DE2460289A1 - Telephone monitoring using centralised and decentralised circuits - provides continuous check on operating conditions in address and instruction lines - Google Patents

Abstract

An arrangement for the monitoring and testing of a telephone exchange system is based upon a centralised switching unit and decentralised circuits. The system consists of a central control unit with multi-cable address lines and instruction lines. The central test circuits consisting of a checking register alarm register and current indicators are coupled over monitoring line with the central control circuits. The decentralised monitoring circuits consists of an address decoder, order decoder, fuse, check circuit and monostable current indicator.

Description

Data processing system, in particular telephone switching system The invention relates to a data processing system, in particular a telephone switching system central and decentralized facilities that are equipped with test circuits and via sa: umelschienen-like lines with the central facilities are connected and can be specifically controlled via these lines.

As is well known, a centrally controlled communication system is hierarchical constructed, which means that facilities of various types in several Functional levels are classified. Facilities that are fully centralized or

are arranged in a partially centralized manner, must in the interests of functionality of a switching system can either be present several times or mutually can help out.

At the functional level, in which partially centralized institutions are grouped together are, such facilities are now arranged that to a certain extent tasks from failed similar facilities at the same level can. The takeover of tasks from neighboring facilities is carried out by additional switching facilities that are assigned to the relevant functional level.

Such replacement switching devices are therefore of particular importance in terms of their reliability. It is therefore necessary to ensure that it is functional this equivalent switching device on particularly simple, thus reliable and zeitspsrenc1.'e Ait check z. In addition, it is in the interests of a quick Localization of failed replacement switching devices> mnschen, swert, corresponding Data at a central point, i.e. in a facility of the higher functional level to receive and register, it is also necessary to have an equivalent switching device in the event of a malfunction, against assignment for the execution of a substitute switching order automatically to lock.

In the German Auslegeschrift 1 932 614 a test device for determining a multiple selection of processing units in a data processing system described. This testing device, which is individual for each processing unit is provided, has to determine after each selection process whether additionally one or more for the (correctly or incorrectly) controlled processing unit further processing units have also been selected.

The test device described is therefore intended to be a "1 out of n" control after a selection process. In the case of multiple selection of such processing units, the information to a central control unit via a direct line system be able to transmit or receive from this, an identification signal for a occurred Multiple selections can be generated.

For maintenance and testing purposes, the correctly or incorrectly selected, a bistable switch is set.

With such a test arrangement there is certainly the occurrence of multiple selections to recognize. However, it is not easily possible to make the wrong trip with to identify controlled processing unit (s). That means that the Narrowing down the source of the error may be relatively time-consuming is what in the case of central or central facilities of a data processing system, in particular in real-time systems such as those used for telephone exchanges, can lead to serious malfunctions.

The present invention is based on the object of data processing Systems, in particular telephone switching systems to be designed in such a way that a Time-saving error localization enables in the case of multiple selection processes is. In addition, the invention is intended to provide constant monitoring of the operational readiness of the selectable facilities. After all, it is in terms of the high level of reliability that equipment in telephone switching systems has it is expected, wWnsehens * rert, that in a more reliable and economically justifiable manner Way, important parts of the monitoring arrangement are checked for their part., The present The invention provides a data processing system, in particular a telephone switching system, with centralized and decentralized facilities equipped with test circuits are and via busbar-like lines with the central facilities are connected and can be specifically controlled via these lines is characterized in that decentralized devices in addition to addressing lines and command lines via individual message lines with a central facility are connected that via the individual message lines signals that indicate the operating states show the decentralized facilities that are being delivered to the central facility, that after the control of a decentralized device the operating status of this Device indicating signal on the corresponding individual message line an acknowledgment signal is superimposed that the decentralized device by a corresponding supplemented control signal is initiated, that their operating 7t1s - '; and pending signal to change temporarily and that operating status changes by the relevant overhaul arrangements are recorded.

A development of the invention is characterized in that for temporary change in the operating status of the decentralized facility supplemented control signal to block them by switching off and another accordingly supplemented control signal is supplied to unlock them by connecting them.

The invention offers the advantage that in addition to monitoring all Selection processes for decentralized facilities - constant monitoring of operational readiness the individual decentralized facilities is enabled, - one or more decentralized Facilities can be specifically blocked or unblocked and thereby - a monitoring the test circuits can be carried out.

This advantage is due to a particularly simple and reliable Arrangement given.

A development of the invention is characterized in that the The signal indicating the operating status of the decentralized facility is present Operational readiness through a quiescent current and in the event of non-operational readiness by switching off this quiescent current is given that the existing operational readiness a decentralized device indicating quiescent current via a test loop into the corresponding individual reporting lines that flow to the individual reporting lines in the central device flow indicators are assigned and that the the Existing operational readiness indicating quiescent current when activated superimposed Acknowledgment signal is given by increasing the quiescent current.

