DE4343982C1 - Line connection system for digital telephone communication network - Google Patents

Abstract

A digital telephone exchange system (DIV) is connected (SL) to a number of subscriber units (SUB). The connecting lines can be twin wire cable or coaxial cable. Each subscriber unit has a mains interface (NT). The exchange unit has a digital bit rate generator (DBG) to provide test sequences, a monitoring stage for evaluation purposes and a control unit (CTR) to determine the maximum effective bit rate. The effective bit rate allows each subscriber connection to be used at its highest transmission rate capacity.

Description

The invention relates to a line network with participant Meran connecting lines for the transmission of digital signals between a digital switching device and one or several participants according to the preamble of claim ches 1.

As is well known, a telecommunications network has in the subscriber connection area over a connection line network, because of the already introduced two-wire or Koa nationwide xial connection lines and the associated proven Copper transmission technology compared to fiber optic transmission technology has considerable economic importance. Despite the transmission properties of copper cables, originally only for low-frequency transmission, for example for telephony or narrowband services, designed, the existing connection network is suitable also for the transmission of broadband services. For ver better use of the existing copper lines in the An end line network are for example ADSL (Asymmetrical Digital Subscriber Line) - and HDSL (High-bit rate Digital Subscriber Line) transmission systems for transmission bit rates of 1.5 Mbit / s and 2 Mbit / s used.

Such transmission systems are in the essay "Efficient Use of existing copper local access network ", from Wellhausen and Heuser, The Telecommunications Engineer, 47th year, Issues 8 and 9/1993 described. The access network extends between a digital exchange facility and the participants or their end devices. To the both ends of the respective subscriber line to Transmission of digital signals depending on the Narrowband and / or Broadband services associated transmission bit rates are located  a terminal and subscriber on the exchange side sided a network termination device.

An HDSL transmission is a bi-directional tional transmission of the same bit rates between the med the end device and the subscriber-side network termination device so that Dia log services with higher bit rates can be processed. The available for all subscribers in the subscriber access area Fixed bit rates have the disadvantage that they depending on the longest subscriber line be placed. That is the range of digital signal transmission limiting attenuation of the symmetrical double cores of Copper connection lines is namely directly proportional to Cable length. Therefore, those for a transfer of Digital signals of more broadband services are shorter Connection lines in the connection line network are not fully used be used.

It is from European patent application EP 0 039 191 A2 known to use digital data with different data rates ordinary telephone lines between a first computer and transfer to a second computer. With the bilateral transmission methods are digital transmission supply device test pattern in a transmission direction sent out a digital receiving device and from there in the other direction of transmission to digital transmission device returned and from a measuring device evaluates. A control device is provided that based on evaluation results for the transferred test pattern for the respective transmission line is the highest Defines transmission rate at maximum permissible error rate. The incoming and outgoing data signals are measured in a measurement with regard to the error rate  device evaluated before data transmission in the each other direction can be triggered.

The object of the present invention is that existing connection network of the type mentioned to design for the transmission of digital signals, that for the respective subscriber lines to the Ver a maximum usable transmission bit rate can be individually adjusted on the medium side.

This object is achieved by the features of patent claim 1 solved. Further developments of the invention are in the Unteran sayings.

The maximum usable bit rate for every participant end line can be switched on the exchange side with the help of Direction of transmission from the digital switching device to each participant sent out and in the receiving direction bit rate test patterns received from each participant determine. One ensures at the exit of the participant switch-on switched on direction for the direct forwarding of the bit rate Test pattern from the sending direction to the receiving direction. It can thus different bit rates to the participants, the depending on the bit rate Test pattern recognizable transmission properties of the individual subscriber lines individually can be placed without binding to the longest subscriber line line can be set flexibly.

An embodiment of the invention is shown in a figure shown in a block diagram a participant connecting line of the connecting line network between a digital switching device and a subscriber shows.  

The connection line network extends between the digita len switching center DIV and several participants, from which a subscriber SUB exemplifies for all subscribers is shown. The block diagram of the subscriber SUB and the switching device DIV contain only those for the invention essential facilities. The connecting line tion network points to the connection of the subscriber SUB with the Switching device DIV a subscriber line SL on. The subscriber line SL consists of a symmetrical two-wire connection cable or one Coaxial connection line for digital signal transmission in one Direction of transmission from the digital switching device DIV to subscriber SUB and in a receiving direction from subscriber mer SUB to the digital exchange DIV.

Each subscriber line in the access network is on their subscriber ends by a network closing device NT and on the exchange side by an end facility LE completed. The termination facilities ver add depending on the direction of transmission via multiplex or Demultiplexing devices, via clock supply devices supply, as well as for the synchronization of the transmission frame for the digital signals and other devices that are used for the digital signal transmission depends on the respective over transfer procedures are required. In addition, in the termination facilities transmitting or receiving facilities for unidirectional or bidirectional transmission of digital signals gnale associated transmission bit rate over the respective Subscriber line SL provided.  

The exchange-side terminal LE is in Senderich via an SSI input interface and in the receive direction via an output interface SEO to another Trunk network, for example a local loop Line network or long-distance network, switched on. There also exists for the subscriber SUB to an interface connection the connected device or devices via a associated SSO output interface in transmission direction and an associated input interface SEI in the receiving direction tung. The respective interfaces SSI, SEO, SSO and SEI are for those on the subscriber line SL transferable bit rates of the services provided sets.

