DE2120933C2 - Circuit arrangement for telecommunications, in particular telephone systems with relays, which can be actuated by different Stromrichtun conditions in different ways - Google Patents

Description

The invention relates to a circuit arrangement for telecommunications, in particular telephony systems Relays that are triggered in different ways by differently directed magnetic excitations (e.g. can be actuated in the start and eject direction).

It has become common practice to operate the circuits of relays to be switched on directly by electronic switches (e.g. transistors). To the electronic switch from being destroyed by switching off such a circuit at the To protect the relevant relay winding occurring self-induced voltage, it is known to the relevant Relay winding by bridging a rectifier, which is polarized so that it is for the Voltage, which during the time in which the mentioned circuit is switched on, on 4-way relay winding occurs, is impermeable, for the self-inductor aspannun that occurs when this circuit is opened " iedoch forms a short circuit and thus keeps it away from the endangered electronic switch.

However, such an arrangement has various disadvantages: it does not allow, for example, the different directed magnetic excitations (for example start-up and ejection excitation) by means of a single winding, since the mentioned rectifier is the relay winding for one of the required Current directions short-circuited. But even if for both directions of magnetic excitation different relay windings are used, the disadvantage must be accepted, that the circuit for the actuation of the relay, for example in the dropping direction through dvn Rectifier in the manner mentioned above, for example the drop winding d «.» Relay in parallel is switched, is delayed in an undesirable manner, since this rectifier for the construction of the corresponding Magnetic field in the drop winding represents a short circuit in the induced current and thus counteracts the field build-up.

The invention has set itself the task of eliminating these disadvantages. It is based on a circuit arrangement with relays, which by differently directed magnetic excitations in different Way (z. B. in the starting and ejecting direction) can be actuated and in which the circuit air Generation of one of the mentioned magnetic excitations (e.g. the dropping excitation) by a electronic switch (z. B. a transistor) can be switched on by a parallel to the relevant Relay winding (z. E. «er drop winding) effective for the disconnection of the said Self-induction voltage occurring in the circuit In the forward direction polarized rectifier protected from destruction by this self-induced voltage is and iit characterized in that in series with said rectifier an electrical bistable switching element (z. B. a thyristor) is connected, which together with said electronic Switch can be controlled in its low-resistance conductive state.

This ensures that the current path, which is used to protect the electronic switch, goes through which the self-induction voltage is short-circuited, is only effective if the over the relevant Relay winding running circuit (e.g. the dropping circuit) actually switched on beforehand and thus a self-induced voltage that could endanger the electronic switch at all is to be expected. The arrangement according to the invention thus prevents when using several Relay windings of the field structure via one of these windings by others on the relevant one The circuit does not affect the windings that are not involved. It also enables differently directed to generate magnetic excitations over just a single relay winding.

The bistable current-voltage characteristic of the invention with the rectifier to protect the Electronic switch in series switching element causes this by the Self-induced voltage caused current is kept in its conductive state until this current has a limit value, the holding current of the

bi unstable element falls below. At this point in time, the electronic to be protected is at risk Switch no longer to worry about.

A further development of the invention is characterized in that the relay is polarized as bistable ReIaL are formed and are provided with a start-up and a drop-off winding that the Dropping winding running dropping circuit has a transistor as an electronic switch and a Contains thyristor which can be switched on together with the transistor, the transistor having one winding end the drop winding is connected, and that said rectifier is used to protect the transistor between the other end of the winding and the connection point of the thyristor and transistor is switched.

Another development of the invention is characterized in that sowc.l the electronic Switch as well as the bistable switching element of a large number of Reiais (e.g. all coupling relays one Crosspoint row or column of a relay coupler) are assigned together, with the individual relays are decoupled from each other by decoupling rectifiers.

