It's actually very simple. It's kind of like how you can put a picture on a screen using a bunch of small RGB LEDs, except you are making a circuit using a bunch of small units of varying inductance, resistance, and capacitance. There's more to it than that, but it's not exactly reinventing the wheel
It's actually very simple. It's kind of like how you can put a picture on a screen using a bunch of small RGB LEDs, except you are making a circuit using a bunch of small units of varying inductance, resistance, and capacitance. There's more to it than that, but it's not exactly reinventing the wheel
I can only bounce back and point out that another way is to intelligently predict the effect a virtual circuit would have on a complex waveform, and redraw it.
I can only bounce back and point out that another way is to intelligently predict the effect a virtual circuit would have on a complex waveform, and redraw it.
That is what a lot of companies are doing now. I know for a fact the QuadCortex does that. It doesn't exactly work with non-linear systems though. You couldn't model a Fuzz Factory through your method, you could with mine however.
That is what a lot of companies are doing now. I know for a fact the QuadCortex does that. It doesn't exactly work with non-linear systems though. You couldn't model a Fuzz Factory through your method, you could with mine however.
