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The modular synthesizer is a type of synthesizer, which exists in both physical and virtual forms, consisting of separate specialized modules. The specialization is usually in the module being designed to allow the modification or processing of one parameter of a signal, such as the frequency (oscillator), spectrum (filter), or amplitude (amplifier). The modules are not hardwired together but are connected together with patch cords, a matrix patching system, or switches to create a patch. The voltages from the modules may function as (audio) signals, control voltages, or logic conditions.
A Moog 55 (c. 1972 to c. 1981)
A Doepfer A-100 (1995 to present)
EMS Synthi (VCS 3) II
1 Types of modules
2 Function of modules
3 Historic manufacturers
4 Modern manufacturers of modular hardware synthesizers (alphabetical)
5 Technical specifications
5.1 Form Factors
6 Modular software synthesizers (alphabetical)
7 Semi-modular synthesizers
7.1 Matrix Systems
7.2 Patch Override Systems
7.3 Electronically Reconfigurable Systems
8 Hybrid modular synthesizers
9 See also
10 External links
12 Further reading
Types of modules
There are two basic kinds of modules: source and processor.  The basic modular functions are: signal, control, logic/timing. Outputs are an electric voltage.
There exist many different types of modules. There are basic modules, and compound modules, a compound module being a single module made up of several basic modules internally wired together. Examples of compound modules include the envelope follower, sequencer, and vocoder. Modules with the same basic functions may have different inputs, outputs and controls, depending on their degree of complexity. Some examples include the VCO, which may have options for sync (hard or soft), linear or exponential frequency modulation, and variable waveshape; the VCF that may have both resonance and bandwidth controls; and the envelope follower which may provide outputs at each stage of the process. There are some standards which manufacturers followed for their range of physical synthesizers, such as 1V/oct control voltages, and gate / trigger thresholds providing general compatibility; however, connecting synthesizers from different manufacturers may require cables with different kinds of plugs.
Some standard modules found on almost any modular synth are:
Sources - characterized by an output, but no signal input; it may have control inputs:
VCO – Voltage Controlled Oscillator, a continuous voltage source, which will output a signal whose frequency is a function of the settings. In its basic form these may be simple waveforms (most usually a square wave or a sawtooth wave, but also includes pulse, triangle and sine waves), however these can be dynamically changed through such controls as sync, frequency modulation, and self-modulation.
Noise source - A source that outputs a random voltage. Common types of noise offered by modular synthesizers include white, pink, and low frequency noise.
LFO - A Low Frequency Oscillator may or may not be voltage-controlled. It may be operated with a period anywhere from a fortieth of a second to several minutes. It is generally used as a control voltage for another module. For example, modulating a VCO will produce frequency modulation, and may create vibrato, while modulating a VCA will produce amplitude modulation, and may create tremolo, depending on the control frequency. The rectangular wave can be used as a logic / timing / trigger function.
EG - An envelope generator is a transient voltage source. A trigger in the presence of a gate, applied to an Envelope Generator produces a single, shaped voltage. Often configured as ADSR (Attack, Decay, Sustain, Release) it provides a transient voltage that rises and falls. It can be triggered by a keyboard or by another module in the system that produces a rapidly rising trigger in the presence of a gate. Usually it controls the amplitude of a VCA or the center frequency of a VCF, but the patchable structure of the synthesizer makes it possible to use the envelope generator to modulate other parameters such as the frequency or pulse width of the VCO. Simpler EGs (AD or AR) or more complex (DADSR—Delay, Attack, Decay, Sustain, Release) are sometimes available.
Sequencer, also sometimes called an Analog Step Sequencer, is a family of compound module types which may be a source or a processor, see also below. As a source, depending upon the configuration, it may produce a sequence of voltages, usually set by adjusting values on front panel knobs. The sequencer may also output a trigger, and/or gate, at each step (stage). Sequencers are stepped by a trigger being applied to the trigger input. Designs may allow for stepping forwards or backwards, oscillating patterns, random order, or only using a limited number of stages. An example of an analog sequencer and controller with this level of complexity is the Doepfer A-154, A-155 combination.
Processors - characterized by a signal input and an output; it may have control inputs.
VCF - Voltage Controlled Filter, which attenuates frequencies below (high-pass), above (low-pass) or both below and above (band-pass) a certain frequency. VCFs can also be configured to provide band-reject (notch), whereby the high and low frequencies remain while the middle frequencies are attenuated. Most VCFs have variable resonance, sometimes voltage-controlled.
VCA - Voltage Controlled Amplifier, is usually a unity-gain amplifier which varies the amplitude of a signal in response to an applied control voltage. The response curve may be linear or exponential. Also called a two-quadrant multiplier.
LPG - Low Pass Gate, is a compound module, similar to a VCA and a VCF, except that the circuit uses a Resistive_opto-isolator (vactrol) to respond to the control voltage, which also filters the sound as it amplifies, allowing more high frequency information through at higher amplifications.
RM - Ring modulator - Two audio inputs are utilized to create sum and difference frequencies while suppressing the original signals. Also called a four-quadrant multiplier or balanced modulator.
Mixer - a module that adds voltages.
Slew limiter - is usually a sub-audio lowpass filter. When used in a control voltage path to an oscillator, this can be used to create glide or portamento between frequencies.
S&H - Sample and hold, is usually used as a control-voltage processor. Depending upon the design, usually an ascending edge (trigger), captures the value of the voltage at the input, and outputs this voltage until the trigger input reads another voltage and repeats the process.
Sequencer, (see also above), as a processor, may have a signal input into each step, (location or stage), which is output, when stepped to. An example of this type of sequencer is the Doepfer A-155.
Custom Control Inputs - It is possible to connect any kind of voltage to a modular synthesizer as long as it remains in the usable voltage range of the instrument, usually -15V to +15V.
Modular synthesizers can be bulky and expensive. Due to the continuously variable nature of knobs and sliders, reproducing an exact patch can be difficult or next to impossible. In the late 1970s, modular synthesizers started to be largely supplanted in pop music by highly integrated keyboard synthesizers, racks of MIDI-connected gear, and samplers. However, there continued to be a community who chose the physically patched approach, the flexibility and the sound of traditional modular systems. Since the late 1990s,[when?] there has been a resurgence in the popularity of analog synthesizers aided by physical standardization practices, an increase in 'retro' gear and interest, decreased production costs and increased electronic reliability and stability, the rediscovered ability of modules to control things other than sound, and a generally heightened education through the development of virtual synthesis systems such as MAX/MSP, Pd and Reaktor etc.
Function of modules
Representation of synthesizer functions.
