DE618576C - Circuit for call converter on telecommunication lines - Google Patents

Description

With long-distance communication lines, the call becomes common by a modulated alternating current, e.g. B. one for 20 periods per second converted alternating current of 500 frequencies. Upon receipt at the terminus the call to the urban network occurs through electricity with the frequency of 25 periods. The conversion is done by so-called call converters, which branch off are provided on the line) and while this converter is working the line interrupted at the point of the converter in order to prevent the ringing current from reaching the input terminals of the converter with 25 periods and a response the electromagnet causes. However, this interruption is particularly due to this disadvantageous because the contacts are dangerous

2Q run after a certain period of operation to wear themselves out, which is all the more uncomfortable as they are in the speech circuit.

For forwarding the call to telephone systems using amplifiers Lines is already known a circuit in which the via the input conductor incoming call current acts on a call reception relay and influences a further call relay via an intermediate relay and this when responding via its contacts the low-frequency ringing current source to the Output conductor connects without the overall line being interrupted. at this circuit, however, prevents the effect of the converted ringing current to the repeater of the call converter during the call stream transmission through blocking means in the nature of the invention does not take place. Also takes place for the implementation of the low frequency Rufstromes in audio frequency a circuit interruption, which therefore only during the first part of the switching process is avoided.

It is also used in circuits for the transmission of ringing currents for two-wire lines already known, through a relay that takes effect on further call, the further call current source in such a way to connect to the telecommunication line that via the onward call stream The relay brought into effect the telecommunication line from the amplifier of the Rufumetzers switched off and thereby the The effect of the converted ringing current on the amplifier is prevented. At this Switching takes place during the ringing current transmission, an interruption of the registration line by contacts instead. One such line interruption in both transmission directions is according to the invention avoided that during the

Ringing current transmission the effect of the converted ringing current on the amplifier the call converter is prevented by blocking means.

For this purpose, an impedance and capacitor formed with the Frequency of the converted ringing current brought into resonance switching arrangement, which does not allow the converted ringing current to enter the amplifier of the call converter, is used or a counter voltage can be applied to the input terminals of the amplifier using a junction that is symmetrical to the circuit in front of these terminals is. This circuit and the branch can still contain the same resistances, and the branch can also be used to balance the transmission line Resistance as well as circuits tuned to the unconverted ringing current frequency exhibit.

The drawing illustrates in Figs. Ι to 3, for example, different embodiments the circuit according to the invention. Fig. 4 schematically illustrates the circuit principle used in Fig. 3 Call converter s.

In the individual figures, the same reference symbols designate the same parts, namely i, 2 the communication line with the connection points ο, α ' and b, b', 3 as an amplifier and detector for the ringing current to be converted from 500 periods to 20 periods, 4 the Ringing current source with 25 periods for the call in the direction from 1 to 2, 5 the ringing current source of 500 periods for the call in the direction from 2 to 1, 6, 6 'and 7, Y resistors, 8, 10 and 10' on the Frequency 500 tuned current travel, 11, 11 'choke coils, 12 a resistor, 13 .. 14, 15, 16 electromagnets

According to Fig. R, the modulated ringing current with a frequency of 500 periods, which comes from the remote station "on the line side", is picked up via the connection points a, a! At the terminals of the amplifier 3. Its reception is facilitated by the fact that the circuit 8 is tuned to the frequency 500. The action of the electromagnets 13 and 14, of which the electromagnet 14 works with a delayed armature drop, causes the current source 4 to be switched on at the frequency of 25 periods at the connection points b, b ' , so that the .Ruf is transmitted to the line side 2. In order to avoid that this ringing current penetrates into the device 3, the circuit structure consisting of the impedance 8 and the capacitor 9 is tuned to resonance with a frequency of 25 periods The various elements of this branch short-circuiting the entry side of the amplifier 3 for the current of 25 periods are determined by the equations:

ω ₀ - 2 π * 500

CO ₁ -23ί · 25

The suitably dimensioned capacitors 17 likewise prevent the entry of the current with the frequency of 25 periods into the amplifier. During the ringing current transmission there is no interruption of the communication line containing the capacitors 18 between the points u, a ' and b, b' . The electromagnets 15 and 16 are energized when receiving a call with a current of 25 periods per second, which comes from side 2. You turn on the power source 5 in order to transmit the call with a modulated current of 500 periods per second after ι, and bring the amplifier out of circuit.

