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MPEG Audio Frame Header

This is a brief and informal document targeted to those who want to deal with the MPEG format. If you are one of them, you probably already know what is MPEG audio. If not, jump to http://www.mp3.com/ or http://www.layer3.org/ where you will find more details and also more links. This document does not cover compression and decompression algorithm.

NOTE: You cannot just search the Internet and find the MPEG audio specs. It is copyrighted and you will have to pay quite a bit to get the Paper. That's why I made this. Information I got is gathered from the Internet, and mostly originate from program sources I found available for free. Despite my intention to always specify the information sources, I am not able to do it this time. Sorry, I did not maintain the list. :-(

These are not a decoding specs, it just informs you how to read the MPEG headers and the MPEG TAG. MPEG Version 1, 2 and 2.5 and Layer I, II and III are supported, the MP3 TAG (ID3v1 and ID3v1.1) also.. Those of you who use Delphi may find MPGTools Delphi unit (freeware source) useful, it is where I implemented this stuff.

I do not claim information presented in this document is accurate. At first I just gathered it from different sources. It was not an easy task but I needed it. Later, I received lots of comments as feedback when I published this document. I think this last release is highly accurate due to comments and corrections I received.

This document is last updated on December 22, 1999.

MPEG Audio Compression Basics

This is one of many methods to compress audio in digital form trying to consume as little space as possible but keep audio quality as good as possible. MPEG compression showed up as one of the best achievements in this area.

This is a lossy compression, which means, you will certainly loose some audio information when you use this compression methods. But, this lost can hardly be noticed because the compression method tries to control it. By using several quite complicate and demanding mathematical algorithms it will only loose those parts of sound that are hard to be heard even in the original form. This leaves more space for information that is important. This way you can compress audio up to 12 times (you may choose compression ratio) which is really significant. Due to its quality MPEG audio became very popular.

MPEG standards MPEG-1, MPEG-2 and MPEG-4 are known but this document covers first two of them. There is an unofficial MPEG-2.5 which is rarely used. It is also covered.

MPEG-1 audio (described in ISO/IEC 11172-3) describes three Layers of audio coding with the following properties:

  • one or two audio channels
  • sample rate 32kHz, 44.1kHz or 48kHz.
  • bit rates from 32kbps up to 448kbps
    Each layer has its merits.

    MPEG-2 audio (described in ISO/IEC 13818-3) has two extensions to MPEG-1, usually referred as MPEG-2/LSF and MPEG-2/Multichannel.

    MPEG-2/LSF has the following properties:

  • one or two audio channels
  • sample rates half those of MPEG-1
  • bit rates from 8 kbps up to 256kbps.

    MPEG-2/Multichannel has the following properties:

  • up to 5 full range audio channels and an LFE-channel (Low Frequency Enhancement <> subwoofer!)
  • sample rates the same as those of MPEG-1
  • highest possible bitrate goes up to about 1Mbps for 5.1

    MPEG Audio Frame Header

    An MPEG audio file is built up from smaller parts called frames. Generally, frames are independent items. Each frame has its own header and audio informations. There is no file header. Therefore, you can cut any part of MPEG file and play it correctly (this should be done on frame boundaries but most applications will handle incorrect headers). For Layer III, this is not 100% correct. Due to internal data organization in MPEG version 1 Layer III files, frames are often dependent of each other and they cannot be cut off just like that.

    When you want to read info about an MPEG file, it is usually enough to find the first frame, read its header and assume that the other frames are the same This may not be always the case. Variable bitrate MPEG files may use so called bitrate switching, which means that bitrate changes according to the content of each frame. This way lower bitrates may be used in frames where it will not reduce sound quality. This allows making better compression while keeping high quality of sound.

