Pressure sensor

What is claimed is: 1. A pressure sensor for determining a pressure of a medium, the pressure sensor configured to be screwed into a hydraulic control block, and comprising: a sleeve shaped connector stub that includes: an axial through bore configured to receive the medium; and a plurality of axial sections including: a threaded section; a flange section having an annular face facing toward the threaded section and configured to bear directly against a surface of the control block; a carrier section having an inner opening that opens into the through bore; and a tapered portion that defines a reduction in a radial external diameter of the connector stub between the flange section and the carrier section; a sensor element positioned on the inner opening so as to sealingly close the inner opening; and a pedestal extending up from the carrier section of the connector stub and having an annular face, wherein: the carrier section and the pedestal are made of one piece, and the sensor element is connected to the pedestal via a welding connection. 2. The pressure sensor of claim 1 , wherein the tapered portion of the connector stub is an annular groove having one of a rectangular shaped profile and a notch shaped profile. 3. The pressure sensor of claim 2 , wherein the annular groove has a rounded groove bottom. 4. The pressure sensor of claim 1 , wherein the threaded section, flange section, tapered portion and carrier section of the connector stub are in one piece. 5. The pressure sensor of claim 1 , wherein: the through bore opens in the pedestal; and the sensor element is fastened onto the annular face of the pedestal. 6. The pressure sensor of claim 5 , wherein: the annular face of the pedestal rises up from the carrier section of the connector stub. 7. The pressure sensor of claim 1 , further comprising: an attachment element configured to attach a screwing tool and fastened on an annular face of the carrier section of the connector stub. 8. The pressure sensor of claim 7 , wherein: the attachment element has a further axial through bore; and the sensor element is at least partially received in the further axial through bore. 9. The pressure sensor of claim 7 , wherein: the through bore opens in the pedestal; the sensor element is fastened onto the annular face of the pedestal; the attachment element has a further axial through bore; and at least the pedestal is received in the further axial through bore. 10. The pressure sensor of claim 7 , further comprising: a printed circuit board fastened on the attachment element and including a central through opening that provides access to the sensor element; and an electric connection between the printed circuit board and the sensor element. 11. The pressure sensor of claim 7 , wherein the attachment element has a hexagon shape. 12. The pressure sensor of claim 7 , wherein the attachment element is fastened on the annular face of the carrier section via a welding connection. 13. The pressure sensor of claim 7 , further comprising: a covering cap fastened on the attachment element. 14. The pressure sensor of claim 13 , wherein: the covering cap has an integrated connector socket; and the printed circuit board further includes spring contacts that are electrically connected to the connector socket. 15. A method of producing a pressure sensor for determining a pressure of a medium and configured to be screwed into a hydraulic control block, the method comprising: fastening a sensor element that is configured to measure a pressure of a medium on an opening of a through bore in a sleeve-shaped connector stub to sealingly close the opening, wherein: the connector stub has a plurality of axial sections including: a threaded section; a flange section having an annular face facing toward the threaded section and configured to bear against a surface of the control block; a carrier section; and a tapered portion that defines a reduction in a radial external diameter of the connector stub between the flange section and the carrier section; and the opening is located in the carrier section; and fastening an attachment element configured to attach a screwing tool on the carrier section via welding; wherein the fastening of the sensor element includes welding. 16. The method of claim 15 , wherein welding at least one of the sensor element and the attachment element includes at least one of laser welding and capacitor discharge welding. 17. A pressure sensor for determining a pressure of a medium, the pressure sensor configured to be screwed into a hydraulic control block, and comprising: a sleeve shaped connector stub that includes: an axial through bore configured to receive the medium; and a plurality of axial sections including: a threaded section; a flange section having an annular face facing toward the threaded section and configured to bear against a surface of the control block; a carrier section having an inner opening that opens into the through bore; and a tapered portion that defines a reduction in a radial external diameter of the connector stub between the flange section and the carrier section; a sensor element positioned on the inner opening so as to sealingly close the inner opening; an attachment element configured to attach a screwing tool and fastened on an annular face of the carrier section of the connector stub; and a pedestal extending up from the carrier section of the connector stub and having an annular face, wherein: the through bore opens in the pedestal, the sensor element is fastened onto the annular face of the pedestal, the sensor element is connected to the annular face of the pedestal via a welding connection, and the annular face of the pedestal rises up from the carrier section of the connector stub.