DE1062802B - Circuit arrangement for monitoring a circuit for current weakening or current amplification - Google Patents

Description

GERMAN

To circuits with regard to a current weakening or current amplification occurring in the circuits To monitor, it is known to use two relays, one of which is so dimensioned and is connected so that it responds when a current weakening occurs, while the other Relay only responds when there is a current gain in the circuit to be monitored occurs. The first-mentioned relay is usually energized in the idle state and comes when the current is weakened of the quiescent current, which in extreme cases can be caused by a line interruption Fall in order to initiate a corresponding signaling through this fall. The other relay will only pre-excited by the quiescent current, and it only occurs when the current is amplified to respond and also switches on appropriate signaling means.

Since two relays mean a certain amount of effort, it is already known to use a single one Relays to monitor a circuit for both current weakening and current amplification. Until now but a single relay could only be used to monitor both states by having designed this relay in a special way, d. In other words, a special relay construction had to be used will. One such special construction is a polarized telegraph relay represents that the flow of the quiescent current in a central position and the occurrence in each of the two end positions able to signal a current weakening or current amplification. Other special ones too Relay designs have already been used for this purpose; a relay is known that has two with each has iron circles equipped with a special winding, one of which is saturated and the other is unsaturated due to an air gap. Finds a current gain in the circuit to be monitored instead, the electromagnetic excitation of the unsaturated circuit predominates, while at a current weakening the excitation of the saturated circuit outweighs and the armature in the other Position draws.

The invention has set itself the task of using a single normal telephone relay to monitor a circuit with regard to the occurrence of current weaknesses and current amplifications, and solves this problem in that a counter-winding is brought to a certain holding value and its excitation winding is to be monitored Circuit lying relay, the series connection of a further counter-winding and a voltage-dependent switching element is connected in parallel. By means of a further circuit arrangement to be monitored for monitoring
of a circuit for current weakening or current amplification

Applicant:

Telephone construction and normal time G. mb H.,
Frankfurt / M., Mainzer Landstr. 136-142

Werner Dardat, Frankfurt / M., has been named as the inventor

Circuit-independent reverse winding of the monitoring relay is the field winding after Response of this relay in the idle state so compensated magnetically that low, in the to be monitored Current changes made in the circuit lead to the actuation of the relevant relay. Appropriate If a Zener diode is used as the voltage-dependent switching element, its response value is slight is above the voltage drop that occurs in the field winding of the monitoring relay in the idle state. So that only then an activation of the Monitoring circuit can come about * if all switching devices involved in the monitoring are in order, is further proposed by the invention, the switch-on circuit of the Monitoring relay via both function windings of this relay and via the when the Monitoring relay to lead to the response coming signaling means. Through a changeover contact of the monitoring relay can, when it responds, from the switch-on circuit to the via the or the to be monitored circuits running holding circuit can be switched.

Two exemplary embodiments of the invention are shown in the drawing. It shows

Fig. 1, the monitoring of a circuit for current weakening and current gain and

Fig. 2 shows a monitoring arrangement in which the signal means can be used to distinguish whether the

909 580/313

Claims (6)

