Editing Dynamic range compression (section)

== Design ==
[[File:Compressors Feed Design.gif|frame|A feed-forward compressor design (left) and feedback design (right)]]

The signal entering a compressor is split; one copy is sent to a [[variable-gain amplifier]] and the other to a ''side-chain'' where the signal level is measured and a circuit controlled by the measured signal level applies the required gain to the amplifier. This design, known as a ''feed-forward'' type, is used today in most compressors. Earlier designs were based on a ''feedback'' layout where the signal level was measured after the amplifier.<ref>{{Cite journal |last1=Giannoulis |first1=Dimitrios |last2=Massberg |first2=Michael |last3=Reiss |first3=Joshua D. |date=2012-07-09 |title=Digital Dynamic Range Compressor Design—A Tutorial and Analysis |url=https://www.eecs.qmul.ac.uk/~josh/documents/2012/GiannoulisMassbergReiss-dynamicrangecompression-JAES2012.pdf |journal=Journal of the Audio Engineering Society |language=en |volume=60 |issue=6 |pages=399–408 |citeseerx=10.1.1.260.1340 |access-date=2019-06-06}}</ref>

There are a number of technologies used for variable-gain amplification, each having different advantages and disadvantages. [[Vacuum tube]]s are used in a configuration called ''variable-mu'' where the grid-to-cathode voltage changes to alter the gain.<ref>{{Cite web |url=http://www.tangible-technology.com/dynamics/comp_lim_ec_dh_pw2.html |title=An Overview of Compressor/Limiters and Their Guts |last1=Ciletti |first1=Eddie |last2=Hill |first2=David |date=2008-04-19 |website=www.tangible-technology.com |access-date=2019-11-03 |last3=Wolff |first3=Paul}}</ref> Optical compressors use a [[photoresistor]] stimulated by a small lamp ([[Incandescent light bulb|incandescent]], [[LED]], or [[Electroluminescence|electroluminescent panel]])<ref>{{Cite web |url=http://media.uaudio.com/assetlibrary/l/a/la-2a_manual.pdf |title=Model LA-2A Leveling Amplifier |website=Universal Audio |type=Manual }}</ref> to create changes in signal gain. Other technologies used include [[field effect transistor]]s and a [[diode bridge]].<ref>{{Cite magazine |last=Berners |first=Dave |date=April 2006 |title=Compression Technology and Topology |url=https://www.uaudio.com/webzine/2006/april/text/content4.html |department=Analog Obsession |magazine=Universal Audio WebZine |publisher=Universal Audio |volume=4 |issue=3 |access-date=2016-08-29}}</ref>

When working with digital audio, [[digital signal processing]] (DSP) techniques are commonly used to implement compression as [[audio plug-in]]s, in [[mixing console]]s, and in [[digital audio workstation]]s. Often the algorithms are used to emulate the above analog technologies.{{citation needed|date=May 2019}}