Regulated power supply for class A ?

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I'm just not seeing how it's relevant. Can you explain?

Do you care about channel separation?

A true balanced Class A has ideally constant current draw, so it won't modulate the voltage output of the power supply. With adequate decoupling and grounding you can have two channels from the same supply with very little interactions between the channels.

A two channel ordinary Class A amplifier from the same power supply is difference. The instantaneous power supply output voltage is modulated by the instantaneous current draw so there could be interactions between channels. This, of course, depends on the load, the output level, the circuit PSRR and the stiffness of the power supply.

It would be the best to have separate power supply. But if life wouldn't permit the luxury, then one must work carefully to minimize the pitfall.
 
This is just trying to be overly technical. In practical terms, the average current draw in Class A is constant and you will not see voltage sag.

Actually you will indeed on low frequencies, and in fact often you can see intermodulation products from it. This is one reason why some prefer huge filter caps, however this attention to the value of the cap i sseldomly extended to picking the right transformer for the situation!
 
............................the reasoning: class A draws steady current,.............
He gets it wrong.

Only Balanced Class A draws steady current! Ordinary Class A current changes according to the output waveform. ..............
He gets told he has it wrong.
This is just trying to be overly technical. In practical terms, the average current draw in Class A is constant and you will not see voltage sag.
Then you come in with this nonsense.
 
Thanks everyone for your comments, but I think my original question may have been ambiguous or misunderstood. Regardless if class A draws constant current or not ( take heed of Andrew T, he's the man ) what I really want to know is which sounds best, regulated, cap mult, or CLC or CRC. Can anyone speak from experiance. It's the sound I am concerned about.
Thanks
Alan
 
In theory, with a high PSRR design, a regulator is superfluous. Adding one for the input stages is a far less involved affair aind simply put, it keeps a lot of unwanted stuff off the power rails before PSRR even comes in as a consideration. However - there are relatively simple topologies that never the less work well but have relatively low PSRR and a regulated power supply, or, keeping it simpler - a capacitance multiplier - is of great help.
Keep in mind that you can only use the available power supply voltage up to the bottom of the ripple waveform, so if your cap multiplier or regulator regulates to a voltage just a bit below, the losses are minimal but the amp is not subjected to ripple + harmonics from the power supply, and it clips cleanly. Also, it's easier to add a protection mechanism in the power supply, especially for a simple amp, where it will be further from any interaction with the actual audio signal.

QFT.
Lot of good advice :)
 
Is there any issues of using a linear regular for the input stage and predriver and a capacitor multiple circuit for only the output stage? I suppose as long as the output stage collector voltage is higher than the predriver there won't be any issues of over driving the output stage.

Not at all.
You would get 90% of the performance of a regulated PSU for the output stage as well.
 
Thanks everyone for your comments, but I think my original question may have been ambiguous or misunderstood. Regardless if class A draws constant current or not ( take heed of Andrew T, he's the man ) what I really want to know is which sounds best, regulated, cap mult, or CLC or CRC. Can anyone speak from experiance. It's the sound I am concerned about.
Thanks
Alan

IME fully regulated and dual mono.
But I didnt compare all other options with the same amp, so YMMV. If you can afford the cost and complexity, why not?
SMPS has the potential for reaching the same performance of a linear regulated supply, as long as extreme care is taken in filtering HF noise at both ends. I really appreciated qusp input in this thread :)
 
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