BS ISO/IEC 30192:2016:2018 Edition

$215.11

Information technology. Digitally recorded media for information interchange and storage. 120 mm Single Layer (25,0 Gbytes per disk) and Dual Layer (50,0 Gbytes per disk) BD Rewritable disk

Published By	Publication Date	Number of Pages
BSI	2018	228

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Categories: 35.220.30 - Optical storage devices, BSI

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Description

This International Standard specifies the mechanical, physical and optical characteristics of a 120 mm rewritable optical disk with a capacity of 25,0 Gbytes or 50,0 Gbytes. It specifies the quality of the recorded and unrecorded signals, the format of the data and the recording method, thereby allowing for information interchange by means of such disks. User data can be written, read and overwritten many times using a reversible method. A conforming disk is identified as a BD Rewritable disk.

This International Standard specifies the following:

two related but different Types of this disk;
conditions for conformance;
environments in which the disk is to be operated and stored;
mechanical and physical characteristics of the disk, which allow mechanical interchange between data processing systems;
format of the information on the disk, including the physical disposition of the Tracks and Sectors;
error-correcting codes and coding method used;
characteristics of the signals recorded on the disk, which enable data processing systems to read data from the disk.

This International Standard provides for interchange of disks between drives. Together with a standard for volume and file structure, it provides for full data interchange between data processing systems.

