Abstract: The invention relates to an arrangement (10) for feeding electrical energy into an energy supply system (100). The invention provides that the arrangement has a generator (20) with electrically isolated winding systems (30), the arrangement has at least two frequency converters (40, 41, 42) with isolated intermediate circuits (60), wherein each frequency converter is connected directly or indirectly to a winding system (30) of the generator, the arrangement has at least one control device (80), to which the frequency converters are connected for actuation thereof, and the frequency converters, on actuation by the control device, feed current by means of a voltage with a multi-level characteristic into the energy supply system (100).

Abstract: A wind or water energy installation for generating electrical energy, an installation having at least one propeller and at least one generator including at least one rotor, at least one stator and at least one magnetic circuit generating a magnetic flux. The at least one magnetic circuit has at least one magnet on the stator side and at least one coil on the stator side, through which at least part of the magnetic flux of the stator-side magnet flows, and the magnetic circuit is closed by the rotor which has a magnetic resistance (Rm) dependent on its respective rotational angle, on its surface facing the stator, such that the size of the magnetic flux in the at least one stator-side coil depends on the respective rotational angle of the rotor and changes when the rotor rotates.

Abstract: A wind or water energy installation for generating electrical energy, an installation having at least one propeller and at least one generator having a rotor and a stator. The stator is formed by at least two mechanically and electrically independent stator modules that co-operate respectively with the rotor, each of the stator modules respectively including at least one module-inherent magnet, and at least one coil through which at least part of the magnetic flux of the magnet flows, and each of the stator modules forms a module-inherent magnet circuit with the rotor. In the event of a relative movement between the rotor and the stator, each stator module generates a module-inherent output voltage.

Abstract: A wind or water energy installation for generating electrical energy, an installation having at least one propeller and at least one generator including at least one rotor, at least one stator and at least one magnetic circuit generating a magnetic flux. The at least one magnetic circuit has at least one magnet on the stator side and at least one coil on the stator side, through which at least part of the magnetic flux of the stator-side magnet flows, and the magnetic circuit is closed by the rotor which has a magnetic resistance (Rm) dependent on its respective rotational angle, on its surface facing the stator, such that the size of the magnetic flux in the at least one stator-side coil depends on the respective rotational angle of the rotor and changes when the rotor rotates.