There are three principal functions in a modular synthesizer: •(audio) signal, • control and • logic. The function is not determined by the module, rather by how it is used. For example, an oscillator may function as an [audio] signal when the output is routed [eventually] to a loudspeaker; a control when the output controls a parameter of another module; and logic when providing a logic function, such as a clock, trigger, gate or sync.
The earliest commercial modular synthesizers were developed, in parallel, by R.A. Moog Co., and Buchla in 1963. Their designs drew from innovations by inventor Hugh Le Caine, particularly his implementation of control voltage in the electronic sackbut. The synthesizer both broadened the spectrum, and greatly eased the creation of electronic music, which before was made via tape splicing, use of primitive electronic oscillators, and earlier electronic or electromechanical instruments such as the theremin and the Ondes Martenot. ARP (in 1970), Serge (1974), and EMS (1969) versions were soon to follow.
Japanese company Roland released the Roland System 100 in 1975, followed by the Roland System 700 in 1976. Also in the 1970s, there were at least two mail-order electronics kit vendors Paia Electronics, and Aries, marketing different lines of simple DIY modular synthesizer systems. The Aries system was modeled on the circuits produced by Bernie Hutchins and published as Electronotes. In the UK in the 1980s the Digisound 80 Modular Synthesizer, designed primarily by Charles Blakey, was sold as a kit by the company Digisound Ltd. Many of the early modules appeared in the early to mid-1980s as construction articles in two British electronics magazines - Electronics Today International (ETI) and Electronics & Music Maker (E&MM). Joseph A. Paradiso's Massive Modular Synth is among the world's largest home-designed and built synthesizers.
Modern manufacturers of modular hardware synthesizers (alphabetical)
Hardware offerings range from complete systems in cases to kits for hobbyist DIY constructors. Many manufacturers augment their range with products based on recent re-designs of classic modules; often both the original and subsequent reworked designs are available free on the internet, the original patents having lapsed. Many hobbyist designers also make available bare PCB boards and front panels for sale to other hobbyists.
Buchla Electronic Musical Instruments (formerly Buchla & Associates)
Doepfer Musikelektronik (A-100)
Moog Music (formerly Big Briar, formerly Moog)
Sound Transform Systems
Many early synthesizer modules had modules with height in integer inches: 11" (e.g., Roland 700), 10" (e.g., Wavemakers), 9" (e.g., Aries), 8" (e.g., ARP 2500), 7" (e.g., Polyfusion, Buchla, Serge), 6" (e.g., Emu) and width in 1/4" inch multiples. More recently it has become more popular to follow the standard 19" Rack unit system: 6U (Wiard), 5U (8.75" e.g., Moog/Modcan), 4U (e.g., Serge), 3U (Eurorack).
Two 3U unit standards in particular are notable: Frac Rack (e.g., Paia), which uses the entire 3U for the front panel, and Eurorack (e.g., Doepfer) which has a 2mm horizontal lip that the front panels are seated between. Further minor variations exist where European or Japanese manufacturers round a U measurement up or down to some closer convenient metric equivalent; for example the common 5U modules are exactly 8.75" (222.25mm), but non-American manufacturers may prefer 220mm or 230mm.
Other differences are with plugs that match 1/4-inch or 6.3mm jacks, 3.5mm jacks, and banana jacks, with main DC power supply (typically ±15 V, but ranging from ±18 V to ±12 V for different manufacturers or systems), with trigger or gate voltages (Moog S-trigger or positive gate), with typical audio signal levels (often ±5 V with ±5 V headroom), and with control voltages of volts/octave (typically 1 V/octave, but in some cases 1.2 V/octave.) Most analog modular systems use a 1 volt/octave system, sometimes termed linear voltage control; some (such as Korg MS-20, ETI 4600) use a volts/hertz system with excellent temperature stability but less flexible control
Modular software synthesizers (alphabetical)
There are also software synthesizers for personal computers which are organized as interconnectable modules. Many of these are virtual analog synthesizers, where the modules simulate hardware functionality. Some of them are also virtual modular systems, which simulate real historical modular synthesizers.
Arturia Modular V
CreamwareAudio Modular III
Wren for Windows (open-source)
Computers have grown so powerful and inexpensive that software programs can realistically model the signals, sounds, and patchability of modulars very well. While potentially lacking the physical presence of desirable analog sound generation, real voltage manipulation, knobs, sliders, cables, and LEDs, software modular synthesizers offer the infinite variations and visual patching at a more affordable price and in a compact form factor.
The popular plugin formats such as VST may be combined in a modular fashion.
A modular synthesizer has a case or frame into which arbitrary modules can be fitted; modules are usually connected together using patch cords and a system may include modules from different sources, as long as it fits the form factors of the case and uses the same electrical specifications.
A semi-modular synthesizer on the other hand is a collection of modules from a single manufacturer that makes a cohesive product, an instrument. Modules may not be swapped out and often a typical configuration has been pre-wired. However, the manufacturer provides mechanisms to allow the user to connect modules in different orders.
Matrix systems use pin matrixes or other crosspoint switches rather than patch cords. Historic examples with pin matrixes include the EMS Synthi 100, EMS VCS-3, ETI International 4600, Maplin 5600. The ARP 2500 used a matrix switch.
Patch Override Systems
The different modules of a semi-modular synthesizer are wired together into a typical configuration, but can be re-wired by the user using patch cords. Some examples are the ARP 2600, Anyware Instruments Semtex, Cwejman S1, EML101, Evenfall Minimodular, Future Retro XS, Korg MS-10, MS-20, MS-50, PS-3100, PS-3200 and PS-3300, Mungo Enterprises State Zero, Roland System 100 and Moog Mother-32 .
Electronically Reconfigurable Systems
Reconfigurable systems allow certain signals to be routed through modules in different orders. Examples include the Oberheim Matrix and Rhodes Chroma, and Moog Voyager.
Hybrid modular synthesizers
Hybrid synthesizers use hardware and software combination. In alphabetical order:
Arturia Origin by Arturia (fully self-contained)
Clavia Nord Modular and Clavia Nord Modular G2 (these need an external computer to edit patches)
120 years of Electronic Music has information on classic modular synths.
Synthmuseum.com Resource for vintage synthesizer information and images.
Modular Analog Synthesizers Return! Article about new modular systems.
Modular Music TV Website dedicated to tutorials, news, performances and more using modular systems.
 Generalized Introduction to Modular Analog Synthesis Concepts] Article on modular analog synthesis concepts
ModularSynth.co Network of modular synth manufacturers and producers.
Austin, Kevin. "A Generalized Introduction to Modular Analogue Synthesis Concepts." eContact! 17.4 ? Analogue and Modular Synthesis: Resurgence and evolution (February 2016). Montréal: CEC.
