Node in a wireless communication network with at least two antenna columns

The invention claimed is: 1. A node in a wireless communication network, the node comprising: at least two antenna columns which are physically separated from each other, each antenna column comprising at least one dual polarized antenna element, each antenna element having a first polarization and a second polarization, the first polarization and second polarization being mutually orthogonal, such that each antenna column comprises a first antenna port, associated with the first polarization, and a second antenna port, associated with the second polarization; and at least two four-port power dividers/combiners, each power divider/combiner having a first port pair and a second port pair, where, for each power divider/combiner, power input into any port in a port pair is isolated from the other port in said port pair, but divided between the ports in the other port pair, where antenna ports of antenna columns that are pair-wise physically separated, from those pairs of antenna columns with antenna columns that are most physically separated to those pairs of antenna columns with antenna columns that are least physically separated, in a falling order, are cross-wise connected to the first port pair in corresponding power dividers/combiners, such that each first port pair is associated with orthogonal polarizations of different antenna columns, wherein for at least one power divider/combiner, the ports in the second port pair are connected to a corresponding second phase altering device and third phase altering device, the phase altering devices that are connected to a certain power divider/combiner constituting a set of phase altering devices, and where one port in each second port pair is connected to a first power dividing/combining network and the other port in each second port pair is connected to a second power dividing/combining network each power dividing/combining network having a respective main input/output port. 2. A node according to claim 1 , wherein one port in the first port pair that is associated with a certain polarization is connected to the corresponding antenna port via a first phase altering device, the phase altering devices that are connected to a certain power divider/combiner constituting a set of phase altering devices. 3. A node according to claim 2 , wherein for each set of phase altering devices, the setting of the first phase altering device equals the sum of the setting of the second phase altering device and the setting of the third phase altering device. 4. A node according to claim 1 , wherein the antenna columns have respective main extensions in an elevation direction. 5. A node according to claim 4 , wherein the antenna columns are separated in either an azimuth direction or the elevation direction, the azimuth direction and the elevation direction being mutually orthogonal. 6. A node according to claim 5 , wherein, in the case of an odd number of antenna columns, the antenna ports of the central antenna column are connected to the same power divider/combiner. 7. A node according to claim 4 , wherein the antenna columns are arranged in at least two aligned rows, each row extending in an azimuth direction and having the same number of antenna columns, the rows being separated from each other in the elevation direction, the azimuth direction and the elevation direction being mutually orthogonal. 8. A node according to claim 1 , wherein, for each power divider/combiner, power input into any port in a port pair is divided equally between the ports in the other port pair.