Hybrid antenna, antenna arrangement and method for manufacturing an antenna arrangement

What is claimed is: 1. A hybrid antenna comprising a plurality of windings wherein each winding comprises a loop antenna portion arranged in a plane and a ferrite antenna portion arranged at least partially outside of the plane, wherein the ferrite antenna portions are ferrite antenna windings surrounding a ferrite antenna core, wherein the ferrite antenna windings and the ferrite antenna core form a ferrite antenna, and wherein for each winding the ferrite antenna comprises a first terminal and a second terminal connected via the ferrite antenna portion and the loop antenna portion is connected to the ferrite antenna portion via the first terminal and the second terminal. 2. The hybrid antenna of claim 1 , wherein at least one winding of the plurality of windings comprises a ferrite antenna portion formed by a plurality of ferrite antenna windings. 3. The hybrid antenna of claim 1 , wherein the plane is a layer or a surface of a substrate. 4. The hybrid antenna of claim 1 , wherein the plane is a layer or a surface of a printed circuit board. 5. The hybrid antenna of claim 3 , wherein the windings encircle an area of the substrate which is at least partially free of ferrite. 6. The hybrid antenna of claim 1 , wherein the ferrite antenna portion arranged at least partially outside of the plane is arranged substantially perpendicular to the plane. 7. The hybrid antenna of claim 1 , wherein at least one winding of the plurality of windings comprises a ferrite antenna portion which comprises a higher number of conductors outside of the plane than it comprises conductors in the plane. 8. The hybrid antenna of claim 1 , wherein the conductors outside of the plane are conductors on top of a ferrite antenna core and the conductors in the plane are conductors below the ferrite antenna core. 9. An antenna arrangement comprising: a substrate; a loop antenna formed on a layer of the substrate; a ferrite antenna comprising a ferrite core embedded within the layer of the substrate and comprising at least one winding, wherein the loop antenna is connected to the at least one winding and the at least one winding is formed by through-holes through the layer of the substrate and a routing connection between the through-holes on or below the layer of the substrate. 10. The antenna arrangement according to claim 9 , wherein the ferrite core is disposed in a recess of the layer of the substrate. 11. The antenna arrangement according to claim 9 , wherein the through-holes and the routing connection are arranged such that the at least one winding encircles the ferrite core. 12. The antenna arrangement according to claim 9 , wherein the through-holes comprise a conductive material. 13. The antenna arrangement according to claim 9 , wherein the through-holes are plated with conductive material or filled with conductive material. 14. The antenna arrangement according to claim 9 , wherein the at least one winding is formed by two through-holes and a routing connection arranged on the layer connecting the through-holes and a routing connection arranged below the layer connecting one of the through-holes to a further through-hole or is formed by two through-holes and a routing connection arranged below the layer connecting the through-holes and a routing connection arranged on the layer connecting one of the through-holes to a further through-hole. 15. The antenna arrangement according to claim 9 , wherein the loop antenna encloses an area of the substrate in which the ferrite antenna core is embedded. 16. The antenna arrangement according to claim 9 , wherein the substrate is a laminate. 17. The antenna arrangement according to claim 9 , comprising a plurality of windings, wherein each winding is formed by through-holes through the layer of the substrate and a routing connection between the through-holes on or below the layer of the substrate. 18. The antenna arrangement according to claim 17 , further comprising further routing connections on or below the layer of the substrate serially connecting the plurality of windings. 19. A method for manufacturing an antenna arrangement comprising: forming a ferrite antenna with at least one winding by embedding a ferrite core within a layer of a substrate; and forming the at least one winding by forming through-holes through the layer of the substrate and a routing connection between the through-holes on or below the layer of the substrate; forming a loop antenna formed on the layer of the substrate; and connecting the loop antenna to the at least one winding of the ferrite antenna. 20. The antenna arrangement according to claim 1 , wherein each ferrite antenna portion of the plurality of windings are arranged laterally proximate to one another along a common axis. 21. The antenna arrangement according to claim 1 , wherein the ferrite antenna portion encircles ferrite and the loop antenna portion is free of ferrite. 22. The antenna arrangement according to claim 9 , wherein distal ends of the loop antenna are connected to distal ends of the ferrite antenna. 23. The antenna arrangement according to claim 9 , wherein the loop antenna is connected in series with the ferrite antenna.