Rudi Esch, Electri_City: The Düsseldorf School of Electronic Music, page 257, Omnibus Press
Digisound 80 Modular Synthesizer
combination or composition, in particular.
the combination of ideas to form a theory or system.
noun: synthesis; plural noun: syntheses
"the synthesis of intellect and emotion in his work"
synonyms: combination, union, amalgam, blend, mixture, compound, fusion, composite, alloy; More
unification, amalgamation, marrying
"the synthesis of their diverse styles makes for a wonderful new sound in country music"
the production of chemical compounds by reaction from simpler materials.
"the synthesis of methanol from carbon monoxide and hydrogen"
An effects unit or pedal is an electronic or digital device that alters how a musical instrument or other audio source sounds. In the 2010s, most effects use solid-state electronics and/or computer chips. Some vintage effects units from the 1930s to the 1970s and modern reissues of these effects use mechanical components as well (e.g., Leslie rotating speaker, spring reverb, and tape recorder-based echo effects) or vacuum tubes. Some effects subtly "color" a sound, such as a reverb unit used on a low setting, while others transform it dramatically, such as a distortion pedal used with electric guitar, with the overdrive set to its maximum level. Musicians, audio engineers and record producers use effects units during live performances or in the studio, typically with electric guitar, electronic keyboard, electric piano or electric bass. While guitar effects are most frequently used with electric or electronic instruments, effects can also be used with acoustic instruments, drums and vocals. Rackmounted or audio console-integrated reverb effects are commonly used with vocals in live sound and sound recording. Examples of common effects units include wah-wah pedals, fuzzboxes and reverb units.
Effects are built into amplifiers (reverb and distortion are the most common in 2010s-era amps, but vintage amps and modern reissued amps may also have tremolo and vibrato); housed in table top units designed for DJs and record producers, a format which typically contains multiple effects; "stompboxes" and "rackmount units", or they are built into the instruments themselves, as in the case of the Hammond organ, which includes chorus and vibrato effects inside the instrument chassis. A stompbox or "pedal" is a small metal or plastic box placed on the floor in front of the musician and connected to the instrument and the instrument amplifier with patch cords. Pedals are usually the least expensive format. Typically, one or more on-off foot-operated switches control a device that provides only one or two effects, with many pedals having knobs for controlling the volume, tone and intensity of the effect. A rackmount device mounts on a standard 19-inch equipment rack and usually contains several types of effects. Rackmount effects typically have buttons and/or knobs on the face of the chassis for controlling the effects and a patch bay at the rear of the unit.
While there is currently no firm consensus on how to categorize effects, the following are seven common classifications: distortion/overdrive, also called "fuzz", which produce the "growling" audio clipping sounds that are a key part of electric guitar playing in electric blues, hard rock and heavy metal music; dynamics effects which affect loudness, such as volume pedals and audio compressors; filters which modify the frequency range of the instrument, such as the wah-wah pedal and the graphic equalizer; modulation effects, such as the chorus, flanger and phaser; pitch/frequency effects such as a pitch shifter, a common example of which is an octave pedal, which can shift a note down an octave (or up an octave); time-based effects, such as reverb, echo effect and looper pedals (the latter can be used by a one person band to record a riff and then solo over it); and feedback/sustain effects, such as electric guitar feedback and the EBow, which are two different techniques for producing pipe organ-like sustain on the electric guitar. Guitarists derive their signature sound or "tone" from their choice of instrument, pickups, effects units, and guitar amp and from the different settings they use with their pickups, effects units and amp.
2.3 Built-in units
2.4 Multi-effects and tabletop units
3.1 Studio effects and early stand alone units
4.8 Other effects
5 Bass effects
6 Boutique pedals
7 Other pedals and rackmount units
8 See also
A display of assorted BOSS effects pedals.
An effects unit is also called an "effect box", "effects device", "effects processor" or simply "effects". In audio engineer parlance, a signal without effects is "dry" and an effect-processed signal is "wet". The abbreviation "F/X" or "FX" is sometimes used. A pedal-style unit may be called a "stomp box", "stompbox", "effects pedal" or "pedal". A musician bringing many pedals to a live show or recording session often mounts the pedals on a guitar pedalboard, to reduce set-up and tear-down time and, for pedalboards with lids, protect the pedals during transportation. When a musician has multiple effects in a rack mounted road case, this case may be called an "effects rack" or "rig". When rackmounted effects are mounted in a roadcase, this also speeds up a musician's set-up and tear-down time, because all of the effects can be connected together inside the rack case and all of the units can be plugged into a powerbar.
Effects units are available in a variety of formats or form factors. Stompboxes are usually the smallest, least expensive, and most rugged effects units. Rackmount devices are generally more expensive and offer a wider range of functions. An effects unit can consist of analog or digital circuitry or a combination of the two. During a live performance, the effect is plugged into the electrical "signal" path of the instrument. In the studio, the instrument or other sound-source's auxiliary output is patched into the effect. Form factors are part of a studio or musician's outboard gear.
Ibanez Tube Screamer TS9 overdrive pedal
Stompboxes are small plastic or metal chassis which usually lie on the floor or in a pedalboard to be operated by the user's feet. Pedals are often rectangle-shaped, but there are a range of other shapes (e.g., the circle-shaped Fuzz Face). Typical simple stompboxes have a single footswitch, one to three potentiometers ("pots" or "knobs") for controlling the effect, and a single LED that indicates if the effect is on. A typical distortion or overdrive pedal's three potentiometers, for example, control the level or intensity of the distortion effect, the tone of the effected signal and the volume (level) of the effected signal. Depending on the type of pedal, the potentiometers may control different parameters of the effect. For a chorus effect, for example, the knobs may control the depth and speed of the effect. Complex stompboxes may have multiple footswitches, many knobs, additional switches or buttons that are operated with the fingers, and an alphanumeric LED display that indicates the status of the effect with short acronyms (e.g., DIST for "distortion"). Some pedals have two knobs stacked on top of each other, enabling the unit to provide two knobs per single knob space.
An "effects chain" or "signal chain" is formed by connecting two or more stompboxes. Effect chains are typically created between the guitar and the amp or between the preamplifier ("preamp") and the power amp. When a pedal is off or inactive, the electric audio signal coming into the pedal diverts onto a bypass, an unaltered "dry" signal that continues on to other effects down the chain. In this way, a musician can combine effects within a chain in a variety of ways without having to reconnect boxes during a performance. A "controller" or "effects management system" lets the musician create multiple effect chains, so they can select one or several chains by tapping a single switch. The switches are usually organized in a row or a simple grid.
A Roland V-Wah pedal
To preserve the clarity of the tone, it is most common to put compression, wah and overdrive pedals at the start of the chain; modulation (chorus, flanger, phase shifter) in the middle; and time-based units (delay/echo, reverb) at the end. When using many effects, unwanted noise and hum can be introduced into the sound. Some performers use a noise gate pedal at the end of a chain to reduce unwanted noise and hum introduced by overdrive units or vintage gear.
