SU966866A2 - Complex shape oscillation generator - Google Patents

Description

(5Y GENERATOR OF COMPLEX VIBRATIONS

Claims (1)

 The invention relates to a pulse technique. According to the main author. ev No. 682995, a complex oscillator is known, comprising a single signal generator, linear vibrators, first switches, attenuators, second switches, voltage dividers, adder controlled voltage dividers, additional adder 1. However, this generator does not allow the formation of components of a complex random process with the required statistical properties. The purpose of the invention is to expand the functional capabilities by simulating the statistical properties of the generated random signal. The goal is achieved by the fact that the generator of complex oscillations contains a single signal generator, the output of which is connected to the first inputs of linear vibrators, first and second switches and to the first inputs of all controlled voltage dividers, the first output of the linear vibrator being connected through serially connected first switch and attenuator with the second input of the linear vibrator, the second output of each of which is connected to the corresponding inputs of the first adder, the other inputs of which are connected through In series, the first controlled voltage divider and the second switch to the third output of the linear vibrator are connected in series; the output of the first adder is connected via the second controlled voltage divider to the first input of the second adder, the second input of which is connected to the output of the third controlled voltage divider, There are additional controlled voltage dividers between the second output of each linear vibrator and the corresponding input of the first adder, the second inputs of which are combined and connected to the output Signal generator unit and to a second actuated .The inputs first voltage dividers. The drawing shows a structural electrical circuit of a generator of complex oscillations. The generator contains a generator of 1 single signal, linear vibrators 2, first switches 3, attenuators t, second switches $, first controlled voltage dividers 6, adder 7, second and third controlled voltage dividers 8 and 9, second adder 10 , additional controlled dividers 11 voltages. A bias signal is applied to the input bus 12. The output signal is removed from the output bus 13. The generator operates as follows. When generator1 is turned on, a single signal goes to all inputs of linear vibrators 2 and to control inputs of controlled voltage dividers 8 and 9 and controlled voltage dividers 6.11, as a result of which two harmonic oscillations are shifted at the outputs of each linear vibrator 2 in phase by 90, i.e. cosine and sine components. Each linear vibrator is tuned to the required frequency by using attenuators k and switches 3. The amplitudes of the cosine components are varied using controlled voltage dividers 6 and switches 5, and the sine components using additional control voltage dividers 11. As a result, the components of a complex random signal with the required partial signals are formed at the input of the adder 7. statistical properties. All controlled voltage dividers form, respectively, the particular and general non-stationary properties of the signal's signal case by changing the intrinsic resistance according to the program, and thereby also changing the amplitude of the random signal from the output of the totalizer over time. After the required time T, switching occurs (automatic by program or manually) of generator 1, with the result that a single signal of opposite polarity appears at the output of generator 1. This signal brings each switch to the next position, and all controlled voltage dividers return to their original state. In this case, a device is provided in the starting circuit of the linear vibrators 2, which prevents the vibrator from being turned on again. When the generator 1 is turned on at the output of the adder 10 using the adder 7, the following is formed (with other values of amplitude and frequency) the realization of a non-stationary random signal. Thus, the proposed generator in comparison with the known one allows to study various systems operating in stationary and non-stationary the most efficient use of this generator in the case of reproduction of low-frequency and infra-low-frequency random signals containing several harmonically The components of the invention The complex oscillator according to aut. St. 682995, characterized in that, in order to expand its functionality, additional controlled voltage dividers, the second inputs of which are connected, between the second output of each linear vibrator and the corresponding input of the first adder They are connected and connected to the output of the generator of single signals and to the second inputs of the first controlled voltage dividers. Sources of information taken into account during the examination 1. Copyright certificate C CP W 6829E5, cl. And 03 B 25/00, 1979.