1、Standard ECMA-280December 1998Standardizing Information and Communication SystemsPhone: +41 22 849.60.00 - Fax: +41 22 849.60.01 - URL: http:/www.ecma.ch - Internet: helpdeskecma.chData Interchange on 130 mmOptical Disk Cartridges ofType WORM (Write OnceRead Many) Using IrreversibleEffects - Capacit
2、y: 5,2 Gbytesper Cartridge.Standard ECMA-280December 1998Standardizing Information and Communication SystemsPhone: +41 22 849.60.00 - Fax: +41 22 849.60.01 - URL: http:/www.ecma.ch - Internet: helpdeskecma.chMB ECMA-280.DOC 11-01-99 17,36Data Interchange on 130 mmOptical Disk Cartridges ofType WORM
3、(Write OnceRead Many) Using IrreversibleEffects - Capacity: 5,2 Gbytesper Cartridge.Brief HistoryTechnical Committee ECMA TC31 for Optical Disk Cartridges (ODCs) was set up in 1984. The Committee made majorcontributions to ISO/IEC JTC1/SC23 to the development of standards for 90 mm, 120 mm, 130 mm a
4、nd 300 mm ODCs, andprovided camera-ready copies for most International Standards for ODCs. ECMA has published the following ECMAStandards for ODCs, most of them have been adopted by ISO/IEC under the fast-track procedure.ECMA-130 (1988) Data Interchange on Read-only 120 mm Optical Data Disks (CD-ROM
5、)(ISO/IEC 10149)ECMA-153 (1991) Information Interchange on 130 mm Optical Disk Cartridges of the Write Once, Read Multiple(ISO/IEC 11560) (WORM) Type, using the Magneto-Optical EffectECMA-154 (1991) Data Interchange on 90 mm Optical Disk Cartridges, Read-Only and Rewritable M.O.(ISO/IEC 10090)ECMA-1
6、83 (1992) Data Interchange on 130 mm Optical Disk Cartridges - Capacity 1 Gbyte(ISO/IEC 13481)ECMA-184 (1992) Data Interchange on 130 mm Optical Disk Cartridges - Capacity 1,3 Gbytes(ISO/IEC 13549)ECMA-189 (1993) Information Interchange on 300 mm ODCs of the WORM Type using the SSF Method(ISO/IEC 13
7、403)ECMA-190 (1993) Information Interchange on 300 mm ODCs of the WORM Type using the CCS Method(ISO/IEC 13614)ECMA-195 (1995) Data Interchange on 130 mm Optical Disk Cartridges - Capacity 2 Gbytes(ISO/IEC 13842)ECMA-201 (1994) Data Interchange on 90 mm Optical Disk Cartridges - Capacity 230 Mbytes(
8、ISO/IEC 13963)ECMA-223 (1995) Data Interchange on 90 mm Optical Disk Cartridges - Capacity 385 MbytesECMA-238 (1996) Data Interchange on 130 mm Optical Disk Cartridges of Type WORM ( Write Once Read Many)(ISO/IEC 15486) Using Irreversible Effects- Capacity: 2,6 Gbytes per CartridgeThe present ECMA S
9、tandard specifies an ODC of Type WORM which cannot be erased or over-written without detection. Inorder to clearly differentiate this type from Type WO where a microcode is used to protect against undetectable over-writing ofM.O. disks, the term “irreversible effects“ has been introduced in the titl
10、e. The ODC specified by this ECMA Standard is basedon International Standard ISO/IEC 15286 for an ODC available in seven different types. The ODC of Type WORM accordingto this ECMA Standard is built upon the same MO base and retains all physical and embossed characteristics of ISO/IEC15286, but diff
11、ers in the description of the recording layer, of the signals, and of the defect management.This ECMA Standard has been adopted by the ECMA General Assembly of December 1998.- i -Table of contentsSection 1 General 11 Scope 12 Conformance 12.1 Optical Disk Cartridge (ODC) 12.2 Generating System 12.3
12、Receiving System 12.4 Compatibility statement 13 Reference 14 Definitions 14.1 asymmetry 14.2 band 24.3 case 24.4 clamping zone 24.5 control track 24.6 Cyclic Redundancy Check (CRC) 24.7 defect management 24.8 direct overwrite 24.9 disk reference plane 24.10 entrance surface 24.11 Error Correction C
13、ode (ECC) 24.12 format 24.13 hub24.14 interleaving 24.15 Kerr rotation 24.16 land and groove 24.17 logical track 24.18 mark 34.19 mark edge 34.20 mark edge recording 34.21 optical disk 34.22 optical disk cartridge (ODC) 34.23 physical track 34.24 polarization 34.25 pre-recorded mark 34.26 read power
