Relative-pressure sensor comprising a drying chamber

The invention claimed is: 1. A relative-pressure sensor for determining a pressure of a medium in relation to an atmospheric pressure, the sensor comprising a housing, a measuring element arranged in the housing, wherein the pressure to be measured acts upon an outer surface of the measuring element, said surface being in contact with the medium, a reference-pressure supply, which supplies the atmospheric pressure in the form of ambient air to an inner surface of the measuring element, an electrical evaluation unit, which determines the pressure of the medium from a variable determined using the measuring element, and at least one drying chamber arranged in the housing for taking up atmospheric humidity from the ambient air supplied through the reference-pressure supply, wherein the drying chamber has a drying module comprising a container and a humidity-adsorbent material that is completely surrounded by the container, wherein a bottom surface of the container facing the measuring element is designed to be at least partially humidity-permeable, wherein the container is designed to be humidity-impermeable with the exception of the bottom surface. 2. The relative-pressure sensor of claim 1 , wherein a base body of the drying module is an annular chamber which has a feedthrough along a longitudinal axis of the base body, said feedthrough guiding the connecting lines of electronics and the reference-pressure supply to the measuring element. 3. The relative-pressure sensor of claim 1 , wherein the bottom surface of the container facing the measuring element is designed as a separate bottom unit, wherein a connection between the bottom unit and the container is designed to be form-fitting and/or humidity-impermeable. 4. The relative-pressure sensor of claim 3 , wherein the bottom unit can be plugged into the container. 5. The relative-pressure sensor of claim 1 , wherein the drying module is designed in several parts in such a way that an annular chamber with regard to a longitudinal section is divided into at least two individual chambers. 6. The relative-pressure sensor of claim 5 , wherein in the case of a two-part drying module, the two chambers are designed to be symmetrical in such a way that the total volume of the annular chamber is evenly distributed over the two chambers. 7. The relative-pressure sensor of claim 1 , wherein the container has an enlargement of an outer diameter in an end region facing the measuring element, wherein the housing has a section with an enlargement of an inner diameter which corresponds to the section with the enlargement of the outer diameter of the container, wherein the corresponding sections of the enlargement of the outer diameter of the container and of the enlargement of the inner diameter of the housing engage in a form-fitting manner with one another after introduction of the drying module into the housing. 8. The relative-pressure sensor of claim 1 , wherein the humidity-impermeable material of the container is a polymer or a metal-coated polymer. 9. The relative-pressure sensor of claim 1 , wherein the humidity-permeable region of the bottom unit is made of PA or Gore. 10. The relative-pressure sensor of claim 1 , wherein a molded body comprising a polymer matrix and zeolite is provided as humidity-adsorbent material. 11. The relative-pressure sensor of claim 1 , wherein a cross-section of an outer wall of the drying module facing the housing has a waveform superimposed on the circular basic profile.