Bottlehead Forum
Bottlehead Kits => S.E.X. Kit => Topic started by: troplin on May 04, 2017, 10:20:11 AM
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Measuring is fun, so I've measured the harmonic distortion of my new S.E.X. 3.0 and was a bit surprised about the results.
I've always thought that tube amps have mostly even order (musical sounding) harmonics, while SS amps tend to have odd (harsh sounding) harmonics.
In my measurements however, the odd harmonics seem to dominate up to 1.5 kHz, where the 2nd order harmonics takes over.
Are those measurements realistic or could that be a flaw/error in the build?
Also, while measuring I've noticed that I can hear the sweep sound from the amp itself. Is that normal?
For the measurements I've used:
- Room EQ Wizard on Mac, Log sweep with -12dbFS
- Behringer UCA202 Audio Interface for Line In (~27kOhm, max 2.0dBV) and Line Out (max 2.0dBV), Input and Output levels both set to maximum.
- S.E.X 3.0, RCA Input, Headphone output, Volume just in the middle (seems to be almost exactly 0dB).
Tobias
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The plot makes no sense to me. I'm not familiar with the software or the non-Bottlehead hardware, so I can't guess what's going on. But the plot shows the fundamental being expressed in percent? Normally, distortion is a percentage of fundamental level, so the fundamental would always be 100% of the fundamental.
I had a 30-year career in acoustical engineering, and I can assure you that 9 times out of 10, the first experiment has an unanticipated flaw which gives garbage results. Getting the experiment right is almost always more difficult than doing the experiment once you do get it right.
Incidentally, this is one of the dangers of experimental science. If the result makes no sense, you figure out why and try again. If it does make sense (usually meaning it matches expectations) then you tend to publish. It may still be wrong, but the experimenter has stopped looking for flaws.
"Nobody knew reality would be so hard." :^)
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The plot makes no sense to me. I'm not familiar with the software or the non-Bottlehead hardware, so I can't guess what's going on. But the plot shows the fundamental being expressed in percent? Normally, distortion is a percentage of fundamental level, so the fundamental would always be 100% of the fundamental.
While the fundamental is in the legend it not actually shown in the graph because of the zoom level I chose, sorry about that.
The non-Bottlehead hardware is just an external sound card DAC/ADC. I've measured that too, it has much lower distortion. So that shouldn't influence the measurement noticeably.
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Run a loopback cable from the output to input of your equipment and run the test again. That will tell you how meaningless your data is.
I have played a lot with RMAA to measure frequency response and distortion figures and getting a repeatable reading every time you setup the equipment is the hardest part. Even now having meticulously written down all the levels and settings i still only trust it for simple A B comparisons, i don't take the results as absolute fact.
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Run a loopback cable from the output to input of your equipment and run the test again. That will tell you how meaningless your data is.
That's what I did, actually:
iMac --(USB)--> UCA202 --(RCA/RCA)--> SEX --(TRS/RCA)--> UCA202 --(USB)--> iMac
Or did you mean something different?
I'm still convinced that the setup and measurements are meaningful. They are also repeatable.
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For comparison, this is what it looks when I take the S.E.X out of the loop, i.e. just:
iMac --(USB)--> UCA202 --(RCA/RCA)--> UCA202 --(USB)--> iMac
(since you wanted an A/B comparison)
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I had a 30-year career in acoustical engineering, and I can assure you that 9 times out of 10, the first experiment has an unanticipated flaw which gives garbage results. Getting the experiment right is almost always more difficult than doing the experiment once you do get it right.
Actually, I'm already past the first garbage measurement. ;)
At first, the UCA202 audio interface was in monitor mode (direct input->output), which of course caused nasty oscillations in the amp.
But I've noticed and corrected that already before posting here. 8)
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Thanks for the clarification; now I see I was looking at the THD and thinking it was fundamental.
What are the input and output voltages? (I mean the actual input voltage at the grid of the driver triode)? I ask because the dominance of second harmonic at high frequencies and third harmonic at low frequencies suggests some kind of overload or clipping.
