Headroom (audio signal processing)

In digital and analog audio, headroom refers to the amount by which the signal-handling capabilities of an audio system exceed a designated nominal level.[1] Headroom can be thought of as a safety zone allowing transient audio peaks to exceed the nominal level without damaging the system or the audio signal, e.g., via clipping. Standards bodies differ in their recommendations for nominal level and headroom.

Digital audio

In digital audio, headroom is defined as the amount by which digital full scale (FS) exceeds the nominal level in decibels (dB). The European Broadcasting Union (EBU) specifies several nominal levels and resulting headroom for different applications.

Application Headroom
FM broadcasts −9 dBFS
Digital broadcasts and ordinary digital recordings −18 dBFS
Original master recordings −24 dBFS

Analog audio

In analog audio, headroom can mean low-level signal capabilities as well as the amount of extra power reserve available within the amplifiers that drive the loudspeakers.

Alignment level

Alignment level is an anchor point 9 dB below the nominal level, a reference level that exists throughout the system or broadcast chain, though it may imply different voltage levels at different points in the analog chain. Typically, nominal (not alignment) level is 0 dB, corresponding to an analog sine wave of voltage of 1.23 volts RMS (+4 dBu or 3.47 volts peak to peak). In the digital realm, alignment level is −18 dBFS.

  • AL = analog level
  • SPL = sound pressure level

See also

References

Further reading

  • BS.1726 "Signal level of digital audio accompanying television in international programme exchange" (2005)
  • BS.1864 "Operational practices for loudness in the international exchange of digital television programmes" (2010)
  • BS.1770-3 "Algorithms to measure audio programme loudness and true-peak audio level" (2012)
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.