EP0879546A1

EP0879546A1 - Digital signal transmission system

Info

Publication number: EP0879546A1
Application number: EP97914115A
Authority: EP
Inventors: Wolfgang Fraas; Klaus Hünlich
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 1996-02-06
Filing date: 1997-02-03
Publication date: 1998-11-25
Also published as: US20030026284A1; DE19604244A1; WO1997029612A1; CN1210658A

Abstract

A system for transmitting digital signals in the form of time multiplex channels between an exchange terminal (ET) and a line terminal (LT). Both the exchange terminal (ET) and the line terminal (LT) are connected to a user interface (UNI) of an ATM network (ATMN) via a device (IWF) for converting time multiplex data into ATM cells or from ATM cells into time multiplex data, where a virtual ATM channel is allocated by the device to each time multiplex channel.

Description

description

Transmission system for the transmission of digital signals

The invention relates to a transmission system for the transmission of time-division multiplex channel-shaped digital signals between an exchange termination device (Exchange Termination) and a line termination (Line Termination).

According to the terminology of the ITU-T G.960 (03/93) standard,

"Access digital section for ISDN basic rate access", in particular pages 2 and 3, the invention therefore relates to data transmission at the V reference point. Data transmission at the V reference point takes place in accordance with ITU-T Recommadation G.960, in particular Page 2, Figure 1 / G.960 and Page 3, Figure 2 / G.960 with associated description and as well as Figures 5 / G.960 and 6 / G.960 on page 9 with associated description about functional elements between state machines the practical application is carried out according to an industrial standard used by several semiconductor manufacturers, which is referred to as an abbreviation of the term "ISDN Oriented Modular Interface" with IOM ^® -2. As the company publication of Halb¬ conductor manufacturer Siemens "ICs for Communications, IOM ^® -2 Interface Reference Guide", particularly chapter 2, globalization bal Picture, pages 6 to 12 and figure 2 is given on page 8, time division multiplexed frames are in this case of Such a frame is divided into sub-frames, so-called channels CHO, CH1 ..., which are each assigned to a connection and thus form a connection frame, such a connection frame contains in the IOM described ^® -2 interface standard, again in time-division multiplex form, four time-division multiplex channels, namely two user channels BI and B2, a monitor channel and a control information channel. In the I0M ^<s ' -2 standard, these channels are arranged in time within the connection frame in such a way that the control information channel is transmitted last The mentioned time-division multiplex channels each contain an 8-bit word. As a result, four 8-bit words are transmitted quasi-simultaneously, namely within a connection frame cycle.

A transmission system for transmitting digital signals between a switching termination device and a line termination is usually part of a communication system with a switching device and with a subscriber connection device, the switching device being coupled to the subscriber connection device via a switching termination device and a line termination. Such a communication system serves to set up or break down narrowband communication connections between subscriber line devices and to enable narrowband communication (voice, audio, narrowband video, text, facsimile and / or data communication). Modern communication systems use digital transmission technology, for example ISDN. In such communication systems, it is necessary to connect the subscriber line units to the switching device via lines. This is usually done via metallic wire pairs. In the case of a communication system with many subscriber line units, a widely branched line network is required.

If the service provided to a subscriber line unit by a communication system is to be relocated from one location within the communications system to another location, it is usually necessary to rearrange the metallic connecting lines between the switching device and the subscriber line unit.

In addition to a narrowband communication system, a broadband communication system, for example a local data network LAN, is installed in many areas today. Such a local data network can also be constructed, for example, in the form of an emulated LAN based on an ATM network. Regardless of the structure of individual local data However, an ATM network is often installed in order to connect several local data networks.

ATM stands for asynchronous transfer mode. ATM networks include in the book ATM Networks, Rainer Haendl, Manfred N. Huber, Stefan Schroeder, Edison Wessley Publishing Company, 2nd edition, 1994, in particular in chapter 4 on pages 21 to 54. Within an ATM network, data are packed in ATM cells and transmitted in a continuous stream in ATM cell stream via virtual channels of virtual paths. The transmission is connection-oriented. Participants can be connected via user interfaces, so-called UNI (user network interface), which are uniquely identified by an identifier of the virtual path VPI (Virtual Path Identifier) and by an identifier VCI of the virtual channel (Virtual Channel Identifier) ¬ is true.

The object of the present invention is to provide a transmission system which, with an ATM network, enables the implementation of an easily installable and easily configurable narrowband communication system.

The invention solves this problem by a transmission system with the features of claim 1. Favorable configurations are the subject of subclaims.

According to the invention, a transmission system for transmitting digital signals present in the form of time-division multiplex channels between a switching termination device and a line termination is specified, in which a device for connection to a user interface of an ATM is provided both for the switching termination device and for the line termination Network is provided which is used to convert the time-division multiplex data into ATM cells or to convert the ATM cells into time-division multiplex data. Such a transmission system helps to achieve the above-mentioned object in that each time-division multiplex channel has a virtual one

ATM channel is assigned.