Signaling was caused by a current weakening or a current amplification. In both figures, the switching means with the same effect are also denoted by the same letters. The circuit to be monitored extends between the terminals a and b, while the actual monitoring is carried out by the relay K in both exemplary embodiments. The respective activation of the monitoring circuit takes place by temporarily pressing the ET button, while the occurrence of a current weakening or current amplification in the circuit to be monitored is indicated by the signal lamp SL. In the arrangement according to FIG. 1, the circuit running between the terminals a and b contains keys ST and VT, which are each connected in parallel to a resistor Wil and Wi2, respectively. Pressing the ST button leads to a weakening of the current in the closed circuit, while pressing the TV button causes a current gain by short-circuiting the resistor Wil. The monitoring circuit is switched on by pressing the ETj button and the switch-on circuit for the relay K runs from + via the winding 1-2 of the relay K1 to the forward-switched Zener diode ZD, the winding 3-4 of the relay K, the signal lamp SL, the normally closed contact kl and the resistance WiS after -. The responding relay K switches through the monitoring circuit with its contact kl, in which the relay K is held via the winding 1-2. The relay K has a further counter-winding 5-6, through which the magnetic excitation of the relay K is compensated so far that minor changes in the circuit to be monitored lead to the relevant relay being dropped. The Zener diode ZD is selected in such a way that it does not yet allow current to pass through the voltage drop at the winding 1-2 of the relay K caused by the monitoring current. If, however, the current is amplified by pressing the VT key, the voltage drop in winding 1-2 of relay K increases to such an extent that the Zener voltage is reached and counter-winding 3-4 of relay K is excited. The relay K is thrown off together with the counter-winding 5-6, and the signal lamp SL is switched on via the contact kl. If the current to be monitored is weakened by pressing the key ST, the opposite winding 5-6 of the relay K depresses the relevant relay, and in this case too the signal lamp SL is switched on via the contact kl. The switching on of the monitoring circuit and the shedding of the relay K when the current is weakened and amplified takes place in FIG. 2 in the manner corresponding to FIG. In contrast to the arrangement shown there, however, a changeover contact k 2 is now placed in the circuit for the opposite winding 3-4 of the monitoring relay K, via the rest side of which an electrolytic capacitor EC is connected to the winding 1-2 of the relay K and its working side in the above the Zener diode ZD and the counter winding 3-4 of the relay K running circuit is located. If the current is weakened in this arrangement by pressing the ST button, the relay K drops out under the action of the counter-winding 5-6 and switches the signal lamp SL on as a permanent light until the relay K is re-energized. If, on the other hand, the button VT is pressed and the relay K via winding 3-4 drops out, relay K is switched on again via winding 1-2 via the circuit to be monitored. If the current amplification continues by pressing the VT key, the relay K, via the counter winding 3-4, will drop again via the contact k2, which has returned to its working position, and this process is repeated as long as the VT key is pressed, i.e. . H. as long as there is a current gain on the line. The electrolytic capacitor EC switched on via the rest side of the contact k2 serves to slow down the flickering process, since it significantly reduces the response time of the relay K. While a current weakening is indicated by the continuous lighting up of the lamp SL, a flickering lighting up of the lamp SL signals a current gain in the circuit to be monitored. Patent claims: 1. Circuit arrangement for monitoring a circuit for current weakening and current amplification with the aid of monitoring relays that respond to current weakening and current amplification, characterized in that one brought to a certain holding value by a counter-winding and with its Excitation winding in the circuit to be monitored relay the series connection of another Opposite winding and a voltage-dependent switching element is connected in parallel. 2. Circuit arrangement according to claim 1, characterized in that by a further from counter-winding independent of the circuit to be monitored, the excitation winding of the monitoring relay after it has responded in the idle state is compensated magnetically so far that small, made in the circuit to be monitored Current changes lead to the actuation of the relay. 3. Circuit arrangement according to claim 1 and 2, characterized in that as a voltage-dependent Switching element a Zener diode is used whose response value is slightly above the im Idle state on the excitation winding of the monitoring relay occurring voltage drop lies. 4. Circuit arrangement according to claim 1, characterized in that the switch-on circuit of the monitoring relay via the exciter and counter-winding of the relay as well as via the at a drop in the relay to respond signal means runs. 5. Circuit arrangement according to claim 1, characterized in that by a changeover contact of the monitoring relay when it is triggered by the switch-on circuit for this Relay on the holding circuit running through the circuit or circuits to be monitored is switched. 6. Circuit arrangement according to claim 1 and 2, characterized in that the with a Zener diode in series opposite winding of the monitoring relay over the working side of a Changeover contact of this relay is connected to the circuit to be monitored.