SU1176348A1 - Device for presenting non-linear functions - Google Patents

Abstract

1. A DEVICE FOR OPENING NONLINEAR FUNCTIONS containing a group of adjustable voltage sources connected by outputs to the information inputs of the first switch, the output of which is the output of periodic functions of the device, and the control input connected to the first output of the scan generator connected to the second input of the synchronization input horizontal scanning electron-beam oscilloscope, characterized in that, in order to expand the scope of application by forming functions of a given a the second switch, the analog-to-digital conversion unit, the code comparison unit, the pulse shaper and the adder connected to the vertical channel input of the electron-beam oscilloscope, the first input to the output of the first switch, and the second input to the output of the imager a pulse connected by the input to the output of the code comparison unit connected by the first input to the first output of the sweep generator, and the second input to the output of the analog-to-digital conversion unit and the control input of the second switch, whose output is the output of a given argument functions and data inputs connected to the outputs of controlled sources cl reference voltage, the input of analog-to-digital conversion is informatsionnm input device. 2. The device of claim I, characterized in that the analog-specific conversion unit contains a reversible counter, a generator of pulses and a comparator, the first input of which is the input of the analog-digital conversion unit, the second input is connected to the input voltage bus, and an output with an input for controlling the reverse of the reversible counter, the output of which is the output of the analog-to-digital conversion unit, and the counting input connected to the output of the pulse generator.

Description

1 The invention relates to automation and computing technology and can be used in the simulation of automatic control systems for nonlinear objects with an arbitrary type of nonlinearity, as well as in the generation of periodic signals of arbitrary shape. The purpose of the invention is to expand the scope by forming the functions of a given argument. The drawing shows a block diagram of a device for reproducing non-linear functions containing a group of adjustable sources 1-1, ..., 1-p of the reference voltage (where n is the number of node ordinates of the reproduced function), the first and second switches 2 and 3, sweep generator 4, analog-digital conversion unit 5, code comparison unit 6, pulse generator 7, adder 8 and electron-beam oscilloscope 9. Sweep generator 4 contains a clock generator 10 and counter 11, the code output of which is the first generator output 4, and out The overflow is the second output of the generator 4. The analog-to-digital conversion unit 5, whose input is input 12 of the device, can be performed on a conventional analog-to-digital converter, or contain a generator of 13 pulses, a reversing counter 14 and a comparator 15, one input of which is the input of block 5, and the second input is connected to the threshold voltage input bus 16. The device works in the following way. At the input 12 of the device receives an analog signal argument. Block 5 converts this signal to digital form and controls the operation of switch 3. Switch 3, in accordance with the information on the control input, selects the corresponding information input and the output of switch 3 presents a signal with a voltage equal to the value of the corresponding ordinate of the reproduced function. Since sources 1-1, ... 1-p allow you to specify any voltage in the operating range, a terminal approximation of any non-dependency can be carried out with finite accuracy and a voltage functionally connected to the current will be present at the output of switch 2 argument value. Switch 2 is connected via information inputs parallel to switch 3 and is controlled by generator 4. Counter 4 of generator 4 operates in continuous counting mode and cyclically polls sources 1-1, ..., 1-p. Using switch 2. generate a periodic signal, each period of which corresponds to a non-linear characteristic given by sources 1-1, 1-n. The signals at the control inputs of the switches 2 and 3 are fed to the inputs of the comparison block. At moments of coincidence of these signals, block 6 is triggered, the output of which is converted by the shaper 7 into a short pulse of fixed amplitude supplied to the adder 8. To the first input of the adder a periodic signal c the output of the switch 2. The output of the adder 8 will be a periodic signal different from the output signal of the switch 2 in that at the moments of operation of block 6 a short pulse is applied to this signal. The signal from the output of the adder 8 is fed to the input of the vertical channel of the oscilloscope 9. Since the oscilloscope 9 is synchronized on the falling edge of the high bit of the counter of generator 11 of generator 4, a function will be observed on the screen of the oscilloscope (specified by source 1-1, ..., 1-p) is indicated by the successive display of steps with amplitudes corresponding to its ordinates, as well as the position of the current value of the input argument displayed by the superposition of a short pulse on one of these steps. In cases when the device is used to model non-linear control objects with an actuator of the integrator type, the analog-digital conversion unit 5 is performed on the generator 13, the counter 14 and the comparator 15. The analog output of the automatic control system under study is connected to the input 12 of the device i.e. the input of the comparator 16. If

Claims (2)

1. DEVICE FOR PLAYING NONLINEAR FUNCTIONS, containing a group of adjustable sources of reference voltage, connected by outputs to the information inputs of the first switch, the output of which is the output of the periodic functions of the device, and the control • input is connected to the first output of the sweep generator, connected by the second input to the synchronization input horizontal scanning of an electron beam oscilloscope, characterized in that, in order to expand the scope by forming the functions of a given argum nt, the second switch, an analog-to-digital conversion unit, a code comparison unit, a pulse shaper and an adder connected to the output with the vertical channel input of the cathode-ray oscilloscope, the first input to the output of the first switch, and the second input to the output, are additionally introduced into it a pulse shaper connected by an input to the output of the code comparison unit, connected by the first input to the first output of the scan generator, and the second input to the output of the analog-to-digital conversion unit and the control input second switch, whose output is the output of a given argument functions and data inputs connected to the outputs of adjustable voltage references, the input unit analog-to-digital conversion is an information input device *. 2. The device π. I, characterized in that the analog-to-digital conversion unit contains a reversible counter, a pulse generator and a comparator, the first input of which is an input of an analog-to-digital conversion unit, the second input is connected to a threshold voltage input bus, and the output with a reverse counter control input, the output of which is the output of the analog-to-digital conversion unit, and the counting input is connected to the output of the pulse generator. U. „1176348