PROTECTION OF AN AC DEVICE

Abstract

A protection device protects an AC device, in particular an inductive voltage converter, electrically connected to an AC line, from damage caused by direct currents flowing in the AC line. In this case, at least one current transfer coil, which runs around a magnetic core section of a magnetic core, is connected to the AC line in parallel with the AC device.

Claims

1-12. (canceled)

13. A protection device for an AC device electrically connected to an AC line, the protection device comprising: at least one current drain coil connected to the AC line in parallel with the AC device; and a magnetic core having a first magnetic core section, around said first magnetic core section said at least one current drain coil runs.

14. The protection device according to claim 13, wherein: said magnetic core is one of a plurality of magnetic cores; and said at least one current drain coil is one of a plurality of current drain coils, one of said current drain coils runs around said first magnetic core section of each of said magnetic cores, at least one of said magnetic cores has at least one air gap formed therein.

15. The protection device according to claim 13, wherein said first magnetic core section of said magnetic core has at least one air gap formed therein.

16. The protection device according to claim 13, wherein said magnetic core has a second magnetic core section, around said second magnetic core section said at least one current drain coil does not run and said second magnetic core section has at least one air gap formed therein.

17. A method for protecting an AC device electrically connected to an AC line against damage as a result of DC currents flowing in the AC line, which comprises the step of: providing a protection device containing at least one current drain coil and a magnetic core having a first magnetic core section, around the first magnetic core section the at least one current drain coil runs; and electrically connecting the at least one current drain coil of the protection device to the AC line in parallel with the AC device.

18. A measuring configuration for measuring an AC voltage on an AC line, the measuring configuration comprising: an inductive voltage transformer having a primary winding with a first primary winding end being electrically connectable to the AC line; at least one protection device containing at least one current drain coil and a magnetic core having a first magnetic core section, around said first magnetic core section said at least one current drain coil runs; and said at least one current drain coil of said at least one protection device is connected in parallel with said primary winding of said voltage transformer, said at least one protection device having a lower effective electrical resistance than said primary winding of said voltage transformer.

19. The measuring configuration according to claim 18, wherein the effective resistance of said primary winding of said voltage transformer has a magnitude at least double that of an effective resistance of said at least one protection device.

20. The measuring configuration according to claim 18, wherein said primary winding has a second primary winding end connected to a ground potential.

21. A power transmission system, comprising: a DC line; an AC line running adjacent to said DC line; and a measuring configuration for measuring an AC voltage on said AC line, said measuring configuration containing: an inductive voltage transformer having a primary winding with a first primary winding end electrically connected to said AC line; at least one protection device containing at least one current drain coil and a magnetic core having a first magnetic core section, around said first magnetic core section said at least one current drain coil runs; and said at least one current drain coil of said at least one protection device is connected in parallel with said primary winding of said voltage transformer, said at least one protection device having a lower effective electrical resistance than said primary winding of said voltage transformer.

22. The power transmission system according to claim 21, wherein said DC line and said AC line are suspended between same line masts at least in sections.

23. The power transmission system according to claim 21, wherein said DC line and said AC line are overhead lines.

24. A method of using a power transmission system, which comprises the steps of: providing a power transmission system containing a DC line, an AC line running adjacent to the DC line and a measuring configuration for measuring an AC voltage on the AC line, the measuring configuration containing: an inductive voltage transformer having a primary winding with a first primary winding end electrically connected to the AC line; at least one protection device containing at least one current drain coil and a magnetic core having a first magnetic core section, around the first magnetic core section the at least one current drain coil runs; and the at least one current drain coil of the at least one protection device is connected in parallel with the primary winding of the voltage transformer, the at least one protection device having a lower effective electrical resistance than the primary winding of the voltage transformer; and using the power transmission system for a high-voltage direct current transmission via the DC line.

Description

[0015] The above-described properties, features and advantages of this invention and the way in which they are achieved will become clearer and more clearly understood in association with the following description of exemplary embodiments which are explained in greater detail in association with the drawings, in which:

[0016] FIG. 1 shows a block diagram of one exemplary embodiment of a power transmission system,

[0017] FIG. 2 shows a cut-away perspective illustration of one exemplary embodiment of a protection device.

[0018] Mutually corresponding parts are provided with the same reference signs in the figures.

[0019] FIG. 1 (FIG. 1) shows a block diagram of one exemplary embodiment of a power transmission system 1 according to the invention. The power transmission system 1 comprises a DC line 3, an AC line 5 and one exemplary embodiment of a measuring arrangement 7 according to the invention for measuring an AC voltage on the AC line 5.

[0020] The DC line 3 and the AC line 5 are suspended between the same line masts 9, 10 at least in sections. FIG. 1 illustrates by way of example only one section each of the DC line 3 and the AC line 5, these sections running parallel and adjacent to one another as overhead lines between two line masts 9, 10. The DC line 3 is an HVDC line, for example, and the AC line 5 is a line of an AC grid.

[0021] The measuring arrangement 7 comprises an inductive voltage transformer 11 and a protection device 13 according to the invention. The voltage transformer 11 has a primary winding 15 and a secondary winding 17. A first primary winding end 15.1 of the primary winding 15 is electrically connected to the AC line 5. A second primary winding end 15.2 of the primary winding 15 is connected to a ground potential. A secondary voltage is tapped off at the secondary winding 17 the AC voltage present on the AC line 5 in relation to the ground potential being determined from said secondary voltage.

[0022] The protection device 13 comprises a current drain coil 19 and a magnetic core 21. The current drain coil 19 is connected in parallel with the primary winding 15 of the voltage transformer 11 and has a significantly lower effective electrical resistance than the primary winding 15. By way of example, the effective resistance of the primary winding 15 has a magnitude at least ten times that of the effective resistance of the current drain coil 19.

[0023] The current drain coil 19 runs around a first magnetic core section 21.1 of the magnetic core 21, which has an air gap 23. In a second magnetic core section 21.2, around which the current drain coil 19 does not run, the magnetic core 21 has a further air gap 24. The air gaps 23, 24 are each filled for example with hard paper or a pressboard (not illustrated). Other exemplary embodiments of the protection device 13 can have in particular a magnetic core 21 having more than only two air gaps 23, 24.

[0024] FIG. 2 (FIG. 2) shows a cut-away perspective illustration of one exemplary embodiment of a protection device 13. The current drain coil 19 and the magnetic core 21 are arranged in a housing 25. A shielding electrode 27 for shielding electric fields in relation to the housing 25 is arranged around the current drain coil 19. An electrical conductor 29 is led out of the housing 25, said electrical conductor being surrounded by a hollow insulator 31 outside the housing 25 and the current drain coil 19 being contactable from outside via said electrical conductor.

[0025] Although the invention has been more specifically illustrated and described in detail by means of preferred exemplary embodiments, nevertheless the invention is not restricted by the examples disclosed and other variations can be derived therefrom by the person skilled in the art, without departing from the scope of protection of the invention.