CH662459A5 - METHOD FOR TESTING THE LABEL CONVERTER MULTIPLEXER IN A PCM TRANSMISSION ROUTE, AND TEST ARRANGEMENT FOR CARRYING OUT THE METHOD. - Google Patents

Description

The present invention relates to a method for testing the license plate converter multiplexer in a PCM transmission link according to the preamble of claim 1 and a test arrangement for performing the method.

Modern fully digital switching systems are characterized by a simple modular division into peripheral line connection groups (Line Trunk Group), switching network and the Coordination Processor. Such an electronic dialing system is known, for example, from the magazine "telcom repor 4 (1981) - Supplement to digital switching system EWSD", p. 28 (28-32). Such a system clearly enables the individual system components to be simply wired to one another, since there is only a single point-to-point connection between each line connection group and the switching network. Such fully digital switching systems, however, often have to work with analog centers. For this purpose, special license plate converter multiplexers are used, which allow the connection of the analog exchanges or the analog lines to the PCM connections of the digital exchanges. Such number plate converter multiplexers are known, for example, from the book “New PCM Measuring Devices” by Prof. J. Sommer, Schiele & Schön GmbH, Berlin, page 43. The known systems do not yet meet the need to check the correct functioning of the license plate converters and multiplexers required for preventive and corrective maintenance, provided they do not have automatic test facilities (director / responder) (cf.ATME2 according to CCITT, Fase. IV.4.0.22, 1981, pp. 7 to 22).

It is therefore an object of the invention to provide a method with which it is possible to test the correct functioning of the number plate converters and multiplexers for the purpose of preventive and corrective maintenance, and to provide a test arrangement for carrying out the method. This object is achieved according to the invention by the method specified in claim 1 and by the test arrangement specified in claim 3. Such a method advantageously makes it possible to test a number plate converter multiplexer connected to a PCM link from a digital switching center.

Advantageous embodiments of the invention are specified in further claims.

The invention is explained in more detail below by describing exemplary embodiments with reference to drawings. It shows:

Fig. 1, 2, 3 the schematic representation of various possible connections between digital and analog exchanges and

Fig. 4 is a schematic representation of an arrangement with a license plate converter multiplexer unit for explaining the inventive method.

In Fig. 1, an analog switching center AV is shown, which is connected on the connection side via a number n of analog connecting lines in each case to the corresponding connections of a number of indicator converter multiplexers KM1,... KMN, the PCM outputs of which are each via individual PCM lines pl,. .. pN is connected to the PCM interfaces of a digital switching part VST.

The N identifier converter multiplexers KM1, ... KMN (FIG. 1) form the identifier converter multiplexer unit KME.

In Fig. 2, a PCM path is shown, which can consist of one or more series connections of an n-fold short analog line, a code converter multiplexer unit KMA and a long PCM line, optionally provided with regenerators and / or equalizers, and the one Analog switching center AVL connects to the PCM interface of a digital switching center DV.

FIG. 3 shows a digital switching center DV1 which is connected to the PCM interface of a digital remote station DV2 via the series connection of a number converter multiplexer unit KMC, an n-fold analog connecting line and a number converter multiplexer unit KMD.

The operation of the identifier converter multiplexer in such connections between analog and digital exchanges is known per se and is therefore not described in detail.

The identifier converter multiplexer unit KME according to FIG. 4 comprises N individual identifier multiplexers KM1, KM2, ... KMN, each with n test component circuits PT11, ... PTln, PT21, ... PT2n, ... PTN1, .. 4, only a part PT111 for one wire of the test circuit PT11 is shown in FIG. The test subcircuits PT11, ... PTln form a test connection PAI, the test subcircuits PT2, ... PT2n a test connection PA2 etc. The unit KME also has a test device PE and a control circuit ST, which are connected to one another. The test subcircuit PT11 has one wire, e.g. AI 11, a switch U and a switch S on. The changeover switch U can be used to connect a connection of the circuit KM1 either to the wire AI 11 of the analog line Lll (changeover switch U in position 1) or to a connection of the test device PE (changeover switch in position 2).

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The Alll wire can also be connected via the switch S to a further connection of the test device PE. Since a line has a number of m wires, the switch S and the changeover switch U are each equipped with m individual contacts that switch simultaneously. Position 2 of the changeover switch U is connected to so-called wiring multiples PI, P2, to which the other test connections PA2,..., Not shown in FIG. 4, are also connected accordingly. The line between the switch S and the test device PE is connected to further wiring multiples Q1, Q2, to which the other test connections PA2,..., Not shown in FIG. 4, are also connected accordingly. The n analog-side connections of a license plate converter multiplexer, e.g. KM1, are connected to the corresponding connections of a test connection, e.g. PAI, connected. Each test interface has n m-fold switch U and switch S, whereby the control circuit ST can control the switch U and the switch S of a test interface independently.

