Saturday, 22 December 2012

Multi-output Expression Pedal

I've got three Moogerfoogers on one of my pedalboards (Ring Mod., Low Pass Filter and FreqBox), and use a Moog EP-2 expression pedal to control the mix on the Ring Mod. If I want foot control of anything else, I either need more feet or the discontinued (and expensive) Moog MP-201. I wanted to explore a more practical compromise - adding more outputs to the one EP-2.

The aim is to have four outputs, all controlled at the same time by the one expression pedal, but each with its own maximum level, so that some can produce more subtle changes than others. The outputs also need an on/off switch and an LED to show that they're active.

The inputs on the 'foogers correspond to the front panel knobs. Increasing the voltage level at the input adds to the knob setting, rather than overrides it. The voltage can be generated externally or derived from the 5.6V provided on the 'ring' connection of the stereo connector. The EP-2 normally takes this 5.6V supply, divides it through a pot controlled by the pedal, and feeds it back to the input.

The multi-output version needs to take the pedal pot output and distribute it to the four individual output pots, whose wipers are connected through switches to the output sockets. That's the concept, but it won't work in practice because the pots will interfere with each other if they are just wired in parallel. Also, the 5.6V supplied by the 'fooger can't drive much current, and it's quite likely to be overloaded.

The 5.6V needs to be buffered with an op-amp and the pedal pot's wiper further buffered four ways so that each output's pot is isolated from the others. The current comes from a new external 9V DC input. Adding the switching, LEDs, and ground lifts (in case loops cause noise), this is the circuit I ended up with:

IC2 is powered from the 9V DC input and buffers the 5.6V taken from the first output connector. This output feeds the expression pedal pot and powers four rail-to-rail op-amp buffers IC1 & IC3, whose inputs are taken from the pedal pot wiper. Each of these outputs is fed to an individual output pot and on to the switch.
The physical design is constrained by the space available inside the EP-2 box:

Although there's quite a lot of space, I won't be able to get the whole circuit on one board mounted to the side, where I want the controls. So it's going to be two boards, one for the pots, switches and LEDs, another for the ICs and connections to the output sockets and expression pot. This is a start:

The output socket pattern should allow right-angled plugs to be fed in from the rear.

Control panel drilling done, although no LEDs yet:

After squeezing the LEDs in:

The pots have small, serrated shafts instead of knobs - they won't need to be set very often. The strip at the bottom is the connector to the other board. The lack of space forced a few compromises when it came to soldering. It's not pretty:

Installed in the EP-2:

The other board is less constrained, space-wise, and has two connectors and the op-amps etc.:

The connector at the bottom is for the sockets, 9V and expression pot. Almost finished:

The boards connected together:

Assembled, tested, and in-situ:

The whole board:

Initially I'm using the modified EP-2 to control the Ring Mod's mix, LPF's resonance and the FreqBox's mix and frequency.

It's been a challenging but very enjoyable and satisfying project. I made a few mistakes, learned a few lessons, and got some ideas for future projects. For example, it would be nice to be able to invert the output signal so that as one parameter is increased, another is decreased.

Sunday, 28 October 2012

Moogerfooger switch box

For a while I've had my 'fooger MF-101 Low Pass Filter's envelope output connected to the frequency input of the MF-102 Ring Modulator. It makes some very nice noises, but I'd like to have the option to disconnect the link mid-song, to get normal ring mod. There's a small space on my board between these two pedals so I decided to see if I could make a simple box with a footswitch, using bits I already had.

This is the circuit:

I added a pot to allow the level of the envelope signal to be reduced, but not turned off altogether. There's also an LED so that I can see whether the connection is closed or open.

For some reason, I've got a small wooden box that previously had tea in. It fits the available space and is also a bit taller than the 'foogers themselves - ideal for a footswitch that is going to live behind other pedals. It'll also be easy to make holes in:

Some drilling and soldering later, this is what I ended up with:

On the board:

Finished, with some velcro underneath:

In context:

I ought to post some recordings. Don't hold your breath...

Thursday, 11 October 2012


Here are some grainy pictures of the things we're working on at the moment. Write-ups and hi-res pix to follow.