MP3 Bit Rate Guide – Quality and Differences Explained


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Bit rate Quality

When compressing audio and video files, the MP3 bit rate indicates how many bits are available to the decoder to encode exactly one second of a track. The higher the bit rate of the MP3 file, the better the quality achieved. The bit rate can be constant (constant bit rate, CBR) or variable (variable bit rate, VBR). Our guide explains the differences.

Bitrate  Quality

MP3 has established itself as a leading music format on the Internet in recent years and all popular MP3 players support this format. It was developed by the Fraunhofer Institute and is now considered the best known standard for Audiocodierun g. But where are the differences in the jungle of MP3 bit rates?

What MP3 bitrates are there anyway?

A distinction is made between the following common bit rates for MP3 files:

32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256 and 320 kBit / s.

This increases the quality of MP3s, but also the size of the files created. Compared to the original, an MP3 file only requires about 10 percent of the original storage space.

Starting at a bit rate of 192 kbit / s, you can hardly hear any difference from the quality of the original CD in many pieces of music.

Low bit rates: 32 to 128 kBit / s
Average bit rates: between 128 and 192 kBit / s
High bit rates: more than 192 kBit / s

What is the best bit rate for MP3 compression?

Again and again the question arises of what bit rate to select when converting songs to MP3 to achieve roughly CD quality. An MP3 compression with 192 kbit / s variable bit rate here is an ideal compromise between size and quality.

At just 128 kb / s, you can often hear a distinct difference from the original songs on CD. Music pieces with a lot of dynamics suffer more if the compression is too high (weak bass, lack of treble). So here it is better to use a higher bit rate.

How does the quality of bit rates differ depending on the compression method?

Constant Bit Rate (CBR)

With constant bit rate, each unit of time (for example, one second) is always allocated the same amount of storage space in the entire MP3 file. Therefore, the quality may vary depending on the piece of music. For this, the size of the resulting file can be calculated more precisely.

Variable Bit Rate (VBR)

Variable bit rate is usually the best compression method for normal use, as it can be used to produce consistent high quality. With Acapella parts, 320 kBit / s are not required, as only a few complex frequencies need to be encoded here. However, if you are playing a full orchestra, 128 kBit / s is usually not enough to cover the entire frequency spectrum of the various instruments. Depending on the piece of music, more bits are used when they are important, or those that are not can be omitted. In return, the file size varies more.

Average Bit Rate (ABR)

Some MP3 encoders also support average data rates. Technically, this variant is almost identical to Variable Bit Rate (VBR). Here, too, the encoder software always tries to achieve a uniform quality of the musical piece. However, the bit rate achieved often deviates slightly.

As an example: if you want a target bit rate of 128 kBit / s, then the bandwidth of the achieved bit rate is between 120 and 140 kBit / s. To achieve the desired average bit rate as accurately as possible, some codecs offer a two-pass compression process. The material is analyzed first and is only encoded in the second run. The ABR mode corresponds to a mix of CBR and VBR and is therefore qualitatively more in the middle.


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What is a constant bit rate? CBR

Constant bit rate is a tool used in digital telecommunication signals, for example, when transferring audio files from the Internet. A constant bit rate file is encoded to produce a file that plays at exactly the same bit rate throughout its duration. The biggest advantage of a constant file bit rate type is that it allows for constant playback of the media stream, as the bit rate will never fluctuate, reducing any delay and jitter from the end of the server stream. Although this file type is ideal in such circumstances, it is disadvantageous for storing more complex file types, as the constant bit rate can be overloaded or underused depending on file variations.

Constant bit rate (CBR)

A constant bit rate file is like a trickle of sand through an hourglass – it will always go exactly the same speed. Counter this with an opposite file type, the variable bit rate file. In a variable bit rate file, the “sand” is uncomfortable, resulting in sometimes small information flows and sometimes larger, more complex blocks.

CBR and VBR

As mentioned, one of the best uses for a constant bit rate stream is when playing a media file. Compressing the entire content of the video or audio file into a single playback ensures consistency across the file, forcing images and tones to become substantially similar to each other. In a multimedia file encoded in a variable bit rate format, the quality of the file can change dramatically from one moment to the next as the bit rate peaks and slows like a roller coaster. Although a file using a constant bit rate does not always have the optimal image quality, as some images may have to be reduced in appearance to “adapt” the selected bit rate, at least the entire presentation will be smooth and fluid for the user.

It may seem that a file with a constant bit rate is always preferable, but this is not always the case. Some circumstances tend to favor the ability to model the bit rate within a specific range of values. Consider archiving a multimedia repository of popular paintings. While some paintings in the collection are hopelessly complex, requiring a high bitrate to capture their true essence, others are much simpler, requiring a much lower bitrate to keep the overall file size low. In cases like this, files that use a bit rate that remains constant would normally provide too much or too little storage space for each virtual drawing image.

Although a solution could be to increase the bit rate “ceiling”, allowing even the most complex paintings to be preserved with impunity, but this is not optimal from a programming point of view. Files with a higher bitrate require more storage space on the hard drive, as each item in the file has more room to “breathe” with the higher bitrate. The greater the space wasted by files whose complexity is not justified by the chosen high bit rate, the more inefficient the solution becomes.