I like OPR's redirection to design a test, but I wanted to address this. I mentioned 25kHz, not 25Hz.
Capsules are NOT linear.
There are very different senses of "linear" that are relevant to this discussion.
It sounds like what you're saying is that capsules'
frequency response is not flat, which is a very different thing from whether it's "linear" in the sense of a "linear, time-invariant" (LTI) system, which has a lot to do with what kinds of distortion you should expect or be surprised by.
I agree that condenser capsules' frequency response is not flat. The argument I was making doesn't depend on their being absolutely flat, just that they don't have a big bass boost.
And as I understand it, K67-type capsules generally do have pretty flat frequency response across the midrange and into the bass, with a rolloff below that. They are not more efficient in the bass, or not much more, than they are in the midrange where they're typically pretty flat.
I misunderstood what you were saying about 25
KHz sensitivity, but for the argument I'm making, what's going on above a few KHz is irrelevant, and what's happening at much lower frequencies like 25 Hz (not KHz)
is relevant to the high-pass filtering were' talking about
The argument is just that K67 type capsule is a far less efficient transducer than an SM57 capsule across the midrange, therefore not a very efficient transducer there, and it's not a lot more efficient in the bass, so it's not an efficient transducer in the bass either.
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Beyond that, my impression is that a good condenser capsule is generally pretty close to a
linear, time-invariant system, within broad bounds, when it's not near its noise floor or very close to its maximum SPL.
One consequence of that is if you play two different signals A & B through the capsule at different times, and add the outputs later, the result is much the same as if you add the two input signals together, and play the combined A + B signal through the capsule once, and capture the output from that combined input signal.
That doesn't depend on the frequency response being flat, but it does depend on the frequency response being well-defined and consistent, for example boosting A and B by 6 dB around 10KHz separately, or boosting the combined A + B signal in the same place by the same amount.
Of course that will not be true for signals approaching the maximum SPL. The capsule might not distort significantly on A or B, if they are below that threshold, but may distort on the combined signal A + B, if adding them together puts the volume of the signal over the threshold of distortion.
