SU1621041A1 - Commutation device - Google Patents

Abstract

The invention relates to computing and communication technology and can be used in switching systems. IT of the invention is to increase the speed of reconfiguration of the switched structure when connecting backup subscribers by eliminating the reprogramming of switches. The device contains a matrix of switching elements 1, a setup control block 2, a decoder 3, a switch 4 outputs, a switch 5 inputs, a block 6 reconfig

Description

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walkie-talkies. The device has first and second address inputs 7, 8, setup control input 9, load control input 10, first and second sync moves 11, 12, input 13 of the address of the failed subscriber, input 14 of the backup resource address, input 15 of the initial setup feature, input 16 of the reserve connection attribute, setup input 17, first and second information outputs 18, 19, first and second information inputs 20, 21. The switch 5 inputs has inputs 22, 23 of the address of the second and first switching elements matrices, inputs 24, 25 of the column selection and rows of the second comm matrix The elements of the selection, the inputs 26, 27 of the selection of the column and the row of the first matrix of switching elements. The invention relates to computing and communication technology and can be used in switching systems.

The purpose of the invention is to increase the speed of reconfiguration of the switched structure when connecting backup subscribers by eliminating the reprogramming of the matrix of switching elements.

Figure 1 shows the diagram of the device; figure 2 - diagram of the switch outputs; on fig. 3 - diagram of the switch of inputs; 4 is a diagram of the reconfiguration block; 5 shows a partial switching graph.

The device contains a matrix of 1 switching elements, a setup control block 2, a decoder 3, a switch 4 outputs, a switch 5 inputs and a reconfiguration block 6, the first 1 and second and address inputs, a setup control input 9, a load input 10, 11 and BTO swarm 12 synchronous inputs, input 13 of the address of the failed subscriber, input 14 of the address of the backup resource, input 15 of the initial installation feature, input 16 of the reserve connection, installation input 17, the first 18 and second 19 information outputs and the first 20 and second 21 information inputs.

The switch 5 inputs has inputs 22 and 23, respectively, the addresses of the second

cops. The switch 4 outputs has inputs 28, 29 of the address of the second and first matrixes of switching elements, inputs 30, 31 for selecting the column and row of the second matrix of switching elements, inputs 32, 33 for selecting the column and row for the first matrix of switching elements. The reconfiguration unit 6 has the outputs 34, 35 of the address of the second and First matrix of switching elements, outputs 36, 37 of selecting the column and row of the second matrix of switching elements, outputs 38, 39 of selecting the column and row of the first matrix of switching elements. The switch 5 inputs has information input 40. The switch 4 outputs has information output 41. 3 e.p. f-ly, 5 ill.

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and the first matrix of switching elements, input 24 for selecting a column and input 25 for selecting a row of the second matrix of switching elements, as well as input 26 for selecting a column and input 27 for selecting a row for the first matrix of switching elements; the switch 4 outputs - inputs 28 and 29, respectively, the addresses of the second and first matrixes of switching elements, input 30 for selecting a column and input 31 for selecting a row for the second matrix of switching elements, as well as input 32 for selecting a column and input 33 for selecting a row for the first matrix of switching elements; Reconfiguration unit 6 — outputs 34 and 35 respectively of the address of the second and first switching matrix: elements, column selection output 36 and row selection of the second matrix of switching elements, and column selection output 38 and row selection output 39 of the first switching matrix. The switch 5 inputs also has information input 40, switch 4 outputs - information output 41.

The switch 4 of the outputs contains the first 42 and second 43 matrices of switching elements and switching elements 44.

The switch 5 inputs consists of the first 45 and second 46 matrices of switching elements and switching elements 44.

Reconfiguration unit 6 contains six multiplexers 47-52, four decoders 53-56, counter 57, element AND 58, element OR 59, and trigger 60.

The switching device operates as follows.

The procedure for establishing connections in the switch 4 of the outputs and in the switch 5 of the inputs does not depend on the procedure for establishing connections in the matrix of switching elements and is performed in parallel. From the input 17 of the switching device, the initial setup pulse enters the input of the reconfiguration unit and returns the counter 57 and the trigger 60 to the initial state. The initial installation sign, entering the switching device input 15, with its leading edge sets the trigger 60 to 1m and, the control inputs of the multiplexers 47-52 provide for the installation of the connections of their second information inputs with the outputs. The high-level state of the output of the trigger 60 ensures the passage of a clock signal coming from the input 12 of the switching device to the input of the reconfiguration unit 6 and then to the clock input of the meter 57 and synchronizing inputs of the multiplexers 47 and 51. During the initial connection setup, permanent outputs are formed at the outputs of the multiplexer 48 levels 1, which ensures the selection of all rows of the switching elements of 44 matrices 43 and 45, and the establishment of switching points when clocking pulses appear at the outputs of multiplexer 47. At the output In multiplexer 52, constant O levels are formed, which ensures that all rows of switching elements 44 in the matrices 42 and 46 are not selected and the switching points are reset when clocking pulses appear at the outputs of multiplexer 51.

