Buffer Overflow Drive Effect
This is a re-creation of the DOD Overdrive 250 / MXR Distortion+ op-amp drive circuit, as a first attempt at basic PCB design in KiCAD.
The board is built on the "Noise Floor" pedal platform, which provides basic power protection, audio IO, and a footswitch with LED indicator.
Credit
The basic schematic I worked from is available from a variety of sources, but this was primarily derived from the PedalPCB Distortion 250. I strongly endorse PedalPCB (and this pedal) as a great way to get started building effects.
Thanks as always to the folks on the freestompboxes.org forum for feedback and suggestions.
Conan Lite footprints adapted from the 51-position footprints available from SnapEDA: Header, Receptacle.(Additional license details). 3D models courtesy Amphenol.
I am not affiliated with any of the brands, sites, or products named in this overview.
Versioning
My pcb designs utilize the following versioning scheme (I'll add to this as I produce more revisions):
- v0.0XX: A candidate design that has not yet been produced and tested.
- v0.XX: A design that has been produced, tested, and any initial errors addressed.
Note on v0.40
v0.40 updates Buffer Overflow as a proof-of-concept for the experimental Noise Floor UX board, which uses board-to-board connectors to modularize the control surface the effect. While it only exercises two potentiometers from the UX board, I may expand use of it (e.g. switchable clipping diode banks, etc).
I've also changed resistors and capacitors to 1206 SMD parts. Due to the fact that the board-to-board assemblies are also surface mount, it meant moving almost all parts to the back of the board. This resulted in an awkward-looking layout, to say the least, and I expect it to evolve over time.
Name
The name "Buffer Overflow" is a reflection of the nature of the effect (an overdrive) and security nerdery.