Magnetoresistive inertial sensor chip

The invention claimed is: 1. A magnetoresistive inertial sensor chip, comprising: a substrate, a vibrating diaphragm, a magnetic field sensing magnetoresistor, and at least one permanent magnet thin film, wherein the vibrating diaphragm is located on one side surface of the substrate, the magnetic field sensing magnetoresistor and the permanent magnet thin film are set on the surface of the vibrating diaphragm away from the base of the substrate, a contact electrode is also arranged on the surface of the vibrating diaphragm away from the base of the substrate, and the magnetic field sensing magnetoresistor is connected to the contact electrode through a connecting lead; and the substrate comprises a cavity formed through etching, either one or both of the magnetic field sensing magnetoresistor and the permanent magnet thin film are arranged in a vertical projection area of the cavity on the vibrating diaphragm, and a component of a magnetic field generated by the permanent magnet thin film in a sensitivity direction of the magnetic field sensing magnetoresistor changes, causing the resistance value of the magnetic field sensing magnetoresistor to change, thereby leading to a change in an output electric signal. 2. The magnetoresistive inertial sensor chip according to claim 1 , wherein: the magnetic field sensing magnetoresistor is arranged in an area other than the vertical projection area of the cavity on the vibrating diaphragm, and the permanent magnet thin film is arranged at a central position of the vertical projection area of the cavity on the vibrating diaphragm; the magnetic field sensing magnetoresistor is arranged on an inner edge of the vertical projection area of the cavity on the vibrating diaphragm, and the permanent magnet thin film is arranged at the central position of the vertical projection area of the cavity on the vibrating diaphragm; the magnetic field sensing magnetoresistor is arranged at the central position of the vertical projection area of the cavity on the vibrating diaphragm, and the permanent magnet thin film is arranged in an area other than the vertical projection area of the cavity on the vibrating diaphragm. 3. The magnetoresistive inertial sensor chip according to claim 1 , wherein the magnetoresistive inertial sensor chip further comprises a reference magnetoresistor, the reference magnetoresistor is located on the surface of the vibrating diaphragm away from the base of the substrate and is arranged in an area other than the vertical projection area of the cavity on the vibrating diaphragm, and the reference magnetoresistor and the magnetic field sensing magnetoresistor are connected into a full-bridge or half-bridge structure through an encapsulation lead. 4. The magnetoresistive inertial sensor chip according to claim 3 , wherein a side of the reference magnetoresistor away from the vibrating diaphragm is provided with a magnetic shielding layer comprising a soft magnetic material, and the magnetic shielding layer covers the reference magnetoresistor. 5. The magnetoresistive inertial sensor chip according to claim 3 , wherein the reference magnetoresistor and the magnetic field sensing magnetoresistor are a tunneling magnetoresistor, a giant magnetoresistor, or an anisotropic magnetoresistor. 6. The magnetoresistive inertial sensor chip according to claim 1 , wherein the magnetoresistive inertial sensor chip further comprises an encapsulation structure consisting of an encapsulation substrate and an encapsulation housing, and the substrate is disposed inside a cavity formed by the encapsulation substrate and the encapsulation housing and is fixed on the encapsulation substrate. 7. The magnetoresistive inertial sensor chip according to claim 6 , wherein the encapsulation housing comprises one or more layers of magnetic field shielding shells made of soft magnetic materials, one or more layers of electric field shielding shells made of metal foils, or a shell formed by stacking the magnetic field shielding shells and the electric field shielding shells. 8. The magnetoresistive inertial sensor chip according to claim 6 , wherein the encapsulation substrate or the encapsulation housing is provided with at least one opening. 9. The magnetoresistive inertial sensor chip according to claim 1 , wherein a thickness of the vibrating diaphragm is 0.001 μm to 1000 μm, an edge of a contact face between the cavity and the vibrating diaphragm is a circle, an ellipse, a rectangle, or a parallelogram, and the length-width ratio of the enclosing rectangle of the contact face between the cavity and the vibrating diaphragm is in a range of 20:1 to 1:1, wherein a width of the enclosing rectangle of the contact face is in a range of 0.1 μm to 2000 μm. 10. The magnetoresistive inertial sensor chip according to claim 1 , wherein the vibrating diaphragm comprises a plurality of through holes formed through etching. 11. The magnetoresistive inertial sensor chip according to claim 1 , wherein the permanent magnet thin film is one or more layers of hard magnetic materials, or [soft magnet/antiferromagnet]n formed by composite units consisting of a soft magnetic material and an antiferromagnetic material, or [soft magnet/hard magnet]n formed by composite units consisting of a soft magnetic material and a hard magnetic material, wherein n is a natural number, the hard magnetic material comprises at least one of CoPt, CoCrPt, and FePt, the soft magnetic material comprises at least one of FeCo and NiFe, and the antiferromagnetic material comprises at least one of PtMn and IrMn. 12. The magnetoresistive inertial sensor chip according to claim 1 , wherein a magnetizing direction of the permanent magnet thin film is in a plane of the permanent magnet thin film or perpendicular to the-plane of the permanent magnet thin film, and the sensitivity direction of the magnetic field sensing magnetoresistor is in the plane of the permanent magnet thin film or perpendicular to the plane of the permanent magnet thin film. 13. The magnetoresistive inertial sensor chip according to claim 1 , wherein the sensor chip comprises a feedback coil; the feedback coil is a plane etched coil that is located on the surface of the vibrating diaphragm away from the base of the substrate and is arranged in an area other than the vertical projection area of the cavity on the vibrating diaphragm, or the feedback coil is a winding coil disposed right above the permanent magnet thin film or disposed right below the permanent magnet thin film and is arranged below the cavity or inside the cavity.