DIYstompboxes.com

THE DRIVE SECTION:
The unclipped affect by 51p and .047 (the low pass and high pass)???
and Does the clipped also???
im going to build seperate so i have control   :icon_biggrin:

Quote from: preciousmolina666 on January 23, 2017, 06:38:18 PM
THE DRIVE SECTION:
The clean affect by 51p and .047 (the low pass and high pass)
Does the clipped also?
im going to build seperate so i have control   :icon_biggrin:

I was following along fine until just after "Tubescreamer", but I can tell you are excited, and I love a mystery, so build away and report back.  :icon_biggrin:

I had to double check it wasn't a Haiku  ;D

Quote from: patrick398 on January 23, 2017, 07:29:34 PM
I had to double check it wasn't a Haiku  ;D

who's haiku  :o

Quote from: preciousmolina666 on January 23, 2017, 08:53:03 PM

Quote from: patrick398 on January 23, 2017, 07:29:34 PM
I had to double check it wasn't a Haiku  ;D

who's haiku  :o

Haha it's a type of Japanese poem...when i read your first post it kind of sounded like one in my head haha

Quote from: patrick398 on January 24, 2017, 07:42:21 PM

Quote from: preciousmolina666 on January 23, 2017, 08:53:03 PM

Quote from: patrick398 on January 23, 2017, 07:29:34 PM
I had to double check it wasn't a Haiku  ;D

who's haiku  :o

Haha it's a type of Japanese poem...when i read your first post it kind of sounded like one in my head haha

1uF
Electrolytic or film
For blocking DC

Quote from: EBK on January 25, 2017, 07:11:04 AM

Quote from: patrick398 on January 24, 2017, 07:42:21 PM

Quote from: preciousmolina666 on January 23, 2017, 08:53:03 PM

Quote from: patrick398 on January 23, 2017, 07:29:34 PM
I had to double check it wasn't a Haiku  ;D

who's haiku  :o

Haha it's a type of Japanese poem...when i read your first post it kind of sounded like one in my head haha

1uF
Electrolytic or film
For blocking DC

Hahahaha Superb!  :icon_lol:

Printed circuit board
Components connected there
Together at last.

preciousmolina666, if you want to put this thread back on the rails by giving us more information on what you are planning to build, we'd be happy to give you more meaningful feedback.  We really do enjoy helping others around here.

My apologies in advance, as I can't resist adding one more haiku:

I used dirt cheap parts
Home-etched phenol resin board
Please help me debug

Hahaha, maybe someone should start a separate thread for electronics based Haiku's. They're funny but certainly not very helpful haha

hahaha ive search haiku poem now i get it  :icon_biggrin:, ive seperate it for question1, question2 and why.
back on topic, im going to build a sepearate tubescreamer, one with diode and the other is without.
in the drive section of tubescreamer signal works in parallel. the first signal is amplified and the other is clipped by diode.
i want to know if the two signal are being low pass and high pass.

Quote from: preciousmolina666 on January 25, 2017, 03:38:10 PM
hahaha ive search haiku poem now i get it  :icon_biggrin:, ive seperate it for question1, question2 and why.
back on topic, im going to build a sepearate tubescreamer, one with diode and the other is without.
in the drive section of tubescreamer signal works in parallel. the first signal is amplified and the other is clipped by diode.
i want to know if the two signal are being low pass and high pass.

I'd recommend reading R.G.'s Technology of the Tube Screamer article for more insight as to how this circuit works: http://www.geofex.com/Article_Folders/TStech/tsxfram.htm

The short answer to your question, if I understand it correctly, is yes, the signal would still be filtered if the diodes were removed.

By the way, without the clipping diodes, you'll still get clipping by the op amp due to the high gain.  It may or may not be to your liking.  Overall, the output will be much louder without the diodes.

Sounds like our amigo wants to build a "Klon," with seperate paths for clipped and unclipped, each with different eq, then mixed...
I remember reading how in a TS type circuit there is still a (unity gain?) unclipped signal present leaving the clipping stage... Maybe that's what he is after...
Try googling "Tube Screamer's Secret" for this line of reasoning.