14、 34.27 recording layer 34.28 Reed-Solomon code 34.29 space 34.30 spindle 34.31 substrate 34.32 track pitch 44.33 write-inhibit hole 44.34 write-once functionality 44.35 zone 4- ii -5 Conventions and notations 45.1 Representation of numbers 45.2 Names 46 List of acronyms 47 General description of the
15、 optical disk cartridge 58 General requirements 58.1 Environments 58.1.1 Test environment 58.1.2 Operating environment 68.1.3 Storage environment 68.1.4 Transportation 68.2 Temperature shock 68.3 Safety requirements 68.4 Flammability 69 Reference Drive 79.1 Optical system 79.2 Optical beam 89.3 Read
16、 Channels 89.4 Tracking 89.5 Rotation of the disk 9Section 2: Mechanical and physical characteristics 910 Dimensional and physical characteristics of the case 910.1 General description of the case 910.2 Relationship of Sides A and B 910.3 Reference axes and case reference planes 910.4 Case drawings
17、910.5 Dimensions of the case 910.5.1 Overall dimensions 910.5.2 Location hole 1010.5.3 Alignment hole 1010.5.4 Surfaces on Reference Planes P 1110.5.5 Insertion slots and detent features 1210.5.6 Gripper slots 1210.5.7 Write-inhibit holes 1210.5.8 Media sensor holes 1310.5.9 Head and motor window 14
18、10.5.10 Shutter 1410.5.11 Slot for shutter opener 1510.5.12 Shutter sensor notch 1510.5.13 User label areas 1610.6 Mechanical characteristics 1610.6.1 Materials 1610.6.2 Mass 1610.6.3 Edge distortion 1610.6.4 Compliance 1610.6.5 Shutter opening force 1610.7 Drop test 16- iii -11 Dimensional, mechani
19、cal and physical characteristics of the disk 1611.1 General description of the disk 1611.2 Reference axis and plane of the disk 1711.3 Dimensions of the disk 1711.3.1 Hub dimension 1711.4 Mechanical characteristics 1811.4.1 Material 1811.4.2 Mass 1811.4.3 Moment of inertia 1811.4.4 Imbalance 1811.4.
20、5 Axial deflection 1811.4.6 Axial acceleration 1911.4.7 Radial runout 1911.4.8 Radial acceleration 1911.4.9 Tilt 2011.5 Optical characteristics 2011.5.1 Index of refraction 2011.5.2 Thickness 2011.5.3 Birefringence 2011.5.4 Vertical Birefringence 2011.5.5 Reflectance 2012 Interface between cartridge
21、 and drive 2112.1 Clamping method 2112.2 Clamping force 2112.3 Capture cylinder 2112.4 Disk position in the operating condition 21Section 3: Format of information 3613 Track geometry 3613.1 Track shape 3613.2 Direction of track spiral 3613.3 Track pitch 3613.4 Logical track number 3613.4 Physical tr
22、ack number 3614 Track format 3614.1 Physical track layout 3614.2 Logical track layout 3714.3 Radial alignment 3714.4 Sector number 3715 Sector format 3715.1 Sector layout 3715.2 Sector Mark 3715.3 VFO fields 3815.4 Address Mark (AM) 3915.5 ID fields 3915.6 Postamble (PA1) 3915.7 Transition Area (TA1
23、) 4015.8 Gap 4015.9 Flag 40- iv -15.10 Auto Laser Power Control (ALPC 4015.11 Sync 4015.12 Data field 4015.12.1 User data bytes 4115.12.2 CRC and ECC bytes 4115.12.3 Defect Management Pointer (DMP) 4115.12.4 Resync bytes 4115.13 Postamble field (PA2) 4115.14 Buffer field 4115.15 Transition Area (TA2
24、) 4116 Recording code 4117 Formatted Zone 4217.1 General description of the Formatted Zone 4217.2 Division of the Formatted Zone 4217.2.1 Lead-in Zone 4417.2.2 Manufacturer Zones 4417.2.3 User Zone 4517.2.4 Reflective Zone 4517.2.5 Control Track Zones 4517.3 Control Track PEP Zone 4517.3.1 Recording
25、 in the PEP Zone 4617.3.2 Format of the tracks of the PEP Zone 4617.4 Control Track SFP Zones 5017.4.1 Duplicate of the PEP information 5017.4.2 Media information 5017.4.3 System Information 5218 Layout of the User Zone 5318.1 General description of the User Zone 5318.2 Divisions of the User Zone 53
26、18.2.1 Reserved Area Use 5318.3 User Area 5418.4 Defect Management Areas (DMAs) 5618.5 Disk Structure Table (DST) 5618.6 Write Once Read Many (WORM) Zone 5818.6.1 Location 5818.6.2 Partitioning 5819 Defect Management for WORM Media 5819.1 Initialization of the disk 5819.2 Defect Management Pointers.
