SU1753624A1 - Device for space-and-time commutation - Google Patents

Abstract

The invention relates to space-time switching devices and can be used in telecommunications. SUMMARY OF THE INVENTION: The device comprises a driver of 6 addresses and M switching nodes, each of which contains a temporary switch 1, a spatial switch 4.1 of the combining unit 5, a block 2 of the address memory and a block of spatial control switching 3. 1 il. V | O u s o u 4

Description

The invention relates to communication technology and can be used in data transmission, in telegraphy, telemechanics, in computer networks as a technical means for organizing operational and cross-channel switching,

In a known implementation of spatio-temporal switching, for example, the ATT USA system DACS cross-connector, DCDC, each switching module is represented by a combination of three elements: an input information storage device (I-memory), a multiplexer and an output I-memory. The input I-memory carries out the transfer of the channel information of the input line to any free (i.e. not participating in the connection) bit of the signal of this line; the multiplexer transfers information from this free bit of the input line to the same bit of the input line; the output I-memory carries out the transfer of information from the free bit to the output channel bit. This principle of switching is called time - space - time.

The capacity of the I-memory of each module in such a system is small and equal to the number of elementary channels in one compacted line. However, without taking special measures in such systems, it is possible to block channels due to the absence of intermediate paths during information transfer. In addition, the use of free bits as intermediate switching paths makes it very difficult to implement the device, the number of programmable control charts is tripled. The complexity of switching programs increases and the speed decreases.

The closest to the proposed is a space-time switching device, in which the capacity of the information memory of each module is equal to the capacity of not one module, as is the case in the previous implementation, but the capacity of the entire device containing K modules according to the number of sealed lines. This device has fundamentally eliminated the possibility of blocking connections during switching due to the lack of intermediate paths. This device provides switching of K input sealed lines to M output sealed lines. It contains K modules (by the number of input lines). Each module has one information input to which the corresponding input line is connected. The information outputs of all modules are combined and connected to the corresponding output lines. Each soybean module

It holds a time switch containing M single-bit memory devices (the capacity of each is N elementary channels in a packed line), an address memory block that forms N addresses, and a time switch control unit for M outputs. In addition, the device includes M spatial control switching units per K 10 outputs each.

The disadvantages of the known device is, in principle, the impossibility of switching one channel of the input line simultaneously to several channels of different

15 (or one) output lines, i.e. the slowdown of switching, as well as a large amount of equipment (the number of memories can reach K2),

The aim of the invention is to improve the speed by providing simultaneous switching of the information signal of any of the channels of the input line to any group of channels of the output lines.

25 This goal is achieved by those. that a device having K inputs and consisting of M switching nodes, whose inputs are device inputs, and each switching node contains a time switch,

30, the first address input of which is connected to the output of the address memory unit, as well as the spatial switching control unit, an address driver is introduced, the first, second and third outputs of which

35 are connected respectively to the cyclic address inputs, zone address inputs and write-read inputs of all switching nodes, and a spatial switch and I

The AO of the combining blocks, each of which has n inputs, the inputs of all the combining blocks are the information inputs of the switching node (nxl K), the outputs of the combining blocks are connected to the information inputs of the temporary switch, the outputs of which are connected to the information inputs of the spatial switch, the output of which is the output of the switching node whose cyclical addresses input are the combined first address inputs of the address memory unit and the spatial switching control unit and the second address address od temporary switch, the third address

55 the input of which is combined with the address inputs of the combining units and is the input of the addresses of the zones of the switching node whose input-read input is the combined inputs of the time-NieHHoro switch of the switch and the spatial

the switch, the last input of which is connected to the output of the spatial switching control unit, the control input of which is combined with the control input of the address memory block and is the control input of the switching node, the data input and input of the data addresses of which the memory of the addresses and the control unit of spatial switching, with the same name informational formations of all switching nodes we combine whose data inputs and addresses of addresses of the DAGNYA icex switching nodes are pairwise united It is the same name and inputs whisker-roystva.

A comparison of the device for time-to-time switching with the prototype shows that the invention has new properties: the possibility of simultaneous switching of the information signal of any of the channels of the input line to any group of channels of the output line due to the fact that each module contains information signals of all channels of all the input lines ; a significant reduction in equipment volume due to the exclusion of the recording control unit in each module and the replacement of single-bit memory with multi-bit ones, the possibility of maximal use of memory resources taking into account the range of their release,

These new properties of the space-time switching device show that the invention allows switching one channel of the input line to a group of channels of the output lines, therefore, increasing the switching speed and reducing the equipment size by 2.2 times.

In the drawing, a device diagram is attached.

The space-time switching device contains M switching nodes, each of which consists of a temporary switch 1, an address memory unit 2, a spatial switching control unit 3, a spatial switch 4, and combining units 5. In addition, the device contains a cyclic addresses shaper b.

