Posted: Wed Jan 21, 2009 3:53 pm
No, the delay time is controlled via a control voltage, meaning that any changes in voltages cause the delay time to change too. This means that when the square wave starts at it's maximum, you have one delay time, and when it switches to it's minimum it has another time, causing the delays to slur and change pitch, which is a neat effect.
What needs to be figured out, is how the user would tap a momentary switch at a specified rate, and then translate that into one constant voltage. From there the voltage value would need to be sync'd to a delay time that equals the tap rate.
As an example, you tap at a slow beat speed, a CV for that speed is generated via "some kind of thingy-mo-bobber", and connected to delay time CV. When you tap faster, you would generate a lower CV value compared to the last to speed up the delay time.
Essentially we need a constant voltage supply that is attenuated by the rate you tap your foot.
What needs to be figured out, is how the user would tap a momentary switch at a specified rate, and then translate that into one constant voltage. From there the voltage value would need to be sync'd to a delay time that equals the tap rate.
As an example, you tap at a slow beat speed, a CV for that speed is generated via "some kind of thingy-mo-bobber", and connected to delay time CV. When you tap faster, you would generate a lower CV value compared to the last to speed up the delay time.
Essentially we need a constant voltage supply that is attenuated by the rate you tap your foot.