An Eurorack module based around a Arduino Nano.
With AND, OR, XOR logic functions, a Flip Flip (Q), a Clock Divider mode, and more.
| LEFT | RIGHT |
| INPUT: input (A) | OUTPUT: AND (or clock / 16) |
| INPUT: input (B) | OUTPUT: OR (or clock / 8) |
| INPUT: Inverse (INV) | OUTPUT: XOR (or clock / 4) |
| INPUT: Clock (CLK) | OUTPUT: Q - Flip Flop (or clock / 2) |
| OUTPUT: Inverse of TRIG BUTTON | Trigger on press & release of TRIG BUTTON |
| BUTTON: Mode button | BUTTON: Reset button |
| TRIG BUTTON | |
- Basic logic funcions AND, OR, XOR (using the first inputs on the left side).
- Flip Flop (Q) (first input will SET, second input will RESET).
- NOT input, or MODE button, to inverse all logic outputs (NAND, NOR, NXOR, NQ)
- CLOCK input, when present, all Logic outputs only are HIGH when CLOCK is HIGH
- RESET button to reset Q and CLOCK
When the TRIG button is pressed (and released):
- A LOW gate is send to the first (left) output. It will be HIGH when the button is not pressed.
- A short pulse is send to the second output on press & release of the button.
- If the module is in Clock Divider mode, the press & release time will set the Clock Tempe if no signal is present on the CLOCK input.
Current mode is set in memory.
- Inputs A & B determines logic outputs (AND, OR, XOR, Q). Where A is set and B is reset for the flipflop (Q).
- If the NOT input is HIGH, all logic outputs are inverted (NAND, NOR, NXOR,NQ)
- Pressing the mode button will inverse all logic outputs (same as when NOT input is HIGH)
- A long press on the mode button will put the module in Clockdivider mode. The mode button will flash.
- The logic outputs will divide the clock (where Q = /2, XOR = /4, OR = /8, AND =/16)
- The clock source is:
- The CLK input
- If no clock is present on the CLK input, a standard 120 BPM clock is used.
- Or, if the trig buttons has been pressed and released, the timing between press and release is used to determine the clock time.
- A long press of the RESET button toggles between external trig options mode on/off. When on, the trig button flashes.
- When external trig mode is on, the first input can function as an external trig for the trig button.
- Use the logic function for all kinds of GATE manipluations, for interesting sequences for example.
- Same for the CLOCK DIVIDER mode.
- Make use of the CLOCK input to quantize the logic outputs with a clock signal.
- Use the TRIG BUTTON (or external trig mode) for changing a GATE into two short TRIGS.
- Use the TRIG BUTTON to fire a LOW gate (patch it into one of the logic function to have a HIGH gate on the OR output).
One of my main modules in my eurorack case is the Make-Noise Morphagene. One thing that i'd like it to do is:
- Press and hold button to record - currently playing loop is stopped, and recording is started.
- Release button - recording is stopped and starts playing.
To make this work:
- Prepare the Morphagene by setting the
Record option (rsop)in theoptions.txtfile on the SD card to '1'. - Patch the TRIGGER output of the TRIG BUTTON to the RECORD input of the Morphagene
- Patch the INVERSE output of the TRIG BUTTOON to the PLAY input of the Morphagene
Now:
- When pressing (and holding) the TRIG BUTTON the Morphagene start recording (and stops playing).
- When releasing the TRIG BUTTON the Morphagene stops recording and starts playing.
- If in Clock Divider mode and no Clock signal is present at the CLOCK input, the tempo is set to the time between pressing and releasing the button.
In this repo you'll find:
- Arduino program
- Schematics
- BOM
- KiCad project with schematics & PCB & FrontPanel PCB
- STL file for printing the buttons
- Several pictures
If you'd like to build this module you can buy a kit with:
- PCB
- Frontpanel
- 3D printed buttons
Contact me if you are interested.
By Jan den Besten www.jandenbesten.com