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首页AES-EBU Specification(IEC 60958-4 Audio Data Format )最新音频标准,做音频必备的标准
AES-EBU Specification(IEC 60958-4 Audio Data Format )最新音频标准,做音频必...
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AES-EBU Specification(IEC 60958-4 Audio Data Format )最新音频标准,做音频必备的标准
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SPECIFICATION OF THE DIGITAL AUDIO INTERFACE
(The AES/EBU interface)
Tech. 3250-E - Third edition 2004
CONTENTS
1. Scope...................................................................................................................................................................2
2. Interface format....................................................................................................................................................2
2.1. Terminology.................................................................................................................................................2
2.2. Structure of format........................................................................................................................................3
2.3. Channel coding.............................................................................................................................................5
2.4. Preambles.....................................................................................................................................................5
2.5. Validity bit ...................................................................................................................................................6
3. User data format...................................................................................................................................................6
4. Channel status format...........................................................................................................................................6
5. Interface format implementation .........................................................................................................................12
5.1. General.......................................................................................................................................................12
5.2. Transmitter .................................................................................................................................................12
5.3. Receivers....................................................................................................................................................13
6. Electrical requirements.......................................................................................................................................13
6.1. General characteristic..................................................................................................................................13
6.2. Line driver characteristics ...........................................................................................................................14
6.3. Line receiver characteristics........................................................................................................................15
6.4. Connectors .................................................................................................................................................16
Appendix 1 Generation of the CRCC (Byte 23) for channel status...............................................................................17
Appendix 2 AES/EBU signals on Structured Wiring...................................................................................................19
Bibliography..............................................................................................................................................................20
European Broadcasting Union
Ancienne Route 17A, CH-1218 Grand-Saconnex (Geneva) Switzerland
tech 3250 EBU - Specification of the digital audio interface
2
Specification of the digital audio interface
(The AES/EBU interface)
1. Scope
This document specifies a recommended interface for the serial digital transmission of two channels of
periodically sampled and linearly represented digital audio data in a broadcasting complex, up to a distance of a few
hundred metres,
Although this transmission specification is independent of sampling frequency it is intended that the interface
be primarily used at 48 kHz, as this is the recommended sampling frequency for use in broadcasting studios (CCIR
Recommendation 646).
The document does not cover connection to any common carrier equipment nor does it specifically address any
of the questions relating to the synchronising of large systems, although by its nature the format permits easy
synchronisation of receiving devices to the transmitting device.
Specific synchronisation issues are covered in document AES 1l-l991.
Note 1: In this interface specification for broadcasting studio use, mention is also made of an interface for
consumer use. The two interfaces are not identical.
Note 2: An engineering guideline document to accompany this interface specification is in course of
preparation by the EBU.
2. Interface format
2.1. Terminology
For the purpose of this specification the following definitions of terms apply.
2.1.1. Sampling Frequency
The sampling frequency is the frequency of the samples representing an audio signal. When more than one
audio signal is transmitted through the same interface, the sampling frequencies shall be identical.
2.1.2. Audio sample word
The audio sample word represents the amplitude of a digital audio sample. Representation is linear in 2's
complement binary form. Positive numbers correspond to positive analogue voltages at the input of the analogue to
digital converter (ADC). The number of bits per word can be specified from 16 to 24 in two coding ranges (less than or
equal to 20 bits and less than or equal to 24 bits).
2.1.3. Auxiliary sample bits
The four least significant bits (LSB) can be assigned as auxiliary sample bits and used for auxiliary information
when the number of audio sample bits is less than or equal to 20.
2.1.4. Validity bit
This bit indicates whether the audio sample bits in the sub-frame (time slots 4-27 or 8-27 depending on the
audio word length as described in Section 2.2.1.) are suitable for conversion to an analogue audio signal.
EBU - Specification of the digital audio interface tech 3250
3
2.1.5. Channel status
The channel status carries, in a fixed format derived from the block (see Section 2. 1. 11.), information
associated with each audio channel, which is decodable by any interface user.
