Claude Heiland-Allen wrote:
Frank Barknecht wrote:
Hallo, martin brinkmann hat gesagt: // martin brinkmann wrote:
Claude Heiland-Allen wrote:
cpole~ czero~ rpole~ rzero~ have signal inlets for filter control, so i assume sufficiently smooth changes will not cause clicks
that is true, but it looks like no one has made a (usual lp,hp,etc.) filter with these objects until now.
Except Miller. [1]
Though I agree that some more of these would be handy. I tried to make a biquad~ clone with the elementary filters, but failed so far. I assume from [2] that the transfer function of two rzero~ and two rpole~ in series should be the same as a biquad~,
You need two cpole~ and two czero~ here, admittedly in complex-conjugate pairs.
(oops) : either conjugate pairs, or both on the real line.
however I don't know how to convert the ff1, ff2, ff3, fb1 and fb2 coefficients of biquad~ into the coefficients to use at the second inlets of the elemetary filters. Can anyone help?
http://ccrma.stanford.edu/~jos/filters/BiQuad_Section.html
you need to munge the biquad coefficients from the form expected by Pd's biquad~ to the form of the difference equation at the bottom - should just be some scaling and sign stuff.
then you can factorize the transfer function's numerator and denominator to get the locations of the (complex) zeroes and poles (using the quadratic formula would do the trick)
then feed them to [czero~] [cpole~], and an additional [*~] for the global gain.
[1] http://crca.ucsd.edu/~msp/techniques/latest/book-html/node160.html [2] http://crca.ucsd.edu/~msp/techniques/latest/book-html/node136.html
Ciao
Claude