The 10 most common audio formats: which one to use?


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The 10 most common audio formats: which one to use?

Audio files are available in all types and sizes. And although we are all familiar with MP3, what do you think of AAC, FLAC, OGG or WMA? Why are there so many audio standards? Which are important and which to ignore?

It’s actually quite easy to find that all audio formats fall into three main categories. Once you know what the categories mean, you can simply choose a format within the category that best suits your needs.

Uncompressed audio formats

Uncompressed audio consists of actual sound waves that have been captured without further processing and converted into a digital format. As a result, uncompressed audio files are usually the most accurate, but take up a lot of space, about 34MB per minute for 96-bit and 96-bit stereo.

Audio file format: PCM

PCM stands for Pulse Code Modulation, a digital representation of analog audio signals. Analog tones exist as waveforms, and in order to convert a waveform into digital bits, the tone must be sampled and recorded at certain intervals (or pulses).

This digital audio format has a “sample rate” (how often a sample is taken) and a “bit depth” (how many bits are used to represent each sample). No compression is required. The digital recording is an almost exact representation of the analog sound.

PCM is the most common audio format used on CD and DVD. There is a PCM subtype called Linear Pulse Code Modulation, in which samples are taken at linear intervals. LPCM is the most common form of PCM, so the two terms are almost interchangeable at this point.

Audio file format: WAV

WAV stands for Waveform Audio File Format (at some point also called Audio for Windows, but no longer). It is a standard developed by Microsoft and IBM in 1991.

audio formats

Many people believe that all WAV files are uncompressed audio files, but that’s not exactly true. WAV is actually a Windows container for various audio formats. This means that a WAV file may contain compressed audio, but this is rarely used.

Most WAV files contain uncompressed audio in PCM format. The WAV file is just a container for PCM encoding, so it is more suitable for use on Windows systems. However, Mac systems can generally open WAV files with ease.

Audio file format: AIFF

AIFF stands for Audio Interchange File Format. Similar to how Microsoft and IBM developed WAV for Windows, AIFF is a format developed by Apple for Mac systems in 1988.

Similar to WAV files, AIFF files can contain several types of audio formats. For example, there is a compressed version called AIFF-C and another version called Apple Loops that is used by GarageBand and Logic Audio. Both use the same AIFF extension.

Most AIFF files contain uncompressed audio in PCM format. The AIFF file is just a container for PCM encoding, making it more suitable for use on Mac systems. However, Windows systems can generally open AIFF files with ease.

Lossy compression audio formats.

Lossy compression occurs when some data is lost during the compression process. Compression is important because uncompressed audio takes up a lot of space.

In other words, lossy compression means that the sound quality and fidelity for smaller files are affected. If you are hurt, you will hear artifacts and other oddities in the audio. But if done correctly, you won’t feel the difference.

Audio file format: MP3

MP3 stands for MPEG-1 Audio Layer 3. It was released in 1993 and is becoming increasingly popular. It is the world’s most popular audio format for music files. There is a reason why we had “MP3 players” but no “OGG players”!

The main purpose of MP3 is in three ways: 1) removing all audio that is out of the normal human hearing range, and 2) reducing the quality of inaudible sounds, then 3) compressing all the other audio as efficiently as possible.

Almost every digital device in the world with audio playback can read and play MP3 files, be it PC, Mac, Android, iPhone, Smart TV or anything else. If you need a universal device, MP3 will never disappoint you.

Note: MP3 is not the same as MP4!

 

Audio file format: AAC

AAC stands for Advanced Audio Coding. It was developed in 1997 as the successor to MP3 and although it has become popular as a format to be used, it has never surpassed MP3 as the most popular.

The compression algorithm used by AAC is much more advanced and technical than MP3. So if you compare the same recording in MP3 and AAC format with the same bit rates, the AAC generally has better audio quality.

Although MP3 is a more popular format, AAC is still widely used today. In fact, this is the standard audio compression method used by YouTube, Android, iOS, iTunes, later Nintendo laptops, and later PlayStation.

