DE1268684B - Quasi-static magnetic circuit arrangement for converting or reevaluating information - Google Patents

Description

Quasi-static magnetic circuit arrangement for conversion or Correction of information The invention relates to a quasi-static magnetic Circuit arrangement for converting or reevaluating information, in particular in dialing and control equipment of telephone exchanges.

There are known circuit arrangements with magnetic cores for each Provide a special magnetic core for conversion or conversion. The Input information to the magnetic cores via the input control lines. the Control lines are through the magnetic cores with an approximately rectangular hysteresis loop threaded that when you apply input information to the input of the circuit arrangement only the selected magnetic core is reversed or not reversed. In the one In this case, the assigned output information is used when the selected magnetic core is reversed on the output control lines, which are also routed through the magnetic cores. In the second case, only the selected magnetic core is used in a subsequent clock pulse reversed and thereby given the assigned output information. In any case these dynamic circuit arrangements require several clock cycles to generate a new one To be able to carry out conversion or revaluation.

In various applications, however, it is necessary in the form signals present in static conditions (continuous current, continuous voltage) are coded or decoded in an equivalent form. With the help of additional memories this is basically also possible with such dynamic circuit arrangements. For this, however, the information source must be scanned in parallel at certain time intervals will. If no delay is allowed in the conversion or revaluation, must synchronization with the change in information can also be established. this is usually very complex, and there is a fundamental risk that the states the memory can be changed by disturbances. This corresponds to a Output information is often no longer the pending input information.

In these known arrangements, the conversion or revaluation takes place the information with the creation of the input information, and only for this Time. When reversing the magnetic core selected via the input information the desired converted or converted to the assigned output lines Output information induced.

In the case of the electoral reception facilities and the control facilities, such as Register, zoner and corrector of a telephone exchange, however, is not always ensures that the input information is immediately available and that with When this input information is pending, the desired output information is also available is needed. There can be longer times in between when others Switching operations are carried out.

It is the object of the invention to provide a quasi-static magnetic circuit arrangement for the conversion or re-evaluation of information, in which the output information can be submitted at any time and as often as required without the input information changed or switched on repeatedly. The quasi-static, magnetic Circuit arrangement for converting or reevaluating information, in particular in dialing and control equipment of telephone exchanges according to the invention characterized in that one per conversion or revaluation Magnetic core is provided that all not when there is an input information selected magnetic cores are saturated and that common to all magnetic cores Inquiry loop Inquiry AC voltage is applied over the selected Magnetic core is transferred to the assigned output lines. This is done by made use of the known query of magnetic cores with alternating voltage. According to the invention, the magnetic cores used have no significant hysteresis, so that no clock control is required and the output information always can be assigned immediately to the pending input information. The control the magnetic cores is chosen so that the magnetic cores through the input information are controllable in the positive or negative saturation range and that the input and / or output variables of the circuit arrangement are designed in an adversarial manner.

The invention is illustrated by means of one shown in FIG. 1 illustrated embodiment a quasi-static magnetic circuit arrangement according to the invention explained. F i g. 2 shows the magnetic characteristics of the circuit arrangement according to FIG. 1 inserted magnetic cores.

The input information acts on the magnetic cores K1 to Kn via the input control lines a, a, b, b, c, c. The magnetic cores K1 to Kn are shown as horizontal bars and the control lines as vertical lines. The slashes at the crossing points indicate that the relevant control line is routed through the relevant magnetic core. The different inclinations characterize the different routing of the control line, so that the magnetic core is magnetized in one direction or the other.

The marking -I- U controls the magnetic cores into the positive saturation range, as indicated by the operating point Bi in FIG. 2 is shown. Is z. B. the input information ä, b, c, then the magnetic core K 1 is controlled via the control line -b and the magnetic core Kn via the control lines ä and c in the saturation range. The marked control lines a, b and c only have no influence on the selected magnetic core K2.

The alternating interrogation voltage Us is fed to all magnetic cores K1 to Kn via the loop S. In the case of the magnetic cores in the saturation range, there are hardly any changes in the flux, so that the alternating interrogation voltage is not transmitted to the output control lines d, cd, e, e, f, f via these magnetic cores. Large flux changes occur only in the case of the selected magnetic core K2, so that the alternating interrogation voltage is transmitted to the output control lines a, e, f. The assigned output information can be picked up at these outputs. If the input information changes, the assigned output information is immediately available again at the output of the circuit arrangement.

Due to the symmetrical characteristics of the magnetic cores, it does not matter whether the magnetic cores are controlled in the positive or negative saturation range.

A simple conversion or revaluation is obtained when the control is designed in an adversarial manner. Each input variable, a, b or c, receives two control lines, one of which is marked. The threading of the control lines is designed in such a way that only the assigned magnetic core is not activated when input information is present, while all other magnetic cores are then forced into the saturation range via at least one control line.

Claims (4)

Claims: 1. Quasi-static magnetic circuit arrangement for converting or re-evaluating information, especially in dial recording and control devices of telephone exchanges, characterized in that a magnetic core (K1, K2, Kn) is provided for each conversion or re-evaluation (ä, b, c) all unselected magnetic cores (K1, Kn) are saturated (Bi) and that an interrogation loop (S) common to all magnetic cores, alternating interrogation voltage (Us) is applied, which via the selected magnetic core (K2) to the assigned Output lines (d , e, f) is transmitted. 2. Circuit arrangement according to claim 1, characterized by the use of Magnetic cores without significant hysteresis. 3. Circuit arrangement according to claim 1, characterized in that the magnetic cores can be controlled into the positive or negative saturation range by the input information (a, ä, b, b, c, c). 4. Circuit arrangement according to claim 1 to 3, characterized in that the input and / or output variables of the circuit arrangement are contradictory are designed.