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Paul, I'm not sure if I understand you correctly:
So, for the input voltage I'd measure pin 3 to ground and for the output pin 7 to 5 with the multimeter set on AC.
All this while providing an input signal similar to the one I used in the measurement. A log sweep is probably not the best input, what frequency would be best?
Is my understanding correct?
EDIT:
For the reference, all the measurements above are for the right channel.
Just to be sure I've taken the same measurements now also for the left channel and they look exactly the same.
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Sorry for the short reply, it's been a really busy week for me.
When I said input, I meant the grid that is attached to the level control output - that would be pin 10 of the tube. Pin 3 is the output stage, not the driver stage.
When I said output, I meant the speaker terminals.
If your software has an oscilloscope function, you can just look at the output waveform, with a sine-wave input - use a low frequency such as 100Hz, since that's where the peculiar results are strongest. At small input voltages, you should see a sine wave. As you near the maximum input,the waveform will become a little asymmetrical, showing even order distortion. With greater input voltage, it will get flattened at both positive and negative peaks - this is full-fledged clipping, with lots of odd harmonics.
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Another way of asking for the same information is to add a DVM set for AC voltage across the speaker terminals where you are measuring (there should also be a load resistor there equal to the impedance setting you're using and rated for at least 10W). Set your software for FFT with %THD available as a value, and crank the signal up till you get 10% THD and record the voltage at the DVM (as suggested, using 100Hz will ensure compatibility with your meter).
Otherwise, you could push a SEX amp to make 5 Watts and get a lot of THD, but you'd be clipping the amp pretty hard.
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Sorry for the short reply, it's been a really busy week for me.
There's nothing apologize. Enjoy your weekend!
When I said input, I meant the grid that is attached to the level control output - that would be pin 10 of the tube. Pin 3 is the output stage, not the driver stage.
When I said output, I meant the speaker terminals.
Thanks for the clarification, my vocabulary is still a bit limited but it's getting better.
I'll do some additional measurements then.
If your software has an oscilloscope function, you can just look at the output waveform, with a sine-wave input - use a low frequency such as 100Hz, since that's where the peculiar results are strongest. At small input voltages, you should see a sine wave. As you near the maximum input,the waveform will become a little asymmetrical, showing even order distortion. With greater input voltage, it will get flattened at both positive and negative peaks - this is full-fledged clipping, with lots of odd harmonics.
It doesn't have live oscilloscope function, but I can look at the recorded signal from a log-sweep measurement.
Another way of asking for the same information is to add a DVM set for AC voltage across the speaker terminals where you are measuring (there should also be a load resistor there equal to the impedance setting you're using and rated for at least 10W). Set your software for FFT with %THD available as a value, and crank the signal up till you get 10% THD and record the voltage at the DVM (as suggested, using 100Hz will ensure compatibility with your meter).
Otherwise, you could push a SEX amp to make 5 Watts and get a lot of THD, but you'd be clipping the amp pretty hard.
I think I get this, but in my measurements above there's barely any load. The line-in has an input impedance of 27kΩ and a maximum input of 2dBV (~1.26Vrms). That means the means the maximum power taken from the amp without clipping in the ADC would be about 0.06 mW if my computations are correct.
So in that setup there should be no clipping, right?
Just for my understanding, is there a difference between clipping because of high input voltage and clipping because of high power consumption or is it the same mechanism?
In any case it seems that I should try out some other software with live analysis.
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I get 0.2 watts - RMS volts squared, divided by 8 ohms.
As PB says, to get realistic measurements it's usual to load the 8-ohm output with an 8 ohm resistor.
Clipping is a matter of driving the am beyond its capabilities; for SETs that is usually excess signal voltages somewhere in the amp.
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I get 0.2 watts - RMS volts squared, divided by 8 ohms.
As PB says, to get realistic measurements it's usual to load the 8-ohm output with an 8 ohm resistor.
