Bluthner Tuning (long-winded rehash of unison tuning)

[Porritt, David]

Not only passing the point of diminishing returns, but even the
theoretical possibility of pulling that off.  At C7 a one beat in 5
seconds (0.2 beats per second) is a change of 0.16-cents.  I'm not
embarrassed to admit I can't make a 0.16-cent change in a string at C7.

dp

David M. Porritt
dporritt@smu.edu

-----Original Message-----
From: pianotech-bounces@ptg.org [mailto:pianotech-bounces@ptg.org] On
Behalf Of David Love
Sent: Friday, February 03, 2006 8:37 AM
To: 'Pianotech List'
Subject: RE: Bluthner Tuning (long-winded rehash of unison tuning)

I'm not sure about the illusion of more sustain, but the swelling (if it
can
be controlled) might create a sense that the note actually gets slightly
louder after the attack phase has settled in.  I'm not sure if that
isn't
lost in the relatively rapid decay of the treble overall.  In terms of
tuning 3 strings slightly off from each other (or even one) there is a
practical element that has to be considered.  Trying to hit a target of
1
beat in five seconds for the first unison and then splitting the
difference
with the second just seems like you've gone well past the point of
diminishing returns.  

David Love
davidlovepianos@comcast.net 

-----Original Message-----
From: pianotech-bounces@ptg.org [mailto:pianotech-bounces@ptg.org] On
Behalf
Of Mark Schecter
Sent: Thursday, February 02, 2006 10:17 PM
To: Pianotech List
Subject: Re: Bluthner Tuning (long-winded rehash of unison tuning)

Hi Ed. I was thinking about the analogy you used of the swing. It got me

started thinking about unison tuning, and so I thought I'd throw this 
into the mix, for not only you, but anyone else to weigh in on. With all

due respect, I think the analogy to a swing is not quite perfectly 
applicable, and I'd like to explain why, because I think the difference 
leads to a different conclusion about the effect of unison detuning.

(If this post looks too long, just skip to the summary paragraph near 
the bottom - sorry!).

If the swing's period is 5.0 seconds, and you always apply your push .1 
seconds after the swing has changed directions, so that you are adding 
force in the same direction the swing is now travelling (this is what I 
think you meant), then the period of your push is also 5.0 seconds, not 
5.1 as you suggested. Your push is slightly, but consistently, late, or 
out of phase, and therefore is simply adding amplitude, as to a
pendulum.

If instead you actually did time your pushes to 5.1 seconds, with each 
successive cycle you would get .1 seconds further behind the 5.0 second 
phase of the swing, until you were actually colliding with the swing 
coming at you from the opposite direction. Where at first you had been 
adding amplitude, this would gradually change until you were acting 
against and cancelling out the opposing force. This is like two clocks 
ticking at slightly different rates - they gradually cycle from perfect 
synchronization to perfect opposition and back every x units of time. 
This of course is the definition of a beat.

Anyway, I'll get back to the Bluthner, but I need to say more about 
unison tuning. I think we can agree that when one string is slightly out

of tune with another, the rate of the beat that results exactly equals 
the difference in their frequencies, and this brings me to my main 
point: I have never been able to detect any kind of locking, coupling, 
or accomodation of one string to another, and believe me, I've tried, 
and I wish I could. (There is, usually, a point at which I give up and 
decide the unison is good enough). To me, tuning unisons is like 
balancing the edge of one knife blade on the edge of another - there is 
no forgiveness, no sweet spot, no "area" of agreement. If the two 
strings are even the teensiest bit unequal, a beat arises, if not 
audibly in the fundamental, then for starters in the higher partials, 
where the difference is multiplied. And here's one point: it is in 
manipulating the rise time of this beat that we are able to create the 
illusion that the decay time of the note has been increased.

To be more specific, we could most likely agree that it is only in the 
treble, about the highest two or so octaves, that increasing sustain 
time is much of an issue, and Bluthner seems to agree because they added

the aliqout only on the highest 22 notes of their concert grand. (But 
never mind Bluthner, this is about all pianos). Lower notes have both 
plenty of sustain time, and several or many audible partials, which 
leads to another main point: we don't seem to ever talk about detuning 
unisons in the middle and lower regions of the keyboard, and I certainly

don't do it, because the increasing number and audibility of partials 
going down the keyboard means that any slight detuning of unisons is 
multiplied as we listen and hear higher up the partial ladder. This 
creates the motion anybody recognizes as "out of tune" and we therefore 
avoid it.  So the rest of this focuses on roughly the upper two octaves 
only.

OK. So the treble notes decay more quickly than lower notes, and we 
would like to slow that decay, IOW increase the sustain time, and we 
think maybe we can trick the piano into doing our bidding by "tweezing" 
the unisons. I say that it doesn't work, and that no matter how we tune 
or detune unisons, that the best we can do is _create the illusion of 
greater sustain_. We can no more make the note last longer than the 
input energy through the string-bridge-board-air makes possible, than we

can make water flow uphill.

