Thanks for correcting the headline, Florian
>The idea is very nice at the first glance, especially, since it requires
>no complex uP-programming. But I think it is not really usable: BBDs
>cover only a very short memory amounts, at usable signal quality.
So what's going on there -- does the voltage vanish or infinitely approach
some value Can the coefficents be calculated and apply some kind of an
amplifier and feedback to keep the data valid
>Usually CVs are stored better in digital memory; examples are the Roland
>CSQ100 oder CSQ600. Those devices do not store the CV-values at a
>certain clockrate like BBDs, but they store only different values and
>the time between two changes.
i am also familiar with roland's early sequencer concept
>If you want to do the same on a BBD, the BBD will have to store the
>first value in hundreds or thousands stages, and the count of memory
>stages ("Buckets") will limit the time.
and the rate
>There is also another problem: BBDs behave a littlebit like AC-coupled
>gear. They are not perfect for continuous voltages.
I see -- BBD works as some kind of a high-pass filter to use an analogy
>Also forward/backward-playing its not possible with BBDs. BBDs do not
>behave like an addressable memory. They work like a shift register with
>the principle first in first out. So there is only one direction of
>reading the memory.
>Sorry that my comment is a littlebit disappointing.
Not at all!
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