vs-ilda-gui.pd

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#X text 639 649 Derek Holzer;
#X text 639 687 macumbista@gmail.com;
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#X text 639 668 Helsinki May 2019;
#X obj 326 384 switch~;
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#X msg 423 195 vis 1;
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#N canvas 0 23 450 300 HARDWARE 0;
#X text 19 26 Requires DC coupled \, 8 channel \, balanced audio interface
such as MOTU. For channel converter info see:;
#X text 18 60 https://github.com/ffd8/dac_ilda/raw/master/dac_ilda_adaptor.pdf
;
#X text 20 97 Or see "ilda-connections.png" in this library;
#X restore 158 515 pd HARDWARE REQUIREMENTS;
#N canvas 0 23 450 300 RGB 0;
#X text 39 68 RGB minimums and curves help you calibrate the brightness
of your laser to adjust point where diode turns on as well as avoid
total "whiteout" saturation.;
#X text 40 24 NOTE: this set of patches was tested on a KVANT Clubmax
2000 \, the given RGB values may be different on your laser!;
#X text 38 126 You can adjust the phase of modulating signals where
the colors come in \, by looking at the [vs-ilda-rgb] object inside
[vs-ilda-throw].;
#X text 36 181 The [vs-ilda] abstraction conatains a "scan-fail" subpatch
\, which analyzes the combined level of the X and Y axes. If that level
falls under a certain threshold in dB \, within the window size in
samples (compare with current sample rate to find time in ms) \, then
the RGB chanels are all shut off to prevent an unmoving laser beam
from posing a safety hazard.;
#X restore 158 560 pd RGB CALIBRATION;
#N canvas 0 23 450 300 IMAGE 0;
#X text 41 151 Use Rotation X Y Z controls to keystone \, flip \, and
align the laser image. Numbers are 0-360 degrees.;
#X text 41 21 Use Scale X Y controls to adjust the horizontal and vertical
size of the laser image. Numbers are in percent.;
#X text 41 61 Use Offset X Y controls to adjust the horizontal and
vertical position of the laser image. Numbers are in percent.;
#X text 41 114 Use Clip X Y controls to adjust the horizontal and vertical
limits of the laser image. Numbers are in percent.;
#X text 41 191 Use Cutoff Frequency control to apply filter to the
X Y signals before they are sent to the laser. This can offer some
basic protection for your laser galvos against sudden changes. A good
starting value would be 2K to 4K Hz \, dependong on your galvo speed
(20-40 kpps). Numbers are in Herz.;
#X restore 158 585 pd IMAGE CALIBRATION;
#N canvas 0 23 450 300 AUDIO 0;
#X text 31 51 Channels 7 and 8 of your audio interface give a stereo
mixdown of the X and Y channels \, amplitude modulated by the brightness
signal \, with a lowpass filter on the speed of the amplitude modulation
set by the Cutoff Frequency. The Audio Volume control adjusts the level
of this signal \, with numbers given in dB.;
#X restore 158 609 pd AUDIO OUTPUT;
#X text 113 486 READ THESE FOR MORE INFO:;
#N canvas 0 23 450 300 [VS-ILDA] 0;
#X text 58 45 1) X;
#X text 58 65 2) Y;
#X text 58 105 4) Red;
#X text 58 125 5) Green;
#X text 58 145 6) Blue;
#X text 58 165 7) Left Audio;
#X text 58 185 8) Right Audio;
#X text 27 21 Vector Synthesis ILDA channels:;
#X text 58 85 3) Brightness (not normally used);
#X restore 158 536 pd [VS-ILDA] OUTPUT CHANNELS;
#X text 44 177 INSTRUCTIONS FOR USE:;
#X text 74 203 Put one [vs-ilda-throw-gui] inside any patch you want
to send to your ILDA RGB laser. It will send the X \, Y \, brightness
\, and RGB values to the [vs-ilda-gui] abstraction. You can then switch
on and off those patches as needed.;
#X text 73 262 A single [vs-ilda-gui] is required to communicate with
your audio interface and from there to your laser. Put it in your master
patch. Use the same first creation argument to match up the [vs-ilda-throw-gui]
objects and the [vs-ilda-gui].;
#X text 77 328 EXAMPLE:;
#X text 110 354 [vs-ilda-throw-gui \$0 \$0-laserone];
#X text 110 374 [vs-ilda-throw-gui \$0 \$0-lasertwo];
#X text 110 394 [vs-ilda-throw-gui \$0 \$0-laserthree];
#X text 110 424 [vs-ilda-gui \$0 \$0-lasermaster];
#X text 375 582 Derek Holzer;
#X text 375 631 macumbista@gmail.com;
#X text 375 606 Santa Cruz de Tenerife May 2019;
#X restore 423 327 pd \$2-help;
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