The information inputs of the same name of all switching nodes are combined and fed into each switching node, in which they are grouped into I groups by n inputs and, through I combination units, are connected to the information inputs of the temporary switch. The outputs of the time switch of each switching node are connected to

the corresponding output of the device through the spatial switch. The address input of the spatial switch of the APK is connected to the output of the spatial switching control unit, and the address input of the temporary switch AVk is connected to the output of the address memory block. At the same time, the input of cyclic addresses of the switching node is the combined first address inputs of the address memory unit and the spatial switching control unit and the second address input of the temporary switch, the third address input of the temporary switch is combined with the address inputs of the combination blocks and The combined inputs of the read and write time and spatial switches are the write / read input of the switching node, the combined control inputs of the unit The spatial switching and address storage units are the control input of the switching node.

5 The data inputs and data addresses of the switching node are the same inputs of the address memory unit and the spatial switching control unit. In this case, the data inputs and data addresses of all nodes

0, the switching is pairwise combined and is the same input of the device.

The operation of the device is as follows.

Co-control computer to the data inputs

5 data addresses and device control signals are provided for programming blocks 2 and 3: data (E) - channel number and input line number, data addresses (A) - output channel number; control (U) - signal

0 selects the output line. In this case, the signals of address A in blocks 2 and 3 under the action of the signal Y are compared with cyclic addresses Atsikl. When they coincide in the memory unit 2 at the address of the output channel is produced

5, record the number of the input channel and the number of one of the n input lines, and in the memory of unit 3, one of the I number of the input lines is recorded.

The switching process itself is divided

0 into two operations: writing information signals to (-the memory of the temporary switch 1 and reading from this memory to the output lines. Writing and reading are separated in time: each time

5, the interval is divided into (n + 1) cycles, the first, for example, a clock is allocated for reading, and the remaining n (by the number of zones) for recording. Before recording the input information signals to the 1-bit memory of the temporary switch 1,

additional compaction of input information signals. It is carried out in the I block 5 of the union (at n inputs each) using the addresses of the zones coming from the address generator b. As a result of additional compaction, K lines are formed from the input lines.

The recording of information signals from I lines to 1-bit memory of block 1 is made identically for each switching node under the combined action of cyclic addresses and zone addresses formed by address generator 6. Cyclic addresses Atsikl parallel served when writing to the I of the lower bits of the address inputs of the memory of temporary switches 1 of each switching node. The order of their following repeats the numbering of the N channels in the input lines.

Azon zone addresses (n codes for each address of the record) are sent to 1OD2P senior bits of the address inputs of the memory of temporary switches 1 of each switching node. Under the action of the recording process, the information signals of all the K input lines are placed in the 1-bit memories of each switching node in order that follows the order of their placement in the cycle.

The reading process from a 1-bit memory is reduced to the following: in the read cycle, the address of the corresponding cells of the input channel time interval is set to 1 in the switching node time switch 1 of the corresponding output line; The bit of the same memory in that time interval is set to the address of the channel group to which the input channel belongs. The combination of these addresses provides the choice of a memory cell where information signals of the input channel I of lines belonging to this group are recorded.

The signals of the same input channel (or time interval) of a group of I input lines are fed to the information inputs of the spatial switch 4, to the control input of which is supplied formed by programming in the control unit of spatial switching 3 the address that determines what line from the group commutes to this output line. In accordance with this, the signal from the I signals and the output of the switching node

Claims (1)

This output line receives one signal from the input channel of the input line. The invention of a space-time switching device having K inputs and consisting of M switching nodes whose outputs are device outputs, and each switching node contains a time switch, the first address input of which is connected to the output of the address memory block, as well as spatial switching control, characterized in that, in order to improve speed, an address driver is introduced, the first - the third outputs of which are connected respectively to the inputs of cyclic addresses, the inputs zone and the write-read inputs of all switching nodes, and in each switching node a spatial switch and I combining units are introduced, each of which has n inputs, the inputs of all combining blocks are K information inputs of the switching node (n.l K), the outputs of the blocks The connections are connected to the information inputs of the temporary switch, the outputs of which are connected to the information inputs of the spatial switch, the output of which is the output of the switching node whose cyclic address input is the combined first address inputs of the address memory unit and the spatial switching control unit and the second address input a temporary switch, the third address input of which is combined with the address inputs of the union units and is the input of the addresses of the switching node zones whose write-read input is the combined INPUT of the temporary switch and the spatial switch, the address input of the latter is connected to the output of the spatial control unit switching control the input of which is combined with the control input of the address memory block and is the control input of the switching node whose data input and data address input are the same inputs of the block The 0 address memory and the spatial switching control unit, the information inputs of all switching nodes with the same name are combined, the data inputs and the data address inputs of all nodes of the mutation are pairwise combined and are of the same name as the device inputs.