SU1096632A1 - Keyboard protection unit for information input devices - Google Patents

Abstract

KEYBOARD PROTECTION UNIT FOR INFORMATION INPUT DEVICES, containing the 1st inverter, the input of which is connected to the information input of the unit and the first input of the NAND element, the output of which is connected to the first input of the first trigger and through the second inverter connected to the first code of the unit, the second and the third inputs of the first element AND-NOT are connected respectively to the synchronization input of the block and to the output of the first trigger, the inputs of the comparison element are connected to the first and second inputs of the comparison block, respectively, the output of the element Comparison is connected to the first input of the second NAND element, the second input of which is the first control input of the unit, the second control input of which is connected to the first input of I-III-WNE element 3, the third control input with the second and third inputs of the element 3 AND-OR-NOT, the output of the element 3 AND-OR-NOT is connected to the second output of the unit, and the fourth and fifth fifth inputs of the element 3 AND-OR-NOT are connected to the output of the third inverter, which is connected to it. due to the fact that, in order to increase the reliability of the block, the second, third, fourth and fifth triggers and the frequency divider, whose input is connected to the block synchronization input, are entered into it, and the output to the first inputs of the second and third triggers and through the fourth inverter to the first inputs of the fourth and fifth trigger3 (L ditch, the second input of the fourth trigger is connected to the output of the first NAND element, the second input of the fifth trigger is connected to the output of the first inverter and to the third input of the first AND-NAND element, outputs of the fourth and fifth triggers by connected to the second inputs of the second and third flip-flops, respectively, the third input of the second flip-flop is connected to the first input of the first flip-flop, the first output is connected to the second input of the first flip-flop, the second output is connected to the mecTbw input of element 3 AND-OR-NOT, the output of the third flip-flop is connected to the third the input of the first trigger, to the seventh and eighth inputs of the element 3 AND-OR-HE, and to the input of the third inverter.

