SU942080A2 - Device for control of matrix display - Google Patents

Description

(St) DEVICE FOR CONTROLLING THE MATRIX PLATE

The invention relates to automation, computer and computer technology and can be used in devices for displaying information on a matrix type display.

A device for displaying information on a matrix scoreboard with a control circuit is known. The display board in this device consists of k identical sectors made on the basis of a two-dimensional matrix scoreboard, and the c-bit sector register is entered into the control circuit. Each of these sectors is independent, functionally complete, a node, and therefore it can be constructively manufactured into a separate sub fl.

In order to increase the speed of the display system, the specified device provides for automatic selection of the next familiarity, which allows for post-entry information on the scoreboard without successive input of address signals. However, the automatic selection of the next place of familiarity in the considered display device is carried out only within one subtab, which causes difficulties in entering information in cases where the message information line exceeds the size of the line of one subtab and in order to make line-by-line recording, it is necessary to switch from the last familiarity line of the selected subtab on the first familiarity of the line of the same name of the next.

Claims (2)

According to the main auth. The USSR knows a device for controlling a matrix scoreboard containing an information input unit connected to one input of a register of columns, another input of which is connected to an input, a row register and a sector selection register, and a logic block, a group of switches, a block of gates, interrogation ) each of which is connected to the output of the register of columns, and the control inputs to the address outputs of the sector selection register and the inputs of the logic block, the outputs of the valve block are connected to the switch inputs, one outputs of which are connected Inns with ynpa LYA1DIM input of the sector selection register and the output of the register of lines, and other outputs with one of the inputs of the logical unit and the input of the register, whose output is connected to another input of the logical unit, the output of which is connected to the input of the sector selection register 2. In the practice of using the board Mappings There are frequent cases when the information stored on one or several sectors that make up the display panel does not require updating in the next Record cycle, i.e. is relative to this write cycle static. In such cases, when entering information, the sequence in the choice of sector is violated and it is necessary either to specify the address of the first cell of each sector, which needs updating, preceded by the sector with static information, or to automatically duplicate static information in all indication cells; each of the sectors located between any two sectors whose information is to be updated. Both in that and in the other case, time is wasted, and this loss is more, the more often the sectors that require updating information, alternate with sectors with static information. The purpose of the invention is to reduce the time for changing the information displayed on the board, i.e. increase the speed of the device. The goal is achieved by the fact that a pulse generator, the elements AND, OR, OR NOT, are entered into the device, the second logic block and the format register, the outputs of which are connected to the first inputs of the second logic unit, the outputs of which are connected to the inputs of the matrix scoreboard, the first logic block and the inputs element OR NOT, the output of which is connected to the first input of the element AND, the second input of which is connected to the output of the element OR, the outputs of which are connected to the outputs of the sector selection register and the second inputs of the second logic unit, to t The pulse input of the element I is connected to a pulse generator, and the element output of the AND is connected to the interrogation input of the valve block. Introduction of new blocks and connections allows automatic recording of information to eliminate the need to select a sector with static information and sequentially select display cells only for those sectors whose information requires updating, thereby reducing the update time on the display panel. The drawing shows a functional diagram of the device. The device includes an information input block 1, a register of 2 columns, a register of 3 rows, a sector selection register A, the first logic block 5, a switch group 6, a valve block 7, a pulse generator 8, AND 9 , element OR 10, element OR-NOT 11, second logic unit 12 and register of 13 formats. Input information block 1 is designed to receive, translate and store a character code, as well as to generate control pulses. The input unit 1 input information is connected to the computer, and the information output from the scoreboard. The sector selection register k, the 3-row register and the 2-column register are used to record and store the address of a selectable location and to organize the change of these addresses during the sequential entry of information. The address inputs of registers 2-4 are connected to a computer, the address outputs of a register of 3 rows and a register of 2 columns from a board, another input of a register of 2 columns - with an output of block 1 of information input. When switching from one information line to another, the first logical block 5 recovers the number of the selected sector, the lines of which are the beginning of the information lines of the message formed from all lines or a group of sectors, and confirm the number of the selected sector if the size of the information line is equal to the size of one sector line. The second input of the first logical block 5 is connected to the second output of the register of 3 lines, and the output to the second input of the register C of the sector selection. The switches 6 and the valve block 7 are designed to set the selected sequence of recording