Noise immunity – Polycom C16 User Manual

Design Guide for the Polycom SoundStructure C16, C12, C8, and SR12

B - 4

Directional microphones are most often used in conferencing systems due to

the rejection of the background noise, reduction of the reverberation, and the

rejection of the audio from the loudspeakers. Directional microphones also

increase the gain-before-feedback in sound reinforcement applications due to

the increased rejection of the loudspeaker signal when it is directed towards

the rear of the directional microphone.
As seen in the following figure, directional microphones typically have three

degrees of directionality - cardioid, super cardioid, and hypercardioid - each

with increasing directionality (that is, decreasing areas of pick-up). A

microphone with a cardioid pick up pattern will pick up signals within about

130 degrees of the front of the microphone, a supercardioid about 115 degrees,

and a hypercardioid about 105 degrees. From the following figure it is clear

that the supercardioid and hypercardioid microphones have a lobe in the rear

of the microphone that will pick up background noise more than the cardioid

microphone.
Shotgun microphones are even more directional that hypercardioid

microphones and attain this directionality by having the microphone element

in a tube with slots cut along the side. The signals from a narrow arrival angle

will reinforce constructively while those from off angle that travel farther will

cancel each other out, providing an extremely narrow pick up pattern.

Shotgun microphones are typically not used in conferencing due to the

extremely narrow pick-up pattern - should the local talker move out of the

narrow pick up pattern, their voice will be significantly attenuated. To the

remote listeners, it will sound like the local talker has faded out.

Noise Immunity

Cellular telephone systems often have transmit and receive frequencies in the

900 to 1800 MHz range. During normal operation of these cellular phones

there is regular communication with the closest cellular towers for status as

well as signaling incoming data and telephone calls. For some GSM style

phones this signaling occurs at the rate of one 576 µs pulse every 4.6 ms which

represents a 217 Hz signal. Often in conferencing applications, these cellular

telephones are placed on the conference table in close proximity to the local

microphones. Because these microphones often are not designed to be

immune to frequencies in the 900 MHz to 1800 MHz range, that the transmit

and receive signal can be easily coupled into the microphone where it is

rectified by microphone's electronics and combined with the local microphone