SU819816A1 - Device for information display on crt screen - Google Patents

Description

I

This invention relates to the field of computing.

A device for displaying and recording parameters of a shock signal is known, comprising a control unit, a memory unit and a recording unit 1.

The closest to the technical essence of the invention is a device for displaying information on a CRT 2 screen, containing a serially connected clock generator, a first memory block, a first switch, a comparison unit and a video amplifier connected to a CRT modulator. The second output of the sync generator is connected to the pp unit, a scanning point, the third to the vertical scanning unit, the fourth to the compensation unit, the output of which is connected to another input of the comparing unit, five to the second B1 input of the deamplifier.

However, such a device does not measure the amplitude duration and the spectrum of the shock signal.

The aim of the invention is to expand the field of application of the device by displaying additional information.

The goal is achieved by the fact that the proposed device comprises a filter, a detector, a multiplier and a second memory block connected to another input of the first switch, an AND connected and a third memory block, the other input of which is connected to the output of the compensation block, one input element I is connected to the output of the comparison unit, the second switch, the input of which is connected to the second output of the synchronizing generator, and another input of the second memory unit, the output to the other input of the multiplier, sequently joined standby generator, a first counter, a comparator and a third switch connected to the other detector nui entry, entry zhdu5 present generator is connected to a third clock output, output - to the other input of the AND and the third video input. amplifier, clock generator and other filter inputs, and a second counter, the input of which is connected to the first output of the clock generator, and the output to another input of the switch.

Claims (2)

