SU903959A2 - Information displaying device - Google Patents

Description

(54) DEVICE FOR DISPLAYING INFORMATION

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The invention relates to automation, computer technology and television reception technology, which can be used to construct a device for displaying information on the screen of an electron-beam i tube received from electronic computers and television sensors.

On the main auth, sv. No. 714444 a device containing a synchronization unit, the first input of which is connected to the first input of the I / O unit and is the first input of the device, and the output is connected to the nepMjiMH inputs of the control unit, the beam deflection, the first memory block, the linearization block in rows and the second the input of the input / output unit, the output of which is connected to the second input of the first memory block, the first input of the second memory block and is the device input, the output of the beam deflection control unit is connected to the first input of the cathode ray tube and the second input block and linearisation

Claims (1)

lines, the output of which is connected to the second input of the second memory block and the third input of the first memory block, the output of which is connected to the second inlet of the CRT tube, the third input of which is connected to the output of the second memory block, the coarse linearized block over the frame, the first input of which is connected with the output of the beam backing block, the second input is with the third input of the left-hand arrays block; this is the BTOfH M input of the device, the exact linear block over the frame, the first input of which is connected to the second input of the control unit the beam deviation and the output of the block are coarse linearisadine in the frame, and the output is with the second input of the synchronous block, the third input of the second memory block and the fourth input of the first memory block, and the image mixing block over the frame whose input is connected to the second input block of the exact linearization of the frame and the output of the synchronization unit, and the output - with the third entrance of the house of the exact linearization unit of kaOrUSi. The disadvantages of the known device are geometric distortions of image reproduction in a frame caused by a non-linear relationship between the intensity of the deflecting magnetic field and the magnitude of the deflection of the point of illumination on the flat screen of the cathode-ray tube, as well as changes in the size of the reproduced image vertically and horizontally the change (oscillation) of the high-voltage at the main anode of the electron-beam work. The purpose of the invention is to improve the quality of the image by eliminating geometric distortions of the reproduced image across the frame and eliminating image resizing when the high-voltage eye voltage fluctuates. the anode of the electron beam tube. The goal is achieved by introducing a voltage divider and two functional ua} eo into the known device, power supply, the input of the voltage divider connected to the output of the beam deflection control unit, and the output to the first and second functional converters, the output of one which are connected to the fourth input of the linearization unit in rows, the third input of the coarse linearization unit for the frame and the fourth input of the exact linearization unit for the frame are connected to the output of another functional converter. There is a functional device diagram. The device contains a bioc 1 sync, a beam deflection control unit 2, a cathode ray tube 3, an input / output unit 4, a first memory block 5, a linearization block in rows, a second memory block 7, a block 8 of coarse liardarization on a frame, a block 9 accurate linearization of the frame, block H offset image on the frame, the divider voltage 11, the first functional converter 12, the second functional converter 13, the first input 14 of the device, the second input 15 of the device, the output 16 of the device. The device works as follows. The synchronization unit 1 can generate synchronization series both in the autonomous mode and in the retransmission (slave) mode from external sources of information from the first input 14 of the device. 9 The beam deflection control unit 2, synchronized by the synchronization unit 1, expands the beam of the electron-beam 3 tube 3 along the lines and frame according to the television principle. In (a signal (video signals) to the modulator of the electron-beam tube 3 is fed through the first memory block 5 from the I / O block 4, or from the second memory block 7 of the memory. The information is written to the first memory block 5 linearly at the rate of arrival information, and the information is read nonlinearly g in accordance with the nonlinearity of line scanning.The information from the second memory block 7 is also nonlinearly read. Linearization unit 6 by the lines of control & reads the read speed from the first memory block 5 and the second block 7 am ti in accordance with the rate of change of the line deflection current relative to the support kidego na1 |} and {va Keve second inlet device 15 in the deflection coil unit 2 gorge) yvpesh1 beam deflection. Tactel image, SCH5I non-linear line scan on the screen of the cathode ray tube 3 VOS1FAKES the line with respect to the expanding line image. At the input of block 8, a coarse linear arcade by Kajipy from the second input 15 of the device is also applied to the reference voltage with which the load is compressed, which means that the current in the HRD unit changes to the current coil. The result of a sraweg is an error signal, the magnitude to which the field is proportional to the variation in the current in the personnel deviation coil from speed (Levedev linear current current is determined by the effect of the magnetic field on the elec tron beam of the electroflux tube 3 equal to by the expression h "fe-tg-oC, the distance between the center of deflection and the center of the screen; 0 is the angle of