Magnetic field measuring device

What is claimed is: 1 . A magnetic field measuring device comprising: a first semiconductor body having a surface formed in a first x-y plane, the surface of the first semiconductor body having two magnetic field sensors spaced apart and arranged along a first connecting line, and the magnetic field sensors respectively measure a z-component of a magnetic field, the x-direction and the y-direction and the z-direction each being orthogonally to one another; and a first magnet with a planar main extension surface formed in a second x-y plane and with a plane of symmetry formed in a y-z plane, wherein the magnetization direction runs substantially or exactly parallel to the main extension surface and substantially or exactly parallel to the plane of symmetry, wherein the first semiconductor body and the first magnet are rigidly fixed to one another, wherein the first semiconductor body is arranged offset with respect to the first magnet in the x-y plane, wherein an offset formed in the z-direction between the first x-y plane and the second x-y plane is smaller than a thickness of the first magnet formed in the z-direction, wherein both magnetic field sensors are spaced apart in the x-z plane and are arranged in the x-z plane along an extension of a north pole or along an extension of a south pole, and wherein, in a z-component of the magnetic field of the first magnet asymmetrical to the plane of symmetry, the magnetic field sensors mutually form different signals in order to measure the signals differentially. 2 . The magnetic field measuring device according to claim 1 , wherein the first magnet has a cuboidal design with two end faces constructed as pole faces in the x-z plane and two side faces formed in the y-z plane. 3 . The magnetic field measuring device according to claim 1 , wherein the two magnetic field sensors are spaced apart along the x-direction and a connecting line is arranged through the two magnetic field sensors substantially or exactly perpendicular to the plane of symmetry of the first magnet. 4 . The magnetic field measuring device according to claim 1 , wherein the x-y plane of the magnetic field sensors is disposed on half the thickness of the first magnet. 5 . The magnetic field measuring device according to claim 1 , wherein in the x-direction, the length of the first semiconductor body is substantially or exactly the same size as the extension of the first magnet. 6 . The magnetic field measuring device according to claim 1 , wherein the first semiconductor body and the first magnet each have a quadrangular shape in the x-y plane, and wherein the first magnet and the first semiconductor body are spaced less than two millimeters in the y-direction. 7 . The magnetic field measuring device according to claim 1 , wherein the two magnetic field sensors are constructed as Hall plates in or near the first x-y plane. 8 . The magnetic field measuring device according to claim 1 , wherein a second semiconductor body designed substantially identical to the first semiconductor body is provided, wherein said two semiconductor bodies are arranged in the same x-y plane such that the two connecting lines are substantially or exactly parallel to each other and the two semiconductor bodies are arranged symmetrically with respect to the interposed first magnet, and each of the semiconductor bodies is arranged along one of the two pole faces of the first magnet. 9 . The magnetic field measuring device according to claim 1 , wherein a second magnet is provided, and the first semiconductor body is arranged between the immediately opposed, identical pole faces of the two magnets. 10 . The magnetic field measuring device according to claim 9 , wherein the main extension surfaces of the two magnets are formed in the same x-y plane. 11 . The magnetic field measuring device according to claim 1 , wherein in the surface of the respective semiconductor body, an integrated circuit is formed and the integrated circuit is in electrical operative connection with the respective magnetic field sensors. 12 . The magnetic field measuring device according to claim 1 , wherein the component of the magnetic field occurring in the z-direction is effected via a ferromagnetic body spaced in the z-direction and asymmetrically with respect to the plane of symmetry. 13 . The magnetic field measuring device according to claim 12 , wherein without the ferromagnetic body spaced apart in the z-direction, no z-component of the magnetic field is present.