27、 5819.3 Write procedure 5919.3.1 Read Procedure 59Section 4 - Characteristics of embossed information 5920 Method of testing 5920.1 Environment 5920.2 Use of the Reference Drive 5920.2.1 Optics and mechanics 59- v -20.2.2 Read power 5920.2.3 Read channels 6020.2.4 Tracking 6020.3 Definition of signa
28、ls 6021 Signal from grooves 6221.1 Cross-track signal 6221.2 Push-pull signal 6221.3 Divided push-pull signal 6221.4 Phase depth 6321.5 Track location 6322 Signals from Headers 6322.1 Sector Mark Signals 6322.2 VFO signals 6322.3 Address Mark, ID and PA signals 6422.4 Timing jitter 6422.5 Asymmetry
29、6423 Signals from embossed Recording fields 6423.1 Signal amplitude 6423.2 Asymmetry 6423.3 Timing Jitter 6423.4 Byte Errors 6524 Signals from Control Track PEP marks 65Section 5 - Characteristics of the recording layer 6525 Method of testing 6525.1 Environment 6625.2 Reference Drive 6625.2.1 Optics
30、 and mechanics 6625.2.2 Read power 6625.2.3 Read Channel 6625.2.4 Tracking 6625.2.5 Signal detection for testing purposes 6625.3 Write conditions 6625.3.1 Write pulse and power 6625.3.2 Pulse power determination 6725.3.3 Media power sensitivity 6726 Imbalance of difference signal 6827 Write characte
31、ristics 6827.1 Resolution 6827.2 Narrow-band signal-to-noise ratio 6827.3 Cross-talk ratio 6927.3.1 WORM track test method 6927.4 Timing Jitter 69Section 6 - Characteristics of user data 69- vi -28 Method of testing 6928.1 Environment 7028.2 Reference Drive 7028.2.1 Optics and mechanics 7028.2.2 Rea
32、d power 7028.2.3 Read amplifiers 7028.2.4 Mark Quality 7028.2.5 Channel bit clock 7028.2.6 Binary-to-digital converters 7028.2.7 Error correction 7028.2.8 Tracking 7129 Minimum quality of a sector 7129.1 Headers 7129.1.1 Sector Mark 7129.1.2 ID fields 7129.2 User-written data 7129.2.1 Recording fiel
33、d 7129.2.2 Byte errors 7129.2.3 Timing jitter 7130 Data interchange requirements 7130.1 Tracking 7130.2 User-written data 7130.3 Quality of disk 71Annex A - Air cleanliness class 100 000 73Annex B - Edge distortion test 75Annex C - Compliance test 77Annex D - Test method for measuring the adsorbent
34、force of the hub 79Annex E - CRC for ID fields 81Annex F - Interleave, CRC, ECC, Resync for the data field 83Annex G - Determination of Resync pattern 87Annex H - Read Channel for measuring jitter 93Annex J - Timing jitter measuring procedure 95Annex K - Definition of write pulse shape 97Annex L - R
35、equirements for interchange 99Annex M - Measurement implementation for Cross-track signal 101Annex N - Asymmetry measuring definition 103Annex P - Office environment 105Annex Q - Derivation of the operating climatic environment 107Annex R - Transportation 113- vii -Annex S - Sector retirement guidel
36、ines 115Annex T - Track deviation measurement 117Annex U - Values to be implemented in existing and future standards 121Annex V - Measurement of the vertical birefringence of the substrate 123Annex W - Guidelines for the use of Type WORM ODCs 125Annex X - Laser power calibration for evaluation of me
37、dia power sensitivity 127- viii -.Section 1 General1ScopeThis ECMA Standard specifies the characteristics of a 130 mm optical disk cartridge (ODC) of Type WORM(Write Once Read Many) with a capacity of 5,2 Gbytes. Type WORM ODCs use writing effects that areinherently irreversible. Written marks canno
38、t be erased and attempted modification of the written marks aredetectable.This ECMA Standard specifies- the conditions for conformance testing and the Reference Drive;- the environments in which the cartridges are to be operated and stored;- the mechanical, physical and dimensional characteristics o