The complete enumeration of the addresses of the switching points is carried out by counting 57, clocked by pulses arriving at the input 12 of the switching device. The addresses of the switching points, the outputs of the multiplexers 49 and 50 are located on the address inputs of the switching elements 44 of the switches

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4 outputs and switches 5 inputs. After completing the complete enumeration of the addresses of the switching points at the input of the transfer of the counter 57, a level 1 | 1 appears, resetting the trigger 60 and the counter 57, which completes the procedure of the initial setting of the switching points of the switch 4 of the outputs and the switch 5 of the inputs. After completing the installation of switching points in the matrix of switching elements 1, the switching device is ready for operation. In the normal operation mode of the switching device, the formation of the control signals is completed. In the mode of reconfiguration of the switching structure at the exit from the row of subscribers to connect

0 is a backup resource. At the input 16 of the switching device, a reserve connection indicator is applied, which is fed to the input of the reconfiguration unit and enables the operation of the decoders 53,

55 and 56. The operation of the zero-controlled decoder 54 is thus prohibited. The input 13 of the switching device is supplied with the address of the failed subscriber, which is fed to the input of the reconfiguration unit, to the corresponding bits of which the information inputs of the decoders 53 are connected and

54 and the first information input of the multiplexer 49. The decoder 53 generates the column number corresponding to the failed subscriber, which through the multiplexer 47 enters the first control inputs of the switching elements 44 of the matrices 43 and 45. Since

on the control phots of the row selection of the indicated elementary switches of the decoders 54, the levels O are formed, the switching points are nullified, corresponding to the address of the failed

from the subscriber that arrives at the address inputs of the switching elements 44 of the switching matrices 43 and 45 from the outputs of the multiplexer 49. At the same time, the address of the reverse resource is supplied to the input 14 of the switching device, which is connected to the input of the reconfiguration 6, the corresponding bits of which are connected to the information inputs decoders

55 and 56 and the first information input of the multiplexer 50. The decoders 55 and 56 form the control signals that select the column number and the row number of the corresponding

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at the address of the backup resource, which, through multiplexers 51 and 52, respectively, arrive at the corresponding second control inputs of the switching elements 44 belonging to the matrices 42 and 46, and cause switching points to a single state according to the address coming from the output of multiplexer 50.

As an example, consider the operation of the proposed switching device that implements the mastic switching graph shown in FIG. 5, in which the subscribers K, L, M are the main ones and the subscriber R is the backup one. When the subscriber M comes out of line, the subscriber R is connected to his place. For this switching

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The device ensures the installation of a no-2Q figuration. The address of the outgoing communications point (R, K) and (L, I) corresponding to the backup subscriber R, which are shown by a dotted line and the disconnection of the connections (M, K) and (L, I ) corresponding to the failed element M. In the initial connection setup mode, in parallel with the connection setup of the matrix switch 1, connections are established in the switching elements 44 belonging to the switching matrices 43 and 45. The switching points in the switching elements 44 belonging to the matrices .42 and 46 are zeroed out. For this, the inputs 31 of the switch 4 outputs and 25 switch 5 inputs from the outputs 38 of the reconfiguration block 6 are set to constant levels 1, and the inputs 30 of the switch 4 of the outputs and 24 switch 5 inputs from the outputs 36 of the reconfiguration block 6, the clocks are given synchronously with which, to the inputs of the switch 4 outputs h, to the inputs 22 of the switch 5 inputs from the output 34 of the reconfiguration unit 6, the address codes of the switching points are given. In addition, the inputs 33 of the switch 4 of the outputs and the inputs 27 of the switch 5 of the inputs 39 of the reconfiguration unit 6 are set to constant levels O, and the inputs 32 of the switch 4 of the outputs and the inputs 26 of the communal 5 inputs from the output 38 of the reconfiguration block 6 clocking pulses synchronously with which to the inputs 29 of the switch 4 of the outputs and to the inputs 23 of the switch 5 of the inputs, the addresses of the switching points are supplied from the outputs 35 of the reconfiguration unit 6. In re40 mode

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corresponding to the selected elementary switch at the AM address. These signals are sent to the corresponding inputs of switches 4 and 5, which ensures the elimination of connections at the selected communication point of switches 4 and 5. In addition, the outputs of the reconfiguration unit 35 Generate the address of the switching point corresponding to Ad, and the outputs 39 and 39 of the reconfiguration unit 6 but the measure of the column and row, respectively. These signals are sent to the corresponding control and address inputs of the switch 4 outputs and the switch 5 inputs, which ensures the organization of connections in the switching elements 44 belonging to the matrices 42 and 46.

