Presently disclosed is an antenna system having an array of ridged waveguide Vivaldi radiator (RWVR) antenna elements fed through a corporate network of suspended air striplines (SAS). The SAS transfers the electromagnetic energy to the radiating element via the ridged waveguide coupler. The Vivaldi
Presently disclosed is an antenna system having an array of ridged waveguide Vivaldi radiator (RWVR) antenna elements fed through a corporate network of suspended air striplines (SAS). The SAS transfers the electromagnetic energy to the radiating element via the ridged waveguide coupler. The Vivaldi radiator matches the output impedance of the ridged waveguide coupler/SAS to the impedance of the surrounding medium. Because the coupling method and the radiating elements are wideband mediums, this antenna array is capable of wideband operation. The physical dimensions of the resulting array are also not as sensitive to its electrical performance as other antenna designs since the bandwidth is quite large, reducing the occurrence of an out-of-specification antenna due to manufacturing tolerance build-up. This also reduces the complexity of the manufacturing process, which in turn lowers cost.
대표청구항▼
1. An antenna, comprising: a suspended air stripline (SAS) disposed in a housing, said SAS having a proximate end and a distal end;a ridged waveguide coupler having a proximate end and a distal end, said proximate end of said ridged waveguide coupler disposed substantially in an aperture in said hou
1. An antenna, comprising: a suspended air stripline (SAS) disposed in a housing, said SAS having a proximate end and a distal end;a ridged waveguide coupler having a proximate end and a distal end, said proximate end of said ridged waveguide coupler disposed substantially in an aperture in said housing and coupled thereto, said aperture located above said distal end of said SAS; andone or more radiating elements coupled to the distal end of said ridged waveguide coupler,wherein said one or more radiating elements are configured to couple electromagnetic energy from the proximate end of said SAS, through said ridged waveguide coupler, and into free space. 2. The antenna of claim 1, wherein said one or more radiating elements comprise a number of elements selected from the group consisting of one, two, and four. 3. The antenna of claim 1, further comprising a corporate feed network coupled to said proximate end of said SAS. 4. The antenna of claim 1, wherein said SAS, said ridged waveguide coupler, and said one or more radiating elements are each configured to optimally transmit electromagnetic signals in at least one of the C, X, Ku, and Ka-band. 5. The antenna of claim 1, wherein said one or more radiating elements comprise a Vivaldi radiator. 6. The antenna of claim 1, wherein said one or more radiating elements comprise a flared radiator. 7. The antenna of claim 1, wherein said one or more radiating elements comprise a horn radiator. 8. The antenna of claim 1, wherein said one or more radiating elements comprise a spiral radiator. 9. The antenna of claim 1, wherein at least one of said one or more radiating elements and said ridged waveguide coupler are comprised of a conductive material. 10. The antenna of claim 1, wherein at least one of said one or more radiating elements and said ridged waveguide coupler are comprised of a conductive polymer. 11. The antenna of claim 1, wherein at least one of said one or more radiating elements and said ridged waveguide coupler are comprised of a non-conductive polymer with a conductive surface coating. 12. The antenna of claim 1, wherein said one or more radiating elements and said ridged waveguide coupler are monolithically formed such that, when taken together, said one or more radiating elements and said ridged waveguide coupler are of a one piece construction. 13. The antenna of claim 1, wherein said antenna is a receive antenna. 14. The antenna of claim 1, wherein said antenna is a transmit antenna. 15. The antenna of claim 1, wherein said antenna is configured to both receive and transmit electromagnetic energy. 16. A method of communicating with electromagnetic energy representing information, comprising: furnishing a suspended air stripline (SAS) disposed in a housing, said SAS having a proximate end and a distal end;furnishing a ridged waveguide coupler having a proximate end and a distal end, said proximate end of said ridged waveguide coupler disposed substantially in an aperture in said housing and coupled thereto, said aperture located above said distal end of said SAS;attaching one or more radiating elements coupled to the distal end of said ridged waveguide coupler; andcoupling a supplied electromagnetic energy from the proximate end of said SAS, through said ridged waveguide coupler, and into free space through use of the ridged waveguide coupler's transverse electric ten (TE10) mode as a coupling mechanism and without a coaxial cable between said one or more radiating elements and said SAS to communicate said information represented thereby. 17. The method of claim 16, further comprising furnishing a corporate feed network coupled to said proximate end of said SAS. 18. The method of claim 16, wherein said SAS, said ridged waveguide, and said one or more radiating elements are each configured to optimally transmit electromagnetic signals in at least one of the C, X, Ku, and Ka-band. 19. The method of claim 16, wherein said one or more radiating elements comprise a Vivaldi radiator. 20. An apparatus comprising: a suspended air stripline (SAS) disposed in a housing, said SAS having a proximal end and a distal end;a ridged waveguide coupler having a proximal end and a distal end, said proximal end of said ridged waveguide coupler disposed substantially in an aperture in said housing and coupled thereto, said aperture located above said distal end of said SAS;one or more radiating elements coupled to the distal end of said ridged waveguide coupler; anda connector for coupling a supplied electromagnetic energy to the proximal end of said SAS, such that electromagnetic energy is coupled through said ridged waveguide coupler, and into free space through use of the ridged waveguide coupler's transverse electric ten (TE10) mode as a coupling mechanism and without a coaxial cable between said one or more radiating elements and said SAS to communicate said information represented thereby.
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