Contactless millimeter wave coupler, an electronic apparatus and a connector cable

The invention claimed is: 1. A contactless millimeter wave coupler, comprising: a metallic plate; a crossed slot arranged in the metallic plate; an antenna arrangement mounted beneath the crossed slot, and comprising a first linearly polarized antenna and a second linearly polarized antenna arranged in a cross configuration relative to each other; and a wave guiding layer of dielectric material arranged above the antenna arrangement in alignment with the crossed slot and the antenna arrangement. 2. The contactless millimeter wave coupler as claimed in claim 1 , further comprising a radio frequency divider circuitry connected to a feed port of the first linearly polarized antenna and a feed port of the second linearly polarized antenna, and configured to divide a first data stream associated with the first linearly polarized antenna into two substantially orthogonal first parts and to divide a second data stream associated with the second linearly polarized antenna into two substantially orthogonal second parts. 3. The contactless millimeter wave coupler as claimed in claim 2 , wherein the radio frequency divider circuitry comprises a 90 degree hybrid coupler. 4. The contactless millimeter wave coupler as claimed in claim 3 , wherein the 90 degree hybrid coupler comprises a branch line coupler. 5. The contactless millimeter wave coupler as claimed in claim 1 , wherein the wave guiding layer of dielectric material is further arranged at least one of: inside the crossed slot or above the crossed slot. 6. The contactless millimeter wave coupler as claimed in claim 1 , wherein the crossed slot and the cross configuration of the antenna arrangement are substantially parallel to each other. 7. The contactless millimeter wave coupler as claimed in claim 1 , wherein an angular displacement between the crossed slot and the cross configuration of the antenna arrangement is at least 45 degrees and no more than substantially 90 degrees. 8. The contactless millimeter wave coupler as claimed in claim 1 , wherein the first linearly polarized antenna and the second linearly polarized antenna arranged in the cross configuration relative to each other are further arranged substantially orthogonally with respect to each other. 9. The contactless millimeter wave coupler as claimed in claim 1 , wherein dimensions of the crossed slot are larger than, smaller than, or equal to corresponding dimensions of the antenna arrangement. 10. The contactless millimeter wave coupler as claimed in claim 1 , wherein the first linearly polarized antenna comprises a first dipole antenna, and the second linearly polarized antenna comprises a second dipole antenna. 11. The contactless millimeter wave coupler as claimed in claim 1 , wherein the metallic plate forms a part of a surface structure of the contactless millimeter wave coupler. 12. The contactless millimeter wave coupler as claimed in claim 1 , wherein the metallic plate forms a part of a housing of a host device, and the antenna arrangement mounted beneath the crossed slot is further mounted inside the housing. 13. The contactless millimeter wave coupler as claimed in claim 1 , wherein the dielectric material of the wave guiding layer is additionally of magnetic material. 14. The contactless millimeter wave coupler as claimed in claim 1 , wherein the dielectric material of the wave guiding layer comprises plastics, glass, ceramics, or printed circuit board (PCB) dielectrics. 15. The contactless millimeter wave coupler as claimed in claim 1 , wherein the contactless millimeter wave coupler comprises a contactless wireless gigabit (WiGig) coupler. 16. An electronic apparatus, comprising: a housing comprising a metallic plate; a crossed slot arranged in the metallic plate; an antenna arrangement mounted beneath the crossed slot inside the housing, and comprising a first linearly polarized antenna and a second linearly polarized antenna arranged in a cross configuration relative to each other; and a wave guiding layer of dielectric material arranged above the antenna arrangement in alignment with the crossed slot and the antenna arrangement. 17. The electronic apparatus as claimed in claim 16 , further comprising a radio frequency divider circuitry connected to a feed port of the first linearly polarized antenna and a feed port of the second linearly polarized antenna, and configured to divide a first data stream associated with the first linearly polarized antenna into two substantially orthogonal first parts and to divide a second data stream associated with the second linearly polarized antenna into two substantially orthogonal second parts. 18. The electronic apparatus as claimed in claim 16 , wherein the electronic apparatus further comprises at least one of a mobile communication device, a tablet computer, a digital camera, or a virtual reality device. 19. A connector cable, comprising: a metallic plate arranged at an end of the connector cable; a crossed slot arranged in the metallic plate; an antenna arrangement mounted beneath the crossed slot inside the housing, and comprising a first linearly polarized antenna and a second linearly polarized antenna arranged in a cross configuration relative to each other; and a wave guiding layer of dielectric material arranged above the antenna arrangement in alignment with the crossed slot and the antenna arrangement. 20. The connector cable as claimed in claim 19 , further comprising a radio frequency divider circuitry connected to a feed port of the first linearly polarized antenna and a feed port of the second linearly polarized antenna, and configured to divide a first data stream associated with the first linearly polarized antenna into two substantially orthogonal first parts and to divide a second data stream associated with the second linearly polarized antenna into two substantially orthogonal second parts.