PDF Catalog

PDF Pages	PDF Title
2	undefined
14	Blank Page
15	1 Scope
16	2 Conformance 2.1 Optical Disk 2.2 Generating system 2.3 Receiving system 2.4 Compatibility statement 3 Normative references
17	4 Terms and definitions
21	5 Conventions and notations 5.1 Terminology 5.1.1 Meaning of words 5.1.2 Levels of grouping 5.2 Representation of numbers
22	5.3 Integer calculus 5.4 Names 6 List of acronyms
25	7 General descriptions of disk
27	8 General requirements 8.1 Environments 8.1.1 Test environment 8.1.1.1 General 8.1.1.2 Test conditions for sudden changes in operating environment 8.1.2 Operating environment
28	8.1.3 Storage environment 8.1.3.1 General 8.1.3.2 Climatic storage tests
29	8.1.4 Transportation 8.1.4.1 General 8.1.4.2 Packaging 8.1.4.2.1 General 8.1.4.2.2 Temperature and humidity 8.1.4.2.3 Impact loads and vibrations 8.2 Safety requirements 8.3 Flammability 9 Reference drive 9.1 General 9.2 Environmental conditions 9.3 Optical system
31	9.4 Optical beam 9.5 HF read channel
32	9.6 Radial PP read channel 9.7 Disk Clamping 9.8 Rotation of the disk and Measurement Velocity
33	9.9 Normalized servo transfer function
34	9.10 Measurement Velocity and Reference servo for axial tracking
35	9.11 Measurement Velocity and Reference servo for radial tracking
36	10 Dimensional characteristics 10.1 General 10.2 Disk reference planes and reference axis
37	10.3 Overall dimensions
38	10.4 First transition Area 10.5 Protection ring 10.6 Clamping Zone 10.7 Second transition Area
39	10.8 Information Area 10.8.1 General 10.8.2 Subdivisions of Information Zone on SL disk
40	10.8.3 Subdivisions of Information Zone on DL disks
41	10.9 Rim Area 11 Mechanical characteristics 11.1 Mass 11.2 Moment of inertia 11.3 Dynamic imbalance 11.4 Axial runout 11.4.1 General
42	11.4.2 Residual axial tracking error 11.5 Radial runout 11.5.1 General 11.5.2 Residual radial tracking error on SL disks
43	11.5.3 Residual radial tracking error on DL disks 11.6 Durability of Cover Layer 11.6.1 Impact resistance of Cover Layer 11.6.2 Scratch resistance of Cover Layer 11.6.3 Repulsion of fingerprints by Cover Layer 12 Optical characteristics in Information Area 12.1 General 12.2 Refractive index of Transmission Stacks (TS)
44	12.3 Thickness of Transmission Stack(s) 12.3.1 Thickness of Transmission Stack of SL disks 12.3.2 Thickness of Transmission Stack of DL disks
45	Reflectivity 12.4.1 Reflectivity of Recording Layer of SL disks
46	12.4.2 Reflectivity of Recording Layer of DL disks 12.5 Birefringence 12.6 Angular deviation
47	13 Data format 13.1 General
49	13.2 Data Frames 13.3 Error-Detection Code (EDC) 13.4 Scrambled Data Frame
50	13.5 Data Block
51	13.6 LDC Block 13.7 LDC Code words
52	13.8 LDC Cluster 13.8.1 General 13.8.2 First interleave step
53	13.8.3 Second interleaving step
55	13.9 Addressing and Control Data 13.9.1 General 13.9.2 Address Units 13.9.2.1 General 13.9.2.2 Byte assignments for Address Fields
56	13.9.2.3 Address-Unit Numbers
57	Assignments for flag bit
58	13.9.2.5 Usage of status bits Sai,j 13.9.3 User-Control Data
59	13.9.4 Byte/Bit assignments for User-Control Data 13.10 Access Block
61	13.11 BIS Block 13.12 BIS Code words
62	13.13 BIS Cluster
66	13.14 ECC Cluster
67	13.15 Recording Frames 13.16 Physical Cluster 13.17 17PP Modulation for Recordable data 13.17.1 General
68	13.17.2 Bit conversion rules 13.17.3 dc-control procedure 13.17.4 Frame Sync
70	13.18 Modulation and NRZI conversion
71	14 Physical Data Allocation and Linking 14.1 General 14.2 Recording-Unit Block (RUB) 14.2.1 General 14.2.2 Data Run-in 14.2.2.1 General
72	14.2.2.2 Content of Guard_1 fields 14.2.2.3 Automatic Power Control (APC) 14.2.2.4 Content of PrA fields 14.2.3 Data Run-out 14.2.3.1 General
73	14.2.3.2 Content of PoA fields 14.2.3.3 Content of Guard_2 fields 14.2.4 Guard_3 field 14.2.4.1 General 14.2.4.2 Automatic Power Control (APC)
74	14.3 Locating data relative to wobble addresses 14.3.1 General 14.3.2 Start-Position Shift (SPS)
75	15 Track format 15.1 General
76	15.2 Track shape
78	15.3 Track Path 15.4 Track Pitch 15.4.1 Track Pitch in BCA Zone 15.4.2 Track Pitch in Embossed HFM Areas 15.4.3 Track Pitch in Rewritable Areas
79	15.4.4 Track Pitch between Embossed HFM Area and Rewritable Area 15.5 Track layout of HFM Groove 15.5.1 General 15.5.2 Data Format 15.5.2.1 Data Frame 15.5.2.2 Scrambled Data Frame 15.5.2.3 Data Block
80	15.5.2.4 LDC Block 15.5.2.5 Interleaving 15.5.3 Addressing and Control Data 15.5.3.1 General
81	15.5.3.2 Address Field
82	15.5.3.3 User-Control Data 15.5.3.4 BIS Code words 15.5.3.5 BIS Cluster
83	15.5.4 Recording Frames 15.5.4.1 General
84	15.5.4.2 Modulation 15.5.4.3 Frame Sync
85	15.6 Track layout of Wobbled Groove(s) 15.6.1 General
86	15.6.2 Modulation of wobbles 15.6.2.1 General 15.6.2.2 MSK-cos modulation 15.6.2.3 HMW modulation
87	15.7 ADIP Information 15.7.1 General 15.7.2 ADIP-Unit Types
89	15.7.3 ADIP Word structure
90	15.7.4 ADIP Data structure 15.7.4.1 General 15.7.4.2 ADIP-Information bit assignments
