I don't know if it matters, but looking at the analyzer plot, in the lower left corner, the large red sinewave is showing slope distortion on the back (right flank) of the negative peaks. This implies that the drive amplitude is too high for that frequency, and is causing an amplifier somewhere to become nonlinear, where the amp's max slew rate is insufficient to follow the signal. Asymmetrical slew rate limiting is common in operational amplifiers, so the fact that only the negative peaks are affected isn't surprising.
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Originally posted by Possum View Post...the neck is all glossy nitro...It would be possible to describe everything scientifically, but it would make no sense; it would be without meaning, as if you described a Beethoven symphony as a variation of wave pressure. — Albert Einstein
http://coneyislandguitars.com
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Originally posted by Joe Gwinn View PostI don't know if it matters, but looking at the analyzer plot, in the lower left corner, the large red sinewave is showing slope distortion on the back (right flank) of the negative peaks. This implies that the drive amplitude is too high for that frequency, and is causing an amplifier somewhere to become nonlinear, where the amp's max slew rate is insufficient to follow the signal. Asymmetrical slew rate limiting is common in operational amplifiers, so the fact that only the negative peaks are affected isn't surprising.
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Funny thread.
Sounds like (many have) forgotten their early learning in winding-101 class, wasn't TPL like the very first thing a guy experiements with after gettting a machine up-n-running and buying a spool of wire?
(and writes it all down in their notebook for later reference)
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Originally posted by Mike Sulzer View PostThat distortion occurs well away from where the the waveform should be changing the fastest. I think it is some other kind of distortion rather than slew rate limiting, although perhaps it could be if there is an instability involved as well. I also doubt that winding technique as described could make that much difference in the frequency response. That also indicates that there is something wrong with the measurements.
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Bear in mind that if the signal is being differentiated by the coil system (and from the frequency plots it looks like it is) then the slew rate distortion will appear at the peaks instead of the zero crossings."Enzo, I see that you replied parasitic oscillations. Is that a hypothesis? Or is that your amazing metal band I should check out?"
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I hand wind. On humbuckers I shoot for 100 TPL and expect a 10% tolerance in that. I just try and hit that 100 mark as often as possible. That is the ballpark I like. My tension varies on the wire I am using. 42 PE, I tend to wind tight. 44 or smaller poly, I use a looser tension.
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Originally posted by Joe Gwinn View PostIn practical opamps, slew rate limits depend on output swing, and the kind seen in the picture is common. While it's true that the max slew rate occurs around the center, this is a large-signal effect, so one must read opamp datasheets to know what exactly will happen. General theory won't be much help.
Slew rate limiting occurs because the gain of the second stage falls off with frequency resulting from the frequency compensation introduced by capacitance from the output to the input of the second stage. This increases the current the first stage must able to supply for full amp output as a function of increasing frequency The first stage is a fancy emitter coupled (or equivalent FET) stage. It has good linearity up to near the current limit. The triangleization of the sine wave is evident on every one I have examined (except in improperly compensated situations).
What I do not understand is why you decided it was slew rate limiting and now defend that. There is nothing there that indicates slew rate limiting.
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Originally posted by Steve Conner View PostBear in mind that if the signal is being differentiated by the coil system (and from the frequency plots it looks like it is) then the slew rate distortion will appear at the peaks instead of the zero crossings.
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Originally posted by Mike Sulzer View PostWhat I do not understand is why you decided it was slew rate limiting and now defend that. There is nothing there that indicates slew rate limiting.
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Originally posted by Joe Gwinn View PostBecause it looks like it. Not having this bit of commercial gear on our lab benches, that's the best any of us can do.
This shows slew rate limiting: RMAA Testing of Audio IC Op Amps
Scroll down most of the way. These test were done at 320 KHz with an output of about 3V peak. Only the ancient MC4858 (1.5 volts per microsec slew rate) shows a strong effect even at this high frequency. The others show more subtle straightening of the waveform.
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Hi Guys, been a good while!! Hope all are well. In my observations and yes I hand wind but I have noticed something. Loose TPL and standard tension seems to darken the pickups. Tight TPL and tighter tension seems to me to brighten the pickups. I wound 2 buckers same turns on each one 4500 per coil, One was wound normal to loose tension with fast TPL say 45 to 65 the other was wound Slow tpl each layer tight against the other or as tight as I can get it hand winding and slightly higher tension and the difference is night and day, the latter was hands down brighter. I went so far as to increase the tension to just below stretching with the high TPL and it was even brighter but kinda sterile sounding. Was ok but really nothing to write home about. Hope this input helps the debate somewhat.
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Originally posted by SteikBacon View PostIf a pickup is machine-made and is super tight turn to turn... Then the capacitance will work with less resistance, like in one turn. Scatter wound the wire will meet itself after many turns, more resistance. The machine-made should get the same (more even) amount of resistance vs capacitance spread through the coil, while scatter wound would spread the amount (but also have higher) resistance vs capacitance..
And machine wound will probably have higher number of this capacitance (wire is closer) than scatter.....
Higher capacitance will kill the treble, but so will higher resistance where the capacitance appears.
Does this seem right??
Basically, if you wind a little looser, don't confuse me saying looser with the wire being sloppy falling off the coil, with less scatter the pickup will brighten up. Less scatter and it will fatten up and cut some highs. The trick is to get the tension and the TPL just right for the best of all things combined. Don't take my word for it. YMMV.......
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