Policy on Intellectual Property Right (IPR)
1 Definition of terms
2 Basic system overview
3 UHDTV1 Mapping into single-link
or dual-link or quad-link 10G-HDSDI
3.1 Video payload mapping
3.2 Single-link 10G-HDSDI
for Systems U1.1 to U1.5
3.3 Dual-link 10G-HDSDI
for Systems U1.6 to U1.9
3.4 Quad-link 10G-HDSDI
for Systems U1.10 to U1.17
3.5 Optical interface
characteristics
3.6 ANC/audio data mapping
3.6.1 ANC data
mapping
3.6.2 Audio data
mapping
3.6.3 Payload ID
mapping
4 UHDTV2 mapping into quad-link
or octa-link or sixteen-link 10G‑HDSDI
4.1 Video payload mapping
4.2 Quad-link 10G-HDSDI
for Systems U2.1 to U2.5
4.3 Octa-link 10G-HDSDI
for Systems U2.6 to U2.9
4.4 Sixteen-link 10G-HDSDI
for Systems U2.10 to U2.17
4.5 Optical interface
characteristics
4.6 ANC/audio data mapping
4.6.1 ANC data
mapping
4.6.2 Audio data
mapping
4.6.3 Payload ID
mapping
Annex A to Part 1 (Normative) 10
Gbit/s UHDTV serial signal/data interface – basic stream derivation
A1 Source image formats
A1.1 Single-link 1.5 Gbit/s
image formats
A1.2 Dual-link 1.5 Gbit/s
image formats
A1.3 Quad-link 1.5 Gbit/s
image formats
A1.3.1 Four way
division of source data
A1.4 Octa-link 1.5 Gbit/s
A1.4.1 Eight way
division of source data
A2 Payload identifier
A2.1 Payload identifier for
1.5 Gbit/s
A2.2 Payload identifier for
dual-link 1.5 Gbit/s
A2.3 Payload identifier for
quad-link 1.5 Gbit/s
A2.4 Payload identifier for
octa-link 1.5 Gbit/s
A2.5 Placement of payload
identifier
Annex B to Part 1 (Normative) 10 Gbit/s
Serial signal/data interface – basic stream data mapping
B1 Basic stream data mapping
B1.1 5-Channel Mode (Mode
A)
B1.1.1 Mode A
50-Bit data blocking and 8B/10B encoding
B1.1.2 Data
replacement of SAV part of CH1
B1.1.3 10.692
Gbit/s stream for Mode A transmission
B1.2 6-Channel Mode (Mode
B)
B1.2.1 Mode B
50-bit data blocking and 8B/10B encoding
B1.2.2 Data
replacement of SAV part of CH1
B1.2.3 10.692
Gbit/s stream for Mode B transmission
B1.3 8-Channel Mode (Mode
C)
B1.4 8-Channel Mode (Mode
D)
B1.4.1 Mode D
video data blocking, scrambling and 8B/10B encoding
B1.4.2 Data
blocking for CRC and LN area in an even basic stream
B1.4.3 Data
replacement of SAV Part of CH2
B1.4.4 10.692
Gbit/s stream for Mode D transmission
Attachment A to Annex B to Part 1 (Normative) Data length
in a line in Mode A, B and D
Attachment B to Annex B to Part 1 (Informative)
BB.1 Mode A channel
assignment examples
BB.2 Mode B channel
assignment examples
BB.3 Mode D channel
assignment examples
Annex C to Part 1 (Normative) 10 Gbit/s serial signal/data
interface – optical fibre interface
C1 Serial fibre interface optical
and electrical specifications
C1.1 The optical
transmitter characteristics at nominal wavelengths of 1310 nm and 1550 nm
should be as defined in Table 1-C1
C1.2 Optical fibre
characteristics should be as defined in Table 1-C3
C2 Serial fibre interface jitter
specifications
C2.1 Jitter in the timing
of transitions of the data signal should be measured in accordance with
Recommendation ITU-R BT.1363
C2.2 Optical transmitter
and receiver should meet the requirements defined in Table 1‑C8 and
Table 1-C9
1 Definition of Terms
2 Video data signals
2.1 Overview of mapping
from 8K or 4K images to 10G link signals
2.1.1 Mapping of
8K or 4K images with 120 Hz, 120/1.001 Hz or 100 Hz frame frequency
2.1.2 Mapping of
8K or 4K images with 60 Hz, 60/1.001 Hz or 50 Hz frame frequency
2.1.3 Mapping of
8K or 4K images with 30 Hz, 30/1.001 Hz, 25 Hz, 24 Hz or 24/1.001 Hz frame