Another development of the invention is given by that the test loop in the discreet devices from a series connection several individual test loops with one assigned to the decentralized facility Fuse, a monostable current indicator R, the associated individual message line and the associated current indicator J is that the test loop is unilateral with one pole of an operating voltage source is connected and that by connecting the Current indicator J at ground potential when operational readiness is a closed circuit closed is.

The further embodiment of the invention results in the following Advantages: - no routine check of the decentralized facilities necessary, thus relieving the central facility - when the contact is opened, failure of disk completeness, backup or acknowledgment line takes place because of the applied Closed current principle - an automatic message to the central facility - through Individual acknowledgment signal via the individual message line results in an automatic one Control with simultaneous monitoring of - addressing lines - address decoder the relevant decentralized facility - disk completeness - backup - Power supply - -individual reporting line.

Finally, the invention is further developed in that when there is an interruption the Pn'ifschleife, failure of the fuse, disconnection of the operating voltage source, Interruption of the associated individual message line or earth fault of this individual Message line of the associated current indicator J an alarm signal via an assigned to it Alarm line to an alarm recorder issues that the associated individual Current indicator R reacts to failure of the quiescent current that is influenced by it Switching means an address decoder assigned to the decentralized facility and a Command decoder switched off; 1el that when a decentralized alarm is triggered in this state there is no acknowledgment signal from the address decoder via the individual Message line to the address acknowledgment input of an acknowledgment registration device assigned to it the decentralized facility can arrive and that the command decoder is in this state not to any kind of signals that are transmitted with the command lines can respond.

Another development of the invention is characterized in that that a "1 off" in the acknowledgment registration device after each activation process n "- and identity control of the expected acknowledgment signal is carried out and that in the event of an error, the central control unit via a message line system from the Acknowledgment registration device and / or the alarm registration device initiated will handle an error localization program.

These developments of the invention are advantageous in that if the decentralized facility is not ready for operation, the command reception is blocked is carried out, - the blocking of the recording of commands when operational readiness has resumed is automatically canceled, - automatically when operational readiness is restored a good report is sent to the central facility, - thereby a storage the operating status of decentralized facilities at a central point is not required is, - as a result, the operational readiness of the decentralized facilities is not through a failure of the central facility can be influenced and - as a result, after restart an unadulterated overview of a central facility that has been disturbed the Operational readiness of the decentralized facilities through collective addressing is to be won, since all functional decentralized facilities always have one Submit "good" message.

It is also advantageous that by deliberately decommissioning decentralized facilities the possibility exists, except for defects in the decentralized Facilities also to locate those in the addressing lines and command lines.

In the following an embodiment of the invention is based on the Figure explained.

The figure is the hierarchical structure of a data processing system with central and decentralized facilities, as well as the connection of the facilities to escape. The following details are shown: - Central control unit ZST - central replacement switching device ESE with - receipt registration device QR, - Alarm registration device AR and - n current indicators J1 .., Jn - n decentralized Replacement switching parts EST1 ... ESTn with - address decoder A, - command decoder B, - fuse Si, - test loop PS and - monostable current indicator R with those influenced by it Switching means rl, .r2 - busbar-like addressing lines LA - Busbar-like command lines LB - n individual message lines Q1 ... Qn - central message line system LM.

As shown in detail for the decentralized facility EST1, is one pole of the operating voltage source UB via a series circuit, consisting from the individual fuse Si, that from several individual loops interconnected Test loop PS and the winding of a relay R, which has the task of a monostable Stromindikators walirnnahm, with the individually assigned to the decentralized facility Message line Q1 connected.

The formation of test loops by connecting several individual loops in series - e.g. of pluggable assemblies in modular devices - with fuse and operating voltage source is a known method for monitoring operational readiness such devices. Incidentally, it is already used in classic switching technology applied (see: Emanuel Bettwig: '' Fernsprç? chwählanlagen'l 4th edition , Verlag R. Oldenbourg, Munich 1952., page 132 middle l'E: igensperrung ").

This individual reporting line is in the central facility ESE connected to a current indicator J1 assigned to it, which in turn is connected to earth potential is laid. Address decoder A and command decoder B, each with the corresponding address and command decoders of all other decentralized facilities EST via the addressing lines LA and command lines LB are connected can be switched on or off in each case by the switching means r1 and r2. The dashed The contact springs shown indicate that the contacts are normally closed are.

