Capacitive pressure difference sensor and method for its manufacture

The invention claimed is: 1. A pressure difference sensor, comprising: first and second counterelectrodes; a conductive disk arranged between said first and second counterelectrodes; a first insulating layer, via which an outer edge of said conductive disk is connected with an outer edge of said first counterelectrode to form a first pressure chamber; a second insulating layer, via which an outer edge of said conductive disk is connected with an outer edge of said second counterelectrode to form a second pressure chamber; an opening provided in said first counterelectrode, via which opening said first pressure chamber is contactable with a first pressure; and an opening provided in said second counterelectrode, via which opening said second pressure chamber is contactable with a second pressure, wherein: said conductive disk is divided by a moat into an inner region serving as an electrode and an outer region electrically insulated therefrom by said moat; said inner region includes a measuring membrane arranged between said two pressure chambers and an edge region surrounding said measuring membrane and clamped between the inner edges of said two insulating layers; and said inner region forms with each of said counterelectrodes, in each case, a capacitor having a capacitance dependent on a pressure difference between said first and said second pressures acting on said measuring membrane; wherein the capacitors are composed, in each case, of an inner capacitor portion, whose capacitor surfaces correspond to the area of the measuring membrane, and an outer capacitor portion externally surrounding the inner capacitor portion and wherein the area of the moat and the area of the total outer region of the disk do not, due to the moat, contribute to the capacitor surface of the outer capacitor portions. 2. The pressure difference sensor as claimed in claim 1 , wherein: said inner region includes a connection region, especially a spit shaped connection region, extending to the edge of said disk. 3. The pressure difference sensor as claimed in claim 2 , wherein: said insulating layer arranged between said disk and said second counterelectrode has a recess exposing at least a portion of said connection region; said second counterelectrode has a recess communicating with said recess of said insulating layer; and an electrical connection of the inner region serving as electrode occurs through said recess in said counterelectrode and said recess in said second insulating layer. 4. The pressure difference sensor as claimed in claim 3 , wherein: the connection of said inner region occurs via a conductive trace, especially a conductive trace applied by sputter deposition of a metallization; said conductive trace extends from said connection region along a lateral surface of said second insulating layer and a lateral surface of said second counterelectrode to a rear side of said second counterelectrode facing away from said disk; and between said conductive trace and the surfaces of said second counterelectrode, on which said conductive trace extends, an insulation layer is provided. 5. The pressure difference sensor as claimed in claim 1 , wherein: said moat has a moat width greater than or equal to 5 μm. 6. The pressure difference sensor as claimed in claim 5 , wherein: said moat has a moat width, which is greater than or equal to a fourth of a thickness of said disk. 7. The pressure difference sensor as claimed in claim 1 , wherein: said edge region of said inner region clamped between said inner edges of said two insulating layers has a width, which is greater than or equal to 500 μm. 8. The pressure difference sensor as claimed in claim 1 , wherein: connections are applied to said first and said second counterelectrodes, especially as sputter deposited metallizations, via which said counterelectrodes are electrically connectable. 9. The pressure difference sensor as claimed in claim 1 , wherein: said first and said second counterelectrodes are single pieces, especially pieces of silicon; said disk is a silicon disk, especially a silicon disk manufactured of a top layer (DSi) of an SOI wafer; and said first and said second insulating layers are silicon oxide layers. 10. A method for operating a pressure difference sensor comprising first and second counterelectrodes; a conductive disk arranged between said first and second counterelectrodes; a first insulating layer, via which an outer edge of said conductive disk is connected with an outer edge of said first counterelectrode to form a first pressure chamber; a second insulating layer, via which an outer edge of said conductive disk is connected with an outer edge of said second counterelectrode to form a second pressure chamber; an opening provided in said first counterelectrode, via which opening said first pressure chamber is contactable with a first pressure; and an opening provided in said second counterelectrode, via which opening said second pressure chamber is contactable with a second pressure, wherein: said conductive disk is divided by a moat into an inner region serving as an electrode and an outer region electrically insulated therefrom by said moat; said inner region includes a measuring membrane arranged between said two pressure chambers and an edge region surrounding said measuring membrane and clamped between the inner edges of said two insulating layers; and said inner region forms with each of said counterelectrodes, in each case, a capacitor having a capacitance dependent on a pressure difference between said first and said second pressures acting on said measuring membrane, the method comprising the steps of: determining the pressure difference acting on the measuring membrane, based on a capacitance of a first capacitor formed by the disk inner region serving as electrode and the first counterelectrode and/or a capacitance of a second capacitor formed by the disk inner region serving as electrode and the second counterelectrode and/or determining a measure for a system pressure acting equally on the two sides of the pressure difference sensor based on a capacitance of a capacitor formed by the first and second counterelectrodes; wherein the capacitors are composed, in each case, of an inner capacitor portion, whose capacitor surfaces correspond to the area of the measuring membrane, and an outer capacitor portion externally surrounding the inner capacitor portion and wherein the area of the moat and the area of the total outer region of the disk do not, due to the moat, contribute to the capacitor surface of the outer capacitor portions. 11. The method for manufacture of a pressure difference sensor as claimed in claim 10 , especially a method executable in an undivided wafer for parallel manufacture of a plurality of equally constructed pressure difference sensors, wherein: the moat is introduced into a top, disk forming layer (DSi) of an SOI wafer, especially etched in by deep reactive ion etching (DRIE); the first insulating layer is manufactured from an insulation layer (ISiO2) applied on a support layer (TSi) of a first silicon wafer, wherein a region of the insulation layer (ISiO2) surrounded externally by a remaining edge of the insulation layer (ISiO2) forming the first insulating layer is removed, especially etched away by an etching method executed with buffered hydrofluoric acid (BHF); the first counterelectrode is manufactured from the support layer (TSi) of the first silicon wafer by introducing into the support layer (TSi) a hollow forming the opening of the first counterelectrode, especially etched in by means of deep reactive ion etching (DRIE) or by means of an etching method executed