DE1168499B - Circuit arrangement for checking the call and occupancy status of subscriber lines in telephone switching systems - Google Patents

Description

Circuit arrangement for checking the call and occupancy status of subscriber lines in hands-free exchanges The invention relates to a circuit arrangement for checking the call and the occupancy status of subscriber lines in telephone exchanges where each subscriber line is biased Magnetic core saturated in one direction with pronounced hysteresis loop is assigned, which is in the call state of the line in the other saturation state is transferred, and its saturation state during the cyclical testing of the lines is evaluated by core selection streams, with the determination and identification of a calling line leads to their through-connection, which at the same time leads to the return of the magnetic core in the first saturation state by short-circuiting the with the Line connected input winding causes.

With the known facilities of this type, the placement requests can the subscriber is determined, i.e. calling subscriber ex lines are identified, however, they are not suitable for determining whether a desired subscriber line is free or busy. Namely, it will be after identification a calling team member management at the same time with their connection to the office facilities also the change in the saturation state serving as an indicator for the call state removed to prevent re-identification. That of the subscriber line assigned magnetic core therefore has both in the idle state and in the occupied state the same state of saturation, and only in the period of time during which the participant waiting to be switched through to the exchange facilities, the changed one prevails State of saturation.

In one of these known devices each line is connected via a resistor with one provided on a respective first magnetic core winding. The none is saturated by a bias in a first direction. If the line voltage changes as a result of the start of the call state of the line, the core is magnetically saturated by the first winding in the opposite sense. In addition, at least one pulse generator is provided which periodically supplies another winding of the core with pulses that excite the core in the direction of the original premagnetization, so that output signals are only generated on an output winding of the core when the line is in the call state, which are necessary for setting a switch or Voter can be used on the calling line, the core being returned to the original saturation state. The magnetic cores assigned to the individual lines are usually arranged in the form of matrices, the selection of the none in the cyclical test being made by core selection currents that flow in the direction of the two coordinates, i.e. in the direction of the rows and columns of the matrix, through the ring-shaped none be passed through. It is known in this context to compensate for the incorrect pulses that occur during testing in the output coils of others that are not to be tested by suitable interconnection of the coils.

In other known devices, the direction and size of the individual nuclear excitations selected differently from the one previously described, man but is always used to determine the occupancy status of a desired line dependent on either the switching status of a contact in a known manner, mostly of the control contact c of the electromagnetic switching arrangement, too for evaluating the occupancy status or for each subscriber line to provide a further magnetic core as storage means for their state.

The circuit arrangement according to the invention avoids this disadvantage. It is characterized in that one for checking the occupancy status in the incoming traffic desired line in the magnetic core through pre-magnetization one of the two states of saturation is brought about, but in the one desired Line associated magnetic core in a known manner through the core selection currents the opposite magnetization state is effected and at the same time pulses from a generator connected to a winding of each magnetic core such polarity are superimposed that the short-circuit state of the Ein 'aabewicklung the magnetic core assigned to the desired subscriber station is checked and the in an output winding of the core depending on the short-circuit condition of the input winding The resulting signal is evaluated as an indicator for the busy status of the line will.

F i g. 1 shows a circuit diagram of the arrangement, while FIG. 2 is used to explain the different magnetization states during the identification of calling subscribers and during the check of the occupancy status.

In Fig. 1 shows a subscriber station Tln to which the ring-shaped magnetic core K 11 with a pronounced hysteresis loop (see FIG. 2 a) is assigned, the cores of all subscriber lines being able to be arranged in a known manner as Ker = atrixKl1 ... K mn. The line Ltg of the subscriber station Tln is connected to the winding Wl of the magnetic core Kll via the resistor R 1. In the free state of the associated subscriber line Ltg, this winding Wl is de-energized, also during the speaking state, because then the line is connected via contacts a and b to the other office facilities not shown here, with control contact c simultaneously short-circuiting winding W 1. On the magnetic core there is also the bias winding W2, which is connected to a current source via the switch S1. These windings W2 of all cores can be connected together, for example in series, since they all carry direct current in the same direction at the same time. Lines calling during the identification process may be caused by this premagnetization in accordance with the procedure shown in FIG . 2 the hysteresis loop shown, for example, the operating point A can be set in the negative saturation area of the magnetic core. If a subscriber initiates the call status by picking up his handset, the hysteresis loop is passed through as a result of the excitation of the coil Wl and the operating point is transferred to B. The relative magnetization states attracted here are only given as an example. Other processes of the magnetization devices for identification have also become known, to which the arrangement according to the invention for checking the occupancy status can also be applied. A control wire is inserted through the magnetic cores of each horizontal row of the matrix and also through all magnetic cores of each vertical column. The control wires are connected to the pulse generators Zx and Zy, which generate the pulse currents Jx 1 ... Jx m or Jy 1 ... Jy n of different time slots on the control wires in a manner known per se. The direction of the magnetic excitations caused by these pulse currents is as shown in FIG. 2 b , negative, the working point at rest at A is shifted further on the horizontal part of the hysteresis loop by the pulses in the direction of magnetic saturation, so that the output winding W3 of the core does not provide a useful signal. However, if the saturation state B prevails in a core as a result of lifting the handset, the coincidence of the pulse currents Jx and Jy can lead the core back to negative saturation, whereby: a useful signal is produced in the output winding W3. The windings W3 are all as usual in core storage technology. interconnected with such mutual polarity that an approximate compensation of the interfering signals arising in the individual cores is effected. while the useful signal of the core being tested is fed to the evaluation devices M or the gate circuits Udl, Jv and Ud2. When identifying calling subscribers, the signal identifying the calling subscriber is taken from M.