The series connection of fuse Si, test loop PS, current indicator R, individual message line Q1 and current indicator Jl results in a closed circuit, over 'the two poles UB and ground of the operating voltage source, not shown closed is. As a rule, this should allow as much current to flow through the two current indicators R and J1 flow on that one hand the two switching means r1 and r2 assume the position shown in dashed lines and on the other hand no alarm signal can reach the alarm registration device AR via the alarm line AL1. Of the Address acknowledgment input AQ1 in the acknowledgment registration device QR is on the other hand not influenced by the quiescent current that flows over the individual message line Q1, because a threshold is built in here.

Current can only flow through the address acknowledgment input if if a current is superimposed on the quiescent current as an addressing acknowledgment signal.

The following list gives an overview of the theoretically possible Cases that occur in operation or during test procedures for each of the n decentralized facilities may occur.

AD AQ AL Case a): O 0 O (normal case) Case b): 1 1 0 (normal case) case c): 1 1 1 (test case) impact d): 0 0 1 (error case) case e): 1 0 0 (error case) case f): o 1 0 (error case) case g): 0 1 1 (error case) case h): 1 0 1 (error case) Dabat means AD: addressing process AQ: address acknowledgment signal AL: alarm signal (resulting) 0: no process / signal 1: process / signal The binary digits for AD, AQ and AL are individually for the individual decentralized facilities EST1 .... ESTn in the central facility ESE constantly through logical links to each other related. As a result, the states or

The reactions of all decentralized institutions are known continuously.

The cases mentioned in the list are explained as follows.

Case a): The bit pattern 000 indicates that the decentralized Facility is in a proper, operational state. This bit pattern can either be permanently available at a central point or after a restart central facilities for the decentralized facility under consideration.

It means that no addressing process AD (0) takes place that consequently no address acknowledgment signal AQ (O) comes about and that because of the existing operational readiness no alarm signal AL (o) results.

Case b): The bit pattern 110 indicates that for the decentralized Device (e.g. EST1) an addressing process AD (1) takes place that the address decoder A responds properly and consequently an address acknowledgment signal via the switching means ri AQ (1) sends it to the central facility ESE via the individual reporting line Q1 and that no alarm signal AL (O) results due to continued operational readiness.

Case c): The bit pattern 111 results when the Closed circuit within the monitoring arrangement for operational readiness is specifically switched off. This switching measure can take place at appropriate time intervals the functionality of the monitoring arrangement is checked.

The bit pattern 111 indicates that for the decentralized facility under consideration an addressing process AD (1) takes place that the address decoder A this device emits an address acknowledgment signal AQ (1) and that due to an appropriately transmitted command, the shutdown of the closed circuit as well as the relay R drops out and an alarm signal AL (1) results.

Case d): The bit pattern 001 results if for the considered decentralized facility without the influence of central facilities a loss of Operational readiness occurs. The bit pattern 001 means that no addressing process AD (O) takes place that consequently no address acknowledgment signal AQ (O) comes about and that for an as yet unknown cause Alarn »Alarm AL (1) is generated.

Case e): The bit pattern 100 results when a control the desired decentralized facility, e.g. EST1, does not succeed. It says that the corresponding addressing process AD (1) takes place, but none Address acknowledgment signal AQ (o) comes about and that no alarm signal AL (O) is produced.

The transmission path, namely the switching means r1 and the individual Message line (Q1) can be assumed to be intact, otherwise an alarm signal on the one hand AL due to interruption of the star guard closed circuit and on the other hand a self The resulting opening of the switching means r1 should have come about. It can so there is a defect in the address decoder A or in the addressing lines LA.

Case f): The bit pattern 010 results when the address decoder A incorrectly addresses a decentralized facility. It means that there is no addressing process AD (0) for the relevant decentralized facility takes place, that an address acknowledgment signal AQ (1) is nevertheless generated and that no alarm signal AL (0) results.

The incorrect addressing of the address decoder A can either be due to a defect in the address decoder itself or in the addressing lines LA be due.

Case g): The bit pattern 011 results when an error is higher Order, namely the coincidence of several simple errors. The bit pattern means that no addressing process AD (O) for the relevant decentralized Facility takes place that nevertheless a corresponding to the decentralized facility Address acknowledgment signal AQ (1) is generated and also after its transmission an alarm <Ugnal AL (1) is generated for the decentralized facility.

This process corresponds roughly to that of case c), in which the check is carried out should be whether the monitoring closed circuit can be switched off. In the present However, the case does not find any addressing process AD and consequently also no command transmission, yes to triggering any processes in any decentralized facilities is required instead.

Accordingly, there is a defect to be localized in the relevant one decentralized device or with the addressing lines LA and command lines LB to suspect.

Case h): The bit pattern 101 results when a control the desired decentralized facility does not succeed because practically at the same time with the addressing process AD, the operational readiness of the device is lost. This is very likely due to a defect within the decentralized Establishment.

