CS241345B1 - Communication alphanumeric terminal connection, especially for technological equipment - Google Patents

Abstract

The invention relates to the connection of a communication alphanumeric terminal, especially for technological devices. The essence of the invention lies in the fact that the keyboard is connected by a branched output via an input register, a communication microcomputer, a buffer register and via a display microcomputer to a line register and to a line switch. The communication microcomputer is connected by a branched output to a converter and back from the converter to the communication microcomputer. The keyboard is connected by an output via a shaping circuit to an input register, which is connected via a communication microcomputer and via a buffer register to a display microcomputer. The display microcomputer is connected by two outputs to a shift register, the branched output of which is connected via a line register to a matrix display, to which a line switch is simultaneously connected. The converter is connected via an adaptation circuit to a control system and back to the converter. The converter is connected by an interrupt output to the communication microcomputer.

Description

for technological equipment i

The invention relates to the connection of a communication alphanumeric terminal, in particular for technological equipment.

The principle of the invention is that the keyboard is connected via a branched output via an input register, a communication microcomputer, a buffer register and a display microcomputer to a row register and a row switch. Communication microcomputer is branched output connected to converter and wrong from converter to communication microcomputer. The keypad is output connected via a shaping circuit to an input register which is connected via a communication microcomputer and via a buffer register to the display microcomputer. The imaging microcomputer is connected via two outputs to a shift register, the branched output of which is connected via a row register to a matrix display to which a row switch is connected at the same time. The transducer is connected via an adaptive circuit to the control system and to the transducer. The converter is connected by an interrupt output to the communication microcomputer.

The invention relates to a solution for the connection of a communication alphanumeric terminal, in particular for technological devices intended for the input and output of alphanumeric data and messages * upon contact of the operator with the technological device controlled by the microcomputer, respectively. minicomputer.

The current way of communicating the operator with the device through the control panel formed by a set of buttons, switches, selectors and indicators * is not flexible enough in terms of comprehensive information of the operator on the status of the controlled process as well as in terms of operative intervention and parameter changes during the technological process .

From a technical point of view, this method requires a wide channel, which is prone to interfering with the machining process. The position indication is sensitive to * n * and power failure.

The above-mentioned disadvantages are alleviated and the technical problem is solved by the connection of an alphanumeric terminal, especially for the technological devices according to the invention, which is based on the fact that the keyboard is connected via its branched output via input register, communication microcomputer, buffer register and to the row register and its second branched output to the row switch.

The communication microcomputer is connected by its second branched output to a parallel-serial and serial-parallel converter and poorly from the parallel-serial and serial-parallel converter to the communication microcomputer by its branched input.

The keyboard is connected via its shaping circuit to its strobe output to an input register, which is interrupted via the transmit output of the communication microcomputer and through the buffer register output to the display microcomputer connected by its first output and its second output to the two * shift register inputs. whose * branched write output is connected via the branched output of the row register to a matrix display to which a row switch is connected at the same time.

The parallel-serial and serial-parallel converter is connected via its output circuit to its control system and the low serial output of the adaptation circuit, to a parallel-serial and serial-parallel converter whose interrupt output is connected to the communication microcomputer.

The application of a new component base in the development of microcomputer control systems provides greater possibilities for machine operator to contact the machine.

The wiring of a communication alphanumeric terminal has the characteristics of an alphanumeric video * terminal, but with the option of displaying only one line of information at a time with a simple circuit solution, compatibility of connection to available microcomputers and minimal costs and dimensions.

Further advantages lie in the versatility, portability and, in particular, its interference immunity. At the same time it enables to increase the level of contact of the operator with the device in the form of dialogue. Changing the data table * in * ROM communication memory ^; You can change the shape, type, size and code of the displayed characters using the alphanumeric * terminal. The communication alphanumeric terminal can work in input and display mode.

In the attached drawing, an exemplary circuit diagram of a communication alphanumeric terminal is shown.

Connection of communication alphanumeric terminal is realized as follows:

The keyboard 1 is connected via a branched output 11 via an input register 3, a communication microcomputer 4, a buffer register 8, and via a display microcomputer 9 through its first branched output 94 to a row register 15 and a second branched output 95 thereof to a row switch 16.

The communication microcomputer 4 is connected by its second branched output 43 to the parallel-serial and serial-parallel converter 5 and back from the parallel-serial * and serial-parallel converter 5 to the communication microcomputer 4 by its branched input 44.

The keyboard 1 is connected via its shaping circuit 2 via its strobe output 20 to the input register 3, which is interrupted by its interrupt output 31 via the transmit output 41 [of the communication microcomputer 4, via the output 81 of the buffer register 8 to the display microcomputer 9 connected by its first output 93 and its second output 98 to two shift register inputs 14.

The branched write output 140 of the shift register 14 is connected via the branched output 150 of the row register 15 to the matrix display 17, to which a branched sensor 16 is connected simultaneously with its branched output 180.

The parallel-serial and serial-parallel converter 5 is connected via its output 50 via the adaptation circuit 6 to its output 60 to the control system 7 and through the serial input 61 of the adaptation circuit 6 to the parallel-serial and serial-parallel converter 5. , connected to a communication microcomputer, 4.

