Force-distance controlled mechanical switch

What is claimed is: 1. A switch comprising: a first elastic element; a second elastic element; an actuator-element mechanically coupled to a first side of the first elastic element and mechanically coupled to a first side of the second elastic element; a first switching conductor mechanically coupled to a second side of the first elastic element; a second switching conductor mechanically coupled to a second side of the second elastic element; and a first strip conductor, a second strip conductor and a third strip conductor; and wherein the first switching conductor is configured to move between a first conductor position and a second conductor position, wherein the actuator-element is configured to move between a first position and a second position separated by a pre-defined actuator-element lift, thereby moving the first side of the first elastic element, and to move the first side of the second elastic element while moving between the first position and the second position, wherein the first elastic element is configured to convert a movement of the first side of the first elastic element by the pre-defined actuator-element lift into a movement of the second side of the first elastic element with a pre-defined elastic force, wherein the second elastic element is configured to convert the movement of the first side of the second elastic element by the pre-defined actuator-element lift into the movement of the second side of the second elastic element with the pre-defined elastic force, wherein the first switching conductor and the second switching conductor are configured whereby, in the first conductor position, the first strip conductor is in contact with the first switching conductor, the second strip conductor is in contact with the first switching conductor and the second switching conductor is not in contact with the first strip conductor, the second strip conductor and the third strip conductor. 2. The switch of claim 1 , wherein the first elastic element has a shallow load-deflection-curve. 3. The switch of claim 1 , wherein the first elastic element is a diaphragm spring. 4. The switch of claim 1 , wherein the actuator-element is part of an actuator, and wherein the actuator-element is a magnetic actuator. 5. The switch of claim 1 , wherein the actuator-element is part of an actuator, and wherein the actuator is a bi-stable magnetic actuator, wherein a first stable state of the bi-stable magnetic actuator is in the first position of the actuator-element, and wherein a second stable state of the bi-stable magnetic actuator is in the second position of the actuator-element. 6. The switch of claim 1 , wherein the actuator-element is part of an actuator, and wherein the actuator is a piezo-electric actuator. 7. The switch of claim 1 , wherein the pre-defined actuator-element lift is 0.1 mm to 5.0 mm. 8. The switch of claim 1 , wherein the pre-defined elastic force is 50 mN to 1000 mN. 9. The switch of claim 1 , wherein the first switching conductor and the second switching conductor are configured whereby, in the first conductor position, the second switching conductor is in contact with a ground plane. 10. A switch comprising: a first elastic element; a second elastic element; an actuator-element mechanically coupled to a first side of the first elastic element and mechanically coupled to a first side of the second elastic element; a first switching conductor mechanically coupled to a second side of the first elastic element; a second switching conductor mechanically coupled to a second side of the second elastic element; and a first strip conductor, a second strip conductor and a third strip conductor; and wherein the first switching conductor is configured to move between a first conductor position and a second conductor position, wherein the actuator-element is configured to move between a first position and a second position separated by a pre-defined actuator-element lift, thereby moving the first side of the first elastic element, wherein the first elastic element is configured to convert a movement of the first side of the first elastic element by the pre-defined actuator-element lift, into a movement of the second side of the first elastic element with a pre-defined elastic force, wherein the actuator-element is configured to move the first side of the second elastic element while moving between the first position and the second position, wherein the second elastic element is configured to convert the movement of the first side of the second elastic element by the pre-defined actuator-element lift into the movement of the second side of the second elastic element with the pre-defined elastic force, and wherein the first switching conductor and the second switching conductor are configured whereby, in the second conductor position, the first strip conductor is in contact with the second switching conductor, the third strip conductor is in contact with the second switching conductor, and the first switching conductor is not contact with the first strip conductor, the second strip conductor and the third strip conductor. 11. The switch of claim 10 , wherein the first switching conductor and the second switching conductor are configured whereby, in the second conductor position, the first switching conductor is in contact with a ground plane. 12. A switchable attenuator comprising at least two switches, each switch comprising: a first elastic element; a second elastic element; an actuator-element mechanically coupled to a first side of the first elastic element and mechanically coupled to a first side of the second elastic element; a first switching conductor mechanically coupled to a second side of the first elastic element; a second switching conductor mechanically coupled to a second side of the second elastic element; and a first strip conductor, a second strip conductor and a third strip conductor; and wherein the first switching conductor is configured to move between a first conductor position and a second conductor position, wherein the actuator-element is configured to move between a first position and a second position separated by a pre-defined actuator-element lift, thereby moving the first side of the first elastic element, and to move the first side of the second elastic element while moving between the first position and the second position, wherein the first elastic element is configured to convert a movement of the first side of the first elastic element by the pre-defined actuator-element lift into a movement of the second side of the first elastic element with a pre-defined elastic force, wherein the second elastic element is configured to convert the movement of the first side of the second elastic element by the pre-defined actuator-element lift into the movement of the second side of the second elastic element with the pre-defined elastic force, wherein the second strip conductor of a first of the at least two switches is connected to a first terminal of an electrical element, the second strip conductor of a second of the at least two switches is connected to a second terminal of the electrical element, and wherein the third strip conductor of the first switch is connected to the third strip conductor of the second switch, the first strip conductor of the first switch forms an input terminal of the step attenuator, and the first strip conductor of the second switch forms one of an output terminal of the step attenuator and an input terminal of a further of the at least two switches.