incidence and is proportional to the current in the deflecting coils of the bok 2 of the control of the deflection of the beam. As for the tangential dependence Symptoms otklyovie elektrovvogo beam faster than the angle oC (this is especially noticeable at large angles. deviation), then the CR tube, the screens are flat, inevitable geometric distortions of the raster. However, if the geometric distortions of the raster to compensate for the same size, but the opposite sign the raster lines in the image frame, then the geometric distortions of the reproduced image in the frame are eliminated. It is noteworthy that if in the traditional ways of correcting geometric distortions due to the correction of the deflecting magnetic field (correction magnets, special rotation detection and special shape of deflection coils, correction transformers), in the proposed device the deflecting magnetic field is only partially corrected (in principle, the dependence of h on C does not matter in accordance with the geometric distortions, the position of the 2S lines in the image frame is compressed or stretched accordingly in the image by changing the start time of the line. Variations (fluctuations) of the high voltage on the main anode of the electron beam t of tube 3 (the high voltage source is normally in block 2 of the beam deflection control, using high-voltage spikes during the horizontal flyback to the horizontal transformer to change the size of the reproduced image proportional to the square root of the high voltage. To eliminate these distortions, divider 11 is connected to the beam deflection control unit 2 | At the output of which voltages are formed that are proportional to the horizontal and vertical deflection currents and high voltages. The divider 11. voltages can be disconnectors connected in series to the horizontal and vertical deflecting coils, which are removed from the voltages. The proportions of the resistances of the resistors are chosen to be significantly lower than the resistances of the deflecting coils, so as not to distort the shape and value of the current into the deviation. yugztas coils. A voltage proportional to a high voltage is removed from a high impedance voltage divider that does not load a high voltage rectifier in a noticeable way. The generated voltages, which are proportional to the frame and line deflection currents, are fed to the input of the first functional converter 12, and the voltage proportional to the high voltage is. To the input of the second functional converter 13. At the output of the first functional converter 12, a voltage is reproduced, the form of which reverses with respect to the shape of geometric distortions of the frame, and at the output of the second functional converter 13, the voltage is inverted with respect to (dimensional distortion of the reproduced image (the size of the reproduced image along the lines and along the frame is inversely proportional to the root of the high voltage). Geometric distortion over the frame depends on from the position of the reproduced image point in the frame. Therefore, the input of the first functional converter 12 needs to be supplied with nfp proportional to the line deviation of the current efficiency. Correcting voltage from the output of the functional shape 12 is fed to the input of blocks 8 and 9 of coarse and accurate linearization over the frame In block 8 of coarse linearization over the frame, the correction voltage of the necessary conducted voltage and polarity is added to the signal of the bend, which is attenuated by block 8, which enters block 2 of the deviation control l ca, as in block 9 of exact linearization frame - to the signal, a control nachalgnoy phase of the horizontal sync pulses. The correction of the control signals in blocks 8 and 9 is equivalent to the elimination of geometric distortions in the frame, and the equilibrium position of the lines in the image frame, caused by the geometric distortions, is eliminated. The correction voltage from the output of the second functional converter 13 is supplied to the inputs of blocks 8 and 9, through which it controls the correction of the size of the reproduced image by the same way as in the correction of geometric distortions. In block 6 of linearization by rows, the correcting dimensional voltage changes in the right direction the speed of reading information from memory blocks 5 and 7 and thus alternating in the right direction the size of the elements reproduced in the row (the video signal is stretched or compressed). The use of new elements — a voltage divider, functional converters — favorably distinguishes the proposed device for displaying information from the well-known, since it improves the quality of reconstructed iso fusion by eliminating geometric distortions of the reproduced image over the frame and eliminating the resizing of the reproducible image. x high voltage across the main anode of the cathode ray tube. At the same time, the requirements for the shape and distribution of turns in a frame deflecting coil are simplified, and corrective frame magnets are eliminated. Claims of invention Device pl display information on the author.St. M 714444, characterized in that, in order to improve the quality of the 90 59 display by eliminating geometric distortions of the reproduced image over the frame and eliminating the resizing of the image when the high-voltage voltage fluctuates on the main anode of the electron-beam tube, a voltage divider and two functional the converter, the input of the voltage divider is connected to the output of the beam deflection control unit, and the output to the inputs. the first and second functional converters, the output of one of which is connected to the fourth input of the linearization block in rows, the third input of the coarse linearization block on the frame and the fourth input of the exact linearization block on the frame connected to the output of the other functional transform tel. Sources of information taken into account during the examination 1. USSR author's certificate No. 714444, cl. G About K 15 / 2O, 1977. (prototype).