RU2019915C1 - Commutator - Google Patents

Abstract

FIELD: automatics. SUBSTANCE: commutator has n memory cells. Each memory cell made of D-flip-flop 3, three-terminal switch (button) 4, resistor 5 and indication element 6. Commutator also has one common resistor 2. When pressing and releasing button of one memory cell, the information is recorded into the commutator. This information is saved until button of the other memory cell is pressed or released. EFFECT: improved reliability of data transmission. 1 dwg

Description

 The invention relates to automation and can be used, for example, in automated process control systems.

 Known electronic switch [1], in which each switching cell contains a trigger and a zeroing device containing a multi-way OR element (by the number of switches) and a zeroing signal driver, connected to the combined inputs of the installation of triggers in the initial state. The disadvantages of the device are complexity with a large number of memory cells and low reliability.

 Also known is a switch containing n memory cells, each of which contains a push button switch, a trigger, a load resistor and an initial installation unit containing a transistor, an element NOT and two resistors [2].

 The disadvantages of this device are the complexity due to the presence of the initial installation unit, and low reliability.

 The aim of the invention is to simplify the device and increase reliability.

 This is achieved by the fact that a three-pin push-button switch, a load resistor, an indicator and a D-trigger are introduced into the device.

 The drawing shows a functional diagram of the device.

 The device contains a first load resistor 1, n memory cells 2, a D-trigger 3, a three-pin push-button switch 4, a second load resistor 5 and a status indicator for cell 6. The first load resistor 1 is connected to the power bus at one end and connected to the inputs of the triggers 3 and the first contacts of the push-button switch 4, the second contact of which is connected to the common bus, and the third to the D-input of the trigger and to one end of the second load resistor, the second end of which is connected to the power bus, and the inverse output The trigger through indicator 6 is connected to the power bus, and the direct output is the output of the device.

 The switch operates as follows.

 When you press button 4 (short circuits of the first and second contacts), for example, in the first memory cell, the combined C-inputs of the triggers receive an OB and the state of the triggers remains, but when you release the button during the movement of the moving part of the button from the first contact to the third, all triggers are reset , except for the trigger of the first cell, which will be set to the logical "1" position (at output 1) and indicator 6 will light up, informing that this channel is on. Thus, when the button is pressed, the potential transition from 0th to 1 appears on the combined C-inputs, which rewrites the state of the D-inputs to a direct output, i.e., since all triggers (except the first) on the D-input 0 -th potential, then they are reset, and on the D-input of the first trigger, until the second and third contacts of the button are closed, a logical "1" is fed through resistor 5, which is written to the trigger output.

 When two or more buttons are pressed simultaneously, the state of the memory cells does not change, and when pressed, the cell whose button is released later than all is set to state 1. When you turn on the power, the device transfers all memory cells to their original (zero) state. Simplification of the device and increased reliability are achieved by reducing the number of elements and connections.

 The proposed device is a switch is included in the technical means of automation for monitoring and regulating technological parameters in non-ferrous metallurgy.

 The proposed technical solution meets the criterion of "Novelty", as it includes a new set of essential features: a D-trigger, a three-pin push-button switch, a load element and an indicator with corresponding connections are introduced into it.

 The introduction of new elements and their relationships can improve reliability and simplify the design.

Claims (1)

 A SWITCH containing n memory cells, each of which is made on a trigger, a first resistor and a push button switch, the first contact of which is connected to a common bus, characterized in that, in order to simplify and increase reliability, a common second resistor is introduced into it and in each cell memory - a cell status indicator, the push-button switch is made three-pin, and a D-trigger is used as a trigger, the D-input of which is connected to the second contact of the push-button switch and the first output of the first resistor, the second output of which It is connected to the power bus, and the third contacts of the switches and the C-inputs of the triggers of the memory cells are combined and connected to the first output of the second resistor, the second output of which is connected to the power bus, the inverse output of the trigger is connected to the status indicator of the memory cell, and the direct output of each trigger of the cell memory is the corresponding output of the switch.