SU590785A1 - Device for displaying information on crt screen - Google Patents

Description

(54) DEVICE FOR DISPLAYING INFORMATION ON SCREEN ELECTRON-BEAM TUBE (CRT)

one

The invention relates to the field of automation and computer technology and can be used to communicate a human operator with a computer.

The Logic820 universal display is known, containing a keyboard connected in series, an encoder, a request generator, an input / output interface, a memory unit, a comparison unit, a character generator, a timing diagram generation unit, a sync block, a synchronization unit, and a display unit. Display by: allows for the collection and editing of alphanumeric and simplest graphic information (graphics) using the keyboard 1.

A disadvantage of this device is the complexity and bulkiness of the keyboard with a limited range of characters to be typed, the difficulty of constructing modifications with a different set of characters.

The closest to the technical essence is a CT device for displaying information on the screen of a cathode ray tube 2, which contains a control unit connected to a keyboard, a regeneration unit, a coordinate sensor connected to a keyboard, a clock pulse generator and a CRT.

This device contains bulky and complex alphanumeric and graphical keyboards; it does not allow to create modifications of displays with new sets of alphanumeric and graphical information without changing the schemes of a graphical and alphanumeric keyboard; increase the range of characters typed without changing the keyboard.

The aim of the invention is to expand the scope by expanding the range of input characters.

This goal is achieved by inserting a number code generator, a character connected to a control unit, a serial coordinate coordinate data generator connected to a keyboard, a character extraction unit connected to a character number generator, and a valve block connected to the control unit, entered into the device. and a row number counter connected in series, connected to a keyboard, a decoding unit connected to a character number codes generator and a valve block, and a selector connected to the control unit Eni and CRT.

The drawing shows the block diagram of the device.

Claims (2)

