SU875645A1 - Matrix switching device - Google Patents

Description

(54) MATRIX SWITCH

I

The invention relates to telecommunications engineering and can be used to implement low-frequency or high-frequency switching of inputs with outputs, in particular, to control the switching of receivers to antennas.

A matrix switch is known, containing polarized relays, coordinate control contact groups, and enabling diodes of the on and off windings 1.

However, the reliability of the known device is not high.

The closest to the invention to the technical essence is a switch containing mxn polarized relays, the first terminals of the opening and closing windings of one row of which are connected via the corresponding direct winding diodes to the first closing contact of the corresponding horizontal control contact group, the second outputs of the windings off of each column interconnected, the second terminals of the windings of the inclusion of each column are interconnected, with the closing contact of the corresponding vertical pack Aulus rail contact group and through parallel connected first make contacts his relay, etc. movklyuchenngy diode column to first terminals of a ballast and an electromagnetic relay coil, the second terminal of which is connected with movable contacts of vertical, contact groups and a first bus supply voltage, the first movable contacts

10 horizontal control contact groups are interconnected and connected via a make contact of the aforementioned electromagnetic relay to the second moving contacts of the same control contact groups and the second bus of the power supply

15 voltages {2J.

However, the reliability of this known device is low, taK, as with each switching i-ro input, voltage is applied to the corresponding windings of all polarized relays of the i-th row.

The goal of the invented is to increase reliability. To do this, in the matrix switch containing the polarized relays, the first leads of the disconnecting windings and switching on one row of which are connected to the first closing contact of the corresponding horizontal control contact group through the respective direct-connected diodes of the windings, the second winding turns off each other, the second The winding leads including each column are interconnected n with the closing contact of the corresponding vertical control contact group, and through the pair the allele-connected first closing contacts of its relay and the column diode connected to the first terminals of the ballast resistor and the electromagnetic relay winding, the second terminal of which is connected to the moving contacts of vertical contact groups and the first bus voltage of the supply voltage; the first moving contacts of horizontal control contact groups are connected between by themselves and connected via a make contact of the aforementioned electromagnetic relay to the second moving contacts of the same control contact groups and the second u Not supplying voltage, an additional line of electromagnetic relays is entrusted, the first winding terminals of which are connected to the first bus voltage, the second winding terminal of each of which is connected to the second closing contacts of each horizontal control contact through the second closing contacts of the polarized relay of the corresponding column, - the latter are connected to the second output of the ballast resistor through the corresponding direct-connected diodes, the combined leads of the disconnecting windings are polarized a relay closing contact column through respective electromagnetic relays additional line connected to the interrupter. contact of the corresponding vertical control contact group. The drawing shows a circuit diagram of the device. The device contains polarized relays 1-4 with decoupling diodes 5-12 windings. Each polarized relay has a winding 13 and 14 shutdown and on, respectively, the first and second make contacts 15-18 and 19-22, respectively. In addition, the switch has decoupling diodes 23 and 24 of the first closing contacts of polarized relays of the first and second columns, respectively, and isolating diodes 25 and 26 of the second closing contacts of polarized relays of the first and. second lines respectively. The device contains vertical and horizontal control contact groups 27 and 28, 29 and 30, an electromagnetic relay 31 and a closing contact 32, a ballast resistor 33 and an electromagnetic relay 34 and 35 of the additional line with closing contacts 36 and 37, respectively. The first terminals of windings 13 and 14 of polarized relays 1 and 2 are connected via diodes 5 and 6, 7 and 8 to the first closing contact of control group 29. Similarly, the first terminals of windings 13 and 14, relays 3 and 4, through diodes 9 and 10, and 12 are connected to the first closing contact of group 30. The second terminals of the windings 13 of relay 1 and 3 are interconnected and connected via the closing contact 36 to the disconnecting contact of the control group 27. Similarly, the second ends of the windings 13 of relay 2 and 4, contact 37 and control are connected group 28. The second terminals of the windings 14 relays I and 3 are interconnected and They are connected directly to the closing contact of the control group 27, and through parallel-connected contacts 15 and 17, the diode 23 to the first terminals of the electromagnetic relay 31 and the resistor 33. Similar connections are made for the second terminals of the windings 14 of relays 2 and 4, the control group 28, contacts 16 and 18, the diode 24 and the relay 31, and the resistor 33. The first moving contacts of the control groups 29 and 30 are interconnected and through the closing contact 32 are connected to the common point of their own second moving contact contacts and to the second supply voltage bus. The moving contacts of the control groups 27 and 28 are connected to the second terminal of the winding of the relay 31, to the first terminals of the windings of the additionally introduced relays 34 and 35, and to the first bus of the supply voltage. The second terminal of the winding of the relay 34 through the closing contacts 19 and 21 is connected respectively to the second closing contacts of the control groups 29 and 30. Similar connections are made for the second output of the relay coil 35 of the contacts 20 and 22 and the second closing contacts of the groups 29 and 30. Besides the second closing contacts group; 29 through diode 25, and groups 30 through diode 26 are connected to the second output of resistor 33. The output (column) is connected to the input (row) when the corresponding vertical control contact is on and the corresponding horizontal control contact is turned on for a short time. When a horizontal control contact group is turned on for a short time, the previously established connection for the same horizontal control contact group (input) also disconnects at the same time. Consider the operation of the device on. an example of the implementation of multiple switching. Let initially all relays be disabled and there are no connections in the switch. First connect the first input to the first output. To do this, turn on the control group 27 and briefly the group 29. This is when the relay 31 is triggered.

Then disconnect the established connection. To do this, with groups 27 and 28 turned off, we will briefly turn on group 29. This will trigger relays 31 and 34. Relays 31 and 34 with their contacts create a circuit to turn off relay 1. After that, the first input is disconnected from the first output.

In the considered switching examples, the voltage is applied only to one of the windings of only one matrix relay. Similarly, when establishing a new connection for the input instead of the old one (the necessary operations with control groups coincide with the connection operation of the input from the disconnected state), the voltage will be applied only to two windings of different relays from the entire matrix.

The technical efficiency of the switch is that it connects two windings during the connection (switching), and only one winding of polarized relays from the entire matrix when disconnected, while in the known device n, which leads to a significant decrease in the current flowing through control contact groups. This is achieved by the fact that in this device during any switching voltage is applied only to the windings of those relays that change their state as a result of it.

At the same time, the operating modes of the control contact groups are simplified, the working time of the polarized relays is economically expended, the power supply requirements and power consumption are significantly reduced, which generally leads to an increase in the reliability of the switching device.

Claims (2)

1. USSR author's certificate number 429531, cl. H 03 K 17/74, 27.12.72. 2. USSR author's certificate in application, Mb 2660384/21, 08/18/78 (prototype). 2B U and; 30 L ff 25 -w- 22 Jf