DE1072658B - - Google Patents

Description

Electronic switching systems have become known in which, on the one hand, a through-connection network for the voice connection and, on the other hand, a control and monitoring device is provided, in which all processes or states of the switching system are continuously checked and those obtained in this way Results can be used to control the switching and signaling processes. An embodiment for the control and monitoring device a system of this type is shown schematically in Fig. 1: A calling subscriber (1) is each assigned a line (2) of a high-speed memory (3). From that moment on, the information which is recorded in the relevant line (2), information about the current status at any time the calling line or the connection to be established. With the help of the multiple pulse generator (4) The pulses supplied are scanned and in cyclic order · one line after the other the one saved in the line. Information content made available to the converter (5). In this converter the information is based on the results of the various monitoring processes, for example the scanning of the line loop via a special scanning circuit (6), modified accordingly and written back into the relevant line (2) of the memory (3). At the same time it is the task of this converter, the corresponding measures from the information available in each case derive and cause, for example, the marking of the desired speech path in the Through-connection network or the transmission of the busy signal, etc.

In special cases, for example in release or waiting circuits, it is often necessary to measure the duration of longer periods of time. For this purpose it is necessary to unblock a special current path for the duration of a sampling cycle of the memory (3) at longer time intervals. Here he is the difficulty to use the counting of the control pulses determining the sampling cycle for measuring larger time intervals, since this would have to be summed up too large numbers of pulses. It is therefore advantageous to provide a special pulse train with a relatively low frequency, ie a relatively long pulse duration, in each case based on the control pulse train. However, there is the further difficulty of ensuring the evaluation of these counting pulses in such a way that, on the one hand, their action is ensured for the full duration of a cycle, but, on the other hand, double counting is avoided by exceeding this period of time.

This difficulty is addressed by a method of preventing double counting of counts Procedure and arrangement

to prevent double counting

of counts for example

Release or waiting circuits

in electronic telecommunications,

preferably
Telephone exchanges

Applicant:

Standard electrical system Lorenz

Corporation,

Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Dipl.-Phys. Gerhard Merz,

Rommeishausen via Waiblingen,

has been named as the inventor

relatively long pulse duration in with short control pulses of high frequency after a certain Cycle-working devices, especially in electronic telecommunications, preferably telephone switching systems solved according to the invention in that in each case after the arrival of the leading edge of the counting pulse by a during the Duration of the control pulse assigned to the beginning of the first subsequent cycle is a specific one Pulse spike indicative of timing a way of performing a counting operation during each Control pulse switched through in preparation and through the same time slot during the beginning the now following second cycle associated control pulse characteristic pulse peak is interrupted again.

In the following, Jiun will explain the procedure using a in Figs. 2 and 3 illustrated embodiment are described. Here shows

2 shows an overview of the pulse sequences which become effective when the method is carried out,

3 shows the circuit arrangement on which the example is based to ensure the counting processes.

