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Paper about compression.
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Compression Tips and Techniques
John Freyermuth
1 According to Jerry Finn in The Mixing Engineer’s Handbook, “the sound of modern records
today is compression”. 1 Sadly for modern music, compressors are one of the most
misunderstood and misused processors available today. Many engineers and audio enthusiasts do
not totally understand what a compressor is, how it works, what the controls mean, what type of
compressor to use, what to use compression for, and alternatives to using compression. With all
of the technology and plug-ins at people’s fingertips, users are just slapping any compressor on a
track or a mix bus, turning up the output and trying to make their tracks as loud as possible. In
the war for the extra db, dynamic range is the first victim, and unbeknown to the thousands of
audio engineers and musicians misapplying compression, their mixes are the ones that really
suffer. In this paper the mysteries of compression will begin to be unraveled and slowly a
working vocabulary of compression terms will be created. This paper will examine what a
compressor is, and what the different controls for the settings on different types of compressor’s
do, and how those controls affect your audio signal. It will also examine when and why you
should reach for a compressor and when you should not. It will discuss alternative mixing
strategies to compressing every track. Finally, the paper will examine some classical
compression techniques, time tested by pros. The purpose of this paper is to give you a working
knowledge of what a compressor does and introduce you to some new and interesting
compression techniques that will allow you to get the most out of your mixing abilities.
Dynamic control was not a major part of classical and jazz recordings. Classical and jazz
engineers did not really pay much attention to shaping and controlling the dynamics of the piece
with processing; they mastered the craft of microphone placement. But as far as modern
recordings go, compression and all the side effects that come along with it are forever a part of
modern recording. Compression is a major part of modern records, and it is of the utmost
importance to have an in-depth working knowledge of what a compressor is and what it does.
2 According to Bobby Owsinski in his book, The Mixing Engineer’s Handbook,
“Compression is an automated level control using the input signal to determine the output level,
set by using the threshold and ratio controls.”2 So a compressor is an automatic fader that
proportionately reduces the dynamics of a signal that rise above a user defined level so that the
loudest portions of the signal are reduced and the lower level portions of the signal can be heard.3
Compressors are very difficult for many people to understand and are viewed to a degree as
being mysterious. This is partly due to the fact that if you compress a signal or a program
correctly your work should basically go unnoticed. David Miles Huber and Robert E. Runstein
provide another great definition of a compressor in their book Modern Recording Techniques.
A compressor reduces input levels that exceed a selected threshold by a specific amount. This reduced dynamic range signal can then be boosted in level at the output, thereby allowing the softer signals to be raised above the program or background sounds.4
Compressors come in all shapes, sizes and controller layouts, ranging from simple two
knob peak reduction compressors like Antares Painkiller or UREI LA-3, which only has a gain
knob and a peak reduction knob, to the fifteen knobs on the Fairchild 670 compressor, which
allow, for far greater user control, but not always better results. To get the best results out of
compressors, we will define the different controls that can be found on different compressors.
The input gain control on a compressor is used to determine how much signal will be sent
to the compressor’s input stage. The threshold setting determines the level at which the
compressor will begin to proportionately reduce the signal from the input gain control. Basically,
threshold is the level at which the compressor considers the signal too loud. If you set the
threshold to its maximum setting very little of the incoming signal will be compressed because
the compressor will not recognize the signal is too loud. If you set the threshold to the lowest
setting, even the softest parts of the signal will be considered too loud and will be compressed.
The maximum setting for most compressors is 0db while the minimum setting can vary greatly
3 but is usually a number below 0db. An example of the threshold control in action is if the
threshold is set to -20db, all signals that fall below this level will be unaffected while the signals
that are above this level will be proportionately attenuated.5 Some devices do not have a
threshold and the input gain on these devices will correspondingly control the threshold level. On
devices without a threshold control, raising the input level will lower the threshold point and thus
reduce the overall dynamic range of the program.6
Some compressors have threshold controls that are referred to as hard knee or soft knee.
A soft knee setting gently fades in the beginning of the gain reduction when the signal crosses
the threshold creating a smoother transition from uncompressed to compressed signal, making
the compression less noticeable. A hard knee setting causes the gain reduction to quickly kick in
as soon as the input crosses the threshold, this effect can be more noticeable when the gain
reduction begins, but it is better at handling large amounts of gain reduction.