This makes it possible for the time-division multiplex data of the individual time-division multiplex channels to be insertable into an ATM cell stream and for the cell stream to be implemented within the ATM by administrative measures - namely by unambiguously assigning a VPI / VCI address of the ATM network to a time-division multiplex channel. Network can be distributed. Changes in the distribution within the ATM network are therefore very simple because, for example, when a subscriber moves from the area of a user interface of the ATM network to the area of another user interface of the ATM network, only the assignment of the VPI / VCI Address needs to be changed. In addition, a transmission system described within a communication system eliminates the problem of a physical limitation of the range between a switching device and a terminal, since the user interface can, if necessary, be brought close to a subscriber line unit or to a switching device.

If an ATM network already exists in an area in which a narrowband communication system is to be installed, the large-scale distribution of the information of the

Narrowband communication takes place via the ATM network and the distance between the network termination (network termination) and the line termination can in each case be very small. If, for example, the ATM network offers a connection possibility between user interfaces which are arranged far apart from one another, subscriber connection devices which are accordingly distant from one another can also be connected to a narrowband switching device. For example, incoming calls in widely branched company networks can be changed, for example depending on the time of day, by changing the address assignments in the ATM network to different terminals or hunt groups can be routed to locations that are at a distance from one another.

A development of the transmission system according to the invention forms a communication system with a switching device for time-division multiplexed digital signals and with several switching termination units. In this case, preferably several switching termination devices are connected to a single user interface of an ATM network. Depending on the number of switching termination devices and the bandwidth provided by the user interface, all switching termination devices of the switching device can be connected to a single user interface of the ATM network.

A device for converting time-division multiplex data and ATM cells preferably contains a channel multiplexer / de-multiplexer for distributing the digital signals of the individual time-division multiplex channels onto the respectively allocated ATM cells or for recovering the digital signals from the ATM cells and for distributing them into the associated ones Time division channels. Such a device also provides an ATM converter for packing digital information received by the channel multiplexer / demultiplexer into ATM cells or for unpacking ATM cells and delivering the digital information contained therein to the channel multiplexer / demultiplexer and for inserting ATM cells in a cell stream of the ATM network or for removing ATM cells from this cell stream. In addition, a corresponding conversion device preferably contains an interface, for example an STML interface, in order to transfer synchronization information of the time-division multiplex signals to the ATM network or to receive them from the ATM network, to evaluate them and to the ATM converter and To pass channel multiplexer / demultiplexer.

A transmission system described above ensures that information about the line status between a line termination and the associated network connection of a subscriber line device are transmitted via the V reference point to the switching termination device in the context of the usual time-division multiplex signaling. In addition, the described configuration of the conversion devices ensures that the time-division multiplex signals in the area of the subscriber line unit and in the area of the switching device are synchronized.

The invention is explained in more detail below on the basis of embodiment forms with reference to the figures. It shows:

1 is a block diagram of an embodiment of a transmission system according to the invention;

2 is a block diagram of a communication system as an application example of a transmission system according to the invention; and

3 shows a transmission link between the subscriber line device and the switching termination device according to ITU-T G.960, including a transmission system according to the invention in the region of the Vi reference point.

Fig. 1 shows a block diagram of an inventive

Transmission system with a switching termination device ET and a line termination LT, each of which is connected to a user interface UNI of an ATM network ATMN via a device IWF for converting time-division multiplex data and ATM cell data. The switching termination device ET shown contains a line driver circuit (line card) LINE-C, which for example provides an IOM®-2 interface towards the line termination. The line termination LT contains an ISDN interface ISDN-IF, which provides a corresponding IOM ^{<5 "} 2 interface to the exchange termination device ET. The two conversion devices IWF shown each serve for the conversion time multiplex data in ATM cell data and ATM cell data in time multiplex data and each contain a channel multiplexer / demultiplexer CM / DM in order to distribute the digital signals of the individual time multiplex channels to the respectively assigned ATM cells or from the ATM cells recover and distribute in the assigned time-division multiplex channels. In addition, these devices IWF each contain an ATM converter (ATM converter) ATMC for packing digital information received from the channel multiplexer / demultiplexer CM / DM into ATM cells or for unpacking ATM cells and delivering information to the channel multiplexer / demultiplexer CM / DM, as well as for inserting ATM cells into a cell stream of the ATM network ATMN via the respective user interface UNI and for removing ATM cells from a cell stream of the ATM network ATMN. In addition, the devices IWF each contain an interface IF-STM1 in order to transfer synchronization information of the time-division multiplex signals to the ATM network ATMN or to receive them from the ATM network ATMN, to evaluate them and to the ATM converter ATMC and to be passed to the channel multiplexer / demultiplexer CM-DM.

The structure of the ATM network is insignificant for the invention, so that it is not explained in detail here.

