DE1101520B - Circuit arrangement for multi-stage switching matrices, the individual switching stages of which consist of one or more switching blocks, in telecommunication systems, in particular telephone systems - Google Patents

Description

Circuit arrangement for multi-stage switching fields, their individual switching stages consist of one or more coupling blocks, in telecommunications, in particular telephone systems It is already known, choice levels in switching, in particular telephone systems to be built up in several sub-stages. Such arrangements, link or intermediate line systems called, consist of one or more coupling blocks in their individual stages. A certain number x of feeder lines lead to each coupling block. from A certain number of output or intermediate lines y is taken from each block. The individual coupling blocks of the arrangement thus consist of x - y = z coupling points. As a rule, the coupling blocks of the arrangement are the same for structural reasons Have size; however, they may also differ from one another. The wiring of the individual Coupling block is done in such a way that every feeder line of the block has every subscriber line of the block can reach. The interconnection of the individual coupling blocks of the Coupling stages of the arrangement can be made according to a certain scheme using a mixing or a maneuvering plan based on traffic theory considerations.

For economic reasons, there is a desire to reduce the effort at crosspoints to be kept as low as possible. One comes closest to this goal when the individual coupling blocks have few crosspoints, d. i.e. if the number of inputs and outputs of each block is small. As a result, however, each feeder line only has Access to few exits and there is a high probability that the few accessible exits of the block already through other feeder lines of this Blocks are occupied.

The invention is based on the object of creating an arrangement when using small coupling blocks in order to save coupling points and thereby the Disadvantages of the known arrangements can be avoided. This is done according to the invention achieved in that each input of a coupling block access to a specific one Has number of outputs that are the same for all inputs but less than the total number of the outputs and that the combinations that can be achieved by any two inputs differ from outputs in at least one output.

The invention will now be described using an exemplary embodiment. It shows Fig.1 in a schematic representation of a coupling block according to the previously known Wiring, FIG. 2 a coupling block according to the invention and FIG. 3 a mixing plan with the coupling blocks according to the invention.

In the previously known coupling blocks (Fig. 1), each of the inputs E1 to E6 are connected to outputs A1 to A3. However, are z. B. Input E 1 with output A1, input E2 with output A2 and input E 3 with output A 3 already connected, there is no further connection option for inputs A4 to E6 more.

In the coupling block constructed according to the invention (FIG. 2), however six outputs are available instead of the three outputs of the coupling block according to FIG. 1. Each the inputs I1 to I6 can only be connected to three of the six outputs. With this arrangement it is the same crosspoint number as with a coupling block according to Fig. 1 available. Are z. B. the input E 1 with the output A 1, the input E 2 already connected to output A 2 and input E 3 to output A6, then the input E4 can still be connected to the outputs A4 or A5, the input F_ 5 with the output A 5 and the input E 6 are connected to the output A3. With a Such an arrangement is the risk that the accessible trunk lines one Feeder lines are already occupied by other feeder lines, lower.

Since each output of such a coupling block only has three inputs can be connected, while each output of a coupling block according to FIG. 1 six Inputs are available, these have output lines one lower performance. However, if you switch the outputs of each block with outputs other blocks together in such a way that there are always two or more outputs of different Blocks of a coupling stage are merged, then the number of output lines or intermediate lines compared to the circuit according to FIG. 1 not increased. It is coming even to a mix that allows better distribution of the on the feeder lines offered traffic on the continuing intermediate or output lines.

This interconnection of the output lines is expediently carried out in such a way that that the output lines that can be reached from any two inputs of two coupling blocks differ in at least one output line. In the example according to FIG. 3 differ e.g. B. the output lines accessible from inputs E 111 and E 121 or the inputs of the second stage reached by these output lines in the Inputs E221 and E231 or E 223 and E 2 m 1.

"" The wiring diagram shown in the figures merely represents an example, the wiring can depend on the block size to which processing traffic values and the number of blocks in the various coupling levels depending on traffic-theoretical and control-related conditions be optimally chosen.

Claims (2)

PATENT CLAIMS: 1. Circuit arrangement for multi-stage switching matrices, the individual switching stages of which consist of one or more switching blocks, in telecommunication systems, in particular telephone systems, characterized in that each input (E1 to E6) of a switching block has access to a certain number (3) of outputs ( e.g. A 1, A 3 and A 5), which is the same for all inputs and less than the total number (6) of outputs (A1 to A6), and that can be reached by any two inputs (E1, E2) Combinations of (3 each) outputs differ in at least one output (A1, A3) . 2. Circuit arrangement according to claim 1, characterized in that two or more outputs of the coupling blocks (A 111, A121) are interconnected to form a continuing line, and that the output lines that can be reached by any two inputs (E 111, E121) of two coupling blocks are at least in an output line (E221, E231). 3. Circuit arrangement according to claim 1, characterized in that the coupling points of the coupling blocks are formed by outputs from stepping or running selectors, by switching positions of crossbar switches and / or by individual coupling elements.