Another important control is output or makeup-gain. This control is used to determine
how much signal will be sent to the compressor’s output. It is used to boost the reduced signal
into a range where it can best match the level of a medium or be better heard in a mix.7 It is
basically used to boost the level of the reduced signal back up to its original level or beyond.
The ratio, or control slope, determines the slope of the input to output gain ratios. In
simpler terms, it determines the amount of input signal that’s needed to cause a 1db increase at
the compressor’s output.8 The compressor’s ratio effectively sets how firmly the compressor
reins in signals that overshoot the threshold level.9 For example, with a ratio of 2:1 with every
2db increase at the input there will be a 1db increase at the output. With the same 2:1 ratio a 4db
increase at the input would yield a 2db increase at the output. Not all compressors react the same
to incoming signal at the same ratio settings, so it is important to watch the gain reduction meter
display to see how much gain reduction is occurring. This leads us to another very important
4 control, meter display. This control changes the compressor’s meter display to read the device’s
output or gain reduction levels.10 some devices do not need to switch displays because they
display gain reduction and output simultaneously.
There are two more very important controls to cover that determine the speed at which
the compressor’s gain reduction reacts to changes in the input signal level.11 They are two of the
controls that can help your compression sound its best, and also the two controls that if not used
properly can wreak the most havoc on your signal. They are the attack and release controls. The
attack control determines the how fast or slow the compressor will turn down signals that exceed
the threshold. It is defined as the time it takes, in milliseconds, for the gain to decrease to a
percentage (63%) of its final gain value.12 Attack is basically the speed at which fast the
compressor reacts in reducing gain. Release is used to determine how slowly or quickly, in
milliseconds, the device will restore a signal to its original dynamic level once it has fallen below
the threshold point.13 This point is defined as the time required for the gain to return to 63% of its
original value.14 Release is basically the speed at which the gain reduction resets to its original
level.
There are two main styles of compressors, peak reduction and RMS (root mean square),
that control and affect the detection of the compressor’s signal input.16 Peak reduction looks for
peaks in the incoming audio signal and when those peaks are detected and cross the threshold
they are accordingly reduced by the user defined ratio. Peak reduction works much quicker than
RMS and is great for handling the sharp transients and the short peaks of percussion tracks. Peak
reduction also works most effectively over short time periods. A good example of when to use
peak reduction is while working with drum tracks and you do not want the peaks of the kick to
overload the dynamic range of your program material and the medium you are working in.
Another good example of when to use peak reduction is when you are trying to tame the initial
5 transients of a slap bass line or a drum beat where the drummer becomes a little over zealous on
some strikes. You would use peak reduction to bring the signal level closer to that of the rest of
the material in the program in this case.
RMS, works a lot like our ears when they hear and adjust to loud sounds. RMS
compression works by detecting a signal’s average level and reducing the signal based on the
average level of the material.17 In RMS mode, short peaks do not cross the threshold and cause
the compressor to reduce the overall level of the signal. This allows for a more dynamic signal
and more transparent compression that still prevent the signal from being too loud. RMS is often
used if you are trying to raise the apparent volume of the track during mix down or mastering
because it does not react to every small peak and therefore does not squish the dynamic range of
the material as much as peak reduction.
There are four main types of compressors that are found in the analog and digital world.
Most of the compressors in the digital world are based on or are emulations of their famous
analog brothers. The four main types of compressors are optical compressors, variable mu tube
compressors, VCA, voltage controlled amplifier, compressors, and FET, field-effect-transistor
compressors. A variable mu compressor uses a valve, instead of vacuum tubes, in its signal chain
to achieve compression, by re-biasing the tube to control the amount of gain reduction.18 In the
audio world, the word mu refers to gain, so a variable mu compressor is basically called a
variable gain compressor. The sound characteristics associated with a variable mu compressor
are that of well designed tube equipment, warm, with a slight but altogether pleasing harmonic
distortion and a smoothness that is hard to achieve with other compressor designs.19 Many people
associate the sound of variable mu compressors with that of the classic analog recordings of the
1960’s and 70’s. Some famous examples of variable mu compressors are the Fairchild 660 and
670, the Manley Variable Mu and Pendulum’s ES8.
