DE486916C - Device for the capacitive connection of high-frequency devices to high-voltage lines - Google Patents

Description

The invention relates to a circuit for coupling high frequency transmission and -receiving apparatus with high-voltage lines, which allows the traffic even in the case of The high-voltage apparatus switched off or switched on by the high-voltage network and with Maintain an earthed high-voltage line. There are therefore means provided that an earthing of all phases from the high-voltage apparatus, such as transformers and the like. The drawing shows an exemplary embodiment of the invention shown on a three-phase high-voltage network.

The three-phase power distribution system consists of phase conductors 1, 2 and 3, which are connected via a switch 4 is connected to a high-voltage transformer 5 in a corresponding manner are. The high voltage transformer 5 can be arranged so that it either Transmits power to or receives power from the network. The high-frequency signal unit 6 is connected to the primary windings 7 and 8 of a transformer. The secondary windings connected in series 9 and 10 of this transformer are on the one hand via the connection capacitors 12 and 13 connected to the two phase lines 2 and 3 and can on the other hand with their common connection point 11 must be grounded. According to the one shown in the drawing When the switch 4 is in position, the high-frequency unit 6 is shunted to the two phase conductors 2 and 3. This shunt circuit of the high-frequency unit 6 remains in place even if the transformer 5 is connected to the mains by the switch 4 will. It is now often desirable to use the high-voltage network when the high-voltage apparatus is switched off to ground. When the high-voltage line is grounded, however, the transmission of high-frequency currents from the signal unit 6 is then possible destroyed on the high voltage network. A new coupling circuit then has to be installed be used, which enables the traffic over the earthed high-voltage line again.

Such circuits are already known in which the high-frequency coupling device in the case of the grounding of the high-voltage line switched off and the high-frequency unit is coupled to a second device which is placed in the ground line. However, at least two switches are required for this, and the coupling must also be carried out.

It has also already been pointed out that when the high-voltage line is switched off and grounded the high-frequency traffic must be taken into account, in such a way that the grounding via chokes or throttle oscillation circuits takes place, which are only permeable to the high current frequency. It is specified that this grounding is automatic when the high-voltage line is switched off to be done.

According to the invention, special chokes for this purpose are now saved, that the .to switch off the high-voltage lines serving disconnectors as changeover switches are formed, which in the second position, the coupling capacitors of the high-frequency system short-circuit and thereby the high-voltage line over to the operational Connect the preferably symmetrical choke, which is used to earth the high-frequency equipment, to earth the coupling for the high-frequency apparatus is not required here.

Located near switch 4 are hence two contacts 14 which are connected to the high frequency system so that at Movement of the switch 4 after 'these contacts the power lines 2 and 3 through the specific Arrangement of the secondary windings 9 and 10 grounded and the capacitors 12 and 13 are short-circuited. The high-frequency unit 6 is then with the two Conductors 2 and 3 connected in series. This coupling works best with an earthed network Results. The system described normally operates between two phases of the high-voltage network. How the The system is in no way affected if only one of these two conductors is on any one Point is grounded. The arrangement is then still in effect between the remaining ones Ladders and the earth.

The secondary transformer windings 9 and 10 must be compared to the frequency of the High-voltage current have a relatively low impedance. This requirement is easily achieved by using resonance transformers. It can do this the primary or secondary windings or both sides of the transformer are matched be. The transformer shown in the drawing is the secondary side of the transformer through capacitors 15, 15 matched. The ones used for protective purposes Choke coils 16, 16 have a high and high frequency currents. for the High voltage currents have a low impedance. The high-frequency unit 6 can either be designed as a transmitter or receiver.

Claims (1)

Claim: Device for the capacitive coupling of high-frequency equipment with high-voltage lines, in which the high-frequency apparatus is operationally permanently grounded by a preferably symmetrical choke is, characterized in that the arranged in the vicinity of the coupling pointi Isolating switches of the high-voltage line are designed as changeover switches, which are shown in the position in which the high-voltage line is interrupted, the coupling capacitors short-circuit the high-frequency system, so that this inevitably the disconnected high-voltage line is grounded without high-frequency operation impossible to do on the grounded route. 1 sheet of drawings Berlin, printed in the