39、f the cartridge, so as to provide mechanicalinterchange ability between data processing systems;- the format of the information on the disk, both embossed and user-written, including the physicaldisposition of the tracks and sectors, the error correction codes, the modulation methods used;- the char
40、acteristics of the embossed information on the disk;- the recording characteristics of the disk, enabling processing systems to write data onto the disk;- the minimum quality of user-written data on the disk, enabling data processing systems to read data fromthe disk.This ECMA Standard provides for
41、interchange between optical disk drives. Together with a standard forvolume and file structure it provides for full data interchange between data processing systems.2 Conformance2.1 Optical Disk Cartridge (ODC)An Optical Disk Cartridge shall be in conformance with this ECMA Standard if it meets the
42、mandatoryrequirements specified herein.2.2 Generating SystemA generating system shall be in conformance with this ECMA Standard if the ODC it generates is inaccordance with 2.1.2.3 Receiving SystemA receiving system shall be in conformance with this ECMA Standard if it is able to handle an ODCaccord
43、ing to 2.12.4 Compatibility statementA claim of conformance by a generating or receiving system with this ECMA Standard shall include astatement listing any other ECMA or International Optical Disk Cartridge standard(s) supported by thesystem for which conformance is claimed. This statement shall sp
44、ecify the number of the standard(s),including, where appropriate, the ODC Type(s), or the Types of side, and whether support includesreading only or both reading and writing.3 ReferenceECMA-129 (1995) Information Technology Equipment - Safety4 DefinitionsFor the purpose of this ECMA Standard, the fo
45、llowing definitions apply.4.1 asymmetryThe deviation between the centre levels of the signals which give maximum and minimum amplitude.- 2 -4.2 bandAn annular area within the user zone on the disk having a constant clock frequency.4.3 caseThe housing for an optical disk, that protects the disk and f
46、acilitates disk interchange.4.4 clamping zoneAn annular part of the disk within which the clamping force is applied by the clamping device.4.5 control trackA track containing the information on media parameters and format necessary for writing, reading anderasing the remaining tracks on the optical
47、disk.4.6 Cyclic Redundancy Check (CRC)A method for detecting errors in data.4.7 defect managementA method for handling the defective areas on the disk.4.8 direct overwriteA thermo-magnetic recording method using a specially designed media that does not require a separateerase pass.4.9 disk reference
48、 planeA plane defined by the perfectly flat annular surface of an ideal spindle onto which the clamping zone ofthe disk is clamped, and which is normal to the axis of rotation.4.10 entrance surfaceThe surface of the disk on to which the optical beam first impinges.4.11 Error Correction Code (ECC)An
49、error-detecting code designed to correct certain kinds of errors in data.4.12 formatThe arrangement or layout of information on the disk.4.13 hubThe central feature on the disk which interacts with the spindle of the disk drive to provide radial centringand the clamping force.4.14 interleavingThe process of allocating the physical sequence of units of data so as to render the data more immune toburst errors.4.15 Kerr rotationThe rotation of the plane of polarization of an optical beam upon reflection from the recording layer ascaused by the magneto-optical Kerr effect.4.16 land and
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