DE2535072A1 - Protective circuit for amplifier - compensates for interferences in cores of communication cables caused by external fields - Google Patents

Abstract

Induced interference is collected from a pilot wire, and amplified, and compensation voltage so obtained is induced through a transformer in the whole of cable cores. A series resistor is inserted between pilot wire and amplifier, shunted by a switch shortly after the amplifier is switched on. The series resistor (2) is in parallel with a photoresistor (13) illuminated simultaneously with the amplifier (3) switching on by a light whose intensity slowly rises, determined by an RC circut (8, 9). Resistance of the photoresistor (13) drops slowly, and shortly after its full illumination both resistors (2, 13) are shunted by a switch (15, 16).

Description

Protection circuit for an amplifier in a device for compensation of interference voltages in telecommunication wires The present invention relates to a protection circuit for the amplifier in a device for compensating for interference voltages induced by external fields in the cores of telecommunication cables, in which a compensation voltage is formed from the interference voltage in the amplifier and this is fed into the entirety of the veins.

It is known from DT-AS i6 90 370, interference voltages caused by external fields are induced in the cores of telecommunication cables, thereby compensating, that the interference voltage is taken from a pilot wire, fed to an amplifier and the compensation voltage thus obtained through a transformer in the entirety of the Telecommunication cable cores is induced. It is common to have a series resistor between the pilot wire and the amplifier input. In the known embodiments this series resistor will through a short time after switching on the amplifier a switch, e.g. bridged by the contacts of a relay. The known embodiment has the disadvantage that suddenly pressing the A pulse is supplied to the series resistor. that can trigger an oscillation, oeich kenr. Interference signal is out of line.

The present invention is based on the object of a protective circuit specify for one of the amplifiers described above, which causes the tendency to oscillate of the amplifier is suppressed.

The invention thus provides a protective circuit for a Amplifier in a device for the compensation of by external fields in the Cores of telecommunication cables induced interference voltages, in which a pilot core the induced interference voltage extracted, amplified, and the compensation voltage obtained in this way via a transformer in the entirety of the telecommunication wires is induced with a series resistor between the pilot wire and the amplifier input, the short time after after switching on the amplifier is bridged by a switch. The invention is seen in the fact that a photoresistor is held in parallel with the series resistor at the same time as the amplifier is switched on by an RC element certain slow increase in exposure intensity and thus exposed slowly becomes lower and eats a short time after the photoresistor has been fully illuminated both resistors are bridged by the switch.

By temporarily connecting the photoresistor and its slow decrease in resistance will cause the amplifier not to oscillate and the harmful effect of the sudden bridging of the series resistor will be annulled.

The known device also has the disadvantage that when it occurs of a DC signal through the amplifier used, the feed-in transformer is driven into saturation, since only the relatively low ohmic current for direct current Resistance of the primary winding is present as a load. In the known devices this has the consequence, that the overload protection of the power supply responds and puts the amplifier out of operation for a short time. With that disappears the saturation, the power supply can oscillate again, and it arises again a switch-on process.

However, this switch-on process has at least the same disruptive effect like switching on the amplifier for the first time.

In a further development of the invention, the exposure of the photoresistor is therefore used made by a light-emitting diode, which in the switched-on state of the amplifier then and as long as the reduced interference signal reaches a specified value does not exceed, and when this value is exceeded, the light diode is extinguished and at the same time the switch is open. This is the same as before the first one Switch-on established and that by starting up the amplifier again caused signal cannot lead to the kindling of an oscillation disturbance because the The light diode is slowly started up again and only after it is fully illuminated of the photoresistor, the switch bridges both resistances again.

The figures show the exemplary embodiment in a partially schematic representation a circuit according to the teaching of the invention. Via the pilot wire 1 and the series resistor 2, the interference signal is fed to the amplifier 3, which sends it to the primary winding in the correct phase 4 of the transmission transformer 5 gives the compensation voltage in the entirety feeds telephone wires, a pair of which is denoted by 6 here. With When the amplifier 3 is switched on, according to the invention, a direct current source is provided at the same time 7 charged through the resistor 8 of the capacitor 9, is the nominal voltage of the Zener diode 10 is exceeded, the transistor 11 is conductive, and the photodiode begins 12 to emit light, which falls on the photoresistor 13. This Photoresistor is connected in parallel to series resistor 2, and there the light intensity of the light emitted by the photodiode 12 through the RC element 8, 9 only slowly increases, the resistance of the photoresistor 13 is also only slowly decreased and thus the series resistor 2 short-circuited only slowly. At the same time through the By controlling the transistor 11, a timer 14 is started, which after a predetermined time via the relay 15, the switch 16 closes and thus the resistors 2 and 13 short-circuited, so that the pilot wire is directly at the input of the amplifier 3 lies. The wire 20 is the reduced interference signal via a series resistor 17 removed, and as soon as this interference signal is the nominal voltage of the Zener diode 18, the transistor 19 is switched on and thus the capacitance 9 short-circuited so that the light diode 12 goes out. This also causes the relay to drop 15, and the state is the same as before it was switched on.

In Figure 2 is the course of the resistance value of the parallel-connected Elements 2, 13 and 16 plotted against time. When the device is switched on Resistance 2 is initially applied with its full value for the time 0 to t1. During the period from t1 to t2, the resistance value of the photoresistor becomes 13 slowly decreased, so that the value of the entire ballast resistance is on the height Z is reduced. By tightening the relay 15 and the associated Closing the switch 16, the series resistance is reduced to zero at time t3.

Claims (2)

Claims 1. Protection circuit for an amplifier in a device for compensation of interference voltages induced in the cores of telecommunication cables by external fields, in which the induced interference voltage is taken from a pilot wire, amplified and the compensation voltage thus obtained through a transformer in the entirety of the Telecommunication wires are connected, with a series resistor between the pilot wire and the amplifier input, which is bridged by a switch a short time after the amplifier is switched on is, characterized in that the series resistor (2) is a photo resistor (13) connected in parallel, which is switched on at the same time as the amplifier (3) with a slow increase in the exposure intensity that can be determined by an RC element (8,9) exposed and thus slowly becomes low resistance and that a short time after full illumination of the photoresistor (13) bridging the two resistors (2,13) by the Switch (15,16) takes place. 2. Protection circuit according to claim 1, characterized in that the Exposure of the photoresistor (13) by a light diode (12) takes place in the switched on state of the amplifier (3) then and as long as the reduced Interference signal does not exceed a predetermined value and when it is exceeded Value, the light diode (12) is deleted and the switch ci5t6) is opened at the same time will.