DE2933644B1 - Circuit arrangement for emitting DC signs - Google Patents

Description

Further details of the invention are given below with reference to FIG Drawings explained. There, F i g. 1 an embodiment with two triac opto- coupler, 2 shows an embodiment in which a double thyristor optocoupler is used as the transmitting contact is used and FIG. 3 shows an exemplary embodiment for use in a voter switching system.

In the embodiment according to FIG. list to control the send contact a transmission circuit S is provided, which can be constructed in a manner known per se. From the transmission circuit S are the light-emitting elements of two triac optocouplers K I and K 2 controllable. The light-evaluating element of the first triac optocoupler K 1, which works as a transmit contact and is therefore referred to below as a transmit coupler is in the transmission branch of the transmission line L with its two wires 1 and 2 arranged. The light evaluating element of the second triac optocoupler K 2, the serves to delete the transmit coupler K 1 and is therefore used as an extinguishing coupler in the following is referred to, is together with a, a capacitor C1 and a resistor R 2 containing cancellation circuit between wires 1 and 2 of the transmission line L switched. This connection takes place via a wire in the transmission line L switched on resistor R 1. If necessary, you can flatten the characters in the gate connection G 1 of the transmit coupler K I flattening means may be provided. In the exemplary embodiment these flattening means are implemented by the resistor R 3 and the capacitor C2.

The mode of operation of the circuit arrangement according to FIG. list the following. In order to transmit a current step, the transmission circuit S uses the transmission coupler K I ignited. The transmission line L is thus switched through, and it flows a current IL of a predetermined size. If the flattening switches R3, C2 are provided, in this way the current step to be transmitted is flattened. The extinguishing coupler K 2 is located in the locked state. To send a pause step, the transmission line L at the send contact are interrupted. For this purpose, the control is via the transmission circuit S. of the transmitting coupler K I is switched off and instead the extinguishing coupler K 2 is switched on. Since now the extinguishing coupler K2 ignites, there is a short circuit for the Sendekopp-1er K 1, which is thus safely deleted. This additional measure is therefore necessary because, as is well known, triac optocouplers have the property of their controlled, d. H. Maintain conductive state until the triac optocoupler flowing current falls below a specified value. If the transmit coupler K I has been deleted in the manner described, the control of the Extinguishing coupler K 2 switched off by the transmission circuit S from. The extinguishing coupler K2 itself is erased via the erase circuit C1, R2, in which the resistor R2 is dimensioned that the current flowing through it the holding current of the extinguishing coupler Certainly below K2. The capacitor C1 is through the resistors R I and R 2 discharged. The circuit is now back in its initial state.

For the embodiment according to FIG. 1 is the use of Triac optocouplers have been used as transmit and quenching couplers. For the Case in which the send contact is either only intended for unipolar operation, or that it is operated in a rectifier bridge can be used as a transmit coupler with the A thyristor optocoupler can also be used with the same advantages. Regarding There are no differences between the structure and mode of operation of the circuit.

Fig.2 shows an example of the independent control of the send contact permitted in both directions of current. Again there is a transmit coupler and an extinguishing coupler K I and K 2 are provided, both of which can be controlled via the transmission circuit San. the Activation of the transmitter coupler Kl in the transmission line L and the connection of the extinguishing coupler K2 between the wires 1 and 2 of the transmission line L correspond the arrangement according to FIG. 1. However, the transmission coupler K here is a double thyristor optocoupler provided, whose light-emitting elements are separated from the transmission circuit Saus controllable and its light-evaluating elements connected in parallel in the transmission branch are. The mode of operation corresponds to that based on FIG. 1 already described Mode of action. Depending on the control by the transmission circuit S is now however, the possible direction of the current flowing on the transmission line L. IL controllable. To delete the ignited transmitter coupler K 1, which corresponds to the How thyristor optocouplers work even after switching off its ignition signal remains switched on due to the current flowing through the line, As described with reference to FIG. 1, the extinguishing coupler K 2 is switched on. In order to there is again a shunt for the transmit coupler K I and this becomes safe turned off. After switching off the control signal igniting the extinguishing coupler K2 the transmission circuit S is also through this under the action of the cancellation circuit C1, R2 Dropping below its holding current deleted. The gate connections G 11 and G 12 can also contain the flattening means mentioned with reference to FIG. 1 here.

In the case of the FIG. 1 and 2 described circuits the control of the current flowing on the transmission line in view of this described that a circuit is either closed (emission of a current step) or is interrupted (sending a pause step).

When operating in a currency exchange system, however, the setting a quiescent current is required.

Compared to the line current, this has a value for which normally of 40 mA is provided, a considerably smaller value, for example 2 mA.

F i g. 3 shows an example with which the quiescent current is also set can be. For this purpose, in addition to the transmission and extinguishing coupler K already described f and K2 a third optocoupler K 3 is provided, which is a triac optocoupler or can be a thyristor optocoupler. The third coupler K 3 is the transmit coupler K 1 connected in parallel. Its light emitting element is also via the transmitting circuit S controllable.

With regard to its structure, this coupler K3 corresponds to the transmit coupler K 1, only the flattened switching means in the gate connections being omitted.