Audio file format: OGG (Vorbis)

OGG represents nothing. In fact, it’s not even a compression format. OGG is a multimedia container that can contain all types of compression formats. However, Vorbis files are most commonly used. Therefore, these audio files are called Ogg Vorbis files.

Vorbis was first released in 2000 and is growing in popularity for two reasons: 1) it conforms to the principles of open source software and 2) it works significantly better than most other lossy compression formats (ie) this results in a smaller file size for an equivalent sound quality.

MP3 and AAC are so strong that OGG struggles to get into the spotlight – not many devices support them natively, but they do improve over time. It is currently used primarily by supporters of hardcore open source software.

Audio file format: WMA (lossy)

WMA stands for Windows Media Audio. It was first published in 1999 and has gone through several developments since then, always keeping the same name and WMA extension. It is a proprietary format created by Microsoft.

Similar to AAC and OGG, WMA should fix some of the errors in the MP3 compression method, and it turns out that WMA’s approach to compression is very similar to that of AAC and OGG. Yes, in terms of the quality of objective compression, WMA is really better than MP3.

However, since WMA is proprietary, it is not supported by many devices and platforms. In addition, it offers no real advantage over AAC or OGG. If MP3 is not good enough, it is only more practical to use one instead of WMA.

Audio formats with lossless compression.

The opposite lossy compression is lossless compression, in which the size of an audio file is reduced without loss of data between the source audio file and the compressed audio file.

The disadvantage is that lossless compressed audio files are larger than lossy compressed audio files, up to 2 times 5 times larger for the same source file.

Audio file format: FLAC

FLAC is an abbreviation for Free Lossless Audio Codec. Maybe a bit on the nose, but it has quickly become one of the most popular lossless formats since its launch in 2001.

The good news is that FLAC can compress an original source file by up to 60 percent without losing a single bit of data. What’s even better is that FLAC is a free, open source audio file format, so there are no intellectual property restrictions.

FLAC is compatible with most major programs and devices and is the primary alternative to MP3 for music. You basically get the full quality of uncompressed audio with half the file size. That is why many see FLAC as the best audio format.

Audio file format: ALAC

ALAC stands for Apple Lossless Audio Codec. It was developed and published as a proprietary format in 2004, but became open source and copyright-free in 2011. ALAC is sometimes referred to as Apple Lossless.

While ALAC is good, it is somewhat less efficient than FLAC in terms of compression. However, Apple users cannot choose between the two, as iTunes and iOS offer native support for ALAC and no support for FLAC.

Audio file format: WMA (lossless)

WMA stands for Windows Media Audio. We already discussed this in the lossy compression section, but we explained this here because there is a lossless alternative called WMA Lossless that uses the same extension. Confused, I know.

Compared to FLAC and ALAC, WMA Lossless is the worst compression efficiency, but not much. Since it is a proprietary format, it is not suitable for open source software enthusiasts, but is natively supported on Windows and Mac systems.


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The most used audio formats

The most used audio formats

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 need to think about several questions. To do this, the first thing to do is to know the most used audio formats.

We start by clarifying the concepts of bit depth and sample rate, which are essential for understanding how audio formats work. These are two measurements that indicate the quality of a digital audio file.

When we read the specifications for audio formats and find, for example, 32 bit / 192 kHz and 24 bit / 96 kHz, these figures refer to “bit depth” and “sampling frequency”, respectively. They tell us the amount of information transmitted by the different formats and the quality of the sound. The more times a device reads samples, the higher the quality.

audio format

Audio formats

-MP3: These files weigh very little for any device to read. The downside is that the quality of compression is sacrificed.
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-WAV (Waveform Audio File Format): These are higher resolution files than MP3, an audio track which is coded with what is called Pulse Code Modulation (PCM). Analog audio tracks are encoded and converted to digital so that they can have sample rates and bit depth.