2.1.6. User data
The user data channel is provided to carry any other information.
2.1.7. Parity bit
The parity bit is provided to permit the detection of an odd number of errors resulting from malfunctions in the
interface.
2.1.8. Preambles
Preambles are specific patterns used for synchronisation. There are three different preambles (see Section 2.4.).
2.1.9. Sub-frame
The sub-frame is a fixed structure used to carry the information described in Sections 2.1.1. to 2.1.8. (See
Sections 2.2.1. and 2.2.2.).
2.1.10. Frame
The frame is a sequence of two successive and associated sub-frames.
2.1.11. Block
The block is a group of 192 consecutive frames. The start of a block is designated by a special sub-frame
preamble (see Section 2.4.).
2.1.12. Channel coding
The channel coding describes the method by which the binary digits are represented for transmission through
the interface.
2.1.13. Unit interval UI
Shortest nominal time interval in the coding scheme
2.1.14. Interface jitter
Deviation in timing of interface data transitions (zero crossings) when measured with respect to an ideal clock
2.1.15. Intrinsic jitter
Output interface jitter of a device that is either free running or is synchronized to a jitter-free reference
2.1.16. Jitter gain
Rate of transmission of frames
2.2. Structure of format
2.2.1. Sub-frame format
Each sub-frame is divided into 32 time slots, numbered from 0 to 31 (see fig 1)
Time slots 0 to 3 (preamble) carry one of the three permitted preambles (see Fig. 2) (see Sections 2.2.2. and
2.4; see also Fig. 2).
Time slots 4 to 27 (audio samples word) carry the audio sample word in linear 2's complement representation.
The most significant bit (MSB) is carried by time slot 27.
When a 24-bit coding range is used, the LSB is in time slot 4 (see Fig. 1a).
tech 3250 EBU - Specification of the digital audio interface
4
When a 20-bit coding range is sufficient, time slots 8-27 carry the audio sample word with the LSB in time slot
8. Time slots 4 to 7 may be used for other applications. Under these circumstances, the bits in the time slots 4 to 7 are
designated auxiliary sample bits. (See Fig. 1b)
If the source provides fewer bits than the interface allows (either 24 or 20) the unused LSB shall be set to
logic “0”.
(a)
0 3 4 27 28 29 30 31
Preamble
LSB
24-bit audio sample word
MSB
Validity bit User data
bit
Channel
status bit
Parity bit
(b)
0 3 4 7 8 27 28 29 30 31
Preamble
Auxiliary
sample bits
LSB
20-bit audio sample word
MSB
Validity bit User data
bit
Channel
status bit
Parity bit
Fig. 1 – Sub-frame format for audio sample words of
24 bits (top) and 20 bits (bottom).
Time slot 28 (validity bit) carries the validity bit associated with the audio sample word (see Section 2.5).
Time slot 29 (user data bit) carries one bit of the user data channel associated with the audio channel transmitted
in the same sub-frame (see Section 3).
Time slot 30 (channel status bit) carries one bit of the channel status information associated with the audio
channel transmitted in the same sub-frame (see Section 4).
Time slot 31 (parity bit) carries a parity bit such that time slots 4 to 31 inclusive will carry an even number of
ones and an even number of zeros (even parity).
Note: The preambles have even parity as an explicit property.
2.2.2. Frame format
A frame is uniquely composed of two sub-frames (see Fig. 2). The rate of transmission of frames corresponds
exactly to the source sampling frequency.
The first sub-frame normally starts with preamble "X", however the preamble changes to preamble "Z" once
every 192 frames. This defines the block structure used to organise the channel status information. The second sub-
frame always starts with preamble “Y”.
The modes of transmission are signalled by setting bits 0 to 3 of Byte 1 of channel status.
Channel 1
Channel 2
X
Y
Channel 1
Channel 2
Z
Y
Channel 1
Channel 2
X
Y
Sub-frame 1
Sub-frame 2
Frame 1
Frame 191
Frame 0
Start of
block
Fig. 2 - Frame format
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