DE702536C - of electrical surges - Google Patents

Description

Circuit arrangement for the timely transmission of current surges Es is known to absorb and transmit power surges, especially when there is If it is a matter of weak current surges, use gas-filled discharge tubes. However, there arises a problem that is due to the fact that the Ignition voltages of such tubes are different from the extinguishing voltages, so that the ignition and extinction of the tube takes place at different voltages. Through this can easily distort the power surges passed on from such an arrangement should be done.

Attempts have been made to eliminate this disadvantage in that -the Glow lamp by interrupting the anode current or by reducing the anode voltage is brought to the deletion. However, there is a disadvantage that the termination of the current surge, the influence of the incoming characters is withdrawn.

It has therefore been suggested that the glow tube be replaced by periodic Increase and decrease - the anode voltage during the duration of the incoming To make the current surge conductive and non-conductive alternately, without this The relay lying in the anode circuit of the tube drops out. Then occurs at the same time with .the lowering of the anode voltage as a result of .the termination of the current surge If the grid voltage changes, the tube cannot re-ignite, and the relay in the anode circuit drops out.

The disadvantage of this proposed arrangement is that, although the arrangement comes into effect immediately at the beginning of the incoming current surge, the At the end of the current surge, however, the receiving device is only influenced in a preparatory manner can, because the drop of the relay lying in the anode circuit of the tube is not only from the termination of the current surge, but also from the periodic lowering of the Anode voltage is dependent. Since, in addition, the Relay like that must be switched so that it is during the duration of the current surge in the periodic Anode voltage changes do not decrease, is a perfect current impulse reproduction not guaranteed even with such an arrangement, especially since any frequency change of the anode voltage change leads to a change in the current impulse to be transmitted.

The aforementioned disadvantages are avoided according to the invention by that both the beginning and the end of a current surge to be transmitted through the ignition of the tube is determined in such a way that at the beginning of an incoming current surge A relay arrangement for responding via the anode circuit of the then igniting tube is brought, which on the one hand closes the relay circuit, on the other hand immediately by changing the grid voltage and by interrupting the anode circuit, the tube extinguishes, but a new igniter of the tube is prepared, and that at the end of the incoming Current surge the tube is re-ignited, whereby a switched on in the anode circuit another relay responds, which on the one hand interrupts the transfer circuit, on the other hand the tube clears again and the transfer of the relay arrangement in caused the rest position. So there for the adjustment of the tube arrangement at the beginning and at the end of the current impulse, an ignition of the tube is brought about in the same way it is possible to pass on the current surge in unchanged form. The sharing the switch-on point of the current surge and the switch-off of the current surge at the Second ignition of the tube is similar by two in the anode circle of the tube trained relay made so that no distortion can occur here either. Since there are voltage fluctuations (anode battery, grid battery) or temperature fluctuations for the same process (ignition) always have the same effect, is also through Such processes result in a change in the current surges to be transmitted in the case of the invention Arrangement does not occur.

The concept of the invention is explained in more detail below with reference to the figures. In Fig. i shows a system in which direct current surges are transmitted via the incoming line La, Lb, which is bridged by a choke coil Dr, via which the grid bias voltage for the glow tube is supplied at the same time. The glow lamp R, which is heated by the heating battery HB , receives its grid bias voltage via the potentiometer P on the grid battery GB , the contact u2, the contact u $, the choke coil DR, the contact u1 and the resistor WE, in the anode circuit of the tube R is in series with the anode battery AB, the relay A and the resistor W. The grid bias is normally so negative that the tube is not conductive.

