DE624389C - Circuit arrangement for correcting distorted setting currents for dialers in telecommunications systems - Google Patents

Description

The main patent relates to a circuit arrangement for correcting distorted setting current surges for voters in telecommunications systems, in which one of a current surge relay influenced by the surge receiving relay and two auxiliary relays. existing transmission facility is used.
The relay circuit of the main patent consists in the fact that the auxiliary relay switched on by the surge relay closes the circuit for the other auxiliary relay, which in turn interrupts the excitation circuit of the first auxiliary relay, while the surge relay is switched into a holding circuit running through contacts of the auxiliary relays connected in parallel.

This arrangement after the main

ia patent, perfect operation of the transmission device is achieved with the usual speed of the current impulse transmitter for setting the dialer.

More recently, however, one has to reduce the setting time for the voters the speed of the rush current is increased significantly. With such a fast one Current impulse sequence, however, suffice the devices provided in the main patent for backup the rush current not yet, so that disturbances are to be feared, the z. B. thereby may be conditional that. the surge receiving relay at the next surge responds before the transmission device to receive a further current surge ready. This can lead to a so-called swallowing of electrical surges, see above that the arrangement does not always work properly under the specified conditions.

The present invention is now a development of the main patent under Protection provided and the purpose of the operation of the transmission facility even for the highest speed of the impulse application, it works perfectly design. This is achieved by the fact that the excitation circuit of the first auxiliary relay interrupting other auxiliary relays on termination of the passed current impulse the state of the transmission device which enables the reception of a further current surge regardless of the energization state of the surge receiving relay.

As an embodiment of the invention are shown in Figs. 1 and 2 devices for transmission and correction of alternating current surges in telephone systems with telephone operation shown, and only so far as they are essential for understanding the invention

required are. The connection line via which the current impulse is given is on both ends sealed off from the connection devices by voice current transmitters.

For the purpose of describing the mode of operation of the arrangement shown in the drawing, the current surge correction device at the incoming end of a connecting line (Fig. 2) will first be explained in more detail. A description of Fig. 1 is initially not given, since the devices shown in this figure represent a special case to be explained later. With each incoming alternating current surge via the connecting line consisting of the wires Vd and Vb , the relay is excited via its windings I and II and closes a Stromao circuit for the relay H ₁ via the normally closed contact ng at the contact 10 i. The relay H applies 14 h to the wire via its contact. La ^{1 of} the outgoing speech line earth and to the other wire Lb ¹ via the contact 15 h ag battery. This energizes a surge receiving relay used, for example, to set the selector. At the same time, the relay M is made to respond via the contact 16 h and 17 g, which energizes the relay Q via its contact igm . This relay closes a holding circuit prepared at contact 12 h for itself via its contact 20 q. In this holding circuit, a resistor Wi is switched on, which considerably reduces the current strength of the holding circuit. Due to this high resistance, the magnetic field of the relay Q is weakened in such a way that it drops very quickly when the holding circuit at the contact 12h is interrupted. By opening the contact iy.q , the relay M is de-energized and interrupts the holding circuit of the relay H at the contact 18m, which drops out because the contact 13g was opened when the relay Q responded. H at the contacts 14 and 15 / i of the current pulse circuit for the Subordinate connection means and the contact 12 is h of the holding circuit of the relay Q interrupted. The relay Q closes its contacts 17 q and 11 q and thus prepares the correction device for receiving the following current surge. This device works perfectly even with very short current surges, since the time during which the correction device is not allowed to receive a new current surge is very short. The relay Q drops out very quickly after the received current surge has been transmitted by the relay H and, as already mentioned, prepares the excitation circuit for the current surge relay H at the contact 11 q.

However, if the incoming current surges are very long, the case could arise that when the contact 11 q closes after the relay H has dropped out, the contact loi of the surge receiving relay / is still closed and a second current surge is thus transmitted. However, if necessary, this possibility can be avoided in a very simple manner by means of a device shown in FIG. 1 at the outgoing end of the connecting line.

The device in Fig. 1 works in the following way: The direct current surges arriving via the wires La and Lb cause the surge receiving relay A to respond. This applies through its contacts ι α and 2 α ' the alternating current source WQ via the normally closed contacts 7 r and 8 r to the primary side of the transformer Ue ^L. At the same time, winding II of an auxiliary relay R is short-circuited at contact 6a and the excitation circuit for winding I of this relay R is established via contact 5 &. The contacts of the relay ^ are adjusted so that the contact 6 α is closed before the contact 5 α. The relay R has therefore been provided with a short-circuit winding (via the contacts 6 α and ar) so that it can only attract its armature after a certain delay time. Then the contacts 7 r and 8 r are opened, so that the current surge circuit closed by the relay A is interrupted again after a short time. With this device, only a very short current impulse, the length of which can be dimensioned in such a way that it is just sufficient to excite the relay / (Fig. 2), is sent over the connecting line. At the end of the incoming current surge, relay A drops out and interrupts the holding circuit at contact 5 α via windings I and II of relay R. However, since contact 9 r is open, this relay drops out without any delay, whereupon the surge transmission device is ready to receive a new surge. »»

At the incoming end of the connecting line, the device in FIG. 1 reliably prevents the surge relay H from responding more than once when a current surge is picked up by the relay J, which is readily apparent from FIG.

Claims (7)

Patent claims: i. Circuit arrangement for correcting distorted setting current surges for Voters in telecommunications systems according to patent 607061, characterized in that the other auxiliary relay (Q) which interrupts the excitation circuit of the first auxiliary relay (M) at the end of the passed current impulse (drop in relay H ) independently of the state of the transmission device (H ₁ M ₁ Q) which enables a further current impulse to be received from the energized state of the surge receiving relay (/). 2. Circuit arrangement according to claim i, characterized in that the magnetic. Field of the auxiliary relay (Q) is weakened by a device (JVi) in the holding circuit for the auxiliary relay (Q), which is dependent on the surge relay (H) , so that it drops very quickly when the passed current surge is terminated. 3. Circuit arrangement according to claim 2, characterized in that a high-resistance resistor (JVi) is switched on in the holding circuit of the auxiliary relay (Q). 4. Circuit arrangement according to claim I, characterized in that the auxiliary relay (Q) when it drops, the circuit for the current impulse transmission relay (H) prepared, which is closed when a further current impulse is received. 5. Circuit arrangement according to claim i, characterized in that the current surge correction device is arranged at the incoming end of a connecting line (Va, Vb) , the outgoing end of which is assigned a device (auxiliary relay R) limiting the duration of the current closure or opening. 6. The circuit arrangement according to claim S, characterized in that a from the impulse transmission relay at the outgoing end of the connecting line - dominated (A) auxiliary relay (R) is located, which interrupts the current surge circle certain time after its closing by the surge receiving relay (A). 7. Circuit arrangement according to claim 6, characterized in that the auxiliary relay (R) is designed as a delay relay. For this purpose I sheet drawings