Printed circuit board arrangement for supplying antennas via a three-conductor system for exciting different polarizations

The invention claimed is: 1. A printed-circuit board arrangement comprising: a printed-circuit board including a first metal layer, a second metal layer, and a third metal layer, the second metal layer being arranged below the third metal layer and arranged above the first metal layer, an amplifier unit; and at least two slot antennas formed respectively by apertures in the second metallic layer and coupled to the amplifier unit via a three-line system, wherein the three-line system includes three strip lines mounted on the printed-circuit board or introduced into the printed-circuit board extending parallel to one another, wherein voltages, which differ in modulus and phase, are guided along a first strip line and a second strip line of the three-line system, wherein a third strip line of the three-line system serves as a common ground line for the first strip line and the second strip line, wherein a first patch is embodied in the third metal layer, the first patch being excited from the three-line system, and wherein the apertures continue from the at least two slot antennas in a direction towards the amplifier unit and separate the three strip lines extending parallel to one another. 2. The printed-circuit board arrangement according to claim 1 , wherein two outer strip lines of the three-line system merge in a region in front of the at least two slot antennas into a ground plane, where the three-line system is converted into two parallel slot lines. 3. The printed-circuit board arrangement according to claim 2 , wherein the ground plane is arranged on the second metallic layer, and wherein the ground plane is embodied in a rounded manner at least in a direction towards the amplifier unit, thereby avoiding any undesirable radiation at a transition from the three strip lines of finite width extending parallel to one another to the two parallel slot lines. 4. The printed-circuit board arrangement according to claim 1 , wherein a part of a first aperture which forms a first slot antenna is orthogonal to a part of a second aperture which forms a second slot antenna, and wherein the first slot antenna has a same shape and a same length as the second slot antenna. 5. The printed-circuit board arrangement according to claim 1 , wherein a plurality of via holes are arranged on a ring and enclose the at least two slot antennas, and wherein the ring provides no via hole in a direction towards the three-line system. 6. The printed-circuit board arrangement according to claim 1 , wherein the first patch has a shape of a square or a rhombus, wherein a first edge of the first patch extends parallel to a first slot antenna, and wherein a second edge of the first patch which is adjacent to the first edge of the first patch extends parallel to a second slot antenna. 7. The printed-circuit board arrangement according to claim 6 , wherein the first edge of the first patch and the second edge of the first patch have at least approximately a same length as a first slot antenna and a second slot antenna of the at least two slot antennas, and wherein the first slot antenna is arranged below the first patch, and the second slot antenna is arranged below the first patch. 8. The printed-circuit board arrangement according to claim 1 , wherein a second patch is arranged above the first patch which is arranged above the at least two slot antennas, and wherein the first and second patches are separated from one another by a dielectric. 9. The printed-circuit board arrangement according to claim 8 , wherein a mid-point of the second patch is disposed directly above a mid-point of the first patch, wherein the second patch has a shape of a square or a rhombus, wherein edges of the second patch have at least approximately the same length as or are smaller than edges of the first patch, wherein the second patch is orientated above the first patch in such a manner that edges of the second patch extend parallel to the edges of the first patch, and wherein the second patch is spaced from the first patch by a vertical length, whereby directivity and a usable bandwidth of the at least two slot antennas are improved. 10. The printed-circuit board arrangement according to claim 1 , wherein an enclosed metal layer which acts as a reflector is arranged above or below the at least two slot antennas, opposite to the first patch. 11. The printed-circuit board arrangement according to claim 1 , wherein a recess is embodied in a first substrate of the printed-circuit board arrangement, which carries the three-line system, and wherein the amplifier unit is inserted into the recess. 12. The printed-circuit board arrangement according to claim 1 , wherein the amplifier unit is a monolithic microwave integrated circuit of which terminal contacts are connected via bonding wires to the three-line system on the printed-circuit board arrangement, and wherein the terminal contacts are at least approximately at the same height as the three-line system. 13. The printed-circuit board arrangement according to claim 8 , wherein the amplifier unit is embodied to apply respectively a signal to two outer lines with a middle line as a common line of the three-line system, so that the at least two slot antennas together with the first patch or together with the first patch and with the second patch radiate an electromagnetic field with at least one of a horizontal polarisation, a vertical polarisation, a left-hand circular polarisation, or a right-hand circular polarisation. 14. The printed-circuit board arrangement according to claim 1 , wherein the at least two slot antennas are orientated orthogonally relative to one another.