Phase shift device

The invention claimed is: 1. Phase shift device comprising a planar transmission line that is formed by a signal electrode and a ground electrode which are separated by a dielectric substance, and further comprising a tunable dielectric material, wherein the signal electrode of the planar transmission line is divided into several pieces and comprises overlapping areas of adjacent pieces, wherein the overlapping areas of adjacent pieces of the signal electrode of the planar transmission line are filled with the tunable dielectric material, the signal electrode and the tunable dielectric material thereby forming a varactor comprising a dielectric tunable component with a metal-insulator-metal type capacitor. 2. Phase shift device according, to claim 1 , wherein the tunable dielectric material is a liquid crystal material. 3. Phase shift device according to claim 1 , wherein the several pieces of the signal electrode are arranged at two or more different distance levels with respect to the ground electrode. 4. Phase shift device according to claim 3 , wherein the tunable dielectric material is arranged as a single and continuous layer between the several pieces of the signal electrode that are arranged at the two or more different distance levels. 5. Phase shift device according to claim 3 , wherein the tunable dielectric material is arranged as at least several confined layer areas between the overlapping areas of adjacent pieces of the signal electrode at the two or more different distance levels. 6. Phase shift device, according to claim 1 , wherein the several pieces of the signal electrode are linearly arranged, along a propagation direction of a radio frequency signal. 7. Phase shift device according to claim 1 , wherein the several pieces of the signal electrode are arranged in a straight line. 8. Phase shift device according to claim 1 , wherein the dielectric substance comprises a non-tunable dielectric substrate and, the signal electrode is divided into the several pieces along a length of the transmission line, whereby the several pieces are alternatingly implemented as top side pieces on a top side and as bottom side pieces on a bottom side of the non-tunable dielectric substrate and whereby at some sections there are overlapping areas between a top side piece and an adjacent bottom side piece of the signal electrode, and whereby these overlapping areas are filled with the tunable liquid crystal material forming the tunable dielectric material. 9. Phase shift device according to claim 1 , wherein the planar transmission line comprises at least two serially connected dielectric tunable components that are connected by a non-overlapping section of the signal electrode. 10. Phase shift device according to claim 1 , wherein the tunable dielectric material comprises a liquid crystal material with tunability of relative permittivity, defined as the ratio of a tuning range of the permittivity to the maximum permittivity between 5% and 30%. 11. Phase shift device according to claim 1 , wherein the phase shift device comprises at least care control element that is connected with at least one of the pieces of the signal electrode and that a bias voltage in order tune the liquid crystal material in the overlapping areas. 12. Phase shift device according to claim 11 , wherein the at least one control element consists of ITO (indium-tin-oxide). 13. Phase shift device according to claim 1 , wherein the planar transmission line is coupled with a radiating element. 14. Phase shift device according to claim 13 , wherein the radiating element is an arbitrary shaped microstrip patch antenna or microstrip slot antenna. 15. Phase shift device according to claim 13 , wherein the planar transmission line and the radiating element are coupled by using an aperture coupling method. 16. Phase shift device according to claim 13 , wherein the planar transmission line and the radiating element are coupled by using a proximity coupling method. 17. Phase shift device according to claim 13 , wherein planar transmission line and the radiating element are connected directly by one of using an inset-fed technique or through a vertical interconnect.