SU869035A1 - Device for switching-over mifistor element - Google Patents

Description

(54) DEVICE OF SWITCHING MYFISTOR ELEMENT

The invention relates to switching technology and can be applied in measuring switches; signals of data acquisition and processing systems. A switching mifistor device is known, consisting of a mythistor element and a pulse matching transformer, the primary winding of which is connected to a control signal source, and the secondary winding is connected to a common electrode and controlled electrode of a mythist element 1. The disadvantage of the device is not the possibility of fixing the moment switching of the mythistor element, i.e. unreliability of srabatshan. The purpose of the invention is to register the moment of operation of the mythist device, i.e., increase the reliability of operation of the mythist element. The goal is achieved by the fact that a switching device for a mythor element, consisting of a mythistor element and a pulse matching transformer, the primary winding of which is connected to a control signal source, and the secondary circuit is connected to a common electrode and to a control electrode of a mythist element, a pulse extraction unit, a synchronization unit and a failure analysis unit are input, the input of which is connected to the first output of the synchronization unit, the second output of which is connected to the input of the control source signal, the output of which is connected to the second input of the failure analysis unit and the first input of the synchronization unit, the second input of which is connected to the output of the impulse output unit, two inputs KOTQporo are connected respectively to a common electrode and one of the switching electrodes of the mythist element, In addition, Pulse extraction is made in the form of an amplitude selector and a pulse transformer whose primary winding is the input of a pulser and a secondary winding is connected to the input of an amplitude selector. ora, the output of which is the output of the pulse extraction unit. Fig. 1 shows a block diagram of a proposed device; in fig. 2 shows the physical processes occurring in the mythological switch; in fig. 3 timing diagrams reflecting the operation of the device when turning on the mythistor element. The switching device of the mythistor element contains the mythistor element 1, consisting of a control electrode 2 and a common electrode 3, switching electrodes 4 and 5, an electrically conductive liquid 6 (Fig. 2), a pulsed matching transformer 7j of the control signal source 8, block 9 pulse extraction, consisting of a pulse transformer 10 and an amplitude selector 11, a synchronization unit 12 and a failure analysis unit 13. The device works as follows. The control signal source 8 at the time tf produces a current signal which, through a pulse matching transformer 7 and electrodes 2 and 3 of the mythist element 1, acts on the electrically conducting fluid 6 (Fig. 2), causing it to switch from one steady state to another, causing switching of the mythist one element 1. A portion of the control current pulse is coupled through the electrode 5 to the primary winding of the pulse transformer 10 of the pulse extraction unit 9.

At the moment of separation of the electrically conductive fluid 6 from the electrode 5 (time t2 in FIG. 30), the secondary winding of the transformer 10 induces pulses that, through the amplitude selector 1I, enter the synchronization unit 12.

Claims (2)

The synchronization unit 12 and the pulse extraction unit 9 through the mythist element 1 provide feedback to the control signal source 8. The synchronization unit 12 generates a control pulse prohibiting signal from the source 8. The control pulse terminates at time ta (Fig. For and d }. The amplitude selector I1 identifies the switching off pulse of the myth element on the background of impulse noise. The interrupt signal 1. The switching device of the myth element, consisting of the myth element and the pulse matching A transformer, the primary winding of which is connected to a control signal source, and the secondary winding is connected to a common electrode, and to a control electrode of a mifistor element, characterized in that, in order to increase the reliability of operation of a mifistor element, a complete pulse unit synchronization and failure analysis unit, the input of which is connected to the first output of the synchronization unit, the second output of which is connected to the input of the control signal source, the output of which is connected to the second input and the control pulse is generated in the synchronization unit 12 by comparing in time the signals from the source 8 of the control signals and from the pulse extracting unit 9, i.e. the synchronization unit 12 is gated by the control signal itself. The unit of failure analysis produces a selection of device failures. Thus, the failure of the mifistor is detected by the absence of a narrow pulse in the pulse extraction unit 9, and the waiting for this pulse is made only during the control signal (in the time interval from t to t. Fig. 3d) .. The return of the mythist element I to its initial state produced by a reverse polarity pulse (not shown in Fig. 3). But even in this case, at the moment of fluid closing 6, an impulse occurs with electrode 5, through which feedback is provided to the source B of the control signal. I Thus, the proposed technical solution allows to significantly increase the reliability of the device and significantly reduce the duration of the control signal due to the operative control of the state and switching of the mythistor element, i.e. the introduction of feedback between the output and input circuits of the mythistor allows optimal control of each mythological element, depending on the characteristics of its switching properties. Invention Formula the failure analysis unit and the first input of the synchronization unit, the second input of which is connected to the output of the pulse extraction unit, the two inputs of which are connected respectively to a common electrode and to one of the switching electrodes of the mythistor element. 2. A device according to claim 1, characterized in that the JEVI PULSE unit is configured as an amplitude selector and a pulse transformer, the primary winding of which is the input of the impulse isolation unit, and the secondary winding is connected to the input of the amplitude selector whose output is the output of the allocation unit momentum. Sources of information taken into account in the examination 1, Switching mythological devices. Electronic Engineering, Ser. 4, 1977,. but one ti,