SU720436A1 - Data display device - Google Patents

Description

The invention relates to the field of automation and computer technology, in particular, to devices for displaying information.

A device is known that contains 5 a light source with a carrier located in front of it with pre-recorded several images in the form of diffraction gratings. On the other side of the carrier at the point corresponding to the first diffraction order, there is a television tube, which is an image sensor and connected to the video control unit [1]. fifteen

The disadvantage of this device is aggravated by the low accuracy of the display of dynamic information.

The closest in technical essence to the proposed one is a 20 device comprising a television sensor connected to a video control unit, information erasing units connected to a control unit, a beam splitter unit and 25 connected in parallel units for synchronization, control, image formation and memory [2].

The disadvantage of this device is the structural complexity, 30

The aim of the invention is to simplify a device for displaying information.

This goal is achieved by the fact that in the device the beam splitting unit is optically connected to a television sensor, to a memory unit, the inputs of which are connected to control and synchronization units, and to information erasing units.

In addition, the information erasure unit contains optically coupled collimated radiation source and a deflector, the inputs of which are connected to code converters.

The invention is illustrated by drawings, where in FIG. 1 is a block diagram of a device; FIG. 2 shows a memory block and FIG. 3 one of the blocks erase.

The device includes a pairing unit 1, a control unit 2, a synchronization unit 3, an imaging unit 4, a memory unit 5 with inputs 6 of an analog signal, 7 - a binary signal and 8-synchronization, a beam splitting unit 9, consisting of a translucent mirror 10, a lens 11 and a filter 12, a first erasure unit 13 with control inputs 14 for positioning the erasing beam and turning on 15, a second erase unit 16, made in the form of, for example, a flash lamp, a backlight 17, a television sensor 18 and a video control unit 19.

The memory unit 5 includes an electron beam tube 20 with a cathodochrome screen 21, a cathode 22, which is connected through a video amplifier 23 with an input 6, an anode 24 connected to an accelerating voltage source 25, a deflecting system 26 located on the neck of the tube 20, and digital-to-analog converters 27 and 28 connected to input 7.

The first erasure unit 13 comprises a collimated radiation source 29, for example a laser, and a deflector 30 connected to the code converters 31 and 32 to the control actions. If the deflector is ultrasonic, then code-frequency ⁵¹ transducers should be used as transducers 31 and 32.

The device operates as follows.

. The information to be displayed goes to the interface unit 1. Here, from the incoming signal (for grayscale information), a synchronizing signal is allocated to block 3, where it is consistent with the internal clock frequencies of the device. Information codes and grayscale signals are transmitted to block 2, where information is selected from them for the coordinate placement of characters and their descriptions and fed to block 4 imaging. Halftone information is fed to input 6 of block 5 with the simultaneous supply of 7 continuous signals to input 7. These signals when reproducing a grayscale image can be 'represented by codes that continuously increase in each step by''1 ¹ '. Codes from the input 7 through a predetermined path, applying a reproduced image to the cathodochrome screen 21. The grayscale characteristics of the image are reproduced due to changes in the recording current according to the signals from the analog input 6. After the image is recorded on the screen 21, it is projected in the rays from the backlight lamp 17 of the lens 11 onto the photosensitive layer of the television sensor 18. Since the input and the output is completely decoupled, the information to be reproduced can come at any pace, as well as in start-stop mode, and can be played back at any predetermined decomposition standard, for example, TVs nnom.

The information is selectively replaced using block 13 by exposing the screen 21 to a narrow light beam from a source 29 directed to the screen 21 by a deflector 30 and a translucent mirror 10 of the beam splitting unit 9. The portion of the screen on which the information to be replaced is recorded is determined by commands from block 2. The light beam erases the information from the screen 21 within its cross-section, leave behind a clean area on which any new information can be recorded using the electron beam. Complete erasure of information is carried out using the second erase unit 16 by illuminating the entire surface of the screen 21.

The introduction of new structural ties and the new implementation of the blocks can significantly simplify the design of the device.

