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Most important audio formats

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Most important audio formats

MP3

MPEG Audio Layer III
-Compressed digital format with loss.
-Its compression size: 11 to 1
-Compresses the audio using a lossy algorithm to obtain a smaller size, decoding the signal, allowing less bits to be consumed, which translates into less weight and less quality.
-Extension: .MP3
-Good compatibility. Can be played on almost all audio players
-Easily distributable online
-Better quality-space ratio
-Loss of the original sound, implies a decrease in quality throughout the format
-Supports two channels
-Distortion in frequency bands where the brightness and sparkle (5000hz-20000hz) are located.
-Increase in the bass and subwoofer frequencies (250hz – 40hz) due to the dynamic compression of the sound that causes a different equalization from the original recording.
-present patterns between tracks

AAC

Advanced Audio Coding
– Lossy compressed digital format
-It is an audio compression system developed by the Fraunhoffer Institute, AT&T, Sony and Dolby Laboratories.
– It is an audio broadband coding algorithm with higher performance than MP3.
-Extension: .m4a, .m4b, .m4p, .m4v, .m4r, .3gp, .mp4, .aac
-Play files from the hard disk of a computer with a quality that can be similar to the CD using significantly less space than an mp3.
-This system increases the quality of the mp3.
-Loss of original sound
-Subject to patent

WAV

Waveform audio format
-Uncompressed digital format.
– Windows own format
– Used to store sounds on PC, supports mono and stereo files at various resolutions and sampling rates
– Extension is .wav
-High sound quality
-Provides faithful listening to the audio
-It works in Windows applications and in common equipment with a CD player.

– Includes support for almost all current audio codecs
– Compatible to convert into various formats by means of the appropriate software.Example switching from Wav to Mp3
-It takes up a lot of disk space
-Poor quality-space ratio
-Difficult to distribute online due to the weight of the file
-Allows to capture in the same file up to 6 hours

FLAC

Free Lossless Audio Codec
– Lossless compressed format

-Extension: .flac
-Higher quality in high fidelity equipment
-Information is continuous between separate tracks
-It does not delete information from the original content
-It is an open source format.
-Code and decode quickly
-It takes up a lot of disk space
-It is not supported by all portable players

AIFF

Audio Interchange File Format
-Uncompressed format without loss.
– Format typical of native applications of Mac OS X for example iTunes
-Extension: .aiff or .aif.
-High sound quality
-Requires large storage space

OGG VORBIS

-Compressed format loss
– Stream-oriented container, which means that
can be written and read in one step, making it suitable
for streaming on the internet.
– Free software version to MP3 and AAC.
– Intended to allow maximum encoder flexibility
Extension: .ogg
-It is free, open and not patented
-Similar to MP3
-Good value for space
-Improved same-size MP3 quality.
-It is not supported by all players
-Loss of original sound

WMA

Windows Media Audio
– Lossy audio compression format, although there is a more recent lossless development
-Windows version to compress audio
-Extension: .wma
-Ideal for real-time streaming
-Reduce size of large files
– Inclusion of support in Windows Media Player
-Lower quality
-It takes space
Real Audio
-Media player with various functions and Internet connection tools
Example: listening to music and watching videos hosted on the Internet (streaming), and creating and playing extensive playlists.
–
– Ideal for live streaming over the network due to its streming ability
– the coding allows adapting it to the user’s reception capacity depending on their internet connection speed.
-Can be used in different operating systems (Windows, Linux, Mac OS)
– Ability to transfer files to other multimedia devices
-Reduction in file sizes

-Incompatibility with some browsers
-High RAM consumption

APE

– Lossless compressed format
-Extension: .ape
-Save space
-High quality
-Better file compression rate
-It is not compatible with most players.
-Slow to compress and decompress files

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What audio formats are there? All you need to know

FLAC, WAV, AIFF, DSD … these are just some of the initials that you can find when you are looking for a digital format. They are also accompanied by technical data such as sample rates and bit depth. So many terms can leave you more misplaced than a chicken at a dance. And it is that unless you are an expert in digital sound, the process to choose the audio format that best suits your needs can be a mess. But if they explain it to you, the topic is relatively simple. That is why at Culturasonora we have prepared a complete guide for you on the different audio formats most used. This will prevent any acronym from taking you on the dark side.

What are Bit Depth and Sample Rate?

These two concepts are basic. To understand how audio formats work you need to know what Bit Depth and Sample Rate are. These are two measures that indicate the quality of a digital audio file. We are going to try to summarize it so that you keep the general idea

samplerate

When you read the specifications of the audio formats you come across a couple of figures. For example: 32-bit / 192kHz or 24-bit / 96kHz. These numbers indicate the bit depth and the sample rate. These references tell us how much information the different formats transmit and the quality of the sound. For example, the audio we hear on a regular CD, or on a Spotify stream, is 16bit / 44.1kHz. Samples are always measured in Hertz (or hertz) and bit depth in Bits.

