DE1275125B - Arrangement for monitoring control devices for processing binary characters, in particular in telephone switching systems - Google Patents

Description

For controlling switching processes in telephone switching systems are increasingly used central control devices, such Control device either for parts of this switching system, for example one Coupling stage, can be provided or centrally all processes in the whole Telephone exchange controls. This can result in an error or even failure such a control device to such an extent that the worst If the entire telephone exchange is unusable. To operational safety a central control device of this type are therefore particularly high To make demands.

It is already known to increase the operational safety of facilities (see, for example, F. K oppehe 1e: "Increasing the reliability of communication systems through redundancy - a critical consideration", NTZ, 17 [1964I, H.4, pp. 179 to 184 ), these devices or assemblies or components of these devices to be provided several times, with these additional elements either constantly in function during the operating hours or only used at the moment in which they are actually necessary, ie in which a fault in this device or part of this facility occurs. For example, it is known (see German Auslegeschrift 1033 730) to forward recorded information to a reserve folder in addition to a central re-folder that is in operation, whereby this information is evaluated by both re-folders and the results provided by both re-folders are compared with one another and if they are not equal Results an error signal is output; on the ti.:r faulty re-folder is determined and can be separated in-game.

In addition, there is already a device for indicating readiness for operation became known of contact measuring instruments in automatic measuring systems, with their Help both the measuring contacts and the connection contacts of contact measuring instruments be checked to increase operational safety. To do this, the Contact paths bridged by fixed resistors through which a quiescent current flows are, and all closed circuits are via an OR circuit with a display device tied together. According to one embodiment of this known device, in measurement pauses the pointers of the measuring instruments by a corresponding device between the Tolerance contact springs of the measuring instruments for the purpose of a functional test of the system switched back and forth. This can be done with the help of further downstream OR circuits a faulty switch contact can be determined that at the output of this Apparatus signals occur which correspond to the respective pointer position of the measuring instruments and therefore do not correspond to the condition of the contact paths to be tested. The error display is in this device through this further OR gate to the zii checking Contact paths connected display arrangements causes that also in the operation of the Contact gauges serve to indicate that the dimensions of the specimen are within of a tolerance range or this to the positive or negative side exceed. The arrangement according to the invention now shows a new way, operational reliability of facilities to increase. It is used to monitor for faulty signal states in control devices for processing binary characters, especially in telephone exchanges, those leading to these control devices during breaks in operation Signal lines in each case normally those signals occur which lead to a through one at the output or on an intermediate result line of the relevant control device Occurring signal indicated fulfillment of a link condition of this control device contribute nothing. It is characterized in that with said signal lines as well as such interim results lines on which during the break in operation normally the same binary signals occur in each case as on the named ones Signal lines, the inputs of a common OR circuit for the fulfillment the respective linkage conditions on the relevant lines Occurring signals are connected with the delivery of the fulfillment of the OR condition indicating the presence of a faulty output signal during the break in operation Shows the signal state.

Compared to the arrangement known, for example, from German Auslegeschrift 1033 730, the arrangement according to the invention has the advantage that, on the one hand, the operational reliability of the control device can be increased to almost the same extent as in the known arrangement, without the need to duplicate the entire control device .

Compared to the known device also mentioned, the Circuit arrangement according to the invention has the advantage that sig in that an OR gate is connected to such lines on which during the breaks in operation normally those signals occur which lead to a through an at the output or on an intermediate result line of the relevant control device occurring signal indicated fulfillment of a linkage condition of this control device nothing contribute, both errors caused by inadequate plug-in or soldering points, as well as Errors caused by defective components or functional groups of the control device can be determined with the help of one and the same device. Through this it is necessary that with the aid of the arrangement according to the invention not only individual Dial gauges can be checked for operational readiness, but rather, as will be shown on the basis of the description, extensive control devices for processing binary characters, whereby, as already mentioned, not only errors are displayed caused by faulty parts of the control device, but rather also those caused by broken wires, poor soldering points or potential contact, and both from signal lines leading to these control devices as well caused by intermediate results. The circuit arrangement according to the invention is therefore characterized by an extended compared to the known device Application area.

According to one embodiment, the arrangement according to the invention can thereby can be simplified that of AND gates contained in the control device and OR gates only the AND gates with their inputs to the inputs of the mentioned common OR circuits are connected.

The invention will now be described with reference to the figures. Of these shows Fig. 1 shows a section of a control device, based on the following the invention is explained, FIG. 2 an example of how to increase it further the operational safety contained in the circuit arrangement according to the invention Functional group can be doubled, F i g. 3 the measures to increase the operational safety of the circuit arrangement according to the invention, for example to be met.

