I had no idea what you guys were talking about, but I tried it and it sounds wicked. Where did you pick up this idea?
-Chuckk
On 11/24/06, derek holzer derek@x-i.net wrote:
hard off wrote:
I would simply use two
more triangle oscillators in place of the pitch shifters, and set the frequencies using a bit of math based on the frequency of the first triangle oscillator.<<
if you could help me with the math required, i would be very grateful.
It's simpler than you might think... Take the number that is providing the frequency for the first triangle oscillator and add (or subtract) 175 and 224 to (from) it and use this number to set the frequency of the other two. I'm not sure which direction the frequency shifter is supposed to go in this diagram, so try either adding or subtracting. Also what is not clear is if the original triangle wave is heard in your diagram, or only the two pitch shifted ones, so either you will only hear the frequency-shifted pair or you will hear all three mixed with your two sinus waves.
[number box\ <---set master frequency | | | | [+ 175] [+ 224] <---set shifted frequencies | | | | | [triangle~] | [triangle~] [triangle~]
Where [triangle~] is an abstraction you have made which produces a nice, bandwidth-limited triangle wave ;-)
If my cheap ASCII art doesn't come through, let me know and I'll be less lazy and patch it...
Hope this is clear enough, d.
-- derek holzer ::: http://www.umatic.nl ---Oblique Strategy # 112: "Magnify the most difficult details"
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