Description

The invention relates to automation and computing and can be used in devices for entering information. The known block for protection against interference caused by the keyboard, which contains the trigger and the signal conditioner lj. The disadvantage of the block is the limited noise immunity and reliability. A known block for protection against interference generated by a keyboard, comprising a processor with a permanent storage device, a counter, an AND-NO element, an inverter, two triggers, an ORI-HP element: and. peripheral interface adapter. The disadvantage of this unit is its complexity. The keyboard protection unit for input devices contains a first inverter, the input of which is connected to the information input of the block and the first input of the first NAND element, the output of which is connected to the first input of the first trigger and through the second inverter connected to the first output of the block, the second and third the inputs of the first element, AND-NOT are connected respectively with the synchronization input of the block and with the input of the first trigger, the inputs of the comparison element are connected to the first and second inputs of the comparison block, respectively, the output of the element with The terminal is connected to the first input of the second NAND element, the second input of which is the first control input of the unit, the second control input of which is connected to the first input of the 3 AND-OR-NOT element, the third control input to the second and third inputs 3 AND-OR-NOT the output of element 3 AND-OR-NOT is connected to the second output of the unit, and the fourth and fifth inputs of the element 3 AND-OR-NOT to the output of the third inverter C3. A disadvantage of the known unit is that it can only work with such a keyboard, the switching of elements of which is not accompanied Bounce, which reduces the reliability of his work. The purpose of the invention is to increase the reliability of the unit. This goal is achieved by the fact that the keyboard protection unit for information input devices, comprising a first inverter, whose input is connected to an information g (x ;,; ohm block and the first input of the first AND-IIE element, whose output is connected to the first input of the first trigger and through the second inverter is connected to the first output of the block, the second and third inputs of the first element AND-NOT are connected respectively to the synchronization input1; and block and to the output of the first trigger; the inputs of the comparison element are connected to the first and second comparison inputs of the responsibly, the output of the comparison element is connected to the first input of the second NAND element, the second input of which is the first control input of the block, the second control input of which is connected to the first input of the 3 AND-OR-NOT element, the third control input to the second and the third input of element 3 I-Ш1И-МЕ, в, the stroke of element 3 - OR-OR-NOT is connected to the second output of the unit, and the third and fifth inputs of the element 3 AND-OR-NOT to the output of the third inverter are entered, the second , third, quarter and five triggers and a frequency divider, the input of which is connected to the input si cron block and output to the first inputs of the second and third griggers and through the fourth I1: the vertex to the first inputs of the fourth to the fifth trigger, the second input of the fourth rpjirrepa is connected to the output of the first AND-NAND element, the second input of the fifth trigger is connected to the output of the first the inverter and with the third input of the first NAND element, the outputs of the fourth and fifth triggers connected to the second inputs of the second and third trigger E, respectively, the third input of the second trigger connected to the first input of the first trigger, the first output to the second input of the first terminal igger, the second output - with the sixth input of the element 3 AND-OR-NOT, the output of the third trigger is connected to the third input of the first trigger, to the seventh and eighth inputs of the element 3 AND-OR-NOT and to the input of the third inverter. FIG. 1 shows a functional block diagram of a keyboard protection for information input devices in FIG. 2, a block diagram of an information input device based on the proposed unit. The device contains the first second, third and fourth inverters 1-4, the element of comparison 5, the first n the second elements AND-NOT 6 and 7, the first trigger 8, the information input 9 of the block, the element 3 AND-OR-NOT 10, the frequency divider 11, second, third, fourth, and fifth triggers 12-15, block synchronization input 16, first second and third control inputs 17-19 of the block, first and second outputs 20 and 21 of the block, first and second inputs 22 and 23 of the block comparison, blue 24 keyboard protection, switch 25, register 26, counter 27, pulse generator 28, pulse generator 29, signal generator 30 alov keyboard, keyboard 31. The keypad shaper 30 includes sensors (not shown) each of which reacts to the operator's impact on the keyboard pad 31 connected to the sensor input when there is a strobe signal from the output of the pulse shaper 29 common to all shaper sensors of the keyboard 30. At the same time, at the output of each sensor, which is simultaneously the output of the keyboard signal generator 30, the logical potential level changes over the time the operator acts on the corresponding keyboard pad 31 connected to the sensor input. The counter 27 operates in the mode of continuous counting of the pulses of the generator 28 pulses. The output code of the meter arrives at the address inputs of the switch 25, controlling the latter so that the switch 25 passes through its input signals, the number of which is equal to the current value of the counter code 27 at the address inputs of the switch 2 At the same time, the counter code 27 goes to the buffer register 26, from which the output code of the information input device is taken. The order of change of information in register 26 when the operator acts on the keyboard 31 is determined by a clock signal 20 and a signal at the zero output 21 of this register, normalized by block 24, in accordance with an algorithm determined by the combination of signals at its control inputs 17 19 depending on from the presence of the output signal at the input 9 24 of the switch 25 and the pulse at the input 16 of synchronization, as well as the coincidence of the codes of the signals at the inputs 22 and 23 of the comparison. Each combination of signals at the control inputs 17-19 corresponds to its own order of change of information in the register 26 with each operator's impact on the keyboard 3 1. For keypads 31, similar to, for example, keypads with mechanical switching contacts, for triggering which do not require gating pulses, and switching is accompanied by a change in the state of the keyboard during the operator's impact on the keyboard, the keyboard 30 and the pulse shaper 29 may not be present. Unit 24 operates as follows (FIG.). The signal formed by alternately switching the switch 25 of the output signals of the keyboard 31 passed through the shaper 30 through the inverter 1 sets the trigger 15 to the single state if at least one element of the keyboard 31 is in the on state. The frequency of occurrence of the signal at input 9 when there is one element of the keyboard 31 turned on and the absence of chatter is equal to the switching frequency by switch 25 of the output signal of the former 30 corresponding to this element of the keyboard. In the presence of bounce, the signal to input 9 comes at a frequency lower than the switching frequency of the switch 25 of the corresponding signal from the imaging unit 30 and limited from the minimum bouncing frequency of the bounce. The trigger 15 is returned to the initial (zero) state by pulses from the output of inverter A, the frequency of which is set to less than the minimum bounce frequency by selecting the corresponding division factor of the divider 11. Therefore, if the element of the keyboard 31 is turned on, then in the time interval between two adjacent pulses of zeroing of the trigger 15, an impulse will surely come when this trigger is set to one state. The trigger 15 state is overwritten by 3 flip-flop 13 on the leading edge of the output pulse of divider 11. Therefore, at the output of flip-flop 13 there is a high level potential regardless of the presence of bounce or signal interference at input 9 if at least one keyboard element is on. Accordingly, a low level appears at the output of trigger 15, regardless of the presence of chatter or signal interference, if all the elements of the keyboard 31 are in the off state. The control signal at input 17 generates a clock signal of register 26 if, at the time the codes are equal, inputs 22 and 23 generate a steady loss of signal at input 9 when the previously turned on keyboard element 31, which code was recorded in register 26, is turned off. and 12 function similarly to triggers 15 and 13, with low potential appearing at the output of trigger 12, setting the trigger 8 to one state, so that at the time of the occurrence of the first impulse, input 9, corresponding to Another element of the keyboard 31, the code which is different from the code recorded in register 26, and the sync pulse at input 16, simultaneously with the trigger 8 and 12 reset, is generating the output signal at the output 20 of the block. . . Signal on. input 19 provides a constant signal generation to zero the register 26 when the signal at input 9 disappears (the keyboard element is terminated), regardless of bounce and interference 9, as a result of which the register 26 records a zero code at the input signal, and in the presence of this effect register. 26, the code for the valid keypad element 31 is recorded. The signal at input 18 provides for the formation of a zero reset signal for 26 when the element of the keyboard 31 is turned on, regardless of the chatter of the signal of this element. In this case, each entry in the register 26 of the code corresponding to the number of the switched element is accompanied by an obligatory preliminary zeroing of this register. The unit 24 in the electronic console or device for entering information can function in conjunction with keyboards of various types, and does not require the use of elements of the chattering of the elements of said keyboards. Compared with the known device, the invention has the following advantages: increased noise immunity and reliability of operation, since it eliminates the formation of output signals of a block when there are false switchings of its output information signals due to interference from external and internal noise sources, accidental short-term effects on keyboard elements that work together with the block . and bounce of the contacts of these elements.

