SU720433A1 - Device for displaying data on the screen of cathode ray tube (crt) - Google Patents

Description

The invention relates to the field of computer technology and can be used in information display systems based on electron-beam indicators.

A device for displaying information on a CRT 1 screen is known, comprising a register, a symbol generator, and cyro analogue converters. A disadvantage of the known device is low speed. The transient time in a known device is determined not by the coordinate difference between the previous and the subsequent points, but only by the coordinate codes of the subsequent point. In connection with this, in order to correctly determine the time of transient processes, it is always necessary in advance to place the CRT beam at the origin of the coordinate system, i.e. additionally waste time. If, for example, the previous point was on the edge of the screen, and the next point should be near the center, then without prior installation of the beam at the origin of coordinates in a known device, a delay in the generation of a pulse not corresponding to the real transient process will be generated; dollars, and to be that non-tles .iio will lead to one saying from the screening of my information.

The closest, essentially technical solution, is a device for displaying information on the screen. A CRT containing a register, the first output of which is connected to the first input of the symbol generator, and the second and third outputs to the inputs of the first and second digital-to-analog converters, respectively and the second master amplifiers, the first inputs of which are connected to the outputs of digital-to-analog converters, the second inputs - with the first and second outputs of the XVO3 simulator, respectively, the output of the first summing amplifier. L is connected to the input of the deflecting coil of the CRT at the X coordinate, and the output of the second amplifying amplifier is connected to the input of the deflecting cage of the CRT at the Coordinate of the ACI.

Claims (2)

The disadvantage of the known device .4 v.p ex with. none of the speedy GIs of the fact that in it the time of transient processes is determined proportionally to the distance from the previous one (previous to the next point, which is calculated by the formula.) 01 01 where XQ, VO, X., Y coordinates of the previous and subsequent points. Time determined by this formula, all let it be more real, because in fact, in each of the two diverting coils, the currents are varied independently of each other. The real time of the transient processes is proportional to the larger coordinate difference X., or O- y g. A second disadvantage of the known device is the hardiness because of the use of a computational unit for implementing the specified Bfcaue formula. It is necessary to form the differences of coordinates along d4um channels, erect them into squares, then add their results and extract the square root. If the computing unit is performed on discrete elements, then, firstly, it will require large hardware costs, and secondly, all calculations will be performed by a large number of cycles, i.e. for a long time, which at small deviations of the beam can exceed the time of transitional processes in the deflecting system of a CRT. If the computing unit is performed on analog nodes, then there will be significant computation errors for their cracking, it is necessary to introduce additional nodes, which further complicates the device. Thus, the aim of the invention is to increase the speed of the device and reduce the amount of equipment. The goal is achieved by the fact that the device contains a node for fixing the time of the transient process in the deflecting coils of a CRT, the first and second drivers, whose inputs are connected to the outputs of the node, fixing the time of the transient process in the deviating coils of the CRT, the first and second selection nodes the front of the signal, the inputs of which are connected to the outputs of the first and second drivers, respectively, and the fixing node of the transition process, the first and second inputs of which are connected to the outputs of the first and second nodes of the selected audio the trailing edge signal, respectively, and fixing the output node completion of the Transitional process th connected to the second input of the character generator. The invention is illustrated in the drawings, where in FIG. 1 shows a block diagram of the device; in fig. 2 — eshores of voltages and currents. The device contains a retaster 1, p €: digital digital-analog converter 2, a second digital-to-analog converter J, a 4-character generator, the first signal amplifier 5, the second summing amplifier 6, the deflection coil 7 of the CRT along the X coordinate, the deflection coil 8 of the CRT the y coordinate, the transient time clamping unit 9 in the deflecting coils of the CRT, the first driver 10, the second driver 11, the first signal-leading edge unit 12, the second signal-leading edge unit 13, the transition point unit 14. Processes. The device works as follows. The coordinate codes of the symbol's origin point are converted to analog signals and (Llj) {cm, fig. 2) in the first and second digital-to-analog converters 2 and 3 and through the first and second summers, the amplifiers 5 and b enter the deflection of the coils 7 and 8 of the CRT in the X and Y coordinates. With increasing or decreasing currents) J and. lj (B of the deflecting coils 7 and 8 of the CRT in the node 9 for fixing the time of the transient process, pulses of positive and negative polarity appear. These pulses, passing through the first and second formers 10 and 11, state 11; oh are diodes and amplifiers limiters are converted to unipolar signals that are differential are detected in the first and second nodes 12 and 13 of the falling edge of the signal. At the same nodes pulses corresponding to the falling edges of the signals 1 | |., and U, j are normalized in amplitude and duration. The pulses from the outputs of the nodes 12 and 13 are fed to input node 14 fixing the end of the transition process, consisting of two triggers and a coincidence circuit that transmits a pulse to the output, corresponding to the presence of two input signals or responding to the second time pulse. This achieves the determination of the point in time when the transient process is completed in the coil in which the current is changed by a large amount, therefore, more time is spent. The impulse of the installation of coordinates from the output of the node 14 is fed to the input of the symbol generator and allows it to begin displaying the symbol. The device has a high speed, since it takes into account not the approximate, but the real time of transient processes in deflecting coils. The pulse generated by the device is a direct response of the circuit to the termination of current changes in the deflecting system. For its implementation, the device requires a small amount of equipment, since it does not contain a complex computational block, which should allow you to use the KOOiJrjiHaT differences, build them E knalrata, sum up the squares and extract the square root of the sum of squares. The invention The device for displaying information on the screen of a cathode ray tube (CRT), containing a register, the first output of which is connected to the first input of the symbol generator, and the second and third outputs to the input of the first and second digital-to-analog converters, respectively, the first and second summing amplifiers , the first inputs of which are connected to the outputs of digital-analogue directors, the second inputs are connected to the first second outputs of the symbol generator, respectively, the output of the first summing amplifier is connected to the input the deflection coil of the CRT at the X coordinate, and the output of the second summing amplifier to the input of the deflection trap of the CRT at the Y coordinate, which is different from the fact that, in order to increase the speed and decrease the equipment, the device contains a node for fixing the transient time in the deflecting CRT coils, the first and second drivers, the inputs of which are connected to the outputs of the transient-time latching node in the deflection coils of the CRT, the first and second rear edge selection nodes, the inputs of which are connected to the output said first and second generators, respectively, and fixing the assembly completion of the transition process, the first and second inputs of which are connected to the outputs of the first and second separation units, -the rear edge of the signal, respectively, and fixing the output node completion of the transition process is connected to the second input of the character generator. Sources of information taken into account in the examination of 1, Author:: a certificate of the USSR W 483690, cl. G 06 K 15/20, 1974. 2. USSR author's certificate number 425193, cl. G 06 K 15/20, 1973 (prototype). t 7