SU1140244A1 - Matrix switching device - Google Patents

Abstract

A MATRIX SWITCH containing the main matrix of a polarized relay, the vertical buses of which are connected to the opening and closing contacts of the corresponding vertical control contact groups, the moving contacts of which are connected to the first bus voltage, the second tire of which is connected to the moving contacts of the horizontal control contact groups , closing, the contacts of polarized relays are connected to the corresponding output buses, characterized in that, in order to improve speed and enhancements of functionality, an additional matrix of polarized relays and two groups of on / off switches are introduced, the vertical buses of the additional matrix are combined with the corresponding buses of the main matrix, the fixed contacts of the horizontal control contact groups are connected to the moving contacts of the corresponding entered two position switches of the first group, fixed disconnecting and make contacts each of which are connected to the corresponding horizon The main and additional matrixes, respectively, the movable contacts of the inserted two-position switches of the second group are connected to the first bus of the supply voltage, their fixed opening and closing contacts are connected to the combined movable con tacts, tacts of the polarized relays of the main and additional rows (optional matrices, accordingly, the closing contacts of the same contact groups of the polarized relays of the main and additional matrices are combined in pairs. 2. The switch according to claim 1, which is designed in that the main and additional arrays contain Ltc groups of polarized relays, the first terminals of the disconnecting and activating windings of which are connected via diodes to the corresponding perisantale tires and the second terminals of the windings switching off and on each i-th column of polarized relays are connected respectively to the i -th first and second vertical sections of the main and additional matrices,

Description

The invention relates to telecommunication technology and can be used in switching and control devices, in particular in switches of receiving antennas of radio complexes.

A matrix switch is known, containing multiwinding polarized relays, decoupling diodes and coordinate control contact groups. They provide the ordinary switching of a group of inputs to a group of outputs with blocking of extraordinary (not paired) connections L.

However, these switches provide only a single switching of the poles (inputs and outputs), which limits their possible use.

The closest to the present invention is a matrix switch containing the main matrix of polarized relays, the vertical buses of which are connected to the opening and closing contacts of the respective vertical controls of the contact groups, the movable contacts of which are connected to the first bus voltage, the second bus of which is connected to the movable contacts horizontal control contact groups, the closing contacts of the polarized relays are connected to the corresponding output voltages, the damping resistor and ktromagnitnoe 2j relay.

However, the lime switch o.provides only a single switch, i.e. has limited functionality. In addition, the known device has significant interruptions in the connection process, which prevents its use in high-speed systems.

The purpose of the invention is to enhance the functionality and increase the speed.

The goal is achieved by the fact that the matrix switchboard contains the main matrix of polarized relays, the vertical busbars of which are connected to the disconnecting and closing contacts of the respective vertical, control contact groups, the moving contacts of which are connected to the first busbar of the supply voltage, the second bus of which is connected to the moving contacts of the horizontal control contact groups, the closing contacts of the polarized relays are connected to the corresponding output tins, introduced additional the polarized relay and two groups of on-off key switches, the vertical tires of the additional matrix are combined with the corresponding buses of the main matrix, the fixed contacts of the horizontal control contact groups are connected to the movable contacts of the corresponding entered two-position switches of the first group, the fixed opening and closing contacts of each of which are connected with the corresponding horizontal tires of the main and additional matrices, respectively, under The relevant contacts of the on-off switches of the second group introduced to it are connected to the first bus of the supply voltage, their fixed opening and closing contacts are connected to the combined moving contacts of the polarized relays of the respective rows of the main and additional arrays, respectively, and the closing contacts of the same contact groups are polarized the main and additional matrices are combined in pairs. .

In addition, the main and additional arrays contain ifn.n groups of pr (limited relays, the first outputs of the disconnecting windings and which are connected via diodes to the corresponding horizontal buses and the second conclusions of the disconnecting and activating windings of each i -th column of polarized relays are connected respectively to i -th first and second vertical tires of the main and additional matrices.

The drawing shows the basic electrical circuit of the proposed device.

