<div dir="ltr">With the pitch shift, and doubling of the LFO frequency, and the shape, suddenly I'm strongly reminded of Jaws :-D<br><br>Nice work!<br><br>Pete</div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">On Wed, Feb 19, 2020 at 8:27 PM David G Dixon <<a href="mailto:dixon@mail.ubc.ca">dixon@mail.ubc.ca</a>> wrote:<br></div><blockquote class="gmail_quote" style="margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,204);padding-left:1ex"><br>
As promised, here is a link to a YouTube video I made an hour or so ago,<br>
showing the voltage controlled morphing LFO I made over the last two days.<br>
<br>
<a href="https://youtu.be/TCQsk-6ARPM" rel="noreferrer" target="_blank">https://youtu.be/TCQsk-6ARPM</a><br>
<br>
It's a really crappy video, but it shows the essentials.<br>
<br>
The basic architecture of this thing is as follows: It is essentially the<br>
KORG LFO as written up on Music from Outer Space, so it's a tri-square<br>
oscillator with an integrator (which generates the triangle) and a<br>
comparator (which generates the square wave). The output of the comparator<br>
is sent through an attenuator and an op-amp buffer, then through a fixed<br>
resistor, and then is split into two diodes pointing in different directions<br>
to separate into the upper and lower lobes.<br>
<br>
In the original circuit, these are connected to the tabs of a potentiometer,<br>
and the wiper of the pot is connected to the inverting input of the<br>
integrator. Hence, the pot determines the waveform shape.<br>
<br>
It is important to note that the fixed resistor (1k if a 100k pot is used)<br>
ensures that the saw/ramp flyback doesn't get too fast or disappear<br>
entirely. It is important that it be there.<br>
<br>
In my circuit, the pot is replaced by two opposing 2164 VCAs, each one<br>
mimicking the pot's resistive elements on either side of the wiper. These<br>
are controlled by circuits which are very similar to the Irwin linearization<br>
circuit. However (and this is the key point), where the Irwin circuit gives<br>
linear conductance VCAs, what is needed to mimic the pot are linear<br>
resistance VCAs. Not only that, but the resistance of the two opposing VCAs<br>
must add up to a constant value, just like the potentiometer's resistive<br>
element on either side of the wiper.<br>
<br>
So, how does one convert an Irwin Linear-Conductance VCA to a Doc Sketchy<br>
Linear-Resistance VCA (AKA, a voltage-controlled pot)? Maybe I'll tell<br>
y'all later.<br>
<br>
I think this thing is basically good to go, but I do need to add a little<br>
something more to limit the behavior to the points where the pot would be<br>
either fully CW or fully CCW. In the video, it is obvious that if the CV<br>
signal is too large or Morph pot isn't well centred, then the morphing is<br>
allowed to go past the extreme points, and the waveform disappears. I'll be<br>
messing around with this tonight.<br>
<br>
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</blockquote></div>