Ashly Electronic Amplifier none User Manual

too

loud.

Typically,

high

frequency

speakers,

particularly

horn-loaded

compression

drivers,

are

much

more

efficient

than

low

frequency

speakers.

Somehow, the system needs to be balanced for equal response across the audio

spectrum.

One of the inherent advantages of the "ideal" single-speaker system is that

the listener hears the entire frequency range radiating from a single "point-
source".

That

is,

all

the

audio

information

leaves

the

speaker

from

essentially the same place and at the same time, ensuring that the listener
hears all frequencies in the correct time and spatial relation to each other.
As soon as the single speaker approach is abandoned, this important advantage
is lost. Now, the sound is coming from two or more speakers at two different

distances from the listener, and timing and phase errors are the result. See

figure 19.

Figure 19 A listener is unlikely to be equidistant froiri two

speakers

in

a

multi-speaker

setup,

resulting

in

time

and

phase

inaccuracies

at

the

listening

1ocation.

The resulting errors are most pronounced in that range of frequencies where

both speakers are contributing equal volume. In that case, you have the same
audio

information

radiating

from

two

discrete

sources

at

the

same

time.

Ideally, the two resulting wavefronts should combine perfectly to reach the

listener

at

the

same

time,

pushing

and

pulling

the

air

in

perfect

synchronization. What usually happens, however, is that the two wavefronts
reach the listener at different times and out of sync (out of phase). If the

two sound sources happen to be exactly 180® out of phase, then the listener
will experience a significant null (hole) in the sound over some range of

frequencies. If the listener then changes his position, all of the time and

phase

relationships

between

himself

and

the

speakers

will

change.

These

relationships

vary

with

frequency,

too.

In

general,

the

mòre

speakers

that

are used in a system, the more errors that will result. This remains true in
most current professional sound systems.

Although there aren't many good solutions to this latter problem of physical
misalignment in a multi speaker system, there are, at least, solutions to the

problems

of

tweeter

protection

and

sensitivity

matching.

By

employing

frequency selective crossover networks, we can route low frequency material to

woofers and high frequency material to tweeters. This is accomplished by the
use of filters, either passive or active, which ensure that each speaker will
only "hear" that range of frequencies which it is capable of reproducing.

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