Tone Bender MK 1.5 and Fuzz Face Circuit Breakdown, Comparison, and Modifications

Might seem tedious for some, but this is pure gold guitar science.

The output cap and pot create a high pass filter. The combinations in this video are
500k + 10nf = 31hz HPF (remember, high pass = low cut)
250k + 10nf = 63hz
100k + 10nf = 159hz
500 + .082u = 3hz
250 + .082u = 7hz
100 + .082u = 19hz
500 + .47u = 0.67hz
250 + .47u = 1.3hz
100 + .47u = 3.38hz
And if you half the resistance you can double the capacitance so 500k pot + 10nf cap is the same as 100k + 47nf is (near enough) the same as 10k + 4.7uf. So if you're working with odd values that don't exist anymore, you can work around it

I really appreciate how much work went into this.

Very well done, sir! THIS video is exactly what I was looking for. Sound comparisons are okay but a mix of schematics, circuit analysis, and circuit implimentation/demonstration is just exactly what I needed! Thank you!

Excellent video with usable tweaks!

This is great, thank you so much for sharing.

this was sweet and informative, thank you very much!

More like this please.... Excellent presentation.

I've learnt a hell of a lot from your video. Thank you.

When servicing these early fuzz faces, I noticed that 5, 10, and 20% tolerance carbon composition resistors where commonly used. After listening to this video, I can understand why this circuit is so flexible. It’s like adding toppings to the pizza to tweak your flavors.

Please keep making videos like this!

This is an INVALUABLE video, thanks for all your efforts here!

This is just what I needed. Best information for the fuzz face diyer. Thanks!

El mejor video sobre FUzz face Diy que se ha hecho hasta ahora!!!!Gracias!!!!

this is a great video I love it. Thanks!

This video is amazing man thank you so much! Honestly this explains so much about the two fuzz circuits and it is extremely informative! Please keep doing vids like this, I for sure will be watching all of them!

thanks for this. i was going to breadboard and do the very same experiment. yours is much more elegant. subbed

Amazing video thank you so much. 👍

Great video ! 👏😃

Interesting demo and experiment. From being an EE technician in industry 35 years and also a guitar player, I’ve designed and built lots of pedals and crossovers. Many of the components you changed only effect the frequencies outside the bandwidth of a guitar, so therefore have little effect on the overall sound. The input capacitor value and output cap are almost inconsequential. The R3 value is in series with the resistor controlling current into the collector of T2 creating a voltage divider. R3 value is again small in relation to the other series resistor making it’s value pretty much irrelevant unless you change it’s value more drastically. The total collector resistors verses the emitter load controls the gain of T2 more importantly. I’m not saying you can toss in any values laying around, collector current and base bias voltage and transistor type are probably more important in changing frequency rolloff and tone.
The only definite way to test the results would be an audio spectrum analyzer with a tracking signal generator. That will create a graphical output showing exactly which frequencies are effected.
Thanks for the efforts you went to, to hear subtle tone changes!

Great content, thank you so much!
I just build a Fuzz Face from a kit and the resistor specified by the kit supplier was 100k, which is kinda in-between the options shown here, and I love how it sounds. Q1 was biased to 0.7v on the collector.
I also mounted different output caps in a switch, so I can tailor the bass response to whatever setup I'm using.

Best video on YT about FF and TB so far. Epic job. To make it better just play Jimi riffs, this way we use our ear memory to compare sounds. 👌

This is really, really good. Thanks very much. I look forward to breadboarding it.

So good the explain and test of differents values and tones of changes on circuit,
Thanks and cheers from Argentina.
I made my own Fuzz with (AC128) germanium recicled components of old chassis, and I love the sound of result...... Alchemy and keep in work, to be or not to be!

I really don't know anything about guitar pedal circuits, but as a fuzz lover I found this video brilliant and entertaining. Thanks.

This is Top Grade content, way above my pay grade, I'm going to have to watch it a few times to get it straight. 😸

well done

The "all up" combo was my favortie and was drastically different. I was watching the whole video thinking "so it basically sounds the same" until that one came up. Particularly R2 seems to make the biggest impact. Great video!

Colin! I really enjoyed this video! This was very educational. It really demystified the sounds of the two pedals. The variations you can get by just swapping a few components are quite dramatic. My favourite combination was the C1 = 5uf, C3 = 0.47uf, R1 = 150ohm, R2 = 1kohm.

