SU1267469A1 - Device for displaying information on screen of colour cathode-ray tube - Google Patents

Abstract

The invention relates to computing and can be used in the design of display devices. The purpose of the invention is to improve the clarity of the image on the CELT screen by equalizing the brightness and increasing the accuracy of combining the elements of the image in presenting information in different colors, which is achieved by introducing an Electron beam Current Modulation Unit and the displacement signal generator and corresponding functional links. 1 Fig.

Description

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Claims (1)

A) The invention relates to computing technology and can be used in designing information display devices. The circuit of the invention is the improvement of the image clarity on the CELT screen by equalizing the brightness and reducing the accuracy of combining the image elements when switching the color of the displayed information. The drawing shows the block diagram of the device. The device contains registers 1 and 2 of the X and Y coordinates, connected to cyano analog converters 3 and 4, which are connected to the coordinate deflection system 9 through the first switches 5 and 6 of the image scale and the coordinate amplifiers 7 and 8, the character generator 10 connected through second image switches PI 12 and sign amplifiers 13 and 14 with sign deflection system 15, controlled high voltage source 16 connected via high voltage source 17 to CELT anode 18, image offset signals 19 connected by an output to the first switches 5 and 6 of the image scale, a video amplifier 20 connected to the character generator 10 and the CELT 18 cathode, an electron beam current modulating unit 21 consisting of successively connected 22 luminance signals and amplifier 23, the output of which is connected to the CELT 18 modulator. Input 24 Color code is connected to the inputs of a controlled source 16 of high voltage, imager 19 of image shift signals, luminance signal generators 22 and the second inputs of the first 5 and 6 and second PI 12 switches scale The image, Input 25 The luminance signal is connected to the input of the amplifier 23, The number of color code inputs in the device corresponds to the number of colors of information displayed on the CELT screen, and the number of luminance signal inputs corresponds to the number of image luminance gradations. The device works as follows,. From a source of information, for example, a computer or a specialized dishing processor (not specified), input 24 receives a color code (color indicator) of the output-image fragment. This signal includes a controlled high-voltage source 16 and a voltage equal to the CELT 18 anode voltages of sources 16 and 17. After the voltage at the CELT anode is set, the voltage corresponding to the color code, the inputs of registers 1 and 2 receive the position codes of the sign on the CELT screen in X and Y coordinates. The output signals of the registers are digital to analogue converters 3 and 4 are fed to the first switches 5 and 6 of the image scale. The color code arrives at shaper 19, which sets to. the input of the first switches 5 and 6 of the image scale is the bias voltage, the value of iKOToporo is proportional to the magnitude of the electron spot shift when the anode voltage is switched. The color code signal also goes to the first image scale switches 5 and 6, setting the corresponding transfer coefficient of the output signals of converters 3 and 4 for a given color, Coordinate amplifiers 7 and 8 convert the input voltage from the image scale switches 5 and 6 to a diverging current, flowing through the coordinate deflecting system 9. After a certain time, sufficient to establish the electron beam at a point on the screen with the coordinates recorded in registers 1 and 2, the character generator 10 enters the code a. The sign generator 10 converts the digital code into analog sweep voltages and mark illumination signals. The sweep voltages across the second image switches 11 and 12 are fed to sign amplifiers 13 and 14, which convert the input voltage into a diverting current flowing through the sign-diverting system 15. In this case, depending on the color code on the second image scale switches 11 and 12, the corresponding signal transfer ratio from the character generator 10 is set. Signal illumination signals are amplified by video signals. by the cell 20 and fed to the cathode CELT 18. At the same time, the luminance signal is fed through the electron beam current modulating unit 21 to the CELT modulator 18. Unit 21 consists of the brightness amplifier 22 and the amplifier 23, Shaper 22, depending on the color code, feeds the amplifier 23 causes the bias voltage to be set so that at its output the signal level is set relative to the CELT latching voltage, providing the required sign brightness in the specified color. After the formation of one link is completed, the position codes of the next character are received, then the sign code, and it is displayed on the CELT screen. In this sequence, all characters are displayed in the specified color. In the case when displaying information of the same color at the input 25 of the device, a signal of a different brightness level is received, a signal is generated at the output of the amplifier 23, providing the corresponding current value of the electron beam, determined by the input brightness signal and the color code. Thus, the modulation of the brightness of image elements in one color of information representation is performed. After the display of the characters of one color on the CELT screen is completed, the next color code is received at input 24. This signal triggers the switching of the output voltage of the controlled high voltage source 16. As a result, the total value of the potential at the anode of the CELT and the color of the glow of the screen decrease. The operation of the device for displaying characters after a color switch is similar. In this case, the imaging device 19 of the image displacement signals, depending on the received color code, changes the voltage value of the bias voltage at the outputs of the first kbmutator 5 and 6 of the image scale proportional to the displacement of the electronic pattern when switching colors. Thus, by shifting the voltage level to the input of the coordinate amplifiers 7 and 8, the offset of the image is compensated for when the displayed information changes. In addition, the first and second switches 5 and 6, I1 and 12 scale, depending on the color code, changes the signal transfer ratio, which allows you to adjust the input voltage amplitude of the coordinate and sign amplifiers 7 and 8, 13 and 14, respectively, the sensitivity change. rejection. A luminance signal generator 22, by a color code signal, changes the magnitude of the bias voltage at the input of amplifier 23, as a result of which the output signal of the amplifier changes relative to the CELT blocking voltage. This allows, by modulating the electron beam, to equalize the brightness of the displayed characters with respect to the desired level of brightness without reducing the speed and shaping. Similarly to the operation of the device for displaying marks on the screen of the CELT, work is carried out on the formation of an image consisting of graphic elements: straight line segments, arcs, circles, etc. In this case, the necessary control signals come from the corresponding functional converters: arc vector generators, etc. (not shown). Claim device A device for displaying information on a color cathode ray tube (CELT) screen containing serially connected in each of the coordinates register, digital-to-analog converter first image scale switch and coordinate amplifier connected to the CELT coordinate deflection system, and the second image scale switch connected in series, the first, the input of which is connected i to the character generator, and the sign amplifier connected to the sign CELT declining system, the cathode The connection is connected with a video amplifier connected to a character generator, controlled by a high voltage source, the stroke of which and the second inputs of the image scale commutators are an input. Image clarity on the screen CELT by equalizing luminance and improving the accuracy of combining the image elements when switching the color of the displayed information, the device contains an electron beam current modulation unit, one of the inputs of which is an input. The device color code, the other inputs an input The luminance signal, and the output are connected to the CELT modulator, and the image displacement imager, whose input is the input Color code of the device, and the output is connected to the third inputs of the first image scale switches in the X and Y coordinates.