SU1137456A1 - Tuned function module - Google Patents

Abstract

CUSTOMIZED FUNCTIONAL MODULE containing elements SHSHVE, element OR and element AND whose inputs are connected to the first and second information and control inputs of the module, respectively, the output of element AND connected to the first input of the element OR, the second input of which is connected to the output of the first element SHShN, inputs which are connected respectively to the second information input of the module and the output of the second element of the IPI-NOT, the first input of which is connected to the first information input of the module, characterized in that, in order to increase the reliability of the module, as well as the distribution of the functionality of the module by providing it with the D-type trigger device implementation, a trigger is entered into it, the information input of which is connected to the output of the OR element, the sync input B-trigger is connected to the synchronous input module, direct output D -trigger connected to the second input of the second element OR-NOT and the direct output of the module, inverse output) -riggers connected to the inverse output of the module.

Description

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The invention relates to automation and computing, and is intended to be realized by setting up various trigger points.

Known trigger devices Cll

However, each of these devices is implemented by an individual circuit, which leads to a small level of certification of the devices in which they are used.

The closest technical solution to the proposed is a customizable functional module containing an RS flip-flop on two W1N-NO elements and AND, OR, NOT elements, with the first input of the module connected to the single RS input of the flip-flop and the first input of the AND element, the second input of the module - to the zero input of the RS trigger, and the second input of the AND element, the third input of the module to the third input of the AND element, the output of which is connected to the first input of the OR element, the second input of which is connected to the single output of the RS flip-flop, and the output of the direct output of the module, inverse the first output of which is connected to the output. element is NOT, the input of which is connected to the output of the element OR L23.

The advantage of this module is the possibility of implementation. By setting up the trigger devices of S-, R-, E-, JK-, RS- and T-type.

The disadvantage of this module is low reliability of operation, which is explained by that. When implementing all the specified types of trigger devices, except for the RS-type, a forbidden combination of signals may be received at the inputs of the RS-flip-flop, which is part of the module; simultaneous supply of single signals to both inputs of the RS flip-flop, which translates it into a state that does not correspond to either zero or single. After removing this combination (when both inputs of the RS flip-flop have zero signals), the RS-flip-flop randomly changes to the zero or one state, regardless of the state in which it is before. filing a prohibited combination. Hence the obvious possibility of the module malfunctioning in the implementation of E-, S- and R-trigger devices. In the case of JK-and T-flip-flop implementations, the specified combination disables the RS-flip-flop from the module circuit, but the specified trigger

The devices function at any time without regard to their previous state, which also leads to a malfunction of the module.

The purpose of the invention is to increase the reliability of the module during the implementation of R-, S-, E-, JK-, RS- and T-type trigger devices, as well as to expand its functionality by providing a setting for realizing the O-type trigger device.

The goal is achieved by configuring a functional module containing the EAs, the OR element and the AND element whose inputs are connected to the first and second information and control inputs of the module, respectively, the output of the AND element connected to the first input of the OR element, the second input of KOTORO connected to the output of the first element ILINE, the inputs of which are connected respectively to the second information input of the module and the output of the second element SH-NOT, the first input of which is connected to the first information input of the module, the O-flip-flop is entered, the information input of which is connected to the output of the LH element, the synchronous input of the 0-flip-flop is connected to the synchronous input of the module, the direct output of the 0-flip-flop is connected to the second input of the second element OR-YO and the direct output of the module, the inverse output of the D-flip-flop coy; :::, dinene with inverse output module.

The drawing shows a diagram of the module.

The module contains elements SHS-NOT 1 and 2, information inputs 3 and 4, control input 5, sync-input 6, element I 7, element SH-8, D-flip-flop 9. and two outputs - direct 10 and inverse 11.

The first information input 3 of the module is connected to the first inputs of elements 1 and 7, the output of element I is connected to the first input of element 2. The second information input 4 of the module is connected to the second inputs of elements 2 and 7, and the control input 5 of the module to the third input of element 7 , the output of which is connected to the first input 4 of the element 8, the second input of which is connected to the output of the element 2, and the output - to the information is the course of the O-flip-flop 9, the synchronous input of which is connected to the synchronous input 6 of the module.

and direct and inverse outputs - with direct 1O and inverse} 1 module outputs. In addition, the direct output 10 of the D-flip-flop 9 is connected to the second input of the element 1.

Algorithms of R-, E-, JK-, RS- and T-flip-flop functions are shown in the table, where Q is the signal at the direct output of the 10 module at a given point in time (in this cycle), the signal at the direct output of the Yu module at the preceding moment times (in the previous cycle), x., x signals on the first 3 and second 4 information inputs, module.

