DEN0008049MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: November 18, 1953. Advertised on May 3, 1956

GERMAN PATENT OFFICE

There have already been proposed electronic self-attaching telephone systems in which 'A subscriber station is connected to a control center by a connecting line and is located there Interposition of a current source is connected to the primary winding of a transformer, its secondary winding when the subscriber calls via further connecting means to a Connection line can be laid. In the known system, this is done by means of gas discharge paths, Which streams of characters and speech can be passed on. The internal resistance of these discharge paths is proportional high, and the purpose of the transformer is to reduce the low resistance of the connection line or the subscriber station up to be traced, so that a better adaptation can be achieved between the two. A disadvantage of this measure is that the transformer is unable to pass on changes in direct current, so that direct current symbols of the usual form cannot be transmitted.

The subscriber station here has a number disc with whose pulse contact the Subscriber line of the desired number can be interrupted accordingly often, whereby

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In the secondary winding of the transformer when the loop is closed and opened, pulses of opposite polarity arise. The impulses that appear at the beginning of each dialing digit have the same polarity as the impulse that ^{arises when the call 1 is ended} by hanging up the handset. In order to be able to distinguish the dial pulses from such a final pulse, they are in the known system by

ίο marked an amplitude difference. to for this purpose the number disc of the subscriber station is bridged with a resistor, so that the dial impulses are weaker than the final impulses, and the receiving organs in the control center are designed in such a way that they respond differently to strong impulses than to weak impulses. to speak. Such a difference in size between pulses of different types can, however, be found in the Cause practice disruptions, e.g. B. according to different resistances of the connecting lines. When registering, it is essential that the subscriber line has a transformer is coupled to the connection circuit. It is therefore impossible from the outset with this system To give direct current signals in the connection circuit, for example dialing pulses, termination signals or similar. With the usual telephone systems with self-connection differ the dialing impulses clearly from the final signal, because the dialing impulses over the subscriber line flowing direct current is interrupted only briefly, at the final sign, d. H. , when you hang up the handset, the direct current is completely switched off. One such approach is but not possible with the subject of the application, since the transformer is the transmission of Direct current prevented.

The system according to the invention eliminates the above drawback. Here the receiving organs contain a flip-flop that is in an electrically stable idle state or in an electrically stable working state and such of pulses of different polarity that when opening and closing the line current flow it is controlled that it is opened upon opening the line loop goes into the working state and when the line loop closes to Rest position returns. Next, the output of the flip-flop is through an integrating network coupled to the control electrode of an auxiliary tube which is normally blocked. The potential of this Output is relatively low in the rest position of the toggle switch and in the working position higher than is necessary to bring the auxiliary tube into the conductive state, one being sufficient large Zeitkonstaiite of the integrating network ensures that the potential of the control electrode of the auxiliary tube during a dial pulse series remains below the value at which the auxiliary tube becomes conductive. The leadership of the

. ■ Auxiliary tube is the criterion that a Final pulse has been received, i.e. the line loop. was interrupted for a long time.

When the auxiliary tube becomes conductive, the connection is disconnected again.

The invention thus solves the problem of being able to distinguish between the dialing pulses and the final characters when using a transformer. A flip-flop is provided for this purpose, which is controlled by the secondary pulse voltages emitted by the transformer. As is well known, the ₍ secondary impulses order from voltage peaks generated by differentiation, which are obtained from the primary-side impulses by means of the transformer Arriving, but a final signal pulse ignites.

It is already known to use a tube toggle circuit in relay circuits for telecommunications engineering purposes to use, but the known flip-flop is neither controlled by the dialing pulses in any way, nor is here an integrating network is provided which cannot be dispensed with in the subject matter of the application can.

The invention is explained in more detail using an exemplary embodiment shown in the drawing.

