes a data compression capability. When data compression is enabled the drive capacity can
increase from 2 times to 3 times. The efficiency of the data compression depends on the actual data that is being
compressed and cannot be predicted precisely prior to compression.

Format

AIT-1 Standard Format

25.0 Gbyte typical When using 170 meter tape AIT-1 cassette (SDX-T3N and SDX1-25C)

Native
Capacity

35.0 Gbyte typical When using 230 meter tape AIT-1 cassette (SDX1-35C)

Format AIT-2 Standard Format

50.0 Gbyte typical When using 230 meter tape AIT-2 cassette (SDX2-50C)

Native
Capacity

36.0 Gbyte typical When using 170 meter tape AIT-2 cassette (SDX2-36C)

Format

AIT-3 Standard Format

Native
Capacity

100.0 Gbyte typical

When using 230 meter tape AIT-3 cassette (SDX3-100C)

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-7

2.3.2. Data transfer Rate

2.3.2.1. Sustained Data Transfer Rate To and From Tape

The sustained transfer rate to and from the tape is 12Mbyte per second with AIT-3 and AIT-2 cassette, 8Mbyte per
second with AIT-1 cassette. For this sustained rate to be achieved, the drive must be streaming. There may be some
dependency on the host for this to be achieved. When data compression is enabled the drive can achieve a transfer
rate from 24 Mbyte per second to 36 Mbyte per second with AIT-3 and AIT-2 cassette, 16Mbyte to 24Mbyte per
second with AIT-1 cassette.

2.3.2.2. Burst Transfer Rate To and From the SCSI Bus

The SDX-700C will transmit and receive data bursts to and from the SCSI bus at a maximum burst rate of 12 Mbyte
per second, using Ultra 160 asynchronous transfers and maximum of 160 Mbyte per second, using Ultra160
synchronous transfers.

2.3.3. Initialize Time

Initialize Time means the period from the time the drive is powered on to the time when the drive is ready and waiting
for a SCSI command such as INQUIRY or TEST UNIT READY. Initialize Time is less than 5 seconds.

2.3.4. Load Time

Load Time means the period from the time when the operator inserts a cassette into the drive to the time when the
drive is ready.

Firmware Version SDX1-25C (170m) SDX1-35C ( 230 m ) SDX2-50C ( 230 m ) SDX3-100C ( 230 m )

Version : 0100 and later <14 sec < 14 sec <14 sec <14 sec

2.3.5. Unload Time

Unload Time means the period from the beginning of the unload sequence caused by Unload Command or Eject
button to the time when a cassette is ejected from the slot. Unload Time does not include Rewind time.

Firmware Version SDX1-25C ( 170m ) SDX1-35C ( 230 m ) SDX2-50C ( 230 m ) SDX3-100C ( 230 m )

Version : 0100 and later <21 sec <24 sec <24 sec <24 sec

2.3.6. Search Time

Search Time means the period for the drive to find the position that is required by a command. This time also
depends on the tape length and the position of the head along the tape.

Firmware Version SDX1-25C ( 170m ) SDX1-35C ( 230 m ) SDX2-50C ( 230 m ) SDX3-100C ( 230 m )

Version : 0100 and later <85 sec <120 sec <120 sec <120 sec

2.3.7. Rewind Time

Rewind Time means the period from the beginning to the end of rewinding sequence. This value depends on the
tape length and the position of the head along the tape. Rewind Time is less than 80 seconds, when a 170 meter
tape (SDX1-25C) is loaded. And it is less than 105 seconds, when a 230 meter tape (SDX1-35C, SDX2-50C, or
SDX3-100C) is loaded.

2.3.8. Error Rate

The un-correctable bit error rate is expected to be less than 1 in 10 to the 17th.

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-8

2.3.9. Retry Limits on Rewrites

For Read-after-Write error correction, each frame can be rewritten up to a maximum of 63 times giving 64 writes of
the frame. With Repeat Writing, where every group is written a fixed number of times, the upper limit is 5.

2.3.10. Definition of Failure

A failure is defined as any permanent manufacture of the drive that prevents the user from retrieving data from tape.
This includes failure to power up, failure to unload or eject a cassette, or failure to write and read data to and from the
tape, providing that both the drive and tape are being used within specification.