Quote from: idy on January 25, 2017, 05:11:28 PM
Sounds like our amigo wants to build a "Klon," with seperate paths for clipped and unclipped, each with different eq, then mixed...
I remember reading how in a TS type circuit there is still a (unity gain?) unclipped signal present leaving the clipping stage... Maybe that's what he is after...
Try googling "Tube Screamer's Secret" for this line of reasoning.

I'm wondering if we are instead talking about whether the buffered bypass path is filtered.... 

That Tube Screamer's Secret stuff makes my brain uncomfortably itchy.  The explanation is too hand-wavy.  I'm going to have to sit down with pencil and paper and work out the math myself to figure out if I should be learning something new or actively ignoring something that doesn't appear to make sense. :icon_confused:

The "lowpass" is actually a shelving highpass:
(http://www.linkwitzlab.com/images/graphics/passive_up_shelf.jpg)
While the "highpass" is a shelving lowpass:
(http://www.linkwitzlab.com/images/graphics/passive_down_shelf.jpg)
In which R1 (for both) is the parallel combination the drive pot and the effective resistance of the diodes.  The fun part being that the effective resistance of the diodes changes based on the instantaneous level at the opamp output.  (the even more fun part being that this level is completely dependent on that effective resistance which depends on it :/)  If you imagine the diodes as a straight wire, you'll see that those filters won't really do anything.  It'll be essentially flat.  So for the portion of the signal swing where the diodes are conducting, the filters really can't be doing anything.  :)

Quote from: EBK on January 25, 2017, 08:04:35 PM
That Tube Screamer's Secret stuff makes my brain uncomfortably itchy.  The explanation is too hand-wavy.  I'm going to have to sit down with pencil and paper and work out the math myself to figure out if I should be learning something new or actively ignoring something that doesn't appear to make sense. :icon_confused:

Yeah, it's not really very deep, and doesn't explain particularly well, but really is pretty close to the truth.  In fact, it's pretty much exactly the way I ended up coding my TS-style plugin.

QuoteYeah, it's not really very deep, and doesn't explain particularly well, but really is pretty close to the truth.  In fact, it's pretty much exactly the way I ended up coding my TS-style plugin. 

For those of you following along, here is a link to the TS "Secret" article:

http://www.bteaudio.com/articles/TSS/TSS.html

The part that bugs me the most is where it says that the amplified portion gets clipped softly at the diode forward voltage (fine), but the combined signal gets hard clipped at the op amp rails (wait a minute).
It seems like if this is happening, you would be chopping off that soft clipped portion unless you were just barely at the op amp's limit.  The article goes on to say that somehow, despite hard clipping at the rails, input dynamics are supposedly preserved at the output (my brain screams "not a chance!" at this point).  You'd have a hard-limited output with a fixed maximum voltage depending essentially only on your rail voltage, right?  What am I missing?

Quote from: EBK on January 27, 2017, 04:41:19 PMYou'd have a hard-limited output with a fixed maximum voltage depending essentially only on your rail voltage, right?  What am I missing?

Once the diode "opens up", the output is essentially the input plus the forward voltage of that diode.  It's only actually going to clip the opamp if the input is already within a diode drop of however close to the rail that opamp will get to it.  Most guitars aren't that loud, but if you start boosting things ahead of the TS...

The take away should be that this circuit is functionally almost exactly the same as if you built it as a diode-to-ground distorter and then mixed in the original signal at unity except that the diode-to-ground version would be more likely to clip the opamp.

To the OP - it's still hard to say what exactly you're asking.  The part of the signal that exceeds the diode drop is not really filtered, but if you take out the diodes, that signal will be.  Whether that's what you want is completely up to you.  I think it's more likely they will sound more similar if the "clean" one is filtered, but...

those haiku's are hilarious!!  :D :D :D

My Tube Screamer build
Clouds and Puffs of Magic Smoke
Tears and Tears Falling

Quote from: ashcat_lt on January 27, 2017, 05:57:27 PM
The take away should be that this circuit is functionally almost exactly the same as if you built it as a diode-to-ground distorter and then mixed in the original signal at unity except that the diode-to-ground version would be more likely to clip the opamp.

