5% THD to .000 THD SOUND


I was searching the amplifiers available and noticed quite a big difference in THD specs from model to model. Example.. One of the best amplifiers Kondo Audio Note $150k Kagura has 5% THD and by reviewers definition sounds like an amazing amplifier. Now compare $ 30k  Devialet with the lowest 0.000% THD on the planet. Both at the opposite end of design yet both sound amazing.. according to reviewers, I havn t heard either. SN/R  133 by Devialet and a lot less by Kagura. I realize an amplifiers sound can t be based by Specs alone.  If the specifications are not that important to the sound, why list them? They must be a way of determining sound, quality, and system synergy of an amplifier? A whole lot of amplifiers purchased on the net haven t been heard before and I believe the decision to purchase is made by reviewers point of view, specifications and word of mouth of other owners and buyers pocket book. By looking at specs of Devialet and NOT knowing the prices of Kagura and Devialet I would of gone with the Devialet just based on specs alone for the impression of it being a  great sounding amplifier.  Ive read other discussions on forum and cant quite get a handle on why BOTH amplifiers sound great. I thought High THD was a bad thing..
derrickengineer
Interestingly, though, their Overture integrated amp, which is a push-pull EL34 design, has its max power spec based on 1% THD. Just guessing, but perhaps their thinking is that differences in how THD is distributed among the various harmonics when the two kinds of designs

Well, marketing does get into it, too.  A SET amp, particularly one with no or low global feedback, won't have too much better distortion just below the power used to spec the 5%, while distortion of another amp likely will quickly get lower at lower powers.  So, quoting at a lower power won't markedly reduce the distortion figure for the SET, but can reduce it a LOT for feedback class AB amps, and of course that looks better to a customer having only a data sheet to look at.

At the 20dB or so power leve below clipping either amp is used on average at, though, the distortion produced is likely to be low enough to not matter in either case (Geddes did some research showing that for lower order distortions - which pretty much all amps do before clipping - people are just not very able to hear it; other factors are much more audible).

At very low levels, though, a badly biased class AB amp (or one for which the bias doesn't track thermal well) can have quite a bit of distortion relative to the output level due to crossover effects.  And crossover distortion (not speaker crossover -- class AB switchover distortion) is very high order and can be heard.  Class A amplifiers won't do that at low level,  (And, by the way, neither will class D amps.... its a class AB thing).




Thanks once again, Bwaslo.  And thanks Charles & Derrick for the nice comments.  For the record, the Kagura uses 3 db of feedback, which while of course not being an insignificant amount is much less than what is employed in many other designs, tube-based as well as solid state.  From its description:
Kagura’s pure silver coiled output transformer handles output impedances of 4, 8 and 16Ω. By selecting positions at the speaker impedance switch and change relevant jumper plates, speaker impedance switchover is done with NFB level always set to our designed level –3dB.
Best regards,
-- Al
 
This is a complex topic. But if you understand how the ear works it gets easier. So let's start there.

Here are the human hearing/perceptual rules that are most important regarding this topic. There are three. They are:

1) the human ear/brain system used higher ordered harmonics to determine sound pressure
2) Nearly all forms of distortion (harmonic, IM and inharmonic) are translated by the ear/brain system into tonality
3) The ear/brain system has a complex series of tipping points; one of them being that it can easily favor tonality caused by distortion over actual frequency response variation.

The implications are immense. Now the other important thing to understand is that most of what we know about human hearing physiology has occurred in the last 40-50 years.  

Our test and measurement regime OTOH is based on hearing knowledge dating from about 1960 and ignores most of the research of the last 60 years.

So finally we can discuss distortion in amps. It should be obvious now that distortion is far more audible than the older textbooks might have you understand. The lower ordered harmonics contribute to 'richness', 'warmth', 'bloom' and similar audiophile comments. The higher ordered harmonics (in trace amounts due to the 1st rule above) contribute to 'brightness', 'hardness', 'brittleness' and similar audiophile comments. 

