Proximity effect (audio)


Proximity effect (audio)

The proximity effect in audio refers to a change in the frequency response of a directional microphone as the sound source is brought close to the microphone. The result of the change is a disproportionate increase in the bass response of the microphone. The effect is found in directional microphones due to the particulars of their construction (described below) and, consequently, is not exhibited in omni-directional microphones.

To understand how the proximity effect arises in directional microphones, it is first necessary to briefly understand how a directional microphone works. A microphone is constructed with a diaphragm whose mechanical movement is converted to electrical signals (via a magnetic coil, for example). The movement of the diaphragm is a function of the air pressure difference across the diaphragm arising from incident sound waves. In a directional microphone, sound reflected from surfaces behind the diaphragm is permitted to be incident on the rear side of the diaphragm. Since the sound reaching the rear of the diaphragm travels slightly farther than the sound at the front, it is slightly out of phase. The greater this phase difference, the greater the pressure difference and the greater the diaphragm movement. As the sound source moves off the diaphragm axis, this phase difference decreases due to decreasing path length difference. This is what gives a directional microphone its directivity.

In addition to the angular dependence described above, the response of a directional microphone depends on the amplitude, frequency and distance of the source. These latter two dependencies are used to explain the proximity effect.

As described above, the phase difference across the diaphragm gives rise to the pressure difference that moves the diaphragm. This phase difference increases with frequency as the difference in path length becomes a larger portion of the wavelength of the sound. (This frequency dependence is offset by damping the diaphragm 6 dB per octave to achieve a flat frequency response but this is not germane to the proximity effect so nothing more will be said about it here). The point to be made regarding the frequency dependency is that the phase difference across the diaphragm is the smallest at low frequencies.

In addition to phase differences, amplitude differences also result in pressure differences across the diaphragm. This amplitude component arises from the fact that the far side of the diaphragm is further away from the sound source than the front side. Since sound pressure decreases as the inverse of the distance from the source (it is sound intensity that drops as the inverse of the distance squared, for those familiar with the inverse square law), the amplitude of the sound will be slightly less at the rear of the diaphragm as compared to the front of the diaphragm. Since the pressure difference due to the amplitude component is dependent only on the amplitude differences across the diaphragm, it is independent of frequency.

The properties of the amplitude component that are applicable to the proximity effect are that the contribution to the pressure difference is small and independent of frequency. At large distances between the source and the microphone, the amplitude component of the pressure difference is negligible compared to the phase component at all audio frequencies. As the source is brought closer to the directional microphone, the amplitude component of the pressure difference increases and becomes the dominant component at lower frequencies (recall that the phase component is relatively small at the low frequencies). At higher frequencies, the phase component of the pressure difference continues to dominate for all practical distances between source and microphone.

The result is that the frequency response of the microphone changes; specifically, it increases at the low frequency (bass) end, as the audio source is brought close to the microphone. This is the proximity effect as it pertains to audio.

External links

* [http://www.sweetwater.com/expert-center/glossary/t--ProximityEffect Proximity Effect] music technology glossary
* [http://shure.custhelp.com/cgi-bin/shure.cfg/php/enduser/std_adp.php?p_faqid=2844&p_created=1037811455&p_sid=Vf8vxsqi&p_lva=38&p_sp=cF9zcmNoPTEmcF9zb3J0X2J5PSZwX2dyaWRzb3J0PSZwX3Jvd19jbnQ9MTEzMSZwX3Byb2RzPTAmcF9jYXRzPTAmcF9wdj0mcF9jdj0mcF9zZWFyY2hfdHlwZT1hbnN3ZXJzLnNlYXJjaF9mbmwmcF9wYWdlPTEmcF9zZWFyY2hfdGV4dD1wcm94aW1pdHkgZWZmZWN0&p_li=&p_topview=1 Proximity Effect in Directional Microphones] Shure Pro Audio Technical Library


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