The in F i g. 1 control device St shown consists of the AND gates U, the OR gate 0d and the blocking gate S. The gates mentioned are interconnected in such a way that a binary 1 signal, which occurs on the signal line El leading to the control device St, only occurs Signal at output A of the control device when additional acknowledgment signals occur on the signal lines Q 1, Q 3 and Q 4, with a binary 1 signal as the acknowledgment signal on the signal lines Q 1 and Q 4 and a 0 on the signal line Q 3 Signal has to occur. In a corresponding manner, a 1-signal applied to the signal line E2 only results in a signal at the output A if 1-signals occur on clone signal lines Q2 and Q4 and a 0-signal occurs on the signal line Q3. The control device St is therefore used for processing; binary characters that appear on the signal lines E1 and F`2 and Q1 ... Q4 leading to this control device. During the break in operation, these signal lines usually appear in each case: those signals that are sent to diner through e111 2m output A or on eiri: - the lines Z1 ... Z4 occurring c% nal nngeezamtr @ a fulfillment of a Verkna.ipfzam, wsl @ edinginig d; - Contribute nothing to our control device. Thus @ väl @@@@@ iad the break in operation on de; ii serving as input lines signal lines EI. and E "2 as well as on the signal lines Q1, Q2 and Q4 serving as lines for acknowledgment signals during the breaks in operation, while a 1 signal may appear on the signal line Q3 for acknowledgment signals during these time periods. The occurrence of such signals on these conductors is caused by the direction finding devices of the system which deliver these signals and for the control of which the relevant control device is used, for example by contacts of occupancy relays in telephone exchanges.

In addition to the control device just described, FIG. 1 also shows the device which, by virtue of its arrangement according to the invention, serves to increase the operational reliability of this control device with respect to faulty signal states occurring on the signal lines or intermediate result lines. This is the OR circuit F, the inputs of which are connected to those signal lines and intermediate result lines on which binary 0 signals normally occur during the break in operation. This OR circuit F, which is common to all of these lines, is designed so that it responds to the 1-signals that contribute to the fulfillment of the respective linkage conditions and, consequently, with the delivery of an output signal indicating the fulfillment of the OR condition during the break in operation Indicates the presence of a faulty signal state. On the in F i g. 1, this means that the inputs of the OR circuit F are connected to signal lines leading to the control devices or to those intermediate result lines on which 0 signals normally occur during the break in operation, i.e. to signal lines E 1, E2, Q 1, Q 2 and Q 4 and also the intermediate result lines Z3 and Z4, since 0-signals normally occur on these also as intermediate results resulting from the input signals of the preceding gates during the break in operation. For example, a 0 signal occurs on the intermediate result line Z2, since 0 signals occur on both signal lines leading to the AND gate U2; accordingly it is in the case of the intermediate result line Z_ 1. The intermediate result lines Z1 and Z2 now in turn form signal lines leading to the OR gate 0d. As a result, 0 signals also occur at the output of the OR gate 0d, which is connected to the intermediate result line 7.3, if such signals appear on the two intermediate result lines 71 and Z2. Furthermore, a 0 signal also occurs on the intermediate result line Z4, since the signal input of the DISABLING gate S, namely the intermediate result line Z 3, as already mentioned, carries this signal. If any of the lines mentioned, which are connected to the inputs F'1 ... F "1 or OR circuit F, occur during the break in operation instead of the mentioned fy signal f N f: i.% I @ °, a 1 -Signal up, then Blieselhl gives "cii @ iltu ng at your exit F'S nahczti f@leiclazeiti.x, cl. H. also during the break in operation, an exit signal from, cl. @ s as a result indicates the presence of an error = aften @ a # ialztistiiiides. On the other hand Rauss according to the working state and entry of letricllspause a 0 signal appearing at the output .N'S, indicating, among other things, class on the führcriden to the control device St signal lines no faulty signals occur, that is, Class these signals 19eic; i @, iclsvs: @ise delivering relay properly iitw.hta lr: `.ien.

Conversely, in the case of the changed circuit arrangement, the Signals, riic together to one through one at the exit of the steaic: i-7 ° cirichttuig Occurring signal indicated fulfillment of a link condition contribute something - or the constant absence of such a signal outside of operational breaks -, are automatically monitored by checking whether there is any! in g = _, - know Time intervals at the output A a signal occurs, so that it is sufficient with the help of inventive arrangement to monitor the signal lines daiutifhin whether they signals contributing to the fulfillment of the connection conditions also during the Lead to a break in operation.

As in FIG. 1, are of those in the control device St contained AND gates and OR gates only the AND gates with their inputs connected to the inputs of said common OR circuit. One connection serving as inputs of the OR circuit Od intermediate result lines Z1 and Z2 to the inputs the mentioned OR circuit is unnecessary, because an erroneous 1-signal propagates through this OR gate and appears as a faulty 1-signal on the intermediate result line Z3.

