DE3823925A1 - ARRANGEMENT FOR TESTING PERIPHERAL CONNECTION ASSEMBLIES OF A COMMUNICATION SYSTEM - Google Patents

Abstract

A testing device in each case has a simulation device which simulates characteristics of connectable terminals, a switching network to connect the same to the peripheral connection modules and a switching control device which serves to control the simulation device and the switching network and which, for testing purposes, is connected along with a central processor controller of the communications system via an interface to a peripheral computer. <IMAGE>

Description

Modern communication systems generally enable the Connection of analog and also digital end devices, which also under can be assigned to different communication services. No ben a central processor control that over a system Database, these communication systems are peripheral re connection modules based on the type and function of the closing units are adapted. One differentiates at for example connection modules for analogue telephone devices, digital telephone devices, digital data devices and connection assemblies for trunk lines and for cross-connection lines.

For checking the proper functioning of the peripheral an final modules are corresponding terminals to the connection modules switched on and then the individual ports of the An end modules compared to the other ports both the same Connection module and other connection modules checked.

The object underlying the invention is a To create a test arrangement when switching on several End devices to the connection modules can be dispensed with and which is an uncomplicated, flexible adaptation to the differ Chen equipment of such communication systems. This is achieved according to the invention by an arrangement for Check peripheral (connection) modules for connection ana loger or digital devices or connecting lines one with a digital switching matrix and one with one System database have central processor control  permitted communication system by means of a test device, one of the properties of analog or digital devices simulating simulation device, a coupling network to Switch on the simulation device to the peripheral building groups or for connecting the analogue terminals arranged assemblies with each other and / or with the connection cable lines assigned connector assemblies and one of the Control of the simulation device and the coupling network serving switching control device, which according to a Control program one via an interface to each Switch control device and to the central processor control connected computer is controlled.

In the arrangement provided within the scope of the arrangement according to the invention Test equipment are typical signals and states of Endge advised with a simulation facility and according to that from the computer to the test facility test program activated. For example, an in the test device provided ring tone generator switched on be or switching the frequency of a generator he consequences. Further activations in the simulation facility switch line resistances simulating terminating resistors effective. The assignment of the individual simulations, i.e. from Signals or levels, takes place via the coupling network, the at the same time the connection of the individual ports groups to the simulation facility. This connection is preferably carried out via two line wires to which accordingly both the simulation device and the individual ports the connection modules can be connected.

Another significant advantage of the arrangement according to the invention The control of the test facility by the ex remote computer, whose resources are used in the usual way can be. Through the additional connection of the computer to the central processor or its system database  can select additional criteria necessary for individual exams the communication system to be tested in the test process be drawn. In this context it should be considered advantageous see that the respective test results, which are due to the Structure and mode of operation of the communication system to be checked stems on results registered in the system database lead as corresponding test results from the system data base can be transferred to the computer. Another advantageous embodiment of the invention takes into account the system conditions in that the communication system imma System security control during the test phase ineffective sam is switched. This ensures that automatic mis suppression mechanisms, e.g. determine the blocking outgoing line connections are prevented.

The most extensive shift of the actual logical tax Operations in the external computer allows easy Design of the test device, in particular such that le only passive switching elements and no processor controls be used. In this context it is provided that the switching control device has a setting control, the control information of the computer in setting information for switching elements of the coupling network and the simulation implemented directions. These switching elements can, for example be realized by relays.

A clear structuring of the coupling network and in particular an increase in the speed of work of the test device, which essentially depends on the switching times of the cop pelnetzwerkes depends on the coupling network is divided in two such that the one network part Connection of the ports assigned to the digital devices Connection modules and the other network part connecting the Ports of the connection module assigned to the analog terminals pen serves.  

There is also an acceleration of the test procedures through possible that a port of a connection module against all ports of another connection module in the same Switching position of the coupling network is checked.

The invention is described below with reference to one in two figures illustrated embodiment explained. Show:

Fig. 1 is an overview diagram of the essential components of the test arrangement and

Fig. 2 shows the basic structure of the test device set in the test arrangement.

The test arrangement shown in FIG. 1 comprises, as an essential component, a communication system KS which represents the actual test object, a test device PE and a computer PC . The communication system KS has a modular structure, the modules assigned to central functions being arranged in the lower area and the modules with peripheral connection modules in the upper module area of the communication system KS . In addition to a power supply unit NT, the modules that are assigned to central functions include a central control processor DP with the associated system database, a module with at least one input / output processor for connection control between the central processor DP and connection modules, and a digital switching matrix module MTS and a central sound and signaling detection and generation device SIU . In the illustrated embodiment, the communication system KS includes certain similar each peripheral port modules that the terminal analog telephone terminals - SLMA - the connecting digital telephone terminals - SLMB - or the terminal of Amtsleitun gen - TMB - serve.