    The frame header is constituted by the very first four bytes (32bits) in a frame. The first eleven bits (or first twelve bits, see below about frame sync) of a frame header are always set and they are called "frame sync". Therefore, you can search through the file for the first occurence of frame sync (meaning that you have to find a byte with a value of 255, and followed by a byte with its three (or four) most significant bits set). Then you read the whole header and check if the values are correct. You will see in the following table the exact meaning of each bit in the header, and which values may be checked for validity. Each value that is specified as reserved, invalid, bad, or not allowed should indicate an invalid header. Remember, this is not enough, frame sync can be easily (and very frequently) found in any binary file. Also it is likely that MPEG file contains garbage on it's beginning which also may contain false sync. Thus, you have to check two or more frames in a row to assure you are really dealing with MPEG audio file.

    Frames may have a CRC check. The CRC is 16 bits long and, if it exists, it follows the frame header. After the CRC comes the audio data. You may calculate the length of the frame and use it if you need to read other headers too or just want to calculate the CRC of the frame, to compare it with the one you read from the file. This is actually a very good method to check the MPEG header validity.

    Here is "graphical" presentation of the header content. Characters from A to M are used to indicate different fields. In the table, you can see details about the content of each field.

    AAAAAAAA AAABBCCD EEEEFFGH IIJJKLMM

    SignLength
    (bits)
    Position
    (bits)
    Description
    A11(31-21)Frame sync (all bits set)
    B2(20,19)MPEG Audio version ID
    00 - MPEG Version 2.5
    01 - reserved
    10 - MPEG Version 2 (ISO/IEC 13818-3)
    11 - MPEG Version 1 (ISO/IEC 11172-3)

    Note: MPEG Version 2.5 is not official standard. Bit No 20 in frame header is used to indicate version 2.5. Applications that do not support this MPEG version expect this bit always to be set, meaning that frame sync (A) is twelve bits long, not eleve as stated here. Accordingly, B is one bit long (represents only bit No 19). I recommend using methodology presented here, since this allows you to distinguish all three versions and keep full compatibility.

    C2(18,17) Layer description
    00 - reserved
    01 - Layer III
    10 - Layer II
    11 - Layer I
    D1(16) Protection bit
    0 - Protected by CRC (16bit crc follows header)
    1 - Not protected
    E4(15,12)Bitrate index
    bitsV1,L1V1,L2V1,L3V2,L1V2, L2 & L3
    0000freefreefreefreefree
    0001323232328
    00106448404816
    00119656485624
    010012864566432
    010116080648040
    011019296809648
    01112241129611256
    100025612811212864
    100128816012814480
    101032019216016096
    1011352224192176112
    1100384256224192128
    1101416320256224144
    1110448384320256160
    1111badbadbadbadbad

    NOTES: All values are in kbps
    V1 - MPEG Version 1
    V2 - MPEG Version 2 and Version 2.5
    L1 - Layer I
    L2 - Layer II
    L3 - Layer III
    "free" means free format. If the correct fixed bitrate (such files cannot use variable bitrate) is different than those presented in upper table it must be determined by the application. This may be implemented only for internal purposes since third party applications have no means to find out correct bitrate. Howewer, this is not impossible to do but demands lot's of efforts.
    "bad" means that this is not an allowed value

    MPEG files may have variable bitrate (VBR). This means that bitrate in the file may change. I have learned about two used methods:

  • bitrate switching. Each frame may be created with different bitrate. It may be used in all layers. Layer III decoders must support this method. Layer I & II decoders may support it.
  • bit reservoir. Bitrate may be borrowed (within limits) from previous frames in order to provide more bits to demanding parts of the input signal. This causes, however, that the frames are no longer independent, which means you should not cut this files. This is supported only in Layer III.

    More about VBR you may find on Xing Tech site

    For Layer II there are some combinations of bitrate and mode which are not allowed. Here is a list of allowed combinations.
    bitrate allowed modes
    free all
    32 single channel
    48 single channel
    56 single channel
    64 all
    80 single channel
    96 all
    112 all
    128 all
    160 all
    192 all
    224 stereo, intensity stereo, dual channel
    256 stereo, intensity stereo, dual channel
    320 stereo, intensity stereo, dual channel
    384 stereo, intensity stereo, dual channel

  • F2(11,10) Sampling rate frequency index (values are in Hz)
    bitsMPEG1MPEG2MPEG2.5
    00441002205011025
    01480002400012000
    1032000160008000
    11reserv.reserv.reserv.
    G1(9) Padding bit
    0 - frame is not padded
    1 - frame is padded with one extra slot
    Padding is used to fit the bit rates exactly. For an example: 128k 44.1kHz layer II uses a lot of 418 bytes and some of 417 bytes long frames to get the exact 128k bitrate. For Layer I slot is 32 bits long, for Layer II and Layer III slot is 8 bits long.

