TRUTHS ABOUT ANALOGUE VS. DIGITAL: VINYL VS. CD


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Experts report on the topic of analog vs. Digital

Analog vs Digital

Which is better: the vinyl record or the CD, analog or digital? Generations of music lovers argue on this topic, but so do self-proclaimed experts. At this point, I’d like to let some real experts in your field speak up: sound engineers or sound engineers, people who deal with the subject on a daily basis. Here are some truths about record technology and how it really came about.

Analog vs digital audio

ABOUT DISCS, CDS AND RECORDINGS
First of all, a short note that the question asked at the beginning cannot be answered in this way. On the one hand, it has to be structured from a technical point of view, and on the other hand, it makes no sense to seriously compare two fundamentally different systems. However, there are approaches by many music lovers to compare the end results as a sound carrier.
In the end, I would like to return to the fact that there are many obstacles, most of which you have no idea. First, however, I will let the experts express their opinion, who know much more about the subject than the consumers. And in doing so, amazing aspects come to light that mainly illuminate the development of a vinyl recording, right from the beginning!

“The analog vs. digital discussion has been with me for many years, to be precise since 1982. That was when the CD was introduced. There was probably no sound engineer at the time who was not relieved that the CD arrived. Because in almost all technical respects, digital recording, assuming reasonable sampling accuracy, is clearly better.

Let’s take the signal-to-noise ratio: with the LP, you can consider yourself lucky to achieve 50 dB, with the CD – 80 dB. Or the wow and flutter: with the LP, it’s enough that the center hole is a bit too large (but still within the norm!), And a clear egg can be heard. With CD: neither measurable nor audible. Or take the channel separation: with the LP maybe 30 dB, with the CD 80 dB. And so. The exception may be the frequency response, the CD cuts hard at 20 kHz, the LP comes out “soft” and transmits perhaps up to 30 or 40 kHz, but much quieter.

The fact that many listeners and, meanwhile, many sound professionals, from musicians to sound engineers / technicians / teachers, turn to the LP again, has aesthetic and fundamental reasons, also philosophical. And there are many good ones. Digital is, for example, B. much more manipulable. Up to 100 cuts were found on an analog recording, mostly less, rarely more. 500 cuts are not uncommon on CD. Pitch correction, velocity change, sound manipulation, post-processing of individual tracks, synthetic spaces or even natural spaces, but artificially added, etc. etc.

It is also digitally interchangeable. An LP is unique, due to supposedly damaging technical weaknesses like creak, eggs, and noise. But what does technical weakness really mean in something like art? Isn’t it rather an advantage that not everything is so smooth and reproducible and that you have to fight hard to get a good result? The “clinical, sterile” sound of the CD is often criticized, it is not the weakness of the CD, but that of the LP, only that this incorruptibility also means lack of life.

Digital also means zack – track 17 and zack – track 9, while LP first means holding record in hand (haptic!), Admiring the cover / maybe running fingers over it, carefully removing record ( music is vulnerable and precious!), the hanging ceremony, taking your time and listening. In contrast, digital: next door, in the car, without emotions and without love.

Still, I find it difficult to say that one is better than the other. Like many others, I feel at home in both worlds. Digital can be intoxicating and addictive (if done right), analog too, just completely different. When it comes to my TACET label, we are pursuing a twofold approach: Producing with fervor and devotion to satisfy LP listeners. And equally fascinated and enthusiastic, working in a completely different way, suitable for digital sound carriers. “


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Analog vs. Digital: Does vinyl sound better?

Music stored on vinyl is making a big comeback. The question of whether CDs, files, or music saved on vinyl sound “better” divides music fans. Sometimes the feeling arises that the toughest commentary battles on the web take place not between political camps, but between listeners of analog and digital music.

Analogversus Digital

It’s a shame, because almost everyone involved in these battles, which were fought with incredible vehemence, are united by their love of music. They belong to the minority of those who spend a lot of money on music, regardless of the medium they prefer. This battle is completely unnecessary and is mainly based on a misunderstanding or two different interpretations of what “good sound” means.

Analog vs Digital

“Good sound”: one expression, two meanings

Some say that something “sounds good” when the sound suits them. That is the musician’s point of view. A good example of this is the sound of a distorted electric guitar, a constituent element of rock music. It originated from the fact that a guitar amp was so loud that the actual sound of the guitar was destroyed beyond recognition by the overdriven amp. The result no longer sounds like a guitar, but the sound has been and continues to be liked by millions of people because it just “sounds good.”

Distorted but pleasing to the ears: the sound of a classic rock guitar.

Others use the term “good sound” as a synonym for “high fidelity,” meaning the most realistic reproduction of what the sound engineer heard when mixing a recording in the studio. This is what we call “high fidelity”.
By this definition, “good sound” means, at best, that the playback chain does not sound at all and that the sound changes as little as possible on its way from recording to playback. It’s called “High Fidelity”, not “Perfect Fidelity” because there can only be an approximation of the original sound.
And it is precisely this point that is the axis of the whole discussion. Logs were never a particularly good medium for hi-fi, but for decades they were the best medium that end users had access to. Until the CD arrived.

