DE4038749C1 - Subscriber peripheral circuit for ISDN - has coupling device to connect one of subscriber peripherals to digital network line - Google Patents

Abstract

The subsriber peripheral circuit has a coupling device (KE) responding to a failure of the local current supply, to maintain a permanent connection between one of the subscriber peripherals (S1) and the digital network line (AL). A clock generator (TG) supplied from the local current source (SV) normally provides clock pulses allowing internal connections to be established even when the network line (AL) is down, via decentralised control devices (STU, STS1 STSn) coupled via a processor bus (PB) to a common control device (GST). ADVANTAGE - Provides limited operation upon failure of local current supply or when network line is down.

Description

The invention relates to a network termination device for the ISDN basic access according to the preamble of the patent saying 1.

A circuit arrangement for the subscriber line in an integrated service digital network (ISDN) is off DE-OS 33 16 492 known. There is an ISDN Network termination unit (NT) described, which a Coupling device contains to interfaces for End devices with each other and with an interface to connect for a connecting line. In the associated drawing is shown as the individual User data channels B and the individual signaling channels D are brought up to a switching matrix K and from starting from this again to the individual cut places to be returned. About this switching matrix are connections of the device interfaces among themselves as well as connections with the connector  line possible. In the description are only described the principles that are necessary a switching operation within a network closing unit NT to perform. It is not specified how the circuit arrangement when the Power supply behaves and what happens when that Connection line fails.

Based on the aforementioned prior art, it is Object of the invention, a network termination device for ISDN basic access to indicate which at least partly when the local power supply fails or functional if the connecting cable fails remains.

A combination of features is used to solve this task provided as specified in claim 1.

This is advantageously achieved in that Failure of one of the local power supplies Terminal devices via the coupling device with the connection line is connected so that this for easy Network termination facilities also feature then remains if a mediation function is provided within the network termination device. In addition, if the connection line fails, a Internal traffic between those on such a network terminal devices connected.

Advantageous further developments are in the subclaims of the invention.

An embodiment is described below using a Drawing explained in more detail.

In the drawing, terminal interfaces S 1 to Sn are shown, each of which is assigned a decentralized control device STS 1 to STSn. These end device interfaces are used to connect one or more end devices EG1.1 to EGn.m. For the connection of several devices, e.g. B. EG.1.1 to EG1.m is the respective end device interface, e.g. B. S 1 , executed as a so-called S-bus.

Which leads to a local exchange, TVST rende connecting line AL is with a connecting line tion interface U connected, which a de central control is assigned to the STU. All decentralized controls STS1 to STSn and STU connected to each other via a processor bus PB. This processor bus also leads to a common one samen control GST and a switching matrix control KST.

There is also a local power supply facility SV provided, which the for the operation of the network circuit breaker required voltages from the Power grid generated. In the event that this local power supply device SV fails an emergency power supply device NV is provided, which is connected to the connecting line AL. With the help of DC-DC converters Generates DC voltages, which means minimal operation can be maintained. Here, be known signaling data between the Network termination device and the central office TVST exchanged via the connecting line AL. This Data exchange is carried out according to the standard leads, which also for simpler network termination devices is set.

In addition, when a network failure is detected by the common controller GST using the coupling field controller KST in the switching matrix device KE, a fixed connection is established, via which the connecting line AL with its connecting line interface U directly with a terminal interface, e.g. B. S 1 is connected. In this emergency operating case, only a predetermined terminal, e.g. B. EG1.1 ready for operation, with which connections can only be established via the connecting line AL. All for the operation of this type of connection switching and control devices are switched off, so that the current consumption of the network termination device is very low when it is fed via the connecting line AL.