Faults are not considered failures when they are related to operator error mishandling and abuse, system-related
faults (cabling problems unsupported systems, operating software and so on) no trouble found, and transportation
damage.

2.3.11.

Mean Time Between Failures

The Mean Time Between Failures (MTBF) for the SDX-700C is 400,000 power-on hours, assuming a duty cycle of
100%, where:

DutyCycle

=

Tape Motion Time

PowerOn Time

×

100

2.3.12. Mean Time To Repair

The Mean Time To Repair (MTTR) of the SDX-700C is 30 minutes. Since at the field level the entire drive is
considered a Field Replaceable Unit (FRU) the time to replace the drive with a new one is less that 30 minutes.

2.3.13. Component Life

The specified life of the SDX-700C is 5 years average.

2.3.14. Durability

The durability of the components in the SDX-700C will exceed the number of operations listed on the following table:

Start/Stop 400,000 times

Reposition 3,000,000 times

Thread/Unthread 100,000 times

Load/Eject 100,000 times

2.4. Safety

The SDX-700C conforms to the following safety standards for Information Technology Equipment:

• UL/cUL
UL 60950/CSA 60950 Third Edition

• TUV
EN 60950: 2000 Third Edition

• CB
ICE 60950: 1999 Third Edtion

• CE Mark
Note: The Standards may be updated without notice.

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

2-9

2.4.1. Conditions of Acceptability

The SDX-700C is for use only in equipment where the suitability of the combination has been determined by an
appropriate certification organization (for example, Underwriters Laboratories, Inc. or the Canadian Standards
Association in North America, and the British Standards Institution or Verband Deutscher Elektrotechniker in
Europe). Other considerations include the following:

1. An enclosure must be supplied to limit the operator’s access to live parts, to provide system stability, and to
furnish the drive with the necessary grounding integrity.

2. The necessary voltage supplies must be provided. These supplies are Extra Low Voltage SEC for UL and
CSA, or Safety Extra Low Voltage for BSI, VDE, and so on, of +5V and +12V DC.

2.5. Installation Requirements

Note

: Do not move the drive while it is operating. It may cause malfunction.

2.5.1. Power Requirements

Voltage Max Ripple Current

Typical Maximum

5V ± 5% 100 mV p-p 2.5A 2.9A

12V ± 10% 150 mV p-p 0.4A 2.0A

* exclude SCSI terminator power

4.75V
T

10.8V

5V

12V

-100 ms <

T < 100 ms

Figure 2-5: Power-up Sequence

Note: Do not turn off the drive while the tape is in the drive.

2.6. Data Compression

The tape capacity is increased by compressing data prior to writing it to the tape. Data compression is a well
established technology for reducing the number of bits used to represent data in order to improve data transfer rate
as well as reduce the amount of storage space consumed by the data. The compression ratio depends on the
source file type. The SDX-700C uses the ALDC Data Compression algorithm. ALDC is ECMA standard data
compression algorithm. (ECMA-222) The Data Compression control page allows the host computer to enable data
compression and decompression and also configure the way in which the drive responds to
compressed/uncompressed data boundaries on the tape. The AIT-1, AIT-2 and AIT-3 Format allows both
compressed and uncompressed data to reside on the same tape.

The Sony SDX-700C has a DIP switch to disable the Data Compression/ Decompression. After power-on reset with
this DIP switch set, both data compression and data decompression are disabled However, a MODE SELECT
command can override the setting of this DIP switch. After power-on reset without this DIP switch set, both data
compression and data decompression are enabled. (See clause 3.1.5)

2.Specification

SONY AIT-3 drive SDX-700 series Ver.2.1

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3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-1

3. Installation

3.1. Installation Guide

This Product Specification Manual is applicable for AIT-2 drive.

Figure 3-1: DIP switch

Parity Disable
No Connection
ID3
ID2
ID1
ID0

Figure 3-2: Jumper positions

3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-2

1 Reserved (OFF)
2 Reserved (OFF)
3 Reserved (OFF)
4 Reserved (OFF)
5 Terminator Power (ON)
6 Reserved (OFF)
7 DC Control-1
8 DC Control-2

1 2 3 4 5 6 7 8

ON

OFF

Figure 3-3: DIP Switch positions

3.1.1.

