Why does applying a
high-pass filter to a sound sometimes result in the output being
noticeably higher than it was before? Today I have been working on a
sound that peaks at 0dBFS. It has a lot of low-frequency content. I am
applying a high-pass filter at around 100Hz and the output from the EQ
is peaking at around +4dBFS. Why should this happen? Most of the power
in this sound is in the low frequencies, and it has little going on
above 2kHz, so surely with the high-pass filter most of the energy from
the sound has gone!
Via SOS web site
SOS
Technical Editor Hugh Robjohns replies:
This is a very common effect
and there are several possible reasons for it. Fundamentally, the
filtering process changes the shape of the waveform, so although there
may be less total energy in the signal, the peak amplitude may well
increase.
If you think about a bunch of
different-frequency tones all playing at the same time, their phase
relationships vary continuously and add to or cancel each other to
create the total waveform. Remove some of those tones and some of those
cancellations won’t occur. That can result in the waveform becoming
bigger.
There
are various reasons why using a high-pass filter on a signal can make
it sound louder. Some equalisers, for example, actually boost the region
just above the turnover frequency, which can produce an increase in
peak level.
Most equalisers also introduce significant
phase shifts and that, again, will change the way different frequencies
combine and cancel. It can also happen because some equalisers actually
boost the region just above the turnover point below which they are
attenuating, potentially increasing peak level. 0
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