The subscriber station 1 is connected to the ends of two identical windings 4 and 5 of a transformer 6 in a control center via the voice wires 2 and ~ 3: The other ends of the windings 4 and 5 are connected in series with a resistor 7 to the terminals of a power source 8 and coupled together for speech currents through the capacitor 9. One end of a secondary winding 10 of the transformer 6 is grounded in parallel via a resistor 11 and a capacitor 12, while the other end of the winding 10 is connected via the multiple point 13 to the cathodes k of a number of gas discharge tubes 14, only one of which is shown in the drawing , and via which a connection to a connecting line can be established when the subscriber calls. The anodes α of the gas discharge tubes 14 are for this purpose on lines 15 in different connecting lines. For the sake of simplicity, in the drawing is only. a connecting line is shown. The line 15 is in each connecting line via the primary winding 16 of a transformer 17 and. the resistor 18 and the capacitor 19 in parallel with an unillustrated voltage source .0. / connected to I _1, the voltage zwisehen lower than the firing voltage between the anodes and the cathodes of gas discharge tubes, but higher than the Brennspanriung these electrodes. The tubes are normally blocked. An ignition electrode / the tube is connected to a tapping point of the voltage divider 21,22, which is connected between the point 20 and earth and which is dimensioned so that the potential of the ignition electrode / in the conductive

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State of one of the tubes is somewhat 'lower than the ignition voltage between the ignition electrode / and the cathode k of these tubes.

If the subscriber picks up the receiver for a call, a circle is drawn from the positive pole of Voltage source 8 via resistor 7, winding 4, core 2, station 1, core 3 and the winding 5 closed to minus. Due to the differentiating effect of the transformer 6 a brief negative impulse arises in the multiple point 13, whereby all at one Free connecting line lying tubes 14 can ignite. As soon as one of these tubes ignites, a voltage drop occurs across the resistor 11, and the potential of the cathodes of the tubes 14 increases in such a way that it is impossible to ignite the remaining tubes. On an occupied connection line lying tubes cannot ignite because their ignition electrode potential is due to the resistance at the resistor 18 of such a connecting circuit the voltage drop that occurs is relatively low. Has value.

When a tube 14 is ignited, the voltage at the point 20 in the associated connecting line drops, and the amplifier tube 23 thus transmits a positive pulse to the point 24, which is passed on via the capacitor 26 to the ignition electrode / gas-filled tube 27. The ignition electrode / receives a bias voltage BA ₂ via the resistor 28 ', which is slightly lower than the ignition voltage, so that this tube ignites impulse as a result of the call mentioned. The tubes 27 and 28 together form a toggle switch. The anodes α of this tube are fed jointly via the resistor 29 from the current source BA] ₁ . Resistors 30 and 31 are located in the cathode circuits, and the cathodes k are further capacitively coupled to one another via the capacitor 32. In the cathode line of the tubes 28 there is also a rectifier 33, the purpose of which is explained below. The device is made in such a way that when one tube is ignited, the other extinguishes automatically.

It is now assumed that the subscriber dials the number 3 using the dial. When the line loop is opened, a positive pulse arises in the multiple point 13, which is transmitted from the gas discharge tube 14 via the winding 16 and the amplifier tube 23 as a negative pulse to the point 24 and passed on from the rectifier 34 and capacitor 35 to the cathode k of the tube 28. The rectifier 33 prevents this pulse from being attenuated by the resistor 31 provided. The ignition electrode / tube 28 has a voltage BA ₂ which is slightly lower than the ignition voltage, so that it ignites as a result of the negative pulse occurring at point 24 when the line loop is opened. Here the tube 27 goes out. When the line loop closes at the end of each number disc pulse, a negative pulse occurs at point 13 and a positive pulse at point 24, with tube 27 igniting again and tube 28 going out.

. The point 36 in the cathode circle of the tube 28 is via the rectifier 37 with the connection point

38 connected to an electronic counting circuit TS . This counting circuit is of a type known per se and contains ten gas-filled tubes, of which only the tubes 39, 40 and 41 are shown in the drawing. The anodes α are connected to the voltage source BA ₁ , while the cathodes are connected via separate resistors 42, 43, 44 to a common point 45 grounded via the resistor 46. The ignition electrode / tube

39 is connected to the tapping point 47 of the voltage divider 48, 49, 50 connected _{between the supply source 5 ^ Ii 1 and earth.} It therefore has a potential which is somewhat lower than the ignition voltage, provided that the tube 51, the anode of which is connected to the point 52 of the voltage divider mentioned, is not carrying any current. The ignition electrode / the other tubes of the counting circuit TS are each connected to the cathode of the preceding tube via a resistor 53, 54, etc. The cathodes k are further coupled to each other through capacitors 55, 56, 57 etc .; the ignition electrodes in the various tubes are connected to the input point 3.8 of the counting circuit via capacitors 58, 59, 60. The counting circuit records the number of positive pulses that occur at input point 38. With the first positive pulse, the tube 39 ignites, the ignition electrode of which has the highest potential of all ignition electrodes at this moment. As a result of the voltage drop across the resistors 42 and 46, the potential of the ignition electrode / the second tube 40 rises to above that of the remaining ignition electrodes, so that the tube 40 ignites with the second pulse. The capacitor 55 then transmits a strong positive pulse from the cathode of the tube 40 to the cathode of the tube 39 so that the latter is extinguished. In addition, the potential of the ignition electrode of the tube 41 rises to a high value, whereby the third pulse ignites the tube 41 and the tube 40 goes out, etc.

