Not that anyone is likely to, but please don't rush out to build this - it's a concept that should work, but I have not tested it yet. Might need some fine-tuning.
It's a combination of the AMZ pickup simulator and a Pete Cornish buffer - so basically a fuzz buffer to drop in front of anything that does not like being behind other pedals. Typically a fuzz face.
out from previous pedal > buffer > into a transformer (pickup coil) > regular guitar volume and tone control > into the fuzz pedal.
Just jotting down some notes, cause I doubt anyone else will be using this layout. It's a little impractical in parts, but I just had some spare board this size, and a pair of transistors that I liked on the breadboard that needed a home. It's a progression on this somewhat more practical layout.
If you're wondering what the BE part is about...
Picked up another Bell & Howell Gaumont today, with the speaker cab - a Model 601 from 1950 (based on the capacitor dates). Nice to see the original speaker still in the cab - I gave a quick test, sounds fine.
The 601 is the same amp as the 621 (full details here). The 601 and 621 amplifiers share the same part number (202000); I believe the model relates to the projector more so than the amp in some cases.
It came as the complete package with the projector and what appears to be a really exciting Australian training film about bandages from 1975.
Not sure where I will go with a conversion just yet. I did quite like the last one that I did using an early Gibson circuit - so that's probably top of the list at the moment.
10.35 VAC across the primary and measured two secondary taps:
Tap A: 0.454 VAC
Turns ratio (Vp/Vs): 22.80:1
Impedance ratio (N²): 519.7
0.454 V with 16Ω → 8.32 kΩ p-p
Tap B: 0.319 VAC
Turns ratio (Vp/Vs): 32.45:1
Impedance ratio (N²): 1052.7
0.319 V with 8Ω → 8.42 kΩ p-p
Just one of my little side projects - it's a pretty hot day here, so not one for playing with germanium transistors in a big black box with a tin roof (also known as my garage / workshop). The leakage goes nuts, and they sound like balls...
While playing around with a bunch of old low-gain silicon transistors with moderate success, I remembered the Sziklai pair. A minute later, and it was silicon fuzz heaven, so I had to come up with a layout to build one, hence the post.
Just a little fuzz face variant from D*AM - the Maggot Brain from 2019. There are some more recent variations on this as well. Could not see the cap and pot values, so just a partial trace. Being a fuzz face, you kind of know what they might be. I mostly breadboard before building a fuzz face cause they are so small, so I'm really just taking advantage of the form factor of the layouts at times.
There's also a version using BC109 transistors, with a different bias set-up. 33k on Q1-C and 5k9 on Q2-C. Some Maggot brains have a 15n output cap.
OK - so this is what happens when you agree to make a pedal, before knowing what someone might ask for. I'm not sure that this is 100% my kind of thing, but here it is.
Yes it's a huge layout, but it is going in a 1590XX enclosure, so why not. I started this layout using the Dirtbox Layouts Expandora vero layout (and basically made it wider), as the first version that I did had a few too many rows, for the space available in the enclosure - and I will probably only be making one of these. So credit where credit is due...
I may still add the guitar / bass switch - see how it sounds. There is room on the board for it. Not hard to work out if you want to add it.
If you are unfamiliar with the signal flow on the Expandora - it's kind of a Rat with an extra gain stage up front, and an unusual compressor like gain control that's always on, which is combined with a couple of switches to help set the overall gain of that stage.
The fun doesn't start until "forbidden mode" is engaged - which opens the gain right up. Talking big ugly square waves. The Expandora moves from a fairly innocuous drive or mild distortion, to a full blown fuzz monster.