22 J

Phage.1

Claims (1)

KEYBOARD PROTECTION UNIT FOR INFORMATION INPUT DEVICES, containing the first inverter, the input of which is connected to the information input of the block and to the first input of the first AND-NOT element, the output of which is connected to the first input of the first trigger and connected to the first output of the block through the second inverter, the second and third the inputs of the first element AND are NOT connected respectively to the synchronization input of the block and to the output of the first trigger, the inputs of the comparison element are connected to the first and second inputs of the comparison of the block, respectively, the output of the comparison element connected to the first input of the second AND-NOT element, the second input of which is the first control input of the unit, the second control input of which is connected to the first input of the AND-OR-NOT element 3, the third control input - to the second and third inputs of the AND-OR element 3 -NOT, the output of the AND-OR-NOT element 3 is connected to the second output of the block, and the fourth and fifth inputs of the AND-OR-NOT element 3 are connected to the output of the third inverter, which means that, in order to increase the reliability of the unit, It introduced the second, third, fourth and fifth triggers and a frequency divider, the input of which By connecting the input of the synchronization unit, and an output - to the first inputs of the second and third flip-flops and via a fourth inverter to the first inputs of the fourth and fifth trigge- _of trench, the second input of the fourth flip-flop ® connected to the output of first AND-NO element, a second input connected to the fifth latch with the output of the first inverter and with the third input of the first AND-NOT element, the outputs of the fourth and fifth triggers are connected to the second inputs of the second and third triggers, respectively, the third input of the second trigger is connected to the first input of the first trigger, the first you od - with the second input of the first trigger, the second output - with the sixth input of the 3 AND-OR-NOT element 3, the output of the third trigger is connected to the third input of the first trigger, to the seventh and eighth inputs of the 3 AND-OR-NO element 3 and to the input of the third inverter .