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I'm puzzled by something and maybe someone can help straighten me out on this. A plucked string produces a signal containing various freq's that are mostly harmonically related. I get that. There is an envelope however. It is the amplitude (shape) of the total signal energy over time (attack, decay), and as recent posts show, the envelope may differ for each component of the signal.
So my question is in several parts but it starts with a crucial question of how to model the string signal... Is it reasonable to model the string signal as an envelope function modulating the fundamental and harmonic signals produced by a string? Synth's actually do this, but perhaps actual strings are different in some way I'm not grasping. String pluck attacks can be quite fast, meaning high freq's are involved, while decays are often slow. That means the envelope function is broadband in nature.
If this model is reasonable, doesn't the envelope modulation produce sidebands? Theory says so, (I think) or am I missing something?
If there are sidebands, the spectrum of the overall signal should include them as sum and difference components of the fundamental and harmonics. We (me included) tend to describe a guitar signal as only a fundamental with higher harmonics. Doesn't that ignore the sideband components below the fundamental? This never seems to be considered or mentioned in terms of how an amp stage's response affects a note.
If true, there seem to be many implications of this that impact EQ and freq response in an amp. Mainly, it means that wide-band response (above and below the fundamental) is needed to reproduce any given plucked string's full signal.
Since the sidebands are envelope related, aren't they then related to the dynamics of pick sharpness and string muting? Does this seem plausible?
I'll stop here since I can see many implications that relate to amp freq response - especially at the low end. But before I get carried away, I hope to confirm or dispel my reasoning. Maybe this is all true and fine in theory, but the effects are barely audible. I don't know. Maybe I'm just the last person to get the memo and people already know about this. Has anyone seen anything written about this at all? In my lit searches, the only place I've seen mention of the spectral impacts of an envelope is in mechanical vibration analysis, and I really can't claim to understand exactly what they're doing there.
Lastly, and maybe most important - is there a way to measure sidebands to prove or disprove sideband existence and assess their significance in terms of perceived tone?
So my question is in several parts but it starts with a crucial question of how to model the string signal... Is it reasonable to model the string signal as an envelope function modulating the fundamental and harmonic signals produced by a string? Synth's actually do this, but perhaps actual strings are different in some way I'm not grasping. String pluck attacks can be quite fast, meaning high freq's are involved, while decays are often slow. That means the envelope function is broadband in nature.
If this model is reasonable, doesn't the envelope modulation produce sidebands? Theory says so, (I think) or am I missing something?
If there are sidebands, the spectrum of the overall signal should include them as sum and difference components of the fundamental and harmonics. We (me included) tend to describe a guitar signal as only a fundamental with higher harmonics. Doesn't that ignore the sideband components below the fundamental? This never seems to be considered or mentioned in terms of how an amp stage's response affects a note.
If true, there seem to be many implications of this that impact EQ and freq response in an amp. Mainly, it means that wide-band response (above and below the fundamental) is needed to reproduce any given plucked string's full signal.
Since the sidebands are envelope related, aren't they then related to the dynamics of pick sharpness and string muting? Does this seem plausible?
I'll stop here since I can see many implications that relate to amp freq response - especially at the low end. But before I get carried away, I hope to confirm or dispel my reasoning. Maybe this is all true and fine in theory, but the effects are barely audible. I don't know. Maybe I'm just the last person to get the memo and people already know about this. Has anyone seen anything written about this at all? In my lit searches, the only place I've seen mention of the spectral impacts of an envelope is in mechanical vibration analysis, and I really can't claim to understand exactly what they're doing there.
Lastly, and maybe most important - is there a way to measure sidebands to prove or disprove sideband existence and assess their significance in terms of perceived tone?
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