Double-layer wideband rectangular microband paste antenna with non-radiant edged feeder
A microstrip patch antenna, non-radiating technology, applied in the direction of the radiating element structure, antenna, electrical components, etc., can solve the problems of shortening the length of the feeder, narrow bandwidth, etc., to achieve shortened feeder length, large scanning angle, compression The effect of wiring space
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Embodiment 1
[0042] An X-band non-radiating edge-fed broadband double-layer microstrip patch antenna. The structure used in the antenna is the same as figure 1 It is exactly the same, and the microstrip line 7 is used for feeding, and there are three slots 8 on the parasitic element 5 . Among them, the plate parameters of the parasitic dielectric plate 1 are: the thickness is 0.254mm, and the relative dielectric constant is 4.36; the foam plate with the relative dielectric constant of the intermediate dielectric layer 2 is 1.07, and the thickness h=0.093λ 0 ; The plate parameters of the feed medium plate 3 are: the thickness is 0.508, and the relative permittivity is 2.94. The geometric parameters of the parasitic element 5 are: the length of the radiation side L 1 =0.36λ 0 , the length ratio L of the radiating side to the non-radiating side 1 / W 1 =1.22; the geometric parameters of the feed element 6 are: the length L of the radiation side 2 =0.59λ 0 / ε r3 0.5 , the length ratio ...
Embodiment 2
[0056] An S-band non-radiating edge-fed broadband double-layer microstrip patch antenna. The structure used in the antenna is the same as figure 1 Basically the same, using a microstrip line for feeding, the difference is that the parasitic element 5 is located above the parasitic dielectric board 1 . There are six slits 8 on the parasitic element of the antenna, wherein the plate parameters of the parasitic dielectric plate 1 are: the thickness is 1.5 mm, and the relative dielectric constant is 2.55; the intermediate dielectric layer 2 is air with a relative dielectric constant of about 1.0, Thickness h=0.056λ 0 ; The plate parameters of the feed medium plate 3 are: the thickness is 1.5, and the relative permittivity is 2.55. The geometric parameters of the parasitic element 5 are: the length of the radiation side L 1 =0.32λ 0 , the length ratio L of the radiating side to the non-radiating side 1 / W 1 =1.1; the geometric parameters of the feed element 6 are: the length ...
Embodiment 3
[0061] An L-band non-radiating edge-fed broadband double-layer microstrip patch antenna. The structure used in the antenna is the same as figure 1 Basically the same, except that the coplanar feeding of the microstrip line 7 is changed to the coaxial probe feeding, and there are 3 gaps on the parasitic element 5 . Among them, the parameters of the parasitic dielectric board 1 are: the thickness is 1.524 mm, and the relative dielectric constant is 3.48; the intermediate dielectric layer 2 is a foam board with a relative dielectric constant of about 1.4, and the thickness h=0.045λ 0 ; The plate parameters of the feeding medium plate 3 are: the thickness is 2, and the relative permittivity is 4.5; the geometric parameters of the parasitic element 5 are: the length of the radiation side L 1 =0.35λ 0 , the length ratio L of the radiating side to the non-radiating side 1 / W 1 = 1.4; the geometric parameters of the feed element 6 are: the length L of the radiation side 2 =0.43λ ...
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