information on the scoreboard and to form AND separate the pulses of the continuation and termination of the information message lines. The control inputs of the valve unit 7 are connected to the first inputs of the second logic unit 12, the inputs of the element OR 10 and the address outputs of the sector selection register t, the interrogation input with the outputs of the element 9 and the register 2 columns, and the outputs with the inputs of switches 6, the combined first outputs of which are connected with the first input of the first logical unit 5 and the register input of 3 lines, and the combined second outputs with the first output of the register of 3 lines and the first input of the register C of the sector selection. The pulse generator 8 is started when the device is turned on. The frequency of the pulse generator 8 should provide the ability to change the state of the register k in the period between two pulses. The control of the passage of the pulses of the generator 8 to the input of the valve block 7 is carried out by elements 9-11. Element and 9. together with the element OR-NE 11 and the element 10 are designed to control the passage of pulses from the generator 8 to the interrogation input of the valve block 7. The input element And 9 is connected to the outputs of the element OR NOT 11, the element, the element OR 10 and the generator 8 pulses. The second logic unit 12 consists of AND gates and is intended to form the next sector select signal, in the indication cells of which the next group of symbols should be written. The second inputs of the second logic unit 12 are connected to the corresponding outputs of the register 13 of the format, and the outputs from the board, the inputs of the element OR NOT 11, and the address inputs of the first logical block 5. The format register 13 is designed to record and store a binary scale allowing All sectors are those, the information on which should be updated. The input register format 13 is connected to a computer. The device works as follows. Before entering the information, the operator sets the switches corresponding to the sectors where the communication information lines end in position 1, in which the outputs of the corresponding valves of the valve block 7 are connected to the inputs of logic block 5 and the register of 3 lines, the remaining switches are set to position 11 Setting the switch to position 1 indicates those sectors; which are the last in each sequence of sectors and thereby sets the automatic transition from the last cell Doi lines such sector on the first cell of the next line of the first sector of the sector sequence. Setting the switch to position 11 sets the automatic transition from the last cell of each line of the sector to the first cell of the same line of the next sector, i.e. the continuation of the message line of the message is provided in case its dimensions require the use of several sectors. When the device is turned on, all registers are reset to the initial zero state and the generator of 8 pulses is started, however the passage of the generator pulses to the interrogation input of the valve unit 7 in this case is blocked by the inhibit signal generated by the element OR 10. To input the information on the board by a special computer command The format register 13 introduces a logical scale, each bit of which corresponds to a particular sector, and the bits corresponding to the sectors whose information is to be updated thereafter. the write cycle, have single values, and the bits corresponding to sectors with static information have zero values. Then, via the address bus from the computer, a command is given to select an indication cell, from which the update of information begins. On this command, the register bits 2- specified in the command are set to one. At the same time, although the permission signal is generated at the output of the element OR 10, the passage of the pulses of the generator 8 to the interrogation input of the valve block 7 is blocked by another prohibition signal generated by the OR-NOT 11 element, at one of the inputs of which a single signal is output from the AND element second lo- unit 12, corresponding to the sector number specified in the command. In this case, it is assumed that the bit is D7. 3 gistra 13, corresponding to the sector number specified in the team, has a single value. The signals from the outputs of the register bits of 3 rows and the register of 2 columns installed in a single value and from the output of an element of the second logical block 12, corresponding to the register A discharge, installed in a single value, go to the display on the address bus, and the display cell located on the intersection of the respective address buses, is prepared to receive information. The command Write on the information bus on the block 1 input information enters the sign code. The information input unit 1, when receiving the sign code, converts it to the illumination code and feeds it to the scoreboard. At the moment when the information is recorded in the indication cell, the information input unit 1 generates a pulse that shifts the register of 2 columns by a bit, thus preparing the next indication cell of the selected sector to receive information. After completion of writing to the last cell of the selected row of the selected sector, a 2-column register overflow signal sets the first digit of this register to one and enters the interrogation bus of the valve unit 7. The gate opened by the potential of the register 4, set in 1 bit, generates a pulse, which, if the line of the selected sector is not the last message in the information line formed, through the closed 1e contacts of the corresponding switch, which is in this case in position 11, enters to the input of register 4 OR, if the row of the selected rector is the last message in the information line., through the closed contacts of the corresponding switch, which is in this case in position 1, enters the inputs of the first 5 th logical block and register 3 rows. In the first case, the input to register k, the pulse from the valve shifts its contents by one bit. In this case, if register 4, set as a