SU824189A1 - Device for output of information from cathode-ray tube - Google Patents

Description

The invention relates to computer technology, in particular to devices for input and display of graphic information, devices for reading filmstrips, graphs of television and radar images in tasks requiring subsequent computer input. In addition, the device together with a microscope can be used in the study of cell structures in biology and medicine.

A device for inputting graphic information is known in which for indicating a point on the screen of a cathode ray tube (CRT) with a light pencil there is a block for generating a diverging orthogonal microraster. [1].

However, the device, providing high precision point coordinates, is complex.

The closest technical solution to the proposed one is a device for reading and recording the coordinates of the image, containing a display unit, a control unit, a light pencil, a light signal extraction unit, a current coordinate unit consisting of an X coordinate counter and Y coordinate counter, a synchronization block, a registration unit , a distribution unit, a comparison unit, and an intermediate coordinate unit connected in such a way that the coordinates of the point indicated by the light pencil are read out on the 5th screen of the display unit ii, wherein, removal point coordinates is carried out in one half frame (half frame removal), and register them performed during the second half frame (half frame registration) [2].

However, the known device has a low image quality due to the insufficiently high accuracy of indicating the coordinates of the image, since only those points that are in the half frame of the pickup are read and recorded.

The purpose of the invention is to improve image quality by increasing the accuracy of determining coordinates.

This goal is achieved by the fact that in a device for outputting information from a CRT containing ²⁰ connected registration unit, a code converter connected via a synchronization unit to the registration unit, a memory unit, a first comparison unit connected to the memory unit, an X coordinate counter, under 824189 connected to the memory unit, the control unit connected to the counter at the Y coordinate with the memory unit, the synchronization unit and with the television receiver, the clock generation unit and the photodetector optically coupled to by the power receiver, an X coordinate register is entered, connected to the counter at the X coordinate, control unit, memory unit and the first comparison unit, Y coordinate register, connected to the counter at the Y coordinate and control unit, and a second comparison unit connected to the register at the Y coordinate to the counter at the coordinate Y, to the first block of comparison and to the memory block.

The drawing shows a block diagram of a device.

It contains a television receiver 1 on the CRT screen of which the coordinates of the point are determined, a photodetector 2, a control unit 3, a clock generation unit 4, a memory unit 5, a synchronization unit 6, counters 7 and 8 at X and Y coordinates, a recording unit 9, registers 10 and 11 coordinates X and Y, the first and second blocks 12 and 13 of the comparison and the Converter 14 codes.

The device operates as follows.

To scan the image on the screen of the indicator device, a standard television raster is used. The point coordinates are taken in each half-frame, and the registration is performed on the reverse move for each frame or during the whole next frame.

With the beginning of each half-frame, an impulse enters the control unit 3 from the indicator device of the television receiver 1 and the latter allows the counters 7 and 8 of the X and Y coordinates to be filled, having previously set them to the initial state.

The counter 7 is filled with pulses of block 3 and is set to its initial state before the beginning of each line until a signal is received from the photodetector 2, made in the form of a light pencil, through blocks 4 and 3.

The counter 8 is filled with horizontal sync pulses coming from block 1 through block 3. This continues in each half frame until the signal from photodetector 2 arrives.

The brightness level of the screen glow and the sensitivity of the photodetector are selected in such a way that block 2 responds to the scanning beam, regardless of the level of the video signal at this point. This allows you to specify any point in the raster. Usually, several scan lines fall into the field of view of the photodetector, and first, several pulses of an odd half-frame, and then several pulses of an even half-frame, are first sent to the sync pulse block 4. Block 4 selects and generates only the first pulses in each half frame. These pulses, passing through the control unit 3, stop filling the counters 7 and 8. In an odd half frame, information from the counters 7 and 8 is sent to the registers 10 and 11, respectively, and the counters are set to their initial state. At the end of an even half-frame is the contents. the counter 8 and the register 11 is compared in the second comparison unit 13, and when comparing, the additional least significant bit of the Y coordinate, which determines the even or odd half-frame, is taken into account. In register 11 (odd half frame) it is always considered equal to one, and in counter 8 (even half frame) it is equal to zero. As a result of the comparison, it is determined in which half-frame the Y coordinate is smaller and, in accordance with this, the contents of the counters 7 and 8 or the registers 10 and 11 are supplied to the first comparison unit 12. Moreover, the Y coordinate is transmitted through the block 13 with an additional low-order bit.

In block 12, the current is compared. coordinates from registers 7, 8 or 10, 11, depending on which half-frame the indicated point belongs to, and intermediate coordinates from block 5. If the coordinates differ by the value set by the discrete resolution operator, block 12 sends a registration enable signal to block 3 management. If the light sensor of the photodetector is stopped at the raster point, then the comparison unit does not send a subsequent permission and registration signal for the entire time of the stop.