For the reasons mentioned below, the circuit arrangement is such that the counting circuit records the number of pulses which occur when the line loop is closed. The call impulse is not recorded, however. The input point 38 receives via the resistor 61 a ¹ bias voltage BA ₃ , which exceeds the potential that occurs in the conductive state of the tubes 27 and 28 at their cathodes. The rectifier 2> 7 is therefore blocked both in the conductive and in the non-conductive state of the tube 28. As already noted, the tube 27 ignites when a call is received. The rectifier 37 then remains blocked, since the potential of the point 36 cannot exceed the voltage BA _{3 in} this case. At the beginning of the first dial pulse 12a, the tube 28 ignites. Here, too, the potential of the point 36 remains below the voltage BA ₃ . At the end of the Dial pulse of the rectifier 37 but is conductive, because the voltage drop increases across resistor 30 to the voltage supply ¹

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follow the conductive tube 28 passes through the capacitor 3 2 so that the total amount is higher than the voltage BA _B. At the end of each dial pulse, ie when the line loop closes, a positive pulse occurs at point 38, which is recorded by the counting circuit TS in the manner already described.

The cathodes k of the tubes 39, 40/41 etc. are coupled to ignition electrodes / gas-filled tubes 66 via delay networks 62, 63, 64, 65. For the sake of simplicity, only one of the delay networks and only one of these tubes is shown in the drawing. As already noted, the tubes 39 and 40 ignite with the first and second dial pulse. The voltage of the cathodes of these tubes increases, but the voltage of the ignition electrodes, which are connected to these cathodes via delay networks (not shown), cannot increase that much that the corresponding tubes ignite, since the tubes 39 and 40 only remain conductive for a short time. Since there is no fourth after the third dial pulse, the tube 66, the ignition electrode of which is coupled to the cathode of the tube 41, ignites. The tubes 66 serve to establish a connection between the connecting line and the following apparatus, which are shown schematically and denoted by 25 and

z. B. can consist of the following elective levels or outgoing connection lines. The anodes α of _{the tubes 66 are connected to the voltage source ZMi 1} via the secondary winding 67 of the transformer 17 and the resistor 69 bridged by the capacitor 68, while the cathodes k are each connected via a winding of a transformer 70 and a resistor 71 and a capacitor 72 in Parallel connection are earthed. If the apparatus 2 5 is already occupied, the tube 66 cannot ignite, since the multiple point 73 then has a higher one. Has potential. The ignition of the tube 66 means that the apparatus 25 is free. It is desirable that the counter circuit TS during ignition of the tube 66 returns to the Rühelage, otherwise the capacitors 64 and 65 maintain a relatively high voltage, which may have the consequence that at the end of the conversation, wherein all gas tubes have to be deleted, the tube 66 ignites again.

If the voltage of the anode of the tube 66 drops, the line 74 transmits a negative pulse to the cathode k of the tube 76 via the capacitor 75, as a result of which this tube ignites and the potential of its cathode rises. This has the consequence that the capacitor 77 sends a positive pulse to the cathodes of all tubes of the counting circuit TS and the tube 41 goes out. In the cathode circuit of the tube 76 such an impedance 78, 79, 80 is added that this tube goes out again automatically.

A connection has now been established between the subscriber station 1 and the apparatus 25 via the transformer 6, the gas discharge tube 14, the transformer 17, the gas discharge tube 66 and the transformer 70. The subscriber can now dial the next number. The tube 51 prevents the counting circuit TS from responding again in this series of dials. The ignition electrode / tube 51 is connected to the cathode of tube 39 via resistor 81. As already noted, the tube 39 is ignited by the first dial pulse. The voltage of the cathode increases in such a way that the tube 51 also ignites, as a result of which the voltage of the ignition electrode / the tube 39 assumes a relatively low value. The tube 51 is not erased when the tube 76 becomes conductive. At the beginning of each dial pulse of a subsequent series of pulses, the tube 28 and at the end of each pulse the tube 27 80 'will ignite, whereby a positive pulse is transmitted to the input point 38 of the counting circuit TS , but the voltage at the ignition electrodes of the tubes is the counting circuit now in such a way that none of these tubes can become conductive.

