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How do you judge your system's neutrality?


Here’s an answer I’ve been kicking around: Your system is becoming more neutral whenever you change a system element (component, cable, room treatment, etc.) and you get the following results:

(1) Individual pieces of music sound more unique.
(2) Your music collection sounds more diverse.

This theory occurred to me one day when I changed amps and noticed that the timbres of instruments were suddenly more distinct from one another. With the old amp, all instruments seemed to have a common harmonic element (the signature of the amp?!). With the new amp, individual instrument timbres sounded more unique and the range of instrument timbres sounded more diverse. I went on to notice that whole songs (and even whole albums) sounded more unique, and that my music collection, taken as a whole, sounded more diverse.

That led me to the following idea: If, after changing a system element, (1) individual pieces of music sound more unique, and (2) your music collection sounds more diverse, then your system is contributing less of its own signature to the music. And less signature means more neutral.

Thoughts?

P.S. This is only a way of judging the relative neutrality of a system. Judging the absolute neutrality of a system is a philosophical question for another day.

P.P.S. I don’t believe a system’s signature can be reduced to zero. But it doesn’t follow from that that differences in neutrality do not exist.

P.P.P.S. I’m not suggesting that neutrality is the most important goal in building an audio system, but in my experience, the changes that have resulted in greater neutrality (using the standard above) have also been the changes that resulted in more musical enjoyment.
bryoncunningham
mrtennis
3,295 posts
 
mathematically speaking, it is not possible to assess a system's neutrality, bacause, the components and recordings are unknown variables, leading to a diophantine equation.

you can assess its resolution, and also get some idea of its inaccuracy.
unsound
7,312 posts
 
"can't miss judge Wapner."
cdc
1,671 posts
 
I used to say "flat frequency response". While that it important, there is such a wide variations in FR of the recordings I listen to, I couldn't get a flat FR unless I eq'd each recording.

There are some others like:

1) Consistent sound between drivers. I had a speaker with poly mid/woofer and metal tweeter. The drivers did not blend together at all and sound like two different speakers.

2) Dimensionality. As one reviewer wrote, when a system reproduced things spatially, you know it is working very well. Or words to that effect.

3) Transient response. For one thing, when you limit a driver in the frequency domain, you limit it in the time domain as well. I'm guessing that's one reason why speakers put a bump at 100 hz. It's to try to add the bass that gets lost from dampened transient response. It's why SET amps are so popular. Again, IMHO.
mrtennis
3,295 posts
 
ok, no one is contradicting my assertions.

here is another issue.

if a recording distorts the sound of the instruments being recorded, how do you assess the accuracy/inaccuracy of the stereo system ?

if you were present at a recording studio, you would audition the recording through the equipment at the studio.

such an audition would not reveal the sound of the recording, because of the inherent flaws of the stereo system at the studio.
bryoncunningham OP
890 posts
 
...if a recording distorts the sound of the instruments being recorded, how do you assess the accuracy/inaccuracy of the stereo system?

...if an optical lens distorts the characteristics of the light transmitted through it, how do you assess the accuracy/inaccuracy of the telescope?

(1) Measure the accuracy of the individual optics.
(2) Compare the telescope to other telescopes.
(3) Perform a Star Test.

RE: Audio systems...

(1) Measure the accuracy of individual components.
(2) Compare the system to other systems.
(3) Perform the Neutrality Test that I described in the OP.

Bryon
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