Rackmounted effects in road cases. These road cases have the front protective panels removed so that the musician can press the buttons on the face of the units to change the effect settings. The protective panels are put back on and latched shut to protect the effects during transportation.
Rackmounted effects are typically built in a thin metal chassis with metal "ears" designed to be screwed into a 19-inch rack that is standard to the telecommunication, computing and music technology industries. Rackmounted effects may be one, two or three rack spaces high. When purchased from the store, rack-mounted equipment is not equipped with the rugged chassis features used on stompboxes and amps that are designed to be transported as standalone units, such as corner protectors. Rackmounted units are typically mounted in a rack, which is housed in a road case, a tough plastic case with removable front and rear covers that can be latched on during transportation to protect the knobs and switches and then removed during performances. A rackmount unit may contain electronic circuitry identical to a stompbox's, although its circuits are typically more complex. Unlike stompboxes, rackmounts usually have several different types of effects.
Of all of the formats, rackmount effects from the 2010s typically have the most advanced alphanumeric text display capacities. The Eventide HE3000 Ultra-Harmonizer pictured here displays the entire name of an effect or setting, which helps users to find their preferred settings and effects.
Rackmounts are most commonly used in recording studios and "front of house" live sound mixing situations, though professional musicians who play electric bass, electric guitar, or synthesizers may use them in place of stompboxes, to create a rackmounted head unit for their speaker cabinet(s). Rackmounts are controlled by knobs, switches or buttons on their front panel, and often by a MIDI digital control interface. During live performances, a musician can operate rackmounted effects using a "foot controller". By setting up effects in a rack-mounted road case, this speeds up set-up and tear-down, because all of the effects can be connected together with patch cords (which can be left connected permanently) and all of the units can be plugged into a power bar. This means that a musician only needs to plug in the main power bar into AC Mains power and plug their instrument into the rack, and the last effect unit's output into their instrument amplifier and/or the PA system.
"Shock mount" racks are designed for musicians who frequently move gear between venues. Shock mounts help to protect electronic devices from bumps during transportation. Devices that are less than 19 inches wide may use special "ear" adapters to mount on a rack.
Even in the 2010s, the vintage Fender Bandmaster remains a sought-after amp by guitarists (pictured is a 1968 model). Note the four inputs, two for regular sound and two which are run through the onboard vibrato effect unit.
Effects are often incorporated into amplifiers and even some types of instruments. Electric guitar amplifiers typically have built-in reverb and distortion, while acoustic guitar and keyboard amplifiers tend to only have built-in reverb. Some acoustic instrument amplifiers have reverb, chorus, compression and equalization (bass and treble) effects. Vintage guitar amps (and their 2010-era reissued models) typically have tremolo and vibrato effects, and sometimes reverb. The Fender Bandmaster Reverb amp, for example, had built-in reverb and vibrato. Built-in effects may offer the user less control than standalone pedals or rackmounted units. For example, on some lower- to mid-priced bass amplifiers, the only control on the audio compression effect is a button or switch to turn it on or off, or a single knob. In contrast, a pedal or rackmounted unit would typically provide ratio, threshold and attack knobs and sometimes "soft knee" or other options to allow the user to control the compression.
Since the 2000s, guitar amplifiers began having built-in multi-effects units or digital modeling effects. Bass amplifiers are less likely to have built-in effects, although some may have a compressor/limiter or fuzz bass effect. Bass amps from the 1980s sometimes included built-in bass chorus.
Instruments with built-in effects include Hammond organs, electronic organs, electronic pianos and digital synthesizers. Built-in effects for keyboard typically include reverb, chorus and, for Hammond organ, vibrato. Many "clonewheel organs include an overdrive effect. Occasionally, acoustic-electric and electric guitars will have built-in effects, such as a preamp or equalizer.
Multi-effects and tabletop units
Boss ME-50 guitar multi-effects pedal
A multi-effects device (also called a "multi-FX" device) is a single electronics effects pedal or rackmount device that contains many different electronic effects. Multi-FX devices allow users to "preset" combinations of different effects, allowing musicians quick on-stage access to different effects combinations. Multi-effects units typically have a range of distortion, chorus, flanger, phaser and reverb effects. The most expensive multi-effects units may also have looper functions. Pedal-style multieffects range from fairly inexpensive stompboxes that contain two pedals and a few knobs to control the effects to large, expensive floor units with many pedals and knobs. Rackmounted multieffects units are typically mounted in a rack. Guitarists and bassists may mount their rackmounted multieffects unit in the same rack with their preamplifier and power amplifier.
A tabletop unit is a type of multi-effects device that sits on a desk and is controlled manually. One such example is the Pod guitar amplifier modeler. Digital effects designed for DJs are often sold in tabletop models, so that the units can be placed alongside a DJ mixer, turntables and CD scratching gear. For a DJ, a pedal located on the floor would not be practical because she/he would find it hard to adjust the knobs.
In 1964, Dave Davies (second from left), lead guitarist of The Kinks, famously achieved a distorted sound on "You Really Got Me" by slashing the cones of his guitar amplifier with a razor blade.
Studio effects and early stand alone units
The earliest sound effects were strictly studio productions. In the mid to late 1940s, recording engineers and experimental musicians such as Les Paul began manipulating reel-to-reel recording tape to create echo effects and unusual, futuristic sounds. Microphone placement ("miking") techniques were used in spaces with specially designed acoustic properties to simulate echo chambers. In 1948 DeArmond released the Trem-Trol, the first commercially available stand-alone effects unit. This device produced a tremolo by passing an instrument's electrical signal through a water-based electrolytic fluid. Most stand-alone effects of the 1950s and early 60s such as the Gibson GA-VI vibrato unit and the Fender reverb box, were expensive and impractical, requiring bulky transformers and high voltages. The original stand-alone units were not especially in-demand as many effects came built into amplifiers. The first popular stand-alone was the 1958 Watkins Copicat, a relatively portable tape echo effect made famous by the British band, The Shadows.
A Fender Vibrolux Reverb amp and a ROSS amp
Guitar amplifier built-in effects were the first effects that musicians used regularly outside the studio. From the late 1940s onward, the Gibson Guitar Corp. began including vibrato circuits in combo amplifiers. The 1950 Ray Butts EchoSonic amp was the first to feature the "slapback" echo sound, which quickly became popular with guitarists such as Chet Atkins, Carl Perkins, Scotty Moore, Luther Perkins, and Roy Orbison. By the 1950s, tremolo, vibrato and reverb were available as built-in effects on many guitar amplifiers. Both Premier and Gibson built tube-powered amps with spring reverb. Fender began manufacturing the tremolo amps Tremolux in 1955 and Vibrolux in 1956.
