Will changing gain affect frequency response?


NOT talking about increasing the volume at the listening position by turning the volume up...

Rather, with volume kept more or less constant at the listening position, is there some technical reason for things sounding a bit brighter when the pre-amp's gain setting is increased from -10 db to 0 db (again, volume adjusted downward, accordingly) OR is it my imagination?

Think I've encountered this with my pre-amp and most recently by altering the gain setting on my phono pre-amp.  Increasing the gain by moving the jumper to the highest position seems like it opened up the sound from the Grado cart I run.  

Hence the question...will changing gain affect frequency response? 

Thanks in advance.


128x128ghosthouse
Well, I'm in no way arguing F-M. Of course, they are old, and may need updating, but the principle has been around and used for a long time. :)

Best,

Erik
Hello again, Erik.  Thanks for your time considering this.  I'm not arguing the F/M curves either....more a case of not sure they explain what I think I hear when gain is increased but volume reset to the original level.  

Ghosthouse, yes, you're right that the Fletcher-Munson Effect will not cause a change in perceived tonal balance if the volume at the listener's ears remains constant.

Regarding your original question, yes it does seem conceivable that changing how the overall system gain is distributed among the various circuit stages that are in the signal path could affect perceived brightness.  Although without knowing the details of each of the designs that are involved a more specific explanation would be speculative at best. 

For example, Atmasphere has pointed out in a number of past threads that very small amounts of certain harmonic distortion components (e.g. the 5th, 7th, and 9th harmonics) can affect perceived brightness.  Changing the signal levels that are processed by the various gain stages that are involved could conceivably affect the degree to which those distortion components are generated.  Erik mentioned another example, which is that impedances might change, depending on the specific designs.  If the output impedance of a component were to change significantly, and is relatively high, its interaction with cable capacitance could affect treble response to a perceivable degree.  And it seems conceivable that changes in impedance at internal circuit points could also affect the treble, depending on the specific designs. 

Best regards,
-- Al
 
Thanks, Al.  Does sound like there are few possible hardware-based explanations for what I thought I heard.  
Seems I missed(spaced) the part where you brought the volume back down, at the listening position.    Kinda obviates Fletcher-Munson from the conversation(sorry).