91	15.7.4.3 Relation between Physical ADIP Addresses on Layer L0 and Layer L1
92	15.7.5 ADIP Error Correction
94	15.8 Disk Information in ADIP Aux Frame 15.8.1 General 15.8.2 Error protection for Disk-Information Aux Frames
95	Disk-Information Data structure 15.8.3.1 General
96	15.8.3.2 General definitions for DI Unit
100	15.8.3.3 Definitions for DI format 1(N-1 write strategy A)
110	15.8.3.4 Definitions for DI format 2 (N-1 write strategy B)
118	15.8.3.5 Definitions for DI format 3 (N/2 write strategy)
124	15.8.3.6 Write strategy requirements 15.8.3.7 Usage of DI Units for Write strategies
126	16 General description of Information Zone 16.1 General 16.2 Format of Information Zone on Single-Layer disk 16.3 Format of Information Zone on Dual-Layer disk 17 Layout of Rewritable Area of Information Zone
130	18 Inner Zone 18.1 General
132	18.2 Permanent Information and Control data (PIC) Zone 18.2.1 General 18.2.2 Content of PIC Zone
133	18.2.3 Emergency Brake
135	18.3 Rewritable Area of Inner Zone(s) 18.3.1 Protection-Zone 2 18.3.2 INFO 2/Reserved 8 18.3.3 INFO 2/Reserved 7 18.3.4 INFO 2/Reserved 6
136	18.3.5 INFO 2/Reserved 5 18.3.6 INFO 2/PAC 2 18.3.7 INFO 2/DMA 2 18.3.8 INFO 2/Control Data 2 18.3.9 INFO 2/Buffer 2 18.3.10 OPC/Test Zone 18.3.11 Reserved 18.3.12 INFO1/Buffer 1 18.3.13 INFO 1/Drive Area (optional) 18.3.13.1 General
137	18.3.13.2 Format of Drive-specific Information
138	18.3.14 INFO 1/Reserved 3 18.3.15 INFO 1/Reserved 2 18.3.16 INFO 1/Reserved 1 18.3.17 INFO 1/DMA 1 18.3.18 INFO1/Controle Data 1 18.3.19 INFO1/PAC 1 19 Data Zone
139	20 Outer Zone(s) 20.1 General
140	20.2 INFO 3/Buffer 4 20.3 INFO 3/DMA 3 20.4 INFO 3/Control Data 4 20.5 Angular buffer 20.6 INFO 4/DMA 4 20.7 INFO 4/Control Data 4 20.8 INFO 4 / Buffer 6 20.9 Protection-Zone 3
141	21 Physical-Access Control Clusters 21.1 General 21.2 Layout of PAC Zones
142	21.3 General structure of PAC Clusters
145	21.4 Primary PAC Cluster (mandatory)
148	21.5 Disk Write-Protect PAC Cluster (optional)
151	21.6 IS1 and IS2 PAC Clusters
152	22 Disk Management 22.1 General 22.2 Disk-Management Structure (DMS) 22.2.1 General
153	22.2.2 Disk-Definition Structure (DDS)
157	22.2.3 Defect List (DFL) 22.2.4 Defect-List Header (DLH)
158	22.2.5 List of Defects
160	22.2.6 DFL Entries
161	23 Assignment of Logical-Sector Numbers (LSNs)
162	24 Characteristics of Grooved Areas 25 Method of testing for Grooved Area 25.1 General 25.2 Environment 25.3 Reference drive 25.3.1 General 25.3.2 Read power 25.3.3 Read channels
163	25.3.4 Tracking requirements 25.3.5 Scanning velocity 25.4 Definitions of signals
165	26 Signals from HFM Grooves 26.1 Push-Pull signal 26.2 HFM Wobble signal 26.3 Jitter of HFM signal
166	27 Signals from Wobbled Groove(s) 27.1 Phase depth 27.2 Push-Pull signal 27.3 Wobble signal 27.3.1 General 27.3.2 Measurement of NWS 27.3.3 Measurement of wobble CNR
167	27.3.4 Measurement of harmonic distortion requirements 28 Characteristics of Recording Layer
168	29 Method of testing for Recording Layer 29.1 General 29.2 Environment 29.3 Reference drive 29.3.1 General 29.3.2 Read power 29.3.3 Read channels 29.3.4 Tracking requirements 29.3.5 Scanning velocities 29.4 Write conditions 29.4.1 Write-pulse waveform
169	29.4.2 Write powers 29.4.3 Write conditions for jitter measurement 29.4.4 Write conditions for cross-erase measurement 29.4.5 Write conditions for inter-velocity overwrite measurements
170	29.5 Definition of signals 30 Signals from Recorded Areas 30.1 HF signals 30.2 Modulated amplitude
171	30.3 Reflectivity-Modulation product 30.4 Asymmetry 30.5 Jitter
172	30.6 Cross-erase 30.7 Inter-velocity overwrite
173	30.8 Read stability
174	31 Local defects 32 Characteristics of User Data 33 Method of testing for User Data 33.1 General 33.2 Environment
175	33.3 Reference drive 33.3.1 General 33.3.2 Read power 33.3.3 Read channels 33.3.4 Error Correction 33.3.5 Tracking requirements 33.3.6 Scanning velocities 33.4 Definition of signals
177	34 Minimum quality of recorded information 34.1 Random Symbol Error Rate 34.2 Maximum burst errors 34.3 User-written Data
178	35 BCA
195	Limitations for N-1 write strategy A

Additional information

Status	Withdrawn
Title	Information technology. Digitally recorded media for information interchange and storage. 120 mm Single Layer (25,0 Gbytes per disk) and Dual Layer (50,0 Gbytes per disk) BD Rewritable disk
Corrects	BS ISO/IEC 30192:2016
Publisher	BSI
Committee	ICT/1
Pages	228
Publication Date	2018-08-31
Withdrawn Date	2021-02-02
Replaced By	BS ISO/IEC 30192:2021
ISBN	978 0 539 01863 9
Standard Number	BS ISO/IEC 30192:2016
Identical National Standard Of	ISO/IEC 30192:2016
Descriptors	Information exchange, Data storage protection, Technical documents, Documents, Classification systems, Computer networks, Computer technology, Data security, Computers, Records (documents), Anti-burglar measures, Maintenance, Data processing, Information systems, Management
ICS Codes	35.220.30 - Optical storage devices

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