Dry-mate wet-design branch joint and method for realizing a subsea distribution of electric power for wet cables

The invention claimed is: 1. A termination assembly and three-phase high voltage submarine cables, said termination assembly and three-phase high voltage submarine cables comprising: an enclosure with at least two cable lead-ins located at one end of the enclosure, said lead-ins are not sealed in a water-tight manner to the enclosure, such that water may easily enter the enclosure when submerged in water; and at least three termination units within said enclosure for connecting three phase conductors per high voltage submarine cable, wherein said three-phase high voltage submarine cables are either one of a semi-wet design, having a polymer sheath over a non-fully impervious metallic screen, or a wet design, without any polymeric sheath over a non-fully impervious metallic screen or without a metallic screen, and wherein the enclosure is an open enclosure. 2. The termination assembly and three-phase high voltage submarine cables according to claim 1 , wherein the enclosure comprises at least one aperture to facilitate flooding. 3. The termination assembly and three-phase high voltage submarine cables according to claim 1 , comprising: lifting means located on the enclosure at an opposite end in relation to said lead-in(s). 4. The termination assembly and three-phase high voltage submarine cables according to claim 1 , wherein said termination units are T-connectors. 5. The termination assembly and three-phase high voltage submarine cables according to claim 4 , wherein said T-connectors are oriented within said enclosure with their central legs extending substantially in a direction between said one and opposite ends. 6. The termination assembly and three-phase high voltage submarine cables according to claim 5 , wherein the dimensions of said enclosure are largest in said direction. 7. The termination assembly and three-phase high voltage submarine cables according to claim 1 for a branching connection of cables, wherein three cable lead-ins are provided within said enclosure. 8. The termination assembly and three-phase high voltage submarine cables according to claim 4 , wherein three T-connectors for one phase conductor are mounted directly interconnected on a common supporting bracket. 9. A method of subsea distribution of electric power from a plurality of wind turbines to one or more consumers, comprising: connecting the plurality of wind turbines to a cable that is connected to a termination assembly and three-phase high voltage submarine cables, the termination assembly and three-phase high voltage submarine cables comprising: an enclosure with two cable lead-in means for entry of each cable into the enclosure, said lead-ins are not sealed in a water-tight manner to the enclosure, such that water may easily enter the enclosure when submerged in water, and at least six termination units within said enclosure for receiving three phase conductors per high voltage submarine cable, respectively, wherein said three-phase high voltage submarine cables are either one of a semi-wet design, having a polymer sheath over a non-fully impervious metallic screen, or a wet design, without any polymeric sheath over a non-fully impervious metallic screen and/or without a metallic screen, and wherein the enclosure is an open enclosure, and connecting at least another cable to said termination assembly, the at least another cable forming at least part of a main cable for supplying produced electric energy from the plurality of wind turbines to one or more consumers. 10. The method according to claim 9 , wherein the enclosure comprises at least one aperture to facilitate flooding. 11. The method according to claim 9 , further comprising a step of lowering the termination assembly under water where the enclosure is flooded with water. 12. The method according to claim 9 , wherein the termination assembly comprises lifting means located on the enclosure at an opposite end in relation to said lead-in means. 13. The method according to claim 9 , wherein said termination units are T-connectors. 14. The method according to claim 13 , wherein three T-connectors for one phase conductor are mounted directly interconnected on a common supporting bracket. 15. The method according to claim 9 , wherein the wind turbines are offshore floating wind turbines or types of floating or ground mounted platforms or wind turbines.