ECMA 374-2008 Data Interchange on 120 mm and 80 mm Optical Disk using +RW DL Format - Capacity 8 55 and 2 66 Gbytes per Side (Recording speed 2 4X)《使用+R DL格式在120毫米和80毫米光盘上的数据交换 容量 .pdf

1、 ECMA-374 2ndEdition / June 2008 Data Interchange on 120 mm and 80 mm Optical Disk using +RW DL Format Capacity: 8,55 and 2,66 Gbytes per Side (Recording speed 2,4X) Ecma International Rue du Rhne 114 CH-1204 Geneva T/F: +41 22 849 6000/01 www.ecma-international.org PCC Data Interchange on 120 mm an

2、d 80 mm Optical Disk using +RW DL Format Capacity: 8,55 and 2,66 Gbytes per Side (Recording speed 2,4X) Standard ECMA-374 2ndEdition / June 2008 . Introduction Ecma Technical Committee TC31 was established in 1984 for the standardization of Optical Disks and Optical Disk Cartridges (ODC). Since its

3、establishment, the Committee has made major contributions to ISO/IEC toward the development of International Standards for 80 mm, 90 mm, 120 mm, 300 mm, and 356 mm media. Numerous standards have been developed by TC31 and published by Ecma, almost all of which have also been adopted by ISO/IEC under

4、 the fast-track procedure as International Standards. In June 2006 a group of Companies proposed to TC31 to develop a standard for 120 mm dual layer rewritable optical disks using Phase Change recording technology and based on the DVD - Read-Only standard (ECMA-267) and the +RW format (ECMA-337 and

5、ECMA-371). TC31 adopted this project and started the work that has resulted in this Standard. This Ecma Standard specifies two Types of rewritable optical disks, one (Type S9) making use of recording on only a single side of the disk and yielding a nominal capacity of 8,55 or 2,66 Gbytes per disk an

6、d the other (Type D18) making use of recording on both sides of the disk and yielding a nominal capacity of 17,1 or 5,32 Gbytes per disk. This Ecma Standard, taken together with a standard for volume and file structure, such as for instance developed in Ecma Technical Committee TC15, provides the re

7、quirements for information interchange between systems. This Ecma Standard has been adopted by the General Assembly of June 2008. 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 1 3 Referenc

8、es 2 4 Definitions 2 4.1 Channel bit 2 4.2 Clamping Zone 2 4.3 Digital Sum Value (DSV) 2 4.4 Disk Reference Plane 2 4.5 dummy substrate 2 4.6 entrance surface 2 4.7 field 2 4.8 groove 3 4.9 interleaving 3 4.10 mark 3 4.11 phase change 3 4.12 Physical Sector 3 4.13 recording layer 3 4.14 Reed-Solomon

9、 code (RS) 3 4.15 Reference velocity 3 4.16 space 3 4.17 spacer 3 4.18 substrate 3 4.19 track 3 4.20 track pitch 3 4.21 VCPS 3 4.22 wobble 4 4.23 zone 4 - i - 5 Conventions and notations 4 5.1 Representation of numbers 4 5.2 Names 4 6 List of acronyms 5 7 General description of the optical disk 5 8

10、General Requirements 6 8.1 Environments 6 8.1.1 Test environment 6 8.1.2 Operating environment 6 8.1.3 Storage environment 7 8.1.4 Transportation 7 8.2 Safety requirements 7 8.3 Flammability 7 9 Reference Drive 7 9.1 Optical system 7 9.2 Optical beam 8 9.3 Read channel 1 9 9.4 Disk clamping 9 9.5 Ro

11、tation of the disk 9 9.6 Wobble channel (Read channel 2) 10 9.7 Tracking channel (Read channel 2) 10 9.8 Reference servo systems 10 9.8.1 Normalized servo transfer function 10 9.8.2 Reference Servo for Axial Tracking 11 9.8.3 Reference Servo for Radial Tracking 12 Section 2 Dimensional, mechanical a

12、nd physical characteristics of the disk 13 10 Dimensional characteristics 13 10.1 Reference Planes 14 10.2 Overall dimensions 14 10.3 First transition area 14 10.4 Second transition area 15 10.5 Clamping Zone 15 10.6 Third transition area 15 10.7 Information Zone 15 10.7.1 Sub-division of the Inform