The device IFW for converting time-division multiplex data and ATM cells can be implemented both as an independent device between the line termination LT and the assigned user interface UNI of the ATM network ATMN, and as an input arrangement for the user interface UNI or as an output arrangement for the line termination LT . Accordingly, it can also be implemented as an output arrangement of a switching termination device ET or as an intermediate arrangement.

2 shows a transmission system according to the invention with a switching device PBX for setting up and clearing narrowband connections between (not shown) commu nikationsendgeraten, which can be connected in the illustrated exemplary embodiment via subscriber end devices S. The switching device PBX contains at least one switching termination device ET, which is connected via a device IWF for converting time-division multiplex data and ATM cell data to a user interface UNI of an ATM network ATMN, also shown. The ATM network ATMN contains, inter alia, a switching hub ATM-hub and several ATM add / drop multiplexers ATM-DMX, to which user interfaces UNI and other networks such as local area networks LAN or public narrowband communication networks ISTN can be connected, as shown in FIG. 2 . If in the ATM network shown in FIG. 2 ATMN user interfaces UNI are shown directly at the switching node ATM hub or at the ATM add / drop multiplexer ATM-DMX, this has no effect on the actual form of implementation of the ATM network, but merely shows the arrangement of the individual elements in relation to an information flow.

The subscriber line devices SQ shown in FIG. 2 are each coupled to the user interfaces UNI via a line termination LT and a device IWF for converting time-division multiplex data and ATM cell data.

As can be seen from FIG. 2, a transmission system according to the invention enables simple implementation of a narrowband communication system in which the installation of connecting lines is only required between user interfaces UNI of the ATM network ATMN and subscriber line units SQ or between the switching device PBX and a user interface UNI of the ATM network ATMN.

2 shows only one switching termination device ET in the switching center PBX, which is connected to a user interface UNI of the ATM network ATMN. Of course, for each line connection to be connected Conclusion LT and for trunk connections to global communication networks ISTN, a switching termination device ET can be provided, which is connected via a separate user interface UNI, or which is connected together with other switching termination devices ET to a user interface UNI of the ATM network ATMN.

As can be seen from the structure in FIG. 2, the assignment of individual switching termination devices ET and line terminators LT can be determined by the ATM network ATMN, so that simple administrative measures make it possible to rearrange individual line terminators LT.

3 shows a variant of the illustration in the above-mentioned ITU-T G.960 with FIG. 1 / G.960, which connects a subscriber line device TE (terminal equipment) via a reference point T to a network termination NT1 (network termination), couples this network termination NT1 to a line termination LT (lme termination) via a digital transmission link, which is not described in more detail, and connects this line termination LT to a switching termination device ET via a reference point V]. In addition to the figure shown in ITU-T G.960, FIG. 3 shows an implementation according to the invention of the reference point V] with an ATM network ATMN with user interfaces UNI, and with devices IWF for connecting the line connection concludes LT and the switching terminator ET to the ATM network ATMN to implement the time-division multiplexed data and the ATM cell data.

Claims

claims

1. Transmission system for the transmission of digital signals in the form of time-division multiplex channels between a switching termination device (ET) and a line termination (LT), characterized in that both the switching termination device (ET) and the line termination (LT) each have one Has device (IWF) for connection to a user interface (UNI) of an ATM network (ATMN) in order to convert the time-division multiplex data into ATM cells or to convert the ATM cells into time-division multiplex data, with each time-division multiplex channel being assigned a virtual ATM channel.

2. Transmission system according to claim 1 with a switching device (PBX) for time-division multiplexed digital signals and with a plurality of switching termination devices (ET), characterized in that a plurality of switching termination devices (ET) of the switching device to a single user interface (UNI) of an ATM network (ATMN) are connected.

3. Transmission system according to claim 2, characterized in that all switching termination devices (ET) of the switching device are connected to a single user interface (UNI) of an ATM network (ATMN).

4. Transmission system according to one of the preceding claims, characterized in that the device (IWF) for converting time-division multiplex data and ATM cells contains a channel multiplexer / demultiplexer (CM / DM) to transmit the digital signals of the individual time-division multiplexers. To distribute channels to the respectively assigned ATM cells or to recover them from the ATM cells and to distribute them into the assigned time-division multiplex channels, an ATM converter (ATMC) for packaging Digi¬ received from the channel multiplexer / demultiplexer (CM / DM) Valley information in ATM cells or for unpacking ATM cells and delivering the digital information contained therein to the channel multiplexer / demultiplexer (CM / DM) and for inserting ATM cells into a cell stream of the ATM network (ATMN) or for removing ATM cells from this cell stream, and an interface (IF- STM1) contains in order to transfer synchronization information of the time-division multiplex signals to the ATM network (ATMN) or to receive them from the ATM network (ATMN), to evaluate them and to the ATM converter (ATMC) and the channel multiplexer / demultiplexer (CM / DM ) to hand over.