DE1199596B - Vibration generator for electronic musical instruments - Google Patents

Description

Vibration generator for electronic musical instruments The invention relates to a vibration generator for electronic musical instruments, its frequency can be changed by a control voltage supplied to the grid of the oscillator tube. The problem arises with electronic musical instruments of achieving a frequency vibrator and to build a vibration generator to vary the pitch of the voice, on the one hand can vary in frequency by means of a control voltage, on the other hand the requirements to the frequency constancy in electronic musical instruments.

There are known vibration generators with a resonant circuit which either the applied supply voltage varies or the grid of the oscillator tube a control voltage is supplied. However, the known arrangements have the disadvantage that the frequency shift extends only over a relatively small range. In addition, in the known arrangements, when attempting a large frequency shift changes to achieve very strong the amplitude.

To avoid the disadvantages of the known arrangements is according to the invention a resistor contained in the resonant circuit is dimensioned so that a phase shift which makes the tube act as a reactance.

In the arrangement according to the invention, on the one hand, the frequency constancy is achieved of an LC circuit and, on the other hand, the necessary detuning as a result caused the oscillator tube to act as a reactance tube. Here you can perform large frequency changes with relatively low control voltages without that the oscillation amplitude changes in an impermissible manner.

The resistor and the capacitor of the resonant circuit are preferred between grid line and ground and the inductance in the grid line between Resistor and capacitor switched.

The drawings show exemplary embodiments of circuits of the vibration generator according to the invention. It means F i g. 1 the invention Circuit in a modified Hartley oscillator and FIG. 2 as in FIG. 1, but with an additional decoupling winding.

The circuit according to FIG. 1 corresponds to a modified Hartley circuit in which the frequency-determining circuit is formed only by the lower half L2 of the coil in connection with the capacitor C i and the resistor R 2. The connection point between R 2 and C 1 is the ground point of the resonant circuit. By inserting the resistor R 2, the phase position of the resonant circuit is rotated by 1/4 period with respect to the mass and this means that the tube acts as a reactance tube. The resistance R 2 is large compared to the impedance of the capacitor C 1 , so that a phase shift of 90 ° occurs.

A constant control voltage U 1 for frequency detuning is introduced via the decoupling resistor R 1, it being possible for this control voltage to be modulated with a frequency corresponding to a vibrator. As a result, in addition to the constant detuning, the generator is detuned to achieve a frequency vibrator in time with the modulation frequency. In musical instruments, especially electronic musical instruments, it is required that when changing the basic tuning of z. B. 880 Hz to 890 Hz the intervals of the individual semitones remain constant. This means that z. B. have to shift the twelve generators of the corresponding twelve semitones by the same percentage of the frequency. With the appropriate dimensioning of R 2 and C 1 , a shift of the overall tuning by more than 10% of the nominal frequency can be achieved for all twelve semitone generators, the relative change of the individual generators to one another being so small that the remaining errors in the musical game are hardly noticed .

The resistor R 3 in the grid line is used for decoupling and amplitude limitation and is at the same time the grid leakage resistor. R 5 is the anode load resistance at which the feedback voltage is taken via C 2 and fed to the upper winding part L 1 of the coil. Via the resistor R 4 or the capacitor C 3, the signal can be picked up, which can be used either as an output signal and / or synchronization signal for downstream frequency divider chains, these frequency divider chains in a known manner either multivibrators, LC frequency dividers or the like .

In the embodiment according to FIG. 2 the coil has an additional one Outcoupling winding L3, from which the audio frequency can be picked up with low resistance.

Claims (6)

Claims: 1. Vibration generator for electronic musical instruments, the frequency of which can be changed by a control voltage supplied to the grid of the oscillator tube, because -chge k-en. - indicates that a resistor (R2) contained in the resonant circuit (L 2, Cl) is dimensioned so that a phase shift is achieved which allows the tube to act as a reactance. 2. Vibration generator according to claim 1, characterized by a decoupling resistor (R 1) over the the control voltage is fed to the resonant circuit. 3. Vibration generator after one of claims 1 to 2, characterized in that the control voltage with a low frequency is modulated to achieve a frequency vibrator. 4. Vibration generator according to one of claims 1 to 3, characterized in that the signal is coupled out via a resistor (R 4) or a capacitor (C 3) and / or an additional coupling winding (L3) of the coil. 5. Vibration generator after a of claims 1 to 4, characterized by the use as a control circuit generator for downstream frequency divider stages. 6. Vibration generator according to one of the Claims 1 to 5, characterized by the use together with a plurality such generators with frequencies of the tempered scale, their oscillating circuits are dimensioned so that the pitch of all changes by changing the control voltage Generators changes by the same percentage. Considered publications: German Patent Nos. 809 820, 862 920; Belgian Patent No. 517107; U.S. Patent No. 2,790,147.