6 Optical compressors usually have a very transparent sound because of their particular
construction. The photo-optical detector circuit that controls the amount of gain reduction can
work with a minimal number of components, allowing the signal to be altered by less material,
therefore imparting less of the compressor’s sound characteristics on the signal, allowing it to be
more transparent.20 Because of their transparent sound, optical compressors have found a place
in many modern recordings. Popular optical compressor models are the Avalon AD2044,
Joemeek SC2, and Millennia Media TCL2, which are very popular in classical recordings, where
transparency is a necessity.
VCA, voltage controlled amplifier, compressors apply more or less gain depending on the
level of control voltage they receive. When that control voltage is derived from the audio input
itself, it can be used as a compressor.21 VCA compressors have very unique sound quality that
differs greatly from the aforementioned compressor models. According to Paul White of Sound
on Sound, and the many topflight engineers he interviewed for his May 2008 article “The SOS
Guide to Mix Compression”, “VCA designs have a colorful sound quality, but the color is quite
unlike that obtained from tube designs”. 22 This colorful sound quality of VCA compressors has
made them a very popular choice amongst modern engineers for mix-bus compression. Some
very famous VCA model compressors can be found in famous solid-state mix-bus compressors
including the Neve 33609, SSL G-Series Compressor, API 2500 and the heralded Focusrite Red
3.23
Field-effect-transistor, FET compressors, use a transistor to control the amount of gain
reduction, similar to the way a triode tube works.24 FET compressors have a distinctive bright
and focused sound quality that has often been described as aggressive. FET compressors have
the fastest attack and release time of any type of analog compressor.25 Their super fast attack and
release make them a favorite choice for precision compression and for dealing signals with very
7 sharp and quick transients. Famous examples of this compressor are the UA 2-1176 and the
Cranesong STC8.
Along with these analog compressors there are countless digital emulations of these
classic hardware designs, some of the best being made by Universal Audio. Also there are
unique digital designs and hardware designs that are based on the four analog device types and
combine characteristics of all or some of the four types of compressors sonic signatures. There
are also digital and hardware compressors that allow you to switch between different compressor
types, giving you the Swiss army knife of the compressor world.
Now that we understand the controls of a compressor and the basic types of compressors,
we can now examine when to use a compressor in a mix situation. A compressor should be used
for two main reasons. The first being to control the dynamics of a signal or of an entire mix. The
second reason to use a compressor is as an effect.
For controlling the dynamics of a mix, the goal of the mixer is to achieve a static fader
level for each of the individual track and for the main mix-bus. If you can find a static fader level
and it sounds good then you do not have to compress. If it sounds good just leave it alone. If you
cannot achieve a static fader level by automating the volume of a track or mix, or by EQ or
multing, splitting the track out over multiple tracks and adjusting the fader level for the new
tracks, then you can reach for a compressor. You can use a compressor in tandem with fader
riding/automation, EQ and multing, as long as you achieve the right balance for that mix.
There are many different schools of mixing that have all different types of rules for when
and where to use compression or if to use compression at all. In the end you can break every rule
or make up a new crazy rule that works for you, as long as you achieve your desired result. On
that note here is a short list of suggestions on when you should compress to control dynamics if
automation, EQ or multing is not enough.
8 A compressor should be used to minimize the changes in volume of an instrument or
vocal performance when they are too great for the mix.26 A compressor can also be used to
balance out the dynamics of a single instrument, like a bass, where output volume can vary
greatly from string to string. A compressor can be used to balance out momentary changes in the
distance from mic to source. A compressor can also be used on a stereo mix-bus to reduce the
dynamic range or boost the average volume of a mix so that it appears to be significantly
louder.27 Compressors are also used in the mastering process, but we are not going to address
that.
Compressing to control gain should be done in moderation because you can quickly suck
the life out of your track, or even worse an entire mix, if you over compress a signal. But do not
be afraid of compression because when used correctly, it can solve a whole host of issues. For
example, if you have a vocal track were you cannot quite understand all of the lyrics, because
some are far too soft, a compressor can be used to allow you to reduce the difference between the
loudest and softest parts allowing every word to be intelligible. When using a compressor to
control the dynamics of the performance it is always a good idea to use small amounts of
compression at first, like a ratio of 2:1 or 4:1.