Distortion was not an effect originally intended by amplifier manufacturers, but could often easily be achieved by "overdriving" the power supply in early tube amplifiers. In the 1950s, guitarists began deliberately increasing gain beyond its intended levels to achieve "warm" distorted sounds. Among the first musicians to experiment with distortion were Willie Johnson of Howlin' Wolf, Goree Carter, Joe Hill Louis, Ike Turner, Guitar Slim, and Chuck Berry.
In 1954 Pat Hare produced heavily distorted power chords for several recordings (including James Cotton's Cotton Crop Blues"), creating "a grittier, nastier, more ferocious electric guitar sound," accomplished by turning the volume knob on his amplifier "all the way to the right until the speaker was screaming." Link Wray's 1958 recording "Rumble" inspired young musicians such as Pete Townshend of The Who, Jimmy Page of Led Zeppelin, Jeff Beck, Dave Davies of The Kinks, and Neil Young to explore distortion. Davies would famously doctor the speakers of his amp by slitting them with a razor blade to achieve a grittier guitar sound on the 1964 song "You Really Got Me". In 1966, the British company Marshall Amplification began producing the Marshall 1963, a guitar amplifier capable of producing the distorted "crunch" that rock musicians were starting to seek.
The Fuzz Face effect pedal.
The electronic transistor finally made it possible to cram the aural creativity of the recording studio into small, highly portable stompbox units. Transistors replaced vacuum tubes, allowing for much more compact formats and greater stability. The first transistorized guitar effect was the 1962 Maestro Fuzz Tone pedal, which became a sensation after its use in the 1965 Rolling Stones hit "(I Can't Get No) Satisfaction".
Warwick Electronics manufactured the first wah-wah pedal, The Clyde McCoy, in 1967 and that same year Jim Morris of Kelsey-Morris Sound developed the first octave effect, which Jimi Hendrix named "Octavio". In 1968, Univox began marketing Shin-ei's Uni-Vibe pedal, an effect designed by noted audio engineer Fumio Mieda that mimicked the odd phase shift and chorus effects of the Leslie rotating speakers used in Hammond organs. The pedals soon became favorite effects of guitarists Jimi Hendrix and Robin Trower. Upon first hearing the Octavia, Hendrix allegedly rushed back to the studio and immediately used it to record the guitar solos on "Purple Haze" and "Fire". In 1976, Roland subsidiary Boss Corporation released the CE-1 Chorus Ensemble, the first chorus pedal, created by taking a chorus circuit from an amplifier and putting it into a stompbox. By the mid-1970s a variety of solid-state effects pedals including flangers, chorus pedals, ring modulators and phase shifters were available.
Several Boss pedals connected together.
In the 1980s, digital rackmount units began replacing stompboxes as the effects format of choice. Often musicians would record "dry", unaltered tracks in the studio and effects would be added in post-production. The success of Nirvana's 1991 album Nevermind helped to re-ignite interest in stompboxes. Some grunge guitarists would chain several fuzz pedals together and plug them into a tube amplifier. Throughout the 1990s, musicians committed to a "lo-fi" aesthetic such as J Mascis of Dinosaur Jr., Stephen Malkmus of Pavement and Robert Pollard of Guided by Voices continued to use analog effects pedals.
Effects and effects units—stompboxes in particular—have been celebrated by pop and rock musicians in album titles, songs and band names. The Big Muff, a classic fuzzbox manufactured by Electro-Harmonix, is commemorated by the Depeche Mode song "Big Muff" and the Mudhoney EP Superfuzz Bigmuff. Nine Inch Nails, Pink Floyd, George Harrison, They Might Be Giants and Joy Division are among the many musicians who have referenced effects units in their music.
Power chords played "clean" and with fuzz
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"Clipping" an instrument's audio signal produces distortion
Distortion effects create warm, gritty, and fuzzy sounds by "clipping" an instrument's audio signal, which distorts the shape of its wave form and adds overtones. Distortion effects are sometimes called "gain" effects, as distorted guitar sounds were first achieved by increasing the electric power supply, e.g. gain, to tube amplifiers.
Distortion and overdrive: Distortion and overdrive units re-shape or "clip" an audio signal's wave form so that it has flattened peaks, creating "warm" sounds by adding harmonics or "gritty" sounds by adding inharmonic overtones. In tube amplifiers, distortion is created by compressing the instrument's out-going electrical signal in vacuum tubes or "valves". Distortion pedals produce perfectly flattened peaks or "hard" clipping. Overdrive pedals produce "soft” tube-like distortion by compressing the sine wave without completely flattening it. Much like tube amps, overdrive units produce "clean" sounds at quieter volumes and distorted "warm" sounds at louder volumes. Distortion and overdrive pedals may either be transistor-based or digital. While distortion pedals are most associated with electric guitar, they are also used with bass guitar (fuzz bass), Hammond organ and electric piano.
Distortion and overdrive effects: Boss DS-1 Distortion, Ibanez Tube Screamer, Marshall ShredMaster, MXR Distortion +, Pro Co RAT.
Fuzz: A fuzz pedal or "fuzzbox" is a type of overdrive pedal that clips a sound-wave until it is nearly a squarewave, resulting in a heavily distorted or "fuzzy" sound. Fuzzboxes may contain frequency multiplier circuitry to achieve a harsh timbre by adding complex harmonics. The Rolling Stones' "(I Can't Get No) Satisfaction" greatly popularized the use of fuzz effects. Fuzz bass (also called "bass overdrive") is a style of playing the electric bass that produces a buzzy, overdriven sound via a tube or transistor amp or by using a fuzz or overdrive pedal.
Fuzz effects: Arbiter Fuzz Face, Electro-Harmonix Big Muff, Shin-ei Companion FY-2, Univox Super-Fuzz, Vox Tone Bender, Z.Vex Fuzz Factory.
A rack of rackmount audio compressors in a recording studio. From top to bottom: Retro Instruments/Gates STA level; Spectra Sonic; Dbx 162; Dbx 165; Empirical Labs Distressor; Smart Research C2; Chandler Limited TG1; Daking FET (91579); and Altec 436c.
Also called volume and amplitude effects, dynamics effects modify the volume of an instrument. Dynamics effects were among the first effects introduced to guitarists.
Boost/volume pedal: A boost or "clean boost" pedal amplifies the volume of an instrument by increasing the amplitude of its audio signal. These units are generally used for "boosting" volume during solos and preventing signal loss in long "effects chains". A guitarist switching from rhythm guitar to lead guitar for a guitar solo may use a boost to increase the volume of his or her solo.
