Dielectric resonator antenna with a caved well
First Claim
Patent Images
1. A dielectric resonator antenna, comprising:
- a dielectric resonator, which is a rectangular parallelepiped made of a dielectric material, having a rectangular caved well passing though from a top surface to a bottom surface thereof; and
a feed-in/feed-out component, comprising;
a dielectric substrate, which is a substrate made of a dielectric material;
a ground metal layer, which is a conductive material provided on a top surface of the dielectric substrate and having an etched part etched therefrom; and
a strip metal layer, which is a conductive material provided on a bottom surface of the dielectric substrate;
wherein the dielectric resonator with the caved well is mounted on the ground metallayer of the feed-in/feed-out component, wherein the caved well is positioned on the ground metal layer in an area which is not overlapped with the area of the etched part.
1 Assignment
0 Petitions
Accused Products
Abstract
A dielectric resonator antenna is a dielectric resonator mounted on a feed-in/feed-out component. The dielectric resonator is a rectangular parallelepiped made of a dielectric, and has a caved well passing through from the top surface to the bottom surface thereof. The feed-in/feed-out component includes a dielectric substrate, a ground metal layer and a strip metal layer coated on the top surface and the bottom surface, respectively, of the dielectric substrate. An etched part is provided on the ground metal layer. Wherein, the dielectric resonator with the caved well is mounted on the ground metal layer of the feed-in/feed-out component.
40 Citations
4 Claims
-
1. A dielectric resonator antenna, comprising:
-
a dielectric resonator, which is a rectangular parallelepiped made of a dielectric material, having a rectangular caved well passing though from a top surface to a bottom surface thereof; and a feed-in/feed-out component, comprising; a dielectric substrate, which is a substrate made of a dielectric material; a ground metal layer, which is a conductive material provided on a top surface of the dielectric substrate and having an etched part etched therefrom; and a strip metal layer, which is a conductive material provided on a bottom surface of the dielectric substrate; wherein the dielectric resonator with the caved well is mounted on the ground metal layer of the feed-in/feed-out component, wherein the caved well is positioned on the ground metal layer in an area which is not overlapped with the area of the etched part. - View Dependent Claims (2, 3, 4)
-
Specification