1、 ECMA-380 1st Edition / December 2007 Data Interchange on 130 mm Rewritable and Write Once Read Many Ultra Density Optical (UDO) Disk Cartridges Capacity: 60 Gbytes per Cartridge Second Generation Ecma International Rue du Rhne 114 CH-1204 Geneva T/F: +41 22 849 6000/01 www.ecma-international.org Da
2、ta Interchange on 130 mm Rewritable and Write Once Read Many Ultra Density Optical (UDO) Disk Cartridges Capacity: 60 Gbytes per Cartridge Second Generation Standard ECMA-380 1st Edition / December 2007 Brief history Ecma Technical Committee TC31 was established in 1984 for the standardization of Op
3、tical Disks and Optical Disk Cartridges (ODC). Since its establishment, the Committee has made major contributions to ISO/IEC JTC 1/SC 23 toward the development of International Standards for optical disks with a diameter of 80 mm, 90 mm, 120 mm, 130 mm, 300 mm and 356 mm. Numerous standards have be
4、en developed by TC31 and published by Ecma, almost all of which have also been adopted by ISO/IEC under the fast-track procedure as International Standards. The present Standard is the Second Generation of the UDO Standard initially published (1stEdition) as ECMA-350 in 2003 and as ISO/IEC 17345 in
5、2004. This Ecma Standard has been adopted by the General Assembly of December 2007. - i - Table of contents Section 1 General 1 1 Scope 1 2 Conformance 1 2.1 Optical disk 1 2.2 Generating system 1 2.3 Receiving system 1 2.4 Compatibility statement 2 3 Reference 2 4 Definitions 2 4.1 band 2 4.2 case
6、2 4.3 Case Reference Plane 2 4.4 Channel bit 2 4.5 Clamping Zone 2 4.6 cover layer 2 4.7 Cyclic Redundancy Code (CRC) 2 4.8 Data field 2 4.9 Defect Management 2 4.10 Disk Reference Plane 3 4.11 entrance surface 3 4.12 Error Correction Code (ECC) 3 4.13 field 3 4.14 format 3 4.15 groove 3 4.16 hub 3
7、4.17 interleaving 3 4.18 mark 3 4.19 Mirror Area 3 4.20 optical disk 3 4.21 optical disk cartridge (ODC) 3 4.22 Phase Change 3 4.23 Physical Block Address (PBA) 3 4.24 Physical Track 3 - ii - 4.25 read power 4 4.26 recording layer 4 4.27 Reed-Solomon code 4 4.28 Sector 4 4.29 space 4 4.30 spindle 4
8、4.31 substrate 4 4.32 track 4 4.33 track pitch 4 4.34 User Area 4 4.35 wobble 4 4.36 write-inhibit hole 4 4.37 zone 4 5 Conventions and notations 4 5.1 Representation of numbers 4 5.2 Names 5 6 Acronyms 5 7 General description 6 8 General requirement 6 8.1 Environments 6 8.1.1 Test environment 6 8.1
9、.2 Operating environment 7 8.1.3 Storage environment 7 8.1.4 Transportation 7 8.2 Temperature shock 7 8.3 Safety requirements 7 8.4 Flammability 8 9 Reference Drive 8 9.1 Optical system 8 9.2 Optical beam 9 9.3 Tracking 9 9.4 Read Channel 9 9.5 Rotation of the disk 11 Section 2 Mechanical and physic
10、al characteristics 12 10 Dimensional and physical characteristics of the case 12 - iii - 10.1 General description of the case 12 10.2 Relationship of Sides A and B 12 10.3 Reference axes and case reference planes 12 10.4 Case drawings 12 10.5 Dimensions of the case 12 10.5.1 Overall dimensions 12 10
11、.5.2 Location hole 13 10.5.3 Alignment hole 13 10.5.4 Surfaces on Case Reference Planes P 14 10.5.5 Insertion slots and detent features 15 10.5.6 Gripper slots 15 10.5.7 Write-inhibit holes 15 10.5.8 Media identification sensor holes 16 10.5.9 Head and motor window 16 10.5.10 Shutters 17 10.5.11 Slo
12、ts for shutter opener 17 10.5.12 Slots to prevent insertion into a MO-drive 17 10.5.13 User label areas 18 10.6 Mechanical characteristics 18 10.6.1 Materials 18 10.6.2 Mass 18 10.6.3 Edge distortion 18 10.6.4 Compliance 18 10.6.5 Shutter opening force 18 10.7 Drop test 18 10.8 Electro-static discha
