NO880936L - CONNECTOR FOR CONNECTING SUBSCRIPTION DEVICES TO A COMMUNICATION NETWORK. - Google Patents

Description

The invention relates to a connection device for connecting subscriber devices for receiving and/or transmitting digital telecommunications signals, to a communication network used for both dial-up and fixed connections and which has at least one exchange with a number of transmission channels corresponding to the transmission speed that must be used for these for over- carrying telecommunication signals, and each of which is connected to at least one multiplex subscriber connection line to at least one time channel of a number of occurring time channels each of which has cyclically repeated time slots in successive multiplex frames,

each multiplex subscriber connection line being terminated by a subscriber multiplex device which can be assigned to a number of the mentioned time channels in the multiplex subscriber connection line.

There are already known transmission networks for fixed and dial-up data connections (Tidsskriftet "telecom report", 4 (1981) volume 2, pages 104-112). At these transmission networks, there are, among other things, time multiplex systems arranged over which the subscriber devices dialed via the exchanges and connected to fixed connections are connected to the exchanges.

It is now the purpose of the present invention to show how a switching device of the kind mentioned in the introduction can relieve the respective exchange with regard to the administrative effort for the subscriber devices connected with fixed connections.

The purpose shown above is achieved by a coupling device

of the type mentioned in the introduction according to the invention

• in that only a determined number of transmission channels in the subscriber multiplex arrangement is connected to subscriber devices that are connected via the dialed and/or fixed connections that pass through each exchange and that the remaining transmission channels in the subscriber multiplex arrangement which can optionally be connected to each other, are connected subscriber devices which are mutually

connected exclusively by the fixed connections running over the subscriber multiplex arrangement.

The invention entails the advantage that only the subscriber devices which are connected to fixed connections that go via the exchanges must be managed for the transmission of digital telecommunications signals from each exchange. The administration requirement for subscriber devices that are connected to the subscriber multiplex system and mutually connected by fixed connections, on the other hand, is not included in the exchange that is connected to the subscriber multiplex system, as these fixed connections exclusively go over the transmission channels in the subscriber multiplex system.

In what follows, the invention will now be described in more detail in connection with the drawing. Fig. 1 shows a section of a communication network where the invention is used. Fig. 2 shows a block diagram of the one in fig. 1 showed a subscriber multiplex device.

In fig. 1 shows a section of a communication network for the transmission of digital telecommunications signals. These telecommunication signals can be digital text or data signals. In this connection, in the following, as an example, it shall be assumed exclusively that the transmission within this communication network takes place with a synchronous transmission method. Of the communication network, a central VS is shown which has a number of transmission channels UEl-UEn at its disposal. Of these, a fixed number are connected to a multiplex device. One of these multiplex devices which can be connected to the transmission channels UEl-UEm is denoted by Ml in fig. 1. In this connection, it should be noted that the multiplex devices can also be integrated into the exchange VS.

The multiplex device is connected with its multiplex output

a multiplex subscriber line MTL. On this has

the transmission channels UEl-UEm corresponding to the transmission rate at which these can receive or transmit text or data signals from the subscriber devices, each assigned to at least one time channel of a number of fixed time channels. These time channels thereby each have cyclically repeated time slots that appear in successive multiplex frames. In this connection, the multiplex frames can e.g. be determined in accordance with CCITT Recommendation X.51.

The multiplex subscriber connection line MTL is terminated with

a subscriber multiplex device M2. This has a number of transmission channels arranged for the connection of the subscriber devices, which can be assigned to the mentioned time channels and thus the transmission channels UEl-UEm. These connected subscriber devices are denoted by Tl to Tq. In a similar way to the previous embodiments, these could be subscriber devices for receiving and/or transmitting text or data signals transmitted according to a synchronous transmission method. Examples of such subscriber devices are office teletypewriter stations, which can also be referred to as teletex terminals.

