The problem is that there is a power supply instability in the preamp. The output coupling cap, when driving a 100K load, represented a frequency pole that was lower than the frequency pole in the preamp's power supply.
The result is low frequency instability. With many amps this may not manifest with anything, especially if the amp does not have good LF bandwidth, but I think the interaction occurred due to the fact that you do have enough bandwidth in the amp and the power of the amplifier was able to mess with the AC line voltage, which in turn exacerbated the LF instability of the preamp.
So lowering the input impedance of the amplifier solved the problem by knocking off an octave of LF bandwidth.
IMO/IME there are much better ways to solve this problem. The power supply of the preamp needs to be either repaired, redesigned or perhaps regulated, depending on why it has the instability. Also, the cathode follower output of the preamp does not *have* to have a 10K load; that is probably the minimum impedance that it can drive properly. 100K should have been no problem at all, save for the fact that it revealed a malfunction of design problem in the preamp.
However, even if the power supply is regulated, it may not amount to much if the coupling caps in the preamp are incorrectly chosen. Rather than change the input impedance of the amp (which should be almost irrelevant) it would be better if you got to the bottom of this as it will ultimately sound better. Send the preamp back to Kara- I am sure she will get it sorted out.
The result is low frequency instability. With many amps this may not manifest with anything, especially if the amp does not have good LF bandwidth, but I think the interaction occurred due to the fact that you do have enough bandwidth in the amp and the power of the amplifier was able to mess with the AC line voltage, which in turn exacerbated the LF instability of the preamp.
So lowering the input impedance of the amplifier solved the problem by knocking off an octave of LF bandwidth.
IMO/IME there are much better ways to solve this problem. The power supply of the preamp needs to be either repaired, redesigned or perhaps regulated, depending on why it has the instability. Also, the cathode follower output of the preamp does not *have* to have a 10K load; that is probably the minimum impedance that it can drive properly. 100K should have been no problem at all, save for the fact that it revealed a malfunction of design problem in the preamp.
However, even if the power supply is regulated, it may not amount to much if the coupling caps in the preamp are incorrectly chosen. Rather than change the input impedance of the amp (which should be almost irrelevant) it would be better if you got to the bottom of this as it will ultimately sound better. Send the preamp back to Kara- I am sure she will get it sorted out.