In this case it can be assumed that a 1 signal is on the intermediate result line Z 1 and / or the intermediate result line Z2 have a 1 signal on the intermediate result line Z3 causes, whereby faulty, on the intermediate result lines Z 1 and Z2 Occurring signal states are monitored by the intermediate result line Z3 can.

So far it has been described how the operational reliability of control devices can be increased with the aid of the arrangement according to the invention. According to one embodiment of the method according to the invention, the operational reliability can be increased even further, namely by additionally providing parts of the relevant control device and / or the mentioned common OR circuit in duplicate. These doubly provided parts of the control device can be functional groups which are only connected together on the input side and output side, as is the case, for example, for a gate known per se in FIG. 2 is shown. With the help of such a gate, as will be shown later with reference to FIGS. 3 is executed, realize all gate functions, such as those of an AND gate, an OR gate or a DISABLE gate. One of the in FIG. The gate shown in FIG. 2 consists of the two diodes D1 and D2, which are connected together on the cathode side. In a corresponding manner, the other of the two gates consists of the diodes D 3 and D 4, which are also connected together on the cathode side. On the input side, these two gates are connected together in that, for example, the diode D 1 is connected to the diode D 3 and the diode D 2 is connected to the diode D 4 . On the output side, both gates are connected together with the inverter 1Z2. It is particularly useful that when a function group is doubled, the inputs of the aforementioned common OR circuit are connected directly to the input terminals of one and the signal lines to the input terminals of the other function group, and then the two connection points are connected to one another via a line connection. So, for example, if the in Fig. 2 illustrated double gate provided in place of the AND gate shown in F i g.1 U 2 occurs, then the lines Q 2 and E 2 and the inputs F1 and F2 of the OR gate F in the F g in i. 2 be connected in the manner shown. With the aid of the OR gate F, wire breaks in the input-side wiring of the double function groups, such as an interruption in the connection of the anodes of the two diodes 4 D 1 and D 3, are monitored. A failure of this function group to the left of point P, which is provided twice, cannot occur with this type of wiring if it is assumed that a wire break can only ever occur at one point within this function group during the life of the entire control device. From the point P on the monitoring of the considered functional group is achieved by monitoring the next stage, here for example, - taken over the monitoring of the intermediate line Z2.

How a circuit arrangement according to the invention can be used to improve the operational safety of. To increase control devices with respect to errors that are caused, for example, by a broken wire, poor soldering points or potential contact, is also shown in FIG. 3: There, a control device St 1 is first shown, which consists of a part of the in F ig. 1 there is control device St , technical implementation examples for the functional groups contained in this control device are now shown. In addition to this control device St 1 , the switching system VA is also indicated, which supplies signals that are to be processed with the aid of the control device St l. The devices mentioned are supplemented with the aid of further devices for the arrangement according to the invention, specifically with the aid of the inverter 1 and with the aid of the gate FG, which, as will be shown, together form an OR circuit.

As already mentioned, in a manner known per se, with the aid of a gate, as shown, for example, with reference to FIG. 2, build gates of any logical functions. The logic function that is carried out by such a gate depends on which binary signals appear at its inputs. This is how it works in FIG. 2 gates as OR gates if a positive potential is selected as the binary 1 signal and zero potential, for example, as the binary 0 signal, since then regardless of whether a 1 is entered at the input labeled Q2 or E2 or at both inputs Signal is present, a 1-signal also occurs at point P. On the other hand, the gate shown acts as an AND gate if, for example, zero potential is selected as the 1 signal and a positive potential is selected as the 0 signal, since in this case and only then at point P a 1 signal occurs if both at input Q2 as well as a 1-signal at input E2. In the transition from a gate of this type used as an AND gate to a gate of this type used as an OR gate, the 1-signal of one type can be converted into the 1-signal of the other type. This can be done with the help of inverters, for example in the form of single-stage switching amplifiers. For example, between the gate GOd (FIG. 3) acting as an AND gate in the intermediate result line Z 2, the inverter 1Z2 and between the latter gate and the gate GS in acting as an AND gate with respect to its input connected to the intermediate result line Z3 the intermediate result line Z3 of the inverter 1Z3 inserted.