If a current surge is given via the line La, Lb, a t positive voltage is applied to the grid, which counteracts the negative grid bias to such an extent that the tube ignites and thus causes the relay A in the anode circuit to respond. As a result, the contacts a1, a., A3 are turned over. A holding circuit for relay A is closed via contact a $ from anode battery AB via relay A, contacts a2 and b3, resistor Wz back to anode battery AB. Contact a1 closes a circuit that is intended to pass on the individual current surges. Via the contact a $, a circuit is closed for the relay U from the anode battery AB via contact a3, contact b2, relay U, resistor W4, anode battery AB , which causes the changeover relay U to respond. The tube R is extinguished by switching the contact a, and thus by interrupting the anode circuit. A new anode circuit is prepared via contact u4. The negative grid bias voltage is reduced via the contact uz, while the polarity of the incoming line on the grid of the tube R is reversed via the contacts u1 and u3. Via the contact u, a circuit running through the resistor WS is closed for the relay H, so that the relay H responds and closes the anode circuit of the tube via the contact hl, the contact u4, the relay B and the resistor Ws. The tube cannot ignite at first, however, because as a result of the polarity reversal on the grid, the grid j is given a negative voltage by the current flowing on the line as a result of the current impulse that has not yet ended.

Once the current surge has subsided, it disappears caused negative voltage on the grid, and instead only the decreased grid bias on the grid of the glow tube, tapped off by the potentiometer P. The tube can therefore ignite again, so that the relay B in the anode circuit to respond comes. The circuit used to pass on the current surge is via the contact b1 interrupted and thus the current surge also ended in this circuit. About the contact b, the relay U is brought to drop out, while the holding circuit via contact b for relay A is disconnected. Via a contact u2 that has been brought to rest the Grid bias of the tube negative again, so that the tube R is deleted and the Relay B is brought to drop out. Since relay A has also dropped out and the Circuit of relay H was interrupted via the contact, is now the whole Arrangement back in the starting position. The relays A and B are designed in the same way and work,. as mentioned above, alternately in the same circuit. Through this it is ensured that the current surge is undistorted, e.g. B. to a telephone exchange will.

If alternating current pulses are to be transmitted via the line La, Lb, a rectifier circuit as shown in Fig. A must be connected upstream of the tube R. The characters arriving via the line influence the rectifier GL, which is in the bridge circuit, via a transformer Tr. The rectified current is then fed to the grid of the glow tube in the manner described above via the contacts zel and u3. The capacitor C. thus represent a high resistance in the grid circle. If this resistance is so great that your grid cannot be supplied with the required grid bias, an additional resistor can be provided in parallel to the capacitor C. The transmission of the current impulses received as alternating current impulses then takes place in the form of direct current impulses, unless a special converter device is provided at the output of the system.

Claims (1)

PATENT CLAIMS: i. Circuit arrangement for the true-to-time transmission of current surges using a gas-filled discharge tube with control electrode and relays located in the anode circuit of the tube, characterized in that. both the beginning and the end is determined a current to be transmitted impact by the firing of the tube (R), such that at the beginning of an incoming surge current through the anode circuit of the then igniting tube (R), a relay assembly (A, D, H) for A response is brought, which - on the one hand closes the distribution circuit (via a1), on the other hand immediately extinguishes the tube (R) by changing the grid voltage (via u2) and by interrupting the anode circuit (through a2), but prepares a new ignition of the tube (through Reversing the polarity of the line and switching on the relay B), and that _ at the end of the incoming current surge, the tube (R) is re-ignited, whereby another relay (B) connected to the anode circuit responds, which on the one hand interrupts the relay circuit (through b1), on the other hand, the tube (R) clears again and causes the relay arrangement (A, U, H) to be returned to the rest position. z. Circuit arrangement according to Claim i, characterized in that the relay (A) which responds when the tube is ignited for the first time and which interrupts the anode circuit of the tube (R), places itself in a holding circuit and switches on a changeover relay (U) which switches on the incoming line ( La, Lb) switches over on the grid of the tube (via u1, us) and at the same time (via potentiometer P) reduces the grid bias. 3. Circuit arrangement according to claim i and z, characterized in that an auxiliary relay (H) is switched on by the switching relay (U), which the anode circuit of the tube (R) via a further relay (B), which is triggered when the tube is re-ignited Address comes, closes. q .. Circuit arrangement according to claim i to 3, characterized in that the relay (A) corresponding to the first ignition of the tube (R) for passing on the current impulses closes a circuit which is reopened by the relay (B) which reacts during the second ignition . Circuit arrangement according to Claims i, to q: characterized in that, when alternating current is used to transmit the current surges, a rectifier bridge circuit (GI) is connected upstream of the grid of the tube.