I’m not super familiar with the z3000, but after thinking obsessively about this otw into work… I think I have a (not too fiddly) recipe for you:
1. Set the two z3000s to the same frequency.
2. Use the square of z3000a to trigger a Maths function, and send the EOR or EOC (depending on which channel you use) out to the sync input of z3000b.
3. Adjust the rise and/or fall time so that your sync trigger goes out near the peak of the triangle from z3000a.
4. Use triangles from each z3000, as well as a polarized copy of each one (via Maths’ channels 3&4) to open and close each channel of the vca.
5. Fine tune rise and/or fall time of your Maths function.
1. Set the two z3000s to the same frequency.
2. Use the square of z3000a to trigger a Maths function, and send the EOR or EOC (depending on which channel you use) out to the sync input of z3000b.
3. Adjust the rise and/or fall time so that your sync trigger goes out near the peak of the triangle from z3000a.
4. Use triangles from each z3000, as well as a polarized copy of each one (via Maths’ channels 3&4) to open and close each channel of the vca.
5. Fine tune rise and/or fall time of your Maths function.
Statistics: Posted by wavesofwaves — Wed Dec 11, 2024 12:54 pm
