DE3135757A1 - "COUPLING NET FOR PCM CHANNELS" - Google Patents

Description

■ 1. Coupling network for PCM channels

The invention relates to a switching network according to the The preamble of claim 1, i.e. a circuit arrangement, with which it is possible to get the channels from to η arriving. To "break down" channels belonging to PCM systems and they back to the framework of η outgoing PCM systems to group.

in modern telecommunication systems the digital transmission technology, in addition to the possibility of using reliable and proven PCM systems i.a. has the advantage that both telephone signals and data, Images, etc. can be transmitted. In this context, better and better switching or coupling devices were used developed with which each PCM channel of the connected incoming PCM systems to each of the others, outgoing PCM systems can be directed. Though the invention per se for any such coupling element directions can be used advantageously, should in particular the space multiple stage of a space-time coupling network for PCM systems are improved, as described, for example, in IT-PS 1 037 256. Using this example the invention is also explained in more detail below. With such a coupling network, everyone who arrives learns PCM channel forming 8-bit groups a room connection, ·. through which they move from one to the other with the PCM systems connected to the switching network are transmitted, and a time connection through which they are transmitted by the respective Phase of the incoming PCM system to get to the corresponding phase of the outgoing PCM system.

The time switching is preferably carried out in two successive ones Points in time with an intermediate work phase in which the room connection is carried out will. Therefore, a first, composed of η input units,

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formed time switching stage, an η χ η matrix for space switching and a second time switching stage formed from η output units (ZRZ structure). Each input and output unit is. 5 connected to m PCM systems, where η χ m is the total number of PCM systems connected to the switching network. "The input ¹ and output units are synchronized with one another because they are controlled by the same clock signals

• ■ the. Of the many known embodiments of the η χ η matrix is considered here that η -Multi-

• .plexer provides, the respective output with -one of the Output units is connected to whose inputs the η input units are connected in sequence. Everyone Multiplexer "is controlled by a circulating memory, in

. •• 15 which at the beginning of a connection (in per se known and therefore written in a manner not described here) which input unit is to be connected to the associated output unit at the respective point in time. ·

For the correct operation of the coupling network, the Bit sequences appearing at the input of the time switching stage with each other and with the one that advances the circulating memory Clock signal precisely aligned, d. H. be synchronized. The permissible deviations are increasing the lower the higher the transmission speed, until finally the different signal flow or breeding seasons that differ from the different Connection lengths depend on .significance. this

• mainly concerns the connection from the input units to the multiplexers on which all the bits serially, i.e. to different ones. Times to get to the inputs of the η multiplexer. Also the connections from the Multiplexers to the output units suffer from the fact that their length is not uniform, since it is practically un-. possible "is to arrange all output organs at the same distance from the respective .Multiplexers". Careful too and- possibly complicated arrangement of the. -

Input units, the multiplexer and the output units in the racks of the telecommunication system , possibly with grouping in subsystems, can reduce, but not eliminate, difficulties that limit the maximum transmission speed.

The invention is based on the object of a coupling network and in particular a space through-connection stage of the above explained type to the effect that the different Running or propagation times of the signals no longer have any influence. ·

This object is achieved by the coupling network characterized in claim 1.
. The invention creates a switching matrix which enables operation at very high transmission speeds.

In the embodiment shown in the drawing the invention is explained in more detail. Show it:

1 schematically shows a switching stage according to the invention; and ■ ■. FIG. 2 shows two timing diagrams relating to FIG.