Softwares or hardwares usually do not work with a continuous flow of information, but usually use pieces, samples or samples to effectively manage the data that is transmitted. The sample rate is the number of samples per second that are obtained from a recording. The higher the number of times a device plays samples, the higher the sound quality. Each of these extracts or samples has a certain amount of information, which is the bit depth, or bit depth.

So that you understand it better we are going to make a somewhat beastly analogy, which is not entirely true, but that will help you get the sense of all this. Which is what interests us. If you control a bit of photography and image you will get it right away: the sample rate would be something similar to the frames or frames per second of a video, and the bit rate would be similar to the pixels of a photograph. The higher the bit depth number, the more information each sample will have. The more pixels an image has, the higher resolution each frame of a video will have. The more frames per second a movie has, the better definition. In short: the higher the number of the Bit Depth and the Sample Rate, the higher the quality of the audio file. Heard cooking?

Audio formats: MP3 vs WAV vs AIFF

What is the MP3 format?

If you’re interested in getting some audio fidelity and decent sound from your files, you’ll want to avoid this format. Why? Because basically an MP3 is a file that sacrifices audio quality to minimize size. They weigh very little for any device to read. The negative? Compressing these files provides poor, almost lifeless sound. Today, hardly anyone uses this format seriously. Even its creators recently ended the license by declaring it dead. But surely from time to time you come across a zombie file with this format.

What is WAV format?

WAVs (Waveform Audio File Format) are just as common but better for anyone who wants a decent audio format. They are higher resolution files than MP3s. A WAV is an audio piece that is encoded with something known as Pulse Code Modulation (PCM), a medium that encodes analog audio pieces and converts them to digital so they can have the Sample rate and Bit Depth of the that we have already talked about previously.

What is the AIFF format?

The AIFF (Audio Interchange File Format) audio format is very similar to WAV in that it also uses PCM to encode analog audio pieces and present them in digital format. This format was born as a response from Apple to Microsoft’s WAV, and at the beginning it could only work on MAC computers. Currently AIFF and WAV are more or less interchangeable.
In summary…
To close this topic, we will tell you that if you have a file in WAV or AIFF audio formats, you will hear a piece of sound of good quality. Normally these formats are used in files that we reproduce through our services, such as the iTunes music library. We will not see them in online streaming services, which tend to use special types of files.

Audio Formats: Know all that exist

There are several kinds or types of audio formats, you probably know the most common ones such as mp3, mp4, wav, etc. In this article you will know which are the most important apart from those mentioned above and how they differ from each other.

What is an audio format?

An audio format is a multimedia container where data is stored in an audio file. Each of these has its own characteristics and capabilities in terms of reproduction, they also have a sample rate (bit rate) and a specific bit depth (bit depth) that are closely related to the quality of each format.

Let’s talk about the sample rate and the bit depth
These two terms refer to the way it is stored and how an audio file is played. For this, what is sought is to digitally re-interpret the analog signal of a recording. As they have a type of continuous analog wave signal and instead the digital language used by computers is given by shorter and more concrete actions (1 and 0) executed at high speed, that continuous analog wave must be described in more values Small and concrete.

To achieve this conversion, small fragments of a specific size of the analog signal are taken, each sample (sample) contains the necessary information so that by putting all the “pieces” together and reproducing them in the same order and at the same speed in which they were captured, as a result a reliable digital interpretation of analog recording.

The frequency at which each of these samples is reproduced is what is called “sampling rate” or “sample rate” and the digital data in bits contained in each sample is called “bit depth” or “bit depth ”.

How is an audio format different from a codec?
The difference between these two is that while a codec as its name says is responsible for encoding and decoding all the information in an audio file, the format gives us the idea of how this audio information is stored, what is its bit depth, its sample rate, etc.

Types of audio formats

Among the types of audio formats there is a large amount and we will separate them into 4 groups or families to understand a little better the characteristics and potential they have:

1.Compressed audio format

The uncompressed formats allow several sample rate combinations in a flexible way and seek to preserve all the details of the analog recording even the details inaudible to our ears.

The main ones are:

WAV

Owned by IBM and Microsoft, the Wave Audio File Format was developed by these two previous ones to store sounds on the PC or computer. It is relatively similar to the Mac AIFF and a variant of the RIFF or Resource Interchange File Format which is a file format for the exchange of resources.

AIFF

The Audio Interchange File Format was co-developed by Apple Inc. to store sound data on personal computers. The AIFF is used professionally for audio applications along with SDII and WAV because it is a compression-free format and fast signal processing

This format was formerly common on internet pages. At first it was encoded in 8-bit data with a sample rate of 8000 Hz, uploading in the newer files to a 32-bit encoding.

2. Compressed audio format without loss or lossless
Because the uncompressed formats encode both the sound of a recording and the silences, a few seconds of sound from an audio file will weigh the same as the same seconds of silence. The type of lossless format compresses the file so that silence does not take up almost anything in size.

Between them we have:

Shorten

The SHN format is used for lossless compression of CD quality audio files, it is similar to formats such as RAR or ZIP with the difference that it is optimized for compression of audio data.

