SU742984A1 - Device for displaying information on crt screen - Google Patents

Description

The invention relates to automation and computer technology and is intended for the study of single fast-flowing processes. j

A device is known that contains a cathode ray tube with a memory, a read amplifier, a coaxial deflecting system, a delay unit, a switched power supply, a trigger pulse shaper, a temporary calibration unit for the recorded process, scanning and highlight blocks of recording signals, scan and highlight blocks of reading signals . power supply, process indication unit (11.

The disadvantage of this device is the low reliability of the displayed information.

The closest technical solution to the proposed is a device for displaying information on the screen of a cathode ray tube, containing a control unit, a delay unit 25, a switched power supply, a calibration unit, scan units and recording highlight, scan units and reading illumination connected to the cathode ray tube connected in series with a read amplifier, a digital phase discriminator, a first memory unit and a display information analysis unit connected to a control unit and a second unit m of memory, the inputs of which are connected to the output of the readout amplifier and the control unit, and the outputs to the backlight and scan sweeps, a digital phase discriminator and an indication unit, the other inputs of which are connected to the readout backlight and the control unit connected to the inputs of the switched power supply , the first inputs of the recording scan and highlight blocks, the calibration block, the first input of the pulse shaper, the second input of which is connected to the delay unit, and the outputs - with the second inputs of the highlight and scan blocks and records corresponding to the outputs of the control unit are connected to the first memory unit, the inputs of the backlight and scan sweeps (2].

The disadvantage of this device is the low reliability of the displayed information.

The purpose of the invention is to increase the reliability of the display of information.

This goal is achieved by the fact that the device contains an integrator, the input of which is connected to the corresponding output of the second memory block, and the output is connected to the input of the second memory block and with the reading and writing backlight blocks, the input of the reading amplifier is connected to the cathode ray tube.

The drawing shows a block diagram of a device.

A device for displaying information on a cathode ray tube screen comprises a cathode ray tube 1, a control unit 2, a switched power supply 3, a read illumination unit 4, a read scan unit 5, a pulse shaper, a write scan unit 7, a recording illumination unit 8, a second memory unit 9 , delay unit 10, integrator 11, digital phase discriminator 12, read amplifier 13, first memory unit 14, calibration unit 15, display information analysis unit 16, display unit 17.

The device operates as follows.

The preparation of the cathode ray tube 1 for displaying information is carried out at the command of the unit 2 for controlling the switching to the preparation mode of the switched power supply 3, the launch of the read scan unit 5 and the read illumination unit 4.

At the same time, a rectangular raster like a television is displayed on the CRT screen. Then, the control unit 2 puts the switched power supply 2 in the recording mode, starts the pulse shaper 6, which includes the recording scan unit 7 and the recording highlighting unit 8, recording the zero line.

Next, the control unit 2 prepares the second memory unit 9 and records information about the zero line into it. At the same time, the pulses of the frame marker and the reference frequency generator are recorded in the second memory unit 9. After reading the information about the zero line, the cathode ray tube is again prepared for operation. With the arrival of the first signal under investigation, the pulse-shaper 6 driver is triggered, which launches blocks 7 times-, vertics, and 8 backlight recordings, then the recording scan unit 7 is blocked at the input. The signal of the studied process is fed to the input of the coaxial system of the cathode ray tube through a delay unit 10, delayed by the response time of the scan units 7 and 8. the recording backlight. The blocking signal from the recording scan unit поступ is supplied to the control unit 2 and signals the end of the recording process. Next, the process of reading the first test signal begins. The control unit 2 puts the second memory unit 9 into playback mode. The impulse reference frequency sequence with the frame marker pulses mixed into it is supplied from the second memory unit 9 to the input of the integrator 11, which also generates a start pulse of the read illumination unit 4 and the read scan unit 5, gives permission to open the outputs of the second memory unit 9, connected with a read scanning unit 5 and a digital phase discriminator 12.

The input of the scan sweep unit 5 receives the reference frequency pulses from the output of the second memory unit 9 and periodically starts the horizontal sweep of the latter.