In terms of measurement technology, the record falls short
If one compares the CD and the disc under the criteria of “high fidelity”, the disc not only drops the straw, but is completely outperformed by the CD in terms of all the relevant criteria. Here are some examples.
Dynamic is the difference between the softest and loudest sound of a piece of music. While all digital media, including MP3, easily go up to 90 dB and can therefore even map the dynamic range of a large symphony orchestra, in practice the record barely achieves more than 40 dB. Enough for pop music, but even a well-received little jazz band like the one in our sound sample becomes a problem for the record. In quiet places, typical vinyl noise would be clearly audible.

Speaking of background noise: Typical vinyl noise, low-frequency rumble, and creaking caused by dust grains in the groove are also noticeable because they occur unevenly. The noise from a compact cassette is more constant, so the brain can filter it better. Digital recordings are virtually noise-free.
To present the purest music possible, all frequencies in the audible spectrum between 20 Hz and 20 kilohertz should be played at the same volume. With digital media, the frequency responses appear to have been drawn with a ruler. As a general rule of thumb, registers can linearly reproduce frequencies up to a maximum of 12 kilohertz and this only applies to the outermost slots at the beginning of a page. Due to the slowing down of the path speed towards the end of the groove, the highest transmission frequency drops more and more during the playing time of a disc, which, by the way, can be heard clearly. For the lower end of the spectrum, the deeper and louder the bass, the more space it needs in the groove, shortening the possible playing time. With LPs, you always have to find a compromise between bass level and playing time.

An important measure of the fidelity of a reproduction medium to sound is the distortion that is added to actual music. Especially in the low range, the register reaches values ​​that significantly change the original signal.
In principle, a pick-up system works like a microphone. Converts mechanical energy into electrical energy. This mechanical energy comes not only from the grooves of the record, but also from the sound of the speakers. The louder you listen to the music from the turntable, the more feedback you will hear. And feedback blurs impulses in music, like the sound of drums. At home with moderate volume it is more likely to be neglected, at a club not.
Thanks to these (and a few other) technical shortcomings, the record doesn’t even meet the requirements of the traditional DIN No. 45500 standard on all points, which has defined the official hi-fi standard since the 1960s.

Don’t die: rumors about digital technology

On the contrary, rumors and false statements about digital technology are still circulating, for which the problems of the beginnings of the compact disc and the blatant misunderstandings about how digitization works are responsible.
Over and over again you can read that digital technology covers a smaller frequency range than analog. That’s actually true in theory, because CDs, for example, are limited to the range between 20 Hertz and 20 Kilohertz with filters.
However, on the one hand this is exactly the range that our hearing can cover in principle, and on the other hand it is pure theory that analog technology can represent a higher frequency range. In practice, for example, the cutting tools with which music is scraped into the matrices that vinyl is made of, heat up very quickly to high frequencies with a high level and thus limit the frequency response upward.
Friends of analog music storage like to deny digital technology the ability to display music correctly and that’s because of the discrete sampling. The waves that make up sounds are continuous events, whereas computers know only discrete states. The popular misunderstanding is that you can never fully capture the airwaves. After digitization, the waveforms would no longer be round, but staggered. But that is not right. The Niyquist-Shannon sampling theorem clearly states that the original signal can be restored exactly and not just roughly.
If all these facts are true and the record is so hopelessly inferior to the CD, why do so many people claim that the record “sounds better”?

What is meant by analog and digital?

The terms “analog” and “digital” are used to distinguish two
large families of electronic circuits.

Analog and digital

Analog circuits are those that handle signals that vary
continuously and must be reproduced as accurately as possible
possible. For example, a vocal amplifier is a typical device
fully analog in which the signal produced by the microphone
is processed and amplified but should not be modified in its
essential components to ensure “fidelity” of reproduction.

Analog Music in a Digital World

Digital circuits (from the English word “digit” which can be translated as
digit or number, and therefore are also called “numeric”),
instead, they deal with signals that can only have two states, usually indicated
by the numerical values ​​0 and 1, which in within the circuits correspond
two clearly differentiable signal values:
for example, 0 may correspond to a voltage
between 0 and 0.2 volts, while the value 1 at a voltage between 4.5 and 5 volts.
An element that can assume only two states represents a “bit” of information.
Most of the components of a common personal computer are made
with digital circuits.

In reality, many of today’s electronic devices
They adopt mixed technologies, part analog and part digital.
Consider, for example, a compact disc player. The sign that
represents the engraved piece is stored in the form typically
digital: a succession of microscopic areas that can be opaque
or reflective, each area corresponds to a value of 0 or 1 depending on whether
it is opaque or reflective.
The sequence of values ​​0/1 constitutes a digital representation
the acoustic signal, so the first part of the reproduction circuit
uses digital techniques.

To play the original sound,
the sequence of bits must first be transformed into an analog signal and this step is done
a particular circuit called a “digital / analog converter” that has
the purpose of translating the sequence of bits into an electrical signal
which is “Analogous” to the acoustic signal originally produced by the instruments
that played the piece that is being recorded.

Then the analog signal can be amplified (by a circuit
analog, of course) and sent to the speakers for playback
acoustics.

Rather, consider a
fully analog recording and playback system: a magnetic recorder.
In this case, the magnetic tape in the cassette “stores” the signal
acoustics in the form of variations in the intensity of magnetization,
that is, the intensity of
magnetization along the magnetic tape is proportional to the signal
original acoustics. In this sense, the trend of
magnetization is “analogous” to the trend of the acoustic signal.

The player simply transforms the variation in the magnetic field
“read” on tape in a “similar” variation of an electrical signal
which is then amplified and reproduced as an acoustic signal.