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It can be seen from the table that at x Hu the value of Q x should be set at the direct output of the 10 module, regardless of the type of 5 trigger implemented (except for the T-flip-flop). Under these conditions, the output of element 7 is Jektc zero, and the output of element 2 is a signal equivalent to the signal at input 3 of the module. This Q signal through element 8 goes to

an information input of the O-flip-flop 9, which is recorded upon receipt of the next clock cycle on the module 6 input, as a result, the required value appears on its direct output 10.

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1 y x 2 O at the direct output of the U module must be set to Q tr In this case, as in the previous one, the output of element 7 has a zero signal, and the value from the direct output of the 10 module produced by it in the previous clock cycle Having passed the elements 1, 2 and 8, the poggch steps on the information input D-trig. Hera 9 and re-recorded in it when the next clock arrives at the 6x module input module. Ari X Xj 1 at the outputs of the elements Ha 2 sets the zero signal and the information into the code; D-trigger 9 receives the value Xj of the signal applied to the control input 5 of the module, which passes through the elements 7 and 8 and is written to the 0-trigger 9 upon receipt of the next tact for the synchronized input module 6. If Xj О, then the module is realio 1

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 1 triggers an ft-trigger, if xI, then Trngger, if Xj Q, then E-trigger, and if x, Q, then JK- or D-trigger (the latter is formed from the JK-trigger by identifying Xj of the first 3 and second 4 informational inputs of the module). Thus, by applying the contact O and 1 to the control input 5 of the module or identifying this input with the direct 10 or inverse P outputs of the module, the latter can be configured to implement one of the specified trigger types. The Ysttip trigger is implemented by the module when tuned to any type of trigger — provided that the set x, I is not fed to its first 3 and second 4 information inputs. In addition, as can be seen from the description of the operation, the proposed module allows for the implementation of a D-thruster

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when the constant I is fed to its first 3 and second 4 information inputs, its control input 5 becomes informational — that raises the functionality of the Module compared to the prototype.

The basic object of the invention is a customizable function module that implements R, S, E, JK, RS and T type trigger devices. This module contains an RS-flip-flop with which the previous state of the implemented trigger devices is remembered. During the operation of the basic object of the invention, single signals can be simultaneously received at its first and second inputs connected to the single and zero inputs of its RS flip-flop. In this case, the implementation of the specified trigger devices requires the use of the previous state of the device recorded in the RS-flip-flop of the module (for example, in the T-flip-flop or JK-flip-flop this state should be inverted, and in the E-flip-flop unchanged). However, the considered combination of input signals erases the previous state of the RS flip-flop, putting it into a state that does not correspond to zero or one. As a result, the supply of this combination of signals leads to the malfunctioning of the basic object of the invention, which reduces the reliability of its operation.

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In the proposed module, the possibility of erasing the previous state of the implemented trigger device is eliminated before its next state is developed, which eliminates the possibility of the module not functioning correctly, which takes place in the base object. If we assume that the likelihood

the arrival of various signal combinations at the first and second inputs of the module is equal, then the probability of the combination causing the incorrect operation of the basic object of the invention is 1/4. The probability of an incorrect triggering of the base object with this combination can be taken as 1/2. Thus, the base object has a structural

the probability of malfunctioning (i.e., independent of the reliability of the operation of the module elements) is 1/8.

Since in the proposed module

the situation leading to its incorrect functioning is excluded, the proposed technical solution increases the reliability of the module operation by 14.3%.

 Thus, the proposed technical solution enhances the reliability of the function of the tunable module when implementing the R-, S-, E-, JK- and T-type trigger devices, as well as extends its functionality by providing customization for the implementation of the O-type trigger device.

Claims (1)

A CUSTOMIZABLE FUNCTIONAL MODULE containing ORINE elements, an OR element and an AND element whose inputs are connected to the first and second information and control inputs of the module, respectively, the output of the AND element is connected to the first input of the OR element, the second input of which is connected to the output of the first OR- NOT, the inputs of which are connected respectively to the second information input of the module and the output of the second OR-HE element, the first input of which is connected to the first information input of the module, characterized in that, in order to increase the reliability of the module, as well as expand the functionality of the module by providing configure it to implement a B-type trigger device, it is entered into it]) -trigger, the information input of which is connected to the output of the OR element, the B-trigger sync input is connected to the module sync input, p The pit output latch coupled to the second input of the second OR-HE, and direct the output module, inverse output!) -triggera connected to inverted output module. • <, £ 1 ^ 1.137456 1 1,137,456 J