From 5139f89702e45d5ee174b07d6fe7218be267d23d Mon Sep 17 00:00:00 2001 From: Guenter Geiger Date: Wed, 5 Nov 2003 10:07:01 +0000 Subject: moved help files svn path=/trunk/externals/ggee/; revision=1160 --- filters/lowshelf.pd | 39 --------------------------------------- 1 file changed, 39 deletions(-) delete mode 100755 filters/lowshelf.pd (limited to 'filters/lowshelf.pd') diff --git a/filters/lowshelf.pd b/filters/lowshelf.pd deleted file mode 100755 index 140c754..0000000 --- a/filters/lowshelf.pd +++ /dev/null @@ -1,39 +0,0 @@ -#N canvas 365 183 620 459 10; -#X obj 77 182 print; -#X floatatom 77 114; -#X floatatom 192 113; -#X msg 360 117 \; paint 0; -#X obj 159 175 filtgain; -#X msg 91 138 bang; -#X text 6 334 See also:; -#X obj 72 335 bandpass; -#X obj 139 336 notch; -#X obj 195 337 lowpass; -#X obj 247 336 highpass; -#X obj 247 358 equalizer; -#X obj 72 357 highshelf; -#X obj 139 357 lowshelf; -#X obj 195 357 hlshelf; -#X text 75 226 These filters are all controlled by a bandwidth which is expressed in octaves. A bandwidth of 100 is equivalent to one octave.; -#X text 358 25 click first; -#X text 211 159 click on filtgain to view frequency plot; -#X text 6 393 (C) Guenter Geiger 2000; -#X text 75 92 frequency; -#X text 75 268 Attention \, only the left inlet triggers new coefficients for biquad~; -#X floatatom 129 113; -#X text 138 92 gain; -#X text 71 26 ==============================================; -#X text 192 92 slope (0 - 100); -#X text 76 12 Lowshelf coefficients for biquad~; -#X obj 31 113 r doit; -#X msg 360 45 \; pd dsp 1 \; paint 1 \; doit bang \;; -#X obj 77 160 lowshelf 4000 50 100; -#X connect 1 0 28 0; -#X connect 2 0 5 0; -#X connect 2 0 28 2; -#X connect 5 0 28 0; -#X connect 21 0 5 0; -#X connect 21 0 28 1; -#X connect 26 0 28 0; -#X connect 28 0 0 0; -#X connect 28 0 4 0; -- cgit v1.2.1