Treadle-based volume pedals are used by electric instrument players (guitar, bass, keyboards) to adjust the volume of their instrument with one foot while their hands are being used to play their instrument. Treadle-style volume pedals are often also used to create swelling effects by removing the attack of a note or chord, as popularised by pedal steel guitar players. This enables electric guitar and pedal steel players to imitate the soft swelling sound that an orchestra string section can produce, in which a note or chord starts very softly and then grows in volume. Treadle-based volume pedals do not usually have batteries or require external power. Volume effects: Electro-Harmonix LPB-1, Fender Volume Pedal, MXR Micro Amp, Ernie Ball Volume Pedal.
Compressor: Compressors make loud sounds quieter and quiet sounds louder by decreasing or "compressing" the dynamic range of an audio signal. A compressor is often used to stabilize volume and smooth a note's "attack" by dampening its onset and amplifying its sustain. A compressor can also function as a limiter with extreme settings of its controls.
Compressor effects: Keeley Compressor, MXR Dyna Comp, Boss CS-3 Compression Sustainer.
Noise gate: Noise gates attenuate hum, hiss, and static in the signal by greatly diminishing the volume when the signal falls below a set threshold. Noise gates are often used by electric guitarist who play with vintage amps, which can have unwanted hum in the tone, and by guitarists from heavy metal who use high distortion levels, which add noise to the signal even when no notes are being played. Noise gates mute the signal when it falls below a certain threshold. This means that during bars of rest for the guitarist in a song, the hum or noise from the amp or distortion pedal will not be heard by the audience. Noise gates are expanders—meaning that, unlike compressors, they increase the dynamic range of an audio signal to make quiet sounds even quieter. If used with extreme settings and combined with reverb, they can create unusual sounds, such as the gated drum effect used in 1980s pop songs, a style popularized by the Phil Collins song In the Air Tonight.
Noise gate effects: Boss NS-2 Noise Suppressor.
Peter Frampton's Talk box
Filter effects alter the frequency content of an audio signal that passes through them by either boosting or weakening specific frequencies or frequency regions.
Equalizer: An equalizer is a set of linear filters that strengthen ("boost") or weaken ("cut") specific frequency regions. While basic home stereos often have equalizers for two bands, to adjust bass and treble, professional graphic equalizers offer much more targeted control over the audio frequency spectrum. Audio engineers use highly sophisticated equalizers to eliminate unwanted sounds, make an instrument or voice more prominent, and enhance particular aspects of an instrument's tone.
Equalizer effects: Boss GE-7 Equalizer, MXR 10-band EQ Pedal.
Thomas Organ Cry Baby (1970) manufactured by JEN
Talk box: A talk box directs the sound from an electric guitar or synthesizer into the mouth of a performer using a tube, allowing him or her to shape the sound into vowels and consonants with his or her mouth. The modified sound is then picked up by a microphone. In this way the guitarist is able create the effect that her or his guitar "licks" are "talking". Some famous uses of the talkbox include Bon Jovi's "Livin' on a Prayer", Stevie Wonder's "Black Man", Mötley Crüe's "Kickstart My Heart", Joe Walsh's "Rocky Mountain Way", Alice in Chains's "Man in the box" and Peter Frampton's "Show Me the Way".
Talk boxes: Dunlop HT1 Heil Talk Box, Rocktron Banshee.
Wah-wah: A wah-wah pedal creates vowel-like sounds by altering the frequency spectrum produced by an instrument—i.e., how loud it is at each separate frequency—in what is known as a spectral glide or "sweep". The device is operated by a foot treadle that opens and closes a potentiometer. Wah-wah pedals are often used by funk and rock guitarists.
Wah effects: Dunlop Cry Baby, Morley Power Wah, Musitronics Mu-Tron III.
Chorus effect on guitar, coming from an Electro-Harmonix Small Clone
A short synthesizer sample followed by two flanging versions
Unprocessed organ followed by different phasing effects
Ring modulation effect
Notice the bell-like sound
A low-frequency oscillator modulating a tremolo (synthesizer)
A low-frequency oscillator modulating a vibrato (synthesizer)
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Modulation, in general electronics, means the altering of signal strength. In audio devices, modulation is a control feature that varies the strength of some effect over time to alter tonal properties. Some modulation effects mix ("modulate") an instrument's audio signal with a signal generated by the effect called a carrier wave. Other modulation effects split an instrument's audio signal in two, altering one portion of the signal and mixing it with the unaltered portion.
Chorus: Chorus pedals mimic the effect choirs and string orchestras produce naturally, by having slight variations in timbre and pitch, by mixing sounds with slight differences in timbre and pitch. A chorus effect splits the instrument-to-amplifier audio signal, and adds a slight delay and frequency variations or "vibrato" to part of the signal while leaving the rest unaltered. A well-known usage of chorus is the lead guitar in "Come As You Are" by Nirvana.
Chorus effects: Boss CE-1 Chorus Ensemble, Electro-Harmonix Small Clone, TC Electronic Stereo Chorus.
Flanger: A flanger creates a "whooshing" "jet plane" or "spaceship" sound, simulating a studio effect that was first produced by recording a track on two synchronized tapes and periodically slowing one tape by pressing the edge of its reel (the "flange"). When the two tapes' audio signals are later mixed, a comb filter effect can be heard. Flanger units add a variably delayed version of the audio signal to the original or signal, creating a comb filter or Doppler effect. Some famous uses of flanger effects include "Walking on the Moon" by The Police, the intro to "Ain't Talkin' 'Bout Love" by Van Halen, and "Barracuda" by Heart.
Flanger effects: Electro-Harmonix Electric Mistress, MXR Flanger, Boss BF-3 Flanger.
An MXR-101 Phaser pedal
Phaser: A phaser or "phase shifter" creates a slight rippling effect—amplifying some aspects of the tone while diminishing others—by splitting an audio signal in two and altering the phase of one portion. Three well-known examples of phaser are the two handed tapping part on the Van Halen instrumental "Eruption" and the keyboard parts on Billy Joel's "Just the Way You Are" and Paul Simon's "Slip Slidin' Away".
Phase shift effects: Uni-Vibe, Electro-Harmonix Small Stone, MXR Phase 90.
Ring modulator: A ring modulator produces a resonant, metallic sound by mixing an instrument's audio signal with a carrier wave generated by the device's internal oscillator. The original sound wave is suppressed and replaced by a "ring" of inharmonic higher and lower pitches or "sidebands". A notable use of ring modulation is the guitar in the Black Sabbath song "Paranoid".
Ring modulator effects: Moogerfooger MF-102 Ring Modulator.
