Electrode for a microelectromechanical device

The invention claimed is: 1. A microelectromechanical device structure, comprising: a supporting structure wafer comprising any one of a homogenous material layer and several homogenous material layers or layer parts attached to each other with a mechanically rigid insulating material layer; a functional layer comprising movable parts of the microelectromechanical device structure; wherein the supporting structure wafer forms a mechanically rigid support structure for the functional layer; and a cavity electrode, wherein the cavity electrode is formed within a cavity in a homogenous material layer or a homogenous material layer part of the supporting structure wafer so that the cavity electrode comprises a protruding structure from a base of the cavity towards the functional layer, and the cavity electrode forms an integral part of the homogenous material layer or layer part into which the cavity and the cavity electrode are formed, wherein the cavity electrode is electrically connected with the respective homogenous material layer or layer part of the supporting structure wafer, and wherein the cavity electrode and the respective homogenous material layer or layer part of the supporting structure wafer are configured to be connected to a defined electrical potential, wherein the cavity electrode is disposed to be used for adjusting a frequency of a mechanical oscillation occurring in the microelectromechanical device. 2. The microelectromechanical device structure of claim 1 , wherein the cavity electrode comprises a silicon column within the cavity at least partially comprised in the respective single homogenous material layer or the respective one of the several homogenous material layers or layer parts of the supporting structure wafer. 3. The microelectromechanical device structure of claim 1 , wherein the supporting structure wafer comprises at least one of: a handle wafer; and a cap wafer. 4. The microelectromechanical device structure according to claim 1 , wherein the microelectromechanical device comprises a sensor. 5. The microelectromechanical device structure according to claim 1 , wherein the microelectromechanical device comprises a gyroscope. 6. A microelectromechanical device structure, comprising: a supporting structure wafer comprising any one of a homogenous material layer and several homogenous material layers or layer parts attached to each other with a mechanically rigid insulating material layer; a functional layer comprising movable parts of the microelectromechanical device structure; wherein the supporting structure wafer forms a mechanically rigid support structure for the functional layer; and a cavity electrode, wherein the cavity electrode is formed within a cavity in a homogenous material layer or a homogenous material layer part of the supporting structure wafer so that the cavity electrode comprises a protruding structure from a base of the cavity towards the functional layer, and the cavity electrode forms an integral part of the homogenous material layer or layer part into which the cavity and the cavity electrode are formed, wherein the cavity electrode is electrically connected with the respective homogenous material layer or layer part of the supporting structure wafer, and wherein the cavity electrode and the respective homogenous material layer or layer part of the supporting structure wafer are configured to be connected to a defined electrical potential, wherein the cavity electrode is disposed to be used as an electrode of a parallel plate capacitor, and a movable electrode of the parallel plate capacitor is associated with a planar movable element in the functional layer of the microelectromechanical device, and wherein the parallel plate capacitor is disposed to be used for adjusting a frequency of a mechanical oscillation occurring in the microelectromechanical device. 7. A method of adjusting a frequency of a mechanical oscillation occurring in a microelectromechanical device, said method comprising: providing the micromechanical device structure according to claim 6 ; and adjusting the frequency of the mechanical oscillation, said adjusting comprising at least one of: adjusting the electrical potential of the cavity electrode; and adjusting the electrical potential of the movable electrode arranged in the functional layer, wherein the frequency is adjustable by changing the relative direct current potential between the two electrodes of the parallel plate capacitor. 8. A microelectromechanical device structure, comprising: a supporting structure wafer comprising any one of a homogenous material layer and several homogenous material layers or layer parts attached to each other with a mechanically rigid insulating material layer; a functional layer comprising movable parts of the microelectromechanical device structure; wherein the supporting structure wafer forms a mechanically rigid support structure for the functional layer; and a cavity electrode, wherein the cavity electrode is formed within a cavity in a homogenous material layer or a homogenous material layer part of the supporting structure wafer so that the cavity electrode comprises a protruding structure from a base of the cavity towards the functional layer, and the cavity electrode forms an integral part of the homogenous material layer or layer part into which the cavity and the cavity electrode are formed, wherein the cavity electrode is electrically connected with the respective homogenous material layer or layer part of the supporting structure wafer, and wherein the cavity electrode and the respective homogenous material layer or layer part of the supporting structure wafer are configured to be connected to a defined electrical potential, wherein the cavity electrode is configured to be connected to a set electrical potential through at least one electrically conductive plug arranged between the at least one part of the supporting structure wafer and the functional layer, the at least one electrically conductive plug extending through an insulating material layer between the at least one part of the supporting structure wafer and the functional layer. 9. The microelectromechanical device structure of claim 8 , wherein the device structure comprises at least two cavity electrodes electrically connected to the same electrical potential. 10. The microelectromechanical device structure of claim 8 , wherein the device structure comprises at least two cavity electrodes electrically connectable through at least two electrically conductive plugs to at least two different electrical potentials, and the respective supporting structure wafer is divided by an electrically isolating structure material layer into at least two parts, the at least two parts comprising at least one part for each cavity electrode electrically connectable to different electrical potentials. 11. The microelectromechanical device structure according to claim 8 , wherein the microelectromechanical device comprises a sensor. 12. The microelectromechanical device structure according to claim 8 , wherein the microelectromechanical device comprises a gyroscope. 13. A microelectromechanical device structure, comprising: a supporting structure wafer comprising any one of a homogenous material layer and several homogenous material layers or layer parts attached to each other with a mechanically rigid insulating material layer; a functional layer comprising movable parts of the microelectromechanical device structure; wherein the supporting structure wafer forms a mechanically rigid support structure for the functional layer; and a cavity electrode, wherein the