Is analog recording better than digital?


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During my training as a sound engineer, I read several times that in analog systems the sound wave, in the form of alternating current, is continuously recorded on the tape, something that does not happen in the digital environment where the sound wave is found. photographed thousands of times per second and reconstructed to some degree of approximation.

analog

“Tape recording is better from this point of view than digital recording”

Obviously I was not the only one to have taken this statement as true, since among technicians and musicians I hear it repeated often, but are we really sure that it is so? Could such outdated technology be better than the current one? Obviously not.

digital audio

From a technical point of view, analog recording suffers from a number of problems that introduce distortions and artifacts, so comparing the recorded sound with the source, the result is anything but faithful. Don’t you think so? Here are some issues that you may not have been told about analog recording.

–The flutter and the wow are oscillations that are generated during the route of the tape that, stretching between the heads, begins to vibrate like a guitar string, introducing micro-phasing and effects similar to tremolo;
–hysteresis. The metallic particles that cover the surface of the tape are quite slow and do not move from their rest state unless the magnetic field of the recording head is strong enough to polarize them. Therefore, sounds of weaker intensity are not correctly recorded, as well as high frequencies;
–maximum distortion. Transients are very fast, dynamic, and rich in high frequencies, qualities that tape cannot fully satisfy;
Background noise is an intrinsic feature of tape, to which we have tried to bypass filters with pre-emphasis and noise reduction circuitry, which in turn add more distortion;
deterioration of the material that occurs in each step and risk of self-cancellation of the material.

These aspects of analog recording, and they are just a few, are enough to make us understand that, even if we record continuously, our signal suffers many alterations.

Digital technology represents a clear improvement on many fronts, thanks to the low prices and the reliability of the instruments, capable of always guaranteeing the same performance without the need for constant maintenance.

With ever higher sample rates, 144 dB of dynamics (for 24-bit formats), and no background noise, digital audio recording allows you to truly capture sound in all its dynamic and tonal components.

–Yes, but digital is cold, analog is hot!

Seriously, the adjectives hot and cold are not appropriate terms to describe the characteristics of sound and are used incorrectly to express personal preferences and tastes.

What is generally understood by “warm sound” is the sensation of tonal enrichment that analog machines give to the audio signal in which there is less presence of high frequencies, while the adjective “cold” refers to a bare sound , raw, essential and seemingly unbalanced in favor of high frequencies.

If you want to improve the tone, it is better to use more appropriate terms, referring to digital as true copy and analog as artificial.


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Analog vs. Digital

Analog and digital signals are used to transmit information, generally through electrical signals. In these two technologies, information, such as audio or video, is transformed into electrical signals. The difference between analog and digital technologies is that in analog technology, information is translated into electrical pulses of varying amplitude. In digital technology, the translation of information is in binary format (zero or one), each bit represents two different amplitudes.

Analog vs Digital

Analog and digital signal definitions.

An analog signal is a continuous signal for which the variable characteristic of the signal (variable) is a representation of another quantity that varies in time, that is, analogous to another signal that varies in time. It differs from a digital signal in terms of small signal fluctuations that are significant.

A digital signal uses discrete (discontinuous) values. In contrast, non-digital (or analog) systems use a continuous range of values ​​to represent information. Although digital representations are discrete, the information represented can be discrete, such as numbers or letters, or continuous, such as sounds, images, and other measures of continuous systems.

Properties of digital and analog signals.

Digital information has certain properties that distinguish it from analog communication methods. These included

Synchronization: Digital communication uses specific synchronization sequences to determine synchronization.
Language: Digital communications require a language that must be the property of the sender and receiver and must specify the meaning of the symbol sequences.
Errors: disturbances in analog communication cause errors in actual planned communication, but disturbances in digital communication do not cause errors that allow error-free communication. Errors must be able to replace, insert or delete symbols to be expressed.
Copy: Analog communication copies are inferior to their originals, but due to error-free digital communication, copies can be made indefinitely.
Granularity: For a continuously variable analog value to be represented digitally, there is a quantization error that is the difference between the actual analog value and the digital representation, and this property of digital communication is called granularity.

Differences in use in equipment.

Many devices have built-in translation features ranging from analog to digital. Microphones and speakers are perfect examples of analog devices. Analog technology is cheaper, but the size of the data that can be transmitted at any given time is limited.

Digital technology has revolutionized the operation of most equipment. The data is converted into binary code and then reassembled in its original form at the point of reception. As they are easy to handle, they offer a wider range of options. Digital equipment is more expensive than analog equipment.

Analog and digital quality comparison.

Digital devices translate and reassemble data and are more likely to lose quality than analog devices. The advancement of the computer has allowed the use of error detection and correction techniques to eliminate artificial disturbances in digital signals and improve quality.

Differences in applications

Digital technology has been more effective in the cell phone industry. Analog phones became redundant despite good clarity and sound quality.

Analog technology includes natural signals like human speech. With digital technology, this human speech can be recorded and stored on a computer. Therefore, digital technology opens the way to infinite possible uses.