That is the one cool thing I did take away from the article: the "1" in "A_v = 1 + R₂/R₁" is actually special when you have a non-linear feedback loop.  For that I am thankful. :icon_smile:

QuoteTo the OP - it's still hard to say what exactly you're asking.  The part of the signal that exceeds the diode drop is not really filtered, but if you take out the diodes, that signal will be.  Whether that's what you want is completely up to you.  I think it's more likely they will sound more similar if the "clean" one is filtered, but.

Now if in understand correctly tubescreamer drive section is parralel of original signal and clipped signal

Tubescreamer drive section:
1st  input -> unity gain(unfiltered) -> output
2nd input -> opamp clipped -> low pass ->high pass -> diode to ground -> output
or
2nd input -> opamp clipped -> diode to ground -> low pass ->high pass -> output ???

Quote from: preciousmolina666 on January 28, 2017, 04:52:41 PM

QuoteTo the OP - it's still hard to say what exactly you're asking.  The part of the signal that exceeds the diode drop is not really filtered, but if you take out the diodes, that signal will be.  Whether that's what you want is completely up to you.  I think it's more likely they will sound more similar if the "clean" one is filtered, but.

Now if in understand correctly tubescreamer drive section is parralel of original signal and clipped signal

Tubescreamer drive section:
1st  input -> unity gain(unfiltered) -> output
2nd input -> opamp clipped -> low pass ->high pass -> diode to ground -> output
or
2nd input -> opamp clipped -> diode to ground -> low pass ->high pass -> output ???

Getting closer, I think.  I believe I understand what you have been trying to say.  I'll try to explain a bit more later today.

Quote from: preciousmolina666 on January 28, 2017, 04:52:41 PMNow if in understand correctly tubescreamer drive section is parralel of original signal and clipped signal

Tubescreamer drive section:
1st  input -> unity gain(unfiltered) -> output
2nd input -> opamp clipped -> low pass ->high pass -> diode to ground -> output
or
2nd input -> opamp clipped -> diode to ground -> low pass ->high pass -> output ???

Well that's not exactly how it works, but it has about the same effect.  The drive section is completely in series with the signal.  There isn't actually a parallel "dry mix" happening in the circuit itself.  The interactions between the opamp, diodes, caps and resistors makes it act like there is, but...

Think of pin 3 of that op amp as v_in.  That gets copied to pin 2 via op amp "magic".

Now, consider the 4.7k resistor and 0.047uF cap.  These establish the current that will get pulled through the combination of parts between pin 2 and the output of the op amp.  This current can be thought of a high passed representation of v_in.  Ignoring the diodes for now, you have in that feedback loop a resistor in parallel with a capacitor.  Together, they act like a resistor whose value decreases as frequency goes up.  That current I mentioned earlier flows through that combination, which acts as a low pass filter, to produce a voltage that is effectively a bandpassed version of v_in.  This bandpassed voltage is referenced to the voltage at pin 2, which is an unfiltered copy of v_in, so to arrive at the final output voltage you get the bandpassed voltage plus the unfiltered copy of v_in. 

The things I glossed over (other than ignoring the diodes): there is voltage gain associated with the component values, and the corner frequency of the LP portion varies with the drive pot setting.

I'll try to add more to this explanation later, but to sum up a partial answer to your question, the unity gain clean signal is not affected by the filters.  Only the amplified, and potentially clipped portion is.

Quote from: EBK on January 29, 2017, 05:23:22 PM
I'll try to add more to this explanation later, but to sum up a partial answer to your question, the unity gain clean signal is not affected by the filters.  Only the amplified, and potentially clipped portion is.

I feel like this is going backwards and not exactly right and kind of not helping.  I'm sure you mean well, but it's just not getting there.  Among other things, there is no "clean signal".  The portion that of the signal which exceeds the diode drop is mostly unfiltered, and it works out about the same as mixing the clean input with a filtered-and-hard-clipped copy, but that ain't really how it works.

Also, both filters are shelving types (as I said above) in the BizzaroWorld of a negative feedback loop such that the opamp output is amplified by the amount that the filter is attenuating.

I never actually use 1 + R1/R2, but rather figure the divider ratio - R2/(R1+R2) - and then invert.  It's important to remember that those Rs should really be Zs, and their values are dependent both on frequency and (with the diodes) level.