Claims (4)

1. A switching device containing a switching matrix, a setting control unit and a decoder, the decoder outputs are connected to a group of enabling inputs of the switching elements of the matrix, the decoder inputs are connected to the output address of the switching elements of the switching element and the control output of the setting control unit, the output of switching addresses elements of which are connected to the inputs of the address of the switching elements of the matrix, the corresponding inhibit inputs of which are connected to the outputs of the control of communication of the control unit of the set entry address of the switch and entry of the address configuration, when instead of subscriber M subscriber R must be connected, the address AW of subscriber M is set to inputs 13 of switching device M, subscriber's address AR is set at inputs 14 of switching device. Sign of connecting reserve is set to input 16 of switching device. In block 6 of the reconfiguration, the address codes Am and AR are processed in such a way that the code of the column number is formed at the outputs 36 of the Block 6 of the reconfiguration and the output 37 of the block 6 of the reconfiguration is formed level O, and on outputs 34 blocks 6 recon five 0 five the figuration is formed by the address point 0 five 0 five switching corresponding to the selected elementary switch at the address AM. These signals are sent to the corresponding inputs of switches 4 and 5, which ensures the elimination of the connection at the selected switching point of switches 4 and 5. In addition, at outputs 35 of the reconfiguration unit, the address of the switching point corresponding to Ad is generated at outputs 38 and 39 of reconfiguration unit 6 - code column and row numbers respectively. These signals are sent to the corresponding control and address inputs of the switch 4 of the outputs and switch 5 of the inputs, which ensures the organization of connections in the switching elements 44 belonging to the matrices 42 and 46. Invention Formula 1. A switching device containing a matrix of switching elements, a setup control unit and a decoder, the decoder outputs are connected to a group of permitting inputs of the switching elements of the matrix, the decoder inputs are connected to the output address of the switching elements of the switching control unit, the outputs of switching addresses elements of which are connected to the inputs of the address of the switching elements of the matrix, the control inputs of which are forbidden are connected to the outputs of the communication control The configuration control unit, the switch address input and the control program address input are respectively the first and second device address inputs, the setup control input and the load control input of the tuning control unit are the configuration control input and the device load control input, and the first and The second synchronization inputs of the tuning control block are the first and second synchronous inputs of the device, respectively, characterized in that in order to increase the speed of reconfigures switching structure when connecting backup subscribers by eliminating the reprogramming of the matrix of switching elements, it contains an output switch, input switch and reconfiguration block, the address of the address of the failed subscriber of the reconfiguration unit is the input of the address of the failed subscriber of the device, and the address of the backup resource of the reconfiguration block is the input the address of the reserve resource of the device, the sign of the initial setup of the reconfiguration block is the input of the attribute of the initial setup and device, and the input of the sign of connection of the reserve of the reconfiguration block is the input of the sign of connection of the reserve of the device, the installation input of the device is connected to the installation input of the reconfiguration unit, the synchronization input of which is connected to the second synchronization input of the device the second matrix of switching elements of the switch inputs and is connected to the input address of the second matrix of switching elements switch and outputs whose address input of the first matrix of switching elements is connected to the address input of the first matrix of switching elements of the input switches and connected to the output address of the first matrix of switching elements of the reconfiguration unit, the output of selecting a column of the second matrix of switching elements of which is connected to the input of selecting a column of the second matrix of switching elements of the switch outputs and to the input selection column of the second matrix of switching elements of the switch inputs, the input row selection 0 five 0 five 0 five 0 five 0 five The second matrix of switching elements of which is connected to the input selection row of the second matrix of switching elements of the output switch and connected to the pyhots of selecting the row of the second matrix of switching elements of the reconfiguration unit, the output of selecting the column of the first matrix of switching elements of which is connected to the input of selecting the column of the first switching matrix, elements of the switch inputs and with the input selection column of the first matrix of switching elements of the switch outputs, the input selection row of the first matrix switch The elements of which are connected to the row selection output of the first matrix of switching elements of the reconfiguration unit and the row selection input of the first matrix of switching: elements of the switch inputs, the first and second information outputs of which are the first and second information outputs of the device, the information input of the switch of inputs connected to the information output matrix switch, the information input of which is connected to the information output of the switch output, the first and second information strokes which are riL-pBbiM and second data input device, respectively. 