In the circuit according to Fig. 2, in order to cancel the effect of the low-frequency ringing current coming from the power source 4 on the amplifier 3 without interrupting the communication line i, 2, the voltage at terminals A ₁ B of the amplifier is "equal to the voltage" by means of the Branch 28 opposite, which is symmetrical to the circuit 27 in front of the terminals A ₁ B. For this purpose, the resistors 6, 6 'of the branch 28 are equal to the resistors 7, 7' of the circuit 27, and the resistor 12 of the branch 28. The oscillation circuits 10, io 'are tuned to the frequency 500 in order to prevent the voltage generated at points A, B from being generated by the ringing current coming through connection points a, a' is also opposite to an equal voltage which is produced by the current coming from the connection points b, b ' '' prevent the discharge of speech currents in the call converter.

The circuit principle of the embodiment of the invention shown in Fig. 3, in which, as in Fig. 1 and 2, a ringing current of coming from the line side 1 of the frequency 500 is converted into a current of the frequency 25 to the line side 2 is shown schematically in Fig. 4

given. The power source indicated in Fig. 4 with the frequency 500 is the power source of the remote station on the line side i. The line sides 1 and 2 are characterized by equivalent impedances, z. B. the resistors of 800 ohms replaced. The whole circuit of Fig. 4 forms a Wheatstone bridge in equilibrium with respect to the current source 4, and the terminals A and B of the amplifier 3 are at the same potential. The current with the

- sequence 25, which originates from the current source 4, therefore does not penetrate into the amplifier 3.

The oscillating circuits 10 and io 'are tuned to the frequency 500 and play the same role as in the circuit according to Fig. 2. The resistors 6, 7 and 7' are the same, the resistance 6 'is equal to that increased by the impedance of the line Resistor 6, and the branched off impedance, which the circuit has between points α, α ' and points b, b' , is sufficient to prevent the speech currents from being discharged. In the circuit according to Fig. 3, the switching on of the power sources does not take place, as in Figs. 1 and 2, by the electromagnets 14 and 16, which switch off the corresponding receivers, but by the electromagnets 14 'and 16', which are controlled by the electromagnets 14 and 16 be switched on.

Claims (5)

PATENTAN s PK oks: i. Circuit for call converters on telecommunication lines, in particular in telephone systems, in the case of the ringing current transmission in neither of the two transmission directions an interruption of the communication line takes place by contacts, characterized in that the effect of the converted ringing current on the amplifier of the call converter during the ringing current transmission is prevented by locking means. 2. Circuit according to claim 1, characterized in that the entry of the converted Rufstromes in the amplifier of the call converter through an impedance (8) and capacitor (9) formed with the frequency of the converted ringing current in resonance is prevented (Fig. 1). 3. A circuit according to claim 1, characterized in that at the input terminals (A, B) of the amplifier (3) a counter voltage is generated with the help of a branch (18) which is symmetrical to the circuit (17) in front of these terminals (Fig. 2). 4. A circuit according to claim 1 and 3, characterized in that the branch (18) and the thus symmetrical circuit (17 ) contain the same resistors (6, 6 'or 7) 7') and the branch (18) also has one the transmission line has a compensating resistor (12) as well as circuits (10, io ') that are matched to the unconverted ringing current frequency (Fig. 2). 5. A circuit according to claim 1, characterized in that with respect to the ringing current source (4) the entirety of the circuit forms a Wheatstone bridge in equilibrium and the terminals (A, B) of the amplifier (3) are at the same potential and the bridge branches emanating from these terminals contain the same resistors (6, 7, 7 ') and two of them matched to the unconverted ringing current frequency (10, 10'), while one of the bridge branches still has another resistor ( 6 ') (Fig. 3 and 4) ... 1 sheet of drawings