Passive fault current limiter for wind power applications

The invention claimed is: 1. A device for limiting a fault current for an AC generator of a wind turbine, the device comprising a first frame made of a ferromagnetic material, wherein the first frame comprises a first frame section and a further first frame section, wherein a first gap is formed between the first frame section and the further first frame section, a first coil wound around the first frame section, a further first coil wound around the further first frame section, and a first permanent magnet element which is arranged inside the first gap, wherein the first frame section and the further first frame section are formed with respect to each other such that an electromagnetic interaction between the first coil and the first permanent magnet element and the further first coil first permanent magnet element is provided, wherein the first permanent magnet element is in magnetic interaction with the first frame such that an AC current flowing through the first coil; a first magnetic field circulating through the first frame section in a first circulating direction is generated by the AC circuit, an AC current flowing through the further first coil; and a further first magnetic field circulating through the further first frame section orientated in a further first circulating direction which circulates in opposed direction with respect to the first magnetic field is generated, wherein the first coil is connectable to a first stator winding of a stator of the AC generator, such that a first electromagnetic field which is orientated in opposed direction with respect to the first magnetic field is generated, wherein the further first coil is connectable to a frequency converter, such that a further first electromagnetic field which is orientated in opposed direction with respect to the further first magnetic field is generated. 2. The device according to claim 1 , further comprising a second frame made of a ferromagnetic material, wherein the second frame comprises a second frame section and a further second frame section, wherein a second gap is formed between the second frame section and the further second frame section, a second coil wound around the second frame section, a further second coil wound around the further second frame section, a second permanent magnet element arranged inside the second gap, wherein the second frame section and the further second frame section are formed with respect to each other such that an electromagnetic interaction between the second coil and the second permanent magnet element and the further second coil and the second permanent magnet element is provided, wherein the second permanent magnet element is in magnetic interaction with the second frame such that a second magnetic field circulating through the second frame section in a second circulating direction is generated, and a further second magnetic field circulating through the further second frame section orientated in a further second circulating direction which circulates in opposed direction with respect to the second magnetic field is generated, wherein the second coil is connectable to a second stator winding of a stator of the generator, such that a second electromagnetic field which is orientated in opposed direction with respect to the second magnetic field is generated wherein the further second coil is connectable to the frequency converter, such that a further second electromagnetic field which is orientated in opposed direction with respect to the further second magnetic field is generated. 3. The device according to claim 2 , wherein the first permanent magnet element and the second permanent magnet element are formed monolythically. 4. The device according to claim 1 , further comprising a third frame made of a ferromagnetic material, wherein the third frame comprises a third frame section and a further third frame section, wherein a third gap is formed between the third frame section and the further third frame section, a third coil wound around the third frame section, wherein the third coil is connectable to a third stator winding of the stator of the generator, a further third coil wound around the further third frame section, wherein the further third coil is connectable to the frequency converter, a third permanent magnet element arranged inside the third gap, wherein the third frame section and the further third frame section are formed with respect to each other such that an electromagnetic interaction between the third coil and the third permanent magnet element and the further third coil and the third permanent magnet element is provided, wherein the third permanent magnet element is in magnetic interaction with the third frame such that a third magnetic field circulating through the third frame section in a third circulating direction is generated, and a further third magnetic field circulating through the further third frame section orientated in a further third circulating direction which circulates in opposed direction with respect to the third magnetic field is generated, wherein the third coil is connectable to a third stator winding of a stator of the generator, such that a third electromagnetic field which is orientated in opposed direction with respect to the third magnetic field is generated, wherein the further third coil is connectable to the frequency converter, such that a further third electromagnetic field which is orientated in opposed direction with respect to the further third magnetic field is generated.