Radiating element for an active array antenna consisting of elementary tiles

The invention claimed is: 1. An antenna comprising: a plurality of tiles forming an antenna plane, each of the plurality of tiles including a plurality of radiating elements, wherein each of the plurality of radiating elements includes: a metallic lower patch configured to receive an electric current, a metallic upper patch disposed above the metallic lower patch, a layer that separates and electrically insulates the metallic lower patch and the metallic upper patch, and a conducting frame disposed parallel to the antenna plane, the conducting frame defines an aperture and frames both the metallic lower patch and the metallic upper patch, such that both the metallic lower patch and the metallic upper patch are disposed within the aperture of the conducting frame, and such that the metallic lower patch and the metallic upper patch are coupled electromagnetically through the aperture, the conducting frame includes a body having a rear face and a front face such that: the rear face is of a small cross section S 1 disposed on the side of the metallic lower patch, and the front face is of a larger cross section S 2 that is greater than the small cross section S 1 , the small cross section S 1 is defined by a surface of a first wall extending parallel to a surface of a second wall that defines the larger cross section S 2 , the front face is disposed on the side of the upper patch, so as to widen an angular scan field of a beam in a plane orthogonal to the antenna plane. 2. The antenna as claimed in claim 1 , wherein each of the plurality of radiating elements includes parasitic elements forming strips parallel to edges of a respective metallic upper patch. 3. The antenna as claimed in claim 1 , wherein at least one metallic lower patch, is fed electric current by a core of one coaxial line having a shielding that is linked to a ground plane disposed under the at least one metallic lower patch on an opposite side to a respective metallic upper patch, the core including a capacitive disk disposed between the at least one metallic lower patch and the ground plane. 4. The antenna as claimed in claim 3 , wherein the at least one lower patch includes a set of two demetallized slots, and wherein the core is connected to the at least one metallic lower patch at a position centered on an axis of symmetry of the at least one metallic lower patch and as close as possible to a radiating edge of the at least one metallic lower patch. 5. The antenna as claimed in claim 3 , wherein the at least one metallic lower patch includes a set of four demetallized slots, wherein the core is connected to the at least one metallic lower patch at a position centered on a first axis of symmetry of the at least one metallic lower patch, and wherein a core of an other coaxial line is connected to the at least one metallic lower patch at a position centered on an other axis of symmetry of the at least one metallic lower patch. 6. The antenna as claimed in claim 1 , wherein the plurality of tiles are separated by a conducting seal. 7. The antenna as claimed in claim 6 , further comprising: a layout of metallized holes produced inside the plurality of tiles along the conducting seal. 8. The antenna as claimed in claim 1 , wherein the conducting frame is made of a dielectric material, wherein the dielectric material is metallized over a whole external surface of the body of the frame except for a slot disposed on the front face of the conducting frame. 9. The antenna as claimed in claim 8 , wherein the slot on the front face of the frame is ring-shaped.