At the end of the frame from the control unit 3, a signal is received to transfer the contents from the registers 7, 8, 10 and 11 to the memory unit 5, as well as to the synchronization unit 6 to allow the passage of control pulses from the unit to this unit. 15 registration.

The synchronization unit 6 provides a registration cycle and generates pulses of a certain duration, which are transmitted to the code converter 14, where the contents of the intermediate coordinate unit 5 are simultaneously fed, which represents the coordinates of the point recorded by the light pencil of the photodetector 2. Block 14 carries out the encoding and sends control signals in the selected form to block 9 registration.

The introduction of the X and Y coordinate registers and the second comparison unit allows you to specify a point in any half-frame of the television raster, which increases the accuracy of the coordinates by increasing the analyzed lines of the raster.

Claims (2)

(54) DEVICE FOR OUTPUT OF INFORMATION WITH cathode ray tube exception to the block memory control unit coupled to the counter to the coordinate Y with the memory unit, synchronization unit and a television receiver, forming the block clock and a photodetector optically coupled to a television receiver, administered register the X coordinate connected to the counter by the X coordinate, the control unit, the memory block and the first comparison block, the Y coordinate register connected to the counter by the Y coordinate and the control block, and the second block compare The unit is connected to the register by the Y coordinate to the counter by the Y coordinate, to the first comparison unit and to the memory block. The drawing shows the block diagram of the device. It contains the television receiver 1 on the CRT screen of which the coordinates of the point are determined, the photon receiver 2, the control unit 3, the synchro pulses block 4, the memory block 5, the synchronization block 6, counters 7 and 8 on the X and Y coordinates, the registration block 9, registers 10 and 11 coordinates X and Y, the first and second blocks 12 and 13 of the comparison and the converter 14 codes. The device works as follows. A standard television raster is used to scan the image on the screen of the indicator device. The coordinates of the point are picked up in each half-frame, and the registration is carried out in reverse motion along each frame or during the whole next frame. . With the beginning of each half-frame, from the indicator device of the television receiver 1, a pulse arrives at the control unit 3 and the latter permits filling of the counters 7 and 8 of the coordinates X and Y, having previously set them to the initial state. Counter 7 is filled with pulses of block 3 and is set to its initial state before the start of each row until a signal from photodetector 2, made in the form of a light pencil, is received through blocks 4 and 3. Counter 8 is filled with horizontal sync pulses coming from block 1 through block 3. This continues in each half frame until the signal arrives from the photodetector 2. The brightness level of the screen and the sensitivity of the photodetector are selected in such a way that unit 2 responds to the scanning beam irrespective of the video signal level at a given point. This allows you to specify any point of the raster. Usually, several scan lines fall into the field of view of a photodetector, and the synchro-shaping unit 4 first receives several pulses of an odd half-frame, and then several pulses of an even half-frame. Block 4 selects and generates only the first pulses in each half-frame. These pulses, having passed through control block 3, stop filling counters 7 and 8. In an odd half-frame, information from counters 7 and 8 is sent to registers 10 and 11, respectively, and the counters are reset. At the end of the even half frame, the content of the counter 8 and the register 11 is compared in the second comparison unit 13, and when comparing, the additional low-order bit of the Y coordinate defining the even or odd half frame is taken into account. In register 11 (odd half frame), it is always considered to be one, and in counter 8 (even half frame) it is zero. As a result of the comparison, it is determined in which half-frame the Y coordinate is smaller and, accordingly, the contents of the counters 7 and 8 or the registers 10 and 11 are fed to the first comparison block 12. Moreover, the Y coordinate is transmitted through the block 13 with an additional low-order bit. Box 12 compares the current. coordinates from registers 7, 8 or 10, 11, depending on which half-frame the specified point belongs to, and intermediate coordinates from block 5. In the case of coordinates differing by the value set by the removal discrete operator, block 12 sends a recording resolution signal to block 3 management If the light detector of the photodetector is stopped at the raster point, the comparison unit does not send a subsequent signal of resolution and recording for the entire stop time. At the end of the frame, control signal 3 receives a signal for transferring content from registers 7, 8, 10 and 11 to memory block 5, as well as synchronization block 6 for allowing control pulses to pass from registration block 15 to this block. The synchronization unit 6 provides a registration cycle and generates pulses of a certain duration, which are fed to the code converter 14, to which the contents of the intermediate coordinate unit 5, representing the coordinates of the 2 points fixed by the light detector of the photodetector, are simultaneously fed. Block 14 is- realizes the coding and sends the control signals in the selected form to the recording unit 9. The introduction of the X and Y coordinate registers and the second comparison block allows you to specify a point in any half-frame of a television raster, which increases the accuracy of indicating the coordinates by increasing the analyzed raster rows, The invention The device for outputting information from a CRT tube connected