The device comprises a keyboard 1, a control unit 2, a regeneration unit 3, a coordinate sensor 4, a driver of coordinate codes 5, a driver of character number codes 6, a row number counter 7, a control unit 9, a valve block 10, a selector 11, a CRT 12 and a clock generator 13. Keypad 1 provides the operator with the ability to change the contents of the row number counter 7, as well as control the coordinate sensor 4. In addition, the keyboard can contain: controls for setting the operating mode of the device (work-control, reception-transmission, etc. .) The control unit 2 is designed to generate the main control signals for the operation of other display nodes. It provides interfaces and received exchange mode for receiving and outputting information to an external device, recording and reading information from regeneration unit 3, outputting information for display, controlling the driver of the character number codes 6. The outputs of the control unit 2 are connected to the regeneration unit 3, the driver code numbers of characters 6, with selector I, with CRT 12. In addition, control unit 2 is connected to the external device through an input and output with a standard set of circuits (e.g., an SZ joint circuit according to GOST 18146-72). The regeneration unit 3 serves to store information received from an external device and dialed by the operator during input and editing. Information from the output of the regeneration unit 3 is fed through the control unit 2 and the selector 11 on the CRT 12 for display and during transmission to an external device. The coordinate sensor 4 generates and outputs to the control unit 2 signals for forming the coordinates of the points of the coordinate sensor as which a light pen can be used, etc. The coordinate codes former 5 is used to form the coordinate code of the marker on the additional line. The code from the output of the coordinate codes generator 5 is fed to the second input of the character extraction unit 8. The driver of the character number codes 6 outputs to the first input of the character allocation unit 8 and the first input of the decoding unit 9 periodically changing the values of the additional line characters for one frame. The line number 7 counter issues a code for the additional line number for block decoding 9, the value of which is determined by the keyboard 1. The character extraction unit 8 together with the valve unit 10 are designed to select the character whose position on the additional line matches the position of the marker. The decoding unit 9 is designed to convert the conditional code of a graphic or alphanumeric character of the additional line (the number of the additional line and the number of the character) into the binary code of that character, defined by the existing standards or accepted conventions. From the decoding unit, the sign code is fed to the input of the valves 10 and selector I. The selector 11 serves to transmit information from two directions to the CRT 12 — the code of alphanumeric and graphic signs fed through the control unit 2 from the regeneration unit 3, and the code of alphanumeric and graphic characters of the additional line coming from the decoding unit 9. CRT 12 is used to display graphic and alphanumeric information. At the first input of the CRT 12 from the control unit 2, the coordinate code and control signals (illumination, brightness, color, flicker, etc.) are received by the displayed information, and the second input from the And selector is alphanumeric and graphic character codes. The clock pulse generator 13 outputs to the control unit 2 clock pulses necessary for the operation of all the display nodes. The device works as follows. Information from an external device (computer, data transmission equipment) is input to the device and using control unit 2 is recorded in the regeneration unit 3. Such information can be, for example, codes of coordinates of lines and individual points of a geographic map, symbols of objects on this map — of settlements, enterprises, mineral deposits, and text according to GOST 13052-74. From the regeneration unit 3, the information is sequentially read by the control unit 2. The X coordinates, and additional features (brightness, flicker, color, line thickness, etc.) are output to the first input of the CRT 12, and graphic and alphanumeric character codes through the selector 11 - to the second input of the CRT 12. In the same way, coordinates and a sign code from the sensor 4 are periodically output through the control unit 2 on the CRT 12. Part of the screen of the CRT 12 is assigned to the additional line that displays: line number, signs of this line from the general composition from Rage characters and on one of the characters - an additional line marker, which for convenience may coincide with the marking pointer. A pointer is also displayed on the screen as an arrow with a dot. The lower part of the screen is not used to display basic information, and an additional line is displayed here, including the number of the additional line (in this example from 0 to 31), the characters of this additional line (in the example, the 23rd line) and the additional line marker. In the above example, a total of 512 characters are used -32 lines, 16 characters each line, of which 256 (O-15 lines) are used to display on an additional line and enter characters on the screen according to GOST 13052-74 and 256 (16-31 lines ) to display and enter geographic signs, for example, symbols of objects and minerals. Keyboard 1 has an additional line selection key and a scramble key; additional marker of the additional line (not shown in the drawing). When you press the additional line selection key, sparse pulses of a few hertz frequency are output to the line number counter 7 and the binary code value set at the output of this counter changes (increases or decreases). This changes the extra line displayed on the CRT screen. When you press the scramble key, the additional line marker on the coordinate code generator 5 also generates pulses with a frequency of several hertz and the value of the binary code at its output changes. This causes the marker to shuffle along the extra line. The frequency of the rare pulses fed to the counter of the row number 7 and the former of the coordinate codes 5 when the key is pressed is selected based on the convenience of the operator. On the character code generator 6 in each information display frame, after completion of (or prior to) reading from the regeneration unit 3, the control unit 2 generates counting pulses to change the code of the imaging unit 6 from O to the maximum value. The code bits of the selected additional line number (the higher bits of the sign number code) and the changes in each display period from 0 to the maximum bit value of the additional line sign number (the lower bits of the sign number code) go to decoding unit 9. As a block decoding 9 can be used with a permanent or semi-permanent storage device (ROM or PISU) with address selection. When using an EPROM, it is possible to change the character set during operation of the display by overwriting its contents. From the output of the decoding unit 9, the codes of the characters of the additional line through the selector I are fed to the second input of the CRT 12 for display. At the same time, the control unit 2 outputs the coordinates of the additional characters displayed on the CRT 12. In this way, together with the basic information recorded in the regeneration unit 3, on the CRT 12, the characters used to enter the information are displayed in the space provided (on the additional line). For the convenience of the operator, an additional line number is displayed to the left of these characters. To provide the input itself, it is also necessary to display an auxiliary marker. The location of the marker above the additional line is determined by the value of the code of the generator of the coordinate codes 5. The generators of the coordinate codes and the codes of the numbers of characters 5, 6 have the same bit width. With a sequential change of the code of the imager b from zero to the maximum value at the output of the character extraction block 8, a signal is generated at equal values of the codes of the drivers 5 and 6. The signal from the output of the character extraction block 8 is sent as allowing the valve block 10 and through this circuit 2 passes the character code that matches the location of the marker. Upon receipt of the sign code from the valve block 10, the control unit 2 is delayed by one cycle to issue the next counting pulse to the input of the character number codes generator 6 and outputs the marker code to the selector 11 and the X, Y coordinates of the CRT mark 12. Thus, the additional line marker is displayed . If it is necessary to enter any character from the general list of characters, the operator finds the required line using the selection key of the additional line, which is displayed on the screen, then using the marker control key sets the additional line marker above the character that needs to be entered, coordinates sensor 4 or the pen to the point where you need to enter the character, and presses the enter key. At the command of this key, the character code that matches the location of the marker of the additional line, along with the coordinates, is recorded in the regeneration unit 3 and is subsequently displayed on the indicated location of the CRT screen. Similar to entering characters with a marker and an additional line, it is also possible to enter control commands. For this, one of the additional lines is assigned to commands, where their names are displayed in abbreviated form. The command is selected by combining the additional line marker with the command name and pressing the key after combining. Thus, the introduction of coordinates codes and sign numbers, a row number count, a mark selection block, a decoding block, a selector and a valve block into the device of the shaper provides input of information without using special alphanumeric and graphic keyboards. The keypad, which contains the device, contains a small (about 10) number of key switches (only for controlling the coordinate sensor by the coordinate codes former and line numbers), while the excluded alphanumeric keyboard contains at least 42 keys (GOST 142287-67) The graphical keyboard must contain even more keys. A significant reduction in the number of key switches allows you to dramatically reduce the size of the keyboard and increase its reliability. Coupled with this, the proposed device allows, without increasing hardware costs, to significantly expand the range of characters, which is achieved by selecting a certain number of additional lines. In addition, it is possible to change the range of characters, especially when using semi-permanent memory in a decoding unit. The proposed device is used most effectively in cases where the range of characters used is large and their input speed is not significant, i.e. for a large range of rarely used characters. With the expansion of the capabilities of universal displays, as computing technology develops, such devices will be used increasingly. Displays with a frequently varying range of characters, such as displays used for scientific research and technical development, may be the second application area. In this area, more important is not the speed of information entry, but the ability to change the range of characters. An invention device for displaying information on the screen of a cathode ray tube (CRT), containing a control unit connected to a keyboard, a regeneration unit, a coordinate sensor connected to the keyboard, a clock pulse generator And a CRT, characterized in that by expanding the range of input characters, a shaper of character number codes connected to a control unit, sequentially connected shaper of coordinate codes connected to a keyboard are entered into it phi, a character extraction unit connected to a character number code generator, and a valve unit connected to a control unit, and a row number counter connected in series to a keyboard, a decoding unit connected to a character number code generator and a valve block, and a selector connected to control unit and CRT. Sources of information taken into account in the examination 1. V.Neustroeva, V.I. Semenikhina. Universal display of the average level Logic820. Materials of the VII All-Union School on the Automation of Scientific Research, 1974. 2. US patent number 3731299, cl. 340-324А, 1974.