13、rge test 18 11 Dimensional, mechanical, and physical characteristics of the disk 30 11.1 General description of the disk 30 11.2 Reference axis and plane of the disk 30 11.3 Dimensions of the disk 30 11.3.1 Hub dimensions 30 11.3.2 Cover layer dimensions 31 11.4 Mechanical characteristics 33 11.4.1
14、Material 33 11.4.2 Mass 33 11.4.3 Moment of inertia 33 11.4.4 Imbalance 33 11.4.5 Axial deflection 33 11.4.6 Axial acceleration 33 11.4.7 Radial runout 33 11.4.8 Radial acceleration 34 11.4.9 Tilt 34 11.4.10 Axial damping 34 - iv - 11.5 Optical characteristics 34 11.5.1 Index of refraction 34 11.5.2
15、 Thickness 34 11.5.3 Birefringence 34 11.5.4 Reflectance 34 12 Interface between cartridge and drive 35 12.1 Clamping method 35 12.2 Clamping force 35 12.3 Capture cylinder 35 12.4 Disk position in operating condition 36 Section 3 Format of information 38 13 Physical Track Layout 38 13.1 Groove 38 1
16、3.2 Direction of spiral 38 13.3 Groove pitch 38 13.4 Groove wobble 38 14 General Description of the Formatted Area 38 14.1 Division of the Formatted Area 38 14.2 Physical Track / Radial Alignment 39 15 Preformatted Sector format 42 15.1 Physical Block Address (PBA) 42 15.2 Sector layout 42 15.2.1 Zo
17、ne Number 43 15.2.2 Track Number 43 15.2.3 Sector Number 43 15.2.4 Parity generation 43 15.3 Wobble Amplitude modulation for ADIP (WAMFA) 44 15.3.1 WAMFA conversion table code 44 15.3.2 WAMFA synchronization 44 15.4 Phase-shifted wobbles 45 16 Sector layout for recorded data 45 16.1 Sector layout fo
18、r recorded data 45 16.2 Guard fields 47 16.3 Gap and VAP flag 47 16.3.1 Type WORM media 47 16.3.2 Type RW media 48 16.4 Preamble 48 - v - 16.5 Sync field 48 16.6 Viterbi Training field (VTF) 48 16.7 Data field 48 16.7.1 Recording Sequence for Data field 49 16.7.2 User Data bytes 49 16.7.3 CRC and EC
19、C bytes 49 16.7.4 Control bytes 49 16.7.5 Resync fields 49 16.7.6 Postamble field (PA) 50 16.8 SPS allocation 50 17 Recording code 50 17.1 RLL(1,7) encoding 50 17.2 RLL(1,7) decoding 51 18 Synchronization of Preformatted and Recorded Sectors 51 18.1 Synchronization of Type WORM media 51 18.2 Synchro
20、nization of Type RW media 52 19 Logical Format 52 19.1 Logical Format Layout 52 19.2 Logical Format Layout 57 19.2.1 Lead-in band 57 19.2.2 Manufacturer (MFR) Test bands 57 19.2.3 Read Focus Offset (RFO) bands 57 19.2.4 Write Power Calibration (WPC) bands 57 19.2.5 Specific Disk Information (SDI) Tr
21、acks 57 19.2.6 Disk Definition Structure (DDS) bands 58 19.2.7 PDL3 band 58 19.2.8 User bands 58 19.2.9 Lead-out band 58 20 Layout of the User bands 58 20.1 General Description of the User bands 58 20.2 Divisions of the User tracks 59 20.3 User Area 59 20.4 Defect Management Area (DMA) 59 20.4.1 Pri
22、mary Defect List (PDL) Area 59 20.4.2 Secondary Defect List (SDL) Area 59 20.4.3 SDL Duplicate Pages (SDLDP) Area 60 20.4.4 Primary Spares Area (PSA) 60 20.4.5 Secondary Spares Area (SSA) 60 20.5 Disk Definition Structure (DDS) 61 - vi - 20.6 Rewritable (RW) Zone 62 20.7 Write Once Read Many (WORM)
23、Zone 62 21 Defect Management Area (DMA) 62 21.1 Initialization of the disk 62 21.2 Certification 63 21.2.1 Slipping Algorithm 63 21.2.2 Linear Replacement Algorithm 63 21.3 Write procedure 64 21.4 Primary Defect List (PDL) 64 21.5 Secondary Defect List (SDL) 65 Section 4 Characteristics of embossed
24、information 67 22 Method of testing 67 22.1 Environment 67 22.2 Use of the Reference Drive 67 22.2.1 Optics and mechanics 67 22.2.2 Read power 67 22.2.3 Read Channel 67 22.2.4 Tracking 67 22.2.5 Axial focus offset optimization 67 22.3 Definition of signals 67 23 Signals from grooves 68 23.1 Ratio of
25、 SUM max and SUM min signals on groove 68 23.2 Normalized tracking error signal 68 23.3 Normalized wobble signal 68 23.4 Phase depth 68 23.5 ADIP error rate 68 Section 5 Characteristics of the recording layer 69 24 Method of testing 69 24.1 Environment 69 24.2 Reference Drive 69 24.2.1 Optics and me