The specified bit pattern means that despite the ongoing addressing process AD (1) no address acknowledgment signal AQ (O) is transmitted and that instead an alarm signal AL (1) results.

In cases e), f) and g), the Source of error given the aid of so-called collective addressing. This is a Bit pattern obtained by an OD link from all address bit patterns used placed on the addressing lines LA. So theoretically all would have to be decentralized Devices EST1..ESTn controlled: and their respective address acknowledgment signals AQ to be submitted.

Individual addressing processes are determined with a more targeted, error-localization program Interruptions or interruptions in individual addressing lines can be determined.

7 claims 1 figure

Claims (7)

Claims 1. Data processing system, in particular an intercom system, with centralized and decentralized facilities equipped with test circuits are and via busbar-like lines with the central facilities are connected and can be specifically controlled via these lines, d a d u r c h e k e n n n n z e i n e t that decentralized facilities (EST1 ... ESTn) in addition to addressing lines (LA) and command lines (L3) via individual Message lines (Q1 ... Qn) are connected to a central facility (ESE) that Via the individual message lines (Q1 ... Qn) signals that indicate the operating states of the decentralized facilities (EST10.ESTn) to the central facility (ESE) are delivered that, after controlling a decentralized facility (e.g. EST1) the signal indicating the operating status of this device on the corresponding individual message line (Q1) an acknowledgment signal is superimposed that the d.ezexltrale Device (ESTi) is initiated by a correspondingly supplemented control signal, to temporarily change the signal indicating its operating status, and to change the operating status are recorded by the relevant monitoring arrangements. 2. Data processing system according to claim 1, d a d u r c h g e k E n n z e i n e t that for the temporary change of the operating state of the a correspondingly supplemented control signal to the decentralized device (e.g. EST1) their blocking by switching off and another correspondingly supplemented control signal is supplied to unlock it by switching on. 3. Data processing system according to one of the preceding claims, d u r ch e k e nn n n z e i n e t that the the operating status the decentralized device (e.g. EST1) indicating that it is ready for operation by means of a quiescent current and, in the case of non-visual readiness for operation, by switching off this quiescent current is given that the existing operational readiness of a decentralized Einrichtwlg (EST1) indicating quiescent current via a test loop into the corresponding individual message line (Q1) flows that the individual message lines (Q1 ... Qn) in the central facility (ESE) are assigned to current indicators (Jl ... Jn) are and that the quiescent current indicating the existing readiness for operation Activation of the overlaid acknowledgment signal given by increasing the quiescent current is. 4. Data processing system according to one of the preceding claims, D a d u r c h e k e n n n z e i c h n e t that the test loops in the decentralized Devices (e.g. EST1) from a series connection of several individual test loops (PS) with a fuse (Si) assigned to the decentralized facility (EST1), a monostable current indicator (R), the associated individual message line (Q1) and the associated current indicator (31) is that the Prtifsohleife one-sided is connected to one pole of an operating voltage source (UB) and that by connection of the current indicator (J1) to fire potential when operational readiness exists Idle circuit is closed. 5. Data processing system according to one of the preceding claims, d u r c h e k e k e n n n z e i c h n e t that when the test loop is interrupted (PS), failure of the fuse (Si), disconnection of the operating voltage source (UB), Interruption of the associated individual message line (e.g. Q1) or earth fault the associated current indicator (J1) sends an alarm signal to this individual message line via an alarm line (ALl) assigned to it to an alarm registration device (AR) indicates that the associated individual current indicator (R) should fail Quiescent current reacts with switching means (r1, r2) influenced by it the decentralized Device (EST1) assigned address decoder (A) and a command decoder (B) are switched off that when a decentralized one is controlled Device tEST1) in this state no acknowledgment signal from the address decoder (A) via the individual message line (Q1) to the address acknowledgment input assigned to it (AQ1) an acknowledgment registration device (QR) of the central device (ESE) can get and that the command decoder (B) in this state is not on arbitrary type of signals that can be transmitted with the command line (LB) responds. 6. Data processing system according to one of the preceding claims, it is noted that the alarm recorder (AR) and the Acknowledgment Regiw striereinrichtuag (QR) via a message guidance system (LM) are connected to a central control unit (ZST). 7 data processing system according to one of the preceding claims, d a d u r c h e k e n n n z e i c h n e t that in the receipt registration device (QR) after each activation process a "1 out of n" and identity check of the expected acknowledgment signal is carried out and that in the event of an error the central Control unit (ZST) via the message line system (LM) from the receipt registration device (QR) and / or the alarm registration device (AR) is initiated to run an error localization program to handle.