SU1010639A1 - Signal transmission device - Google Patents

Abstract

A DEVICE FOR TRANSMITTING SIGNALS, which contains in each node of the CSF a switchboard, the buses of which are connected to the control inputs of the corresponding switching elements, are received. so that, in order to increase the reliability of the device, a ring distributor is introduced into each switching node; except for the first, triggers, the device entry input is connected to the zero inputs of the first triggers of the switching nodes and to the single input of the first cell of the ring distributor of the first switching node, the outputs of the cells of the ring valves, are connected to the inputs of the corresponding valves, the outputs of which are connected to the inputs of the OR element, output the OR element of each switching node, except for the post one, is connected to the single inputs of the triggers of the subsequent switching node; the output of the first trigger is connected to the single input of the first th cell corresponding annular distributor, the second output trigS ger connected to zero inputs of the respective annular cells; the distributor, the output element OR the last switching node is connected to. zero inputs of the ring distributor of the first cochmutation node and zero inputs of the second triggers of the remaining switching nodes. O) from CD

Description

The invention relates to telemechanics and can be used in devices for interrogating sensors with different periods.

The known signal transmitting devices, which make it possible to interrogate sensors with predetermined periods, comprise an input circuit and a source selection signal, an address register, an address memory, a control device and an output circuit 13.

These devices are complex. The closest to the predisposed is a device containing shift registers, the output buses of which are connected to the control inputs of the corresponding switching elements. The registers are switched from pulses from a common generator 2 J.

However, such a device does not allow interrogation of sensors with predetermined periods.

The purpose of the invention is to increase the reliability of the device and expand the scope.

This goal is achieved by the fact that in a device for transmitting signals containing in each switching node valves, buses which are connected to the control inputs of the corresponding switching elements, a ring distributor is inserted into each switching node whose number of cells is equal to the number of valves in the node Itations, the OR element and all switch nodes except the first one are triggers, the device's recording input is connected to the first 1M inputs of the first switching point triggers and to the single input of the first ring cell the distributor of the first switching node, the outputs of the cells of the ring distributors are connected to the inputs of the corresponding valves, the outputs of which are connected to the inputs of the OR element, the output of the OR element of each switching node, except the last, are connected to the single inputs of the subsequent switching node triggers, the output of the first trigger is connected to a single input the first cell of the corresponding ring distributor, the output of the second trigger is connected to the zero inputs of all the cells of the corresponding ring distributor, Exit OR latter switching node connected to a zero input of the annular distributor of the first switching node and the second zero-input -triggerov other switching nodes.

The drawing shows the scheme of the proposed device for transmitting signals, which in the general case can be constructed for polling n groups of sensors, a. Specifically implemented for three groups consisting of 10, 15, and 10 sensors with polling periods of t, t2, and tg units of time, respectively.

The device for transmitting signals contains the device 1 control and the block 2 switching elements, consisting of three groups of keys K, to which the sensors are connected.

Control device 1 consists of switching nodes 3-5 that are connected in a ring: output 6 of node 3 is the input of node 4, and its output 7 is the input of node 5, output 8 of which is the input of node 3. Nodes 3 4 and 5 include the main distributors, divided respectively into two (9 and 10), three (11, 12 and 13) and two (14 and 15) parts, additional ring distributors 16, 17 and 18, made in an annular scheme and consisting respectively of nodes H; 4 and 5 of 2, 3 and .2 elements, and one element 19 OR, All nodes 4 and 5, except the first, also contain the first 20 and second 21 triggers.

The main distributors 9-15 of nodes 3, 4 and 5 are connected by their inputs to the outputs of the corresponding elements of the additional valves 16, 17 and 18, the last outputs to the OR elements, and the remaining outputs to the control inputs of the switching elements 2. The outputs (6 and 7) elements OR 3 and 4 are connected respectively to the single inputs of the flip-flops 20 and 21 nodes 4 and 5, and the output 8 of the element OR. Node 5 is connected to the zero inputs of the second triggers of nodes 4 and 5 and to zero, the inputs of the additional distributor 16 of the node 3 Button Record 1 connect on the single input of the first element of the additional distributor 16 of node 3 and with the zero inputs of the first triggers of nodes 4 and 5, and their outputs are connected to the single inputs of the first elements of additional valves 17 and 18 of nodes 4 and 5. The outputs of the second triggers of nodes 4 and 5 connected to the zero inputs of the elements of additional valves 17 and 18.

