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Moog also made servo-actuators for four Space Shuttles. Moog provided a control and motion system for the Wimbledon Centre Court retracting roof. This consisted of about 150 axes of AC servo-controlled electric actuators, AC servomotors, AC servodrives and the complete motion control system, including software.
The Moog Source is a ... The Source was made in at least 2 versions the latter offering more voltage control options. ... and with the latest software update a MIDI ...
Occasionally a new system software release is made available, which can be downloaded from Moog Music's website and sent to the Voyager via MIDI. Recent software versions allow complex internal patching of control voltages, a very powerful and convenient feature for the user. Also available is the VX-351 Voyager Expander, an external box that ...
The Micromoog also features the Moog Open System control inputs, a pre-MIDI control system, which enables the unit to control or be controlled by other Moog synthesizers, even suggesting using it with Moog modules and sequencer. Unusually, the CV inputs were designed to operate at 0.95V per octave – the idea being that the 1V/octave outputs ...
In 1992, the German company Lintronics, in association with the then Bob Moog-owned company Big Briar, introduced the Lintronics Advanced Memory Moog upgrade (LAMM), an extensive rebuild of the original hardware and software of both stock Memorymoog versions, with claims of far greater reliability and tuning stability, achieved mainly through ...
The Minimoog is an analog synthesizer first manufactured by Moog Music between 1970 and 1981. Designed as a more affordable, portable version of the modular Moog synthesizer, it was the first synthesizer sold in retail stores.
Moog features such as voltage-controlled oscillator, envelopes, noise generators, filters and sequencers became standards in the synthesizer market. [3] [11] The ladder filter has been replicated in hardware synthesizers, [12] digital signal processors, [13] field-programmable gate arrays [14] and software synthesizers. [15]
The typical use of MOOG is to assist in the determination of the chemical composition of a star, e.g. Sneden (1973). [1] This paper contains also the description of the first version of the code and has been cited about 240 times as of 2008-04-24 by publications in international journals studying the abundances of chemical elements in stars.