In normal operation, ie when the local power supply SV is functional, the terminal interfaces S 1 to Sn can be connected both to one another and to the connecting line AL via the connecting line interface U. The control criteria required for this are first recognized by the decentralized control devices STS1 to STSn or STU and passed on to the common controller GST via the processor bus PB. There it is recognized at which interface S 1 to Sn or U the connections to be involved in a connection are connected. Accordingly, commands are given to the coupling field controller KST, with which the corresponding useful data channels B and signaling channels D are then connected to one another in the coupling device KE. Several connections can exist at the same time. For example, it is possible for the terminal interface S 1 to be connected to the connecting line AL as well as to another terminal interface Sn simultaneously. With the help of the coupling device KE, it is also possible to use two terminals, e.g. B. EG1.1 and EG1.m interconnect, which are connected to the same terminal interface S 1 . An outgoing user data channel B is connected to an incoming user data channel B. Internal connections within this network termination device are also possible if the connecting line AL is interrupted and the local power supply SV is in operation. Since a clock generator TG is provided within the Netzabschlussein device, which can work independently of the connecting line AL, internal connections can be established without the connecting line AL being touched thereby. As already mentioned, this also applies in the event that the connecting line AL is disturbed or interrupted.

Only if there is a connection to the connecting cable AL must be made, or in the case of an incoming menden connection from the subscriber exchange TVST must synchronize the clock of the An final line AL with the clock of the clock generator TG occur. This happens because the Taktsi gnal of the connecting line AL from the connecting line tion interface U to the common controller GST is given where it is with the clock of the clock generator is compared. The measured phase difference is used when establishing connections within the Coupling device KE compensated in that delay times can be inserted, which of the Correspond to phase difference. It also sets the beat generator on the coming from the connecting line AL Regenerated receive clock regulated so that gradually the phase difference is reduced. Accordingly is also the one set in the coupling device KE Delay time ongoing to the gradually smaller adjusted phase difference.

It is therefore possible to set up internal connections even when the connection line AL is not ready for operation. The requirement to maintain emergency operation, with the supply of the power supply unit via the connecting line AL, remains unaffected. In this case, a direct connection can also be established between the terminal interface S 1 involved and the connecting line interface U outside the coupling device KE, for example via a relay contact nk.

The common control device GST of the network termination device can also receive incoming commands for establishing test connections via the connecting line AL and its interface U. These commands are first detected by the responsible decentralized control STU and brought to the common control GST via the processor bus PB. From there, test connections to the corresponding terminal interfaces S 1 to Sn are then established with the help of the switching matrix controller KST. In addition, test loops can also be formed within the coupling device KE, and the individual connecting sections can be tested.

Claims (4)

1. Network termination device for the ISDN base connection with a connecting line interface (U) to a local exchange (TVST) of the public integrated services digital network (ISDN) and several interfaces leading to terminals (S), which are also designed as a bus for several terminals, whereby A switching control and a coupling device for switching internal connections and for connections via the connecting line (AL) is provided within the network termination device, characterized in that a decentralized control device (STU, STS1 to STSn) is provided for each interface (U, S 1 to Sn). is provided, which are connected to one another and to a common control device (GST) via a processor bus (PB),
that a switching network controller (KST) is connected to the processor bus (PB), whereby the user and signaling channels (B, D) for internal connections of the terminal interfaces (S 1 to Sn) to each other and for connections to the connecting line (AL) within the coupling device ( KE) are produced,
that the failure of the local power supply (SV) is recognized by the common control device (GST) and then within the coupling device (KE) a dedicated connection between a terminal interface (z. B. S 1 ) and the connecting line (AL) is switched, whereby only the equipment that is absolutely necessary and only a predetermined end device (e.g. EG1.1) are supplied with power via the connecting cable (AL),
that a free-running clock generator (TG) is supplied in normal operation from the local power supply (SV), which supplies all devices with clocks,
and that only with connections via the connecting line (AL) synchronization with the clock of the subscriber exchange (TVST) is established. 2. Network termination device according to claim 1, characterized, that the synchronization to the beat of the Connection line (AL) within the Coupling device (KE) is made by one corresponding to the measured phase difference Delay time inserted in the connections becomes. 3. Network termination device according to claim 1, characterized, that from the local exchange (TVST) starting test connections with all Device interfaces can be set up, with the help of the control devices (GST, STS1 to STSn) within the coupling device (KE) Test loops formed and / or test connections being constructed. 4. Network termination device according to claim 1, characterized, that if the local power supply fails (SV) the conditions of emergency operation and the related ones necessary signaling complied with as well be like this with network termination facilities for which ISDN is standardized.