For security reasons, at least two of the N number plate converter multiplexers KM1, KM2, ... KMN of the KME unit are to be used, e.g. KMJ, KMN selected, which are connected via connections BJ and BN to the control circuit ST. Control data can be exchanged between the elements KMJ or KMN and ST via one of these connections BJ or BN.

In the switching center VST there are line connection groups LG1, ... LGJ, ... LGN, which on the one hand each have a PCM line PL1, ... PLJ, ... PLN, each with a digital connection of a number plate converter multiplexer KM1, ... KMJ, ... KMN, and on the other hand are connected to a switching network SN. The switching center VST also includes a line connection group LG with an integrated automatic test device ATE. This line connection group LG can either exchange control data with the control circuit ST via the switching network SN, the line connection group LGJ and the identifier converter multiplexer KMJ or via the switching network SN, the line connection group LGN and the identifier converter multiplexer KMN. The test device ATE is operated via an operating point BS.

4 works as follows:

The control signals come from the test device ATE via a control channel BN carried over the elements LG, LGN, the PCM line PLN and the identifier converter multiplexer KMN or via a control channel via the elements ATE, LG, LGJ, the PCM line PLJ and the identifier set -zer-multiplexer KMJ guided control channel BJ to the control circuit ST.

According to the CCITT standards (Fase. III.3 - Ree. G 732)

662 459

some bits unused in the superframe message word of the 16th and in the frame message word of the 0th time slot. When testing the identifier converter multiplexers, one or more of these bits can preferably be used to form these control channels in the PCM line PLJ or PLN. The two license plate converter multiplexers KMJ, KMN otherwise work completely normally with the connected exchanges.

Control signals from the test device ATE to the control circuit ST / test device PE and vice versa are transmitted in stages by one of the control channels defined above. This control information is, for example, addresses, test program instructions, test parameters (e.g. damping values) and test results. In particular, the control channel causes the control circuit ST to actuate the changeover switches U and the switches S of a specific test subcircuit. For example, the changeover switch U 1 can be switched from position 1 to position 2, the switch SP remaining closed. A connection is established between the element ATE / LG and the corresponding PCM channel via the coupling network SN, which was connected on the analog side to the test device PE by the changeover switch U (item 2). A bi-directional test path is thus established between the test device PE and the automatic test device ATE via the element KM1, the PCM line PL1, the line connection group LG1 and the switching network SN, the test device PE being used both as a controlling device (director) and as a controlled device ( Responder) can work. A second connection that can be established independently of this between the analog line LI 1 and the test device PE via the closed switches SQ and S can be used, for example, to send a blocking signal to the analog line Lll or to set up a further test path together with the upstream analog switching center. The switches SP and SQ of other groups of test connections connected in parallel are switched off during this test in order to decouple the wiring multiples from capacitive influences. On the analog side, the various test paths that are to be tested can be switched on one after the other via the control channel. After connecting a test path, the desired test signals can be transmitted and evaluated bidirectionally via it.

Instead of the control channel mentioned above, a normal voice channel can also be used. This would eliminate the connections BJ and BN and replace them with an analog line like Sk in FIG. 4. As a further variant, a control channel from a dedicated line between the elements ATE and ST is conceivable.

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1 sheet of drawings

Claims (5)

662 459 1. A method for testing the license plate converter multiplexer in a PCM transmission path which is connected to a switching network (SN) via at least one line connection group (LGN), characterized in that a test device (ATE) is connected to one via it Line connection group (LG) control signals are transmitted to a PCM transmission channel which is switched by the switching network (SN) and operates as a control channel, and that these control signals provide a test path via a connection to be tested by a license plate converter multiplexer and the PCM line forming connection between a test device (PE) and the test device (ATE) is established. 2. The method according to claim 1, characterized in that the control channel is formed by the free bits according to the CCITT standards of the frame message word of the zeroth and / or the super frame message word of the sixteenth time slot. 2nd PATENT CLAIMS 3. Test arrangement for carrying out the method according to claim I or 2, characterized in that the test arrangement comprises a control circuit (ST) connected to the test device (PE) and at least one test connection with switches (U) controllable by the control circuit (ST) and one Indicator converter multiplexer (MK1), the analog connections of which are connected to one of the changeover switches (U), which can be controlled by the control circuit (ST) in such a way that in each case one test path by connecting an arbitrarily selectable individual analog line to the analog connection assigned to it License plate converter multiple xers (KM1) can be switched on. 4. Test arrangement according to claim 3, characterized in that the control circuit (ST) can be controlled via one of any two predetermined number plate converter multiplexers (KMJ or KMN). 5. Test arrangement according to claim 3 or 4, characterized in that between the test device (PE) and the test device (ATE) a bidirectional test path can be set up via the control channel.