SU750476A1 - Device for displaying information on crt screen - Google Patents

Description

The invention relates to the field of automation and computer technology and can be used to create screen remotes equipped with a light pen.

The known device comprises an operating mode decoder connected to an OR-HE element and a single vibrator, a light pen amplifier connected to an OR-HE element, and through an inverter to a single vibrator, a modulator amplifier connected to the outputs of an OR-HE element and a single vibrator [1] .

The disadvantage of this device is the low accuracy of being in high-speed brews.

The closest technical solution to this invention is an information display device comprising a memory unit connected to a modulation unit, an address unit and a synchronization unit, a CRT 25 connected to a light pen unit, a modulation unit and a synchronization unit, which connected to the control unit. The control unit is also connected to the address unit, the light pen unit 30 and the modulation unit [2].

The disadvantage of this device is the low reliability of finding the addresses of image elements marked with a light pen in display devices having a high output speed of sequential elements, as well as in devices whose control unit is located at a considerable distance from the display unit.

The aim of the invention is to increase the reliability of the device.

This goal is achieved in that the device containing the light pen optically connected to the screen of the cathode ray tube, the deflecting system of which is connected to the first output of the synchronization unit, the second output of which is connected to the first input of the control unit, the first output of which is connected to the first input of the address memory unit, the second input of which is connected to the first output of the memory unit, the second output of which is connected to the first input of the modulation unit, the second input of which is connected to the second output of the control unit, and This output of the synchronization unit is connected to the input of the memory unit, contains a counter, a correction unit, and an inverter, the output of which is connected to the control electrode of the cathode ray tube, the first input of the inverter _ is connected to the output of the modulation unit, ⁵ <and the second input to the output of the counter, ^ first input which is connected to the output of the address memory unit, and the second input to the input of the light pen'is, the first input of the correction unit, the second input of which is connected to the second output of the control unit, and the output to the third input of the counter and to the second input of the control unit tions.

The invention is illustrated in the drawing, 15 which shows a block diagram of a device.

The device comprises a memory unit 1, a modulation unit 2, an address memory unit 3, a synchronization unit 4, an equalization unit 5, a cathode ray tube 6, a light pen 7, an inverter 8, a counter 9, a correction unit 10.

The device operates as follows. 25

When information is displayed on the screen for each blanking pulse per frame, the counter of the current address of the memory block of address 3 is set to the initial state (usually zero). Parallel, _n but with the end blanking human im- pulse ^10, which generates a synchronization unit 4 is produced in the first request storage unit 1, by which a modulation unit 2 is recorded the information contained in the first unit cell PA-* · '1 RAM memory. Depending on the capacity of the memory block, this is information about η image elements (points) on the CRT screen b.

Modulation unit 2 sends sequentially (usually from a shift register) point information through inverter 8 to the corresponding CRT control electrode b (cathode or modulator). In the output mode, the inverter 8 passes information arriving at its input without change.

In parallel with the output of information stored in the first cell of memory unit 1, the counter jq of the current address is changed and the next request to the memory unit is made. Simultaneously with the completion of the processing of the contents of the first cell of the memory unit 1, the modulation unit 2 receives information from the next cell by the corresponding control signal from the control unit 5. The processing of information stored in this cell, as well as in the following cells of the memory block 1, occurs similarly to that described for the first 60 cells.

In the mode of editing information on a pulse from a light pen, indicating that the beam has reached a point on the screen indicated by the operator, the contents of the counter of the current address of the address memory block ¹ 3 are written to the light pen counter 9. However, this address is generally not true. After the end of the pulse from the light pen, the correction unit 10 makes an appropriate correction of the address recorded in the light pen counter, and after the end of the correction generates a pulse in the control unit 5, indicating that the address stored in the light pen counter is true.

The specified address is stored in the counter 9 light pen to the end of the blanking pulse frame. At the beginning of the next frame, the contents of the light pen counter 9 begin to decrease with the frequency of the output of information points on the CRT screen. Thus, when the light pen counter reaches zero state, the beam on the CRT screen reaches the point indicated by the light pen. The transfer pulse generated in the counter 9 of the light pen, enters the inverter 8 and changes the sign of the displayed information to the opposite. After some time, the specified information arrives at the CRT and is displayed on the screen. Since the operator points to the luminous point of the image, at this point the screen will not be highlighted, i.e. the operator has visual feedback.

