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and never with clipping diodes.

I'll have to try the one on my breadboard without clipping diodes. I've read a lot about that, and people seem to like it.  Also, I tried a couple 2n404 in mine, but I didn't have any luck....even with the 2n3565. it has some different specs than the 2n404a (which I'll have to order)
Right now I've got good results with a MP16b with hfe of 63 and 110ua of leakage, and a 2n2222a with hfe of 256. I haven't tried my 2n3565's in my bread boarded circuit yet...that will be next.
Have you ever tried adding a diode to ground on your input after the 100pf capacitor... like on version 2 of the Hermida  schematic?

What would you expect this to do Rob?

I imagined nothing (all things being well) besides dropping the diode fv from the pre-amp supply but adding it as shown caused the amp to oscillate independent of the volume control and made an almighty racket until the power was cut.

You might need to add the 100uF across the power rail on the preamp side.   You can also change the diode to a 100ohm resistor (no diode at all).   The resistor is better as you can keep increasing the value to reduce the preamp supply changes.

The idea is to prevent or at least reduce motorboating.

Suppose you have a preamp with a 12V supply and the transistor collectors a biased mid-supply to 6V.  Now you change the supply to 10V.   The collectors will bias to a lower voltage say 5V (just for arguments sake).  Now imagine continually and rapidly adjusting the power back and forth between 10V and 12V  the change in the bias point on the transistor collectors looks like signal.   That signal will be amplified by the power amp.

When the power amp clips the regulator current-limits and that causes the output voltage of the regulator to drop.    The drop in supply changes the biasing of the transistor preamp.   That drop in supply looks like a signal.  The power amp amplifies the signal but the signal causes the supply to drop or rises.   So you end up with a feedback loop where the power amp feeds back signal to the preamp via the power supply and it oscillates.

By putting a diode and cap, or a resistor and cap on the power supply the power supply changes are reduced.  Hopefully to the point where it cannot sustain oscillations.

The ultimate decoupling of the power supplies is to have a separate regulator for the preamp.    *But*  that's only true if the input supply voltage does not drop too low when the power amp clips.   If the input power rail drops too much the preamp regulator will not regulate.   You will get back the same problem you had before where the preamp power rail is dropping because of what is happening at the power amp.

Anyway, the fact you are seeing a change in behaviour is a good indication we are on the right track.

You are right, I have tested my DIY ts808 with TL072 instead 4558, my rats with OP07 and LM308N / 308A...     ....and the conclusion is...   ...we are not Vai or Satriani.

Only one advice, chinese opamps often are the same with different labels, happen to me with opamps, NPN transtistors labeled like Jfets, etc...       .....yes I am talking to you AliExpress!!!!!.


Saludos y gracias!!

I think you might have opened a can marked "Worms, size: extra large", Jack.

Good luck...

Hahahaha...  just some thoughts for discussion. I would like to know what everyone thinks is contributing to the analog nature of BBDs. What makes the sound and can it be duplicated with DSP?

You have used some of them. What do you think?

Best regards, Jack

Try Si power transistors
I have built treble booster and fuzz circuits with Si power transistors and posted about using Si power transistors for sometime at this forum

people might be sick of hearing this line coming from me:
"I recommend the BD139/BD140 power transistors", they sound really good to my ears, in most low gain discrete circuits, it has something just magic going on.
they have gains from 25 to 150, so checking the gain is crucial, you can opt for buying a bulk and sorting them in gain ranges yourself

cheers