Bandwidth Limitations Of Class D Amps??


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Audiogon member Kijanki said :
Some people argue that class D, as good as it is for the money, cannot really compete with best traditional SS amp. I can see that, especially with still limited bandwidth...
What are the bandwidth limitations of class D amps, and is it audible?
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128x128mitch4t
Mitch,

* Certain legacy class D amps, for example the ones based on ICEpower modules, tend to take an excruciating amount of time to break in... Sometimes more than 1200 hours. Until they are stabilized, both bottom ends and treble ends can sound foreshortened, wooden, or even harsh.

* After break in, I have experienced some legacy class D amps to become very musical, while others have remained wooden or "matter of fact". The frequency extension and musicality of the final result may have to do with the details of the amplifier design, such as power regulation, and input isolation, and some amplifier designers may have been more successful than others in working around the idiosyncrasies of the now legacy ICEpower technology.

* The new generation of class D modules may constitute substantial engineering departures from their predecessors, and there is no evidence yet that they suffer of inherent bandwidth limitations.

G.
Mitch4t,
any date for that Kijanki's post?
Because he seems to be using a Rowland 102 - class-D - power amplifier himself these days!

I cannot see why a class-D would have any inherent bandwidth limitations. If the class-D amp is correctly designed for 20-20KHz bandwidth I cannot see why, with today's level of technology - why it would be bandwidth limited....
If you look at Stereophile published bench measurements for Class D switching amps (say Bel Canto ref1000m for example) versus traditional class A/B (non switching amps), I think you'll see examples of what Kijanki referred to.

I would expect the switching frequency used/possible given the current state of the technology to be the technical limitation with switching amps. With current technology, effects appear to be measurable within upper limits of human hearing, ie 20Khz.

All amps have limitations. But with non-switching amps, the limitations are due to other design factors. Still, I believe many are capable of measuring flatter to well beyond 20Khz.

Of course what is measured may or may not be an indication of what is actually heard, especially when it relates to the extremes of what humans are able to hear. The upper limits of what humans can hear is probably still the weak point for Class D switching amps. How weak or how much it matters is debatable I suppose, much like what is the effects of CD redbook sampling parameters. Newer CLass D amps using newer technology might push switching frequency up higher than what was possible even just a few years ago. Have not seen measurements on those yet so not sure if the is the case (yet).

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Bombaywalla, Kijanki's post was a couple of days ago on 3-15-13. His entire post is below:
03-15-13: Kijanki
Some people argue that class D, as good as it is for the money, cannot really compete with best traditional SS amp. I can see that, especially with still limited bandwidth, but most of the weight is in the power supply that can be definitely class D (SMPS) since it is only holding steady voltage (much easier task than driving complex load with music signal). Rowland does it so why not the others? I think it is for three reasons:

1. Design itself is much more difficult than just
transformer+rectifier+capacitors
2. SMPS have bad rap from crude cheap computer applications
3. Audiophiles still believe that it has to be heavy to
sound good.

Third point is very important - why to design complicated light power supply when market believes that heavy=quality.
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