To check the occupancy status of a desired subscriber line, the circuit arrangement of FIG . 1 brought the switch S 1 to the position not shown by a signal "incoming traffic" at SE. This causes the operating point of the premagnetization of all magnetic cores to be shifted to the saturation state B (see FIG. 2 d). At the same time, the identification of the desired subscriber station is given to the inputs No by the office facilities not shown here, from where the x and y components of this identification via the gate circuits Udx and Udy to the shifting inputs of the counting and counting and acting as pulse generators Zx and Zy Shift registers are given, which are set here and excite the corresponding output lines so that the magnetic core assigned to the desired subscriber station receives the excitations Jx and Jy. As a result of the sum of these excitations, the working point of the addressed nucleus is in turn shifted into the area of negative saturation, while all other nuclei remain in the area of positive saturation. To check the occupancy status, the pulse generator G, which has a relatively high scanning frequency, is switched on by the switch S2. Its impulses run through the windings W4 of all cores and act on the cores with positive, impulsive excitation. This excitation has no effect on all nuclei that were already in the region of positive saturation. But with the addressed core, which is assigned to the line to be checked for its busy state, one of the following three cases occurs: 1. The desired subscriber line is free, then there is no obstacle to the pulse generator G switching the core back and forth between its two saturation areas. A powerful output signal is generated, which reports "subscriber free" via the gate circuit Ud.

2. The desired subscriber is busy, and therefore contacts a, b and c are also closed. The input coil W 1 is short-circuited. The coupling between the input coil Wl and the generator coil W4 is relatively tight. The high pulse frequency cannot cause any significant change in the nuclear magnetism, switching between the saturation ranges is omitted, so that the output winding W4 only supplies a small interference signal which the response wave of the gate circuit Udl cannot overcome. On the other hand, the inverter Iv supplies the signal “subscriber busy” via the gate circuit Ud2.

3. The desired subscriber line is in the call state. because the handset has just been picked up without being connected to the exchange facilities. Then both W1 and W2 give positive excitation, the working point lies so far in the positive saturation area that the sum of Jx and Jy cannot bring the working point out of the positive saturation; The pulse generator G cannot cause any change in the saturation state, so that no output signal is produced on the winding W3. The inverter Jv therefore supplies the indicator “subscriber busy” via the gate circuit Ud2.

For the control tasks that occur, it is in itself sufficient that the pulse generator G only supplies a steep pulse for checking the occupancy status, but in many cases it is useful to be able to take a long-lasting signal. Then, in order to achieve a strong useful signal, the period of the pulse repetition will preferably be chosen to be approximately twice the switching time of the nuclei.

Claims (2)

Claims: 1. Circuit arrangement for checking the call and occupancy status of subscriber lines in telephone exchange systems, in which each subscriber line is assigned a magnetic core saturated by pre-magnetization in one direction with a pronounced hysteresis loop, which is transferred to the other saturation state when the line is in the call state Saturation state is evaluated in the cyclical test of the lines by core selection currents, the detection and identification of a calling line leads to their connection, which at the same time causes the return of the magnetic core to the first saturation state by short-circuiting the input winding connected to the line, characterized in that for Checking the occupancy status of a line (e.g. Tln) required in incoming traffic in the magnetic cores (K 11 ... Kmn) by pre-magnetizing (W2) one of the two saturation statuses (e.g. the call state corresponding B) is brought about, but in that of the desired line (z. B. Tln) associated magnetic core (Kll) is caused in a known manner by the core selection currents (Jxl, Jyl) the opposite magnetization state (z. B. A) and by a generator (G 2) Pulses of such polarity (e.g. positive) are superimposed that the short-circuit condition of the input winding (W1) of the magnetic core (Kll) assigned to the desired subscriber station (Tln) is checked and that in an output winding (W3) of the core depending on the short-circuit condition the signal generated by the input winding (W1) is evaluated as an indicator for the busy state of the line. 2. Circuit arrangement according to claim 1, characterized in that the certain saturation state (B) brought about during the test of the occupancy state by pre-magnetization in the magnetic cores with the exception of the particular saturation state (B) to be tested is identical to that which is present in the call state of the lines. 3. Circuit arrangement according to Claims 1 and 2, characterized in that the pulse generator (G) used for testing the short-circuit state of the input winding (W 1) emits a single pulse for testing a subscriber line. 4. Circuit arrangement according to claims 1 and 2, characterized in that the pulse generator (G) used for testing the short-circuit state of the input winding (W1) emits a pulse series for testing a subscriber line, the pulse period of which is preferably approximately twice that Core switching time is. Considered publications: German Patent Specifications No. 1 # 001 335, 1026 370; German explanatory documents No. 1126 453, 1 041 098, 1053 575.