After passing through the zero state, the counter 9 of the light pen is set to the state with the maximum address and is blocked. The next recording of information occurs on the next pulse of the light pen, i.e. in the next frame.

Correction of the address in the counter 9 of the light pen can be carried out in various ways. You can once adjust the correction unit 10 to eliminate the error characteristic of this particular device (i.e., for a given communication line, this type of light pen), for example, using jumpers. The correction unit as an integral part may contain a counter having installation inputs. By the pulse of the light pen, a certain code is entered into the counter, and at the end of the pulse of the light pen, the state of the light pen counter 9 and the counter of the correction unit are allowed to change until the latter reaches a certain state and prohibits the supply of control pulses to the counting input of the light pen counter. Adjustment of the correction block for each specific device is carried out according to the corresponding test / which is a vertical line. In this case, if after correction the address in the counter is 9.

If the light pen is not true, then a luminous dot will appear near the indicated vertical line (since when the light pen counter reaches zero state, information arriving at CRT 5 is inverted).

The luminous point can be to the left or right of the test line, depending on whether the delay of the communication line and the light pen are overcompensated or undercompensated. By changing the initial code entered in the counter of the correction block, this error is eliminated, the correction occurs until a dark dot appears on the test line. After this address, store ³ in the counter nyaschiysya light pen, always corresponds to the address specified by the operator point.

Another variant of correction block 10 is also possible when, as part of it, there is a key or a key field in it, which allows the operator to change the degree of address correction. In this case, the functionality of the device is expanded, since 25 you can mark points on the screen of a CRT and find their addresses even when they are not lit. During editing, new image elements (for example, 30 vectors) can be displayed using the vector available on the screen as the base one. It can be either parallel lines located at a certain distance from the base, or non-parallel. 35

Thus, the claimed device eliminates the disadvantages inherent in the analogue and prototype and allows to increase the reliability of finding the addresses of edited points; apply dd editing using a light pen in display devices that have a high speed of outputting image elements to the screen (both with a television scan and in functional ones); allows you to remove the indicator unit from the CRT at significant distances from the rest of the device blocks; apply light pen blocks of various speed of pulse formation; expands the functional capabilities of the display device, as it allows displaying on the screen of indicator devices with raster scan type new information elements (points, vectors), reducing, in addition, the time required for the operator to edit.

Claims (2)