The structural scheme of the proposed device is shown in the drawing. The device contains a mechanical shock to electrical signal converter 1, a memory block (shock) 2, filter 3, detector 4, multiplier 5, spectral memory block 6, switch 7, comparison unit 8, video amplifier 9, CRT 10, horizontal block sweep 11, frame sweep 12, sync generator 13, standby generator 14, counter 15, indicator 16, counter 17, digital comparator 18, switches 19 and 20, compensation unit 21, element 22, memory block (amplitude) 23 and indicator 24. The device operates as follows: The mechanical shock is converted by converter 1 to electrical signal. The memory block 2 successively stores the values of this signal at discrete points in time determined by the pulses of the synchronous generator 13. As a result, information about the form (amplitude-time characteristic) of the shock pulse is stored in the memory block 2. In the shape indication mode, the memory unit 2 sequentially with the horizontal scanning frequency through the switch 7 sends signals to the input of the comparison unit 8, to another input of which simultaneously a signal linearly increasing in time and having a period equal to the horizontal scanning period is fed from the compensation unit. As a result, a pulse is formed at the output of comparator 8, the duration of which is proportional to the signal presently located at the output of memory 2. This pulse is fed to the video amplifier, which forms - on the screen of a CRT 10 a luminous pillar, the value of which is proportional. The signal at the output of the memory unit 2. Simultaneously from the synchronous generator 13, the video amplifier 9 is supplied with short pulses, which form a scale on the screen of the CRT 10. Thus, during a single frame of a CRT, the form of a pulse recorded in memory 2 is displayed on its screen as luminous pillars. At the beginning of each frame, the clock generator 13 generates a pulse arriving at the input of the standby generator 14, at the output of which a wide pulse is generated, the incoming video amplifier 9. As a result, a part of the pulse that is in time from the beginning of the strike, synchronized with the beginning of the vertical sweep, to the end of the generator pulse 14, is more clearly displayed on the CRT screen. ene, any time constant of the generator 14 within the vertical scan duration. CRT. In this case, the impact image is highlighted within the limits from its beginning to any selected value. The pulses from the output of the generator 14 and the comparator unit 8 are fed to the input of the element And 22, which, having dynamic inputs, reacts only to the falling edge of the generator 14 and to the leading edge of the pulse of the comparison unit 8. The signal thus formed at the output of the element And 22 gates the block memory 23, which records the value of the signal from the output of the compensation unit 21, equal to the current value of the impact amplitude at the time of the end of the generator pulse 14. This value of the amplitude is indicated by the indicator 24. Thus, any current value is measured Achen pin amplitudes including the maximum Simultaneously end momenta of the generator 14 received on the resolving input of the counter 15, it stops. The number of horizontal pulses counted by him corresponds to the current duration of the impact, i.e., the highlighted portion of the image on the CRT screen 10. The duration is induced on the indicator 16. To find the current spectrum of the shock, the switch 7 is set to a position where the output of the memory block 6, and the counter 15 is transferred to the shock storage mode. In addition, the time constant of the generator 14 is set corresponding to the end of the shock pulse, the switch 20 connects the common wire to the control input of the multiplier 5, and the switch 19 connects the direct output of the comparator 18 to the control input of the detector 4. Herewith all information from the memory unit This 2 is read in less than the length of a single line and is fed to the input of filter 3, which reacts to the input pulse, is excited and forms an oscillatory process at its input. The maximum value of the amplitude at the output of the filter 3 during the impact time forms one point on the graph of the direct shock spectrum. In addition, the synchronization pulses of the memory block 2 are simultaneously applied to the counter 17 (digital code) whose OUT signal, which is taken), is time-matched and compared with the code on the output of the counter 15 using a comparator 18. As a result, the output of the comparator 18 produces a pulse corresponds to the duration of the shock pulse read from the memory unit 2. This pulse, fed to the control input of the detector 4, allows you to select a signal equal to the maximum amplitude value at the output of the filter 3, the pulse during the impact, . E. Component of the current spectrum. At the beginning of the next scan line, the CRT signal from the output of detector 4 through multiplier 5, whose transmission coefficient is equal to one, is fed to the input of memory block 6, where it is stored for a time equal to the length of the line. In this case, the signal is displayed on the CRT screen in the form of a pillar, forming one ordinate of the graph of the current shock spectrum. During the duration of this line, the definition of the new coordinates of this graph is carried out, for which the ratio of the time of sampling information from memory block 2 and the resonant frequency of filter 3 are changed by the synchronous generator 13 and the next component of the shock spectrum is determined, which is then displayed on the screen CRT. Thus, during the time of one frame of the image, the entire current shock spectrum is determined. The impact spectrum of the aftereffect is determined similarly, with the only difference being that the inverter output of the comparator 18 is connected to the control input of the detector 4. As a result, the detector 4 operates only at the end of the shock pulse read from the memory block 2 until the end of the duration of the CRT sweep time. The value of the signal at the output of the detector 4 in this case corresponds to one ordinate of the impact spectrum of the aftereffect. The Fourier spectrum of the shock pulse differs from the Shock aftereffect by the presence of a coefficient, where W is the ordinate value along the frequency axis. In this case, the Fourier spectrum is determined in the same way as the impact spectrum of the aftereffect, but the multiplier 5 is activated. For this purpose, the switch 20 connects the horizontal output of the clock generator 13 to the control output of the multiplier 5. At the same time, the multiplier 5 multiplies the measurement result by a factor proportional to 1 / W, i.e., for each determination of the ordinates of the Fourier spectrum, the ratio K w,. –F WP is the resonant frequency of the filter 3; T. - time to output a shock pulse. sa from memory 2; y-multiplier transfer coefficient. 5. Some operations carried out by the device may at present be carried out using a system consisting of a set of computing devices, a computer and a display. The use of the described device will allow to reduce the time of testing products for impact, to improve the quality and reliability of products. Apparatus of the Invention A device for displaying information on the screen of an electron beam tube containing a series-connected sync generator, a first memory block, a first switch, a comparison block and a video amplifier connected to a cathode tube modulator, a second sync generator output connected to a horizontal scanning unit, and a third to a frame unit the fourth one - to the compensation unit, the output of which is connected to another input of the comparison unit, the fifth one - to the second input of the video amplifier, characterized in that tse pour extending the scope of device by displaying additional information, it comprises a filter connected in series, a detector, a multiplier and a second storage unit connected to the other input of the first switch; and the input of the filter is connected to the output of the first memory block, the series-connected element AND and the third memory block, the other input of which is connected to the output of the compensation unit, one input of the AND element connected to the output of the comparator, the second switch whose input is connected to the second output of the clock generator and another input of the second memory block, output to another input of the multiplier, serially connected waiting generator, first counter, comparator and third switch connected to another input of the detector, input waiting for the generator The pa is connected to the third output of the sync generator, the output is connected to another input of the AND element and the third input of the video amplifier, the other input of the first counter is connected to the second output of the synchronous generator and another filter input, and the second counter, whose input is connected to the first output of the synchronous generator, the output to another input of the comparator , Sources of information taken into account in the examination 1. Express information. Testing devices and stands. No. 27, 1967, p. sixteen. 2.Druzin L. Ya. Television Information Display Systems. “Energie, 1975, p. sixteen.