Nevertheless an active amplifier works as specified with input impedance as stated when powered up - I am not sure what happens to the input buffering on all amps when switched off - probably most remain high impedance but that is not a given hence my warning that amps are designed to be used when switched on.Well said, Shadorne. It may or may not be an issue from a sonic standpoint depending on the specific designs that are involved.
Also, generally speaking I'd expect that the uncontrolled and unpredictable variations in input impedance that may occur in some unpowered components would be more likely to be an issue in the case of solid state designs than in the case of tube designs, particularly if bipolar transistors are used rather than FETs. Also, it's very conceivable that in many such designs the unpowered input impedance could even vary significantly as a function of signal level, which would increase the likelihood of adverse sonic effects on the signal path that is being used. But where the active device itself has a very high input impedance even when not powered, an example being the grid of a tube, the input impedance of the unpowered circuit would usually be determined essentially by resistors. And in those cases it would presumably be little different in the powered and unpowered states.
That possibility of uncontrolled and possibly varying input impedance in some unpowered components is the main reason, BTW and IMO, that having an unpowered component connected to the signal path might in some cases have adverse effects on sonics, that wouldn't occur if the component was powered up. Not the alleged phenomenon that was referred to earlier involving "out of phase backflow current." Simple calculations will show that for cable lengths that are typically used in a home audio system energy reflected back from a destination component to the component supplying the signal will arrive at the component supplying the signal with a phase delay in the vicinity of 0.2 degrees at 20,000 Hz, and with vastly smaller delays than even that at mid-range and bass frequencies. Not to mention that reflection effects will be essentially non-existent at frequencies below RF.
Best regards,
-- Al