Electric machine and use thereof

The invention claimed is: 1. An electric machine for selective operation as a transformer for AC voltage operation or as a throttle system for DC voltage operation, the electric machine comprising: a transformer core with two limbs including a first limb and a second limb; an additional winding with a first additional partial winding wound around said first limb and a second additional partial winding electrically connected to said first additional partial winding and wound around said second limb of said transformer core; a higher-voltage winding with a first higher-voltage partial winding wound around said first additional partial winding and a second higher-voltage partial winding electrically connected to said first higher-voltage partial winding and wound around said second additional partial winding; a first traction winding wound around said first higher-voltage partial winding, and a second traction winding wound around said second higher-voltage partial winding. 2. The electric machine according to claim 1 , further comprising a first DC voltage winding wound around said first traction winding and a second DC voltage winding wound around said second traction winding. 3. The electric machine according to claim 1 , wherein said transformer core is formed of a ferromagnetic material or a ferrimagnetic material. 4. The electric machine according to claim 1 , wherein said first additional partial winding and said second additional partial winding are electrically connected in series. 5. The electric machine according to claim 1 , wherein said first higher-voltage partial winding and said second higher-voltage partial winding are electrically connected in parallel. 6. The electric machine according to claim 1 , wherein: said first additional partial winding is one of at least two first additional partial windings arranged one behind another along said first limb and wound around said first limb in each instance; each of said first additional partial windings having a first higher-voltage partial winding wound around said first additional partial winding and each said first higher-voltage partial winding having a first traction winding wound around said first higher-voltage partial winding. 7. The electric machine according to claim 1 , wherein: said second additional partial winding is one of at least two second additional partial windings arranged one behind another along said second limb and wound around said second limb in each instance; each of said second additional partial windings having a second higher-voltage partial winding wound around said second additional partial winding and each said second higher-voltage partial winding having a second traction winding wound around said second higher-voltage partial winding. 8. In combination with a vehicle having a vehicle drive to be selectively supplied with electrical energy from an external AC voltage or DC voltage, the electric machine according to claim 1 , wherein: during AC voltage operation, the external AC voltage is applied to the higher-voltage winding, the additional winding is grounded on one side and otherwise remains electrically unconnected and the traction windings are connected in each instance to a current converter for the vehicle drive; and during DC voltage operation, the higher-voltage winding is grounded on one side and otherwise remains electrically unconnected, the additional winding is short-circuited and grounded on one side and the traction windings are connected in each instance as a network filter throttle for a DC voltage drive train of the vehicle drive. 9. The combination according to claim 8 , wherein the electric machine has a first DC voltage winding wound around the first traction winding and a second DC voltage winding wound around the second traction winding, wherein the DC voltage windings are grounded on one side during AC voltage operation and otherwise remain electrically unconnected and wherein at least one DC voltage winding is electrically connected in series with a traction winding during DC voltage operation. 10. The combination according to claim 8 , wherein the vehicle drive is supplied with electrical energy via a catenary line system during AC voltage operation by way of an external AC voltage and during DC voltage operation with an external DC voltage.