frequency
2.1.4 Configuration
of colour signal component and system ID
2.2 Division of 8K images
into 4K Sub-Images
2.3 Division of 4K images
and 4K sub-images into basic images
3 Basic stream
3.1 Conversion from basic
images to basic streams
3.2 Timing reference codes
(SAV and EAV)
3.3 Line number data
3.4 Error detection code
data
3.5 Ancillary data
3.6 Audio
3.7 Payload ID
3.8 Blanking data
4 Generation of 10G link signals
4.1 Generating 10G link
signals from basic streams
4.1.1 Generating
10G link signals from 120, 120/1.001 or 100 Hz basic streams
4.1.2 Generating
10G link signals from 60, 60/1.001 or 50 Hz basic streams
4.1.3 Generating
10G link signals from 30, 30/1.001, 25, 24 or 24/1.001 Hz basic streams
4.2 Mapping of 8K or 4K
image to 10G link signals
4.2.1 8K/ FR (Fr
= 120, 120/1.001, 100)
4.2.2 8K/Fr
(Fr = 60, 60/1.001, 50)
4.2.3 8K/Fr
(Fr = 30, 30/1.001, 25, 24, 24/1.001)
4.2.4 4K/Fr
(Fr = 120, 120/1.001, 100)
4.2.5 4K/Fr
(Fr = 60, 60/1.001, 50)
4.2.6 4K/Fr
(Fr = 30, 30/1.001, 25, 24, 24/1.001)
5 Physical layer
5.1 Optical transmitter
characteristics
5.2 Optical receiver
characteristics
5.3 Jitter specifications
5.4 Timing difference
5.5 Optical connector
5.6 Assignment of 10G link
signals to a receptacle connector
1 Definition of terms
2 Overview of UHDTV mapping into
multi-link 6G-SDI, 12G-SDI and 24G-SDI signals
2.1 Mapping for 4320-line
images
2.2
Mapping for 2160-line images with 120 Hz, 120/1.001 Hz, 100 Hz, 60 Hz, 60/1.001 Hz, 50 Hz, 30 Hz,
30/1.001 Hz, 24 Hz, or 24/1.001 Hz frame frequency
3 Image division into 1080-line
sub-images
3.1 Division of 4320-line
image into 4 × 2160-line intermediate sub-images
3.2 Division of 2160-line
image or intermediate sub-image into 4 × 1080-line sub-images
4 Data stream
4.1 100, 120/1.001 and 120 Hz images
4.1.1 Mapping of sub-images to data streams
4.2 50, 60/1.001 and 60 Hz
images
4.2.1 Mapping of sub-images to data streams
4.3 24/1.001, 24, 25,
30/1.001, and 30 Hz images
4.3.1 Mapping of sub-images to data streams
4.5 Timing reference codes
(SAV and EAV)
4.6 Line number data
4.7 Error detection code
data
4.8 Ancillary data
4.9 Audio
4.9.1 Transport
of the maximum number of audio channels
4.9.2 Audio copy
between links
4.10 Payload ID
4.11 Blanking data
5 Generation of 6G link signals
5.1 6G-SDI 10-bit
Multiplex
5.1.1 Type 1 and
Type 2 10-bit Parallel Interfaces
5.2 6G-SDI serial
interface
5.2.1 Sync-bit
insertion
5.2.2 Channel
coding and serialization
5.2.3 Serial
clock
5.2.4 Inter link
delay
6 Generation of 12G link signals
6.1 12G-SDI 10-bit Multiplex
6.1.1 Type 1 and
Type 2 10-bit parallel interfaces
6.2 12G-SDI serial
interface
6.2.1 Sync-bit
insertion
6.2.2 Channel
coding and serialization
6.2.3 Serial
clock
6.2.4 Inter link
delay
7 Generation of 24G link signals
7.1 24G-SDI 10-bit
Multiplex
7.1.1 Type 1 and
Type 2 10-bit parallel interfaces
7.2 24G-SDI serial
interface
7.2.1 Sync-bit
insertion
7.2.2 Channel
coding and serialization
7.2.3 Serial
clock
7.2.4 Inter link
delay
8 Coaxial cable interface
8.1 Generator signal
levels and specifications
8.2 Receiver signal levels
and specifications
8.2.1 Return
loss 6G interface
8.2.2 Return
loss 12G interface
8.2.3 Return
loss 24G interface
9 Optical interface
9.1 Transmitter unit
9.1.1 Transmitter
unit labelling
9.2 Receiver unit
9.2.2 Receiver
unit labelling
9.2.3 Selection
of wavelengths
Attachment 1 to Part 3 (Informative)
Attachment 2 to Part 3 (Informative)