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Boundary microphones, Critical distance – Polycom C16 User Manual

Page 467

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Designing Audio Conferencing Systems

B - 5

audio signal. When this happens, a noticeable beeping or chipping sound that

sounds modulated such as if it were Morse code, will be heard at the remote

locations.
If this problem is present, the solutions are to move cellular telephones away

from the microphones, turn off cellular telephones, or to use microphones that

have improved noise immunity to these high frequencies. Many

manufacturers are now producing microphones with improved noise

immunity.

Boundary Microphones

Boundary microphones use the surface the microphone is installed on and the

proximity of the microphone element to the boundary surface to minimize the

amount of phase cancellation that occurs when audio strikes the boundary.

The resulting microphone configuration has a higher sensitivity. The pick-up

pattern of the microphone will become half-spherical as the sounds below the

boundary are not picked up. For instance if an omni-directional microphone

is placed on a boundary, the pattern becomes semi-spherical. A cardioid

microphone placed on a boundary will become a semi-cardioid pattern with

the sound below the boundary not picked up by the microphone.

Critical Distance

For every audio source in a room there is a distance from that source, called

the critical distance, where the reverberant sound field and the direct sound

field from the source are equal in intensity. If a microphone is placed farther

than the critical distance away from the source, typically a local talker, the

resulting speech quality will be considered very poor - characterized by a

bottom-of-the-barrel or muffled sound. The critical distance is a function of

both the physical distance from the local talker to the microphone, the

directionality of the source, and the liveliness of the acoustics in the room.

More reverberant rooms will have a shorter critical distance which

underscores the requirement to place microphones as close to the talkers as

possible. Increasing the gain on a microphone will not help reduce the critical

distance as the reverberation and noise will be amplified along with the local

talker's voice when the gain is increased.
The critical distance can be measured with an SPL meter and noise source.

When the measured sound level doesn't drop by 4 to 6 dB for each doubling of

the distance, the critical distance of the microphone from the noise source has

been reached.
As a rule of thumb, for omni-directional microphones, the microphone should

be no farther than 30% of the critical distance away from the talker. A

directional microphone should be placed no farther than 50% of the critical

distance.
If due to architectural constraints, or room usage requirements, the

microphones must be placed farther than 50% of the critical distance (for

instance with ceiling microphone installations), the users must either accept

the resulting speech quality or increase the effective critical distance by

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