SU917353A1 - Matrix switching device - Google Patents

Description

(5) MATRIX SWITCH

I.,

The invention relates to electrical communication and can be used in switching and control devices, in particular, in control devices switching receivers to HF-UHF antennas.

A matrix switch is known, containing multiwinding polarized relays, decoupling winding diodes, coordinate control contact groups and a diode matrix St.

However, the known device is not very reliable.

The closest in technical essence to the invention is the well-known matrix switch, co. holding polarized relays, the first terminals of the windings of the disconnection of each group of columns of which are connected to the disconnecting contact of the corresponding vertical control contact group, the first conclusions of the windings of the inclusion of all polarized

the relays of each column are interconnected, the second leads of the on and off windings of all polarized relays are connected to the anodes of the respective diodes, the cathodes of the diodes of the same name windings of each row are combined, the cathodes of the off windings of the coils through the make contacts of the corresponding horizontal control contact groups are connected

10 with the negative power supply busbar, the moving contacts of the vertical control contact groups are connected to the positive power supply bus bar 12.

15

However, this device also does not feature high switching reliability.

The purpose of the invention is to increase the reliability of switching.

20

Claims (2)

To do this, a matrix switch containing polarized relays, the first terminals of the disconnecting windings of each column group are connected 3 to the normally open contact of the corresponding control contact group, the first terminals of the enable windings of all polarized relays of each column are interconnected, the second terminals of the enablement windings and disconnection of all polarized relays are connected to the anodes of the respective diodes, the cathodes of the diodes of the same winding of each row are combined, the cathodes of the diodes of the windings of black Without the closing contacts of the respective horizontal control contact groups are connected to the negative power supply busbar, the moving contacts of the vertical control contact groups are connected to the positive power supply busbar, additional rows and a column of electromagnetic relays are inserted, the first windings of these relays are connected to the negative power supply busbar , the second conclusions of the windings of the electromagnetic relays of the additional line through the parallel-connected first closing contacts of polarization The corresponding relays of the respective columns are connected to the positive power supply busbar, the fixed closing contact of each vertical control contact group is connected to the moving contact of the first additional line electromagnetic relay, the fixed opening contact of each additional line electromagnetic relay is connected to the first terminals of the turn-on windings of the corresponding column of the corresponding column and not a moving closing contact - with a moving contact of the next electromagnetic relay of this type the rows, the combined cathodes of the windings of turning on the polarized relays of each row through the opening contacts of the corresponding electromagnetic relay of the additional connection column with the cathodes of the windings of the windings from the same row, the second conclusions of the windings of the electromagnetic relay of the additional column are connected to the connection control buses, the second disconnecting fixed and movable contacts of the polarized relays of each row are connected in series with the fixed closing contact 4 of these lines contact groups, connected between the positive power supply bus and the relevant switching and control busses. The drawing shows a circuit diagram of the proposed device for the case of two rows and two columns. The device contains polarized relays lk with windings for disconnecting 5 and turning on 6, first 7-10 and second 11-14 switching contact groups of these relays, respectively, electromagnetic relays 15, 16 and 17, 18 additional rows and columns, contacts 19, 20 and 21, 22 relays are additional rows and columns, respectively, vertical and horizontal control contact groups 23 and 2, 25 and switching field 2b. The beginnings of the windings 5 of the relay 1-4 are connected to the fixed disconnecting contact of the control group 23, the movable contact of which is connected to the plus. The ends of the relay relays 15-18 are connected to the negative. The beginning of the windings of the relay 15 and 16 through parallel-connected contacts 7, 9 and 8, 10 are connected to the plus. The beginning of the windings of the relays 17 and 18 are connected to the control circuits for establishing the connection for the inputs of the first and second in the switching field 26. The cathodes of the switching diodes of the windings 5 of the relay 1 and 2 are connected through contact 21 to the cathodes of the windings 6 of the same relay and through the control contact group 2k with a minus. Similar connections to the diodes of windings 5 and 6 are made for relays 3 and 4 via pin 22 and contact