SU1152000A1 - Periodic oscillator - Google Patents

Abstract

GENERATOR nEPTOflHHEGKHX VIBRATIONS, containing a relay element, the output of which is connected to the analog input of a digital-to-analog converter, the output of which is connected to the integrator input, a multilevel threshold element, the pulse output of which is connected to the input of the memory unit, the output of which is connected to the code input of the analogue converter that, in order to ensure the accuracy of reproduction of given functions, the generator contains a chain of n additional integrators connected in series, and chennuyu to the output of the integrator, the output h-th additional integrator is connected to the input of relay element and to the input multi-level threshold element (A cop.

Description

The invention relates to automation and computing. A known generator of periodic oscillations, containing memories of derivative codes and ordinate codes, digital-to-analogue converters, a generator, a relay element and a ring counter, and J The disadvantage of this generator is the complexity of the technical implementation when playing alternating functions. The closest to the image is a periodic oscillation generator, which contains a memory of derivative codes, connected by an output to a code input of a digital-to-analog converter, which is connected to an integrator's input, the output of which is. the output of the oscillator of periodic oscillations and is connected to the input of the relay by an analog input of a digital-to-analog converter, as well as a block of threshold elements connected by an output with a counting input of a storage device of derivative codes, and a start input - with an analog input of a digital-analog converter and with an output of a relay element of NW J. The disadvantage of a known generator is the low accuracy of the generated oscillations, due to the fact that during playback, the specified functions are approximated by piecewise linear trenches with the required slope. For an accurate approximation, a higher order approximation is required. The aim of the inventions is to increase the reproduction accuracy of the given functions. The goal is achieved by the fact that the periodic oscillator contains a relay element whose output is connected to the analog input of a digital-to-analog converter, the code of which is connected to the integrator input, a multilevel threshold element whose pulse output is connected to the input of the memory block whose riser is connected to the code memory. input digital-to-analog converter, contains a circuit of l additional integrators connected in series and connected to the integrator's output, with the output of the nth additional an integrator coupled to an input of the relay element and to the input multi-level threshold element. The drawing shows a generator of periodic oscillations. The generator contains a relay element 1, a digital-to-analog converter (D / A converter) 2, an integrator 3, a circuit of series-connected additional integrators 4-4, a multilevel threshold element 5, a memory block 6. In addition, the generator contains output 7. The generator operates as follows. At a certain moment, a constant voltage appears at the output of the relay element 1, which through DAL 2 goes to integrator 3. Since the total number of integrators in the circuit before the output is equal to c + 1, to form the output voltage of the specified form at code output DAC 2 should receive digital codes (n + 1) -th derivative of the output signal. Therefore, in block 6 of the memory, the code values of the (n + + 1) th derivative of the code signal should be recorded. At the moment when the output voltage reaches the Threshold triggered by the 1st switch of the relay element 1, it overturns and the DAC 2 receives a constant voltage of another polarity. As a result, the output voltage begins to change in the other direction and a second half-wave voltage is formed. If the value of the (n + 1) -th derivative during the half-period remains constant (it is enough that the transfer ratio of the DAC 2 does not change sign), then the output oscillations have a glossy shape. For example, with n + 1 2, i.e. with one additional integrator, the output oscillation is composed of two parabolas. In this case, the relay element 1 must switch precisely when the sign of the output signal changes. If the number of additional integrators is even, then the relay element 1 should have a hysteresis characteristic. In the practical implementation of the integrators, the function realized by them differs from the exact integral, for example, there are losses, to compensate for which the relay element 1 should have a small hysteresis. If as integrators to use passive integrating chains, then the relay element 1 should have a hysteresis characteristic for any h.

Element 5, which is triggered when the specified output levels are reached, ensures that the derivative values are timely

from memory block 6 through the DAC to the input

integrator 3.

Improving the accuracy of reproducing periodical oscillations of any form at low investment costs determines the technical and economic effect of using the proposed invention.

Claims (1)

A PERIODIC OSCILLATION GENERATOR, comprising a relay element, the output of which is connected to an analog input of a digital-to-analog converter, the output of which is connected to an integrator input, a multilevel threshold element, whose pulse output is connected to an input of a memory block, the output of which is connected to a code input of a digital-to-analog converter, characterized in that, in order to increase the accuracy of reproducing given functions, the generator contains a chain of η additional integrators connected in series, and connect ennuyu to the output of the integrator, and the output of the first integrator further coupled to an input of the relay element and to the input multi-level threshold element. SU ... 1152000>