DE2454144C3 - Four-wire switching, a multi-level reverse grouping having coupling field - Google Patents

Description

zes with reverse grouping, at the same time all the advantages known for PCM time-division multiplex switching networks like a simpler, cheaper crosspoint that only needs to process digital signals, and the significantly lower number of crosspoints per line unit can be perceived.

It should be mentioned at this point that PCM time division multiplex switching matrices are already known in which the traffic of a group of multiplex lines is transmitted over a super multiplex line operated with a significantly excessive clock frequency (see DT-OS 22 35 609), whereby to avoid internal blockages, the individual channel time segments can be subdivided into subsections specific to the receiving multiplex line (see DT-OS 19 30 426). These are switching matrices with stretched grouping in a ZR structure, which have no closer points of contact with the switching matrix according to the invention.

The invention is _{explained in more detail with reference to} the drawing. The drawing shows an exemplary embodiment for a coupling field according to the invention. The switching matrix shown in the drawing is a four-wire through-switching, a multi-stage reverse grouping having coupling matrix for 1-channel connection lines 4LlIl ... ALgvd that can be connected to the first switching stage A. The d'irch divides the switching matrix grouping into groups and subgroups whose size can be selected according to the volume of traffic on the individual lines. The! -Channel connection lines, 4LlIl ... ALgvd can be four-wire LF connection lines which, if necessary, can also be connected via a hybrid circuit, as they are principally z. B. from DT-OS 21 48 929 is known, can be connected to a two-wire LF subscriber line. The switching network is designed as a PCM time division multiplex switching network, in which the first switching stage A is formed by a number of connection coupling circuits AS corresponding to the number of LF connecting lines AL connected to the switching network, each of which individually belongs to an LF connecting line AL and a PCM- Codec NF / PCM with a PCM word register Z and a time channel switch ZS , as shown in more detail in the drawing for the ^ ₅ connection coupling circuit 45111. As indicated in the drawing for the connection coupling circuit ASlIl, the time channel switch ZS of each connection coupling circuit is designed as a cross switch in order, if necessary, to enable a line to be crossed for correct transmission. The PCM codec NF / PCM contained in the connection coupling circuit can be designed in a manner known per se; a PCM codec with a PCM word register shows e.g. B. the DT-OS 23 33 298. In the drawing is finally indicated for the connection coupling circuit AS 111 that the PCM codec NF / PCM associated PCM word register Z and the time channel switch ZS from a so-called holding set HS in the form a circulating memory with a subsequent control decoder can be controlled with the correct time at the time assigned to the respective connection; Each connection coupling circuit can have such a holding set, or a holding set which then expediently enables the simultaneous control of two connection coupling circuits can be provided jointly for a whole subgroup of connection coupling circuits.

In each case the connection coupling circuits forming a subgroup are connected to a four-wire time division multiplex line belonging to the relevant subgroup. Thus, in the PCM time division multiplex switching network shown in the drawing, the connection coupling circuits ASlIl ... ASWa are connected to the time division multiplex line Lab 11 and the connection coupling circuits AS 1 vi ... AS 1 vb are connected to the time division multiplex line Lab 1 ν , they are the connection coupling circuits. 4Sg-Il ... ASg ic connected to the time division multiplex line Labg 1, and the connection coupling circuits ASgv 1 ... ASgvd are connected to the time division multiplex line Labgv . Each of the four-wire time division multiplex lines Lab U ... Labgv is connected on the one hand to an input of a multiplexer belonging to the relevant group of connection coupling circuits AS 111 ... ASgvd and on the other hand to an output of a demultiplexer belonging to the relevant group of a switching matrix module of the second switching stage B , with this switching matrix module has an addressable memory for time slot conversion, which is connected on the input side to the output of the multiplexer and on the output side to the input of the demultiplexer directly or via a coupling matrix connecting a plurality of multiplexers / demultiplexers to a plurality of memories. Thus, in the PCM time division multiplex switching network shown in the drawing, the time division multiplex lines Lab 11 ... Lab 1 ν are connected on the one hand to an input of a multiplexer Muli belonging to the group of connection coupling circuits / 4SlIi ... ASl vb and on the other hand to an output of one of the group connected by connecting coupling circuits, 4SlIl ... ASivb associated demultiplexer Demi of a switching network module Mi; the switching matrix module! Mi has a memory S1 connected on the input side to the output of the multiplexer Muli and on the output side to the input of the demultiplexer Dem i , which can be addressed in an addressable manner for time slot conversion from a hold block Hi. In a corresponding manner, in the switching matrix shown in the drawing, the four-wire time- division multiplex lines Labg 1... Labgv are connected to a correspondingly constructed switching matrix module Mg . Such switching matrix modules are known per se; Such a switching matrix module with a switching matrix connecting a plurality of multiplexers / demultiplexers with a plurality of memories on the input side with the output of the multiplexer and on the output side connected to the input of the demultiplexer and addressable for time slot conversion shows z. B. F i g. 1 and FIG. 2 of DT-PS 21 48 994.