Usually loop negative feedback is used to reduce distortion in amplifiers and also has the secondary aspect of controlling output impedance. The primary reason for using it is to guarantee flat frequency response on a variable speaker load (the effects of rule two are ignored). This concept was developed by MacIntosh and EV in the last 1950s and early 1960s. By 1975 this idea had dominated the industry. I call it the Voltage Paradigm as the amplifier has to behave as a voltage source in order for this to work.  The prior art is known as the Power Paradigm and is still in limited use today (SETs, horns, planar speakers and generally tube amps with little or no feedback are examples).

The problem is feedback is known to not only suppress lower ordered harmonics but the price paid is higher orders are added, in many cases clear out to the 81st (ref.: Norman Crowhurst). In addition, intermodulations can occur at the feedback node, generating IM and inharmonic distortions (IM and inharmonic distortion are sometimes the same thing, sometimes not- both contribute to brightness).

Amplifiers that are linear enough to operate without loop feedback often do not contain much in the way of higher ordered harmonics. SETs (up to about 20% of full power) are a good example, although they do seem to represent a special circumstance worthy of their own thread). If feedback is applied, the higher orders will be present even at lower power levels (and in an SET the distortion is often unmeasurable at lower power levels).

The second harmonic often attributed to tubes is not something inherent in tubes (transistors actually make more). It is really more a function of the topology of the circuit. You can avoid the second harmonic by building an entirely differential/push/pull circuit and this is how most transistor amps avoid it. This can be done with tubes as well.

The ear does not care too much about the lower orders (2nd 3rd and 4th) but it seems to care a lot about the higher orders (5th and above). Its been known since the 1930s that the 7th contributes to a metallic quality in the sound, even in small amounts. So you can have a fair amount of distortion (5% at full power) and if its all lower ordered harmonics the amp might sound just fine. OTOH 0.01% of only higher orders is going to come off more likely as a bright amplifier. This is why two amps on the bench can have the same bandwidth but one might sound bright and other not.

IM distortion, unlike THD can be objectionable even in small amounts. This is also true of inharmonic distortion (an example of that might be intermodulations associated with a scan frequency, which might occur in a digital system, a SMPS or a class D application, although the latter two seem to be fairly sorted out now as opposed to 20 years ago!).

Now if its not obvious by now, since the understanding of how the ear/brain system works is pretty well ignored by the audio industry, the result is that the spec sheets often wind up being a good example of the Emperor's New Clothes. IOW they make the amp look good on paper but lacking a correlation in sonic performance.

It is the contention of the Power Paradigm proponents that the tonalities generated by distortion often play a bigger and more objectionable role than do actual frequency response errors, which can be managed by careful amplifier/loudspeaker matching.

The tube/transistor debate seems to revolve around the aspects of this conversation. The bottom line is that there really isn't a simple answer and for that reason audition is often the best solution.  If you find that you have a preference (for example, many people like tubes, which is why this so-called 'obsolete' technology is still around half a century after being declared so; obviously the market wants them for some reason and so is keeping the tube industry in the black) then you will also find that certain speakers favor certain amplifiers and thus equipment matching is simply an issue that can't be ignored. There is no one amplifier, tube, solid state or Class D, that can play well with all speakers. For more information see:

http://www.atma-sphere.com/Resources/Paradigms_in_Amplifier_Design.php

In the end, you alone will have to sort out how to approach the issue of creating a system that is at once musical and neutral.
Atmasphere, I'd like your opinion on Bruno Putzey's latest class D amp design philosophy.  I've read that he once held the same view as you do regarding negative feedback producing random upper order harmonics, but he's now broke with that orthodoxy.  First, he claims that negative feedback needs to be evenly applied across the frequency spectrum and not disproportionately at lower frequencies.  Second, Putzey claims that as you apply more and more negative feedback the odd harmonics disappear and distortion levels are low and smooth.  I believe he is talking about 40 to 60 dB loop gain.  Here's a link to Putzey's Kaluga amp's measurements.

What you've written makes a lot of sense to me about why some amplifiers sound the way they do, but Putzey seems to be going in an opposite direction and his designs are said to be aurally excellent.
Ralph,
I’d say that your description of the sound of amplifiers correlates very well to my own listening experiences over the years. I’d also be interested in your reply to Onhwy61's inquiry. I’ve heard the Putney amplifiers twice (under show conditions) and was underwhelmed. It could be due to the show environment but there were other rooms at the show that had wonderful sound so who knows,
Charles,