Radio frequency connection arrangement

What is claimed is: 1. A radio frequency transmission arrangement comprising a ground plate having first and second opposite sides and a boss protruding from said second side of the ground plate, a first transmission line comprising a first elongated conductor passing from the first side of the ground plate through an aperture in the ground plate and the boss, and a second transmission line comprising a second elongated conductor and a ground plane, the first elongated conductor passing through the ground plane to connect to the second elongated conductor, wherein the boss has an end surface disposed in a substantially parallel relationship with the ground plane of the second transmission line, and there is a gap between the end surface of the boss and the ground plane. 2. The radio frequency transmission arrangement of claim 1 , wherein the gap between the end surface of the boss and the ground plane comprises an air gap. 3. The radio frequency transmission arrangement of claim 1 , wherein the gap between the end surface of the boss and the ground plane is less than 0.02 of a wavelength at an operating frequency of the radio frequency transmission arrangement. 4. The radio frequency transmission arrangement of claim 1 , wherein the gap between the end surface of the boss and the ground plane is less than 0.01 of a wavelength at an operating frequency of the radio frequency transmission arrangement. 5. The radio frequency transmission arrangement of claim 1 , wherein the end surface of the boss has a diameter between 0.1 and 0.6 of a wavelength at an operating frequency of the radio frequency transmission arrangement plus a diameter of the aperture in the ground plate. 6. The radio frequency transmission arrangement of claim 1 , wherein the end surface of the boss has a diameter of substantially half a wavelength at an operating frequency of the radio frequency transmission arrangement plus a diameter of the aperture in the ground plate. 7. The radio frequency transmission arrangement of claim 1 , wherein a diameter of the end surface of the boss is non-uniform. 8. The radio frequency transmission arrangement of claim 1 , wherein the boss is provided with buttress sections arranged radially. 9. The radio frequency transmission arrangement of claim 1 , wherein the first transmission line is a coaxial line and the aperture in the ground plate is substantially cylindrical in shape. 10. The radio frequency transmission arrangement of claim 1 , wherein the second elongated conductor is disposed in a substantially parallel relationship to the ground plane. 11. The radio frequency transmission arrangement of claim 10 , wherein the second transmission line is formed by a printed track on a printed circuit board, and the ground plane is a layer of the printed circuit board. 12. The radio frequency transmission arrangement of claim 1 , wherein the ground plate is composed of metal. 13. The radio frequency transmission arrangement of claim 12 , wherein the ground plate is composed of cast aluminum. 14. The radio frequency transmission arrangement of claim 12 , wherein the ground plate is a stamped copper sheet. 15. The radio frequency transmission arrangement of claim 1 , wherein the ground plate comprises a non-conductive body plated with a metallic conductive surface. 16. The radio frequency transmission arrangement of claim 15 , wherein the non-conductive body comprises a plastic material and the conductive surface comprises copper. 17. The radio frequency transmission arrangement of claim 1 , wherein the radio frequency arrangement further comprises a third transmission line connected by the first transmission line through the ground plate to the second transmission line, wherein the third transmission line comprises a third elongated conductor disposed in a substantially parallel relationship to the first side of the ground plate, the third elongated conductor being connected to the first elongated conductor, whereby to connect signals from the third transmission line on the first side of the ground plate to the second transmission line on the second side of the ground plate. 18. A method of connecting a first transmission line to a second transmission line, the first transmission line comprising a first elongated conductor passing from a first side of a ground plate to an opposite side of the ground plate through an aperture in the ground plate, and the second transmission line comprising a second elongated conductor and a ground plane, the method comprising: disposing the first elongated conductor to pass through the ground plane to connect to the second elongated conductor; providing the ground plate with the aperture passing through the first side of the ground plate, the opposite side of the ground plate, and a boss protruding from said opposite side of the ground plate, the boss having an end surface through which the aperture in the ground plate passes; disposing the end surface of the boss in a substantially parallel relationship with the ground plane of the second transmission line; and providing a gap between the end surface of the boss and the ground plane. 19. The method of claim 18 , comprising configuring the gap between the end surface of the boss and the ground plane to comprise an air gap. 20. The method of claim 18 , comprising configuring the gap between the end surface of the boss and the ground plane to be less than 0.02 of a wavelength at an operating frequency of at least one of the first transmission line or the second transmission line. 21. The method of claim 18 , comprising configuring the end surface of the boss to have a diameter between 0.1 and 0.6 of a wavelength at an operating frequency of at least one of the first transmission line or the second transmission line plus a diameter of the aperture in the ground plate.