When controlling dynamics, compressors can be used as inserts on a channel strip
affecting a single instrument, placed on a mix-bus, affecting a selection of signals sent to the bus,
or placed on an auxiliary track where they can be blended with other signals as an effect. A
compressor can also be placed on the master mix-bus to control the overall dynamics of a
program. There are also many different combinations of the aforementioned methods used to
achieve the desired results. For example, some engineers when working with upright bass tracks
will use serial compression, two compressors inserted on a track one after the other to achieve
the needed balance. The bass signal will pass through the first compressor that reduces the peaks
9 of the signal. Then the compressed signal passes directly into the next compressor that reins in
the dynamics of the instrument, creating a smooth and controlled bass line that has undergone
large amounts of compression but has not been squished to death. The two compressors usually
used in serial compression configuration like this are a peak reduction compressor followed by
an RMS compressor.
The effects that can be created by compression range from subtle distortion to all out
sonic mayhem. According to Andy Johns, engineer of Led Zeppelin and The Rolling Stones
fame, states that, “I use compression because it’s the only way that you can truly modify a
sound.”28 With the right compressor and the proper settings you can alter the volume envelope of
the sound, making it cut through the mix and sound more aggressive and assertive. You can then
alter the decay, making the sound longer, and making the sound “fatter”. With the correct
compressor and the correct settings you can make it seem like all of the elements of the mix are
moving to the front of the mix (at the listeners) creating a very exciting effect and bringing a lot
of energy to the piece.
Other engineers like Joe Chiiccarelli use compressors like the Teletronix LA2A to create
beautiful distortion on vocal tracks by overloading the final tube stage to create a nice distortion
effect. This distortion effect created by the LA2A worked particularly well with Joe Chiccarelli’s
approach to working with Jack White’s, of the White Stripes, vocals.29 Other engineers take
advantage of the unique colors the sonic pallets of all the different types of compressors, using
them to process single instruments, vocals and groups of instruments and vocals. They run the
signals through the compressor, sometimes while the compression section of the unit is
bypassed, just so the unique sonic qualities of the unit can enhance the signal. Other times they
slam the signal with compression and alter the attack and release to really get the signal to pump,
10 usually an unwanted side-effect, but in this instance a desired effect to get the signal to
breathe with the groove of the music and really be in the listeners face.
An often-used effect when mixing percussion is to take the signal from the overhead mics
on the drum kit and the signal from the room mics and really slam them with a ton of
compression. Then you gently mix the compressed signal back in to the mix against the
discretely miced percussion elements. If you recorded in a good sounding room this really adds
to the mix and creates a really great sounding and natural reverb effect. But beware because if
you record in a room that sounds bad and you try this effect it will most likely sound really bad.
This is because this effect is bringing the normally lower levels of the sound of the room to a
higher level in the mix allowing them to be heard.
Another highly utilized effect is parallel compression, also known as the New York
Compression Trick. Which is used to get a very thick and rich sound, that sounds much bigger
but not overly compressed. To use parallel compression you bus your signal to a stereo
compressor and compress it with at least 10db of gain reduction, even more if you like. Then
send it back to the mixer or DAW where it will return on two separate tracks. On one track add
some high end, usually 10khz or above, and on the other track boost the low end around 125Hz.
Now mix these signals against the original uncompressed signal. You should have a much richer
and fuller signal, without any side effects of over compression. This trick works because of the
difference in the compression curve of parallel compression verse insert style compression. With
insert style compression the loud parts of the signal are turned down to reduce the difference
between the level of the soft and loud signals. When using parallel compressing the compression
curve works inversely and the soft parts are turned up to match the louder parts of the signal.30 So
that when the parallel compressed signal is mixed back into the uncompressed signal the soft
parts of the signal are raised and the louder parts are not reduced allowing for a fuller richer
11 sounding signal. In the digital world phasing can be a problem with parallel compression but
as long as you keep an eye on the amount of delay your signal processing and A-D and D-A
conversion is creating, and if you utilize some systems automatic delay compensation, you
should be able to tame your delay problem and reap the benefits of parallel compression. In my
experience I find that parallel compression works great on an array of signals ranging from
percussion and bass to lead vocals. Try it out and go nuts.
