DE1261556B - Call memory with flashing signal system for telecommunication systems, especially intercoms - Google Patents

Description

Call memory with flashing signal system for telecommunication systems, in particular Intercom systems With signal or intercom systems, it is often necessary to to save the outgoing call from a subscriber, with the called party a signal is given indicating that it is being called and by whom, and that remains until the called station answers. It is known, as a signal - to give a flashing signal by means of a signal lamp, which is triggered by a mechanical clock is controlled. The signal only appears on the called one Place so that the calling party has no control over whether the ringing signal is on the called party Has arrived.

The invention relates to a call memory with a flashing signal system For telecommunication systems, in particular intercom systems., wherein according to the invention a monostable multivibrator containing two transistors serves as a call memory, by charging one between the emitter and the base of one transistor lying capacitor until the discharge of this capacitor becomes astable. The call charge of the capacitor can be done by means of a switch that is activated by the caller is operated. With another switch that is parallel to the capacitor, the capacitor can discharge, thereby restoring the monostable state will. Through a third switch that is between the collector and the emitter of the one transistor is arranged, this transistor can be short-circuited for a short time and thereby, without completely discharging the capacitor, the astable function of the multivibrator temporarily interrupted. In the supply lines to one or both collectors Signal lamps can be arranged in the two transistors. These signal lamps light up when the assigned transistor is conductive, and go out when the transistor blocks. Accordingly, the signal lamps give as long as the arrangement works astable, flashing light, on the other hand permanent light, if the associated Transistor is permanently on, and they go out when the associated transistor for permanent locks.

To bring about the astable function when the capacitor is charged, it is advisable to use the negative assignment of this capacitor via a resistor the base of a transistor and through a resistor and a rectifier connected to the collector of the other transistor. The rectifier is there switched so that it blocks the drainage of the negative capacitor charge when the potential of the collector is positive towards the negative pole of the power source, however, allows the capacitor to be recharged when this transistor blocks and thereby the potential of its collector of the negative voltage of the voltage source is equivalent to. The collector of the transistor whose base is connected to the capacitor is, and the blocks as long as the capacitor is not charged, is about one Resistor and a capacitor parallel to this resistor with the base of the connected to another transistor.

An embodiment of a paging memory according to the invention is shown in the picture. The function is illustrated below using the illustration below explained.

In the initial state, the capacitor 17 is discharged, in this state the transistor T 1 has current flowing through it. The transistor T2 blocks because as a result of Voltage drop across resistor 7 at base 15 of this transistor across the resistor 10 a voltage is supplied that is too low compared to the voltage of the emitter 16 is negative to allow current to flow.

In this state, the arrangement is stable, the signal lamp 13 in the supply line from the negative battery pole to the collector 14 does not light up, the signal lamp 23 in the lead to the collector 6 of the transistor T1 lights up continuously.

If the switch 19 is briefly closed by pressing the button, the capacitor 17 is charged. A signal lamp 18 is provided in the supply line, the brief lighting up of which when the button is depressed indicates that the call charge has taken place. As a result of the charging of the capacitor, the base 15 of the transistor T2 is supplied with a negative voltage via the resistor 12; this negative voltage causes the transistor T2 to conduct current. The signal lamp 13 lights up. As a result of the voltage drop in the signal lamp or, if necessary, an additional resistor connected in series with it, the potential at the collector 14 shifts towards positive values. This voltage change is transmitted via the impedance 2.3 to the base 5 of the transistor T1. The voltage of the base 5 therefore also shifts to positive values and the transistor T1 blocks. The signal lamp 23 goes out. Then the capacitor 2 discharges through the resistors 1 and 3. As soon as the polarity of the voltage on the capacitor 2 has reversed: the base 5 of the transistor T1 receives negative potential again, this makes this transistor conductive again, the signal lamp 23 lights up again . Due to the voltage drop in the signal lamp 23 and in the resistor 7, the potential at the collector 6 again shifts towards positive values. This voltage change is transmitted via you, impedance 10-11 to the base 15 of the transistor T2, so that the transistor T2 now blocks again; the signal lamp 13 goes out. The capacitor 11 discharges through the resistors 12 and 10, whereby the initial state is reached again and the process described begins again. In the state in which the transistor 1 blocks, so that the full negative voltage of the voltage source is applied to the collector 6, the capacitor 17 is also recharged via the rectifier 8 and the resistor 9, so that the charge on the capacitor 17 is not consumed . On the other hand, the rectifier 8 prevents a discharge of the capacitor 17 in the phase of the process in which the potential of the collector. 6 is positive compared to the negative pole of the voltage source. As long as the capacitor 17 is charged, both the signal lamp 13 and the signal lamp 23 are therefore flashing light. Depending on the application of the circuit, it is not necessary for signal lamps to be arranged in the supply lines of both collectors; on the other hand, two signal lamps can also be provided in one of the supply lines.

