Casella CEL CEL-414 User Manual

In some situations, impulsive noise is con-
sidered to be more of a problem than a
similar amount of energy delivered at a
steady rate. The noise rating formula
must be amended so that the time aver-
aged integral will be based on the im-
pulse weighted level, the result being
calculated from:

L

Alm

= 10log 1

T

∫

0

T

10

(0.1L

AI

)

dt

Where:

T

= measured duration,

L

AI

= A-weighted impulse

sound level.

With these sound level meters, exactly
the same method used to determine L

eq

will yield the alternative L

AIm

value when

the impulse time weighting has been se-
lected.

For steady state noise, then both L

eq

and

L

AIm

measurement methods give the

same answer, but the results will show a
growing divergance as the impulsive con-
tent of the signal increases.

Individual L

eq

(or L

AIm

) values may be

added together into a single cumulative
value using a relationship of the form:

10log 1

T

[

t

1

10

( 0.1L

eq1

)

+t

2

10

( 0.1L

eq2

)

+ ..... t

n

10

( 0.1L

eqn

)

]

Where:

L

eq1

= L

eq

value accumu-

lated in period t

1

,

t

1

= duration 1........etc,

T

= sum of durations.

When results are added together in this
way, the general instrument reset will be
found more useful, as it synchronizes the
L

eq

and duration measurements automat-

ically.

9.4Sound Exposure Level

(SEL or L

AE

)

The sound exposure level is a very con-
venient unit for the assessment of single
events. It allows a direct comparison of
energy levels to be made without the
need to take the different durations of
the events into consideration. It is de-
fined as follows:

SEL = 10log 1

t

ref

∫

(

t

1

t

2

P

P

0

)

2

dt

Where:

t

ref

= 1 second,

t

2

- t

1

= the duration of the

event in seconds

It will be seen that this formula bears a
close resemblance to that for L

eq

, and

can be re-written as:

L

eq

= SEL − 10log T

So that the sound exposure levels can be
produced by adding 10log (t

2

- t

1

) to the

L

eq

values calculated.

SEL = L

eq

+ 10log (t

2

−t

1

)

Individual SEL values may be added to-
gether using the relationship:

SEL

Tot

= 10log

[

10

( 0.1SEL

1

)

+ 10

( 0.1SEL

2

)

+ ..... 10

( 0.1SEL

n

)

]

Where:

SEL

1

= SEL value

accumulated in
period 1,....etc,

SEL

Tot

= total value.

The energy in the event may be related
to longer time spans to give an average
energy level L

eq

(T

e

) over a selected pe-

riod by using the relationship:

Page 40 - General CEL Sound Level Meters Handbook