During operation of the device, a button is fed from the Record 1 button to the single input of the first element of the additional distributor 16, the output of which sends a signal to the first element of the distributor 9. Thus, the unit recorded in the distributor 9 is moved by sync pulses or advance pulses, the circuits of which are not shown) to the distributor elements, alternately exciting their outputs, which open the switching elements of unit 2. On passing through the unit, the distributor elements return

in the initial state. From the output of the distributor. 9 unit through the OR element is applied to the single inputs of the triggers and node 4. Because the zero input of the first trigger of node 4 previously received a pulse from the Record 1 button, a pulse is output from its output to the single input of the first element of the additional distributor 17, ; the output of the latter will pass the signal to the first element of the distributor 11. A further passage of the unit through the elements of nodes 4 and 5 is similar to that described. At the same time, entering the single inputs of the second triggers of nodes 4 and 5, the signals from outputs .6 and 7 do not change the state of these elements on the first pass.

A single pulse from the output 8 of the node 5 is applied to the zero inputs of the distributor elements 16, as a result, the first element of the distributor 16 returns to its initial state and sends a pulse to the single input of the second element of the distributor 16, from which the signal is fed to the first. Simultaneously, the impulse from the output 8 of node 5 is fed to the zero inputs of the second triggers of nodes 4 and 5, which translate into one state and with the subsequent arrival of signals respectively from the outputs b and 7 nodes 3 and 4 give out cash at zero inputs elementor valves 17 and 18, the operation of which is similar to the distributor element 16, node 3.

If, for example, with pressing the Record 1 button in the first element of the distributor 9, a unit is recorded, then, during operation, the distributors will be passed in the unit in the following order: 9, 11, 14, iO, 12, 15j 9,, 13, 14 , 10, 11, 15, 9 ... etc. If the unit is passing through nodes 3, 4 and 5 as a cycle, then the elements of the distributors of nodes 3, 4 and 5 may be.

5 are woken through 2, 3 and 2 cycles, respectively. In order for the polling periods to match the given, it is necessary that the cycle takes one unit of time. In this case, the period must be equal. 0,66 units of time (since for the cycle a unit passes 15 elements of distributors).

The proposed device, thanks to the use of new elements and connections, makes it possible to eliminate frequency dividers and delay elements from the transmitting and receiving devices. and eliminate the instability of time channel intervals. The device also does not require a memory to provide interrogation of sensors with predetermined periods 14 and.

Claims (1)

A DEVICE FOR SIGNAL TRANSMISSION, containing distributors in each switching node, the buses of which are connected to the control inputs of the corresponding switching elements, characterized in that, in order to increase the reliability of the device, an annular distributor is introduced into each switching node, the number of cells of which is equal to the number of distributors in the switching node, the element OR in all switching nodes except the first one is triggers, the device recording input is connected to the zero inputs of the first triggers of the switching nodes and to the unit input of the first cell of the ring distributor of the first switching node, cell outputs ring distributors are connected to the inputs of the corresponding valves, the outputs of which are connected to the inputs of the OR element, the output of the OR element of each switching node, except for the last: the ice one, is connected to the single inputs of the triggers of the subsequent node and switching, the output of the first trigger is connected to a single input of the first cell of the corresponding ring distributor, the output of the second trigger is connected to the zero inputs of all cells of the corresponding ring distributor: the output of the OR element of the last switching node is connected to. zero inputs of the ring distributor of the first switching node and zero inputs of the second triggers of the remaining switching nodes. ^Ι Γ ^ί J * ydS 'and G? - 1/1 p. "R, t; where - ^r 0 ^s - [5 ^ 5 1 ± | G i Wr --- Ul --- b: ... ... ... " ’F f Φ ' φ φ φ φ ^ 3 φ φ φ φ f 4l φ φ φ. about-·--· φ φ φ about· 4) φ φ • φ φ φ -------------------------------------------------- -------------------------------------------------- -----------; --- furof SU ..1010639