Fill level device

What is claimed is: 1. A fill level radar antenna, comprising: a plurality of waveguide couplings, wherein each of the waveguide couplings comprises a radiator element configured to at least one of transmit or receive a radar signal, each radiator element being connected to a microstrip line and a waveguide configured to conduct the radar signal; and a substrate on which the microstrip lines, the radiator elements and the waveguides are arranged, wherein each of the waveguides includes a cross-sectional area that has a narrow side and a wide side, the narrow side being shorter than the wide side, wherein each of the microstrip lines is provided through the narrow side of the respective waveguide into the respective waveguide to the respective radiator element which resides in an interior of the respective waveguide, wherein each of the microstrip lines and each of the radiator elements are arranged on a surface of the substrate that faces the waveguides, and wherein adjacent ones of the radiator elements of the waveguides couplings are arranged at a distance from one another, the distance being smaller or equal to half of a wavelength of the radar signal. 2. The fill level radar antenna according to claim 1 , wherein the interior of the waveguide is at least partially filled with a dielectric material. 3. The fill level radar antenna according to claim 1 , wherein the cross-sectional area of the waveguide has at least one of an elliptical shape, an oval shape or a rectangular shape. 4. The fill level radar antenna according to claim 1 , wherein each of the radiator elements is plate-shaped. 5. The fill level radar antenna according to claim 1 , wherein each of the radiator elements has a first corner and a second corner, the first corner having a smaller radius of curvature than the second corner. 6. The fill level radar antenna according to claim 5 , wherein the first corner is provided opposite to the second corner in a longitudinal direction of the radiator element. 7. The fill level radar antenna according to claim 5 , wherein the first corner has a radius of curvature of between 0.2 mm and 0.3 mm. 8. The fill level radar antenna according to claim 5 , wherein the second corner has a radius of curvature of between 0.5 mm and 0.6 mm. 9. The fill level radar antenna according to claim 1 , wherein at least two corners of each of the radiator elements have substantially identical radii of curvature. 10. The fill level radar antenna according to claim 1 , wherein a conductor element is arranged in the interior of each of the waveguides adjacent to the radiator element so as to increase a bandwidth. 11. The fill level radar antenna according to claim 10 , wherein each of the conductor elements extends transversely, along a longitudinal direction, to a longitudinal direction of the microstrip line. 12. The fill level radar antenna according to claim 10 , wherein at least two corners of each of the conductor elements have different radii of curvature. 13. The fill level radar antenna according to claim 1 , wherein the waveguide has a recess on the narrow side thereof, wherein the recess is used to guide each of the microstrip lines to the respective radiator element arranged in the interior of the respective waveguide. 14. The fill level radar antenna according to claim 1 , wherein the radiator elements, the microstrip lines and the waveguides of the at least two of the plurality of waveguide couplings are arranged on a common substrate. 15. The fill level radar antenna according to claim 1 , wherein the fill level radar antenna is configured as at least one of a parabolic trough, a horn radiator array antenna, or an array antenna. 16. A fill level measurement device comprising a fill level radar antenna, which comprises: a plurality of waveguide couplings for a radar antenna, wherein at least two of the waveguide couplings each includes: a. a radiator element configured to at least one of transmit or receive a radar signal, the radiator element being connected to a microstrip line; b. a waveguide configured to conduct the radar signal; and c. a substrate, wherein the microstrip lines, the radiator elements and the waveguides are arranged on the substrate, wherein, the respective waveguide includes a cross-sectional area that has a narrow side and a wide side, the narrow side being shorter than the wide side, wherein each of the microstrip lines is provided through the narrow side of the respective waveguide into the respective waveguide to the respective radiator element which resides in an interior of the respective waveguide, wherein each of the microstrip lines and each of the radiator elements are arranged on a surface of the substrate that faces the waveguides, and wherein adjacent ones of the radiator elements of the waveguides couplings are arranged at a distance from one another, the distance being smaller or equal to half of a wavelength of the radar signal.