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Synthesizer

A synthesizer (also spelled synthesiser)[1] is an electronic musical instrument that generates audio signals. Synthesizers typically create sounds by generating waveforms through methods including subtractive synthesis, additive synthesis and frequency modulation synthesis. These sounds may be altered by components such as filters, which cut or boost frequencies; envelopes, which control articulation, or how notes begin and end; and low-frequency oscillators, which modulate parameters such as pitch, volume, or filter characteristics affecting timbre. Synthesizers are typically played with keyboards or controlled by sequencers, software or other instruments and may be synchronized to other equipment via MIDI.

This article is about the musical instrument. For other uses, see Synthesizer (disambiguation).

Synthesizer-like instruments emerged in the United States in the mid-20th century with instruments such as the RCA Mark II, which was controlled with punch cards and used hundreds of vacuum tubes. The Moog synthesizer, developed by Robert Moog and first sold in 1964, is credited for pioneering concepts such as voltage-controlled oscillators, envelopes, noise generators, filters, and sequencers. In 1970, the smaller, cheaper Minimoog standardized synthesizers as self-contained instruments with built-in keyboards, unlike the larger modular synthesizers before it.


In 1978, Sequential Circuits released the Prophet-5, which used microprocessors to allow users to store sounds for the first time. MIDI, a standardized means of synchronizing electronic instruments, was introduced in 1982 and remains an industry standard. The Yamaha DX7, launched in 1983, was a major success and popularized digital synthesis. Software synthesizers now can be run as plug-ins or embedded on microchips. In the 21st century, analog synthesizers returned to popularity with the advent of cheaper manufacturing.


Synthesizers were initially viewed as avant-garde, valued by the 1960s psychedelic and counter-cultural scenes but with little perceived commercial potential. Switched-On Bach (1968), a bestselling album of Bach compositions arranged for synthesizer by Wendy Carlos, took synthesizers to the mainstream. They were adopted by electronic acts and pop and rock groups in the 1960s and 1970s and were widely used in 1980s music. Sampling, introduced with the Fairlight synthesizer in 1979, has influenced genres such as electronic and hip hop music. Today, the synthesizer is used in nearly every genre of music and is considered one of the most important instruments in the music industry. According to Fact in 2016, "The synthesizer is as important, and as ubiquitous, in modern music today as the human voice."[2]

History[edit]

Precursors[edit]

As electricity became more widely available, the early 20th century saw the invention of electronic musical instruments including the Telharmonium, Trautonium, Ondes Martenot, and theremin.[3] In the late 1930s, the Hammond Organ Company built the Novachord, a large instrument powered by 72 voltage-controlled amplifiers and 146 vacuum tubes.[4] In 1948, the Canadian engineer Hugh Le Caine completed the electronic sackbut, a precursor to voltage-controlled synthesizers, with keyboard sensitivity allowing for vibrato, glissando, and attack control.[3]


In 1957, Harry Olson and Herbert Belar completed the RCA Mark II Sound Synthesizer at the RCA laboratories in Princeton, New Jersey. The instrument read punched paper tape that controlled an analog synthesizer containing 750 vacuum tubes. It was acquired by the Columbia-Princeton Electronic Music Center and used almost exclusively by Milton Babbitt, a composer at Princeton University.[3]

In , complex waveforms are generated by oscillators and then shaped with filters to remove or boost specific frequencies.[8] Subtractive synthesis is characterized as "rich" and "warm".[56]

subtractive synthesis

In , a large number of waveforms, usually sine waves, are combined into a composite sound.[8][57]

additive synthesis

In , also known as phase modulation, a carrier wave is modulated with the frequency of a modulator wave; the resulting complex waveform can, in turn, be modulated by another modulator, and this by another, and so on.[58] FM synthesis is characterized as "harsh", "glassy" and "chilly".[2]

frequency modulation (FM) synthesis

implemented in Casio CZ synthesizers, is similar to FM synthesis.[59]

Phase distortion synthesis

In , synthesizers modulate smoothly between digital representations of different waveforms, changing the shape and timbre.[60]

wavetable synthesis

In , instead of sounds being created by synthesizers, samples (digital recordings of sounds) are played back and shaped with components such as filters, envelopes and LFOs.[61]

sample-based synthesis

In , pioneered by the Prophet VS, users crossfade between different sound sources using controllers such as joysticks, envelopes and LFOs.[62]

vector synthesis

In , an audio sample is split into "grains", usually between one hundredth and one tenth of a second in length, which are recombined and played back.[63]

granular synthesis

In , a mathematical model of a physical sound source is created.[64]

physical modelling synthesis

Synthesizers generate audio through various forms of analog and digital synthesis.

Attack is the time taken for initial run-up of level from nil to peak, beginning when the note is triggered.

Decay is the time taken for the subsequent run down from the attack level to the designated sustain level.

Sustain is the level during the main sequence of the sound's duration, until the key is released.

Release is the time taken for the level to decay from the sustain level to zero after the key is released.

Clones[edit]

Synthesizer clones are unlicensed recreations of previous synthesizers, often marketed as affordable versions of famous musical equipment. Clones are available as physical instruments and software. Companies that have sold software clones include Arturia and Native Instruments. Behringer manufactures equipment modelled on instruments including the Minimoog, Pro-One, and TB-303, and drum machines such as the TR-808. Other synthesizer clones include the MiniMOD (a series of Eurorack modules based on the Minimoog), the Intellijel Atlantis (based on the SH-101), and the x0x Heart (based on the TB-303).[67]


Creating clones of older hardware is legal where the patents have expired.[67] In 1997, Mackie lost their lawsuit against Behringer[68] as copyright law in the United States did not cover their circuit board designs.[67]

Crombie, David (1986). New Complete Synthesizer. Omnibus Press.  0711907013.

ISBN

Gorges, Peter (2005). Programming Synthesizers. Germany, Bremen: Wizoobooks.  978-3-934903-48-7.

ISBN

Schmitz, Reinhard (2005). Analog Synthesis. Germany, Bremen: Wizoobooks.  978-3-934903-01-2.

ISBN

Shapiro, Peter (2000). . Caipirinha Productions, US. ISBN 1-891024-06-X.

Modulations: A History of Electronic Music: Throbbing Words on Sound

Kuit, Roland (2014). SoundLab I: The Electronic Studio. Publisher's number: 13664. The Netherlands, The Hague: Donemus.

Kuit, Roland (2014). SoundLab II: Architectures for Philosophers. Publisher's number: 13665. The Netherlands, The Hague: Donemus.

Kuit, Roland (2014). Laboratory of Patching: Illustrated Compendium of Modular Synthesis. Publisher's number: 13662. The Netherlands, The Hague: Donemus.

Kuit, Roland (2014). To be On, to be OFF, that's the SWITCH. Publisher's number: 13666. The Netherlands, The Hague: Donemus.

Sound Synthesis Theory wikibook

Archived 20 January 2016 at the Wayback Machine at Salford University

Principles of Sound Synthesis

Archived 11 June 2022 at the Wayback Machine

Synthesizer Tutorial