I was away for three days, though not by choice having been locked out for " trolling" on this thread. Not sure if I did that... but my incessant use of Central American revolutionary rhetoric was intended to make a very specific point: The stupidity of blind acceptance, particularly when it is based on political or commercial interest.
Maybe this point was too subtle to be recognized for what it was.
You seem to be relying heavily on the single EE article, which was published 13 years ago.
Even if we accept the opinions of the article as accurate, given the consensus, including from you, that the tech "will improve"; hasn't it?
The movement over the last 10 years of even many prestige brands to class D and its derivatives like class H would seem to indicate a market full of competent engineers that have come to that conclusion.
As for fidelity... faithful to what? A THX theater is using class D (or a variant). They all are and have been for a long time. A home theater is intended to match the non-home theater. Concerts have been Class D for a long time as well. How shall we reproduce a concert.
I've not heard the concerns being described play out in production units I've listened to in the last decade. Perhaps I don't know what I should be listening for to identify it (and by extension, cannot tell you it does or does not effect my listening enjoyment); and I'm well aware of the concerns over older class D amps (though to what extent they were in audibility, I don't know, I wasn't using them at the time),but of practical issues, I've seen little to nothing.
I used a 13 year old article from a professional engineering journal to make another point, perhaps one where the message was lost in its subtlety.
Class D amplification started in the late 1950s. At that time, the central design goal was to solve a specific problem: power efficiency. It was successful due to a great deal of focus by talented engineers.
Like many engineering endeavours, it solved one problem (power) but creating others (TIM, switching noise, non-linearity). This was hardly important to 90% of the engineering effort because they were focused on electrical efficiency. This electrical efficiency reduced heat, which reduced heat sink mass and volume, which reduced weight and physical size on a watt-per-watt basis.
This saved money in materials, shipping, electricity, air conditioning, is why they're great for so many applications where such things are important, including theatres (cost of power, aircon),live music (power, weight),and mobile devices (power, weight, size).
The reason why I used a 13 year old article was to demonstrate a very important point: The problem had not been solved after 45 years of development.
There's a very good reason for this: The problems of non linearity and certain kinds of distortion are *inherent* to the design of Class D topologies (a point made in the article). Just as certain problems and their sonic effects are inherent to the nature of Class A (power inefficiency, heat, low order distortion) and Class AB amplifiers (crossover noise and power inefficiency).
I'd be a little less sceptical of Class D amps if manufacturers of such devices included specs on linearity, TIM, induced noise from smps etc. But they very often don't.
I'm not sure whether they solved these inherent problems so long ago that they no longer matter -or- they simply don't want to talk about them because they've yet to address them. I suspect the latter because many of those same companies continue quote specifications that matter for their Class A and/or AB products (when/if they produce them).
This view on the limitations of Class D topologies may/may not apply to all such amps out there. I do, however, adopt a certain scepticism when people dismiss inherent design issues that weren't resolved after 45 years of trying... especially when audio component manufacturers don't appear to address them in their product specs. Until they do, I'm not confident that the problems inherent to Class D amplifiers have been resolved to the level needed to outperform AB amps in sonic quality.
This is obviously a very broad generalization and does not mean that a very expensive Class D cannot beat a very inexpensive AB. But dollar for dollar, I still believe that AB is superior in most areas other than power efficiency, heat, and packaging potential until proven otherwise.
So while my use of revolutionary rhetoric didn't make anyone here want to become a Sandanista, others' unsubstantiated assertions that all of the problems inherent to Class D topologies have been resolved isn't going to make anyone switch over (pun intended). In some cases, brick wall filters may help, but that only touches on one of several issues affecting Class D design.
