Antenna arrangements using focal plane filtering for reducing sidelobes
First Claim
1. An antenna arrangement having substantially reduced sidelobes comprising:
- a plurality of reflectors arranged confocally in sequence along a feed axis of the arrangement, each reflector comprising a curved focusing reflecting surface and at least one focal point where each focal point can be either one of a real and an imaginary form, one of the plurality of reflectors being a main reflector comprising a reflecting surface which forms an aperture of the antenna arrangement;
a feedhorn capable of launching a spherical beam comprising a central ray from the apex of the feedhorn disposed on a first focal point of the plurality of confocally arranged reflectors, the feedhorn including a predetermined aperture with a predetermined illumination; and
a filtering means disposed at one of the focal points of the plurality of reflectors, said one of the focal points being a real focal point disposed between two sequential reflectors, the filtering means being capable of passing therethrough, the central ray launched by the feedhorn for producing an image of the feedhorn aperture illumination at the aperture of the antenna arrangement which includes smoothened-out discontinuities at the edge of the image, said main reflector reflecting surface being oversized with respect to the diameter of the feedhorn image to intersect the image of the feedhorn aperture illumination in a manner to produce a predetermined level of edge intensity, A, as defined by the relationship A/Ag =F(V,S) where Ag is a level of the feedhorn image edge illumination at the main reflector without the inclusion of the filtering means, V is a value of a normalized aperture of the filtering means, S is a value of a normalized increase in the main reflector diameter to generate A, and F is a function which is determined by the response of the filtering means.
1 Assignment
0 Petitions
Accused Products
Abstract
The present invention relates to an antenna arrangement comprising a feed producing a predetermined feed aperture illumination and a plurality of sequentially arranged reflectors including a main reflector forming the aperture of the antenna arrangement. The present antenna arrangement also includes filtering means centered on a real focal point between two reflectors of the antenna arrangement. The filtering means is arranged to pass therethrough the central ray of a beam launched by the feed and for smoothing out discontinuities of the image of the feed aperture illumination in the area of the main reflector normally found without filtering. The main reflector is then made slightly oversize to intercept the smoothened-out image of the feed aperture illumination along a line which produces a predetermined level of edge intensity.
-
Citations
3 Claims
-
1. An antenna arrangement having substantially reduced sidelobes comprising:
-
a plurality of reflectors arranged confocally in sequence along a feed axis of the arrangement, each reflector comprising a curved focusing reflecting surface and at least one focal point where each focal point can be either one of a real and an imaginary form, one of the plurality of reflectors being a main reflector comprising a reflecting surface which forms an aperture of the antenna arrangement; a feedhorn capable of launching a spherical beam comprising a central ray from the apex of the feedhorn disposed on a first focal point of the plurality of confocally arranged reflectors, the feedhorn including a predetermined aperture with a predetermined illumination; and a filtering means disposed at one of the focal points of the plurality of reflectors, said one of the focal points being a real focal point disposed between two sequential reflectors, the filtering means being capable of passing therethrough, the central ray launched by the feedhorn for producing an image of the feedhorn aperture illumination at the aperture of the antenna arrangement which includes smoothened-out discontinuities at the edge of the image, said main reflector reflecting surface being oversized with respect to the diameter of the feedhorn image to intersect the image of the feedhorn aperture illumination in a manner to produce a predetermined level of edge intensity, A, as defined by the relationship A/Ag =F(V,S) where Ag is a level of the feedhorn image edge illumination at the main reflector without the inclusion of the filtering means, V is a value of a normalized aperture of the filtering means, S is a value of a normalized increase in the main reflector diameter to generate A, and F is a function which is determined by the response of the filtering means. - View Dependent Claims (2, 3)
-
Specification