13、ation Zone 15 10.7.2 Track mode 16 - ii - 10.8 Rim area 16 10.9 Remark on tolerances 17 11 Mechanical characteristics 17 11.1 Mass 17 11.2 Moment of inertia 17 11.3 Dynamic imbalance 17 11.4 Axial runout 17 11.4.1 Tracking requirements at the Reference velocity (CLV) 17 11.5 Radial runout 17 11.5.1

14、Tracking requirements at the Reference velocity (CLV) 17 12 Optical characteristics in the Information Zone 18 12.1 Index of refraction 18 12.2 Thickness of the substrate 18 12.3 Reflectivity 18 12.4 Birefringence 19 12.5 Angular deviation 19 Section 3 Format of information 20 13 Data format 20 13.1

15、 Data Frames 20 13.1.1 Identification Data (ID) 21 13.1.2 ID Error Detection Code (IED) 21 13.1.3 RSV 21 13.1.4 Error Detection Code (EDC) 22 13.2 Scrambled Frames 22 13.3 ECC Blocks 23 13.4 Recording Frames 24 13.5 Modulation and NRZI conversion 25 13.6 Physical Sectors 25 13.7 Layout of a Recordin

16、g UNit (RUN) 26 13.7.1 Recording Unit position 27 13.8 d.c. component suppression control 28 14 Track format 29 14.1 Track shape 29 14.2 Track path 29 14.3 Track pitch 29 14.4 Track layout 29 14.4.1 ADIP information 29 - iii - 14.4.2 Physical format information in ADIP 32 Section 4 Format of the Inf

17、ormation Zone 46 15 General description of the Information Zone 46 16 Layout of the Information Zone 47 16.1 Usage of the Data Zone 47 16.2 Physical Sector Numbers (PSNs) 48 17 Lead-in Zone 49 17.1 Initial Zone 49 17.2 Inner Disk Test Zone 49 17.3 Guard Zone 1 49 17.4 Reserved Zone 1 50 17.5 Reserve

18、d Zone 2 50 17.6 Inner Disk Identification Zone 50 17.7 Reserved Zone 3 50 17.8 Reference Code Zone 51 17.9 Buffer Zone 1 51 17.10 Control Data Zone 51 17.10.1 Physical format information 51 17.10.2 Disk manufacturing information 53 17.10.3 Content provider information 53 17.11 Buffer Zone 2 53 18 D

19、ata Zone 54 19 Middle Zones 54 19.1 Buffer Zones 3 55 19.2 Reserved Zones 4 55 19.3 Guard Zones 2 55 20 Outer Drive Areas 56 20.1 Reserved Zone 5 56 20.2 Outer Disk Test Zone 56 20.3 Guard Zone 3 56 21 Lead-out Zone 56 21.1 Buffer Zone 4 57 21.2 Inner Disk Test Zone 57 21.3 Final Zone 57 - iv - 22 A

20、ssignment of Logical Sector Numbers (LSNs) 57 23 Formatting 57 23.1 Pre-formatting 58 23.1.1 Verification 58 23.2 Background formatting 58 23.2.1 Initialization 58 23.2.2 De-icing 59 23.2.3 Finalization 61 23.2.4 Verification (optional) 61 23.3 Sequential recording without formatting 61 24 Disk Cont

21、rol Blocks 63 24.1 General format of Disk Control Blocks 63 24.2 Format of the Formatting DCB (FDCB) 65 24.3 Format of the Write inhibit DCB (WDCB) 69 Section 5 Characteristics of the groove 72 25 General 72 26 Method of testing 72 26.1 Environment 72 26.2 Reference Drive 72 26.2.1 Optics and mechan

22、ics 72 26.2.2 Read power 72 26.2.3 Read channels 72 26.2.4 Tracking 72 26.3 Definition of signals 73 27 Characteristics of the groove signals 74 27.1 Phase depth 74 27.2 Push-pull signal 74 27.3 Track Cross signal 74 27.4 Normalized wobble signal 74 27.5 Characteristics of the wobble 74 Section 6 Ch