group 25, respectively. The fixed closing contact of the group 23 is connected to the movable contact 19, the fixed closing contact 19 is connected to the moving contact 20, the Start of the windings 6 of the relay 1, 3 and 2, k are connected to the fixed disconnecting contacts 19 and 20, respectively. The movable contact of group 12 is connected to a plus, the fixed opening contact of group 12 is connected to the movable contact of group 11, the fixed closing contacts of groups 11 and 12 are connected to switching elements switching the first input to the first and second output in field 2b. 5 Similar connections are made for contact groups 13 and 14. We illustrate the operation of the device using the example of switching the first turn, when both outputs are initially free. For this switching, short-time control groups 23 and 24 are included. In this case, relay 1 through the circuit is turned on: H, closed contact of the switched on group 23, opening contact 19, winding 6, isolating diode, closing contact 21 ,, closed group 24, -. Contact group 11 of the switched on relay 1 issues a command to connect the first input to the first output. The contact of group 7 of the relay closes the relay 16 actuation circuit. If it is established for this connection, then a signal arrives at the relay 17 to confirm the connection. After that, the contact 21 is opened and the switching is stopped. The contact 19 of the relay 15 switches, blocking the occupied first output, and preparing the circuit to occupy the second output with another input. If the connection specified by the contact groups 11 is not established, then the relay 17 does not work even after the relay 15 is activated and the contacts 19 are switched from the relay 2 via the circuit: +, the closed contact of the control group 23, the switched contacts 19, the disconnecting contacts 20, the winding 6 of the relay 2, the isolating diode, the opening contact 21, the closed contact of the included group 24, -, the contacts of the group 12 switch, give the command to connect the first input to the second output and turn off the command of the previous connection. The device works similarly when switching the second input and with a larger number of inputs and outputs. Technical (1) efficiency of the device consists in increasing the reliability of switching inputs to output groups — directions, since with switching, sequential attempts are made to establish a connection of the switched input with free outputs of the required direction, until a signal confirming connection or no free exits. With a large number of outputs in the direction of reliability, the invention dramatically increases. The matrix switchboard contains polarized relays, the first terminals of the disconnecting windings of each column group are connected to the disconnecting contact of the corresponding vertical control contact group, the first terminals of the enablement windings of all polarized relays of each column are connected. among themselves, the second winding leads on and off of all polarized relays are connected to the anodes, respectively. the corresponding diodes, the cathodes of the diodes of the same name windings of each row are combined, the cathodes of the disconnecting diodes are connected to the negative power supply bus through the closing contacts of the respective horizontal control contact groups, the moving contacts of the vertical control contact groups are connected to the positive power supply bus, characterized in that in order to improve the reliability of switching, additional rows and a column of electromagnetic relays are introduced, and the first terminals of the windings of these relays are Connected to the negative power supply bus, the second winding pins, the electromagnetic relays of the additional row through the parallel connected first closing contacts of the polarized relays of the respective columns are connected to the positive power supply bus, without the pushing {each closing contact of each vertical control contact of the first electromagnetic relay additional line, fixed disconnect contact of each electromagnetic relay additional line connect En with the first conclusions of the windings of switching on the polarized relays of the corresponding: column, and the fixed closing contact with the moving contact of the next electromagnetic relay of the same row, the combined cathodes of the diodes of the winding turn on the polarized relays of each row through the opening contacts of the corresponding 7-91 electromagnetic relays of the additional column with the cathodes of the diodes of the windings disconnecting the same line, the second terminals of the windings of the electromagnetised relays of the additional column are connected to the control buses installed laziness compound NC second fixed and movable contacts polarized relay is connected in each line. a serial circuit with fixed closing contacts of the same contact groups 7. 5,538. connected between the positive power supply bus and the corresponding commutation and control buses. . to century . Sources of information taken into account in the examination No. / .9Qc, certificate of the USSR No. 29531, cl. H 03 K 17t. 12.27.72. 2. USSR author's certificate in application number 2660384 / 18-21, 08.18.78.