1 Digital representation
1.1 Coding characteristics
1.2 Construction of digital signals
2 Digital interface
2.1 Video data
2.2 Video timing relationship with analogue waveform
2.3 Video timing reference codes (SAV and EAV)
2.4 Ancillary data
2.5 Data words during blanking
3 Bit-parallel interface
3.1 Clock signal and clock-to-data timing relationship
3.2 Electrical characteristics of the interface
3.3 Mechanical characteristics
3.3.1 Connector
3.3.2 Interconnecting
cable
4 Bit-serial interface
4.1 Data format
4.1.1 Video data
4.1.2 Video timing reference codes
4.1.3 Line number data
4.1.4 Error detection
codes
4.1.5 Ancillary data
4.1.6 Blanking data
4.2 Transmission format
4.2.1 Word-multiplexing
4.2.2 Serializing
4.2.3 Channel coding
4.2.4 Serial clock
4.2.5 Bit-serial digital check field
4.3 Coaxial cable interfaces
4.3.1 Line driver characteristics (source)
4.3.2 Line receiver characteristics (destination)
4.3.3 Transmission line characteristics
4.3.4 Connector
4.4 Optical fibre interfaces
1 Digital representation
1.1 Coding characteristics
1.2 Construction of digital signals
2 Digital interface
2.1 Video data
2.2 Video timing relationship with analogue waveform
2.3 Video timing reference codes SAV and EAV
2.4 Ancillary data
2.5 Data words during blanking
3 Bit-parallel interface
3.1 Clock signal and clock-to-data timing relationship
3.2 Electrical characteristics of the interface
3.3 Mechanical characteristics (see
Note 1)
3.3.1 Connector
3.3.2 Interconnecting cable
4 Bit-serial interface
4.1 Data format
4.1.1 Video data
4.1.2 Video timing
reference codes
4.1.3 Line number data
4.1.4 Error detection codes
4.1.5 Ancillary data
4.1.6 Blanking data
4.2 Transmission format
4.2.1 Word-multiplexing
4.2.2 Serializing
4.2.3 Channel coding
4.2.4 Serial clock
4.2.5 Bit-serial digital check field
4.3 Coaxial cable interfaces
4.3.1 Line driver characteristics (source)
4.3.2 Line receiver characteristics (destination)
4.3.3 Transmission line characteristics
4.3.4 Connector
4.4 Optical fibre interfaces
4.5 Bit-serial interface
for 60/P and 50/P
4.5.1 Source sample numbering
4.5.2 Interface data streams and multiplex structure
4.5.3 Timing reference signals and line numbers
4.5.4 Signal timing considerations
4.5.5 Link A and link B
identification
4.5.6 Ancillary data
4.5.7 Audio data
4.5.8 Time code
4.5.9 Applications
of the dual link bit-serial digital interface
Appendix 1 to Part 2 Applications
of the dual-link high-definition serial digital interface
1 4:4:4
(RGB) and 4:4:4:4 (RGB+A)10-bit
signals of 30/P, 30/PsF,
60/I, 25/P, 25/PsF, 50/I, 24/P and 24/PsF systems
1.1 Source sample numbering
1.2 Interface data streams
1.3 Multiplex structure
1.4 Auxiliary signal
2 4:4:4 (RGB) 12-bit signalsof 30/P,
30/PsF,
60/I, 25/P, 25/PsF, 50/I, 24/P and 24/PsF systems
2.1 Source sample numbering
2.2 Interface data streams
2.3 RGB:0-1 onto first
channel of link B data mapping
2.4 Multiplex structure
3 4:2:2
(YCBCR) 12-bit signalsof 30/P, 30/PsF, 60/I, 25/P, 25/PsF, 50/I,
24/P and 24/PsF systems
3.1 Source sample numbering
3.2 Interface data streams
3.3 YCBCR:0-1 and Y:0-1 onto first channel of link B data mapping
3.4 Multiplex structure
3.5 Auxiliary signal
4 4:4:4 (YCBCR), 4:4:4:4 (YCBCR + A) 10-bit signals of 30/P, 30/PsF, 60/I, 25/P, 25/PsF, 50/I, 24/P and 24/PsF
systems
4.1 Source sample numbering
4.2 Interface data streams
4.3 Multiplex structure
4.4 Auxiliary signal
5 4:4:4 (YCBCR) 12-bit signals of 30/P, 30/PsF, 60/I, 25/P, 25/PsF, 50/I, 24/P and 24/PsF
systems
5.1 Source sample numbering
5.2 Interface data streams
5.3 Multiplex structure
Annex
1 Bit-serial digital checkfield for use
in the HDTV digital interfaces
1 Scope
2 General considerations
3 Checkfield data
4 Serial digital interface (SDI) checkfield