DE462159C - Device for suppressing harmonic electrical oscillations that occur when the load on a transformer in a network is interrupted, in particular to protect telecommunication lines against inductive interference - Google Patents

Description

Device for suppressing harmonic electrical oscillations, that arise when the load on a transformer in a network is interrupted, especially for the protection of telecommunication lines against inductive influence The invention relates to a device for suppressing harmonic electrical Vibrations. It is well known that harmonics are caused by a transformer generated when it is connected to voltage on the primary side while its secondary circuit is open, and is known to be caused by these harmonics Disturbance is not limited to the circuit to which the transformer is connected but it can also influence telecommunications officers who work with this power cycle are in inductive connection. Disturbances caused by such harmonics wireless transmission and reception is also seriously disturbed. These difficulties are eliminated according to the invention in that the primary coil of the transformer when its secondary circuit is interrupted automatically via a resistor with a negative Temperature coefficient is closed.

The invention is shown schematically in the drawing.

i are lamps whose supply transformers are connected in series. The current is supplied to each of these lamps i by a transformer winding via the working coil 3 of a mercury switch which is provided to bypass the primary coil of the transformer when the circuit of the lamp i is interrupted. The mercury switch consists in a known manner of a vessel 4, which is forked at the bottom and contains separate mercury fillings 5 and 6, and a magnet 7 which moves when the work coil 3 is excited. A resistance rod 8 with a negative temperature coefficient of silicon or the like is located between the mercury switch and the transformer coil 2. Autotransformers 2 or double Keni transformers 9 are provided for supplying the lamp circuit.

When the secondary circuit of the transformer is closed by the lamp i is, the coil 3 is excited and the magnet 7 is held in the position shown, so that the mercury fillings 5 and 6 are separated from one another. Under these Under certain circumstances, the resistance element 8 is switched off. Will the secondary circuit however interrupted, the magnet 7 falls and displaces some of the mercury from the right thigh so that the two. Mercury fillings 5 and 6 come into contact with each other. This becomes the primary circuit of the transformer closed via the resistor 8, and in this way the harmonic Suppresses harmonics caused by the supply of current to the coil 2 arise when the secondary circuit is open.

When the power supply to the load circuit ceases, the magnet moves 7 of each lamp in its lower position, removing the resistor 8 at both ends the coil a is placed. This makes the winding a and the resistor 8 parallel switched, and the current fraction passing through each of these two conductors depends on the ratio of their impedances. So that when the load of the -Automatic switch can open, the voltage drop across the resistor must 8 must be high enough so that the coil 3 actuating the switch is supplied with sufficient current can be. As a result, the resistance of the rod 8 must initially be proportionate be high. However, a rod with a permanently high resistance is inexpedient because it does so a lot of energy would be lost when the lamp is not in use. Because of this the resistance of the rod 8 should be great when. the secondary circuit is live on the other hand, decrease when the lamp i is not switched on. To these demands To meet, according to the invention, the rod is made of one material. manufactured, whose resistance decreases with increasing temperature.

Claims (1)

PATENT CLAIM: Device for the `suppression of harmonic electrical Vibrations that occur when the load on a transformer is interrupted in a Network, in particular to protect telecommunication lines against inductive interference, characterized by an automatically operating, known switch, which the primary coil of the transformer when relieved via a resistor with no-. negative temperature coefficient closes and switches off the resistor when loaded.