Tremolo: A tremolo effect produces a slight, rapid variation in the volume of a note or chord. The "tremolo effect" should not be confused with the misleadingly-named "tremolo bar", a device on a guitar bridge that creates a vibrato or "pitch-bending" effect. In transistorized effects, a tremolo is produced by mixing an instrument's audio signal with a sub-audible carrier wave in such a way that generates amplitude variations in the sound wave. Tremolo effects are built-in effects in some vintage guitar amplifier. The guitar intro in the Rolling Stones' "Gimme Shelter" features a tremolo effect.
Tremolo effects: Demeter TRM-1 Tremulator, Fender Tremolux.
Vibrato: Vibrato effects produce slight, rapid variations in pitch, mimicking the fractional semitone variations produced naturally by opera singers and violinists when they are prolonging a single note. Vibrato effects often allow the performer to control the rate of the variation as well as the difference in pitch (e.g. "depth"). A vibrato with an extreme "depth" setting (e.g., half a semitone or more) will produce a dramatic, ululating sound. In transistorized effects, vibrato is produced by mixing an instrument's audio signal with a carrier wave in such a way that generates frequency variations in the sound wave. Guitarists often use the terms "vibrato" and "tremolo" misleadingly. A so-called "vibrato unit" in a guitar amplifier actually produces tremolo, while a "tremolo arm" or "whammy bar" on a guitar produces vibrato.
Vibrato effects: Boss VB-2 Vibrato.
An Electro-Harmonix Polyphonic Octaver Generator (POG)
Pitch/frequency effects modify pitch by altering the frequency of a sound wave or sound signal or adding new harmonies.
Pitch shifter and harmonizer: A pitch shifter (also called an "octaver" for effects that shift pitch by an octave) raises or lowers (e.g. "transposes") each note a performer plays by a pre-set interval. For example, a pitch shifter set to increase the pitch by a fourth will raise each note four diatonic intervals above the notes actually played. Simple, less expensive pitch shifters raise or lower the pitch by one or two octaves, while more sophisticated and expensive devices offer a range of interval alterations. A pitch shifter can be used by an electric guitarist to play notes that would normally only be available on an electric bass. As well, a bass player with a four string electric bass can use an octave pedal to obtain low notes that would normally only be obtainable with a five-string bass with a low "B" string.
A harmonizer is a type of sophisticated pitch shifter that combines the altered pitch with the original pitch to create a two note harmony based on the original pitch, or even with some pedals, three note harmony. Some hamonizers are able to create chorus-like effects by adding very tiny shifts in pitch.
Pitch shift effects: DigiTech Whammy, Electro-Harmonix POG.
Time-based effects delay the sound signal, add reverb or echos, or, if a long delay is possible, enable musicians to record "loops".
Folded line spring reverberation
A flute before and after delay
Reverb with increasingly longer decay times
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Delay/echo: Delay/echo units produce an echo effect by adding a duplicate instrument-to-amplifier electrical signal to the original signal at a slight time-delay. The effect can either be a single echo called a "slap" or "slapback," or multiple echos. A well-known use of delay is the lead guitar in the U2 song "Where the Streets Have No Name", and also the opening riff of "Welcome To The Jungle" by Guns N'Roses.
Delay effects: Boss DD-3 Digital Delay, MXR Carbon Copy, Electro-Harmonix Deluxe Memory Man, Line 6 DL4, Roland RE-201.
Looper pedal: A looper pedal or "phrase looper" allows a performer to record and later replay a phrase, riff or passage from a song. Loops can be created on the spot during a performance (live looping) or they can be pre-recorded. By using a looper pedal, a singer-guitarist in a one person band can play the backing chords (or riffs) to a song, loop them with the pedal, and then sing and do a guitar solo over the chords. Some units allow a performer to layer multiple loops, enabling the performer to create the effect of a full band. The first loop effects were created with reel-to-reel tape using a tape loop. High-end boutique tape loop effects are still used by some studio producers who want a vintage sound. Digital loop effects recreate this effect using an electronic memory.
Looper effects: Boss RC-30 Loop Station.
A vintage Echoplex EP-2 delay effect
Reverb: Reverb units simulate the spacious sounds produced naturally in a huge stone cathedral (or other acoustic space such as a hall or room). This is done by creating a large number of echoes that gradually fade away in volume or "decay". One early technique for creating a reverb effect was to send an amplified signal of the music via a speaker to another room with reflective surfaces, such as a tile bathroom, and then record the natural reverberations that were produced. A plate reverb system uses an electromechanical transducer to create vibrations in a plate of metal. Spring reverb systems, which are often used in guitar amplifiers, use a transducer to create vibrations in a spring. Digital reverb effects use various signal processing algorithms to create the reverb effect, often by using multiple feedback delay circuits. Rockabilly and surf guitar are two genres that make heavy use of reverb.
Reverb effects: Electro-Harmonix Holy Grail, Fender Reverb Unit.
Audio feedback: Audio feedback is an effect produced when amplified sound is picked up by a microphone or guitar pickup and played back through an guitar amplifier, initiating a "feedback loop", which usually consists of high-pitched sound. Feedback that occurs from a vocal mic into a PA system is almost always avoided. However, in some styles of rock music, electric guitar players intentionally create feedback by playing their instrument directly in front of a heavily amplified, distorted guitar amplifier's speaker enclosure. The creative use of feedback effects was pioneered by guitarists such as Jimi Hendrix in the 1960s. This technique creates sustained, high-pitched overtones and unusual sounds not possible through regular playing techniques. Guitar feedback effects can be difficult to perform, because it is difficult to determine the sound volume and guitar position relative to a guitar amp's loudspeaker necessary for achieving the desired feedback sound. Guitar feedback effects are used in a number of rock genres, including psychedelic rock, heavy metal music and punk rock.
An EBow guitar string resonator.
EBow is a brand name of Heet Sound Products, of Los Angeles, California, for a small, handheld, battery-powered resonator. The Ebow was invented by Greg Heet, as a way to make a note on an electric guitar string resonate continuously, creating an effect that sounds similar to a bowed violin note or a sustained pipe organ note. The resonator uses a pickup - inductive string driver - feedback circuit, including a sensor coil, driver coil, and amplifier, to induce forced string resonance. The Ebow brand resonator is monophonic, and drives only one string at a time.
Other handheld guitar and bass resonators on the market, manufactured under the tradename SRG, produced by Aescher Europa, in Germany, are available in both monophonic (one note at a time) and polyphonic (multiple notes at once) models, which include multiple onboard trigger switch effects, such as HPF (high pass filter) for enhancing harmonics and producing feedback effects, and LPF (low pass filter), producing a bass boost with a cello sound on heavy gauge strings. Later EBow models, such as the plus Ebow, contain a mode slide switch on the back, which allows the player to either produce just sustain or overtone feedback in addition to sustain.
