Printed antenna having a dual-beam diagram
First Claim
1. Printed antenna for mobile communication cellular networks comprising a ground plane (P), a substrate (S) stacked to the ground plane, a metal deposit made on the substrate in order to form therein a resonating patch (3, 6, 7, 10, P), and a coaxial probe configured to excite the resonating patch, wherein the patch is a square patch having sides with dimensions substantially equal to k*λ
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S where k is a strictly positive integer and λ
s is the guided wavelength in the substrate, thereby being able to radiate in both upper electromagnetic modes TM02 and TM20, and wherein the coaxial probe is configured to excite the patch on an excitation point (4, 8, 9, 1 1-15, E) arranged on one side of the patch at substantially ¾
*k*λ
s from one of the vertices of the square patch so that the patch resonates dominantly in a single one of said upper electromagnetic modes, by inducing in this way a dual-beam radiation pattern with, in a same plane orthogonal to the patch, two main misaligned lobes that are symmetric in relation to the normal to the patch, said antenna further comprising means of capacitive compensation (5) in order to reduce an inductance of an input impedance of said antenna supplied by the coaxial probe, said means of capacitive compensation (5) taking the form of an extension of the patch around the excitation point, said extension having a surface substantially equal to that of a half-disk of radius Re=4*h where h designates the thickness of the substrate.
1 Assignment
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Accused Products
Abstract
The invention relates to a printed antenna comprising a ground plane, a substrate stacked to the ground plane, a metal deposit made on the substrate in order to form therein a resonating patch (3), and a means of supplying to excite the resonating patch, characterized in that the patch has dimensions that are adapted for the patch to be able to radiate in both upper electromagnetic modes TM02 and TM20, and in that the means of supplying makes it possible to excite the patch on an excitation point (4) arranged along the patch so that the patch resonates in a single of said upper electromagnetic modes, by inducing this way a dual-beam radiation diagram with, in the same plane orthogonal to the patch, two main misaligned and symmetric lobes in relation to the normal to the patch.
8 Citations
8 Claims
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1. Printed antenna for mobile communication cellular networks comprising a ground plane (P), a substrate (S) stacked to the ground plane, a metal deposit made on the substrate in order to form therein a resonating patch (3, 6, 7, 10, P), and a coaxial probe configured to excite the resonating patch, wherein the patch is a square patch having sides with dimensions substantially equal to k*λ
-
S where k is a strictly positive integer and λ
s is the guided wavelength in the substrate, thereby being able to radiate in both upper electromagnetic modes TM02 and TM20, and wherein the coaxial probe is configured to excite the patch on an excitation point (4, 8, 9, 1 1-15, E) arranged on one side of the patch at substantially ¾
*k*λ
s from one of the vertices of the square patch so that the patch resonates dominantly in a single one of said upper electromagnetic modes, by inducing in this way a dual-beam radiation pattern with, in a same plane orthogonal to the patch, two main misaligned lobes that are symmetric in relation to the normal to the patch, said antenna further comprising means of capacitive compensation (5) in order to reduce an inductance of an input impedance of said antenna supplied by the coaxial probe, said means of capacitive compensation (5) taking the form of an extension of the patch around the excitation point, said extension having a surface substantially equal to that of a half-disk of radius Re=4*h where h designates the thickness of the substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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S where k is a strictly positive integer and λ
Specification