Inverted F-antennas at a wireless communication node

The invention claimed is: 1. A node in a wireless communication arrangement, the node comprising: an antenna arrangement comprising: a base having a top side lying in a first plane and an opposite bottom side lying in a second plane parallel with the first plane; a first inverted F antenna; and a second inverted F antenna, wherein the first inverted F antenna comprises a first feed connection, a first ground connection and a first radiating element being positioned above the top side of the base and lying in a third plane that is parallel with and spaced apart from the top side of the base, the first feed connection electrically connected to the first radiating element, the second inverted F antenna comprises a second feed connection, a second ground connection and a second radiating element being positioned above the top side of the base and lying in said third plane, the second feed connection electrically connected to the second radiating element, the first ground connection lies on a fourth plane that is perpendicular with the first and second planes, the second ground connection lies on a fifth plane that is perpendicular with the first and second planes, the fifth plane is spaced apart from the fourth plane. 2. The node according to claim 1 , wherein the first inverted F antenna comprises a first upper radiating element and that the second inverted F antenna comprises a second upper radiating element. 3. The node according to claim 1 , wherein each radiating element runs parallel to the first plane. 4. The node according to claim 1 , wherein the base comprises an electrically conducting ground plane positioned on a dielectric material. 5. The node according to claim 4 , wherein each feed connection is running to the corresponding radiating element through a corresponding aperture in the ground plane. 6. The node according to claim 1 , wherein the shortest distance between the first radiating element and the second radiating element exceeds 0.4*λ0, where λ0 is the wavelength for the centre frequency of a frequency band for which the first and second inverted F antennas are intended. 7. An antenna arrangement, comprising: a first inverted F antenna; and a second inverted F antenna, wherein the first inverted F antenna comprises a first feed connection, a first ground connection and a first radiating element extending from the first ground connection along a first longitudinal extension that lies on a first plane, the second inverted F antenna comprises a second feed connection, a second ground connection and a second radiating element extending from the second ground connection along a second longitudinal extension, the first ground connection lies on a second plane that is perpendicular to the first plane in which lies the first longitudinal extension, the second ground connection lies on a third plane that is parallel with the second plane, the second plane is spaced apart from the third plane, the first radiating element extends from the first ground connection towards the third plane in which the second ground connection lies, and the second radiating element extends from the second ground connection towards the second plane in which the first ground connection lies. 8. The antenna arrangement according to claim 7 , wherein the first inverted F antenna further comprises a first upper radiating element extending from the first ground connection towards the third plane, and the second inverted F antenna further comprises a second upper radiating element extending from the second ground connection towards the second plane. 9. The antenna arrangement according to claim 8 , wherein each said radiating element runs parallel to a ground plane. 10. The antenna arrangement according to claim 7 , wherein the ground plane is positioned on a dielectric material. 11. The antenna arrangement according to claim 10 , wherein each feed connection is running to the corresponding radiating element through a corresponding aperture in the ground plane. 12. The antenna arrangement according to claim 7 , the shortest distance between the first radiating element and the second radiating element exceeds 0.4*λ0, where λ0 is the wavelength for the center frequency of a predetermined frequency band.