SU790012A1 - Voice signal generator for electromusical instrument - Google Patents

Description

one

The invention relates to a pulse technique, in particular, to devices for generating a reference frequency grid, and can be used to obtain a uniformly tempered scale of electrical instrument sounds.

Known electronic music generator, containing a pulse generator, three groups of digital frequency dividers, which are connected to a pulse generator in parallel t

A disadvantage of the known generator is the low stability of the frequency ratio of the signals.

The closest technical solution to this is a tone generator containing IV shaping channels, the first channel of which includes the generator and two octave frequency dividers, and the other channels sequentially turn on a controlled sinusoidal signal generator and two octave frequency dividers 2.

A disadvantage of the known generator is the low stability of the frequency ratio of the signals.

The aim of the invention is to increase the stability of the frequency ratio of the signals.

The goal is achieved by

5 that in the tone generator for an electromusical instrument containing N formation channels, the first of which included a generator and two frequency dividers in series, and a sinusoidal oscillator and two octave frequency dividers in series in the other formation channels, every channel

15 formations, except for the first one, introduced two series-connected frequency mixers, the first and second inputs of the first five of which, except the first input of the first frequency mixer

20 of the second channel of formation, connected to the outputs of the generators of sinusoidal signals, respectively, the previous and given channels forming, and the first input of the first mixer

Claims (2)

The 25 frequencies of the second formation channel are connected to the output of the master oscillator, the inputs of the first frequency mixers of the six remaining formation channels, besides the first input of the first frequency dividers of the last formation channel, are connected to the outputs of the first octave frequency dividers of the previous and given formation channels part TN of the last shaping channel is connected to the output of the generator that sets the second inputs of the second frequency mixers of the five first and two last shaping channels of the with the outputs of the first octave frequency dividers of the first to seven formation channels, and the second inputs of the second frequency mixers of the other formation channels are connected respectively to the outputs of the second octave frequency dividers of the four last shaping channels. The drawing shows the functional diagram of the tone generator. The tone generator contains a master oscillator 1 and eleven controlled oscillators 2 12 sinusoidal oscillations, the outputs of which are connected to the first 13 - 24 and second 25 - 36 octave frequency dividers connected in series, and the control inputs are connected respectively to the outputs of the first frequency mixers 47, The outputs of the second mixers are 48 to 58 frequencies, respectively, are connected to one input of each of which. The output of one of the octave divisors, which has an output frequency of 17 adjacent intervals, is connected to the other input. ukov musical scale lower than the frequency of the generator, with a being kazh dogo to inputs of the second frequency mixers 48-58 are connected the outputs of the generators or octave dividers, output frequencies are used on and adjacent slots 7 sounds the musical scale lower than the frequency of the oscillator. The proposed generator uses the following algorithm for mutual stabilization of the interval frequency coefficients of the generators. If the frequencies of the G-12 generators are distributed in the order of increasing them from oscillator 1 to oscillator 12, then the interval coefficients with respect to oscillator 1 are determined as DDE I - the order number, the interval number. The work of the generator is based on the use of approximate equality. J2JY, ... , from which it follows that the frequency from the frequency of the generator 1 to the seven intervals of adjacent sounds of the musical scale (which corresponds to the frequency of the generator, 8) can be obtained by subtracting the output frequency of the first octave divider connected to the generator from generator 1 to two intervals (which corresponds to generator 3), from the sum of frequencies of generators 1 and 2. The error in the reduced equality of the relative units is 5 10. Since the equality is valid for any four frequencies of the musical scale, which are separated from each other at specified intervals, it is possible to cover the generators 2-12 with mutual synchronization. Moreover, the system is closed and covers all generators 2-12 with negative feedback in frequency, which results in a uniform distribution of the error of approximate equality over all generators. . The generator works as follows. The voltage of the master oscillator 1 is supplied to one of the inputs of the second mixer 48, to the other input of which the voltage of the generator 2 is supplied. The voltage of the sum of the frequencies of the generators 1 and 2 from the output of the second mixer 48 goes to one of the inputs of the first mixer 37, to the second input of which The output voltage of the first octave divider 15 is applied. In the first mixer 37, the frequency of the divider 15 is subtracted from the output frequency of the second mixer 48, and this difference frequency corresponds to the frequency of the generator 8 and is used for synchronization and the last. Similarly, clock frequencies are generated for the remaining ten oscillators. The output frequencies of oscillators 1-12 are used as the sounds of the upper octave of an electromusical instrument, as well as post. Fall on the octave dividers 13–24, which are the first in the chains of divisors of opposite sounds, in order to discard the remaining sounds of the scale. The tone generator provides the electromusical instrument with the preservation of interval coefficients of the sound frequency scale with high accuracy over the entire service life, in addition, sinusoidal sonic voltages (using octave dividers with sinusoidal output voltage) allow pure harmonic synthesis of timbres. The proposed generator allows you to perform an electromusical instrument with a stepwise shift of the entire frequency scale using the simplest switching in the master oscillator, and also ensures the execution of a chord glissando without disturbing the interval coefficients, Formula of the Invention the master oscillator and two octave frequency divider are connected in series, and in the remaining channels of formation However, controlled generator-shaped sinusoidal signals and two octave frequency dividers are included, characterized in that, in order to improve the stability of the frequency ratio of the signals, two series-included frequency mixers, the first and second inputs of the first five of which, besides the first input of the first mixer of the second formation channel, are connected to the outputs of the generators of sinusoidal signals — the previous and the given formation channels, respectively; and the first input of the first the mixer of the second shaping channel is connected to the output of the master oscillator / inputs of the first mixers of the six remaining shaping channels, except the first input of the first mixer of the last shaping channel, connected to the outputs of the first octave frequency dividers of the previous and given shaping channels, and the first input of the first mixer frequency of the last channel of formation is connected to the output of the master oscillator, the second inputs of the second frequency mixers of the first five and two last channels The vanes are connected to the outputs of the first octave frequency drivers of the first seven channels of the formation, and the second inputs of the second frequency mixers of the remaining channels of the formation are connected respectively to the outputs of the second octave frequency dividers of the last four channels of the formers. Sources of information taken into account in examination 1, Patent CllA 3808347, cl. 84-1. 01, 1974. 2. Patent ClIA No. 3809787, cl. 84-1. 01, 1974.