With further inputs of the multiplexer MuI 1 and outputs of the demultiplexer Dem 1 of the switching network module Ml (also four-wire) time division multiplex lines such as the time division multiplex line Lbc are connected; In a corresponding manner, such time-division multiplex intermediate lines are also connected to the switching matrix module Mg ^{1 of} the second switching stage B. These time division multiplex intermediate lines are also each connected on the one hand to an input of a multiplexer and on the other hand to an output of a demultiplexer of a switching network module of a further switching network module stage C; so it is indicated in the drawing that, for example, the time division multiplex intermediate line Lbc in this way with a switching network module Mc of the switching network module stage C

connected is.

The respective connection paths run in the PCM time division multiplex switching matrix shown in the drawing in the manner known in principle for switching matrices with reverse grouping: connecting lines that (such as the connecting lines ALlIi and ALlIa) via their connecting coupling circuit (ASlIl or ASlIa) to one and the same Time division multiplex lines (LabU) are connected, ie which belong to one and the same subgroup of connection lines, are connected to one another via the relevant time division multiplex line (Lab 11), ie on a "short path" running only within the first coupling stage A; The time channel switch of one of the two connection coupling circuits causes a line to cross for the correct transmission. Connection lines (such as the connection lines AL 111 and ALivb) belong to one and the same group, but not to one and the same subgroup of connection lines, are connected via the time division multiplex lines (Lab 11 and Lab 1 v) and the switching network module (M 1) of the second switching stage B associated with the group of connection lines in question. Connections between two connection lines that (such as the connection lines ALXvb and ALgU) do not belong to one and the same group of connection lines, run via the respectively associated time division multiplex line (Lab iv or Labgi) to the respectively associated switching matrix module (Af 1 or Mg). the second switching stage Bund from there to a switching matrix module (z. B. Mc) of the third switching stage C, via its memory for the

»3 links in question used time division multiplex links periodically connected to each other at the times assigned to the connection in question will.

1 sheet of drawings

Claims (1)