The drawing shows an exemplary embodiment of the invention, from which further details can be found. The circuit shown comprises a series of relays A to E, each of which is equipped with a starter winding 1-2 and a deflection winding-1 and 3-4. The individual relay windings are connected in series with decoupling rectifiers G 2 to GIl. The relays shown form, for example, the receiving relays of a decentralized via information lines 0 to 4 ansteuerba fn receiving device or a crosspoint line of a relay coupler. While the start-up windings 1-2 of the relay below; are under the influence of a common marker contact and can be operated individually via the information lines 0 to 4, the drop windings 3-4 of all relays are connected in parallel to one another. The dropping circuit of the relay is under the control of a transistor T. Furthermore, according to the invention, a thyristor Th is to be added to the winding 34 of the relays A to E.

^ If one of the relays Λ to E is excited via its starter coil 1-2, a! Voltage induced, for which both the rectifier E1 and the decoupling rectifier G2 to C6 connected in series with the deviation of the relevant relay are permeable. However, since the thyristor Th is extinguished, the rectifiers mentioned remain de-energized. This prevents the start-up circuit from being dampened and the pick-up of the relay being delayed. If the or * e ™stens are to be thrown off, the transformer T receives control current via the indicated flip-flop K. Furthermore, the thyristor 7 A via the resistor Rl and the rectifier w 12 gc / ündct - also through the K.ppstufe. In the stream

^kreiS Erde T, Th, (Gl, A 4-3) / (G3, B4-3) (C / 4. C4-3) / (G5, ö4-3) / (f; 6, E 4-3) , -

the relay or relays triggered are thrown off again. As soon as this circuit is separated again, a "self-induction voltage" arises at the drop windings 3-4 of the relays A to E , the sign of which is opposite to that of the voltage drop that occurs across them in the last-mentioned circuit. The rectifiers C. 1 as well as those with the Abwerfwickiungen series-connected decoupling rectifier G 2 to G6 are for this self-induction voltage polarized in the forward Further, the thyristor Th is held by the voltage self-inductance caused by the over the aforementioned rectifier flieikndt.11 current in its conductive state. Thus, the in Ausschaltezeitpunkt The existing magnetic field of the relays A to E is discharged via this rectifier and the thyristor. Only when the corresponding current falls below the holding current value of the thyristor Th is it extinguished. The self-induction voltage caused by the current still present is so low that the transistor is endangered T is not to be feared.

1 sheet of drawings

Claims (3)

Patent claims: 1.Circuit arrangement for telephone systems, in particular telephone systems with relays, which can be actuated in different ways (e.g. in the start-up and release direction) by means of differently directed magnetic excitations, in which the circuit is used to generate one of the magnetic excitations mentioned (e.g. . The drop excitation) can be switched on by an electronic switch which is protected from destruction by a rectifier which is effective in parallel to the relevant relay winding for the self-induction voltage that occurs when the said circuit is switched off an electrically bistable switching element (e.g. an ao thyristor Th) is connected in series with the said rectifier (Γ71), which can be controlled into its low-resistance conducting state at the same time as the said electronic switch (7). 2. Circuit arrangement according to claim 1, characterized in that the relays are bistable polarized with a start and an eject winding (1-2 or 3-4) equipped relays (/ 1 to E) are that the over the drop winding (3-4) running deviation: flow, circles a transistor (7) as an electronic switch and one that can be switched on together with the transistor. Contains thyristor (7 / j), the thyristor (77i) having one winding end (4) of the drop winding is connected, and that said constant lights ((71) to protect the transistor (7) between the other winding end (3) of the discarding winding (3-4) and the connection point of Thyristor (7A) and transistor (7) is connected 3. Circuit arrangement according to claim 1 or 2, characterized in that both the electronic switch (7) and the bistable switching element (7Λ) of a plurality of relays (z. B. all coupling relays of a coupling point line or column of a relay coupler) is jointly assigned , whereby the individual relays (A to £) are decoupled from each other by decoupling rectifiers (G 2 to G 6).