When a target of a cathode ray tube 1 is scanned by a television raster on its signal grid, a read and converted signal appears in the form of small-amplitude pulses whose phase carries information about the amplitudes of discrete samples of the signal recorded on the screen of the cathode ray tube 1. These pulses are fed to the input of the reading amplifier 13, from the output of which goes to the input of the digital phase discriminator 12, to the other input of which the information pulses of the second memory unit 9, corresponding to the zero line, specify the reference phase shift of the information pulses of the recorded process.

The digital phase discriminator 12 measures the phase shifts of the information pulses and provides the input of the first block 14 of the memory pa-. parallel binary code corresponding to the true value of the ordinates of a registered process.

The cyclic process of recording signals on the screen of the cathode ray tube 1, reading and writing to the first memory unit 14 ends after registration of the studied flow of single fast-flowing processes.

At the end of the registration process, a calibration sinusoid is recorded onto the target of the cathode ray tube 1 from the calibration unit 15, and this information is read and written into the second black memory 9.

Then the device is put into analysis and playback mode. To do this, the blocks 9 and 14 of the memory are transferred to playback mode.

The information being read along with the synchronization signals from the control unit 2 is fed to the inputs of the displayed information analysis unit, which reads information, converts, analyzes and generates information about the ordinates of the amplitude distribution of the stream of single processes.

In the display mode of the amplitude distribution, information coming from the analysis information displaying unit 16 is recorded in the second memory unit 9 and in the playback mode. reference is indicated on the screen of the display unit 17.

Claims (2)

