SU807261A1 - Device for displaying information on crt screen - Google Patents

Description

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 The invention relates to automation, telemechanics and computing technology and can be used as an indicator of external devices. Computers, which allow the input of alphanumeric information from a computer to an electron beam screen (CRT).

Devices for displaying information about displaying characters in a raster field are known, containing for each sign several lines forming a text line. Text strings are split between each other. The image is formed by the ray modulation of the line raster on the CRT and. 21.

The closest in technical essence to the present invention is a device that contains controls, defining the horizontal velocity of the inversion, the master oscillator of the vertical sweep, the horizontal sawing voltage driver, the horizontal deflection amplifier,

Claims (3)

pitch vertical voltage of the vertical sweep amplifier of the bias of the vert kP1i, auxiliary generator of the auxiliary sweep, frm1frBatellophase voltage of the auxiliary sweep, the module of the CRT beam, deflecting system, CRT. Synchronization pulses from the dumb control come in to control the oscillators, respectively, vertically and horizontally. Each s defining generators abfayuyaet sequence of pulses. The sequence of pulses from the master oscillator horizontal sweep enters the driver sh. loosen stress. The received Pilo-i Lubricate, the voltage is amplified by a current amplifier, which is loaded by a horizontal deflection coil (sweeps and causes the beam to be linearly deflected horizontally. -The pulse sequence obtained by the vertical master-gederder controls the shaper voltage generator of the vertical sweep, cohorts Breaks out a sawtooth voltage with the frequency of the vertical scan. This sawtooth voltage is then applied to the vertical deflection amplifier. Also, to the amplifier vertical deviation applies a sawtooth voltage with an auxiliary sweep frequency, obtained using an auxiliary sweep formation circuit containing a generator and a sawtooth voltage generator. And the auxiliary span f is vertical times where f auxiliary is the frequency auxiliary oscillator auxiliary sweep f vertical, ramp is the frequency of the master vertical sweep generator. In the vertical deflection amplifier, the addition of two sawtooth voltages 3 occurs. The drawbacks of the device are the presence of schemes of an auxiliary (swinging) sweep, which complicates the device, reduces its reliability, work, as well as the lack of breakage on the main, auxiliary sweep, which creates labor in combining two sawtooth stresses and increasing linearity off ("Current vertical current. The purpose of the invention is to simplify the device. The goal is achieved by the fact that the device contains serially connected binary counters connected to the vertical amplifier, and the inputs of the binary counter are connected to the control unit and the master oscillator. Fig. 1 shows the block diagram of the device; in Fig. 2, the driver, voltage stepwise, Fig. 3 - plots voltage on the output FS of the Ovatel world. The device contains a control unit 1, a master oscillator 2, a horizontal sweeper 3, a booster 4, a binary counter 5, a stepwise voltage world 7, a vertical amplifier 7, an electric nozzle handset 8 deflection yoke 9, the block 10 / beam modulation tion. The device works as follows. Sinhrsmizatsii pulses, a control unit vyrabatshaemye. Gornzsitalyyuy-frequency scanning are applied to reference generator 2. The timing sequence generatsr vyrabatshaet straight mougs nyh pulses which are applied to generator 3. The generator 3 vfabatyvaet linear sawtooth voltage Kotera through the amplifier 4 is applied to ogklsi CRT system 9 and causes the beam to deflect. CRT 8 (10 gord). In addition to this, rectangular pulses from master oscillator 2 are sent to the counting counter of the two-digit counter 5, which controls the operation of the stepped voltage transmitter. The capacity of the counter is determined by the necessary number of text lines on the indicator screen. Synchronization of frames with the sweep pulse synchronization pulses, coming from the control unit, with the frame rate at the second time of the binary counter to reset the count. Shaper voltage generator 6 (Fig.2) represents A code-voltage converter, which contains a low-resistance R-2R 11 matrix and a number of bits 12 controlled by binary counters. It is used to build a stepped voltage, applied to the deflected system through an amplifier, shifts the beam along the vertical. Getting on-screen gaps between text strings and forming text strings between two bits, for example, the third and fourth, a variable resistivity Rp is entered, the denomination is selected within R.ftpi and where R is the resistance value of the variable reznstsa | R is the resistance value of the matrix resistor. The voltage amplitude when opening the key of the fourth bit at the output of the driver will exceed the amplitude of the voltage or opening the key of the third bit not twice, as in, (FIG. 3), but more. This ratio depends on the magnitude of the variable resist EA (Fig. 2). The greater the value of Rp, the greater the amplitude of the voltage exceeding the amplitude of the third discharge when the amplitude of the voltage of the fourth wave is exceeded. The magnitude of the voltage amplitude of the same bit must be exactly twice the amplitude of the fourth bit, the sixth is twice the amplitude of the fifth radar, and so on until the required number of bits, the margin is determined by the necessary number of text lines on the screen indicator. FIG. 3 first, second, third, etc. The bits are conventionally denoted by the numbers 13, 14, 15, etc., and the thick line is the form of voltage obtained by means of the former. The vertical axis shows the step numbers Nc, -r. And the numbers of the received text lines,, and on the horizontal axis are the time, where T is the vertical scanning period, is limited by resetting the binary counter counting by frame sync pulses, the arrival of pulses from the first control (Fig. 1). From this FIG. I, it can be seen that the eighth and multiple of its steps are several times more than the previous one. This provides a text line of eight television lines (including zero). The distance between the text strings is determined by the size of the eighth step, i.e. each key of the fourth, fifth, sixth, etc. shaper yes shaper. If a network of shaper bits is used, a raster with sixteen text strings is obtained on the CRT screen. When the eighth bit text lines are connected to the shaper, there will already be thirty two lines in the raster; switching on nine times will allow the number of text lines to be doubled, i.e. get sixty ch tifv lines. To get textual: the lines are not from eight television lines, but not to sixteen, the variable resistor (figure 2) should be set between the fourth and 616 fifth bits. From FIG. 3 it can be seen that such a ratio of bit amplitudes allows to obtain text lines with high linearity. In addition, the vertical retraction time is commensurate with the single-retraction time, i.e. reaches in the order of a few microseconds, as a result of which the reverse course of the horizontal and vertical scanning is comparable. An invention on text strings is formed by light modulation. Control pulses for the illumination pulses are produced in the control unit and are formed by a beam modulation unit of the desired duration to amplitude. Apparatus of the Invention A device for displaying information on a screen of an eKontron Beam Tube (CRT), comprising a series-connected driver, connected to a control unit, a horizontal sweeper and an amplifier. connected to a CRT, the cotsra is connected to a vertical sweep amplifier. and a beam modulation unit, which is connected to the control unit, so that, in order to simplify the device, it is connected in series with a binary counter in the world’s step voltage regulator, connected to the amplifier vertical sweep, and the inputs of the binary counter are connected to the control unit and the master generator (w. Sources of information taken into account during the examination 1. UK, UK No. 1286393, cl. N 4 T, published 1974). 2. For the Velkko Injection No. 1288315, cl. H 4 T, with tublnk. 1974, ™ „1 PTL 3. For the UK of UK number 1303181, cl. H 4 T, pub. 1975 (prototype). S 0Ut.i f ffftlH -fiw FIG. 2 3f ISh P I