Anyway, I still don't know what the OP actually wants!  I thought the idea was to make two pedals - one a normal TS and the other the same thing without the diodes.  I'd figure you'd want to have all the filtering exactly as is for both.  It would then be a TS and essentially a high mid/treble booster and they would tend to sound more like each other than if the "clean" one was unfiltered.

If, on the other hand, we're trying to "fake" a TS by mixing the clean signal with a diode-to-ground version of a TS, you'd want to move the diodes out of the feedback and use a simple flat unity gain buffer for the clean signal.

Note that the big cap to ground is necessary unless that leg actually goes to a Vref, so it can be tough to get actual flat gain out of this type of circuit.  The smaller cap is also pretty important, but is easier to size small enough to not touch the audio spectrum.

Quote from: ashcat_lt on January 29, 2017, 06:58:34 PM

Quote from: EBK on January 29, 2017, 05:23:22 PM
I'll try to add more to this explanation later, but to sum up a partial answer to your question, the unity gain clean signal is not affected by the filters.  Only the amplified, and potentially clipped portion is.

I feel like this is going backwards and not exactly right and kind of not helping.  I'm sure you mean well, but it's just not getting there.  Among other things, there is no "clean signal".  The portion that of the signal which exceeds the diode drop is mostly unfiltered, and it works out about the same as mixing the clean input with a filtered-and-hard-clipped copy, but that ain't really how it works.

Also, both filters are shelving types (as I said above) in the BizzaroWorld of a negative feedback loop such that the opamp output is amplified by the amount that the filter is attenuating.

I agree with most of what you said.  Part of the reason I said I would explain more later was precisely because the strained analogies are far from perfect....

QuoteI never actually use 1 + R1/R2, but rather figure the divider ratio - R2/(R1+R2) - and then invert.

If you want to write R2/R2 (or Z2/Z2) instead of 1, go right ahead.  :icon_wink:

QuoteI'll try to add more to this explanation later, but to sum up a partial answer to your question, the unity gain clean signal is not affected by the filters.  Only the amplified, and potentially clipped portion is.

Thanks :)

QuoteAnyway, I still don't know what the OP actually wants!  I thought the idea was to make two pedals - one a normal TS and the other the same thing without the diodes.  I'd figure you'd want to have all the filtering exactly as is for both.  It would then be a TS and essentially a high mid/treble booster and they would tend to sound more like each other than if the "clean" one was unfiltered.
If, on the other hand, we're trying to "fake" a TS by mixing the clean signal with a diode-to-ground version of a TS, you'd want to move the diodes out of the feedback and use a simple flat unity gain buffer for the clean signal.

i going to emulate "TS drive section" but seperate control as close as possible
Now i want to know if the signal is filtered before it clipped by diode/opamp

At the risk of annoying ashcat_lt with this simplified characterization, the portion of the signal that is affected by the filtering/clipping network gets high pass filtered before it gets clipped.

The important thing to keep in mind is that we've been referring to a unity gain unfiltered portion of the input that is mathematically separable, but not physically separable within that feedback loop.  In this regard, ashcat_lt is quite right that this "clean signal" does not exist, per se.

Add a separate op amp to have a separate clean path that you can process separately. I think that has been your plan all along.

Here is what I am assuming you are asking for:
one complete tube screamer circuit that has two parallel copies of the drive op amp subcircuit, one drive subcircuit being exactly like the original, the other drive subcircuit being similar, but without the clipping diodes and potentially with different filtering.  I believe the nature of your question referred somewhat to whether some of the other components were only there for the benefit of shaping the clipping itself or, conversely, were only there to shape the sub-clipping portion.

QuoteIt's important to remember that those Rs should really be Zs, and their values are dependent both on frequency and (with the diodes) level.

very important, indeed.  This reminds me that I also glossed over the issue of phase....  I was quite reluctant to bring up Laplace domain analysis or complex impedance for fear of creating additional confusion (believe it or not, I was also actually a bit indecisive about whether it would be potentially clearer to call sqrt(-1) i or j as part of a lengthier explanation  :icon_rolleyes:).

Quote from: EBK on January 29, 2017, 07:32:31 PM
If you want to write R2/R2 (or Z2/Z2) instead of 1, go right ahead.  :icon_wink:

There's no need.  Figure it, then flip it.  ;)   I'm not at all saying my way is right, but I think a lot of people see that equation for opamp gain and think it's some new special thing, and never quite realize that it's really just the standard divider equation that we all know and love (or should, because "everything useful is a voltage divider").  I think it's important to keep this in mind at all times in order to understand anything that's happening in the negative feedback loop. 