SCSI ID Number Jumper

The SCSI ID number of the SDX-700C is selected by the SCSI ID number jumpers. The figure below shows the
jumper configuration for each of the possible SCSI IDs.

SCSI ID3 ID2 ID1 ID0
0 : : : :
1 : : : |
2 : : | :
3 : : | |
4 : | : :
5 : | : |
6 : | | :
7 : | | |
8 | : : :
9 | : : |
10 | : | :
11 | : | |
12 | | : :
13 | | : |
14 | | | :
15 | | | |

: = OPEN Jumper not installed
| = CLOSED Jumper installed

3.1.2.

Termination Power Switch

Position 5 of DIP switch is used to set whether SDX-700C provides the termination power to pin 17,18,51,52 on
SCSI bus, or not..

3.1.3. Parity Disable Jumper

Parity check function can be disabled by Jumper. Parity check is disabled while left end jumper is installed. Parity
generate function is always enabled.

Parity Setting

Disable |
Enable :

:

= OPEN Jumper not installed

| = CLOSED Jumper installed

3.1.4. Data Compression ON switch

Data compression can be selected by DIP switch.

3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-3

DC Control-1 DC Control-2 Definition

OFF OFF Compression disabled at power-on. The host is allowed to control

compression.

OFF ON Compression disabled at power-on. The host is not allowed to control

compression.

ON OFF Compression enabled at power-on. The host is allowed to control

compression.

ON ON Compression enabled at power-on. The host is not allowed to control

compression.

Figure 3-4: Data Compression Switches

3.1.5. Power Connector

The power connector is illustrated as Figure 3-5.

5V GND GND 12V

4 3 2 1

Figure 3-5: Power Connector

3.1.6. SCSI 68 pin Connector

Figure 3-6 illustrates SCSI 68 pin connector, and table 3-1 shows the assignments for the pins of the connector.

Pin 34 1

Pin 68 35

Figure 3-6: Non-shielded SCSI Device Connector

SDX-700C supports both Low-Voltage-Differential SCSI configuration as shown table 3-1 and Single-Ended SCSI
configuration as shown table 3-2. SDX-700C detects and switches SCSI configuration between
Low-Voltage-Differential and single-ended modes by monitoring DIFSENS signal assigned pin 16 in SCSI bus.(refer
to table 3-1)

3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-4

Table 3-1: SDX-700C SCSI Signals (Low-Voltage-Differential Type BUS P Cable Signal Assignment)

Signal Name

Cable Conductor Number

Signal Name

-DB(12) 35 1 +DB(12)

-DB(13) 36 2 +DB(13)

-DB(14) 37 3 +DB(14)

-DB(15) 38 4 +DB(15)

-DB(P1) 39 5 +DB(P1)

-DB(0) 40 6 +DB(0)

-DB(1) 41 7 +DB(1)

-DB(2) 42 8 +DB(2)

-DB(3) 43 9 +DB(3)

-DB(4) 44 10 +DB(4)

-DB(5) 45 11 +DB(5)

-DB(6) 46 12 +DB(6)

-DB(7) 47 13 +DB(7)

-DB(P) 48 14 +DB(P)
GROUND 49 15 GROUND
GROUND 50 16 DIFFSENS

TERMPWR 51 17 TERMPWR
TERMPWR 52 18 TERMPWR

RESERVED 53 19 RESERVED

GROUND 54 20 GROUND

-ATN 55 21 +ATN

GROUND 56 22 GROUND

-BSY 57 23 +BSY

-ACK 58 24 +ACK

-RST 59 25 +RST

-MSG 60 26 +MSG

-SEL 61 27 +SEL

-C/D 62 28 +C/D

-REQ 63 29 +REQ

-I/O 64 30 +I/O

-DB(8) 65 31 +DB(8)

-DB(9) 66 32 +DB(9)

-DB(10) 67 33 +DB(10)

-DB(11) 68 34 +DB(11)

3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-5

Table 3-2 : SDX-700C SCSI Signals (Single-Ended Type BUS P Cable Signal Assignment)

