SU642742A1 - Multichannel device for displaying information on crt screen - Google Patents

Claims (3)

Connected to a second switch connected to a time-base beam scanner. The block diagram of the device is presented on the drawing. The multichannel device for displaying information on a CRT screen contains a master oscillator 1, an additional channel scanner unit 2, a code 3 sensor, the first switch 4, a decoder 5, the main channel scanner unit 6, the second switch 7, a beam temporary scan unit 8 deflecting CRT system 9 , cathode ray tube 10. Blocks 2, 6, 8 sweeps are made according to the code-current converter circuits and contain trigger points and current keys (not shown in the drawing), the currents of which change according to binary law. The first switch 4 contains signal keys, a key decoder that controls the keys (not shown in the drawing), and a video amplifier whose input receives signals from the common output of keys and the backlight backlight from the corresponding output of the deflector 5. The trigger pulses from the output of the master oscillator are input to an additional block 2 channel scanner from one of the outputs of which start-up pulses are received and the input of the main unit 6 channel scanner. At the output of the main unit 6 connected to the diverting system 9, a multistage sweep current is formed, the number of steps of which is determined by the number n of displayed channels. The corresponding output of the additional unit 2 also forms a multi-stage sweep current, the number of steps of which is determined by the condition of filling the interval between the current steps of the main channel sweep unit 6. As a result, the total multistage current with the number of steps equal to the number of steps of both of the above mentioned multistage currents of the channel sweep, which is close in shape to the sawtooth, flows in the coil channel sweep. Under the action of this current, the beam dashes out a solid line on the screen, and as a result of the joint operation of blocks 2 and 6 of the channel sweep and time sweep unit 8, which forms a near-sawtooth sweep current at the input connected to the deflecting system 9 of the CRT, an image is created on the screen of the CRT 10 in the form of a solid raster. The image of the channels in the form of strips and a viewer in the form of a dot or a stroke located between the channels is carried out by feeding from the output of the decoder 5 to the CRT 10 an impulse pulse. Control of damping pulses and the position of the viewfinder along the time axis is carried out with the help of the resolution of the sight of the viewfinder (RTS) generated by the decoder 5 and fed to the corresponding input of the second switch 7. The duration of the television pulse is equal to the channel sweep period, and the repetition frequency is selected from the absence of visible flicker the reticle on the CRT screen (). The signal is displayed in Te time, and the visibility is controlled in Te time. At the same time, a part of the time equal to equalinglevibHOCTH of one current step generated by the main channel sweep unit 6 and the current period formed by the additional channel sweep unit 2 is relegated to the channel image and signal display, and the other part t "is created to create gaps between channels and imaging the sighting device. For this, during the TC time, the CRT beam 10 is quenched in the time interval tg, and during the Tg time in the time interval -tc. In order to adjust the brightness of the sighting device during T from the output of the decoder 5, one of the inputs of the first switch 4 receives the illumination of the sighting device. To generate the necessary pulses of the decoder 5 and to control the operation of the first switch 4, signals from the outputs of blocks 2 and 6 of the channel sweep (trigger trigger codes) are sent to their respective inputs. The input signals coming through the channels of the 1st st, and the illumination pulses of the sight, arriving at the corresponding inputs of the first switch 4, after conversion, come from its output on the CRT 10, causing the beam to be illuminated at the time intervals tc specified above to ig. The time axis position control is performed by periodic switching of the scanning and sight codes, which are fed from the outputs of the beam time scanning unit 8 and the code 3 sensor to the corresponding inputs of the second switch 7, controlled by the IHR pulse. As a result, either a sweep code or a traversing code arrives at the time sweep input 8, and periodically the currents caused by these codes flow in the coil connected to the output of this block. The position of the viewfinder on the screen is determined by the code sensor code 3. Analytical calculation of the accuracy showed that the proposed multi-channel information display device provides an increase in the accuracy of determining the coordinates compared to the prototype by about 3-4 times due to the display of signals only in the form of luminous marks and input of an electronic viewfinder for pick up the time coordinate. In addition, the spatial separation of the marks and signals, which excludes the masking effect of the marks on the marks, helps to increase accuracy. The same, as well as an increase in the area of marks due to the formation of the image of channels not as a line, but in the form of a pausa leads to an improvement in the visibility of solid marks and a score of approximately 500 times (calculated value) threshold threshold. The invention has a multichannel device for displaying information on the screen of a cathode ray tube (CRT), containing a time beam scanner and a main channel scanner unit connected to a deflecting deflecting CRT, a master oscillator, and the first switch connected to the CRT and the main channel scanner distinguish This is due to the fact that, in order to increase the accuracy of the device, a code sensor, 5 additional channel scanning unit, 5 second switch and a decoder connected to a CRT, two switches, with the main The main channel and additional channel scanners, the additional channel scanner unit is connected to the master oscillator, the main channel scanner unit and the CRT diverting system, and the code sensor is connected to the second switch connected to the time beam scanner unit. Sources of information taken into account during the examination 1. Patent of Germany No. 1272186, cl. 74 D 6/15, G O R, 1969. 2. US patent number 2866967, cl. 343-I, 1958. 3.Popov G.P. Engineering psnkhologi in radiolokatsin. “Soviet radio. M., 1971, p. 75, 21. HHJ-H Jl Canada / I ...