Loudspeakers - how much power is required, Spatial directionality – Polycom C16 User Manual

Designing Audio Conferencing Systems

B - 25

Loudspeakers - How Much Power Is Required

Once the locations of the loudspeakers have been determined, the next step is

to determine how much power is required to drive each loudspeaker to

achieve the required level at the listeners. Loudspeakers have a power rating

that is expressed in dB SPL @ 1 meter. This specifies how much sound is

created at 1 m from the loudspeaker assuming 1 W of power is applied to the

loudspeaker. For instance a loudspeaker rated at 86 dB SPL 1 Watt/meter

requires 1 W to generate 86 dB SPL at a distance of 1 m from the loudspeaker.

In a normal room, the loudspeakers are approximately 2 m above the

participant that is seated directly underneath a loudspeaker, resulting in 80 dB

SPL at the listener's location with 1 W of power. As normal speech

conversations are in the 70 dB to 77 dB SPL range, this level of sound would be

more than sufficient for playback for a listener located directly underneath a

loudspeaker assuming there is not a significant amount of background noise

in the room (such as in an NC 30 style room). As mentioned earlier, having a

sound system that is at least 25 dB above the ambient background will yield

excellent intelligibility.
To compute the power requirements for each of the distributed loudspeakers,

it is convenient to take the desired SPL at the listeners' ears (for example 85 dB

SPL), add additional level to compensate for the distance from the

loudspeakers (for example listeners 2 m away from the loudspeaker will

require an additional 6 dB to compensate for the 6 dB loss 2 m away from the

loudspeaker), and subtract the loudspeakers sensitivity (86 dB SPL). In this

example this results in 85 dB + 6 dB - 86 dB = 5 dBW. This is the power in dBW

(referenced to 1 W). To convert this back to Watts, it is necessary to take the

inverse log (recall that a power in dBW is 10 log (Power in watts/1 watt)). The

result is that 3.16 W is required for each loudspeaker. As most constant voltage

systems have a switch to select the appropriate power setting, selecting the tap

closest to 3 W would generate the proper level for the loudspeakers.
Once the power requirements have been calculated for the loudspeakers, add

them up and use this as the baseline for the size of the amplifier required to
drive audio into the room. Keep in mind that there will be transformer losses

on the order of a 1 dB or so for each loudspeaker, so choose an amplifier at 25%

to 50% larger than the sum of the required loudspeaker power. This will allow

some headroom for additional loudspeakers or louder transient signals.

Spatial Directionality

In video conferencing applications, it is common to have the remote audio

come from a location close to the display screen to give the perception that the

remote audio is coming from the remote participants shown on the video

screen. In this situation, when the room is larger than about 20 ft. in length,

reinforcement of the front speakers with additional ceiling loudspeakers

distributed through the room will better fill the room with sound (keeping all

listeners well within the critical distance of the loudspeakers) without losing

the perceptual directionality associated with the front of room display device.

To maintain the perception of the audio coming from the front of room display