Wireless communication system node with re-configurable antenna devices

1 . A node in a wireless communication system, where the node comprises at least one antenna arrangement, where each antenna arrangement in turn comprises a first antenna device, a second antenna device, a third antenna device and a fourth antenna device positioned one after the other, each antenna device having a corresponding phase center where the phase centers are separated by corresponding distances, each antenna device comprising at least a corresponding first antenna port connected to a first polarization of the corresponding antenna device, the first antenna device and the second antenna device forming a first antenna device pair, and the third antenna device ( 5 ) and the fourth antenna device ( 6 ) forming a second antenna device pair, wherein for each antenna device pair, the first antenna ports are at least indirectly connected to at least one respective controllable power divider/combiner having a respective common port, each controllable power divider/combiner being arranged to adjust and/or set a corresponding power relation between the first antenna ports of the corresponding antenna device pair for power received and/or transmitted at its common port. 2 . The node according to claim 1 , wherein a first power relation between the first antenna port of the first antenna device and the first antenna port of the second antenna device equals a second power relation between the first antenna port of the fourth antenna device and the first antenna port of the third antenna device, each power relation being related to power received and/or transmitted at the respective common port. 3 . The node according to claim 1 , wherein the first antenna ports of the first antenna device pair are at least indirectly connected to a first controllable power divider/combiner having a first common port, and the first antenna ports of the second antenna device pair are at least indirectly connected to a second controllable power divider/combiner having a second common port. 4 . The node according to claim 3 , wherein: the first antenna port of the first antenna device is at least indirectly connected to the first controllable power divider/combiner and a third controllable power divider/combiner having a third common port, via a first filter device, the first filter device being arranged to transfer signals of a first frequency band between the first antenna port of the first antenna device and the first controllable power divider/combiner and transfer signals of a second frequency band between the first antenna port of the first antenna device and the third controllable power divider/combiner; the first antenna port of the second antenna device is at least indirectly connected to the first controllable power divider/combiner and the third controllable power divider/combiner via a second filter device, the second filter device being arranged to transfer signals of the first frequency band between the first antenna port of the second antenna device and the first controllable power divider/combiner and transfer signals of the second frequency band between the first antenna port of the second antenna device and the third controllable power divider/combiner; the first antenna port of the third antenna device is at least indirectly connected to the second controllable power divider/combiner and a fourth controllable power divider/combiner having a fourth common port, via a third filter device, the third filter device being arranged to transfer signals of the first frequency band between the first antenna port of the third antenna device and the second controllable power divider/combiner and transfer signals of the second frequency band between the first antenna port of the third antenna device and the fourth controllable power divider/combiner; and the first antenna port of the fourth antenna device is at least indirectly connected to the second controllable power divider/combiner and the fourth controllable power divider/combiner, via a fourth filter device, the fourth filter device being arranged to transfer signals of the first frequency band between the first antenna port of the fourth antenna device and the second controllable power divider/combiner and transfer signals of the second frequency band between the first antenna port of the fourth antenna device and the fourth controllable power divider/combiner. 5 . The node according to claim 3 , wherein each common port is connected to a corresponding end filter device, each end filter device being arranged to transfer signals of a first frequency band between the respective common port and a respective first end filter port, and to transfer signals of a second frequency band between the respective common port and a respective second end filter port. 6 . The node according to claim 1 , wherein for the first antenna pair, there is at least a first phase shifter connected to an antenna port, and for the second antenna pair, there is at least a second phase shifter connected to an antenna port. 7 . The node according to claim 1 , wherein each antenna device comprises a corresponding second antenna port connected to a second polarization of the corresponding antenna device, where the first polarization and the second polarization are mutually orthogonal, and where, for each antenna device pair, the second antenna ports are at least indirectly connected to a respective controllable power divider/combiner having a respective common port, each controllable power divider/combiner being arranged to adjust and/or set a corresponding power relation between the second antenna ports of the corresponding antenna device pair for power received and/or transmitted at its common port. 8 . The node according to claim 7 , wherein a third power relation between the second antenna port of the first antenna device and the second antenna port of the second antenna device equals a fourth power relation between the second antenna port of the fourth antenna device and the second antenna port of the third antenna device, each power relation being related to power received and/or transmitted at the respective common port. 9 . The node according to claim 7 , wherein the second antenna ports of the first antenna device pair are at least indirectly connected to a fifth controllable power divider/combiner having a fifth common port, and in that the second antenna ports of the second antenna device pair are at least indirectly connected to a sixth controllable power divider/combiner having a sixth common port. 10 . The node according to claim 9 , wherein: the second antenna port of the first antenna device is at least indirectly connected to the fifth controllable power divider/combiner and a seventh controllable power divider/combiner having a seventh common port, via a fifth filter device, the fifth filter device being arranged to transfer signals of a first frequency band between the second antenna port of the first antenna device and the fifth controllable power divider/combiner and, transfer signals of a second frequency band between the second antenna port of the first antenna device and the seventh controllable power divider/combiner; the second antenna port of the second antenna device is at least indirectly connected to the fifth controllable power divider/combiner and the seventh controllable power divider/combiner via a sixth filter device, the sixth filter device being arranged to transfer signals of the first frequency band between the second antenna port of the second antenna device and the fifth controllable power divider/combiner and transfer signals of the second frequency band between the second antenna port of the second antenna device and the seventh controllable power divider/combiner; the second antenna