Claim: Four-wire through-switching, a reverse grouping in steps, for l-channel connecting lines divided into groups and subgroups by the switching field grouping, in which switching means of the first switching stage enable a line crossing for correct transmission through-connection, characterized in that it is designed as a PCM time-division multiplex switching network, in which the first coupling stage (A) by groups (ASlIl ... 4SlvZ>;...; AS ^ Il ... ASgvd) and subgroups (ASlIl ... ASlIa; ...; ASlvl ... ASivb) of each one N F connection line (ALlIl) individually associated, a PCM codec (NF / PCM) with a PCM word register (Z) and a time channel switch (ZS) having connection coupling circuits (ASUi) is formed, each with one of the relevant subgroup (ASlIl ... ASlIa) associated time division multiplex line (Lab 11) are connected that each of the time division multiplex lines (Lab 11 ... Labiv) on the one hand with an input of one of the group concerned (A S 111 ... AS i vb) associated multiplexer (MuI 1) and on the other hand with an output of one of the group concerned (AS Ut ... AS 1 vb) associated demultiplexer (Dem 1) of a switching network module (M 1) with a direct or is connected on the input side to the output of the multiplexer (MuI 1) and on the output side to the input of the demultiplexer (Dem 1) via a coupling matrix connecting a plurality of multiplexers / demultiplexers with a plurality of memories, addressable memory (S 1) for time slot conversion, and that with further inputs of the multiplexer (Muli) and outputs of the demultiplexer (Dem 1) time division multiplex intermediate lines (Lbc) are connected, which are also connected on the one hand to an input of a multiplexer and on the other hand to an output of a demultiplexer of a switching network module of a further switching network module stage (C) . 45 In centrally controlled telecommunications, in particular telephone switching systems, subscriber lines and / or connecting lines from / to other exchanges are interconnected according to the respective desired connections via coupling elements (coupling points) which form a coupling network in their entirety, the arrangement of which within the coupling network also as its grouping 5; referred to as. Various types can be distinguished among the possible groupings of telecommunications switching systems, B. coupling networks with optional structure, which are divided into several optional levels and in which, when establishing a connection, only the possible routes within the selected level are taken into account, or coupling networks with extensive path searches, in which the occupancy status of the whole is always taken into account when a connection is established Coupling network is taken into account; A distinction can be made between coupling networks with long-range path searches (see e.g. NTZ 22 (1969) 10, 588, 589; NTZ 25 (1972) 2, 92, 93) where f ^zw _hlü , _iege n and connections only ^GrU TenieweTeinem connection of one side and π connection of the other side are possible, and seliets with reverse grouping, in which all α müL are on the same side of the switching network. SoTche ζ B from information telephone exchange? hnfk VI (1970) 1/2, 28-33 and 65-73; Reports on Tdephon ^^ Engineering VI (1970) 1/2, 28-33 and 65-73 known switching networks with reverse grouping I h ", the advantage of an almost complete c hharkeit the outgoing lines, a high fS £ ^{k g} h hinsicht.ic different boundary conditions ^H _ιηΗ piner largely modular structure; What ? SSS "TduÄutzgaskontakte having in Meta.lge- Muses crosspoints formed space 5ach switching networks, however, with reverse grouping Lt Equip is a - in today's technology ⁿ hmend Inge rebte - large-scale integration of the single-Γη Β" femente "ines such switching network Here are problems such as the so-called limitation, impermissible warming and technological limits Ξwhich at most allow a matrix with 4 ί 6 crosspoints to be combined in a medium-scale integration on one module .on where several hundred switches can easily be accommodated on one module. The grounding relates to a four-wire through-switching a multi-level reversing grouping having KoppelfeTd for through the coupling field grouping. _m GruDoen and subgroups 1 indented channel-An-ÄTekungen in which cleaving agent of the first Sppdstufe ri allow a conduit junction to ubertragungs ° htigen through-connection; this coupling it according to the invention is characterized in that a PCM time division multiplex switching network is formed in which the first switching stage is formed by groups and subgroups of a respective N ^ connectionk, -mng individually associated, a PCM codec with a PCM word Register and a time channel switch! having connecting coupling circuits formed are each connected to a time division multiplex line belonging to the relevant subgroup, so that each of the time division multiplexing lines is connected on the one hand to an input of a multiplexer belonging to the relevant group and on the other hand to an output of a demultiplexer belonging to the relevant group of a switching matrix module one - directly or via an eta? A plurality of multiplexers / demultiplexers Sit a plurality of memories connecting coupling matrix - on the input side with the output of the multiplexer and on the output side connected to the input of the demultiplexer, addressable memory for time slot conversion is connected, and that mt weheren inputs of the multiplexer and outputs de ; DeÄlexers Zeitmultiplex Zwischenle.tungen are connected, which are also connected on the one hand to the input of a multiplexer and on the other hand to an S of a demultiplexer of a switching network module of a further switching network module. The invention has the advantage of a responsiveness of the coupling network through MOS-Groß.integrat.ons-Bauetmente ^P with it, while maintaining the advantageous traffic properties of a coupling network.