WMA Lossless

The WMA or Windows Media Audio format is a compressed audio format which has 4 codecs of which the WMA Lossless codec allows the compression of an audio file without loss of definition.

Within the codecs for this type of audio we have:
TTA

The True Audio Codec Compresses audio in 8, 16, or 24 lossless bits that are stored in WAV format files, which is done while maintaining good operating speed.

ATRAC

Although the first version of the ATRAC codec (Adaptive Transform Acoustic Coding) was developed as a lost audio encoder, currently the most recent version of this codec (ATRAC3) in addition to doubling the compression capacity of the first version is capable of encoding the An audio file with very few losses.

DIGITAL AUDIO FORMATS

Currently, thanks to digital audio formats, we can store and listen to our music on numerous devices, such as mobile phones, tablets, computers and music players.

What are digital audio formats?

Digital audio formats are basically containers. And the differences between them are fundamentally in:

Whether or not they are compressed.
If they are compressed, in the quality of compression.
The type of labeling they can support.
Digital audio formats

MP3

It is the best known, popular and most used. They are known by their extension “.mp3”.

It was developed by Moving Picture Experts Group, to be part of the well-known MPEG-1 and MPEG-2 standards.

Its fundamental characteristic lies in the fact that the technology behind it compresses the sound sequence, resulting in a really small file, which normally occupies half of the original file. To achieve this, it is necessary to lose certain sounds, which supposedly cannot be heard by the human ear.

Audio formats

WAV

Developed by the companies Microsoft and IBM, this format, whose name comes from the acronym WAVE (Waveform Aujdio File Format), is currently one of the audio formats that have no compression in the data, so they have excellent quality.

They are known for their “.wav” extension.

On the other hand, this format has the particularity that it includes support for almost all current audio codecs. This makes the WAV one of the most used formats in the field of professional sound, since the sound is captured with parameters of 44100 Hz and at 16 bits, the same quality can be obtained as on a CD.

On the contrary, one of the disadvantages of this format is that it has a limitation in recording, since it can only capture a maximum of 6.6 hours at maximum quality in the same file.

Audio formats

AIFF

The AIFF (Audio Interchange File Format) format is very similar to WAV. It was born as an answer from Apple to the Microsoft WAV, being initially only compatible with MAC computers. Currently it can also be used on Windows.

Due to its characteristics, AIFF, together with FLAC and WAV, are usually the most used formats in the professional field of audio.

Wma

The WMA (Windows Media Audio) format is a format of music files created by Microsoft.

One of its main features is that those files that have been compressed in WMA format occupy less space than MP3s, which also means reducing their quality. Therefore, it is a lossy audio compression format.

OGG

OGG audio formats are compressed audio files, which means that they have a size that allows them to be transmitted via WIFI, but at the same time avoid the damage that is usually generated in the compression process.

For example, Spotify uses these OGG formats.

Audio formats

OPUS

Opus is a new codec that use the Ogg container. It was developed by the same creators of FLAC, with the help of Mozilla and Skype.

This new format stands out for its low latency, being ideal for online audio transmissions.

FLAC

When we talk about the FLAC (Free Lossless Audio Codec) format, we are referring to an audio compression free codec without loss of quality.

Emerged within the community responsible for the OGG project, FLAC has become one of the strongest competitors of the WAV format, due to its advantages in terms of its sound quality.

Its objective is to reduce the size of the original file, eliminating data that are usually known as “waste”, without causing loss of quality.

This is the format used by the Tidal platform, the best service for high quality audio transmissions.

Audio formats

A THE C

The Alac (Apple Lossless Audio Codec) format is basically Apple’s alternative to FLAC. It is the format used by Itunes and for Apple Music broadcasts.

The most used audio formats

As you can imagine, when we talk about digital formats in the field of sound, the range is wide. When choosing the one that best suits our needs we have to think about several issues. To do this, the first thing is to know the most used audio formats.

CPA Online sound postproduction course We begin by clarifying the concepts of Bit Depth and the Sample Rate, fundamental to understand how audio formats work. These are two measures that indicate the quality of a digital audio file.

When we read the specifications of the audio formats and we find, for example, 32-bit / 192kHz and 24-bit / 96kHz, these figures refer to the “bit depth” and the “sample rate” respectively. They tell us how much information the different formats transmit and the sound quality. The higher the number of times a device plays the samples, the higher the quality.

Audio formats

MP3: these files weigh very little for any device to read. The negative part is that the quality of the compression pro is sacrificed.
CPA Online sound postproduction course

WAV (Waveform Audio File Format): are higher resolution files than MP3s, a piece of audio that is encoded with what is known as Pulse Code Modulation (PCM). The analog audio pieces are encoded and converted into digital so that they can have the Sample rate and the Bit Depth.
AIFF (Audio Interchange File Format): It is very similar to WAV and also uses the PCM to encode analog audio parts and present them in digital format. In fact, the AIFF and WAV files are more or less interchangeable.
In short, when we talk about a file in WAV or AIFF audio format we talk about a piece of sound of good quality.