In series with the third coupler K 3 is the value of the quiescent current JR determining resistance R 6 arranged. The mode of operation of the circuit arrangement according to Figure 3 corresponds to the switching of the line current IL through the Transmit coupler K I and with regard to the deletion of the transmit coupler K I by the extinguishing coupler K 2, the mode of operation already explained with reference to the preceding figures.

The third coupler K3 is used to set the quiescent current IR as a switching contact via which after his Control via the transmission circuit S the resistor R 6 is looped into the transmission line L. The deletion of the once ignited and due to the quiescent current IR even after the ignition control signal has been switched off The third coupler K3, which is still switched permeable, takes place with the help of the extinguishing coupler K 2 in the manner already described. The extinguishing coupler K 2 thus serves both for Deleting the transmit coupler K 1 as well as deleting the third coupler K 3.

The control signals required to control the couplers used can from a transmission circuit in which z. B. a microprocessor is provided, can be made available in a particularly simple manner.

Claims (4)

Claims: 1. Circuit arrangement for the transmission of direct current signals on a transmission line with galvanic isolation between a transmission circuit and the transmission line using triac and / or thyristor optocouplers in connection circuits of teleprinting technology, characterized in that in the transmission branch (1, 2) of the transmission line (L) the light-evaluating element of a first triac or Thyristor optocoupler (K 1) and between the wires (1, 2) the light evaluating element a second triac or thyristor optocoupler (K2) and one known per se Quenching circuit (R 1, R 2, C1) are arranged that the light-emitting elements the two couplers (K 1, K 2) can each be controlled in this way via the transmission circuit (S) are that the first coupler 1) when sending a current step and the second Coupler (K 2) is switched on when a pause step is sent, and that over the switched on second coupler (K 2) a short circuit for the first coupler (K1) exists. 2. Circuit arrangement according to claim 1, characterized in that the first coupler (K1) is a Doppe! -Thyrlstor optocoupler, both of which are light evaluating Elements have opposite transmission directions, and that for their control two light-emitting elements are arranged in the transmission circuit (S). 3. Circuit arrangement according to one of claims 1 or 2, characterized characterized in that in the gate terminal (G1, G11, G12) of the first coupler (K1) one consisting of a resistor and a capacitor (R 3, C2; R 4, C3; R 5, C4) Flattening is provided. 4. Circuit arrangement according to one of claims 1 to 3, characterized characterized in that a third triac connected in parallel to the first coupler (K 1) or thyristor optocoupler (K3) is provided, which via the transmission circuit (S) is switched on when the quiescent current (IR) is emitted and the quiescent current (IR) determining resistance (R 6) between the wires (1, 2) of the transmission line (L) switches, and that to delete the third coupler (K3) the second coupler (K 2) is switched on. The invention relates to a circuit arrangement for transmitting DC sign on a transmission line with galvanic isolation between a transmission circuit and the transmission line using triac and / or Thyristor optocouplers for connection circuits in teleprinting technology. An essential requirement for connection circuits of the telex and data technology consists in the fact that the send contact, via which the keying of a Transmission line takes place, from its controller, which is hereinafter referred to as a transmission circuit is called, is galvanically separated. This requirement was known from the earlier Arrangements with relays and relay contacts easily fulfilled. Find increasing however electronic replicas for transmission contacts use, being for galvanic Separation of the use of optocouplers has become known. In doing so, however, occurs the problem that the transistor used to control a transmit contact necessary tax payment is not available without additional effort. It therefore either an additional auxiliary voltage must be provided in the transmission circuit or special circuits, for example Darlington circuits, can be used. In the first case, the effort increases due to the creation of a ungrounded auxiliary voltage considerably. In the second case occurs in addition to an increased Circuit complexity also add to the fact that the voltage drop at the closed transmitting contact increased and that the current carrying capacity is low. The object of the invention is to provide a circuit arrangement for a to specify electronic send contact, which is made using optocouplers for galvanic isolation between the actual transmission circuit and the transmission line works without additional auxiliary voltage, which when the send contact is closed has a low voltage drop, and that even with a high current load of the Sender contact works safely. The invention assumes that recently so-called triac optocouplers and so-called thyristor optocouplers have become known with which a current can be switched without additional tools. Proceeding from this, the object on which the invention is based is thereby achieved solved that in the transmission branch of the transmission line the light evaluating element of a first triac or thyristor optocoupler and between the wires of the transmission line the light-evaluating element of a second triac or thyristor optocoupler and a per se known extinguishing circuit are arranged that the light-emitting Elements of the two couplers can each be controlled via the transmission circuit in such a way that that the first coupler when sending a current step and the second coupler is switched on when sending a pause step, and that via the switched on second coupler there is a short circuit for the first coupler. A circuit arrangement constructed in this way has the advantage that it the use of the recently popular triac and / or thyristor optocoupler allows it to continue to be built in a space-saving manner, and that the requirements for a low voltage drop and a high Current load on the closed send contact are fulfilled. A so-called double thyristor optocoupler is found in an embodiment of the invention Use, which has the advantage that the circuit for each current direction can be controlled separately. In a further refinement, the are in the gate connection as a transmit coupler Triac or thyristor optocoupler used flattened switch provided with which allow a partial flattening of the characters to be transmitted. Finally, the circuit arrangement can be designed in such a way that that a switchover between the telegraphy stream intended for writing operation, z. B. 40 mA, and the quiescent current, z. B. 2 mA is possible.