The opamp doesn't use magic, and it's not all that complicated really.  Whatever you do between the output and the inverting input has to be undone at the output so that what actually reaches that input is exactly the same as the non-inverting.

I'm pretty sure we've answered the OP's answer a couple times no matter what they actually want, but I'll put it out here one more time:

A) If you want a "clean boost that sounds like a tubescreamer" just pull out the diodes and go.  It wants the same filtering.

B) If you want to emulate a tubescreamer by mixing a clean signal with a hard clipped signal, then the clipped side should be filtered and the clean side should be flat.

I'd love it if you'd tell us whether A or B is what you're trying to achieve, but I'm not that worried about it.  :)

Quote from: ashcat_lt on January 30, 2017, 02:30:17 PM
The opamp doesn't use magic, and it's not all that complicated really.  Whatever you do between the output and the inverting input has to be undone at the output so that what actually reaches that input is exactly the same as the non-inverting.

Hey! You're not supposed to reveal a magician's secrets!  :icon_lol:

QuoteI'm pretty sure we've answered the OP's answer a couple times no matter what they actually want....

Perhaps the only thing left is to write the answer as a haiku to finish where we started.  :icon_biggrin:

Modded tube screamer
Lift diodes or add more parts
What is it you want?

Quotethe portion of the signal that is affected by the filtering/clipping network gets high pass filtered before it gets clipped.

:-*

QuoteB) If you want to emulate a tubescreamer by mixing a clean signal with a hard clipped signal, then the clipped side should be filtered and the clean side should be flat.

my fault id confused you
(https://www.dropbox.com/s/w7hgyejawaa7hzm/tubescreamer%20haiko.jpg)
https://www.dropbox.com/s/w7hgyejawaa7hzm/tubescreamer%20haiko.jpg?dl=0

Quote from: preciousmolina666 on January 31, 2017, 12:08:39 AM

QuoteB) If you want to emulate a tubescreamer by mixing a clean signal with a hard clipped signal, then the clipped side should be filtered and the clean side should be flat.

my fault id confused you
(https://www.dropbox.com/s/w7hgyejawaa7hzm/tubescreamer%20haiko.jpg)
https://www.dropbox.com/s/w7hgyejawaa7hzm/tubescreamer%20haiko.jpg?dl=0

Ooh good yes this helps!  The image doesn't actually show up in the msg on my phone, but I clicked through and I see what you're going for. 

A couple of things:
1)  It looks like you've illustrated a "mix pot" at the output.  That sort of arrangement is actually more like a crossfade.  It turns one side down as the other goes up.  In a TS that doesn't happen.  You want a static, even mix.  The proportion of one side to the other should only depend on gain in the clipped leg.

B)  In a TS, any opamp clipping that happens is on the "mix" of the two.  In fact, the "clipped side" can't hit the rails on its own.  The way you've drawn it, the opamp clipping will be mostly lost in the diode clipping anyway.  Ideally you'd give both sides plenty of headroom so that neither one clips any opamps, then mix them, then add your opamp clipping section.  Unfortunately, I think the gain section of the clipped side would want hundreds of volts for rails.

So yeah, your unity side is just a clean flat buffer.  Your dirty side is basically the drive section of the TS with the diodes moved out of the feedback loop and place as a to-ground clipper after.  Then a 1:1 mixer which will probably drop about half the voltage from both sides so you have a final opamp with enough gain to compensate for that which will give you the opamp clipping.  If you can run everything but that last off of 18V, would be better.

I tend to think that the real "magic" - the part that's going to be tweakiest and have the biggest impact on the authenticity of the result - is going to be the resistances around the diodes-to-ground.  There needs to be some series resistance after the opamp going into them, and there will be the mix resistors as a load parallel, and that will changes the "curve".  IDK for sure how to pick appropriate values there.  Part of me thinks the series one should be the same as in the ground leg of the feedback loop, but I really can't say.

I think you should consider placing the LP after the clipping (or add another separate LP after the clipping).