DE1267267B - Circuit for monitoring the power supply loop for series-connected transistor amplifiers - Google Patents

Description

Circuit for monitoring the power supply loop for in series switched transistor amplifier The invention relates to a circuit for Monitoring of the power supply loop for transistor amplifiers connected in series in communication systems using an on-loop break the outward and return line between the feeding operating current source and the point of interruption automatically connecting current monitoring relay, its excitation winding from the supply current is traversed.

In wired communication systems, e.g. B. carrier frequency systems, Un "manned repeater stations are supplied with remote power from manned offices and monitored. It must be possible to locate errors occurring on the route. For location methods that include the high-frequency transmission path, it is a prerequisite that the intermediate amplifiers are supplied with power.

In systems with direct current series remote feed, interruption of the current path is shut down for the entire route at one point. Such Defects can be localized using special location methods if the Amplifier by means of suitable measures provisionally up to the point of failure be put into operation.

It is known for this purpose in the intermediate repeater circuits to be used with a current monitoring relay, whose relay winding depends on the remote feed current is flowed through. The normally closed contacts of the relays are open. In the event of an interruption of the current, the circuit acts so that on the break contact of the last before the Fault location lying relay and a resistor of the remote feed circuit closed will. Such a circuit is shown in FIG. 1 shown. When the route is interrupted the relay A is de-energized and the normally closed contact a closes the power supply loop across the resistor R 1. This circuit has the disadvantage that the relay contact a must be dimensioned for large powers, since on the one hand the switching voltage several 100 V, on the other hand the current flowing at the moment of switching initially in is limited essentially only by the resistor R 1. Only after unloading the track and switch capacities C 1, C 1 '(Fig. 1) and after the automatic Readjustment of the remote power supply to the shortened route length will be the over the resistor R 1. and the contact a remote feed current flowing again a stationary Accept value. This is accompanied by the requirement for a very low response performance of the relay, so that the voltage drops in the remote feed current to the Relay windings do not significantly reduce the given supply voltage maximum achievable distances between the feeding amplifier points accepted must become. The requirement for a high switching capacity with a very low response capacity is, however, with the currently available relays., insofar as they are suitable for installation in the Amplifier housing suitable, not feasible.

According to the invention, the disadvantage of working with a relay Current monitoring circuit can be avoided in that the normally closed contact of the current monitoring relay in the cross arm of the loop with the switching path (anode, cathode) one in the forward direction polarized thyristor is connected in series and its control connection when the loop is interrupted switched on by closing the relay contact only after the bounce time has elapsed of the relay contact is supplied with the voltage required to ignite the thyristor is. Due to the delayed ignition of the thyristor, the relay contact needs the Loop current can no longer be switched. As soon as the fault has been eliminated, interrupts the relay contact removes the cross-loop branch and thereby inevitably clears the thyristor.

The ignition delay of the thyristor can be achieved in several ways be e.g. B. depending on the charging process of the capacity of an RC loop with the switching path (anode, cathode) of the thyristor is an RC series circuit in this case connected in parallel, with the connection point of resistance and capacitance at the control connection of the thyristor is performed. The relay contact becomes when used this rc circuit only used to switch the ignition current. at With a constant switching voltage, the ignition current is lower by an order of magnitude than the loop current to be switched in the absence of a thyristor.

If the monitoring relay is also equipped with a follow-up contact, so this can connect an ignition voltage to the control terminal of the thyristor take over. The RC combination is then omitted. Due to the successive Switching operations of the two contacts ensures that the thyristor is triggered only takes place when the bruises are in series with the switching path Relay contacts are terminated. The contact therefore works when the cross-branch closes currentless.

An exemplary embodiment of the invention is illustrated with reference to FIGS. 2 explained.

The outward and return lines of the remote feed loop are labeled L1 and L2. The line L1 is connected to the positive pole, L2 to the negative pole of a power supply source. A current monitoring relay A is expediently provided in a known manner in each intermediate repeater in the line L2. The break contact a, which closes when the loop is interrupted, is arranged in a shunt branch in series with a resistor R 1 and the anode-cathode path of the thyristor T between the forward and return lines. The RC combination R2, C 2 is connected in parallel to the anode-cathode path of the thyristor. The control connection of the thyristor is connected to the connection point of resistor R2 and capacitor C2.

In normal operation of the transmission path, the thyristor T is as well the capacitor C 2 is de-energized. If the route is interrupted, this is the first thing to do Relay off, whereby voltage is applied to the thyristor via contact a does not ignite, however, because the capacitor C2 is still charged The control electrode connected to the base does not yet have the minimum voltage required for ignition owns. At the same time, the capacitor C 2 becomes via the resistors R 2 and R 1 charged. The current to be switched by contact a is now practically through limits the resistance R 2, which can, however, be chosen to be much larger, e.g. B. 20 k52, as the resistance R 1 (about 1 k52). As soon as the voltage on the capacitor C2 has risen sufficiently, the thyristor ignites and thus closes the open Remote feed loop across the resistor R 1. The capacitance of the capacitor C 2 is expediently chosen so that the triggering of the thyristor even with a high remote feed voltage only takes place after the contact's bounce time has elapsed. After eliminating a break in the route the relay A responds again and disconnects the cross-connection. The thyristor will be forcibly deleted.

Claims (2)

Claims: 1. Circuit for monitoring the power supply loop for series-connected transistor amplifiers in communication systems using a loop break the forward and return line between the feeding operating power source and the point of interruption automatically connecting Current monitoring relay, the excitation winding of which is traversed by the supply current, d a d u r c h g e -k e n z e i c h n e t that the normally closed contact of the current monitoring relay in the cross arm of the loop with the switching path (anode, cathode) one in the forward direction polarized thyristor is connected in series and its control connection when the loop is interrupted initiated by closing the relay contact only after the bounce time of the Relay contact is supplied with the voltage required to ignite the thyristor is. 2. Circuit according to claim 1, characterized in that the anode-cathode path of the thyristor is a series connection of a resistor and a capacitance in parallel is connected, the connection point of which is connected to the control terminal of the thyristor is. @ 3. Circuit according to Claim 1, characterized in that the current monitoring relay is equipped with a follow-up contact, which after actuation of the contact with the anode-cathode path of the thyristor is connected in series, the control terminal of the thyristor connects to an ignition voltage.