Elementary antenna comprising a planar radiating device

The invention claimed is: 1. An elementary antenna, comprising: a radiating element, having: a center, a plane defined by (i) a first straight line passing through the center and (ii) a second straight line perpendicular to the first straight line and passing through the center, and a plurality of pairs of excitation points arranged in at least one first quadruplet of excitation points, each excitation point of the quadruplet of excitation points being distant from the first straight line and from the second straight line, the pairs comprising (i) a first pair of excitation points (1+, 1−) that are placed substantially symmetrically about said first straight line and (ii) a second pair composed of excitation points (2+, 2) that are placed substantially symmetrically about said second straight line; and a plurality of processing circuits configured to at least one of (i) deliver differential excitation signals intended to excite the excitation points and (ii) form signals issued from the excitation points, each pair of excitation points being coupled to a processing circuit so that the processing circuit is configured to at least one of excite the pair of excitation points differentially and process differential signals issued from the pair of points. 2. The elementary antenna as claimed in claim 1 , further comprising at least one of: transmission-side phase-shifters allowing introduction of a first transmission-side phase shift between a first excitation signal applied to the first pair of the excitation points (1+, 1−) and a second excitation signal applied to at least one of the second pair of excitation points (2+, 2−); and reception-side phase-shifters allowing introduction of a first reception-side phase shift between a first reception signal issued from the first pair of the excitation points (1+, 1−) and a second reception signal issued from the second pair of excitation points (2+, 2−). 3. The elementary antenna as claimed in claim 1 , wherein the excitation points of the first quadruplet of excitation points are placed so that the impedance measured between the points of each pair of excitation points of the first quadruplet of points is the same. 4. The elementary antenna as claimed in claim 1 , wherein the excitation points of the first pair of excitation points are located on the same side of a third straight line of the plane containing the radiating element, the third straight line passing through the center and being a bisector of the first straight line and of the second straight line. 5. The elementary antenna as claimed in claim 1 , wherein the radiating element has a substantially rectangular shape, the first straight line and the second straight line being parallel to the sides of the rectangular shape. 6. The elementary antenna as claimed in claim 1 , wherein said radiating element further comprises a second quadruplet of excitation points located at a distance from the first straight line and from the second straight line, the second quadruplet comprising (i) a third pair of excitation points (3+, 3−) placed substantially symmetrically about said first straight line, the third pair of excitation points (3+, 3−) being placed on the other side of the second straight line with respect to the first pair of excitation points (1+, 1−), and (ii) a fourth pair of excitation points (4+, 4−) placed substantially symmetrically about said second straight line, the fourth pair of excitation points (4+, 4−) being placed on the other side of the first straight line with respect to the second pair of excitation points (2+, 2−). 7. The elementary antenna as claimed in claim 6 , wherein the excitation points of the second quadruplet of excitation points are placed so that the impedance measured between the points of each pair of excitation points of the second quadruplet of points, is the same. 8. The elementary antenna as claimed in claim 6 , wherein the third pair is symmetric to the first pair about the second straight line and wherein the fourth pair is symmetric to the second pair about the first straight line. 9. The elementary antenna as claimed in claim 6 , further comprising at least one of: transmission-side phase-shifters allowing introduction of a first transmission-side phase shift between a first excitation signal applied to the first pair of the excitation points (1+, 1−) and a second excitation signal applied to the second pair of excitation points (2+, 2−) and of a second transmission-side phase shift, different from the first transmission-side phase shift, between a third excitation signal applied to the third pair of the excitation points (3+, 3−) and a fourth excitation signal applied to the fourth pair of excitation points (4+, 4−); and reception-side phase-shifters allowing introduction of a first reception-side phase shift between a first reception signal issued from the first pair of the excitation points (1+, 1−) and a second reception signal issued from the second pair of excitation points (2+, 2−) and of a second reception-side phase shift, different from the first reception-side phase shift, between a third reception signal applied to the third pair of the excitation points (3+, 3−) and a fourth reception signal applied to the fourth pair of excitation points (4+, 4−). 10. The elementary antenna as claimed in claim 9 , wherein each pair of excitation points is coupled to one transmission channel configured to excite the pair of excitation points differentially, the transmission channels coupled to the first quadruplet of points exciting the first quadruplet of points using signals of a frequency different from a frequency at which the transmission channels coupled to the second quadruplet of points are exciting the second quadruplet of points. 11. An antenna comprising a plurality of elementary antennas as claimed in claim 1 , wherein the radiating elements form an array of radiating elements. 12. An antenna, comprising: a plurality of elementary antennas as claimed in claim 6 and at least one of: transmission-side pointing phase-shifters allowing introduction of (i) first transmission-side global phase shifts between the excitation signals applied to the first quadruplets of points of the respective elementary antennas and (ii) second transmission-side global phase shifts between the excitation signals applied to the second quadruplets of points of the respective elementary antennas, the first and the second transmission-side global phase shifts being different, and reception-side pointing phase-shifters allowing introduction of (i) first reception-side global phase shifts between the excitation signals applied to the first quadruplets of points of the respective elementary antennas and (ii) second reception-side global phase shifts between the excitation signals applied to the second quadruplets of points of the respective elementary antennas, the first and second reception-side global phase shifts being different.