26、chanics 69 24.2.2 Read power 69 24.2.3 Read Channel 69 24.2.4 Tracking 69 24.3 Write conditions 69 24.3.1 Write pulse and power waveform 69 24.3.2 Write pulse power and pulse timing determination 70 - vii - 24.4 Erase power for Type RW media 70 24.4.1 Erase power determination 70 25 Write characteri
27、stics 70 25.1 Mark polarity 70 25.2 Resolution 70 25.3 Narrow-Band Signal-to-Noise Ratio 71 25.4 VTE 71 25.5 Rewrite cycles for Type RW media 72 25.6 Cross Erase and Crosstalk 72 25.7 Erase ratio 72 25.8 Read power damage 72 Section 6 Characteristics of user data 73 26 User data Method of testing 73
28、 26.1 Environment 73 26.2 Reference Drive 73 26.2.1 Optics and mechanics 73 26.2.2 Read power 73 26.2.3 Read Channel 73 26.2.4 Tracking 73 26.2.5 Error correction 73 27 Minimum quality of a Sector 73 27.1 Preformatted data 74 27.2 User-written data 74 27.2.1 Recording field 74 27.2.2 Byte errors 74
29、28 Data interchange requirements 74 28.1 Tracking 74 28.2 User-written data 74 28.3 Quality of disk 74 Annex A (normative) Air cleanliness class 100 000 75 Annex B (normative) Read Channel signal equalization 77 Annex C (normative) Edge distortion test 81 Annex D (normative) Compliance test 83 - vii
30、i - Annex E (normative) Cartridge electro-static discharge test 87 Annex F (normative) Test method for measuring the adsorbent force of the hub 89 Annex G (normative) Interleave, CRC, ECC for the Data field 91 Annex H (normative) Drive Information Record (DIR) usage 95 Annex I (normative) Specific D
31、isk Information 97 Annex J (normative) CRC Calculation for SDI, DDS, PDL, and SDL Sectors 111 Annex K (normative) Data field scrambler implementation 113 Annex L (normative) Definition of the write pulse shape 115 Annex M (normative) Requirements for interchange 119 Annex N (informative) Office envi
32、ronment 121 Annex O (informative) Derivation of the operating climatic environment 123 Annex P (informative) Transportation 129 Annex Q (informative) Track deviation measurement 131 Annex R (informative) Measurement of the vertical birefringence of the cover layer 135 Annex S (informative) Start Pos
33、ition Shift (SPS) implementation 137 Annex T (informative) Sector retirement guidelines 139 Annex U (informative) Guidelines for the use of Type WORM ODCs 141 Annex V (informative) Laser power calibration for evaluation of media power parameters 143 - 1 - Section 1 General 1 Scope This Ecma Standard
34、 specifies the mechanical, physical, and optical characteristics of a 130 mm optical disk cartridge (ODC) that employs thermo-optical Phase Change effects to enable data interchange between such disks. This Ecma Standard specifies two types, viz. Type RW (Rewritable) provides for data to be written
35、read and erased many times over the recording surfaces of the disk. Type WORM (Write Once Read Many) provides for data once written to be read a multiplicity of times. This type shall use a Write Once Read Many times recording material (written marks cannot be erased and attempted modifications of t
36、he written marks are detectable). Multisession (incremental write operations) recording may be performed on Type WORM disks. The disk shall be two-sided with a nominal capacity of 30,0 Gbytes per side and the cartridge (two sides) shall provide a nominal capacity of 60,0 Gbytes. This Ecma Standard s
37、pecifies 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 of the cartridge so as to provide mechanical interchangeability between data processing systems; t
