Array antenna device

What is claimed is: 1 . An array antenna device comprising: a first substrate comprising a first feed point; a second substrate provided under the first substrate and comprising a second feed point; and a 180° hybrid circuit which feeds the first feed point and the second feed point with a phase difference of zero or 180°, wherein the first substrate comprises: a first dielectric layer; a first radiating element array formed by arranging first radiating elements in an array on the first dielectric layer; first feed lines provided on the first dielectric layer and connecting the first feed point to the first radiating elements by a pattern of lines of equal length, respectively, such that the first radiating elements form a linearly polarized wave in a first polarization direction; a first ground conductor layer provided under the first dielectric layer; and a second dielectric layer provided under the first ground conductor layer, the second substrate comprises: a third dielectric layer located under the second dielectric layer; a second radiating element array formed by arranging second radiating elements in an array on the third dielectric layer such that the second radiating elements are opposed to the first radiating elements, respectively; second feed lines provided on the third dielectric layer and connecting the second feed point to the second radiating elements by a pattern of lines of equal length, which is the same as the pattern of the first feed lines, respectively, such that the second radiating elements form a linearly polarized wave in a second polarization direction orthogonal to the first polarization direction; and a second ground conductor layer provided under the third dielectric layer, the first ground conductor layer has openings in positions opposed to the first radiating elements and the second radiating elements, and connecting portions of the first feed lines to the first radiating elements are formed in a direction orthogonal to a direction of connecting portions of the second feed lines to the second radiating elements. 2 . The array antenna device of claim 1 , wherein the first feed lines and the second feed lines are formed in a branching layout. 3 . The array antenna device of claim 1 , wherein the 180° hybrid circuit is a magic-T circuit. 4 . The array antenna device of claim 1 , wherein the 180° hybrid circuit comprises: a first line which makes a phase difference of zero between the first feed point and the second feed point; a second line which makes a phase difference of 180° between the first feed point and the second feed point; and a switching unit which selectively switch between the first line and the second line. 5 . An array antenna device comprising: a first substrate comprising a first feed point; a second substrate provided under the first substrate and comprising a second feed point; and a 180° hybrid circuit which feeds the first feed point and the second feed point with a phase difference of zero or 180°, wherein the first substrate comprises: a first dielectric layer; a first radiating element array formed by arranging first radiating elements in an array on the first dielectric layer; first feed lines provided on the first dielectric layer and connecting the first feed point to the first radiating elements by a pattern of lines of equal length, respectively, such that the first radiating elements form a linearly polarized wave in a first polarization direction; a first ground conductor layer provided under the first dielectric layer; and a second dielectric layer provided under the first ground conductor layer, the second substrate comprises: a third dielectric layer located under the second dielectric layer; second feed lines provided on the third dielectric layer, connecting the second feed point to the first radiating elements by a pattern of lines of equal length, which is the same as the pattern of the first feed lines, respectively, such that the first radiating elements form a linearly polarized wave in a second polarization direction orthogonal to the first polarization direction, and comprising feed ends extended under the first radiating elements; and a second ground conductor layer provided under the third dielectric layer, the first ground conductor layer has openings in positions opposed to the first radiating elements, and connecting portions of the first feed lines to the first radiating elements are formed in a direction orthogonal to a direction of connecting portions of the second feed lines to the first radiating elements. 6 . The array antenna device of claim 5 , wherein the first feed lines and the second feed lines are formed in a branching layout. 7 . The array antenna device of claim 5 , wherein the 180° hybrid circuit is a magic-T circuit. 8 . The array antenna device of claim 5 , wherein the 180° hybrid circuit comprises: a first line which makes a phase difference of zero between the first feed point and the second feed point; a second line which makes a phase difference of 180° between the first feed point and the second feed point; and a switching unit which selectively switch between the first line and the second line. 9 . The array antenna device of claim 5 , wherein the feed ends of the second feed lines are extended under centers of the first radiating elements.