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Hi everyone, Dennis Foley from acoustic fields. Today we are going to talk about reverberation.
It is a widely used term, but I believe kind of misunderstood a little bit. It is applied
to small rooms when really it is a large room phenomenon, but that said, we can use it in
small rooms for guideline. Today we are going to talk about reverberation and large room
applications. Why it is really important. We are going to talk about the defining, the
rat 60 time, how you arrive at the rat 60 time and what it is all about, what it actually
involves, and then the measurement procedure itself, there's some dos and don'ts in measuring
and we see a lot of errors in this, so we will talk about those. And then in small rooms
what its application is and some guidelines that can help us out a little bit.
Back to our discussion on reverberation. Let us talk about reverberation as a large room
phenomena. What do we really have occurring in reverberation. We have a series of reflections
off the wall surfaces our stage and our seating area is a broad based area, there's a lot
of surface area here, so we have multiple reflections off the wall surfaces. So our
goal with reverberation is to try to get an equal distribution of all the energy within
a big room. Uniformly spread across the seating area. So reverberation is mainly a large room
phenomena, and it is frequency depending. At all frequencies we want all sound to sound
the same. So you know when you've been to large room auditoriums you have certain seats
that are good visually and certain seats that are good acoustically, the goal is trying
to find a balance there. As engineers, what large room acoustic people try to do is get
a uniform chambray or reverberation coverage in all these seated areas in a large room
situation. So let us look into definition of reverberation. Really it is pressure decay
rate. It is a way of figuring once you interject pressure into the room, how long does it take
in a time domain for that energy to drop 60 db. And that'll give you a rate, an rat rate
at frequencies and octave bands. So it is a decay rate. It is a measure if you will
in more common language of how live or how hot the room is.
So it is a time interval for the pressure to drop at least 60 db. And then we measure
it in each frequency and each octave band. So we introduce pressure into the room, shut
the energy source off, and do our measurements. Let us talk about the measurement of reverberation,
this is an issue that's tricky in small rooms. Because we usually have a left and a right
channel, a 2 channel system producing energy into the room. What does that do, it causes
lots of reflections off the boundary surfaces. So are we really getting an accurate reverberation
time in the room with this kind of setup. A better approach would be to energize the
room in the so called center part of the room, spread the energy out more evenly in the room,
and then you get a more accurate decay rate if you will at certain frequencies and certain
octave bands. So this is I think where some of the confusion lies because reverberation
is really a large room phenomena, but we do use it in small room measurements. Some people
say if it can be measured it has to be important. Well, maybe but it is really a large room
phenomena and it is applied to small rooms and I thin that's where people need to have
the understanding. In order to take an accurate reverberation time reading, we need to energize
the room equally so if we put our sound source or energy source in the middle of the room,
and radiate out, we get a more even energy distribution in the room, and thus a more
even rat 60 time. Let us talk about a little bit about the applicably
of rat 60 times in small rooms. Well, we have all head the expression, too dead, too live
as it pertains to reverberation times in room. So reverberation time does have some applicability
in small rooms even though it is a large room phenomena. When we use the term too dead,
that really means that our reverberation times in the room are less than 2 tenths of a second,
that's a general guideline that we use in small room acoustics. If it is greater than
.5 seconds, then it is a little too lively, or too hot sometimes is the expression, so
the normal range is you know, somewhere between 0.2 and 0.5 seconds of reverb time in your
small room environment for music. And that's usually the objective we're after here. We
did some large room measurements in a cathedral and it had 100 foot high ceilings and 200
foot walls and we had a 6 second reverberation time in some of the lower frequencies so you
could see it is a wide range of delays here that we are discussing but in most of our
listening rooms that we use for music we try to keep it between 0.2 and 0.5 seconds. A
lot of variability between those 2 numbers and everybody's tastes are a little different.
Some people like the fact that it is a little more lively, in critical listening rooms it
is a little more dead, thus where the term live and dead concept came out of. Depends
on usage and your personal choices. What reverberation times that you prefer but in small room acoustics
we like the 0.2 to 0.5 second range.