According to the circuit arrangement according to the invention, lines of the control device Stl on which signals normally occur during the break in operation that contribute nothing to the fulfillment of the respective linkage conditions are the inputs of a common OR circuit for the fulfillment of the ones that contribute to the respective linkage condition, signals occurring on the lines concerned. If a common OR circuit is also used in the case of the one shown in FIG. 2 is to be used, the inputs of this gate must be connected via inverters to the lines mentioned if the signals occurring there and contributing to the fulfillment of an AND linkage condition in the OR circuit for outputting a fulfillment of the OR condition output signal to be displayed. On the lines in question E2, Q 2, Z 3, Q 4 and Z 4 (FIG. 3) of the control circuit St 1, positive signals normally occur during the break in operation. At the output of the respective downstream inverter 1, these result in a ground potential as a signal to which the gate FG used as an OR circuit does not respond. On the other hand occurs on one of these lines as a signal falsely no positive potential, but for example, the ground potential on, then occurs at the output of the downstream inverter, for example of the inverter 1 1, a positive potential. This then has the consequence at the output of the gate FG 'of an output signal indicating that the OR condition has been fulfilled and which consequently indicates the presence of an incorrect signal state. With the in F i g. 3 existing lines indicate the potential that normally occurs there during breaks in operation. In addition, it is indicated in brackets which potential is present there, for example in the event of a fault. This can be a positive potential, which is indicated by a plus sign, or a ground potential, which is represented by the symbol l. Instead of the ground potential, a negative potential or, for example, due to a wire break, an undefined potential can occur there, which has the same effect in the control device as a signal in the form of ground potential.

To further increase operational safety, FIG. 3 instead the one OR circuit FG two OR circuits may be provided, each of which in the event of a faulty signal state, the OR condition is fulfilled provides an indicating output signal. The inputs of the additional OR circuit are then also via inverters with the lines mentioned to the in FIG. 3 indicated points connected, so that even if an inverter or: one a faulty signal state is indicated by the gate serving as an OR circuit.

In addition to the lines mentioned, the control device St 1 has the additional line Q 3 , which, as indicated in the figure, carries a signal during the break in operation which contributes to the fulfillment of a linkage condition of the control device. Like F i g. 1 shows, the line Q 3 is connected to the blocking input of the gate S, so that, as a result, a 0 signal occurring on this line contributes to the fulfillment of a link condition of this gate. If, on the other hand, this line had a 1-signal during the pauses in operation, this line, together with other lines normally carrying the same signal during the pauses in operation, could be connected to the inputs of a further OR circuit which, like the OR circuit FS indicated the presence of a faulty signal state if the 0 signal, which contributes to the fulfillment of the linkage condition, erroneously occurs on these lines. However, this is not possible with the line Q 3, since this normally carries a ground potential effective as a 0 signal even during the break in operation. In this case, however, according to one embodiment of the invention, the operational reliability with regard to this line can be increased in that a further line, normally carrying the same signals, is provided next to such a line, which leads to a corresponding further input of the gate GS controlled by this line leads, as shown in FIG. 3 is shown.

Since potential freedom on one of the lines under consideration as well as a ground potential or a negative potential to respond to the OR circuit under consideration leads, so their use increases the operational reliability against errors increased caused by broken wires or poor soldering joints.

Claims (6)

Claims: 1. Arrangement for monitoring faulty signal states in control devices for processing binary characters, in particular in telephone exchanges, in which signals during the breaks on signal lines leading to these control devices normally occur which lead to a signal at the output or on an intermediate result line the relevant control device appearing signal indicated fulfillment of a linkage condition of this control device contribute nothing, gekennzeichn et that with the mentioned signal lines (E 1, E2, Q l, Q 2 and Q4) and also with such intermediate result lines (Z3 and Z4) on which During the break in operation, the same binary signals usually occur as on the signal lines mentioned, the inputs of a common OR circuit (F) for the ones that contribute to the fulfillment of the respective linkage condition appear on the relevant lines end signals are connected, which indicates the presence of a faulty signal state with the delivery of an output signal indicating the fulfillment of the OR condition during the break in operation (FIG. 1). 2. Arrangement according to claim 1, characterized in that of contained in the control device AND gates (U) and OR gates (0d) only AND gates with their inputs to the inputs of said common OR circuit are connected (F i g.1). 3. Arrangement according to one of the preceding claims, characterized in that additional parts to increase operational safety of the relevant control devices and / or said common OR circuit are provided twice. 4. Arrangement according to claim 3, characterized in that in a control device which has additional lines which carry signals in the break in operation that contribute to the fulfillment of a linkage condition of this control device, in each case in addition to such a line (Q 3) another, normally the Line (Q 3 ') carrying the same signals is provided, which leads to a corresponding further input of each gate (GS) controlled by the first line (FIG. 3). 5. Arrangement according to claim 3 or 4, characterized marked, that the duplicated parts of the control device are functional groups, which are only interconnected on the input side and output side. 6. Arrangement according to claim 5, characterized in that when a function group is doubled, the inputs (Q2, E2) of said common OR circuit to the inputs of one (diodes D 1 and D2) and the signal lines (F 1, F 2) are connected to the inputs of the other function group (diodes D3 and D4) (Fig. 2).