    How to calculate frame length

    First, let's distinguish two terms frame size and frame length. Frame size is the number of samples contained in a frame. It is constant and always 384 samples for Layer I and 1152 samples for Layer II and Layer III. Frame length is length of a frame when compressed. It is calculated in slots. One slot is 4 bytes long for Layer I, and one byte long for Layer II and Layer III. When you are reading MPEG file you must calculate this to be able to find each consecutive frame. Remember, frame length may change from frame to frame due to padding or bitrate switching.

    Read the BitRate, SampleRate and Padding of the frame header.

    For Layer I files us this formula:

    FrameLengthInBytes = (12 * BitRate / SampleRate + Padding) * 4

    For Layer II & III files use this formula:

    FrameLengthInBytes = 144 * BitRate / SampleRate + Padding

    Example:
    Layer III, BitRate=128000, SampleRate=44100, Padding=0
          ==>  FrameSize=417 bytes

    H1(8) Private bit. It may be freely used for specific needs of an application, i.e. if it has to trigger some application specific events.
    I2(7,6) Channel Mode
    00 - Stereo
    01 - Joint stereo (Stereo)
    10 - Dual channel (Stereo)
    11 - Single channel (Mono)
    J2(5,4) Mode extension (Only if Joint stereo)

    Mode extension is used to join informations that are of no use for stereo effect, thus reducing needed resources. These bits are dynamically determined by an encoder in Joint stereo mode.

    Complete frequency range of MPEG file is divided in subbands There are 32 subbands. For Layer I & II these two bits determine frequency range (bands) where intensity stereo is applied. For Layer III these two bits determine which type of joint stereo is used (intensity stereo or m/s stereo). Frequency range is determined within decompression algorythm.
    Layer I and IILayer III
    valueLayer I & II
    00bands 4 to 31
    01bands 8 to 31
    10bands 12 to 31
    11bands 16 to 31
    Intensity stereoMS stereo
    offoff
    onoff
    offon
    onon

    K1(3) Copyright
    0 - Audio is not copyrighted
    1 - Audio is copyrighted
    L1(2) Original
    0 - Copy of original media
    1 - Original media
    M2(1,0) Emphasis
    00 - none
    01 - 50/15 ms
    10 - reserved
    11 - CCIT J.17

     

    MPEG Audio Tag ID3v1

    The TAG is used to describe the MPEG Audio file. It contains information about artist, title, album, publishing year and genre. There is some extra space for comments. It is exactly 128 bytes long and is located at very end of the audio data. You can get it by reading the last 128 bytes of the MPEG audio file.

    AAABBBBB BBBBBBBB BBBBBBBB BBBBBBBB
    BCCCCCCC CCCCCCCC CCCCCCCC CCCCCCCD
    DDDDDDDD DDDDDDDD DDDDDDDD DDDDDEEE
    EFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFG

    SignLength
    (bytes)
    Position
    (bytes)
    Description
    A3(0-2) Tag identification. Must contain 'TAG' if tag exists and is correct.
    B30(3-32)Title
    C30(33-62)Artist
    D30(63-92)Album
    E4(93-96)Year
    F30(97-126)Comment
    G1(127)Genre

    The specification asks for all fields to be padded with null character (ASCII 0). However, not all applications respect this (an example is WinAmp which pads fields with <space>, ASCII 32).

    There is a small change proposed in ID3v1.1 structure. The last byte of the Comment field may be used to specify the track number of a song in an album. It should contain a null character (ASCII 0) if the information is unknown.