The test device PE contains as essential components ne ben a power supply PS, a coupling network CN, a simu lationseinrichtung SIM and both the coupling network CN as the simulation means SIM also controlled switching control device CONT.

The communication system KS and the test device PE are connected via one or more connecting cables with wires AL 1 . . . ALn connected to the individual ports of the peripheral connection modules TMB , SLMA , SLMB .

The loaded with the actual test software SW computer PC is connected via a data interface - DS - with the communication system KS , ie with the central processor DP . Another data connection exists via a data interface SS with the switching control device CONT of the test device PE . Adjustment commands are successively issued to the test device PE via the latter interface SS in accordance with the test software SW . As a result of the check, there are state changes in the system database assigned to the central processor DP and are transferred to the computer PC via the data interface SS . To display and register test and error messages, the computer PC is connected to a monitor MO and a printer DR .

The section of the test device PE shown in FIG. 2 of FIG. 1 essentially comprises the Schalt-Steuereinrich device as well as the simulation device and the coupling network. The switching control device comprises a control device SE , which is connected via an 8-bit input bus E 1 . . . E 8 is controlled by the computer - PC , Fig. 1. The control device SE converts the input information into control addresses which are transmitted via an output bus A 0 . . . A 6 to two switching devices SE 1 , SE 2 and to the simulation device SIM , SIM-S , SIM-E transmitted who. Further setting lines E , F , R are used for switching or switching off - line E - of relays marked by switching devices SE 1 , SE 2 . Via the line R the test is device in the idle state - Idle State - offset currency rend over the line F release - release - the system he follows.

In the present exemplary embodiment, the simulation device SIM comprises a simulation control device SIM-S and a simulation switching device SIM-E , whereby a total of 16 simulations can be connected to the coupling network.

By means of a relay S 0 , for example, a tone generator representing an integral part of the test device is connected via a contact s 0 to a simulation connection ring / tip.

A 12 kHz / 16 kHz generator is switched by means of a relay S 1 . The Ses generator is switched from 16 kHz to 12 kHz by means of a relay S 2 .

With relay S 3 . . . S 8 , terminating resistors and earth potential are connected to the simulation connection ring / tip.

The switching device SE 1 essentially serves to connect subscriber line modules SLMB for digital terminals to a first coupling network part KN 1 or to the simulation ring / tip. With the help of relay D 0 . . . D 63 the individual ports of a total of eight subscriber line modules SLMB are connected to the simulation connection ring / tip.

A second coupling network part KN 2 is used to connect the subscriber line modules SLMA for analog terminals and the line line modules TMB . The assigned switching device SE 2 controls relay U 0 . . . U 15 , with which a switch from the ring connection to the tip connection of the simulation connection is carried out and in the opposite direction. Relay T 0 . . . T 15 are used to connect the TMB line connection modules , while relay R 0 . . . R 63 serve to connect the ports of the subscriber line modules SLMA . Relay N 0 . . . N 15, the connection of individual simulations to the coupling network part KN 2 .

The respective current settings are shown by the control device SE on a display DIS .

Claims (5)

1. Arrangement for testing peripheral (connection) modules ( SLMA , SLMB , TMB ) for connecting analog or digital end devices or connecting lines with a digital switching matrix ( MTS ) and a system database have the central processor control ( DP ) equipped communication system ( KS ) by means of a test device ( PE ), the ei ne properties of the analog or digital devices after simulating device ( SIM ), a coupling network ( KN ) for switching on the simulation device ( SIM ) to the peripheral connection modules ( SLMA, SLMB, TMB ) or for connecting the connection modules ( SLMA ) assigned to the analog terminals to one another and / or to the connection modules ( TMB ) assigned to the connecting lines and one of the controls for the simulation device ( SIM ) and the coupling network ( KN ) Switching control device ( CONT ), which according to a control program ( SW ) one via an interface ( DS, SS ) to the switching control device ( CONT ) and to the central processor controller ( DP ) of the communication system ( KS ) connected computer ( PC ) is controlled. 2. Arrangement according to claim 1, characterized in that the switching control device ( CONT ) has a setting control ( SE ), the control information of the computer ( PC ) in setting information for switching elements of the coupling network ( KN 1 , KN 2 ) and the simulation device ( SIM ) implements. 3. Arrangement according to claim 1 or 2, characterized in that the coupling network ( KN ) is divided in two such that the egg ne network part ( KN 1 ) the connection of the ports of the connection devices assigned to the digital terminals ( SLMB ) and the other network part ( KN 2 ) serves to connect the ports of the connection modules ( SLMA ) assigned to the analog terminals. 4. A method for operating the arrangement according to one of claims 1 to 3, characterized in that control program data from the computer ( PC ) both to the central processor controller ( DP ) and to the switching control device ( CONT ) are delivered and the the respective test results are transferred from the system database to the computer ( PC ). 5. The method according to claim 4, characterized in that a system security control inherent in the communication system ( KS ) is deactivated during the test phase.