result of this operation, corresponds to format register 13, also set in 1, then at the output of the corresponding element AND of the second logical block 12, the choice of the corresponding sector is formed, thereby selecting the first cell of the indication of the previously selected line of the next sector. If the register bit set as a result of the shift to 1 corresponds to the register register 13 format set to O, then the corresponding sector select signal will not be generated, and through the AND 9 element opened by the resolution signal from the OR-NOT 11 element to The interrogation input of the valve unit 7 receives a pulse of the pulse generator 8, which leads to the formation of a pulse at the output of the next open valve, whose action is also determined by the position of the corresponding switch, and when the latter is set to position 1 1, this pulse causes the next shift of register k by one bit. If the register bit of the newly set to 1 corresponds to register bit 13 of the format set to zero, then the output of the elements OR 10 and OR-NOT 11 remain si | resolution, and the next pulse of the generator 8 comes through the element 9 to the interrogation input of the valve block 7, which, when the corresponding switch is also set to position 11, leads to a new shift of the contents of register C. Obviously, this process continues until The result of the next shift of the register t is not set to a single value, that its bit corresponding to which the register register 13 of the format is also set to a single value or the corresponding switch of which is set to position 1. At the moment when the next shift is set to 1 bit the register k, which corresponds to the bit of the register of the format 13 set to 1, at the output of the corresponding element AND of the second logic block 12, a sector select signal is formed, according to which, first, the element OR-NOT 11 generates a dropTa signal that blocks the passage of generator 8 pulses to the interrogation input of the valve unit 7, and secondly, the first indication cell of the previously selected row of the next sector is selected, the information of which is to be updated. In this case, the logic unit 5 memorizes the sector selection sequence recorded via the address inputs. When the switch corresponding to the register bit set to one value is in position 1, the pulse from the output of the corresponding valve entering the 3-row register input shifts its contents by one bit and entering the input of the first logic unit 5 causes the restoration the register state preceding the start of the message line entry, i.e. The first logic block 5 sets register bit 1 to register 4, corresponding to the first sector, the lines of which are the beginning of the information lines of the message. and, thus, the first indication line of the next information line of the given sector sequence appears prepared for recording. ° The subsequent information lines are recorded in the same way as described above. With the establishment of the last 3 bits of the register of 3 lines from its output to the second input of the first logic block 5, a signal that prohibits the restoration of the state of register k, if a pulse comes from the valve of block 7, is set, and the register bit 4 remains set to 1, which corresponds to the sector, the lines of which are the end of the information lines of the message. In this case, the register of 3 lines with the arrival of this pulse generates an overflow pulse, which sets the first bit of the register of 3 lines to 1 and, after entering the register f, shifts its contents by one bit, as a result the bit is set to 1 register (corresponding to the next sector. The subsequent operation of the device is carried out according to the algorithm given above, i.e., if the sector information corresponding to the register k set in 1 bit is updated, and consequently, the corresponding register bit The format of the format 13 is set to 1-, then the first cell of this sector is selected, if the sector information is not updated, and therefore the corresponding register register register 13 is set to O, then the generator 8 pulses are passed to the interrogation input of the valve block 7 by which the contents of register k is shifted until it is set to V that its bit, the number of which corresponds to the number of the sector, the information of which is to be updated. Thus, the first cell of the first information line of the message of another sequence of sectors, the recording of information on which is produced in a similar way, is chosen. If this sequence of sectors was the last on the matrix display panel, then the device registers the device to its initial state, and the End of Record signal is output to the computer. Introduction of new blocks and additional links with known blocks of the device allows reducing the time for changing the information displayed on the scoreboard, and consequently, reducing the machine time spent on carrying out this operation and increasing the efficiency of presenting information to the operator. The invention is a device for controlling a matrix scoreboard according to the author. No. 551бЗб, which is distinguished by the fact that, in order to increase its performance, 8 it has a pulse generator, the elements AND, OR, ILN-NOT, the second logic block and the format register, the outputs of which are connected to the first inputs of the second logic block, the outputs of which are connected to the inputs of the matrix board, the first logical block and the inputs of the element OR NOT, the output of which is connected to the first input of the element AND, to the second input of which the output of the element OR is connected, the input of which is connected to the outputs of the sector selection register and the second inputs of the second a logic block to a third input of AND gate pulse generator is connected, and an output connected to the AND gates entry interrogator unit. Sources - information taken into account in the examination. 1. USSR author's certificate, no. G About K 15/20, 197. 2. USSR author's certificate number 551636, cl. G About F 3/1 +, 1975 (prototype). Affpec on mcfffao