Ineinandergeschachtelte Anordnung von Hornstrahlern

A horn radiator assembly (10) includes two horn radiators (12, 14) each of which is formed as a conical horn and a waveguide of constant cross section connected to the small end of the horn as a feed and providing a signal port. The first of the horn radiators (12) is of relatively large cross section and serves to radiate electromagnetic waves at a relatively low frequency. The second of the horn radiators (14) is of relatively small cross section and serves to radiate electromagnetic waves at a relatively high frequency. The second radiator (14) is nested within the first radiator (12), and is positioned with its radiating aperture (28) coplanar with the radiating aperture (20) of the first radiator (12). In the second radiator (14), the waveguide feed (26) is provided with a bend (36) allowing the waveguide feed to pass through a wall (32) of the first radiator (12). A strut (34) may be affixed to the bend (36) to provide a symmetrical transverse support within the first radiator for the second radiator. A doubly-tapered electrically conductive sheet (48) extends from an apex within the throat (18) of the first radiator horn (12) to the transverse support, and from there tapers back to contact the horn of the second radiator (14). The tapered sheet (48) guides low-frequency radiation past the strut (34) and the bend (36) to minimize standing wave ratio.