SU1274021A1 - Switching device with address control - Google Patents

Abstract

The invention relates to switching technology and can be used to control switches. The purpose of the invention is to increase the speed. When a signal is received from the auxiliary output 5 of the decoder 1, the control polarized relays (PR) 2.1-2.P are reset. The closing contacts (K) 3.1-3.p are open, opening K 4.1-4, n are closed, and the closure of the K 4.1-4.P is open. An example of setting the switching in the node at the intersection of the second row and the first column is considered. Output 6.2 is supplied with a control signal. PR 2.2 works. Locking To 3.2 closes, select the second row. To 4.2, the voltage is switched to it via K 4.2 and 3.2, de-energizing OL 2.1-2.p. To select the first column, a control signal is applied to the output of the 6.1 decoder. The actuating relay 9 on S3 intersects the second row and the first column, i.e. The switching installation (/) is performed in two stages, which improves the speed and simplifies the device. 1 il.

Description

The invention relates to telecommunication technology, and more particularly to switching equipment, and can be used to control switches.

The purpose of the invention is improving performance.

The drawing shows an electrical diagram of the proposed switching device with address control.

The addressable control switching device comprises a decoder 1, polarized relay controls

2.1- 2.Π, the first group of switching contacts of polarized relays

3.1- З.п, the second group of switching contacts of polarized relays

4.1- 4.P, additional output 5, outputs of the decoder 6.1-bp, output of the power supply 7, switching matrix 8, actuating relay 9, columns of the switching matrix 10, decoupling diodes 11.

The switching device operates as follows.

Upon receipt of the control signal from the auxiliary output 5 of the decoder 1, the polarized control relays 2,1-2.η are set to the initial state. The closing contacts 3.1-Z.p are open. Opening contacts 4.1-4. P are closed, and making - open.

Next, we consider the operation of the device using the example of a switching installation located in the node of the switching matrix at the intersection of the second row and the first column.

To do this, a control signal is output to output 6.2, and a polarized control relay 2.2 is activated, as a result of which the make contact 3.2 closes, selecting the second line of the switching matrix, and contact 4.2 switches, thereby connecting the supply voltage to the selected second line through closed contacts 4.2 and 3.2, de-energizing the polarized control relays 2.1-2, η.

Then the first column is selected, for this, a control signal is supplied to the output of the 6.1 decoder. In this case, the actuating relay 9, located in the switching matrix node at the intersection of the second row and the first column, is activated.

Thus, the installation of the required commutation in the proposed device · 5 is carried out in two stages, and in the prototype - in three.

An advantage of the invention is to increase the speed and simplify the device (eliminates one additional output of the decoder).

Claims (2)

The invention relates to telecommunications engineering, and more specifically to switching technology, and can be used to control switches. The purpose of the invention is to increase speed. The drawing shows the electrical circuit of the proposed switching device with address control. The switching device with address control contains a decoder 1, controlled by polarized relay 2.1- 2.P, the first group of switching contacts of polarized relays 3,1-З.п, the second group of switching contacts of polarized relays 4.1-4.P, additional output 5, decoder output 6.1-6, p, the output of power supply 7, the switching matrix 8, the executive relay 9, the columns of the switching matrix 10, the decoupling diodes 11. The switching device operates as follows. Upon receipt of the control signal from the auxiliary output 5 of the coder 1, the control polarized relays 2.1-2, n are reset. Closing contacts 3.1-3, p open. The opening contacts 4,1-4,11 are closed, and the closing contacts are open. Next, we consider the operation of the device using the example of a switching installation located at the node of the switching matrix at the intersection of the second row and the first column. For this, a signal is applied to the output 6.2, the control polarized relay 2.2 is actuated, as a result of which the closing contact 3.2 closes, selects the second row of the switching matrix, and the terminal 4.2 switches, thereby The power supply itself is connected to the selected second line via closed contacts 4.2 and 3.2, de-energizing the control polarized relays 2.1-2, p. Then the first column is selected, for this purpose, to the output of the decoder 6.1 a control signal is given. In this case, the executive relay 9, located in the node of the switching matrix at the intersection of the second row and the first column, is triggered. Thus, the installation of the required switching in the proposed device is carried out in two stages, and in the prototype - in three. The advantage of the invention is to increase the speed and simplify the device (one additional output of the decoder is excluded). switching matrix with one switching contact group, the first outputs of the first windings of the control polarized relays are combined between the second outputs of these windings are connected to the corresponding outputs of the decoder and the columns of the switching matrix; The group of each control polarizing relay is connected. To the corresponding row of the switching matrix, the moving contacts of the indicated contact groups are interconnected, characterized in that, in order to improve speed, polarized relays with two groups of switching contacts are used as control relays via relay connected in series disconnecting contacts of the second switching contact groups of all control polarized relays are connected to the output for connected and power supply, fixed closure contacts of the second switching contact groups of all control polarized relays are interconnected 3127402 4 and connected to the connection point of the first connection of the moving contacts of the first outputs of the second windings of the control switch contact group of polarized relays and to the point of the control polarized relay.