The communication alphanumeric terminal can be operated in the input and display modes.

In the input mode, the character and keyboard 1 of the terminal is first sent * via the communication microcomputer 4, which is part of the terminal, to the control system 7. In it, the 241345 is processed and received in the form in which it was received. The processing code is transmitted to the display microcomputer 9, which in the terminal functions as a dynamic, multiplex-controlled switch from matrix alphanumeric display elements.

By displaying the character, a visual check of the correctness of the acceptance of the character by the control system 7 is obtained.

• One-way transmission of textual or numerical data from the control system 7 to the terminal is carried out in the display mode. The sequence of characters by line is displayed on the display via the communication microcomputer buffer 4. In this mode, the position coordinates, current machining data, announcements and the like can be displayed.

The character code of the keypad 1 is overwritten via a branched output 11 by a signal from the strobing output 20 to the input register 3. From the falling edge of the signal from the strobing output 20 of the shaping circuit 2 the signal of the interrupt output 31 is derived. , there is a testable input signal 42 of the communication microcomputer 4.

By accepting this p-request by the microcomputer 4, after the combination of the character from the branched output 30 of the input register 3 has been signaled by the signal from the release input 32, the entry of the next character with the keyboard 1 is unlocked. ROM and RAM and I / O stations transform the character work code from keyboard 1 into universal code (ISO, ASCII, EIA and the like), which it writes via the second branch output 43 of the communication microcomputer 4 to a parallel-serial converter 5.

The serial information via the output 50 of the parallel-serial converter 5 is adjusted in the multiplier circuit 6 and its output 60 is transmitted to the control system 7. After the character has been decoded and evaluated, it is sent via serial output 61 to the multiplier circuit 6 from where it is transferred to the serial-to-parallel converter 5 through the inlet 51.

The transformed parallel information is written to the memory of the communication microcomputer 4 after receiving the signal from the interrupt output 52 of the serial-to-parallel converter 5 via the branched-in input 44. The conversion of the universal code to the working code is converted. 41 stores the buffer register 8. This generates a signal from the interrupt output 81 connected to the display microcomputer 9.

By accepting the signal from the interrupt output 81, through the branch output 80 of the equalization register 8, the display microcomputer 9 scans the combination of the corresponding character and writes to the memory the function of the character bafra.

Accordingly, the signal transferred to the enable input 82 of the buffer register 82 and the signal from the interrupt input 42 of the communication microcomputer 4 notifies the communication microcomputers 4 that the character transmission is complete. The imaging microcomputer 9 consisting of a control unit, an arithmetic-logic unit, a β-amate of ROM and RAM, and eight-bit parallel I / O stations writes the received character to the character bafra, from which part of the so-called display window, the width of which depends on the number of display elements, is transformed into row information of a character matrix which is serially and in parallel through the first branched output 94 of the display microcomputer 9 and the branched write output 14D of the shift register 14 is written to the row register 15 for some time.

The generation of signals from the r-branched write output 140 is generated on the shift register 14 by signals from the first output 93 of the imaging microcomputer 9. Resetting the shift register is accomplished by the signal from the second output 98 of the imaging microcomputer 9.

The switching on of the respective row of the matrix display 17 is effected by the imaging microcomputer 9 via its second branch output 95 and through the line switch block 16 by signals from its branch output 160. The row switching time is clocked by the display micro 9. When it is complete, new data is written to row register 15 and another row is switched on via row switch 16. This cycle is repeated continuously to form an image of the character string of the display window on the matrix display 17.

Claims (1)

OBJECT OF THE INVENTION Connection of the communication alphanumeric, translation and row register, terminal, especially for the technology line switches and matrix z-control image, consisting of a keypad, characterized in that the keypad (1) is a straightening circuit , k-communication and display branched output (11) of the connected microcomputer, parallel-serial through input register (3), communication and serial-parallel-converter, microcomputer (4), buffer register (8) ), via a display microcomputer (9), through its first branched output (94) to a row register (15) and its second branched output (95) to a row switch (16), wherein the communication microcomputer (4) is connected by its second branched output (43) to a parallel-serial and serial-parallel converter (5) and reverse of the parallel-serial: and serial-parallel converter the keyboard (1) is connected via its shaping circuit (2) via its shaping circuit (2) to its input register (3), which is its an interrupt output (31) connected via a transcript output (41J) of the communication microcomputer (4) and via an output (81) of the equalization register (8) to the display microcomputer (9) connected by its first output (93) and its second output (96) to two shift register inputs (14), whose branched write output (140) is connected via a branched output (150) of a row register (15) to a matrix display (17), to which a row switch (16) is connected simultaneously with its branched output (T60) , the parallel-serial and serial-parallel converter (5) is connected to its control system (7) via its output (50) via its output circuit (6) to its control system (7) and via the serial input (Θ1). a circuitry (6) to a parallel-serial and serial-parallel converter (5), whose interrupt output (52) is connected to the communication microcomputer (4).