Metamaterial antennas for wideband operations
First Claim
Patent Images
1. An antenna device based on a composite right and left handed (CRLH) metamaterial antenna structure, comprising:
- a substrate having a first surface and a second surface opposite to the first surface;
a cell patch formed on the first surface;
a launch pad formed on the first surface and separated from the cell patch by a gap, the launch pad being electromagnetically coupled to the cell patch through the gap to direct a signal to or from the cell patch;
a feed line formed on the first surface and coupled to the launch pad to conduct the signal to or from the cell patch;
a via line formed on the second surface and coupled to a ground electrode outside a footprint of the cell patch on the second surface; and
a via formed in the substrate to couple the cell patch on the first surface to the via line on the second surface;
wherein the substrate, the feed line, the cell patch, the launch pad, the via line, and the via form a CRLH metamaterial antenna structure,wherein the cell patch, the launch pad and the gap are structured to effectuate spatially varying electromagnetic coupling that provides impedance matching for different operating frequencies over a wideband; and
wherein the launch pad includes an opening in which the cell patch is located, the launch pad configured to entirely surround the cell patch in a region defined by the opening.
3 Assignments
0 Petitions
Accused Products
Abstract
Metamaterial antennas provide spatially varying electromagnetic coupling that enables impedance matching conditions for different operating frequencies of the MTM antennas so that such antennas can operate at different frequencies for wideband applications, including ultra wideband applications.
49 Citations
21 Claims
-
1. An antenna device based on a composite right and left handed (CRLH) metamaterial antenna structure, comprising:
-
a substrate having a first surface and a second surface opposite to the first surface; a cell patch formed on the first surface; a launch pad formed on the first surface and separated from the cell patch by a gap, the launch pad being electromagnetically coupled to the cell patch through the gap to direct a signal to or from the cell patch; a feed line formed on the first surface and coupled to the launch pad to conduct the signal to or from the cell patch; a via line formed on the second surface and coupled to a ground electrode outside a footprint of the cell patch on the second surface; and a via formed in the substrate to couple the cell patch on the first surface to the via line on the second surface; wherein the substrate, the feed line, the cell patch, the launch pad, the via line, and the via form a CRLH metamaterial antenna structure, wherein the cell patch, the launch pad and the gap are structured to effectuate spatially varying electromagnetic coupling that provides impedance matching for different operating frequencies over a wideband; and wherein the launch pad includes an opening in which the cell patch is located, the launch pad configured to entirely surround the cell patch in a region defined by the opening. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
-
-
14. A method for wideband antenna operations based on a composite right and left handed (CRLH) metamaterial antenna structure, comprising:
-
providing an antenna including a CRLH metamaterial structure that includes; a cell patch; a launch pad separated from the cell patch by a gap and electromagnetically coupled to the cell patch through the gap to direct a signal to or from the cell patch, the launch pad including an opening in which the cell patch is located, the launch pad configured to entirely surround the cell patch in a region defined by the opening; a via line formed on a surface of the antenna opposite the cell patch and coupled to a ground electrode on the surface opposite the cell patch and outside a footprint of the cell patch; and a via to couple the cell patch on a first surface of the antenna to the via line on a second surface of the antenna; and structuring the cell patch, the launch pad and the gap to effectuate spatially varying electromagnetic coupling that provides impedance matching for different operating frequencies over a wideband. - View Dependent Claims (15, 16, 17, 18)
-
-
19. An antenna device based on a composite right and left handed (CRLH) metamaterial antenna structure, comprising:
-
a substrate having a first surface and a second surface opposite to the first surface; and
first and second metallization layers formed on the first and second surfaces, respectively, to include a cell patch formed on the first surface, a launch pad formed on the first surface and separated from the cell patch by a gap, a feed line formed on the first surface and coupled to the launch pad to conduct an antenna signal to or from the cell patch, a ground electrode formed on the second surface and located outside a footprint of the cell patch projected onto the second surface, a via line formed on the second surface and coupled to the ground electrode on the second surface, and a via formed in the substrate to couple the cell patch on the first surface to the via line on the second surface;wherein the substrate, the feed line, the cell patch, the launch pad, the via line, and the via form a CRLH metamaterial antenna structure that receives the antenna signal from the air or transmits the antenna signal into the air via the cell patch and other parts of the CRLH metamaterial antenna structure, wherein the cell patch, the launch pad and the gap in the first metallization layer are structured to have at least one of a spatial variation in a dimension of the gap along the gap, and a spatial variation in either or both of the cell patch and the launch pad along the gap to effectuate spatially varying electromagnetic coupling that provides impedance matching for different operating frequencies over a wideband; and wherein the launch pad includes an opening in which the cell patch is located, the launch pad configured to entirely surround the cell patch in a region defined by the opening. - View Dependent Claims (20, 21)
-
Specification