23、aracteristics of the recording layer 75 28 Method of testing 75 28.1 Environment 75 28.2 Reference Drive 75 28.2.1 Optics and mechanics 75 - v - 28.2.2 Read power 75 28.2.3 Read channels 75 28.2.4 Tracking 75 28.2.5 Scanning velocity 75 28.3 Write conditions 76 28.3.1 Write pulse waveform 76 28.3.2

24、Write power 76 28.3.3 Write power shift for layer L1 due to recording on layer L0 76 28.4 Measurement conditions 76 29 Characteristics of the recorded signals 76 29.1 Channel bit length 76 29.2 Definition of signals 77 29.2.1 High frequency signals (HF) 77 29.2.2 Modulated amplitude 77 29.2.3 Signal

25、 asymmetry 78 29.2.4 Normalized Slicing Level jump 78 29.2.5 Jitter 78 29.3 Read stability 78 30 Additional testing conditions 79 30.1 Test environment 79 30.1.1 Optics 79 30.2 Definition of signals 80 30.2.1 Modulated amplitude 80 30.2.2 Signal asymmetry 80 30.2.3 Jitter 80 30.2.4 Track Cross signa

26、l 80 30.2.5 Differential phase tracking error signal 80 30.2.6 Tangential push-pull signal 81 31 Quality of the recording layer 82 31.1 Defects 82 31.2 Data errors 82 Section 7 Characteristics of user data 83 32 Method of testing 83 32.1 Environment 83 32.2 Reference Drive 83 32.2.1 Optics and mecha

27、nics 83 32.2.2 Read power 83 32.2.3 Read channels 83 32.2.4 Error correction 83 - vi - 32.2.5 Tracking 83 33 Minimum quality of a Recording Unit 84 33.1 Tracking 84 33.2 User-written data 84 Annex A (normative) 80 mm +RW DL disk 85 Annex B (normative) Structure for Extended format information in the

28、 Data Zone 91 Annex C (normative) Measurement of light reflectivity 95 Annex D (normative) Measurement of birefringence 97 Annex E (normative) Measuring conditions for operation signals 99 Annex F (normative) Measurement of the differential phase tracking error 103 Annex G (normative) The write puls

29、e wave form for testing 107 Annex H (normative) 8-to-16 Modulation 113 Annex I (normative) Optimum Power Control 121 Annex J (normative) Logical to Physical address translation 127 Annex K (informative) Recommended access method for players 129 Annex L (informative) Measurement of the groove wobble

30、amplitude 131 Annex M (informative) Transportation 133 Annex N (informative) Defect Management and Physical Formatting 135 Annex O (informative) Video Content Protection System 137 Annex P (informative) How to use the Physical format information in ADIP 139 Annex Q (informative) Values to be Impleme

31、nted in Existing and Future Specifications 141 - vii - - viii - Section 1 General 1 Scope This Ecma Standard specifies the mechanical, physical and optical characteristics of 120 mm rewritable optical disks with capacities of 8,55 Gbytes and 17,1 Gbytes. It specifies the quality of the recorded and

32、unrecorded signals, the format of the data and the recording method, thereby allowing for information interchange by means of such disks. The data can be written, read and overwritten many times using the phase change method. These disks are identified as +RW DL. This Ecma Standard also specifies 80

33、 mm disks with capacities of 2,66 Gbytes and 5,32 Gbytes. These disks shall have the same characteristics as the 120 mm disks, except for some parameters related to the smaller dimensions. All parameters unique for the 80 mm disks are specified in Annex A. This Ecma Standard specifies two related bu

34、t different Types of this disk (see clause 7), the conditions for conformance, the environments in which the disk is to be tested, operated and stored, the mechanical, physical and dimensional characteristics of the disk, so as to provide mechanical interchange between data processing systems, the f

35、ormat of the information on the disk, including the physical disposition of the tracks and sectors, the error correcting codes and the coding method, the characteristics of the signals recorded on the disk, thus enabling data processing systems to read the data from the disk. This Ecma Standard prov

