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Amplitude of Combined Signals
If a signal has a peak or RMS amplitude (in some fixed window), then
the scaled signal (where ) has amplitude . The
RMS power of the scaled signal changes by a factor of . The situation gets
more complicated when two different signals are added together; just knowing
the amplitudes of the two does not suffice to know the amplitude of the sum.
The two amplitude measures do at least obey triangle inequalities; for any
two signals and ,
If we fix a window from to as usual, we can write out the
mean power of the sum of two signals:
MEAN POWER OF THE SUM OF TWO SIGNALS
where we have introduced the correlation of two signals:
CORRELATION
The correlation may be positive, zero, or negative. Over a sufficiently large
window, the correlation of two sinusoids with different frequencies is
negligible. In general, for two uncorrelated signals, the power of the
sum is the sum of the powers:
POWER RULE FOR UNCORRELATED SIGNALS
Put in terms of amplitude, this becomes:
This is the familiar Pythagorean relation. So uncorrelated signals can be
thought of as vectors at right angles to each other; positively correlated ones
as having an acute angle between them, and negatively correlated as having an
obtuse angle between them.
For example, if we have two uncorrelated signals both with RMS amplitude ,
the sum will have RMS amplitude . On the other hand if the two
signals happen to be equal--the most correlated possible--the sum will have
amplitude , which is the maximum allowed by the triangle inequality.
Next: Units of Amplitude
Up: Acoustics of digital audio
Previous: Measures of Amplitude
Contents
Index
Miller Puckette
2005-04-01