309 708 / S6

In the illustration according to FIG. 3, the following symbolic characters are used. Connecting lines between two boxes representing a switching unit show the mutual influence of the respective devices on one another. Here, an arrow indicates the effect of a brief pulse or a pulse peak or the differential quotient of a pulse edge. The absence of arrows means that there is a permanent effect as a result of an existing switching state. In the case of toggle circuits, the devices themselves are identified by capital letters and their respective position by the corresponding small letters, the latter being distinguished by the fact that one of the tilting positions is represented by the relevant letter alone, the other by the relevant letter with a line over it is marked. Is by one action from another. Switching device, if such a toggle switch is brought into the position marked with a line, a cross line is attached to the ao running end of the line of action. Accordingly, a cross line in the outgoing end of a line of action indicates that the influence is caused by the tilted position indicated by a cross line. Since a description of the process according to the invention is only possible with the simultaneous aid of FIGS. 2 and 3, the two will be used alternately in the following without any particular reference. In Fig. 2, the time axis is assumed to be horizontal. The pulses or pulse peaks are shown regardless of their current direction. For the tilting arrangements, the position marked with an overlined letter is indicated in the illustration by a shift of the zero line upwards. The control pulses supplied to the first line (2) of the high-speed memory (3) by the multiple pulse generator (4) are designated by si, which are repeated after the time interval T or Tl, TI according to the control cycle for this first line. In the same way, s2 ^ ₀ denotes the control pulses fed to the second line, etc. At a certain point in time t , a counting pulse Z occurs, the pulse duration of which must be longer than the duration of a cycle. The edge of this pulse Z generates the pulse peak d (7) in the switching arrangement (7) by means of the differentiation, by means of which the tilting arrangement A is brought from its rest position α into its working position ä . In its position α, the flip-flop arrangement A acts on the coincidence circuit (9) in such a way that it can now be unlocked by the addition of a normal control pulse. The multiple pulse generator (4) only allows the pulses j 1 to pass through the access (8) to the coincidence circuit (9). Will now meet such a pulse 51 in the coincidence circuit (9), while the flip-flop A is similar in its working position, so the pulse s 1 and due to the working position S of flip-flop A control potential is by the interaction of the coincidence circuit for the duration of the pulse J1 unlocked, so that now the pulse peak d (9) arriving during this period via the coincidence circuit (9) brings the Kippj arrangement B from its rest position & into its working position &. In its working position b , the tilting arrangement B effects a partial or complete (depending on the task at hand) unlocking of the gate circuit (10). The pulse peaks d '(10) emitted by the multiple pulse generator (4) in a different time slot during each control pulse duration are therefore now allowed to pass through the gate circuit (10), possibly only through coincidence with other control processes that may be caused by the respective task position. This state lasts until the next cycle begins after this cycle has elapsed, i.e. after time T. Since A is still in its working position ä , the arrival of the first control pulse of this second cycle unlocks the coincidence circuit (9), which was locked again after the end of the first control pulse si. The tilting arrangement B is designed in such a way that every incoming pulse peak d (9) causes a switchover, regardless of the position B is in. So when the pulse peak d (9) associated with this second control pulse si arrives, it causes, via the coincidence circuit (9) unlocked at that moment, to reset the toggle arrangement B and thus to lock the gate circuit (10). Further pulses d (10) are therefore no longer allowed to pass. At the same time, the process of tilting back the tilting arrangement B in its rest position & is used to bring the tilting arrangement A back into its rest position α by means of a pulse peak obtained by diffentiation. The arrangement now remains in this position until a further counting pulse Z arrives after a time interval P has elapsed, whereupon the whole process is repeated. During the unlocking of the gate circuit (10), during the duration of each control pulse iZ (10), the possibility was given to include counting information when evaluating, correcting and restoring the information stored in the respective line (2) of the memory (3) to save.

Of course, the circuit arrangement shown on the basis of FIG. 3 for implementation of the method according to the invention is only an example on which the idea of the invention is explained should, and does not exclude the implementation of the procedure by means of a different arrangement.

Claims (2)

PATENT CLAIMS: 1. A method for preventing double counting of counting pulses of relatively slow frequency and relatively long pulse duration for, for example, dropping or waiting circuits in devices operating with short control pulses of high frequency after a certain cycle, especially in electronic telecommunications, preferably telephone exchanges, characterized in that each after (2 Z in Fig.) of d arrival of the leading edge of the count by a for the duration of the beginning of the first then the following cycle (T in Fig. 2) associated with the control pulse (si in Fig. 2) a specific timing characteristic spiking (( 9) in Fig. 2) a way of carrying out a counting process during each control pulse is switched through in preparation and through which the same time slot during the control pulse assigned to the start of the now following second cycle (T 2 in Fig. 2) (see Fig. 2) characteristic pulse peak (d (9) in Fig. 2) is interrupted again. 2. Arrangement for carrying out the method according to claim 1, characterized by two bistable tilting arrangements, one of which (A) un'd by a pulse peak obtained from the starting edge of the counting pulse in the working position by tilting back the second (B) is brought into the rest position, as well as by a coincidence circuit (9), which is controlled on the one hand by the first tilting arrangement (A) in the working position and on the other hand by the first control pulse of the cycles that via it at if both conditions are present at the same time, a pulse peak occurring during the control pulse tilts the second tilting arrangement (B) into its working or rest position, as well as by a gate circuit that is controlled by the second tilting arrangement (B). 1 sheet of drawings © 909 7W56 12.59