Many compressor pedals are often also marketed as "sustainer pedals". As a note is sustained, it loses energy and volume due to diminishing vibration in the string. The compressor pedal boosts its electrical signal to the specified dynamic range, slightly prolonging the duration of the note. This, combined with heavy distortion and the close proximity of the guitar and the speaker cabinet, can lead to infinite sustain at higher volumes.
Envelope follower: An envelope follower activates an effect once a designated volume is reached. One effect that uses an envelope follower is the auto-wah, which produces a "wah" effect depending on how loud or soft the notes are being played.
A Line 6 modeling amplifier shown from above. Note the various amplifier and speaker emulations selectable via the rotary knob on the left.
Guitar amplifier modeling: Amplifier modeling is a digital effect that replicates the sound of various amplifiers, most often vintage analog "tube" amps and famous brands of speaker cabinets (e.g., the Ampeg SVT 8x10" bass cabinet). Sophisticated modeling effects can simulate different types of speaker cabinets (e.g., the sound of an 8x10" cabinet) and miking techniques. A rotary speaker simulator mimics the doppler and chorus effect sound of a vintage Leslie speaker system by replicating its volume and pitch modulations, overdrive capacity and phase shifts.
Pitch correction/vocal effects: Pitch correction effects use signal-processing algorithms to re-tune faulty intonation in a vocalist's performance  or create unusual vocoder-type vocal effects. One of the best known examples of this is Autotune, a software program and effect unit which can be used to both correct pitch (it moves a pitch to the nearest semitone), and add vocal effects. Some stompbox-style vocal pedals contain multiple effects, such as reverb and pitch correction.
Simulators: Simulators enable electric guitars to mimic the sound of other instruments such as acoustic guitar, electric bass and sitar. Pick up simulators used on guitars with single-coil pick ups replicate the sound of guitars with humbucker pick ups, or vice versa. A de-fretter is a bass guitar effect that simulates the sound of a fretless bass. The effect uses an envelope-controlled filter and voltage-controlled amplifier to "soften" a note's attack both in volume and timbre.
A rotating Leslie speaker in a clear plastic cabinet. Typically, the Leslie is mounted in a wooden cabinet.
Rotating speakers are specially constructed amplifier/loudspeakers used to create special audio effects using the Doppler effect by rotating the speakers or a sound-directing duct. The rotating speaker creates a chorus-type effect. Named after its inventor, Donald Leslie, it is particularly associated with the Hammond organ but is used with a variety of instruments as well as vocals. The Hammond/Leslie combination has become an element in many genres of music. The Leslie Speaker and the Hammond Organ brands are currently owned by Suzuki Musical Instrument Corporation. The stompbox that simulates this effect is the Uni-Vibe pedal.
The Korg Kaoss Pad is a small touchpad MIDI controller, sampler, and effects processor for audio and musical instruments, made by Korg. The Kaoss Pad's touchpad can be used to control its internal effects engine, which can be applied to a line-in signal or to samples recorded from the line-in. Effects types include pitch shifting, distortion, filtering, wah-wah, tremolo, flanging, delay, reverberation, auto-panning, gating, phasing, and ring modulation. The Kaoss Pad can also be used as a MIDI controller.
A selection of bass effect pedals at a music store.
Main article: Bass effects
Bass effects are electronic effects units that are designed for use with the low pitches created by an electric bass or for an upright bass used with a bass amp or PA system. Two examples of bass effects are fuzz bass and bass chorus. Some bass amplifiers have built-in effects, such as overdrive or chorus. Upright bassists in jazz, folk, blues and similar genres may use a bass preamplifier, a small electronic device that matches the impedance between the piezoelectric pickup and the amp or PA system. Bass preamps also allow for the gain of the signal to be boosted or cut. Some models also offer equalization controls, a compressor, and a DI box connection.
T-Rex brand "Mudhoney" overdrive pedal
Boutique pedals are designed by smaller, independent companies and are typically produced in limited quantities. Some may even be hand-made, with hand-soldered connections. These pedals are mainly distributed online or through mail-order, or sold in a few music stores. They are often more expensive than mass-produced pedals and offer non-standard features such as true-bypass switching, higher-quality components, innovative designs, in-house-made knobs and hand-painted artwork or etching. Some boutique companies focus on re-creating classic or vintage effects.
Some boutique pedal manufacturers include: Analog Man, BJFE, Pete Cornish, Emlyn Crowther, Death By Audio, Devi Ever, Robert Keeley, Roger Linn, Roger Mayer, Strymon, T-Rex Engineering, ToadWorks and Z.Vex Effects.
There is also a niche market for modifying or "modding" effects. Typically, vendors provide either custom modification services or sell new effects pedals they have already modified. The Ibanez Tube Screamer, Boss DS-1, Pro Co RAT and DigiTech Whammy are some of the most often-modified effects. Common modifications include value changes in capacitors or resistors, adding true-bypass so that the effect's circuitry is no longer in the signal path, substituting higher-quality components, replacing the unit's original operational amplifiers (op-amps), or adding functions to the device, such as allowing additional control of some factor or adding another output jack.
Other pedals and rackmount units
Some rock and pop guitarists and bassists use "stompbox" format electronic tuners.
Not all stompboxes and rackmounted electronic devices designed for musicians are effects. Strobe tuner and regular electronic tuner pedals indicate whether a guitar string is too sharp or flat. Stompbox-format tuner pedals route the electric signal for the instrument through the unit via a 1/4" patch cable. These pedal-style tuners usually have an output so that the signal can be plugged into a guitar amp to produce sound. Rackmount power conditioner devices deliver a voltage of the proper level and characteristics to enable equipment to function properly (e.g., by providing transient impulse protection). A rackmounted wireless receiver unit is used to enable a guitarist or bassist to move around on stage without being connected to a cable. A footswitch pedal such as the "A/B" pedal routes a guitar signal to an amplifier or enables a performer to switch between two guitars, or between two amplifiers.
This footswitch controls an effect (distortion), but it is not an effects pedal as the case does not contain effects circuitry; it is just a switch.
Guitar amplifiers and electronic keyboards may have switch pedals for turning built-in reverb and distortion effects on and off; the pedals contain only a switch, with the circuitry for the effect being housed in the amplifier chassis. Some musicians who use rackmounted effects or laptops employ a MIDI controller pedalboard or armband remote controls to trigger sound samples, switch between different effects or control effect settings. A pedal keyboard uses pedals, but it is not an effect unit; it is a foot-operated keyboard in which the pedals are typically used to play bass lines.
Outboard gear — for more generic article
Audio signal processing
Acoustic wave — for natural audio effects
Vintage musical equipment
Digital signal processor
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