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Audio file formats explained and where to get them
June 03, 2025
Smartphones have long since surpassed the old MP3 player when it comes to portable music, and continue to include more and more impressive audio hardware to win over the audiophile crowd – from front facing speakers, to DACs and even new USB Type-C digital audio. Of course, the other half of a good audio experience is the file type you’re using, and today’s smartphones can play back a wide variety of audio file formats, including the popular MP3 and FLAC formats.
If you’re unsure about what the differences are between these formats and want to know how to get the most out of your smartphone’s audio, then this guide will walk you though the key things to know, will help breakdown the most common audio file formats, and offer download and streaming suggestions for where to buy these files from.
Lossy vs lossless
Before we delve into specifics of the MP3 or WAV, there’s a little bit of general background on digital audio that will help set the scene. Raw audio recorded in a studio and mastered onto physical media, like a CD or hard drive, is saved in a format called Pulse-code modulation (PCM). This data is uncompressed and rather large, as it stores data sample by sample to a certain degree of accuracy, known as bit-depth. Typically, this will be in the form of a 16-bit 44.1kHz stereo file at around 40MB for a 4 minute track, but these days you’re able to find huge 24-bit files with 192kHz sample rates.
Distributing audio through the internet and squeezing tracks into new pieces of hardware with limited storage capacities makes owning a library of PCM files rather unwieldy. Portable audio file sizes needed to be made smaller.
As such, much of the music that is distributed these days is compressed. This can be done by chopping out bits of data that we don’t really need (lossy compression) or varying the sample rate/bit-depth, at the cost of some quality. Alternatively, algorithms can be implemented that re-configure the sound data into a smaller form to be de-compressed later, but without removing any data and thereby preserving sound quality (lossless compression).
Examples of lossless formats include FLAC, WavPack and ALAC. Popular lossy files are the MP3, aiff, and wma types. The table below gives you an example of the different file sizes for the most common formats.
Without further delay, let’s go through these most popular formats, explain how they work, and where you’re able to get them from.
PCM (WAV/AIFF)
Let’s start with our biggest lossless file type – Pulse Code Modulation (PCM). As we mentioned earlier, PCM files contains audio in its pursed digital form of individual samples (sample-rate) to a specific degree of accuracy (bit-depth). Therefore, PCM file sizes are directly linked to their length, bit-depth, sample rate, and the number of channels. you’re able to use the formula below to work out the file size of any PCM file:
PCM Size = sample rate X (bits per sample /8) X time in seconds X number of channels
PCM files are most commonly found in either WAV or AIFF formats. There are essentially Microsoft’s and Apple’s individual names for the same PCM data. The only real differences here are the type and format of the metadata and header information included alongside the PCM audio track. PCM files come in bit-depths of either 16, 24 or 32 bits and sample rates range from 44.1kHz up to 384kHz these days, although you’ll be hard pressed to find many audio files to download at these very largest sizes. Not to mention that such files are complete overkill.
In the old days of slower broadband, copying data from physical CDs was the best way to grab raw PCM audio. These days we have lightening fast broadband, and so there are a few download and streaming services that you’re able to can find these tracks on. However given the huge file sizes, many services prefer lossless compressed formats like FLAC, which we’ll get to in a just a minute.
When it comes to lossless audio downloads, FLAC (Free Lossless Audio Codec) has been growing in popularity and is now the go to format at a number of high-quality streaming services. FLAC offers exactly the same audio quality as raw PCM, but manages to compress file sizes by around 30 to 50 percent, depending on the encoder and track contents.
FLAC doesn’t cut out any data to shrink its file size, instead it optimizes the way that bits of data are stored by looking for patterns. It might help to think of this as somewhat similar to a .zip or .rar file: the contents are preserved during compression and then restored to reveal the original file for playback. Apple has its own version of lossless audio which it calls ALAC.
The three services that have made the list below offer FLAC streaming and also have dedicated Android apps so that you can take your lossless collection with you on your phone or tablet.
MP3 is certainly one of the most popular audio formats, but the standard is much derided by audio enthusiasts for cutting out content. While it’s true that a bad MP3 can sound terrible, good quality MP3’s offer excellent sound quality for their much smaller sizes, and are still very useful if you want to carry around a large song library or stream over slower 3G and 4G networks.
MP3 is a lossy format, but it uses clever noise shaping algorithms based on psychoacoustic effects of the human ear and brain to remove bits of music that we shouldn’t be able to hear. For example, the brain can’t differentiate between two frequencies that are right next to each other, the adult human ear struggles to identify the direction of high frequency sounds and begins to lose sensitivity above 16kHz, and loud sounds can mask quieter ones, so these can be removed.
MP3 works by splitting a track up into 576 sample frames, and Fast Fourier Transforms (FFT) are used to obtain frequency data from these frames. This frequency data can then be analysed for masking opportunities, where data can be quantized (rounded) to lower bit-depths to save on space, which varies based on each frame. The data needed to restore each frame is housed in a 32-bit header.
The bit-rate determines the maximum allowed file size for each frame, and the more aggressive the compression, the more likely the algorithm is to remove something that is audible. Furthermore, this type of filtering and cutting isn’t perfect and the quantization can leave behind artifacts that some people can hear. This lossy psychoacoustic compression is then followed up by a lossless Huffman coding compression that is similar to .zip or FLAC files, to reduce the file size further.
OGG Vorbis and AAC
Now that we understand roughly how an MP3 file compresses data, we can look at some other MPEG based and similar file formats. Essentially these all use slightly different algorithms for data removable and build on the base psychoacoustic model with additional techniques. Therefore, their bit-rates are not directly comparable in terms of quality, as Vorbis offers better sounding compression at low bit-rates than MP3, but they aren’t far off. That being said, MP3 encoders have been fitted with similar improvements over the years too.
For example, Ogg Vorbis is an open-source alternative to MP3 that still uses FFT and MDCT to analyze and quantize mask-able frequency information, but uses a different algorithm. Vorbis also takes the noise-floor into account to improve low bit-rate performance.
Meanwhile, AAC and AAC+, which are used by TIDAL, Pandora, and YouTube, are an evolution of the MPEG (MP3) format. ACC allows for higher sample rates up to 96kHz, can dynamically switch frame lengths between 1024/960 or 128/120 samples for better resolution when required, and also performs better at lower files sizes than MP3s. However, high bit-rate MP3 reportedly still sound better.
In summary, today’s streaming and music download markets cater to both ends of the consumer market. There are higher quality options for those looking to make the most of their top-notch audio hardware and lower cost streaming services that make the most of intelligent compression techniques to help consumers store large music collections or stream music on-demand over slower wireless networks.
Do you have any preference for your audio formats you use, or perhaps you have a music streaming service of choice? Let us know in the comments below.
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