• The space-time coupling network shown in simplified form in FIG. 1 for PCM signals contains in a per se known

Arrangement η input units UI ₁ UI, ...... UI,

η multiplexers M ₁ , ... M, each of which is controlled by a circulating memory MC ..... MC, and η output units UU ...... UU, each of which with the output of one of the

Multiplexer M is connected. ·

The invention differs from the known switching networks in that, as shown, a first register R ₁ -, namely, at the output of each input unit UI

R ₁ ..... R ₁ , .... R _{1 is} provided; that furthermore Ί / II »κ ι, n

a second register R is located at the input of each multiplexer M _0, so R _{0 1} ... R _0, the inputs of its η storage elements are in turn each connected to respectively to the output of the first register and the outputs to an input of the multiplexer M ; and that at the output of each multiplexer M a third register R_, that is to say R-3 ₁ . . .R-. is switched, which is connected to an output ■ unit UU ₁ ... UU. The first, second and third registers are controlled by a clock signal t, which also controls the circular memories MC.

The input units UI are synchronized with one another in a manner known per se, so that in each case the same Momentary to the output of all input units one bit

of the 8-bit groups that comes with each input unit UI connected channels of the PCM systems and a first time look-through by the input unit UI have experienced. The bits appearing at the output of the input units UI er-.20 are generated with each pulse of the clock signal t, which has the same frequency as the bits, into the first register R. and on the following clock pulse into the second Register R ″ stored, which they transmit to the multiplexer M. Therefore the bits are at the input of the multiplexer exactly synchronized with each other, from which ■ input unit UI they may come, and without different Breeding tents result. The only limitation the circuit arrangement described here consists in the fact that the propagation time of a bit from the first to the second register must in any case be shorter or at most equal to the period of the T ^ ktsignal t.

The multiplexers M are also used with the help of their circulating storage devices MC synchronized by the clock signal t, which is enabled by the signal T via the gate elements shown, to get to the stores. The exact relationships between the signals are shown in FIG. It will

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the address present at the output of the memory and thus the connection from the input to the output of the multiplexer concerned is changed by the signal T whose period TO is the same as the duration of one of the 8-bit groups and whose duration is dimensioned such that it is certain that a single pulse of the clock signal t that identifies the start bit of each 8-bit group. Preferably the signal T has a duration equal to the period of the clock signal t.

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The bits present at the input of the multiplexer are simultaneously controlled by the clock signal t in the third register is saved, i.e. independent of the Length of the connection from the multiplexer to the third register. They therefore appear completely synchronously at the input of the output units UU, where they are the second time switching .be subjected.

In the context of the invention it is possible to change the switching network described, e.g. B. the first and / or the to replace the third register with elastic storage,. to avoid the consequences of any disturbances in the synchronism of the Balance input and / or output units.

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Claims (2)

Italian note No. 24 541 A / 80 of 9.9.1980 ITALTEL Societä "Italiana Telecomunicaz ioni s.p.a. Piazzale Zavattari 12, Milan / Italy Double network for PCM channels Patent claims 1. ) Coupling network for PCM channels, which has a number η multiplexers (M) each with η inputs and one output, η circulating memory (MC), each of which controls one of the multiplexers (M), η input units (UI) of the PCM Systems, each of which is connected to respective inputs of all multiplexers (M), and contains η output units (UU), each of which is connected to the output of one of the multiplexers (M), thereby g.ekennz ei c. hnet that η first registers (R ₁ ), each of which is connected to the output of an input unit (UI); η second register (R ₂ ) with η storage elements, each of which is arranged at the input of one of the multiplexers (M), while the outputs of its η storage elements with the corresponding speaking inputs of the multiplexer (M) are connected in sequence; as η third registers (R ₃ ) are provided, each of which is connected to the input of an output unit (UI); and that the first, the second and the third registers (R ₁ , R ₂ , R ₃ ) are controlled by the same pulse train (clock signal t), the period of which is not shorter than that maximum propagation time of the signals from any 1.0 of the first registers (R-) to any of the second registers (R ₂ ) 2. Coupling network according to claim 1, characterized .ge- - indicates that the circulating memory (MC) of the logical product of. Pulse sequence (clock signal t) and a signal (T) can be incremented, the period of which (TO) equals the duration of an 8-bit group of the PCM channels and its duration is equal to the period of the pulse train. . (t), where the signal (T) is the start bit of each. 8-bit "group determined.