Coupled line system with controllable transmission behaviour

I claim: 1. A line system with at least two lines each with two terminals, wherein a first line provides respectively a first terminal and a second terminal; wherein a second line provides respectively a first terminal and a second terminal; wherein the at least two lines extend in spatial proximity and are coupled; wherein both the first terminal of the first line and the first terminal of the second line are used for the transmission of signals in a frequency range without frequency gap between the two signals; wherein the at least two lines transport an electromagnetic signal fed into the line system; wherein distanced from the first terminal of the second line and distanced from the second terminal of the second line, at least one controllable element is arranged along the second line; and wherein the at least one controllable element is arranged in such a manner that, through the control of the impedance value of the at least one controllable element, the characteristic impedance of the second line or the complex propagation constant of the second line or the coupling between the first line and the second line is significantly varied. 2. The line system according to claim 1 , wherein an electromagnetic signal is transmitted between the first terminal of the second line and the second terminal of the first line through a constructive superposition of an even mode and an odd mode of the electromagnetic signal. 3. The line system according to claim 1 , wherein the at least one controllable element can be controlled at least between a low impedance value and a high impedance value. 4. The line system according to claim 1 , wherein, through a control of an impedance value of the at least one controllable element, a transmission behavior of the line system can be controlled with regard to an attenuation behavior. 5. The line system according to claim 1 , wherein, through a control of an impedance value of the at least one controllable element, a superposition of an even mode and an odd mode of the electromagnetic signal is influenced in such a manner that the line system can be controlled with regard to an attenuation behavior. 6. The line system according to claim 1 , wherein, through a control of an impedance value of the at least one controllable element, a characteristic impedance and/or a complex propagation coefficient of an odd mode and/or an even mode of the electromagnetic signal is varied. 7. The line system according to claim 1 , wherein several controllable elements are arranged along the second line; and wherein the several controllable elements are arranged either equidistantly or at a defined distance from one another. 8. The line system according to claim 1 , wherein additional controllable elements are arranged at the first terminal and/or at the second terminal of the second line. 9. The line system according to claim 1 , wherein the at least one controllable element is connected with the first terminal to the second line and with the second terminal to a reference potential of the electromagnetic signal. 10. The line system according to claim 1 , wherein the first line is free from controllable elements. 11. The line system according to claim 1 , wherein the at least one controllable element is controllable dependent upon a frequency of the electromagnetic signal fed in and/or dependent upon a terminal used for feeding in the electromagnetic signal. 12. The line system according to claim 1 , wherein the at least one controllable element contains a PIN diode, a field-effect transistor, a bipolar transistor, a varactor, an electromechanical switch, passive elements, and/or line structures. 13. The line system according to claim 1 , wherein, for a variation of a transmission behavior of the line system, at least one of the at least two lines has non-controllable elements and/or line structures. 14. The line system according to claim 1 , wherein, for a variation of the transmission behavior of the line system, an additional material with a different electrical dielectric constant and/or a relative magnetic permeability is introduced between the at least two lines and/or between the at least two lines and a reference potential. 15. The line system according to claim 1 , wherein, for a compensation of parasitic impedances of the at least one controllable element connected along the second line, at least one non-controllable element is connected along the first line, and/or a line structure is disposed along the first line. 16. The line system according to claim 1 , wherein, between the at least one controllable elements, at least one coupling capacitor is introduced longitudinally into the second line. 17. The line system according to claim 1 , wherein the line system provides at least one third line with respectively a first terminal and a second terminal; and wherein, distanced from the first terminal of the third line and from the second terminal of the third line, the at least one controllable element is arranged along the third line. 18. The line system according to claim 1 , wherein at least one slot is embodied in at least one of the at least two lines and/or in a surface connected to a reference potential of the electromagnetic signal. 19. A switch formed by a line system according to claim 1 , wherein the first terminal of the first line is a first input of the switch; wherein the first terminal of the second line is a second input of the switch; wherein the second terminal of the first line is an output of the switch; and wherein the second terminal of the second line is open or terminated with a load impedance. 20. A switch with a line system according to claim 19 , wherein the line system provides at least one further line; wherein the at least one further line is configured corresponding to the second line, so that the first terminal of the at least one further line is a third input or a third output of the switch, and the second terminal of the at least one further line is open or terminated with a load impedance. 21. A switch formed from a line system according to claim 1 , wherein the first terminal of the first line is a first output of the switch; wherein the first terminal of the second line is a second output of the switch; wherein the second terminal of the first line is an input of the switch; and wherein the second terminal of the second line is open or terminated with a load impedance. 22. A frequency filter with a line system according claim 1 , wherein the second terminal of the second line is open or terminated with a load impedance; wherein the second terminal of the first line is an input of the frequency filter; wherein the first terminal of the first line is open or terminated with a load impedance, and the first terminal of the second line is an output of the frequency filter; or wherein the first terminal of the second line is open or terminated with a load impedance, and the first terminal of the first line is an output of the frequency filter. 23. An attenuator with a line system according to claim 1 , wherein the second terminal of the second line is open or terminated with a load impedance; wherein the second terminal of the first line is an input of the attenuator; wherein the first terminal of the first line is open or terminated with a load impedance, and the first terminal of the second line is an output of the attenuator; or wherein the first terminal of the second