Claims (2)

The invention relates to the field of automation and computer technology, in particular, to devices for retrieving information. A device is known that contains a light source with a carrier located on it and a pre-recorded recording of several images in the form of diffraction gratings. On the other side of the carrier, at the point corresponding to the first diffraction order, is the television tube, which is an image sensor and is connected to the video control unit 1. The disadvantage of this device is the low accuracy of displaying dynamic information. The closest in technical sense to the proposed is a device comprising a television sensor connected to a video control unit, information erasure units connected to the control unit, a splitter unit and successively connected conjugation, synchronization, control, imaging and memory 2 units. The disadvantage of this device is constructive complexity. The aim of the invention is to simplify the device for displaying information. This goal is achieved by the fact that in the device a beam splitter unit is optically coupled to a television sensor, to a memory unit whose inputs are connected to control and synchronization units, and to an information erasure unit. In addition, the information erasing unit contains an optically coupled source of collimated radiation and a deflector, the inputs of which are connected to code converters. The invention is illustrated in the drawings, where in FIG. 1 shows a block diagram of the device; FIG. 2 shows a memory block and FIG. 3 - one of the erase units. The device includes an interface unit 1, a control unit 2, a synchronization unit 3, an imaging unit 4, a memory unit 5 with inputs 6 of an analog signal, 7 a binary signal and 8 synchronization, a light-splitting unit 9 consisting of a translucent mirror. 10, the lens 11 and the light filter 12, the first erasing unit 13 with the control inputs 14 erasing the beam and turning on 15, the second erasing unit 16, made in the form of, for example, a flashlight, a backlight lamp 17, a tel; video roll The memory unit 5 includes an electron-radiation tube 20 with a cathode chrome screen 21, a cathode 22 connected via video amplifier 23 to input 6, an anode 24 connected to an accelerator voltage source 25, which deflects the tube 26 20, and the digital-to-analog converters 27 and 28 connected to input 7, the first erasing unit 13 contains a source 29 of collimated radiation, such as a laser, and a baffle 30 connected to the converters 31 and 32 codes to control actions. If the ultrasonic deflector is used, then code-frequency converters should be used as transducers 31 and 32. The device works as follows; i,. The information to be selected enters the mapping block 1. Here, from the incoming signal (for semitone information), the synchronization signal is received, which arrives at block 3, where it is matched with the device’s internal clock frequencies. Information codes and halftone signals are transmitted to block 2, where information is selected from them for the coordinate positioning of symbols and their description and fed to block 4 of the formation of images. The halftone information is fed to the input 6 of the block 5 with simultaneous input to the input 7 of the signals of the continuous sweep. When reproducing a halftone image, these signals can be represented by codes, continuously increasing in k) y: th step. The codes from input 7 enter the converters 27 and 28, where they are converted into control currents of the bias system 26, under the influence of the floor of which the electron beam generated by the cathode 22 is directed to a given point of the cathode chrome screen 21. Under the influence of the rotating currents beam; along a predetermined trajectory, deposited on a kahodokhromny screen 21 reproducing a bold image. The half-tone characteristics of the image are reproduced due to changes in the recording current by signals from analog input 6. After the recording is completed, the image is displayed on the screen 21, it is projected in the light from the illumination lamp 17 by the lens 11 onto the photosensitive layer of the television sensor 18. the output has been fully developed, the information to be played can come at any rate, as well as in the start-stop mode, and reproduced in any predetermined decomposition standard, for example, television sec tor. Selective replacement of information is carried out using block 13 by acting on the screen 21 with a narrow light beam from source 29, the deflector 30 directed onto screen 21 and the translucent mirror 10 of the beam-splitting unit 9. The portion of the screen on which the information to be replaced is determined is determined by commands from block 2. The light beam erases information from screen 21 within its cross section, leaving behind a clear area onto which any information can be recorded using an electron beam. The complete erasure of information is carried out using the second erasing unit 16 by illuminating the entire surface of the screen 21. The introduction of new structural links and the new execution of the blocks significantly simplify the design of the device. Claim 1. A device for displaying information, comprising a television sensor connected to a video control unit, information erasure units connected to a control unit, a beam-splitting unit and a follower; but connected interfacing, synchronizing, controlling, forging and memory units, characterized in that, in order to simplify the device, in it the beam-splitting unit is optically coupled to a television sensor, with a memory unit, the inputs of which are connected to control and synchronization units , and with blocks erase information. 2. The device according to claim 1, wherein the erasure information block contains optically coupled source of polling / i and irradiated radiation to a deflector, the inputs of which are connected to the code converters. Sources of information accepted in c.1.1 during examination 1.US Patent W 3740464, cl. 340--324, published. 1973, 2, US Patent No. 3524022, cl. 178-1.5 ,, pub. 1966 (prototype). Sxo9 uf f