SU619937A1 - Scanning device - Google Patents

Description

(54) DEVICE FOR FORMING A SCAN

The invention relates to the field of computer technology and can be used in the construction of information display devices.

Devices for generating a sweep are known, comprising a series-connected counter and a digital-analog converter, a feedback unit 1.

The closest to the technical essence is a device for forming a sweep, containing the last connected first interfaces, the first reversing switch connected to the decoder, the first digital-to-analog converter and the summing usbel connected to the output signal bus, the trigger, whose inputs are connected to the bus signals forward and reverse sweep strokes, uptroke triggers are connected to the second

 the inputs of the first reversible counter and one of the inputs of the first elements I, the input bus of the signal connected to the third input of the first reversing account (2.

The disadvantages of these devices are that the accuracy of the reproduction function is determined by the non-linear load performed on the diodes and resistors, the parameters of which depend on the influence of the environment.

The aim of the invention is to improve the accuracy of the device.

This is achieved by introducing the second elements And the second reversible counter, the second digital-to-analog converter and the dividing element connected to the input of the summing amplifier, the second BTOpt inputs of the reversing counter to the trigger outputs, the second output to the other inputs of the first And, some inputs of the second electric terminals are connected to the outputs of the switch, the other inputs to the bus are input and signal

FIG. 1 is a functional diagram of the device for digital scanning of the beam of the electron tube of the tube; in fig. 2 shows the stress diagrams of the initial part of the formation of the required functional dependence. The device contains a summing amplifier 1, carrying out algebraic summing of the output signals of analog-to-digital converters 2 and 3 of the preceding transmissions to convert the double codes located in the reversible counters 4 and 3. The counters produce the counting of the pulses arriving at the input 6 of the device, and From the state of the trigger 7, connected to the forward 8 and reverse 9th beam paths, the onn can work either in the summation mode or in the extract mode. The inputs of the asynchronous setting of the reverse fc4et4HKa 4 codes, allowing to set one or several bits of the counter to single or zero state during the counting cycle, are connected to the S output overflow of the second reversible locker 5, through the first emitits And 10 and 11 controlled by the trigger 7 The counting inputs of the second reversible counter 5, which allow changing the number of working bits of the counter, are connected to input 6 through the second elements AND 12, 13 and 14, controlled by the decoder 15, which reveals portions of the approximation function. The device works as follows. zom. Before the operation of the device, the reversing counters 4, S and trigger 7 are set to the zero state, and 15 opens one of the second elements AND J.2, When entering the loop. 6, the number a of the reverse & n meters 4 and 5 varies from well, while the voltage at the first and analogue converter 2 changes at a linear-stepwise change from zero to d, (FIG. 2 - 1), and the voltage to output analogue negative polarity converter. 3 varies linearly from zero to-Uf4 (Fig. 2-2), with the output characteristic of the second digital-to-analogue converter 3 being determined by the output voltage step of 4 U When Mt 1 is received at input 6, the second reversal & A new counter 5 is set to zero, and a remote controller 15 opens the steep one from the second elements AND 13. The overflow impulse of the second reversible counter 5, coming through the other of the first elements 11 and 11, sets the number AA in the first reversible counter 4, ( where the output voltage of the first digital-to-analog converter 2 is equal to / (JH, / - / /. Upon further input of impulses to input 6, the number in the first reversal & 4 counter changes from M to K, and the number in the second reversible counter 5 varies from zero to 2 M, at The output voltage of the first digital-to-analog converter 2 varies from and to UK, and the output voltage of the second digital-analog converter 3 changes from zero to -U |, and the slope of the output characteristic of the second digital-analog converter 3 is determined by the step value of the output voltage equal to 2 (S-UWhen a Kt-1 pulse arrives at input 6, the second reversible counter 5 is set to the zero state, and the decoder 15 opens the element AND 14. The overflow pulse from the counter is input through the element 11, is set Into the counter 4, the K number, with KOf torus, the output voltage of the first digital-to-analogue converter 2 is U. The further arrival of pulses at input 6 changes the number in counter 4 from Kx (to M, and in counter 5 from zero to 4 LL, the output voltage of converter 2 varies from U to and, and the output voltage of converter 10 varies from zero to lJ | j, with the output step on voltage equal to d4j. . When the AND +1 pulse arrives at input 6, the counter 5 is set to the zero state and the overflow pulse of this counter, arriving through AND 11, sets the number H on the counter 4, {at which the output voltage of the converter 2 is equal. 5 N / -K / Upon further arrival of the pulse to input 6, the number in the counter 4 continues to increase, and the counter 5 remains in the zero state, as the And 12, 13 and 14 terminals are closed. At the same time, the voltage at the output of converter 2 continues to increase, and the voltage at the output of converter 3 remains equal to zero. If trigger 7 is set to one, then the output characteristics of the diffractive analog transforms are located in the second and third quadrants of the coordinate system. When summing the output of the ESRD, the Research Institute of Digital-to-Analog Converters

2 and 3, a linearly broken step-up voltage appears at the output of the summing amplifier, which is used for the discrete sweep of the ray of the ray beam tube.

By varying the number of bits of digital-analogue converters, the number of approximation plots, and the value of U, various output characteristics of the proposed device can be formed with high accuracy,

The proposed device for digital scanning of a beam of electron-beam tube makes it possible to increase the accuracy of signal deployment, for example, seismic signals, as a result of which the quality and objectivity of interpretation of seismic sections, and consequently, the geological efficiency of seismic exploration, are improved.

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Claims (2)

1. Author's certificate number 422121. cl. H 04 N 3/30, 1972. 2. Certificate of author No. 283693, cl. G06 J 7/26, 1970. .-. -four J 9