Because voltage only tells you part of the story. You need the impedance and voltage to calculate power. Here is a typical tweeter. The resonance at 500Hz is mechanical. The rising impedance as frequency increases is the inductance of the voice coil, which has impedance give by:
Impedance = DCR + 2πfL
DCR = 4.6Ω
L = 0.05mH
f = frequency (Hz)
View attachment 373195
The left graph is the spec sheet parameters, with the rising impedance due to voice coil inductance (0.05mH). The right hand graph is what the impedance would look like of the tweeter if the measurement was extended to 1MHz, and there were no additional sources of parasitic inductance. Reality will be even higher impedance than my simulation.
The tweeter is made by Seas.
The claim from Benchmark engineering:
"Class-D out-of-band noise and distortion (above 20 kHz)
may interact with the non-linearities of tweeters. This
can produce intermodulation distortion (IMD) which
can produce noise and distortion at audible frequencies (well below 20 kHz).
Ultrasonic noise and distortion
can also create voice coil heating and this
can reduce the sensitivity of the tweeter. In severe cases, this
could damage a tweeter."
The claim is predicated on multiple layers of
maybe. Indeed it
may happen if someone invents a magical tweeter with negligible inductance. I think Benchmark knows this very well, the statement doesn't even need measurements to debunk, it fails freshman physics as understood since the 19th century.
edit: typo