Shaft-integrated angle sensing device

What is claimed is: 1. A sensor arrangement, comprising: a rotatable shaft extending along a rotation axis in an axial direction and having an outer diameter defined in a radial direction, wherein the rotatable shaft comprises a bore extending within the rotatable shaft, wherein the bore extends in an inward direction from an end face of a shaft end portion of the rotatable shaft through at least a portion of the rotatable shaft along the rotation axis; a magnet module coupled to the rotatable shaft configured to generate a magnetic field, wherein the magnet module is coupled to at least one face of the bore and configured to generate the magnetic field within the bore; a sensor module comprising a sensing element configured to sense a rotating magnetic field caused by the magnet module upon rotation of the rotatable shaft around the rotation axis, wherein the sensing element has a sensitive spot, the sensitive spot being arranged within the bore and exposed to the rotating magnetic field; and a non-rotatable case to which the rotatable shaft is rotatably coupled, the non-rotatable case comprising a module opening that extends along the rotation axis, wherein the sensor module is disposed at least partially within the module opening. 2. The sensor arrangement according to claim 1 , wherein the rotatable shaft is a shaft of a wheel, a transmission shaft, or a powertrain shaft. 3. The sensor arrangement according to claim 1 , wherein the sensor module includes a housing sealing the sensing element within the housing. 4. The sensor arrangement according claim 1 , further comprising: an interface connected to the sensing element, wherein the interface is configured to transfer measurement results from the sensing element to a controller. 5. The sensor arrangement according to claim 4 , wherein the controller is configured to determine angular information of the rotatable shaft, wherein the angular information is at least one of an angular position, a rotational speed, an angular direction, or an angular acceleration. 6. The sensor arrangement according to claim 1 , wherein: the non-rotatable case is part of an automotive power train or a transmission system. 7. The sensor arrangement according to claim 1 , further comprising: a bearing configured to rotatably couple the outer diameter of the rotatable shaft to the non-rotatable case. 8. The sensor arrangement according to claim 7 , wherein the rotatable shaft comprises a non-magnetic material. 9. The sensor arrangement according to claim 1 , wherein the sensing element comprises two or more sensors selected from the group consisting of: anisotropic magneto-resistors (AMR) sensing elements, giant magneto-resistors (GMR) sensing elements, tunneling magneto-resistors (TMR) sensing elements, colossal magneto-resistors (CMR) sensing elements, Hall plates, vertical Hall devices, MAGFET sensing elements, and magneto impedance sensing elements. 10. The sensor arrangement according to claim 1 , wherein the magnet module includes at least one magnetic member of rotational symmetry or of N-fold symmetry, with N being greater 1 . 11. The sensor arrangement according to claim 1 , wherein the sensing element is implemented as discrete transducers or integrated sensing elements. 12. The sensor arrangement according to claim 1 , wherein the sensing element comprises a first sensor and a second sensor arranged in a sensing element plane, the first sensor being responsive to a first magnetic field component in a direction perpendicular to the sensing element plane, while the second sensor is responsive to a second magnetic field component parallel to the sensing element plane; the sensing element further being configured to provide at least one output signal indicative of a projection of the rotating magnetic field onto a projection plane parallel to the first magnetic field component and the second magnetic field component; wherein the at least one output signal fully determines an angle between the projection of the rotating magnetic field and a reference direction in the projection plane. 13. The sensor arrangement according to claim 1 , wherein the magnet module is arranged symmetrical to the sensitive spot with regards to at least one selected from the group consisting of: the rotation axis, a radial direction with regards to the rotation axis, and an azimuthal direction with regards to the rotation axis. 14. The sensor arrangement of claim 1 , wherein: the magnet module is arranged within the bore of the rotatable shaft, the magnet module being coupled to the at least one face of the bore, wherein the at least one face of the bore is an internal surface of the rotatable shaft formed by the bore. 15. The sensor arrangement of claim 1 , further comprising: a non-rotatable magneto-static shield of unitary construction and arranged to surround the magnet module and the sensing element. 16. The sensor arrangement according to claim 1 , wherein the non-rotatable case further comprises a recess into which the rotatable shaft is inserted. 17. The sensor arrangement according to claim 16 , wherein the outer diameter of the rotatable shaft is rotatably coupled to an internal recess surface of the non-rotatable case, the internal recess surface being defined by the recess. 18. The sensor arrangement according to claim 16 , wherein the module opening and the recess are conjoined openings where the module opening extends along the rotation axis from a first end of the non-rotatable case and the recess extends along the rotation axis from a second end of the non-rotatable case opposite to the first end of the non-rotatable case. 19. The sensor arrangement according to claim 18 , wherein the module opening has a first diameter defined in the radial direction and the recess has as second diameter defined in the radial direction, the second diameter being greater than the first diameter. 20. The sensor arrangement according to claim 18 , wherein the sensor module is coupled to the first end of the non-rotatable case, extends through the module opening, and extends at least partially through the recess such that the sensitive spot is arranged within the bore. 21. The sensor arrangement according to claim 18 , wherein the non-rotatable case hermetically seals the sensing element within the bore. 22. The sensor arrangement according to claim 7 , wherein the magnet module is spaced from the end face of the rotatable shaft by a first distance in the axial direction and the bearing is spaced from the end face of the rotatable shaft by a second distance in the axial direction, the second distance being greater than the first distance such that the magnet module and the bearing do not overlap in the radial direction. 23. The sensor arrangement according to claim 7 , wherein the bearing is a rolling-element bearing configured to rotatably support the rotatable shaft, the rolling-element bearing comprising a plurality of rollers or a plurality of balls. 24. A sensor arrangement, comprising: a rotatable shaft extending along a rotation axis in an axial direction and having an outer diameter defined in a radial direction, wherein the rotatable shaft comprises a bore extending within the rotatable shaft, wherein the bore extends in an inward direction from an end face of a shaft end portion of the rotatable shaft through at least a portion of the rotatable shaft along the rotation axis; a magnet module coupled to the rota