SU113375A2 - A device for changing timbre in an electrical organ - Google Patents

Description

BASIC Auth. St. LL 82917 describes an electric organ with a general aperiodic generator.

The described device improves the sound quality of an electrical organ made according to the main author. St. LL 82917, since it allows the selection of any given harmonic in the form of a frequency band, by adjusting which the change in timbre is achieved.

A simplified diagram of the device shown in the drawing.

The voltage from the output of the noise generator 1 through the coupling capacitors C, located below the keys, is fed to the input of the filters 2 ultrasonic or high frequency. The signals from the outputs of the filters 2 pass through the nonlinear elements 3 and enter the input of the detector stage 4. Here, the generator / signals that pass through the timbre filters 5 are fed through the capacitors C. The nonlinear elements 3 in the filter circuit 2 cause the harmonics of the signals that pass through the filters 2. When detecting beats between the corresponding harmonic of the signal and the frequencies transmitted by the timbre filters 5, an overtone of the sound of the organ appears. The overtone amplitude is adjusted by adjusting the capacitance of the capacitors C. The signals with the overtone frequency are amplified by the amplifier 6 and reproduced by the loudspeaker 7.

So, for example, if pressing a key through one of the capacitors C and the filter connected to it, a frequency band with an average frequency of 20,440 Hz will be fed to the detector, and the resonant frequency of one of the filters 5 will be equal to 20,000 Hz, then the output of the detector 4 will be a difference frequency band was obtained, the average frequency of which would be 440 g / {, and the loudspeaker would reproduce the frequency band, creating a sense of the tone of the first octave.

The presence of nonlinear element 3 will lead to the appearance of doubled, tripled, etc. frequencies. To form second harmonics, one of the filters 5 is tuned to a frequency of 40,000 Hz. As a result, at the output of the detector, a frequency band with an average frequency of 880 Hz will be obtained, which corresponds to the second overtone of sound “to the first octave, etc.

Subject invention

A device for changing the timbre in an electrical organ according to the author. St. No. 82917, distinguished by knitting of nonlinear elements in a chain of key filters, causing harmonics and a number of timbre filters, so that when a beat is detected between the corresponding filter harmonics, when the key is pressed, and the corresponding tone filter misses, an appropriate overtone occurs the sound of an organ, whose amplitude is determined by the adjustable amplitude of oscillations at the output of the specified timbre filter.