What to make with 30-50 hFE Germaniums

[mybud]

Go the other way with a Double-AA, eh?

Some of the ol' fuzzircuities used two or even one AA — 3v or 1v5 respectively.

https://www.diystompboxes.com/smfforum/index.php?topic=43652.0

"Maestro Fuzz Tone started as a 3 volt (2 AA batteries) fuzz, then went to 1.5 volt, and then 9 volts (versions FZ-1, FZ-1A, and FZ-1B respectively)."

https://www.diystompboxes.com/smfforum/index.php?topic=65994.0

HEATHKIT TA-28 FUZZ 1v5
Fi-Sonic Fuzz Blender [Maestro FZ-1 variant from down under] 3v


A lot more obscurities are out there, hidden in old electronics magazines, musician magazines etc...


Who needs a knob for "battery-sag" or "voltage starve" when you can just run it right at 1v5 or 3v?

Good point, I think. My only caveat is that they might be even harder to tune with reduced voltages.

I've spent most of the last three days or so building Zonk variants and I realise again why the world of PNP Germs is so utterly bizarre (at least to me). I found a nice Zonk II schematic at amplified parts, modded my hitherto functional breadboard version, and got fantastic results from it. Around two hours later, it stopped functioning altogether. Dead silence when engaged...

I built a cleaner version with the same components, thinking maybe the breadboard itself was funky. Same result, silence.

Voltages look plausible, transistors read ok with Peak tester. Could this behaviour somehow be temperature-related, that the Germs just close off at a given temperature? So much to learn, so little time.

 

[mybud]

Good point, I think. My only caveat is that they might be even harder to tune with reduced voltages.

I've spent most of the last three days or so building Zonk variants and I realise again why the world of PNP Germs is so utterly bizarre (at least to me). I found a nice Zonk II schematic at amplified parts, modded my hitherto functional breadboard version, and got fantastic results from it. Around two hours later, it stopped functioning altogether. Dead silence when engaged...

I built a cleaner version with the same components, thinking maybe the breadboard itself was funky. Same result, silence.

Voltages look plausible, transistors read ok with Peak tester. Could this behaviour somehow be temperature-related, that the Germs just close off at a given temperature? So much to learn, so little time.

Needless to say, it was a wiring error on my part.

Step 1: Learn not to make cloth-brained mistakes.
Step 2: Avoid publicising one's errors to the wider world.
Step 3: Repeat step 1 ad nauseam.

 

[NickKUK]

Could you not cascode them?

 

[Feral Feline]

Could you not cascode them?

Sure, but you'd need at least 124-bit encryption to thwart the reverse-engineering tracers...

 

[NickKUK]

Sure, but you'd need at least 124-bit encryption to thwart the reverse-engineering tracers...

124 bit… shocking! (I used to sell optical quantum cryptography before we got down that rabbit hole).

 

[rossbalch]

Could you not cascode them?

Could be fun, any sweet example circuits?

I probably have like 100 devices in this range, so I could make quite a few things ha ha. Would really love to do a microphone preamp, and line amp too.

 

[NickKUK]

Could be fun, any sweet example circuits?

I probably have like 100 devices in this range, so I could make quite a few things ha ha. Would really love to do a microphone preamp, and line amp too.

A cascode is a great way to increase gain, but it has lousy PSRR and a high output impedance. Often you’ll see a cascode followed by a cathode follower. This means you get increased gain and then a driver to stop the next stage/pedal from seeing a high impedance. Furthermore, you’ll want a stopper resistor on the input as it may pickup RF due to the same increased bandwidth.
What that means is your los hfe can be used to get more gain.

I don’t have a specific circuit but a fuzz or distortion can be built using it. If there’s too much gain you could use some NFB or even abuse that for nee tones.

 

[rossbalch]

A cascode is a great way to increase gain, but it has lousy PSRR and a high output impedance. Often you’ll see a cascode followed by a cathode follower. This means you get increased gain and then a driver to stop the next stage/pedal from seeing a high impedance. Futhermor, you’ll want a stopper resistor on the input as it may pickup R lF due tothe same increased bandwidth.
What that means is your los hfe can be used to get more gain.

I don’t have a specific circuit but a fuzz or distortion can be built using it. If there’s too much gain you could use some NFB or even abuse that for nee tones.

Yeah there's no reason the design needs to be all Germanium, would be fine to use a JFET input buffer for instance, and a Si BJT follower to buffer the output.

 

[jwin615]

I'm working on a SiGe² sziklai pair FF currently. I'll share it when/if I can get it tuned in.

 

[mybud]

I breadboarded this Zonk II (following some experimentation with values, eventually settling on the Amplified Parts version: details here.)

I like it so much that I built a Vero version, as above.

This seems much more forgiving than the Zonkbox and gives a nice creamy sustain and lots of volume on tap.

Used the following configuration:

Q1 AC128 (hFE 80, leakage 0.243mA)
Q2 OC75 (hFE 97, leakage 0.294mA)

Also added a charge pump because this seems to help the circuit stabilise (more than straightforwardly reversing the voltage and electrolytics) and for compatibility with a centre negative setup as most pedals need. I prefer C1k for B1k for the fuzz control, obviously a matter of taste.

Is this entirely relevant to OP's question about low gain Germaniums?

No, but the circuit's fun anyway

Thanks for reading as ever and best of luck with your projects.

 

[Synchrony Pedalworks]

View attachment 100307

I breadboarded this Zonk II (following some experimentation with values, eventually settling on the Amplified Parts version: details here.)

I like it so much that I built a Vero version, as above.

This seems much more forgiving than the Zonkbox and gives a nice creamy sustain and lots of volume on tap.

Used the following configuration:

Q1 AC128 (hFE 80, leakage 0.243mA)
Q2 OC75 (hFE 97, leakage 0.294mA)

Also added a charge pump because this seems to help the circuit stabilise (more than straightforwardly reversing the voltage and electrolytics) and for compatibility with a centre negative setup as most pedals need. I prefer C1k for B1k for the fuzz control, obviously a matter of taste.

Is this entirely relevant to OP's question about low gain Germaniums?

No, but the circuit's fun anyway

Thanks for reading as ever and best of luck with your projects.

Thanks for posting. I have this circuit in my table. You notes will help me select some good transistors.

 

[mybud]

Thanks for posting. I have this circuit in my table. You notes will help me select some good transistors.

Only a pleasure. I think you will enjoy the sound if you’re into vintage fuzz, from dark at minimum to somewhat raspy at full bore. Also cleans up nicely with guitar volume

 

[leadfoot]

I just used some low gain mp38 (40ish) in a Cross Containinator. It was really nice, I was surprised how well it turned out. A much different sound than I was expecting.