Signal Name

Cable Conductor Number

Signal Name

-DB(12) 35 1 GROUND

-DB(13) 36 2 GROUND

-DB(14) 37 3 GROUND

-DB(15) 38 4 GROUND

-DB(P1) 39 5 GROUND

-DB(0) 40 6 GROUND

-DB(1) 41 7 GROUND

-DB(2) 42 8 GROUND

-DB(3) 43 9 GROUND

-DB(4) 44 10 GROUND

-DB(5) 45 11 GROUND

-DB(6) 46 12 GROUND

-DB(7) 47 13 GROUND

-DB(P) 48 14 GROUND
GROUND 49 15 GROUND
GROUND 50 16 GROUND

TERMPWR 51 17 TERMPWR
TERMPWR 52 18 TERMPWR

RESERVED 53 19 RESERVED

GROUND 54 20 GROUND

-ATN 55 21 GROUND

GROUND 56 22 GROUND

-BSY 57 23 GROUND

-ACK 58 24 GROUND

-RST 59 25 GROUND

-MSG 60 26 GROUND

-SEL 61 27 GROUND

-C/D 62 28 GROUND

-REQ 63 29 GROUND

-I/O 64 30 GROUND

-DB(8) 65 31 GROUND

-DB(9) 66 32 GROUND

-DB(10) 67 33 GROUND

-DB(11) 68 34 GROUND

3.Installation

SONY AIT-3 drive SDX-700 series Ver.2.1

3-6

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4.Operation

SONY AIT-3 drive SDX-700 series Ver.2.1 4-1

4. Operation

4.1. Summary of LED indications

The SDX-700C have 3 LEDs. Each LED shows "Tape Motion", "Cleaning Request", and "Replace Tape" as defined.

"Tape Motion" to show the tape motion in the drive.

"Cleaning Request" to be on, when CLEANING is required.

"Replace Tape" to be on, when the tape needs to be replaced. It should be on when a medium error occurred.

All of three LEDs flash fast simultaneously, when the drive is in malfunction.

The following table shows the meaning of each LED indications:

Table 4-1: Meaning of each LED indications

LED Tape Motion Cleaning Request Replace Tape

Off No Tape Cleaning is Not Necessary No Media Error Occurred
On Tape Loaded Cleaning Request Media Error Occurred
Flash Slowly Tape Access in Progress

(Write/Read)

Cleaning is Not Completed Media Warning

Flash Fast Tape Access in Progress

(Others)

All LED Flash Fast H/w Error Occurred

Flash Fast (0.3sec on/ 0.3sec off)

0.3 sec

Flash Slowly (0.9sec on/ 0.3sec off)

0.9sec

0.3sec

4.Operation

4-2 SONY AIT-3 drive SDX-700 series Ver.2.1

4.2. Operator Action

4.2.1. Powering up the SDX-700C

After the initial installation of the SDX-700C has been verified, power can be applied to the unit. The +12V and +5V
power must be applied simultaneously. (See Figure 2-5) The SDX-700C will execute a power-up diagnostic and
then comes ready.

Once the tape has been loaded the SDX-700C sends a CHECK CONDITION response on receipt of the next SCSI
command from the host. The UNIT ATTENTION key is set in the returned REQUEST SENSE data to indicate that
the tape may have been changed. (Sense Key/ASC/ASCQ = 06/28/00)

4.2.2. Inserting Cassettes

The operator inserts a cassette into the slot on the front panel. As the cassette is inserted, the drive takes it and
automatically loads it into the drive mechanism. The SDX-700C performs a tape load sequence as described in
clause 4.3.1

4.2.3. Removing Cassettes

The cassette can be removed from the SDX-700C either in response to a SCSI UNLOAD command, or by pressing
the Eject button. The operator uses the Eject button to initiate the unload sequence (see clause 4.3.2). The
mechanism winds the tape to Beginning of Media (BOM), unthreads it, and ejects the cassette from the slot.

Operation of the Eject button is disabled if the host has previously sent a SCSI PREVENT ALLOW MEDIA
REMOVAL command with prevent bit set to one. In this case, pressing the Eject button has no effect, and does not
initiate an Unload sequence. The Eject button returns to normal operation following receipt of an PREVENT ALLOW
MEDIA REMOVAL command with prevent bit clear.

4.2.4. Hard Reset Hole

In case of emergency, you can immediately reset the drive itself by pushing the switch in the “Hard Reset Hole” with
the tip of a pin. However, there is a risk of losing data upon execution of this operation in the Write or Read mode.
The hardware reset operation is only for manufacturing and repair purposes.