Casella CEL CEL-281 User Manual

Both terms are in common use, but the most recent international stand-
ards specify sound exposure.

The value of sound exposure measured (E

A

) is normally defined as the

product of exposure time and the amount of A-weighted energy con-
tained in the sound. A similar relationship (E

C

) can be defined for expo-

sure to C-weighted sound energy.

Sound Energy is proportional to the square of sound pressure and has
the units Pascal-squared (Pa

2

), so that the units of sound exposure be-

come Pascal-squared seconds (as stipulated by the ISO Standard). How-
ever, Pascal-squared hours (Pa

2

h) are normally used in order to

obtain more manageable numbers (IEC Standard).

Therefore Sound Exposure E

A

can be defined as follows:

E

A

=

∫

t

1

t

2

P

A

2

(t).dt

Where:

t

1

=

Integration start time (hours),

t

2

=

Integration end time (hours),

P

A

=

Instantaneous A-weighted sound
pressure (Pa).

In the CEL-281, sound exposure is calculated and stored in Pa

2

h, while

sound levels are expressed in dB.

A sound exposure value of 1 Pa

2

h is equivalent to a continuous sound

level of approximately 85 dB(A) for eight hours (see Figure 1), while a
sound exposure value of 3.2 Pa

2

h is exactly equivalent to a continuous

sound level of 90 dB(A) for eight hours.

Recent European noise exposure legislation mentions three action levels
(which are also shown in Figure 1).

CEL-281 Operator's Handbook - Page 17

_Introduction