How can this be when the turning on and off of output transistors at a rapid rate in Class D amplifiers produces high frequency noise which must be filtered out? There is no such thing as instantaneous switching.
I tried a Class D amplifier the last time my Colosseum was in for repairs and I hated the thing. It sounded harsh and gritty to me. Granted, it was a $1-2k Class D amplifier. I sold the Glass D amplifier as soon as my Colosseum came back to me.
@larrykell I get that- there is tremendous variance in the sound and technology of class D amps- if you heard the wrong one it can be a big turn off!
How the amp can be immune to crossover distortion has to do with how the audio signal is extracted from the switching of the amp. The output devices turn on and off for differing amounts of time depending on the slope (how steep it is, whether its going up or down) of the incoming audio signal.
This type of analog encoding is called Pulse Width Modulation.
When the switching frequency is filtered out, the audio signal is what remains; there’s no way to generate crossover distortion, inherent in the design. This is a considerably different approach as opposed to traditional Push Pull amplifiers where the output devices have to follow the signal (which is why they can be prone to this problem) in order for it to be amplified.
(Apparently it is possible to build a class D amp that has no output filter; if such an amp were built it could have a problem with crossover distortion. But I know of no such commercially available amp- all I’ve ever seen use output filters.)
Regarding noise, if the class D is designed properly the amount of noise it makes on account of its switching can be less than many tube or solid state amplifiers. They can also have considerably less noise floor in the loudspeakers, making them suitable for driving horn speakers.