The third output of the synchronization unit is connected to the input of the memory unit and contains a counter, a correction unit and an inverter, the output of which is connected to the control electrode of the cathode ray tube, the first input of the inverter is connected to the output of the modulation unit, (and the second input is connected to the output of the counter , The first input of which is connected to the output of the address memory unit, and the second input to the light input to the first input of the correction unit, the second input of which is connected to the second output of the control unit, and the output to the third input of the counter and to the second input of the control unit The invention is illustrated in the drawing, which shows a block diagram of the device. The device comprises a memory block 1 modulation unit 2, an address memory block 3, a synchronization block 4, a control unit 5, an electron beam tube b, a light pen 7, an inverter 8 , counter 9, correction unit 10. The device operates as follows: When displaying information on the screen on a single quench pulse on a frame, the count of the current address of the memory block of address 3 is set to the initial state (usually zero). Parallel to the end of the quenching frame and pulse, which produces the syronization unit 4, the first request is generated in memory block 1, according to which information contained in the first cell of block i 1 is recorded in modulation unit 2, Depending on the memory block is the information about the image elements (points) on the screen of the CRT 6. The modulation unit 2 sends sequentially (usually from the shift register) information about the points via inverter 8 to the corresponding control element CRT b (cathode or modulator). In output mode, the inverter 8 The information received in the first cell of block 1 is changed parallel to the current address counter and another request is sent to the memory block simultaneously with the completion of the processing of the first cell of memory 1 , modulation unit 2 receives information from the next cell to the corresponding control signal from control unit 5. The processing of information stored in this cell, as in the next cell of memory 1, takes place chno described for the first cell. In the mode of editing information on a pulse from a light pen, indicating that the beam has reached, a point on the screen indicated by the operator, the contents of the current address block address memory block 3 are written to the light pen counter 9. However, this address is generally NOT TRUE. After the end of the pulse from the light pen, the correction unit 10 produces the corresponding corrections (the trace of the address recorded in the counter (the light pen) and after the end of the correction generates a pulse in the control unit 5, indicating that the address stored in the light pen counter is true. is stored in the light pen counter 9 until the end of the frame quenching pulse. At the beginning of the next frame, the contents of the light pen counter 9 begin to decrease with the frequency of the information points displayed on the CRT screen. When the light pen counter reaches the zero point, the beam on the CRT screen reaches the point indicated by the light pen. The transfer pulse generated in the light pen counter 9 enters the inverter 8 and changes the indication of the output information to the opposite one. After some time the specified information enters the CRT and displayed on the screen. Since the operator points to the light point of the image, the screen will not be highlighted at that point, i.e. operator has visual feedback. After passing through the zero state, the light pen counter 9 is set to the state with the maximum address and locked. The next entry of information occurs on the next pulse of the light pen, i.e. in the next frame. The address adjustment in the light pen counter 9 can be performed in various ways. It is possible to adjust the correction unit 10 once to eliminate the error characteristic of this particular device (i.e., for a given communication line, a given type of light pen), for example, by means of jumpers. The correction block as an integral part may contain a meter having installation inputs. By a pulse of the light pen, a certain code is entered into the counter, and at the end of the pulse of the light pen, the state of the light pen and the counter of the correction unit is changed until the latter reaches a certain state and prevents the flow of control pulses to the counter input light pen. The adjustment of the correction block for each particular device is carried out according to the corresponding test, which is a vertical line. In this case, the RSLI, after correction, the address in the counter 9. the light pen is not true, then around the specified vertical line, the point is bright (since when the counter of the light pen reaches zero, the information received on the CRT is inverted). The light point may be to the left or right of the test line, depending on whether the link and light pen are overcompensated or undercompensated. By changing the initial code stored in the counter of the correction block, this error is eliminated, the correction occurs until a dark dot appears on the test line. After that, the address stored in the light pen counter always corresponds to the address specified by the operator. Another variant of the correction block 10 is also possible, when there is a key or a key field in it, as a part of which allows the operator to change the degree of address adjustment. In this case, the functional capabilities of the device are expanded, since it is possible to mark points on a CRT screen and find their addresses even when they are not illuminated. In the process of editing, new elements of the image (e.g., a vector) can be drawn using the vector on the screen as the base. It can be both parallel lines, located at a certain distance from the baseline, and non-parallel. Thus, the claimed device eliminates the disadvantages inherent in the analogue and the prototype and allows to increase the accuracy of finding the address of the eye / Ix points; apply editing with the help of a light pen in display devices with a high speed of displaying image elements on the screen (both with television scanning and in functional ones); allows you to remove the indicator block from the CRT for a considerable distance from the remaining blocks of the device; apply light pulse blocks of different pulse formation rates; expands the functional capabilities of the display device, as it allows displaying indicator devices with a raster-type scanner to display new information elements (points, vectors), reducing, in addition, the time required for the operator to edit. The invention is a device for displaying information on a screen of a cathode ray tube, comprising a light pen optically coupled to a screen of a cathode ray tube, the diverting system of which is connected to the first output of the synchronization unit, the second output of which is connected to the first input of the control unit, the first output of which is connected to the first input of the address memory block, the second input of which is connected to the first output of the memory block, the second output of which is connected to the first input of the modulation unit, the second input of which is It is connected to the second output of the control unit, and the third output of the synchronization unit is connected to the input of the memory unit, characterized in that, in order to increase the reliability of the device, it contains a counter, a correction unit and an inverter, the output of which is connected to the control electrode of the electron tube, the first input the inverter is connected to the output of the modulation unit, and the second input is connected to the output of the counter, the first input of which is connected to the output of the address storage unit, and the second input to the input of the light pen and the first input of the correction unit, the second input which is connected to the second output of the control unit, and an output to the third input of the counter and a second input of the control unit. Sources of information taken into account during the examination 1. USSR author's certificate 456286, cl. G 06 K 15/20, 1973. 2. USSR author's certificate number 438032, cl. G 06 K 15/20, 1970 (prototype).