DE4005027A1 - Voice-band line signal reception in telecommunication exchange - preventing untimely disconnection of line with use of already available information on type of connection - Google Patents

Abstract

Line signalling frequencies arriving from a gp. coupler on a PCM multiplex line (SR) are recognised and processed by a receiver (CR) with a filter unit (FIL), interface (IF) and line sepn. switch (LTR) operated by control logic (STL). The circuitry prevents simulation of false line states by signals gaining access to neighbouring exchange positions. Connection-specific data existing or arriving in the exchange installation are utilised as a supplementary criterion for actual interruption of the transmission path (SR). ADVANTAGE - Disruption of line only when authentic line signals are present is guaranteed for all types of connections.

Description

The present invention relates to a method according to the preamble of the patent saying 1.

A switch operated in communication networks using this method System is known from CH-PS 6 51 163. When building connections between them Switching systems are signaling signals such as line signals and transfer register characters. The register characters are used during the the line characters, on the other hand, for seizing, triggering and blocking during the Ver connection establishment and connection clearing transferred. With inband signaling e.g. B. according to the CCITT signaling method No. 5 will be determined in the speech frequency Signaling frequencies in the range (six register characters - and two line characters frequencies) used, each in each switch involved in a connection be received by character recipients. In a time-division multiplex process switching system there is a sign for each multiple line receivers for line characters available when receiving them channel by channel Character controls a line separation point so that the connecting line in transmission direction separated for each channel and thereby preventing the Line signs get to the next exchange and there wrong line can pretend stands. The sign recipients are always on the Line switched on.

Not only are dial-up connections for the transmission of voice but also dial-up connections for the transmission of data. There is also committed connections, such as leased / leased lines, which are permanently assigned to a user are arranged. In the case of data connections, the transmitted data is also inevitable received by the line character receiver and for the presence of line characters examined. The character receivers are usually provided with voice protection, the a response of line character frequencies simulated by voice signals and thus an undesired disconnection of the connecting line in the call state prevents. For reasons of effort, this voice protection is usually for a continuous one Frequency spectrum, as is typical for speech signals, designed. For discrete frequency spectra, such as those used in voice band data transmission or in the transmission of test and measurement signals or useful signals appear on dedicated lines is one Voice protection is ineffective and should therefore be equipped with additional filters. The However, using additional filters places higher real-time requirements and means  cannot be solved, since here signals with any frequencies and frequency combination nations, especially those that correspond to line character frequencies, occur can.

The present invention is based on the Aufgae, a method of the beginning Specify the type specified for all types of connections in a communications network a disconnection of the line is only guaranteed if there are real line signs accomplishes. This task is solved with the measures according to the indicator of claim 1.

The solution according to the invention is based on those already available in the switching centers Information on the identification of existing special connection types such as Stand / leased lines, as well as on CCITT recommendation Q. 114, section 1.4 "Language digit or discriminating digit ", according to which in international telecommunications when setting up A connection should also be transmitted information that the parties involved Switching centers show what type of connection is. So in this recommendation lungs proposed, for example, data connection in CCITT signaling method No. 5 labeled with the "Discriminating digit 9". The invention uses this ver binding-specific information as an additional criterion for disconnecting the line when receiving line signs. This can lead to a break in the line Data connections and dedicated connections can be specifically prevented without to have to take special measures in the existing sign receivers. In particular especially with data connections, where the character receiver inevitably constantly to the Line must be switched on, there is no need for further measures to prevent an unwanted disconnection of the line.

Details of the invention are described below with reference to drawings, for example explained in more detail. It shows

Fig. 1 shows the concept of a processing groups in accordance with the prior art in various terminal scarf jointed switching system,

Fig. 2 shows details of a line interface circuit group in which the invention is applied,

FIGS. 3 and 4 details of the control of the line separating point.

In Fig. 1 is a block diagram of a switching system is shown in which reaches the invention for use. Such a switching system is described in detail in DE-OS 28 26 063. Details of the system are therefore only shown and explained here to the extent necessary in connection with the present invention. The system is divided into several connection circuit groups, of which the four groups LTGA. . . LTGD are shown. These form the interfaces between the various incoming and outgoing lines connected and the switching organs. It can be analog or digital subscriber lines ATL or DTL , analog or digital connecting lines AVL or DVL (such as PCM multiple lines). The connection circuit groups LTG are designed for the reception of signaling characters according to different signaling methods. Each of the connection circuit groups LTG has its own decentralized control unit, the message exchange between this and the central control unit CP of the switching system being carried out via a central switching network SN , via which the actual voice connection paths are also set up.

Details of the connection circuit group LTGD , which are important in connection with the invention, are shown in FIG. 2. Analog and digital lines can be connected to this connection circuit group. 30 analog lines are each connected to a multiple connection circuit DIU via a PCM multiplexer MUX with A / D converter. Digital lines from PCM 30/32 systems, on which the signals are already transmitted in the form of PCM words, are directly connected to assigned multiple connection circuits DIU . The connection circuits LTGD is generally used to connect lines on which, for example, the signaling method CCITT No. 5 is used. In this method, it is known that two out of six frequencies for register signaling and optionally one of two frequencies or both frequencies are emitted simultaneously for line signaling.

