Electrochemical gas sensor

The invention claimed is: 1. An electrochemical gas sensor for measuring gaseous components in an air and/or gas mixture, the electrochemical gas sensor comprising: a sensor housing; a measuring electrode arranged in the sensor housing; a counter electrode arranged in the sensor housing; an electrolyte located between the measuring electrode and the counter electrode; a diffusion barrier associated with the sensor housing and configured such that a specifically settable gas flow of the air and/or gas mixture intended for a concentration determination can be fed to the measuring electrode from a surrounding area, the diffusion barrier comprising one or more capillaries, the one or more capillaries having a capillary opening; and at least one gas-permeable, hydrophobic pressure absorption element covering the diffusion barrier in an interior of the sensor housing and which lies on an inner surface of the sensor housing, wherein the at least one pressure absorption element surrounds an entire circumference of the capillary opening, wherein the at least one pressure absorption element is provided between the diffusion barrier and the measuring electrode, wherein the inner surface has a mean roughness depth that is lower than or equal to 2 μm at least in an area on which the at least one pressure absorption element lies, the at least one pressure absorption element being configured to dampen or absorb pressure surges propagating to the measuring electrode, the at least one pressure absorption element comprising a first pressure absorption element surface and a second pressure absorption element surface, the second pressure absorption element surface being located opposite the first pressure absorption element surface, the second pressure absorption element surface being located at a distance from the measuring electrode and each and every portion of the second pressure absorption element surface being free of contact with the sensor housing, wherein a space between the second pressure absorption element surface and the measuring electrode is filled with fluid. 2. The electrochemical gas sensor in accordance with claim 1 , wherein the mean roughness depth of the inner surface is lower than or equal to 1 μm at least in an area on which the at least one pressure absorption element lies, the capillary opening being located at one end of the one or more capillaries, the capillary opening defining an endmost outlet of the one or more capillaries, the endmost outlet defining a final exit for the fluid to exit directly from the one or more capillaries into an interior space of the sensor housing in which the measuring electrode, the counter electrode and the electrolyte are arranged, the at least one pressure absorption element being arranged between the capillary opening and the measuring electrode. 3. The electrochemical gas sensor in accordance with claim 1 , wherein the mean roughness depth of the inner surface is lower than or equal to 0.5 μm in an area on which the at least one pressure absorption element lies, the capillary opening being arranged in a center area of the sensor housing. 4. The electrochemical gas sensor in accordance with claim 1 , wherein the diffusion barrier comprises a diffusion barrier outlet end, the at least one pressure absorption element covering the diffusion barrier outlet end, the inner surface being arranged on an inner side of the sensor housing defining a space in which the measuring electrode is arranged, the sensor housing comprising an interior space in which the measuring electrode is arranged, the second pressure absorption element surface extending parallel to a longitudinal axis of the at least one pressure absorption element, the second pressure absorption element surface being only in contact with the fluid in the interior space, the first pressure absorption element surface being in contact with the inner surface, the second pressure absorption element surface extending from one end of the at least one pressure absorption element to another end of the pressure absorption element. 5. The electrochemical gas sensor in accordance with claim 1 , wherein the at least one pressure absorption element comprises a thermoplastic fluoroplastic, the sensor housing comprising an electrochemical cell interior space, the inner surface defining at least a portion of the electrochemical cell interior space, the measuring electrode, the counter electrode, the electrolyte, and the at least one pressure absorption element being arranged in the electrochemical cell interior space, the second pressure absorption element surface extending from one end of the at least one pressure absorption element to another end of the pressure absorption element, each and every portion of the second pressure absorption element surface being in contact with the fluid. 6. The electrochemical gas sensor in accordance with claim 5 , wherein the at least one pressure absorption element comprises polytetrafluoroethylene, the diffusion barrier comprising a diffusion barrier outlet located adjacent to a portion of the at least one pressure absorption element, the air and/or gas mixture entering the electrochemical cell interior space via the diffusion barrier outlet, each and every portion of the second pressure absorption element surface defining at least a portion of the space. 7. The electrochemical gas sensor in accordance with claim 5 , wherein the at least one pressure absorption element comprises polyfluoroethylene propylene, at least the measuring electrode and each and every portion of the second pressure absorption element surface defining the space. 8. The electrochemical gas sensor in accordance with claim 1 , wherein the at least one pressure absorption element comprises glass, quartz, silicate, carbon aluminosilicate or any combination of glass, quartz, silicate, carbon and aluminosilicate, the sensor housing comprising an interior space, the interior space defining a common space in which the at least one pressure absorption element and the measuring electrode are arranged. 9. The electrochemical gas sensor in accordance with claim 1 , wherein the at least one pressure absorption element is configured at least partly as a nonwoven or as a molding or as both a nonwoven and a molding, the diffusion barrier comprising a diffusion barrier outlet end, the diffusion barrier outlet end comprising the capillary opening, the capillary opening being located in the interior of the sensor housing, the at least one pressure absorption element being located between the measuring electrode and the diffusion barrier outlet end. 10. The electrochemical gas sensor in accordance with claim 1 , further comprising a reference electrode arranged in the electrolyte and provided in the sensor housing, the measuring electrode, the counter electrode and the electrolyte being provided in an interior space of the sensor housing, the inner surface defining at least a portion of the interior space, wherein only one side of the at least one pressure absorption element is in contact with the sensor housing and each remaining side of the at least one pressure absorption element is only in contact with the fluid in the interior space of the sensor housing. 11. The electrochemical gas sensor in accordance with claim 1 , wherein: the sensor housing comprises a plastic molded pot-shaped sensor housing cover part, manufactured from a plastic by means of an injection molding process; the one or more capillaries passes through the pot-shaped sensor housing cover part, and the capillary opening is located in the interior of the sensor housing; and the entire circumference of the capillary opening is surrounded by the at least one pressure absorpti