This is a great comparison video! Right at 16:21 I made the “stanky rock face.” 🎉

I liked the small resistor values combined with large capacitors

Amazing

Great video I would love to put a box together with all the variables including a volt meter to measure bias voltage. It would be interesting to find out what my real favorite setting would wind up to be playing in a group. I remember seeing some groups playing on TV live and I got the feeling some Guitarist were not happy with how the bender cut through the mix. Back in the day around 67 A friend of mind gave me a orpheum fuzz box that someone had tried to rewire.It used a 9 volt battery but I pedal my uncle bought from sears used 2 1 1/2 volt AAs so that came up to 3 volts. in a matter of an hour or so the pedal would crap out. It was only $14.00 I am sure it used the same components. I was not much more happier with the Orpheum when I got it working. However I can appreciate the subtleties of the pedal today. Thank you for making and sharing this video with us.c];-)

Nice video. It's important to note, however, that some of the earliest 'MK1.5's' actually came with 500k level pots, and some of the earliest Fuzz Faces also have 5μF input caps instead of 2.2μF. The only real difference is that the Fuzz Face is biased slightly colder (possibly in response to how a lot of 'MK1.5's' sound awful in hot weather).

Awesome video! IMO changing R2 around made the most differences, that'd be a great feature to put on a switch!

Wow!! Fantastic video! How can the volume pot affects so much?? Are they all fully cranked?

This video seems like it should have way more views than it has. Maybe I'm biased as I am about to build a Fuzz Face. Thanks for doing this... While there are obvious differences in the different component values the differences are subtle enough that I'm less worried about it and will go with stock FF values but with a variable R2. If for some reason I don't like what I hear I am now better armed with some ideas of other things I might change.

Pedal masterrrrr sheeeeesh

awesome 1111

Very interesting! Haw would you say the different values affect clean-up?

This was a very educational video, but you skipped one very important thing. Normally you would measure that hfe (voltage gain) of the transistors to have a relation of 1 : 1.2 on
Q1/Q2 to get the best sound. On germanium ones people use a hfe from 80 - 100 for Q1, and a hfe from 100 - 120 for Q2. On BC108 there are 3 hfe selection A, B and C.
Commercial pedals often use BC108C, which can give an uncontrollable result. I think you should try selected BC108A to get at better result. Silicium ones can be made to sound
very good.

also please do the same with the three transistor topology!

Thank you so much for this!! I'm doing the same right now, trying to understand and getting really confused.. so I'm starting to search here. I would like to know, how I could make really big changes, for example I#m trying to avoid the crackeling hights, but I found no good way

McLuvin it!

Why not use the original germanium transistors as intended? Cool vid informative and man how I love a good fuzz face.

brilliant video but you should have played the same sound file instead of live guitar no?

The differences are subtle, alterations of the low end, nature of the fuzz is the same.

I might add that this type of circuit excels when you run them into a marshal that is starting to break up instead of using a clean platform. Then you can use your volume control on your guitar to go from clean to MEAN. :-)

Can one fuzz be chosen and then chase it with an EQ pedal to replicate other types of fuzzes?

Volume pot shouldn't affect anything if its full volume, because then its just shorted, but was it on full volume?

So - I'm curious, you used silicon bipolar transistors, which don't have the high leakage current that old Ge transistors do. These circuits, if I understand them, rely on that high leakage current for their biasing - that must change the sound a lot - right?

Pro Tip: Use your Headphones with this Video. ;)

Please build pedals 🙂

You also forgot to mention that R1 in the Tonebender Mk 1.5 is 47k and in the Fuzz Face circuit R1 is 33k.

Changing R1 from 47k to 33k is going to affect how Q2 is biased as well as changing R3.

5 or 4.5 bias is half the battery. voltage.

17:33

Супер видео. Но автор не менял транзисторы... Кто интересуется, советую германиевые транзисторы ГТ 311А - hfe15-180, ГТ311И - hfe 100-300, для N-P-N. На таких я собрал Fuzz Face. Есть еще ГТ-313 P-N-P. Они не такие древние, как МП и П серии.

Would have been useful if you'd used a loop or at least played the same exact riff. Playing something different each time totally defeats the purpose for me, which is too bad because you went to great lengths to compare the mods.

This RULED

It all sounds awful