The multiple connection circuits DIU of the connection circuit group LTGD are, via a group coupler SPMX designed as a time channel coupler, leading multiplex lines to the switching network SN , which can be reached via an interface LIU , in some cases ver. In addition to the actual voice channels, the data channels used for exchanging messages with the central control unit CP also lead via these multiplex lines. All switching-related tasks are handled by the decentralized control unit GP of the connection circuit group LTGD in cooperation with the central control unit CP . These tasks essentially consist of receiving the incoming line and register characters and evaluating them over time and forwarding the received characters to the central control unit CP in a suitable form. In addition, at the command of the decentralized control unit GP , line and register characters are transmitted and audible tones are emitted via a character transmitter CE, which is also connected to the group coupler SPMX . The character transmitter CE contains the generators required for this, the characters being delivered in digital form, ie by means of stored PCM words. The central control unit CP essentially carries out the digit analysis and routing, it also takes over the route search in the interconnection network SN and controls the establishment of connections via the interconnection network SN .

The central control unit GP relieves the load on the central control unit CP by processing incoming switching information, such as line and register characters, and feeding the central control unit CP only the information in the form of messages that it needs as part of its task. The decentralized control unit GP also controls the interrogation of the lines connected to the connection circuit group LTGD , and also takes over the control of the group coupler SPMX , which is constructed as a one-stage, non -blocking time stage. The group coupler SPMX is connected via the interface LIU with the switching network SN, whereby the interface LIU another multi plexer SDM is connected upstream. The SDM multiplexer converts the 2 Mbit / s lines coming from the group coupler SPMX to an 8 Mbit / s line leading to the switching network SN . In the 2 Mbit / s time multiple connection lines between the group coupler SPMX and the multiplexer SDM , a character receiver CR and, if necessary, an echo suppressor ES is inserted. This is used to dampen the direction of reception when two terminals speak to each other (double-talk state), and to block the direction of transmission (further participant speaks). In the case of short echo delays, data transmission, etc., the echo lock is deactivated. The character receiver CR is a receiving device for line and register characters. Separate receivers for the line and register characters can also be provided. A character receiver CR and possibly an echo blocker ES are permanently assigned to each multiple connection circuit DIU , the character receiver CR being available for all channels (time slots) of a multiple line. The character receivers CR cause the channels in the multiple line assigned to them to be disconnected in a timely manner as soon as line characters arrive in a channel so that these line characters do not reach the next switching center and there incorrect line states (such as, for example, seizing, triggering) can deceive. The character receivers CR are able to receive digital information in the form of PCM words and to recognize whether these characters are line or register characters. Such a device - which works on the principle of digital filters - is described in detail in CH-PS 6 01 954 and in CH-PS 6 51 163. They must be able to recognize the signaling frequencies corresponding to the applied signaling method - eight of them in the CCITT No. 5 method -.

The basic structure of a character receiver CR with the control of a line separation point LTR is shown in FIG. 3. Line signaling frequencies arriving from the PCM multiple line SR coming from the group coupler SPMX are recognized and evaluated in the character receiver CR on the basis of their frequency and level. The character receiver CR consists of a filter unit FIL , an interface unit IF and the line separation point LTR which contains a control logic STL and the separating element TGL inserted into the PCM multiple line SR on the transmission side. This is controlled via the interface unit IF and the control logic STL in such a way that the relevant channel of the PCM multiple line SR is only separated in a timely manner if real line characters arrive. For this purpose, the interface unit IF supplies the control logic STL with a clock signal tt, a separation signal ts and a blocking signal ss . The clock signal tt is derived from the system clock clk and determines the time for the activation of the isolating element TGL . The separation signal ts contains the command to disconnect the line SR on the basis of line characters recognized in the filter unit FIL . The blocking signal ss prevents the line SR from being disconnected on the basis of information available in the exchange regarding certain types of connection, such as data connections or dedicated connections. It is generated by the decentralized control unit GP for each channel on the basis of corresponding information from the signaling or the central control unit CP . The regular exchange of information between the undersigned CR receiver and the remote control unit GP is about the connections Si and So instead.

Fig. 4 shows details of the control of the line separation point LTR . Via the line Si , the control logic STL, if necessary, the signal ss ("prevent line break") z. B. in the form of a bit and buffered there in a D-flip-flop for the duration of a channel of the transmission line SR and then entered in a channel-oriented memory SP . This memory SP has a storage space per channel for recording this information. The memory SP is addressed in the write cycle via lines Wa and in the read cycle via lines Ra . When reading out from the memory SP , each blocking information ss is linked channel by channel to the signal ts via an AND gate. The resulting information is read into a further D-flip-flop controlled by the clock signal tt and stored for the duration of the relevant channel. Thus, the connection line SR in the relevant channel is not disconnected in good time via the separator TGL formed here as an AND link when a blocking signal ss is present which characterizes a special type of connection.

Claims (2)

1. A method for a telecommunications system, in particular a telephone exchange with devices for receiving signaling signals which are in frequency in the voice band, in which, upon receipt of line characters, the transmission path is separated out as long as the line signals arrive at corresponding signal frequencies, and thus line characters are prevented can reach neighboring exchanges, characterized in that as an additional criterion for separating the transmission path in the switching system existing or arriving connection-specific information characterizing the type of connection is used. 2. The method according to claim 1, characterized in that the on The transmission path is only separated if not at the same time as the one appropriate line characters in the switching system there is information that the connection in question as a data connection or a dedicated connection indicates.