38、he format of the information on the disk, both embossed and user-written, including the physical disposition of the tracks and sectors, the error correction codes, the modulation methods used; the characteristics of the embossed information on the disk; the thermo-optical characteristics of the disk
39、, 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 from the disk. This Ecma Standard provides for interchange between optical disk drives. Together with a standard for volume and file structur
40、e, it provides for full data interchange between data processing systems. 2 Conformance 2.1 Optical disk An ODC shall be in conformance with this Ecma Standard if it meets all mandatory requirements specified therein. A claim of conformance with this Ecma Standard shall specify the Type, RW or WORM,
41、 implemented. 2.2 Generating system A claim of conformance with this Ecma Standard shall specify which Type(s) is (are) supported. A system generating an ODC for interchange shall be in conformance with this Ecma Standard if it meets the mandatory requirements of this Ecma Standard for the Type(s) s
42、upported. 2.3 Receiving system A claim of conformance with this Ecma Standard shall specify which Type(s) is (are) supported. - 2 - A system receiving an ODC for interchange shall be in conformance with this Ecma Standard if it is able to process any recording made on the cartridge according to 2.1
43、on the Type(s) specified. 2.4 Compatibility statement A claim of conformance with this Ecma Standard shall include a statement listing any other Optical Disk Cartridge Standard supported by the system for which conformance is claimed. This statement shall specify the number of the Standard(s), inclu
44、ding, where appropriate, the ODC Type(s), and whether support includes reading only or both reading and writing. 3 Reference The following Standards contain provisions, which through reference in this text, constitute provisions of this Ecma Standard. At the time of publication, the edition indicate
45、d was valid. All standards are subjected to revision, and parties to agreements based on this Ecma Standard are encouraged to investigate the possibility of applying the most recent edition of the following Standard. ECMA-287 (2002): Safety of electronic equipment ECMA-328 (2001): Detection and meas
46、urement of chemical emissions from electronic equipment 4 Definitions For the purpose of this Ecma Standard the following definitions apply. 4.1 band An annular group of Physical Tracks. 4.2 case The housing for an optical disk that protects the disk and facilitates disk interchange. 4.3 Case Refere
47、nce Plane A plane defined for each side of the case, to which the dimensions of the case are referred. 4.4 Channel bit The elements by which, after modulation, the binary values ZERO and ONE are represented by marks and spaces on the disk. 4.5 Clamping Zone The annular part of the disk within which
48、the clamping force is applied by the clamping device. 4.6 cover layer A transparent layer of the disk through which the optical beam accesses the recording layer. 4.7 Cyclic Redundancy Code (CRC) A method for detecting errors in data. 4.8 Data field A subdivision of a Sector intended for the recordi
49、ng of user data. 4.9 Defect Management A method for handling the defective areas on the disk. - 3 - 4.10 Disk Reference Plane A plane defined by the perfectly flat annular surface of an ideal spindle onto which the Clamping Zone of the disk is clamped, and which is normal to the axis of rotation. 4.11 entrance surface The surface of the disk onto which the optical beam first impinges. 4.12 Error Correction Code (ECC) An error-detecting code designed to correct certain kinds of errors in data. 4.13 field A subdivision of a Sector. 4.14 format The a
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