The invention relates to automation and computing, and is intended to investigate single-fast processes. A device comprising a memory tube, a read amplifier, a coaxial deflection system, a locking unit, a switched power source, a trigger pulse generator, a temporal calibration block of the recorded process, a scanner and a recording light, a read signal and a backlight, power unit, process indication unit Ul. A disadvantage of this device is the low reliability of the displayed information. The closest technical solution to the present invention is a device for displaying information on the screen of a cathode ray tube, comprising a control unit, a delay unit, a switched power source, a calibrator unit, scanners and a recording light, scan and illumination units connected to the electron beam tube , a serially connected read amplifier, a digital phase discriminator, a first memory block, and a display analysis unit (K, connected to a control unit and a second block A inputs whose inputs are connected to the output of the read amplifier and the control unit, and the outputs to the pre-light and sweep units, the digital phase discriminator and the display unit, the other inputs of which are connected to the readout light unit and the control unit connected to the inputs of the switched power source, the first inputs of the scanners and the recording light, the calibration unit, the first input of the pulse former, the second input of which is connected to the delay unit, and the outputs to the second inputs of the backlight and scan units and recording respective outputs connected to the control unit pervo1lu block memory blocks and input illumination scan reading 2 The disadvantage of this device is the low accuracy of the displayed information. The purpose of the invention is to increase the availability of information display. This goal is achieved in that the device contains an integrator, the input of which is connected to the corresponding output of the second memory block and the output — to the input of the second memory block and to the light blocks of the read and write, the input of the read amplifier is connected to the electron-beam tube. The drawing shows a block diagram of the device. A device for displaying information on the screen of a cathode ray tube comprises a cathode ray tube 1, a control unit 2, a switching power supply 3, a read light unit 4, a read scan unit 5, a pulse builder 6, a write scan unit 7, a write backlight unit 8, a second block 9 memory, delay unit 10, integrator 11, digital phase discrimination torus 12, read amplifier 13, first memory block 14, calibration unit 15, display information analysis unit 16, display unit 17. The device works as follows. The preparation of the electron-beam tube 1 for clearing information is carried out by the command of the control unit 2 by switching to the preparation of the switched power source 3, by launching the read scan unit 5 and the read light unit 4. In this case, on the CRT screen, you illuminate the TV-type raster. Then the control unit 2 drives the switching power supply 2 to the recording mode, starts the pulse shaping unit 6, which includes the recording sweep unit 7 and the recording light block 8, recording the zero line. The second control unit 2 prepares the second memory unit 9 and records in it an information about the zero line. At the same time, pulses of the frame marker and the reference frequency generator are recorded in the second memory block 9. After reading the information about the zero line, preparation of the electron-beam tube for work is again performed. With the first signal under study, the shaper of pulse cd-Rf is triggered, which triggers blocks 7 of the sweep and 8 highlights of the record, then block 7 of the sweep of the record is blocked by input. The signal of the process under study is fed to the input of the coaxial system of the cathode-ray tube through the delay unit 10 delayed by the response time of the sweep units 7 and 8. recording light. The blocking signal from the write sweep unit 7 enters the control unit 2 and signals the end of the recording process. Next, the process of reading the first signal under investigation begins. The control unit 2 places the second memory unit 9 in the playback mode. The pulse sequence of the reference frequency with the frame marker pulses mixed in it comes from the second memory block 9 to the input of the integrator 11, which also produces the start pulse of the read light 4 and the read frequency scan 5, grants permission to open the outputs of the second memory block 9 associated with the readout unit 5 and the digital phase discriminator 12. The input of the readout unit 5 receives reference frequency pulses from the output of the second memory unit 9 and periodically starts the page full-time sweep of the latter. When scanning a target of a cathode ray tube 1 with a television raster on its signal grid, a read and converted signal appears in the form of pulses of small c1 amplitude, the phase of which carries information about the amplitudes of discrete samples of the signal recorded on the screen of the electron beam tube 1. These pulses are fed to the input of a read amplifier 13, from the output of which is fed to the input of a digital phase discriminator 12, to the other input of which information pulses of the second memory block 9 are received, corresponding to the zero line, specifying the origin of the phase shift of information pulses of the registered process. The digital phase discriminator 12 measures the phase shifts of the information pulses and outputs, at the input of the first memory block, 14 memory units. parallel binary code corresponding to the true value of the ordinates of the registered process. The cyclical process of recording signals on the screen of the electron-beam tube 1, reading and writing to the first memory block 14 ends after registration of the stream under study of single, fast-flowing processes. At the end of the registration process, the calibration tube 1 of the calibration sine wave is recorded from the calibration block 15, and this information is read and written in the second memory block 9. The device is then put into analysis and playback mode. For this purpose, blocks 9 and 14 of the memory are switched to the playback mode. The read information, together with the synchronization signals, from the control unit 2 is fed to the inputs of the display information analysis unit 16, which reads the information, transforms, analyzes and generates information about the ordinates of the amplitude distribution of the one-time process stream. In the indication mode of the amplitude distribution, the information coming from the display information analysis unit 16 is recorded in the second memory unit 9 and in the playback mode. maintenance is displayed on the display unit 17. An apparatus for displaying information on a screen of a cathode ray tube, comprising a control unit, a delay unit, a switched power source, a calibrator unit, scanners and recording lights, scanners and read lights connected to a cathode ray tube, serially connected reading amplifiers, digital phase discriminator The controller, the first memory block and the display information analysis block connected to the control block and the second memory block, whose inputs are connected to the output of the readout module and the control unit; and the outputs, to the illumination and scanning units of the readout. digital phase discriminator and display unit, the other inputs of which are connected to the read light unit and the control unit connected to the inputs of the switched power source, the first inputs of the scanners and the recording light, the calibration unit, the first input of the pulse generator, the second input of which is connected to the delay unit, and the outputs with the second inputs of the light units and the write sweep, the corresponding outputs of the control unit are connected to the first memory unit, the inputs of the light units and the read sweep, In order to increase the reliability of the information display, it contains an integrator, whose input is connected to the corresponding output of the second memory block, and the output to the input of the second memory block and to the light and scan readout blocks, the input of the read amplifier is connected to electron beam tube. Sources of information taken into account in the examination 1. The author's certificate of the USSR № 368557, cl. G 01 g 29/00, 1970. 2. USSR author's certificate No. 512481, cl. G About K 15/18, 1974.