2. The device according to claim 1, wherein the switch of the outputs contains the first and second matrices of switching elements, and the information inputs of the switching elements of the second matrix are the corresponding bits of the first information about the input of the switch the outputs, and the outputs of the switching elements of the second matrix are connected according to the MONTLOGNOR OR scheme with the corresponding outputs of the switching elements of the first matrix and are bits of the information output of the switch of the outputs, the bits of the address input of the second matrix The switching elements of which are connected to the address inputs of the corresponding switching elements of the second matrix, connected by their first control inputs to the corresponding bits of the input selection column of the second matrix of switching elements of the switch outputs, the input of the row selection of the second matrix of switching elements of which connected by their bits with the second control inputs of the corresponding switching elements of the second matrix, the bits of the address input of the first matrix of switching elements of the switch outputs are connected to the address inputs of the corresponding switching elements of the first matrix, the first control inputs of which are connected to the corresponding bits of the input column selector of the first matrix switching elements of the switch outputs, the input of the row selection of the first matrix of switching elements of which is connected by its own bit The second control inputs of the corresponding switching elements of the first matrix, the bits of the second information input of the switch outputs are connected to the information inputs of the corresponding switching elements of the first matrix of switching elements. 3. The device according to claim 1, characterized in that the input switch comprises first and second matrixes of switching elements, wherein the information inputs of the switching elements of the first matrix are connected to the information inputs of the corresponding switching elements of the second matrix and are the corresponding bits of the information input of the switch inputs, bit The dips of the input of the address of the second matrix of switching elements of which are connected to the address inputs of the switching elements of the second matrix connected by their first and the control inputs to the corresponding bits of the input selection column of the second matrix of switching elements of the switch inputs, the bits of the input of the row selection of the second matrix of switching elements of which are connected to the second control inputs of the corresponding switching elements of the second matrix, whose information outputs are the corresponding bits of the first information the switch output of the inputs, the address bits of the first matrix of the switching elements of the switch of the inputs are connected to the address m respective inputs of the switching elements of the first matrix, the first control inputs of which are corresponding bits select the input rows the column of the first switching element matrix of an input switch, the input of the row selection of the first matrix of switching elements of which is connected by its bits to the second control inputs of the corresponding switching elements of the first matrix, whose information outputs are the corresponding bits of the second information output switch inputs. 4. The device according to claim 1, characterized in that the reconstructor of the 5 Block contains six multiplexers, four decoders, a counter, an AND element, an OR element, and a trigger, and the synchronous input of the trigger is connected device and connected to the control inputs of multiplexers, the input of the connection indication of the block reserve is connected to the control inputs of the decoders and is the input of the connection indication of the reserve device, the information inputs of the first and second decoders are connected to the first information input of the third multiplexer and are the input of the address of the failed subscriber of the device, the input address of the backup resource of the device is connected to the information inputs of the third and fourth decoders and the first information input The second multiplexer information input of the multiplexer is connected to the second multiplexer second information input and connected to the information output of the QQ account, the clock input of which is connected to the first and fifth typex multiplexers and connected to the output of the I element, the first input of which is the second synchronous input of the device , 5, the second input of element II is connected to the forward output of the trigger, the installation input of 1 of which is connected to the output of the OR element, the first input of which is connected to the transfer output of the counter, and the second input to the installation input of the device, the outputs of the first decoder are connected to the corresponding bits the first information input of the first multiplexer, the second 5 whose information input is connected to the generator of the logical unit of the device, and the output is the output of selecting the column of the second switching matrix of the reconfiguration unit, the outputs of the second 1316 the first decoder is connected to the corresponding bits of the first information input of the second multiplexer, the second information input of which is connected to the generator of the logical unit of the device, and the output is the row select output of the second matrix of switching elements of the reconfiguration unit, the outputs of the third decoder are connected to the corresponding bits the first information input of the fifth multiplexer, the second information input of which is connected to the generator of the logical unit of the device, and the output is Exit first column selection switching matrix reconfiguring unit, FIG. Z 114 the outputs of the fourth decoder are connected to the corresponding bits of the first information input of the sixth multiplexer, the second information input of which is connected to the device logical pool generator, and the output is the output of selecting the row of the first matrix of switching elements of the reconfiguration unit, the output address of the second matrix multiplexer, the output of the fourth multiplexer is connected. to the output address of the first matrix of switching elements of the reconfiguration block. I Fi.4 Editor L.Pcholinsk Compiled by S.Aver new 1D / 2.5 Tehred M. Didyk Proofreader N. Iaroshi