Of the subscriber devices Tl-Tq, those denoted by Tl-Tk may belong to a network FN for fixed connections, those denoted by T(k+1) to Tq, on the other hand, a dial-up network WN. Next to the subscriber devices T(k+1)-Tq, by a corresponding time channel assignment on each multiplex subscriber connection line MTL in the subscriber devices Tl-Tk each of these is exclusively assigned a transmission channel of the aforementioned transmission channels UEl to UEm which are included in those above the exchange VS walking fixed connections. In contrast, fixed connections between the subscriber devices associated with the subscriber multiplex device M2 are arranged directly over the relevant transmission channels on this subscriber multiplex device. Thus, the exchange VS is relieved with regard to these fixed connections.

As a subscriber multiplex device, it can e.g. a time multiplex data transmission system known under the designation ZC-A3/2 is used (the magazine "telecom report", 8 (1985) issue 2, pages 113-118). A simplified block diagram of this multiplex data transmission system and thus of the subscriber multiplex device M2 is shown in fig. 2. In this connection, the subscriber multiplex arrangement has a number of transmission channel groups Kl-Kh, each of which has connected a fixed number of the subscriber devices Tl-Tq. These transmission channel groups stand above a first bus system, BUS1 in connection with each other and also with a microprocessor device MP. A further bus system BUS-2 connects this microprocessor device and the transmission channel groups with a multiplex channel group MK which constitutes the interface between the subscriber multiplex device and the mentioned multiplex subscriber connection line MTL. Text and data signals emitted by the subscriber devices can be picked up by each of the transmission channel groups that come into consideration and reach from here via the bus system BUS1 to the microprocessor device MP. In a memory device associated with this, information is stored regarding the connection of the subscriber's devices to the fixed connection network FN or the dialed connection network WN and which, among other things, provides information about the subscriber facilities in the fixed connection network is connected to a subscriber facility also connected to the subscriber multiplex devices M2. Following instructions from this information, the microprocessor device controls text and data signals that are supplied to it from the subscriber devices in the dialed-up connection network WN and from subscriber devices connected by fixed connections passing over the exchange VS onward in accordance with the time channel arrangement established for the individual subscriber devices over the bus system BUS2 to the multiplex channel group MK which then emit the corresponding signals to the multiplex subscriber connection line MTL. In a similar way, the multiplex channel group MK receives transmitted text or data signals in the time channels and passes these on to the microprocessor device MP which then distributes these signals over the bus system to the subscriber devices that come into consideration.

The microprocessor devices MP, on the other hand, carry text or data signals from subscriber devices in the fixed connection network which is connected to a subscriber device connected to the subscriber multiplex device, directly on over the bus system BUS1 to each of the transmission channel groups that come into consideration.

Finally, it should also be noted that although the invention has been previously described with subscriber devices that receive and/or transmit text or data signals according to a synchronous transmission method as an example. However, the invention is also generally applicable in communication networks used for dial-up connections and fixed connections and where telecommunication signals are to be transmitted in digital form between the subscriber devices. As an example, mention should be made here of communication networks in which text or data signals are transmitted according to an asynchronous transmission method, resp. speech signals in digital form.

Claims (1)

1. Coupling device for connecting subscriber devices (Tl-Tq) that serve to receive and/or transmit digital telecommunications signals to a communications network that is used as well as for dial-up connections as well as for fixed connections, as this has at least one exchange (VS) with a number of transmission channels (UEl-UEn) each of which, in accordance with the transmission speed to be used to transmit telecommunication signals, is assigned to at least one time channel of a number of occurring time channels, each of which has cyclically repeated time slots that occur in successive multiplex frames, each multiplex subscriber connection line is terminated with a subscriber multiplex device (M2) which is provided with transmission channels that can be assigned to the mentioned time channels in the multiplex subscriber connection line, characterized by excluding a fixed number of transmission channels in the subscriber multiplex arrangement determined by the number of transmission channels (UEl-UEm) in the subscriber equipment in each exchange and which have assigned the time channels in the multiplex subscriber connection line have connected subscriber equipment associated with the dialed and/or fixed connections running over each exchange , and that the remaining transmission channels in the subscriber multiplex arrangement (M2) which can optionally be connected to each other, are connected to subscriber devices which are mutually exclusively connected in fixed connections that go over the subscriber multiplex arrangement.