If the subscriber hangs up his receiver at the end of the conversation or, if necessary, before establishing a voice connection, a positive pulse occurs in multiple point 13 and a negative pulse in point 24, as is the case at the beginning of a dial pulse, whereby the tube 28 in the described way ignites. The positive pulse at point 13 is not followed by a negative pulse, so that the tube 28 remains conductive. The point 36 in the cathode circuit of the tube 28 is coupled to the ignition electrode / gas tube 84 via an integrating network consisting of the resistor 82 and capacitor 83. In the conductive state of the tube 28, the potential of the point 36 is higher than the ignition voltage of the tube 84. During a number disk pulse series, the tube 28 only remains conductive for a short time. The voltage of the ignition electrode / tube 84 cannot then increase in such a way that the tube 84 ignites. After receiving a final pulse, the tube 28 remains conductive, and after some time the voltage of the ignition electrode of the tube 84 increases enough to ignite the tube 84. The capacitors 85, 86, 87 and 88 then each transmit a strong negative pulse to the anode circuits of the tubes 14, 66, 27, 28 and 51, so that these tubes are extinguished. In addition, the capacitor 89 supplies the ignition electrode / tube 76 with a positive pulse, this tube ignites and returns the counting circuit to the rest position, if this has not already been done by igniting the tube 66. In the cathode circuit of the tube 84 such an impedance 90, 91, 92 is added that it goes out again automatically. As noted, due to the integrating network 82, 83, some time elapses before the tube 84 ignites upon receipt of a final pulse. If the switching arrangement were such that the counting circuit would count the number of pulses which arise when the line loop was opened, the counting circuit would also be

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respond to the final pulse, and an undesirable connection could occur during the short time between the final pulse and the firing of the roller 84.
5

Claims (4)

PATENT CLAIMS: i. Self-connection telephone system, in the a partial bucket station with interposition to a power source to the primary winding of a Transformer is connected in a control center and the secondary winding of this transformer 'when the subscriber calls via other connection organs a connection line can be connected, the means for receiving from the Subscriber station sent out dialing signals are assigned by the subscriber loop according to the number dialed ao is broken, characterized in that the Receiving organs contain a toggle switch, which is in an electrically stable rest position and can be in an electrically stable working position and by impulses different Polarity that occur when opening and closing the subscriber loop, controlled in this way is that it goes into the working state when the line loop is opened and when Closing the line loop returns to the rest position, the output of the flip-flop via an integrating network with the control electrode of a normally blocked Auxiliary tube is coupled and the potential of said output in the rest position the flip-flop circuit is relatively low and in the working state higher than is necessary to to bring the auxiliary tube into the conductive state, and that the time constant of the integrating Network is chosen such that the potential of the control electrode of the auxiliary tube remains below the value at which the auxiliary tube becomes conductive, and that means are provided which when the auxiliary tube becomes conductive Return connecting organs to the rest position. 2. System according to claim ι with a counting circuit for receiving dial pulses, characterized in that the counting circuit of the when closing the Participant loop generated pulses is controlled. 3. Plant according to claim 2, characterized in that means are provided which a Prevent the counter circuit from responding to the impulse generated by a call. 4. Installation according to claim 3, characterized in that the trigger circuit has a first and a second gas-filled discharge tube that is normally locked and so interconnected are coupled so that when one tube becomes conductive, the other tube is blocked is, and which are controlled by the pulses that when the line loop closes the first tube is conductive and when the line loop is opened, the second tube is conductive is, and corresponding output electrodes of the tubes each via a resistor with a Point of constant potential connected and capacitively coupled to each other, the mentioned output electrode of the second tube coupled to a point via a rectifier is to which such a bias voltage is supplied via at least one resistor, that this rectifier with correct polarity both in the conductive and in the non-conductive State of the second tube is blocked, but briefly when the second tube is deleted becomes conductive, in that the first tube ignites, and that the counting circuit is here on the latter Point occurring pulses are fed. Referred publications: German Patent No. 885726; British Patent No. 698 538. 1 sheet of drawings