Sound quality


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Sound quality

Sound quality

The lower the bit rate, the worse the sound quality of the compressed and recoded file. The audio bit rate is measured in kilobytes per second. To clarify what sound is, depending on its bitrate, the following table sheds light on this issue:

800 bps – 800 bps – minimum quality for voice to be recognizable.
8 kbps – 8 kbps – the quality of telephone voice transmission.
32 kbps – 32 kbps – AM quality.
96 kbps – 96 kbps – FM quality.
128-160 kbps – 128-160 kbps – quality standard.
192 kbps to 192 kbps digital streaming with DAB quality (digital audio streaming). Become the new standard for MP3 music. At the same time bitrate, only professionals can tell the difference in sound.
224-320 kbps – 224-320 kbps – quality close to CD quality.
1411 kbps – 1411 kbps – PCM audio format, similar to CD “Compact Disc Digital Audio”.
Of course, you must remember and understand that the sound will depend on one more characteristic of digital sound, such as the sampling frequency, which is responsible for representing the spectrum of the signal.

If we talked about each of the audio formats, we would be here all day. Of course, you have other responsibilities and a lot of music to produce. This is the best use for each of these formats. They take up a lot of hard disk space. For one simple reason: it has the best of both worlds.

They are compressed, which makes them easier to handle in terms of size. But they also offer a nice, rich sound. If you’re listening to streaming music, chances are you are. They are useful for transferring multiple files at the same time, navigating an entire directory, or quickly sharing and linking tracks.

8,000 Hz: telephone, enough to talk, Nellymoser codec;
1,025 Hz;
22,050 Hz – radio;
44 100 Hz – used on audio CD;
48,000 Hz – DVD, DAT.
96,000 Hz – DVD-Audio (MLP 5.1)
192,000 Hz – DVD Audio (MLP 2.0)
2822 400 Hz – SACD Super audio CD 5.1
The most common format, especially on the Internet, is MP3. It uses a compression algorithm in such a way that, while reducing the size of the data required to reproduce the recording and ensuring the quality of playback, the loss of sound quality is minimal. The file size depends on the compression ratio, so when you create an MP3 at an average bit rate of 128 kbps, the result is a file that is approximately 1/10 the size of the original CD-Audio file.

By the way, don’t forget any format.
Try and judge for yourself. Choosing the correct format depends on each context. So think about what kind of sound you are sharing and where you are sharing it. Are you using the correct format? So make smart decisions and use the correct format. Digital audio can be saved in various formats. Each of them corresponds to a specific file extension that contains it.

It is not an audio format itself, so its functions are described separately. There are a large number of audio formats. Typically, the format type matches the file extension. Certain types of files are assigned a specific codec. In simple terms, the format can be compared to a container in which a video or sound signal can be stored using a given codec. If you don’t know which program to use to open format or other audio, we recommend that you use our audio converter. It is compatible with almost all existing formats.

For comparison, I will give information about the Wav format, which supports high-quality sound. With a sample rate of 44100 Hz, its bit rate is 1411 kb / s and 1 minute of a file recorded in this format occupies approximately 10 m of hard disk space.

So what are the most common audio formats today?

This group of formats records and compresses audio in a way that preserves its exact original quality when decoded. In lossy compression, the sound undergoes some modification. For example, compression cuts audio frequencies that are not audible to the human ear. When decoded, the file will differ from the original in terms of the information stored in it, but it sounds almost the same.


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Output sound quality

Output sound quality

Sound Quality

When a digital device (PC, portable media player, etc.) plays a digital audio file (ogg, mp3, flac, etc.), the audio output is always the same regardless of the type / brand of the device, right? In this case, the sound quality should not differ. For example, I have an iPod that plays an mp3 file. If I play the same file on a different brand of media player, the audio quality should be the same as the same signal (no equalizer or audio changes).

Sound Quality

Unfortunately, the real world gets in the way – there are a number of things between you and the “perfect” signal coming from the MP3 decoder:

As you can see, user-controlled filtering (eg graphic equalizer) can be disabled.
Sound “enhancements” made in the digital domain (eg compression to make it “louder” and bass boost); this can also be disabled
Internal processing is often done at a bit depth greater than the output DAC capacity, for example 32-bit processing, but only a 16-bit DAC. So there must be a process to reduce the bit depth. This may or may not include blurriness. The results of this will sound different depending on the implementation.
D / A converters can be of different qualities, which will affect (among other things) the linearity and noise floor of the analog output.
Synchronizing the DAC’s power will also affect performance – higher fluctuation will be louder.
The headphone controller will also have different analog characteristics, for example. minimum noise level, tinting frequency, etc.

For the quality of the output signal to be the same, not only must the final digital signal be the same, but the path from the digital data to your ear must also be the same (D / A converter including any digital pre-processing , amplification, induced noise in analog wiring). transducers / speakers, spatial paths to the ear, etc.) should not add any audible difference. This may or may not be true. Not all DACs are equally linear. Not all amplifier power supplies have the same shielding (especially the really cheap ones). Etc.

WAV or FLAC are lossless, so digital data must be identical when sent to a DAC. However, lossy formats like MP3 and OGG do not store the signal. It must be reconstructed from rarer data and the decoder may interpret the data differently. However, for MP3:

Decoding, on the other hand, is carefully defined in the standard. Most decoders are “bitstream compliant”, which means that the uncompressed output, which they produce from a given MP3 file, will be the same, within a certain degree of rounding tolerance, as the mathematically specified output in the ISO / IEC high standard document (ISO / IEC 11172-3). Therefore, the decoder comparison is generally based on their computational efficiency (that is, how much memory or CPU time they use in the decoding process).

So assuming the EQ and other enhancements are off, as you said, there shouldn’t be any difference between the file and the DAC. The only differences will be after the DAC in the quality of the analog circuits, amplifiers, and speakers (which are usually the main reason for the differences anyway).