Mike Senior describes another classic effect that harkens back to the analog days of yore,
in his article Classic Compressors for “Sound on Sound”. Senior describes the use of pre-
compression fader rides and chaining compressors to get a similar sound that is associated with
the days of all analog recording. Senior describes how back in the days of analog recording the
signal was routinely compressed multiple times. This started in the recording process where most
signals were lightly compressed to increase the signal to noise ratio. Then the tracks would be
further compressed in mix down with another model compressor imparting “a generous helping
of tasty analog-processing side-effects.”31 Also engineers rode the faders either into or out of
compressors during tracking, creating super smooth compression, a signature of the great
analogue recordings. Senior points out that fader rides in and out of a compressor during tracking
is all but a lost on young engineers because of the advent of digital recording and 24bit A-D
converters and the massive amounts of head rooms they allow.32 Fader riding is a lost art and in
my opinion is one of the reasons people are having trouble creating the life and feeling that used
to be imparted in analogue mixes. We are missing out on the performance of the engineer and
how he interacted and fed off of the performers energy from the control room. That is part of
what I feel gave so much life to analogue mixes and would be an awesome enhancement to
digital mixing.
12 Today the master of compression for dynamic control and for effects is mix engineer
Michael Brauer. Brauer’s all encompassing and liberal use of compression can be heard on the
new Coldplay album Viva La Vida. Michael Brauer is the master of parallel compression and
multi-bus compression, where he is know to process everything from multed vocal tracks, to
groups of instruments, through his unique multi-bus, four-way stereo output-bus system,
compression system he has deemed ‘Brauerize’, a term which he has trademarked.33 Brauer takes
the signals from the four buses, which are labeled A, B, C or D and sends each one to one of the
five different racks he has routed with compressors and other signal processing equipment.
Brauer then brings the four buses, A, B, C, or D, back up in the center of his SSL J9000 console.
Brauer also has a five compressor serial chain set up exclusively for compressing vocal tracks.34
The thing that sets Brauer apart from other mixers, aside from his esoteric use of his
massive collection of rare and strange outboard gear and his willingness to compress anything, is
that he mixes with post compression, while most other people mix with pre fader compression.35
What this means is that Brauer mixes into compression, meaning that all his fader moves happen
before compression and that his fader moves feed the compressors inputs. This is one of the
things that help to define his style and give him his signature sound.36
Now that we have gone over basic compressor controls, the basic types of compressors
and their sonic characteristics, looked at when and why you compress, as well as alternatives to
compression and reviewed some basic examples of compression for dynamic control and
compression for an effect, we are ready to go out and start mixing. Now that the basics of
compressing are covered we are free to go out and apply the rules we like and throw away what
we do not like. There is no set rule for compression only suggestions. My suggestion is to try it
all and find what works for you.
13 Bibliography
Haas, Will. "The SOS Guide to Mix Compression." Sound on Sound, May 2008. http://www.soundonsound.com/may08/articles/mixcompression.htm (accessed January 24, 2010).
Houghton, Matt. "Analogue Warmth." Sound on Sound, January 2010.
http://www.soundonsound.com/feb10/articles/analoguewarmth.html (accessed January 20, 2010).
Huber, David Miles, and Robert E. Runstein. Modern Recording Techniques, Sixth Edition. New
York: Focal Press, 2005. Moylan, William. Understanding and Crafting the Mix, Second Edition The Art of Recording.
New York: Focal Press, 2006. Owsinski, Bobby. The Mixing Engineer's Handbook. Belmont: Thomson Course Technology,
2006. Robjohns, Hugh. "Mix Mastery." Sound on Sound, June 1999.
http://www.soundonsound.com/jun99/articles/mixcomp.htm (accessed January 20, 2010). Senior, Mike. "Classic Compressors." Sound on Sound, September 2009. Senior, Mike. "Compression Made Easy." Sound on Sound, September 2009. Tingen, Pual. "Secrets of the Mix Engineers: Michael Brauer." Sound on Sound, November
2009. http://www.soundonsound.com/nov08/articles/itbrauer.html (accessed January 24, 2010).
White, Paul. "Advanced Compression Techniques." Sound on Sound, January 2001.
http://www.soundonsound.com/jan01/advanced.asp?print=yes (accessed January 20, 2010).
White, Paul. "Advanced Compression Techniques." Sound on Sound, January 2001.
http://www.soundonsound.com/jan01/advanced.asp?print=yes (accessed January 20, 2010).
White, Paul. "How does Parallel Compression Work?" Sound on Sound, March 2009.
http://www.soundonsound.com/sos.mar09/articles/qa0309_3htm?print=yes (accessed January 24, 2010).