For the best possible use of already in the connection network Existing investments are shown by the placement agency DIV a digital bit rate generator DBG and a measuring device BRA on. The bit rate generator DBG takes care of the generation of bit rate test patterns that are in the transmission direction over the Transfer subscriber line SL to subscriber SUB be while the measuring device BRA for evaluating the corresponding bit rate test pattern is used in the Receive direction over the subscriber line SL over will be worn and in the switching center DIV again arrive. The one output by the bit rate generator DBG Bit rate test pattern of associated bit rate runs through you turned on the output of the bit rate generator DBG, in Variably adjustable modulator VM arranged in the transmission path. The transmission signal of the modulator VM generated on the output side becomes from the terminal LE to the subscriber line SL switched through.

The one that arrives at the SUB after the transmission Transmission signal is after passing through the network termination device NT forwarded to the SSO output interface. For investigation the maximum usable bit rate for the participants Final line SL is the incoming transmission signal at the off gang of the network termination device NT through a circuit  device TU to the intended for the receiving direction Branch interface SEI of the subscriber SUB branches. The loops caused by the switching device TU education in subscriber SUB leads to that in Senderich device received transmission signal from the network termination device NT of the subscriber SUB in the receiving direction to the part subscriber line SL delivered and to the terminal LE retransmitted to the digital switching device DIV becomes.

The respective bit rate test pattern runs through one in the Em pangsweg the switching device DIV arranged varia adjustable demodulator VD, which it to the measuring device device BRA for evaluation. The evaluation can based on the bit error rate, d. H. based on the ratio of the incorrectly transmitted bits to the number of total transmitted bits per unit of time. Other possible an assessment of the transmission technology quality the subscriber line SL does the measurement the signal runtime or the availability of the participants connecting cable during transmission. The latter can be based on the number of seconds recorded with Over disturbed quality of wear, for example, frequency-dependent Near-end crosstalk or be determined by impulse disturbances.

The switching device DIV has a control device device CTR for setting the modulator VM and the demodula tors VD and for controlling the bit generator DBG and the Measuring device BRA on. The control device CTR initiates the provision of the respective bit rate test pattern different bit rates for each in the access network existing subscriber line. In dependency of resulting at the different bit rates Evaluation results of the measuring device BRA is from the Kon control device CTR the maximum usable bit rate for the Subscriber line SL determined and the terminal LE of the exchange DIV and the network termination  direction NT for digital signal transmission at the maximum usable bit rate is preset accordingly.

The configuration of the preferably adaptive ones Terminations at the two ends of each Subscriber connection line is based on data information tions stored in the closure facilities. The termination devices can be opened in this way, for example builds that for the different bit rates accordingly trained sub-facilities depending on the evaluation result can be activated by the control device CTR. The Use of different transmission methods - for example as baseband or bandpass transmission method - for Transmission of the bit rate test patterns of different Bitra ten remains unaffected.

Thus, depending on the length of the part, the respective participant can subscriber connection line in the existing connection line network and depending on the transmission properties of the Subscriber line the maximum usable bit rate indi to be allocated vidually. By dispensing with fixed bits guess by the longest subscriber line more broadband services - e.g. B. Video access, teleshopping, distance learning etc. or interactive Services - with the nationwide investment in Form of two-wire or coaxial connection lines to the Participants. This advantage is reinforced Adhesive effect when coding the data to be transmitted Digital signals the asynchronous transmission method ATM (Asynchronous Transfer Mode) is used.

Claims (5)

1. Connection line network with subscriber lines (SL) for the transmission of digital signals between a digital switching device (DIV) and one or more participants (SUB) and with a switching end device (LE) for completing the subscriber line (SL) at the digital switching device ( DIV) and a subscriber-side network termination device (NT) for the termination of the subscriber line (SL) at the subscriber (SUB), characterized in that
that the switching device (DIV) a digital bit rate generator (DBG) for generating bit rate test patterns of associated transmission bit rates, which are transmitted in a transmission direction from the switching device (DIV) to the subscriber (SUB) via the respective subscriber line (SL), and a measuring device (BRA) for evaluating the corresponding bit rate test patterns which are transmitted in a receiving direction from the subscriber (SUB) to the switching device (DIV) via the respective subscriber line,
that a control device (CTR) is connected to the bit rate generator (DBG) and the evaluation device (BRA), from which, depending on the evaluation results of the measuring device (BRA), the maximum usable bit rate for each subscriber line (SL) is determined individually and the switching side Terminal device (LE) and the subscriber-side network termination device (NT) for the signal transmission can be set with the maximum usable bit rate, and that at the output of the subscriber-side network termination device (NT) a switching device (TU) for immediate forwarding of the bit rate test pattern from the transmitter direction in the receiving direction is switched on. 2. Access network according to claim 1, characterized, that the bit rate test arriving in the receiving direction pattern from the measuring device (BRA) in relation to bit errors frequency and / or duration are evaluated. 3. Connection line network according to claim 1 or 2, characterized, that the exchange-side terminal (LE) and the part subscriber-side network termination device (NT) with interfaces SSI, SEO, SSO, SEI) for coupling to another network or to connected terminals of the subscriber (SUB) are. 4. Access network according to one of the preceding claims che, characterized, that the exchange-side terminal (LE) and the part subscriber-side network termination device (NT) on the lines the subscriber line (SL) is adaptive are. 5. Access network according to one of the preceding claims che, characterized, that in the digital switching device (DIV) a Modu lator (VM) in the transmission path and a demodulator (VD) in the reception are arranged away, each from the control device (CTR) are variably adjustable.