36、ides for the interchange of disks between optical disk drives. Together with a standard for volume and file structure, it provides for full data interchange between data processing systems. 2 Conformance 2.1 Optical Disk A claim of conformance with this Ecma Standard shall specify the Type implement

37、ed. An optical disk shall be in conformance with this Ecma Standard if it meets all mandatory requirements specified for its Type. 2.2 Generating system A generating system shall be in conformance with this Ecma Standard if the optical disk it generates is in accordance with 2.1. 2.3 Receiving syste

38、m A receiving system shall be in conformance with this Ecma Standard if it is able to handle both Types of optical disk according to 2.1. 2.4 Compatibility statement A claim of conformance by a Generating or Receiving system with this Ecma Standard shall include a statement listing any other standar

39、ds supported. This statement shall specify the numbers of the standards, the optical disk types supported (where appropriate) and whether support includes reading only or both reading and writing. - 1 - 3 References ECMA-43: 8-bit Coded Character Set Structure and Rules (ISO/IEC 4873) ECMA-267: 120

40、mm DVD Read-Only Disk (ISO/IEC 16448:2002) ECMA-268: 80 mm DVD Read-Only Disk (ISO/IEC 16449:2002) ECMA-287: Safety of Electronic Equipment ECMA-337 Data Interchange on 120 mm and 80 mm Optical Disk using +RW Format - Capacity: 4,7 and 1,46 Gbytes per Side (Recording speed up to 4X) (ISO/IEC 17341:2

41、006) ECMA-349 Data Interchange on 120 mm and 80 mm Optical Disk using +R Format - Capacity: 4,7 and 1,46 Gbytes per Side (Recording speed up to 16X) (ISO/IEC 17344:2006) ECMA-364 Data Interchange on 120 mm and 80 mm Optical Disk using +R DL Format - Capacity: 8,55 and 2,66 Gbytes per Side (Recording

42、 speed up to 16X) (ISO/IEC 25434:2007) ECMA-371 Data Interchange on 120 mm and 80 mm Optical Disk using +RW HS Format - Capacity: 4,7 and 1,46 Gbytes per Side (Recording speed up to 8X) (ISO/IEC 26925:2006) The efficiency and data reliability of +RW DL disks can be improved by the use of Background

43、Formatting and Defect Management. An example of such a system is referred to in Annex N. Unauthorized copying and/or redistribution of video data that is recorded in the DVD+R/+RW Video Format can be prevented by applying the Video Content Protection System as referred to in Annex O. 4 Definitions F

44、or the purpose of this Ecma Standard the following definitions apply: 4.1 Channel bit The elements by which the binary values ZERO and ONE are represented by marks and spaces on the disk. 4.2 Clamping Zone The annular part of the disk within which the clamping force is applied by the clamping device

45、. 4.3 Digital Sum Value (DSV) The arithmetic sum obtained from a bit stream by allocating the decimal value +1 to bits set to ONE and the decimal value 1 to bits set to ZERO. 4.4 Disk Reference Plane A plane defined by the perfectly flat annular surface of an ideal spindle onto which the clamping Zo

46、ne of the disk is clamped, and which is normal to the axis of rotation. 4.5 dummy substrate A layer which may be transparent or not, provided for the mechanical support of the disk and, in some cases, of the recording layer as well. 4.6 entrance surface The surface of the disk onto which the optical

47、 beam first impinges. 4.7 field A subdivision of a sector. - 2 - 4.8 groove A trench-like feature of the disk, applied before the recording of any information, and used to define the track location. The groove is located nearer to the entrance surface than the so-called land in between the grooves.

48、The recording is made on the groove. 4.9 interleaving The process of reallocating the physical sequence of units of data so as to render the data more immune to burst errors. 4.10 mark A feature of the recording layer which may take the form of an amorphous domain, a pit, or any other type or form t

49、hat can be sensed by the optical system. The pattern of marks and spaces represents the data on the disk. 4.11 phase change A physical effect by which the area of a recording layer irradiated by a laser beam is heated so as to change from an amorphous state to a crystalline state and vice versa. 4.12 Physical Sector The smallest addressable part of a track in the Information Zone of a disk that can be accessed independently of other addressable parts of the Zone. 4.13 recording layer A layer of the disk on which data is written during manufacture and