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Synthesizers Production Hardware Guide
The Synthesizers Production Hardware Guide is a comprehensive guide to help you with the powerful technology known as synthesis. | Homepage | Yamaha Motif | Roland Fantom | Korg Triton | AKAI MPC 2000 XL | Roland MV-8000 | Roland MC-909 | Roland SP-606 | Synthsizers | Digital Recorders | Microphones | DVD Recording Software What Is A Synthesizer (Synth)? A synth is an electronic musical instrument designed to produce artificially generated sound, using techniques such as additive, subtractive, FM, physical modelling synthesis, or phase distortion to create sounds. Lil’ Jon has locked the market down with the synth sound in his production! Synths create sounds through direct manipulation of electrical currents (as in a analog synthesizer), mathematical manipulation of discrete values using computers (as in software synths), or by a combination of both methods. In the final stage of the synthesizer, electrical currents are used to cause vibrations in the diaphragms of loudspeakers, headphones, etc. Hear is a music track I produced with my Roland V-Synth XT. Synthesized sound is contrasted with recording of natural sound, where the mechanical energy of a sound wave is transformed into a signal which will then be converted back to mechanical energy on playback (though sampling significantly blurs this distinction). Here is a list of the different types of synthesis:
Notable Synthesizer Manufactures - Past and Present Synthesizers Production Hardware Guide
A Little Synthesizer History Early synths used technology derived from electronic analog computers and laboratory test equipment.
In the 1950s, RCA produced experimental devices to synthesize both voice and music. The Mark II Music Synthesizer (1958) was only capable of producing music once it had been completely programmed; that is, the system had to be completely re-set for each new piece. A wide paper tape was punched with holes that controlled pitch sources and filters, similar to a mechanical player piano but with far greater control over timbre. In 1958 Daphne Oram at the BBC Radiophonic Workshop produced a novel synthesizer using her "Oramics" technique, driven by drawings on a 35mm film strip. This was used for a number of years at the BBC. Hugh Le Caine, John Hanert, Raymond Scott, Percy Grainger (with Burnett Cross), and others built a variety of automated electronic-music controllers during the late 1940s and 1950s. By the 1960s, synths were developed which could be played in real time but were confined to studios because of their size. Modularity was the usual design, with standalone signal sources and processors being connected with patch cords or by other means, and all controlled by a common controlling device. Early synths were often experimental special-built devices, usually based on the concept of modularity. Donald Buchla, Hugh Le Caine, Raymond Scott and Paul Ketoff were among the first to build such instruments, in the late 1950s and early 1960s. Only Buchla later produced a commercial version. The first playable modern configurable music synth was created by Robert Moog and displayed at the Audio Engineering Society convention in 1964. It took hours to set up the machine for a new sound. The Moog synthesizer was at first a curiosity, but by 1968 it had caused a sensation. Among the first music performed on this synthesizer was the million-selling 1968 album Switched-On Bach by Wendy Carlos. Switched-On Bach was one of the most popular classical-music recordings ever made. During the late 1960s, hundreds of other popular recordings used Moog synth sounds. The Moog synth even spawned a subculture of record producers who made novelty "Moog" recordings, depending on the odd new sounds made by their synthesizers (which were not always made by Moog) to draw attention and sales. Moog also established standards for control interfacing, with a logarithmic 1-volt-per-octave pitch control and a separate pulse triggering signal. This standardization allowed synths from different manufacturers to operate together. Pitch control is usually performed either with an organ-style keyboard or a music sequencer, which produces a series of control voltages over a fixed time period and allows some automation of music production. Other early commercial synth manufacturers included ARP, who also started with modular synthesizers before producing all-in-one instruments, and British firm Electronic Music Systems. One major innovation by Moog was in 1970, when they made a synthesizer with a built-in keyboard and without modular design--the analog circuits were retained, but made interconnectable with switches in a simplified arrangement called "normalization". Though less flexible than modularity, it made the instrument more portable and its use much easier. This first prepatched synth, the Minimoog, became very popular, with over 12,000 units sold. The Minimoog also influenced the design of nearly all subsequent synthesizers. In the 1970s miniaturized solid-state components let synths become self-contained and movable. They began to be used in live performances. Soon, electronic synthesizers had become a standard part of the popular-music repertoire, with Giorgio Moroder's "Son of my Father" the first #1 hit to feature a synthesizer (Shapiro, 2000). By 1984, Raymond Kurzweil, on suggestion from Stevie Wonder, created the first synthesizer that could duplicate the sounds of "real" orchestral instruments, so much so that trained conductors and musicians were incapable of distinguishing the Kurzweil synth from the real thing. Synthesizers Production Hardware Guide | |
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