Sorry to bother you with stupid questions, but where did you get that 8 ohm from?
I've plugged the amp output directly into the line input of the sound card which has 27KOhm input impedance, no speaker or other load involved.
Is that 8 Ohm something internal to the amplifier?
Of course this is not a realistic listening setup but OTOH with virtually no load attached I had (naïvely?) expected only minimal distortion. I thought that would be a good baseline measurement.
Anyway, I'm not giving up yet so I'm going to order that 8 Ohm resistor and repeat my measurements. ;)
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You connect an 8 ohm resistor - I would suggest one rated for at least 5W in this case - across the speaker binding posts, to emulate the load of a speaker.
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I totally understand that, Doc.
I was talking about my current setup without resistor/speaker. I don't understand why there is such high (odd harmonics) distortion in even an basically unloaded setup and I don't expect the distortion to be lower with more load. But we will see as soon as I have that resistor installed.
Strange enough, the distortion actually seems even higher at lower volumes (EDIT: which might just disprove what I've written above, I don't know).
Attached two FFT pictures, one at 1/2 volume (same as the measurements above) and one at 1/4 volume.
Same setup as above, at 200 Hz.
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I think the problem here is you have no reliable point of reference yet. Do what PJ says, use the scope function to observe what is really happening to the wave form at the output of the SEX amp. Note the rms voltage at the input and the at output of the SEX amp, where a sine wave coming from the speaker output loaded into 8 ohms just starts to flatten. That should be about 5-10% THD. Maintain that same signal level and run your distortion plot. Verify that you measure somewhere roughly around 5-10% THD. If that is OK then back down to about 1/10 the signal level and do it again and compare the plots. That way you can start to see what is happening as the THD due to signal overload goes up. There's more than one possible cause for distortion and if your baseline measurement at a low input signal has distortion that seems excessive there may be something else you need to address in the test setup or the amp construction before you can get a useful measurement.
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I think the problem here is you have no reliable point of reference yet. Do what PJ says, use the scope function to observe what is really happening to the wave form at the output of the SEX amp. Note the rms voltage at the input and the at output of the SEX amp, where a sine wave coming from the speaker output loaded into 8 ohms just starts to flatten. That should be about 5-10% THD. Maintain that same signal level and run your distortion plot. Verify that you measure somewhere roughly around 5-10% THD. If that is OK then back down to about 1/10 the signal level and do it again and compare the plots. That way you can start to see what is happening as the THD due to signal overload goes up.
Ok, I will try that.
I just fear that the input of the sound card will start clipping sooner, so I probably have to build a voltage divider from a few resistors or even directly use a pot.
There's more than one possible cause for distortion and if your baseline measurement at a low input signal has distortion that seems excessive there may be something else you need to address in the test setup or the amp construction before you can get a useful measurement.
Yes, that's what I'm actually interested in. I'm currently not as happy with my setup (S.E.X + Orcas) as I would have expected, but I'm not experienced enough to really tell what exactly I don't like about it. It could be an error in the construction, the room/placement, the missing bass (no sub), my personal taste or any combination of those. That's what I want to find out.
I hope it's something that is easy to fix, i.e. something in the amp.
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Ok, there's definitely something severely wrong with the amp. :-\
I've just listened to "Sand" by Nancy Sinatra and Lee Hazlewood and this strange thing happened:
I can barely hear his voice, while her voice is normally audible. So I switched to the internal speakers of the iMac and there, both voices are audible just fine. I already mentioned that I'm not quite satisfied with the sound, but I didn't hear such an extreme effect until now.
Now I'm totally unsure if the amp always sounded like that or if it got worse over time.
But I guess it means that I'm switching to the internal speakers now and don't use the S.E.X. until it's fixed. I hope I didn't cause any permanent damage by listening to it that often.
Besides the measurements that you already suggested, where should I start?
My voltages were all a bit high, but still in the tolerance.
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Are your speakers in phase?
Have you tried other speakers?