When the button 20 is pressed: the transistor T2 is short-circuited, a current flows from the negative pole of the voltage source via the signal lamp 13 to the positive pole of the voltage source, the signal lamp 13 shows continuous light. Simultaneously the transistor T1 becomes current-permeable again, the sine lamp 23 thus also shows Steady light. If button 20 is released again within: a certain period of time, d. H-. at a point in time at which the capacitor 17 is not yet fully charged has lost, the flashing process starts again. On the other hand, is the charge on the capacitor 17 dropped to the extent that its voltage is no longer sufficient, the transistor To make T2 current-permeable, the system is again in the monostable State, there is no flashing of the signal lamps, but the signal lamp 13 goes out and the signal lamp 23 shows steady light. The system is now ready by: recharging the capacitor 17 by means of the switch 19 back in to be placed in the astable state.

In parallel with the capacitor 17 there is also a short-circuit switch 21 provided. If the capacitor 17 is discharged by actuating this switch, so the monostable state is immediately restored and the multivibrator is ready again for a new call storage.

This system can be used as a call memory: that the switch 19 and one of the signal lamps 13 or 23 when calling the Switches 20 and 21 and also one of the signal lamps 13 or 23 at the called party are located. When the caller presses the call button, the switch 19 is briefly closed, the signal lamps for the caller and the called party show a flashing light. The called party answers after pressing a switch which, among other things, has the Switch 20 closes. The signal lamps show a steady light, so that both the caller, as well as the called party recognize that the caller is now passing on his message can. At. Termination of the conversation or even at the same time as the actuation of the switch 20: the switch 21 is briefly closed, so that the call system is now ready to call again. Instead of one of the two. Signal lamps at the caller and to arrange the other with the called party can also be in one and the same feed line to one of the collectors there are two signal lamps in series, one of which is with the calling party, the other is with the called party.

In place of transistors, insofar as this is economical: portable, switching tubes can of course also be used, and in place of the manually operated switches. electronic switches, e.g. B. switching transistors are used. Likewise can. .Place signal lamps also other display devices; z. B.. Indicators or acoustic display devices such as buzzer, may be provided. Compared to the known systems, the device has the advantage that flashing and continuous signals are generated without the use of moving parts, which show both the caller and the called party that the call has arrived and stored, or that the call has been accepted, and that the system is ready to be called again. The switch 20, which does not let the capacitor come to discharge with a relatively short actuation, also gives the possibility of the called station without answering the call to give a sign, which can mean, for example, that the caller is waiting a little longer must be answered until his call. can. The arrangement according to the invention can also be used in a way other than that described, for example as a pure signaling system in which a signal is sent to the receiving station by pressing a key, which confirms receipt of the signal by pressing a counter key. Such signal systems can be used, for example, in aircraft or watercraft to transmit commands from the vehicle control to the machine system, with each of several switches 19 then being assigned a specific command.

Claims (7)

Patent claims: 1. Call memory with flashing signal system for telecommunication systems, in particular intercom systems, characterized in that a call memory is used Monostable multivibrator containing two transistors is used, which is charged by charging one between the emitter (16) and the Base (15) of one transistor (T2) lying capacitor (17) until the discharge of this capacitor becomes astable. 2. call memory according to claim 1, characterized in that the charging of the capacitor done by hand by means of a switch (19). 3. Call memory according to claim 1 or 2, characterized in that a short-circuit switch (20) is arranged between the collector (14) and the emitter (16) of the one transistor (T2). 4. call memory according to one of claims 1 to 3, characterized by one for Capacitor (17) parallel discharge switch (21). 5. Call memory after one of claims 1 to 4, characterized in that the negative assignment of the capacitor (17) via a resistor (12) to the base (15) of a transistor (T2) and Via a resistor (9) and a rectifier (8), the drainage of the negative Capacitor charge blocks, connected to the collector (6) of the other transistor (T1) is. 6. call memory according to one of claims 1 to 5, characterized in that the collector (14) of a transistor (T2) via a resistor (3) and a to this resistor in parallel capacitor (2) with the base (5) of the other transistor (T1) is connected. 7. call memory according to one of the claims 1 to 6, characterized in that in the supply lines to one or both Collectors (14, 6) of the transistors (T1, T2) signal lamps (13, 23) are arranged. B. call memory according to one of claims 1 to 7, characterized in that in a signal lamp (18) is arranged on the charging line of the capacitor (1). Into consideration Extracted publications: German Auslegeschrift No. 1091910.