The device contains the main and additional matrices 1 and 2 polarized relays, vertical and horizontal control contact groups 3 and 4 (controls), the first and second groups 5 and 6 additionally introduced two-position key switches, the closing contacts 7 and 8 polarized relays of the main and additional matrices and the switching field of the output bus 9. At the same time, the fused relays of the matrices 1 and 2 have windings 10 and 11 for turning off and on, respectively, in the circuits of which are connecting isolating diodes 12. Movable contacts organs 3 and 4 of the control are connected to the supply voltage buses: vertical, 3rd positive, horizontal 4 - with negative. The start of the same winding 10 and 11 of turning off and turning on each relay of one column of the main 1 and an additional 2 matrixes are combined and connected to the opening and closing contacts of the corresponding vertical control. The closing contacts of the horizontal control contact groups 4 are connected to the movable contacts of the corresponding on-off switches of the first additionally introduced group 5, the opening and closing contacts of each of which are connected to the respective horizontal buses of the main and additional matrices 1 and 2. The moving contacts of the second group 6 on-off switches are connected with a positive bus supplying voltage. Spreading and closing contacts of two-position switches of the second group s 6 are connected to the moving contacts of the closing contacts 7 and 8 of the corresponding rows of polarized relays of the main and additional matrices 1 and the closing contacts 7 and 8 of the same relay of matrices 1 and 2 are combined in pairs and connected to the corresponding output buses 9 of the switching field, the matrix switch, shown in the drawing. (It provides control of switching of two inputs to two outputs. In this case, both single (paired) and group (several paired simultaneously) connections can be made. The connection of each input to the output can be held from the contacts of the polarized relays of the corresponding rows of both the main and additional arrays. In the dynamics of the device, one of the matrices (or its individual lines - registers) ensures the retention of existing connections, the other - is used to prepare new connections. After preparing the connections, a fast-acting switching of the connection holding circuits from one matrix to another is carried out, then 1 444 is performed, the corresponding switching of the input matrix control circuits is carried out. Consider the operation of the device on the example of establishing two group connections. Suppose that at the beginning (initial state) there are no connections in the circuit and the turnips of matrices 1 and 2 are in the disconnected state. Initially, we will carry out the necessary manipulations to form commands for one-time connection of the first input to the first output, and the second input to the second code. Then we make the formation of commands for the new group connection, the first input to the second output, the second input to the first output. The first state (from the initial state) can be provided by any of the matrices 1 or 2. When preparing the first connection by the matrix 1, it is necessary to turn on the first of the vertical control contact groups 3 and briefly turn on the first of the horizontal control contact groups 4. At the same time, the entered switching groups 5 must be in the position shown in the drawing. Before starting the switching group 6 contacts must be switched to the opposite position. As a result of these actions with the control coordinates, the first relay of the first row of the matrix 1 is turned on the winding 11 and its contact 7 prepares a circuit to form a command for connecting the first input to the first output. With similar manipulations with the second coordinate control elements, a second relay of the second row of matrihd 1 is turned on winding 11 and its contact 7 prepares a circuit for generating the corresponding control command of switching field elements. After switching on the polarized relays of matrix 1, the high-speed switching of the contacts of group 6 to the initial position is carried out and control commands are issued in accordance with the prepared circuits. As a result, the first input is connected to the first output, the second input is connected to the second output. 51 When establishing the second pair of these connections, similar manipulations with the control contacts of the ZIL groups are performed, but the contacts of group 5 must be switched before switching. As a result, control commands for the second group connection will be prepared by contacts 8 of the polar. Matrix 2 relays are spawned. After these relays are turned on, a high-speed switching of the contact groups 6 to the position, opposite to that shown, is performed. As a result, the commands of the second group connection prepared by contacts 8 are entered into the CP, instead of the previously retained connections, by contacts 7. Single connections for 44 separate pairs of inputs and outputs can be set in the same way, while switching contacts of groups 5 and 6 should be carried out for each input (rows of the matrix), the technical advantages of the proposed device in comparison with the known ones consist in the possibility of providing both any grouped and single connections. This, regardless of the number of simultaneously established connections, the interruption of communication as a result of switching is significantly reduced, since it does not depend on the preparation time of commands and can be reduced practically to the difference between the response and release times of the control elements. Obviously, for this speed of contact groups 6 should be: an order of magnitude greater than the elements of KP.

Claims (2)

A MATRIX SWITCH containing the main matrix of polarized relays, the vertical buses of which are connected to the opening and closing contacts of the corresponding vertical control contact groups, the moving contacts of which are connected to the first supply voltage bus, the second bus of which is connected to the moving contacts of the horizontal control contact groups, closing. the contacts of the polarized relays are connected to the corresponding output buses, characterized in that, in order to improve performance and expand the functionality, an additional matrix of polarized relays and two groups of on-off key switches are introduced, and the vertical buses of the additional matrix are combined with the corresponding buses of the main matrix, fixed contacts are horizontal control contact groups are connected to the movable contacts of the corresponding on-off switches the first group of detectors, the fixed opening and closing contacts of each of which are connected to the corresponding horizontal buses of the main and additional matrices, respectively, the moving contacts of the on-off switches of the second group are connected * to the first supply voltage bus, their fixed opening and closing contacts are connected to the combined movable . polarized relay strokes of the corresponding ^ 5 corresponding rows of the primary and secondary matrices, respectively, and the closing contacts of the same contact groups of polarized relays of the primary and secondary matrices are combined in pairs. 2. The switch by π. 1, characterized in that the main and additional matrices contain ^ t ίη "η 'groups of polarized relays, the first outputs of the disconnecting and switching windings through diodes are connected to the corresponding horizontal buses, and the second conclusions of the disconnecting and switching windings of each * - nth column of polarized relays are connected respectively with the i-th first and second vertical buses of the primary and secondary matrices. ’