Here's what we _can_ do. Take for example a note whose sustain time is, 
let's say, 10 seconds. Tune the first two strings so they sound as one. 
Detune the third string, such that the the beat rate is one beat in five

seconds. So after the note has lingered half its nominal life, the beat 
has risen to a peak at a time when, had the three strings been exactly 
in tune, the note would have been at a lower amplitude, as it simply 
continued to decay toward silence. The "beat rises to a peak" is another

way of saying "the tone's apparent rate of decay seems to slow for a 
while". When compared to a perfect unison, the note seems to sustain 
longer - _unless we keep listening_. If we listen for 10 seconds, we 
will hear the note seem to sustain better for about 5 seconds, and then 
it will drop off _faster_ for the second 5 seconds than it would have in

a perfect unison, because that's the price we have to pay for the rise 
we enjoyed before; the beat is slow, but it goes BOTH ways. The reason 
this works to create the illusion of longer sustain is that the music 
rarely calls for a high treble note to linger, exposed, for such a long 
time, without aid from open strings or other notes being sounded, and 
because we have learned not to expect the notes to actually last very 
long up there. But it also works only because these higher notes have 
few to no audible partials to betray the detuning of the fundamentals, 
leaving only the behavior of the fundamental(s) for us to hear.

How about tuning the three strings to three instead of two different 
pitches? This can work if the piano's tone isn't too clear and 
transparent to begin with. Tune the first string for the interval, 
detune the second string to create the maximum effective rise time 
(experiment), then tune the third string between the first two, so that 
its rise time with the first string is about half of the second 
string's. This spreads the decrease in apparent decay rate over more of 
the note's duration, at the cost of clarity in the unison. This effect 
is audible, in both a positive and negative sense. You just have to 
decide by experimentation whether the benefit is worth the cost.

So OK, if this works for two or three strings, why does Bluthner bother 
to use four? I think it's a carry over from their older, more elaborate 
aliquot system with the second bridge for the octave-higher strings, and

that it gives them a unique feature that appeals to peoples' ideas of 
what might make a different/better sound. I can't say, really, but the 
way it seems to work best for me is: tune the three main strings to a 
perfect unison. (Detuning the three struck strings just creates too much

vagueness in the tone and I just don't like the sound as well in the 
Bluthner, which, with so many open strings, has a _lot_ of 
"atmosphere"). Then detune the fourth (aliquot) string just as Ed said. 
I'm not convinced, though, that there's any difference between leaving 
it sharp or flat, because of everything I said about it just being a 
slow beat, but I am going to try to keep an open mind!

Summary: All I've been trying to say with all of the above is, if you 
detune the fourth string so that it creates the illusion of greater 
sustain, keep listening as the note decays and you'll hear the rest of 
the beat, and subsequent beats, where the price for the effect is paid. 
There is no free lunch!

Sorry this was so long.

-Mark Schecter

PS It seems to me that if the frequency of an impelling force is 
different from the resonant period of the structure upon which it's 
acting, they cannot be in phase at any time _except_ the moment when the

two peaks coincide; at all other times they are moving in different 
directions, i.e. out of phase. Two structures that are in tune can be in

or out of phase (peaks coinciding or not), but two structures that are 
out of tune (of differing frequencies) seem by definition to be out of 
phase, unless one is a multiple (harmonic) of the other. Is this not 
true? Please explain. Thanks!

-Mark

A440A@aol.com wrote:

>    Greetings, 
>      I have found that the Bluther's extra string gives me the best
results 
> when it is tuned just slightly flatter than the unison.  I think it is
because 
> of the phase interaction, operating through the Weinreich-described
coupling 
> at the bridge, produces more sustain.  
>      When the frequency of the impelling force (the unison) is lower
than
the 
> resonant period of the structure upon which it is acting, (the fourth 
> string), the two will always be in phase.  If the impelling frequency
is
higher, the 
> two will be out of phase.  It is this out of phase arrangement that
augments 
> sustain. 
>       Think of pushing a swing;  if the swing takes 5 seconds to go
out
and 
> return, and you give it a push every 5.1 seconds, you will always be
helping it 
> go away from you.  If you push it ever 4.9 seconds, you will be
resisting
it 
> every cycle. By creating this micro-resistance between the unison and
the 
> sympathetic fourth string, I believe that it takes longer for the
unison's
energy 
> to pass through the bridge, thus more sustain. 
>     If I tune the fourth string higher, the tone seems to be more
brilliant 
> or louder, but of shorter duration.  
> Just a thought, 
> Regards,  
> Ed Foote  
> _______________________________________________
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