Compact and lightweight TEM-line network for RF components of antenna systems

We claim: 1. A dual-band antenna feed system architecture for transmitting a first signal and receiving a second signal at first and second frequency bands, respectively, said dual-band antenna feed system architecture comprising: a first signal path including a plurality of coaxial probes, each having a respective coaxial stub filter rejecting the second signal, and a TEM-line network including at least one component architecture, said at least one component architecture including: an electrically conductive main body forming an outer conductor, said outer conductor defining a signal channel having a cross-section, said signal channel defining a signal path having a signal propagation axis generally centrally located within said cross-section; and an electrically conductive center conductor being electrically grounded to the main body at predetermined locations, said center conductor generally extending along the signal propagation axis of the signal channel, while being electromagnetically isolated from the outer conductor at RF frequencies, said center conductor being supported within said signal channel only at at least one of said predetermined locations; and a second signal path including a waveguide network having at least one signal polarizer, combined with a signal combiner and/or coupler for generating dual polarization of the second signal. 2. The dual-band antenna feed system architecture of claim 1 , wherein the first signal path includes ratrace couplers connected to an orthomode junction including the plurality of coaxial probes and a branch-line coupler, each one of the ratrace couplers, the orthomode junction and the branch-line coupler being a component architecture of the TEM-line network. 3. The dual-band antenna feed system architecture of claim 1 , wherein the center conductor is integral with at least a portion of the main body. 4. The dual-band antenna feed system architecture of claim 1 , wherein the center conductor includes a signal section extending along the signal propagation axis and a stub section extending from the signal section in a direction generally perpendicular to the signal propagation axis to the outer conductor. 5. The dual-band antenna feed system architecture of claim 4 , wherein the stub section includes a plurality of pairs of stubs. 6. The dual-band antenna feed system architecture of claim 1 , wherein the outer conductor includes three layers extending on top of one another. 7. The dual-band antenna feed system architecture of claim 6 , wherein the three layers include a top layer, a bottom layer and an intermediate layer located in-between the top and bottom layers, the top, intermediate and bottom layers each having a portion of the signal channel formed therein. 8. The dual-band antenna feed system architecture of claim 7 , wherein the intermediate layer includes the central conductor located within the portion of the signal channel formed therein. 9. The dual-band antenna feed system architecture of claim 8 , wherein the central conductor is integral with the outer conductor of the intermediate layer. 10. The dual-band antenna feed system architecture of claim 9 , wherein the center conductor includes a signal section extending along the signal propagation axis and a stub section extending form the signal section in a direction generally perpendicularly to the signal propagation axis to the outer conductor at said predetermined locations. 11. The dual-band antenna feed system architecture of claim 10 , wherein the stub section includes a plurality of pairs of stubs.