DE916306C - Circuit arrangement for improving the power surge transmission in telecommunications, in particular telephone branch exchange systems - Google Patents

Description

Circuit arrangement to improve the impulse transmission in telecommunication, in particular telephone private branch exchanges The invention relates to a circuit arrangement to improve the power surge transmission in telecommunication systems, in particular private branch exchanges, in which the transmission of the current impulses via transformers containing capacitors he follows.

In such telephone systems occur when number power surges are transmitted for the purpose of setting the voters between the respective first power surge and the following Current surges of each series of current surge distortions, as the capacitors mentioned at the transmission of every first rush of electricity behind the lockdown point from the outgoing speech cores are disconnected. There is therefore a charge or discharge of the capacitors via the impulse relay only at the beginning of each first power surge uitid no recharging during the following power surges a series of impulses: This means that the impulse relay relay is attenuated in every series of impulses only on the first power interruption, but not on the following interruptions the series. Due to these different current impulses, interference can occur in the Transformer downstream connection devices occur.

The invention is based on the object of providing the current impulse in such a way to improve that such disturbances cannot arise. This is because of it achieves that the rush current relay during the entire duration of the number rush current under the influence of charges and discharges at least one of those charged by current surges Interlocking capacitors stands.

In the drawing, two exemplary embodiments of the invention are shown, namely in each of the two figures one having the arrangement according to the invention Transmitter for a private branch exchange shown.

As the figures show, the speech wires are through the capacitors Ci and C2 cordoned off. A is the transmission relay, which the z. B. from one Extension unit picks up current surges and connects them to its contact i a or 8 a passes on to the downstream connection device. With v are contacts a control relay V, not shown, which during the duration of the surge series is addressed. B is a cooperative with relay V as described below Feed bridge relay. Dr is a ballast and C3 and Wi are agents for spark extinction to serve.

The mode of operation of the new arrangement is as follows: It is assumed that an extension subscriber wants to establish an outgoing exchange connection. He then dials the exchange code of the system, e.g. B. a zero. If he is authorized to officiate, the election of the voters upstream of the transferor sets himself up for a free trunk line. This means that relays A and B respond.

In Fig. I relay A closes its contact ia, and relay B switches the contacts 2b to 3b and 4b to 5b . This occupancy surge will be. the capacitors Ci and C2 charged via battery, relay A, capacitor C i, contact 5 b, earth on the lower speech wire or earth, relay.B, capacitor C 2, contacts 3 b, i a, battery on the upper speech wire.

If the subscriber now dials the call number of the desired exchange line participant, relay A drops out in pulses. At its first drop, at which the capacitor is C i continues to charge to full voltage via relay A and it attenuates, switches Relay A in a known manner, the delay relay V a, which is for the duration the series of current impulses holds. Relay V closes its contacts 6 v and 7 v. Through contact 7 v becomes relay B, which was de-energized at the same time as relay A, during the Impulse series short-circuited and remains in the rest position. The fall of the Relay B, contacts 3 b to 2 b and 5 b to 4 b are moved back. The condenser Ci is thus discharged again after the end of the first power interruption in the series over earth; Contact 7v, lower speech artery, subscriber station, upper speech artery, capacitor Ci, contacts 4b, 6v, earth. It charges for the duration of the following series of current impulses after each power interruption again via relay A, so that this, as with its first fall, after each power surge, d. H. every power interruption, drops muffled.

The mode of operation of the embodiment shown in FIG differs from that of the example illustrated in Fig. i only in that that when the relay B drops, not only the capacitor C i, but also the capacitor C2 is connected in series with the relay A via battery, relay A, capacitor C i, contact ii b, capacitor C? "Contact 13v, earth and therefore Charge and discharge both capacitors with each current surge.

By using the capacitors C i and C2 to attenuate the Relay A also during the transmission of the second and subsequent power surges each Series and by suitable dimensioning of the capacitors and the relay A one can achieve that all current surges are the same or at least sufficient for practice of almost the same length and disturbances due to the impulse current be avoided.

Claims (4)

PATENT CLAIMS: i. Circuit arrangement to improve the current impulse transmission in telecommunications, in particular telephone branch exchange systems, in which the transmission of the current impulses takes place via transmitters containing capacitors, characterized in that the current impulse transmission relay (A) during the entire duration of the number current impulse transmission under the influence of charges and discharges at least one of the through Current surges charged blocking capacitors (Ci, C2) stands. 2. Circuit arrangement according to claim i, characterized in that one Charging or discharging of or: the capacitors (C i, C 2) through at the beginning of the first Current interruption in the numbered current impulse series, the application of potential is brought about to the capacitor or capacitors. 3. Circuit arrangement according to claim 2, characterized in that the potential connection is preferably connected to a capacitor (Ci) prepared by a feed bridge relay (B) and by a control relay (V) the transmission device is completed (Fig. i). 4. Circuit arrangement according to Claim 2, characterized in that the potential connection to preferably two capacitors (C i and C2) is effected by a feed bridge relay (B) (Fig. 2).