    Genre is a numeric field which may have one of the following values:

    0 'Blues' 20 'Alternative' 40 'AlternRock' 60 'Top 40'
    1 'Classic Rock' 21 'Ska' 41 'Bass' 61 'Christian Rap'
    2 'Country' 22 'Death Metal' 42 'Soul' 62 'Pop/Funk'
    3 'Dance' 23 'Pranks' 43 'Punk' 63 'Jungle'
    4 'Disco' 24 'Soundtrack' 44 'Space' 64 'Native American'
    5 'Funk' 25 'Euro-Techno' 45 'Meditative' 65 'Cabaret'
    6 'Grunge' 26 'Ambient' 46 'Instrumental Pop' 66 'New Wave'
    7 'Hip-Hop' 27 'Trip-Hop' 47 'Instrumental Rock' 67 'Psychadelic'
    8 'Jazz' 28 'Vocal' 48 'Ethnic' 68 'Rave'
    9 'Metal' 29 'Jazz+Funk' 49 'Gothic' 69 'Showtunes'
    10 'New Age' 30 'Fusion' 50 'Darkwave' 70 'Trailer'
    11 'Oldies' 31 'Trance' 51 'Techno-Industrial' 71 'Lo-Fi'
    12 'Other' 32 'Classical' 52 'Electronic' 72 'Tribal'
    13 'Pop' 33 'Instrumental' 53 'Pop-Folk' 73 'Acid Punk'
    14 'R&B' 34 'Acid' 54 'Eurodance' 74 'Acid Jazz'
    15 'Rap' 35 'House' 55 'Dream' 75 'Polka'
    16 'Reggae' 36 'Game' 56 'Southern Rock' 76 'Retro'
    17 'Rock' 37 'Sound Clip' 57 'Comedy' 77 'Musical'
    18 'Techno' 38 'Gospel' 58 'Cult' 78 'Rock & Roll'
    19 'Industrial' 39 'Noise' 59 'Gangsta' 79 'Hard Rock'

    WinAmp expanded this table with next codes:
    80 'Folk' 92 'Progressive Rock' 104 'Chamber Music' 116 'Ballad'
    81 'Folk-Rock' 93 'Psychedelic Rock' 105 'Sonata' 117 'Poweer Ballad'
    82 'National Folk' 94 'Symphonic Rock' 106 'Symphony' 118 'Rhytmic Soul'
    83 'Swing' 95 'Slow Rock' 107 'Booty Brass' 119 'Freestyle'
    84 'Fast Fusion' 96 'Big Band' 108 'Primus' 120 'Duet'
    85 'Bebob' 97 'Chorus' 109 'Porn Groove' 121 'Punk Rock'
    86 'Latin' 98 'Easy Listening' 110 'Satire' 122 'Drum Solo'
    87 'Revival' 99 'Acoustic' 111 'Slow Jam' 123 'A Capela'
    88 'Celtic' 100 'Humour' 112 'Club' 124 'Euro-House'
    89 'Bluegrass' 101 'Speech' 113 'Tango' 125 'Dance Hall'
    90 'Avantgarde' 102 'Chanson' 114 'Samba'    
    91 'Gothic Rock' 103 'Opera' 115 'Folklore'    
    Any other value should be considered as 'Unknown'

     

    MPEG Audio Tag ID3v2

    This is new proposed TAG format which is different than ID3v1 and ID3v1.1. Complete tech specs for it may be found at http://www.id3.org/.


    Created on September 1998. by Predrag Supurovic.
    Thanks to Jean for debugging and polishing of this document, Peter Luijer, Guwani, Rob Leslie and Franc Zijderveld
    for valuable comments and corrections.

    © 1998, 1999 Copyright by DataVoyage

    This document may be changed. Check http://www.dv.co.yu/mpgscript/mpeghdr.htm for updates.
    You may use it freely. Distribution is allowed only in unaltered form. If you can help me make it more accurate, please do.

     


    Page was last modified "Sep 27 2002" The Rockbox Crew