-AIFF (Audio Interchange File Format): it is very similar to WAV and also uses PCM to encode analog audio tracks and present them in digital format. Indeed, AIFF and WAV files are more or less interchangeable.
In short, when we talk about a file in WAV or AIFF audio format, we are talking about a good quality piece of sound.

What is the difference between the different audio formats, and which one should I choose?

There are two types of sound quality: lossless and lossless. Lossless music preserves the sound quality of the original source – in most cases, CD – intact, on the other hand, lossy music compresses the file to save space (in exchange for decreasing quality). The following formats are included in lossless formats:

loseless formats

Formats WITHOUT loss of quality:

WAV and AIFF: Both are uncompressed formats, which are exact copies of the original sound source. The two formats have essentially the same quality; They simply store the data differently. AIFF was created by Apple – you’ll see it often in its products – but WAV is much more universal. However, since they are not compressed, they take up too much unnecessary space. Unless you’re editing sound, we don’t need to use this format.

FLAC: Free lossless sound codec – Free Lossless Audio Codec (FLAC). It is the most used lossless codec, it is a good option if we seek to store our music without losing quality. Unlike WAV and AIFF, it uses compression, taking up less space. However, it is still a lossless format, which means that the sound quality is the same as the original source, so it is better to listen to than WAV and AIFF. It is also free and free software, which is useful if you like to take a look at how it works.

Apple lossless (Apple Lossless): Also known as ALAC, it is similar to FLAC. Use compression, although it is made by Apple. Its compression is not as efficient as that of FLAC, so the files will be a bit larger, but it is compatible with iTunes and iOS (FLAC not). Therefore, if you use iTunes or iOS as the main software for listening to music, you should choose this format.

APE: It is a file of very high compression without losses, which means that you will save more space. The quality is the same as FLAC, ALAC and other lossless files, but it is not compatible with most players. On the other hand, it makes the processor work harder to decode when it is so compressed. Generally, I would not recommend using this format unless you are very concerned about space and have a compatible player.

Formats with losses: MP3, AAC, OGG and more

MP3: MPEG Audio Layer III, or MP3 for short, is the most common lossy format. So much that it has become synonymous with music downloads on the internet. It is not the most efficient format of all, but it is undoubtedly the most compatible, making this the first option to choose between lost sounds.

AAC: Advanced Audio Coding, also known as AAC, is similar to MP3, although a bit more efficient. Which means that the files take up less space and with the same sound quality as MP3. And, with Apple’s iTunes making it so popular, it’s as compatible as MP3.

Ogg Vorbis: The Vorbis format, often known as Ogg Vorbis due to the use of the Ogg container, is the free software version to MP3 and AAC. Its main attraction is that it is not restricted by patents, but that does not affect you as a user – in fact, despite being open it is of similar quality, and much less popular than MP3 and AAC, so not all players support it . I do not recommend it unless you are interested in the fact of being open source.

WMA: Windows Media Audio. The proprietary format of Microsoft, similar to MP3 or AAC. It really offers no advantage over the other formats, and is not very well supported.

So which audio format should you use?

Now that we have seen the differences between each format, which one should we use for our music? In general, we recommend using MP3 or AAC. They are compatible with most players, and the quality of both is very similar to that of the original source if it is encoded with a high bit rate. Unless you have specific needs, MP3 and AAc are the most recommended options.

However, there is something to say to store music in lossless formats such as FLAC. Although we probably don’t notice a higher quality, it is good to store music if you plan to convert it to other formats later – since converting from one format with losses to another Lossy (eg, from AAC to MP3) will produce lower quality files. In that case we recommend FLAC. In addition, we can choose the lossless format we want, since converting between formats without losses does not degrade the quality of the file.

As a final conclusion, we can say that one should not become obsessed with the subject. We just have to be sure to choose something widely compatible, not convert between two formats with losses, and enjoy music.

An advantage is that Mp4Gain works with all these fromatos (and more) and you can convert from one to another, without problems or loss of quality, on the contrary, with tools like the Equalizer, you can improve the sound to your liking.