Have you listened to headphones on the SEX?
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I think I get this, but in my measurements above there's barely any load. The line-in has an input impedance of 27kΩ and a maximum input of 2dBV (~1.26Vrms). That means the means the maximum power taken from the amp without clipping in the ADC would be about 0.06 mW if my computations are correct.
So in that setup there should be no clipping, right?
You'll need to purchase an 8 Ohm L-pad to go with your test rig, or make up a reasonably high impedance 10:1 probe to give yourself some headroom.
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Are your speakers in phase?
Yes
Have you tried other speakers?
No, I don't have any.
Have you listened to headphones on the SEX?
I've got no serious headphones but I just tried some old iPhone earbuds and it sounds absolutely horrible. Completely distorted. Much worse than with the speakers.
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Ok, there we go.
I've made an L-pad with a 10Ω/4W pot and performed the measurements you suggested. I raised the volume until I got visible clipping on the oscilloscope.
Input voltage (after volume pot): 0.958VAC
Output voltage: 5.36VAC
Measurements are attached.
Is this a reasonable point of reference?
One question that was not answered yet and that makes me a bit nervous:
Is is normal that I can hear the sweep sound of the measurement from the amplifier itself?
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Yes, that is starting to look like it should. You can see that the troughs of the waves are squashing a bit on the scope trace which implies you are at about 10%THD, and that correlates to your graph. 2nd harmonic dominates, followed by third, which also makes sense. And yes, your transformer will sing.
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Ok, next measurement, 1/10 of the volume:
Input voltage: 0.095VAC
Output voltage: 0.58VAC
And two more measurements with input voltage 0.030VAC and 0.010VAC.
Those are starting to look like my initial measurements, i.e. odd harmonics are starting to dominate.
Is that still expected?
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The higher harmonic stuff is looking the same no matter what the volume setting is in these lower output level sweeps. They may not necessarily be generated in the amp, but could be inherent in the test setup. You would need to start playing with the setup to see if you can isolate where the distortion is coming from.
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The higher harmonic stuff is looking the same no matter what the volume setting is in these lower output level sweeps. They may not necessarily be generated in the amp, but could be inherent in the test setup. You would need to start playing with the setup to see if you can isolate where the distortion is coming from.
I doubt that it's something inherent in the test setup because if I take just the amplifier out of the loop, the picture looks completely different, i.e. almost no distortion (see my earlier post http://bottlehead.com/smf/index.php?topic=10046.msg93097#msg93097 (http://bottlehead.com/smf/index.php?topic=10046.msg93097#msg93097)).
I don't know what else I could change to find out the source of the distortion.
As I've written earlier, if I use my old iPhone earbuds (TRRS with mic), some tracks sound awfully distorted. I'm not calling myself audiophile, but it's so obvious that even I can hear it clearly. Sure, the phones are bad, but there's no such distortion if I plug them directly into the DAC (which has an internal headphone amp).
Curiously, the effect is not as noticeable with a different pair of (even older) earbuds.
I'd be thankful for any pointer where to search next.
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Is the distortion spectrum the same on both channels?
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My first measurements (without load) were about the same on both channels. The latest measurements with 10Ohm load are only on the right channel, but since the picture is similar to the first measurement I'd expect that they are also the same on both channels.
But I can repeat them on the left side if you think that this will help.
The good news ist, that I've "solved" the massive distortion with the iPhone earbuds. It's not a problem with the amplifier but with the jack. TRRS jack does not seem to match well with the 6.3/3.5mm adapter. If I pull out the jack a little bit and find the right spot, it sounds ok. I can only guess, but I think that there's no proper ground connection and it connects to the mic instead.
But that also means that I'm back to just numbers and measurements. They still seem to be quite odd (haha the pun) to me, but I've no more actual audible distortions to back this up. I just haven't enough experience to hear such things.
What do you think, would a measurement between the amp stages be meaningful?
OTOH you say that those numbers are normal and to be expected I might also just give up searching and accept it how it is.