Frequency-selective surface (FSS) structures
First Claim
1. A frequency-selective surface (FSS) structure, comprising:
- a conductive grid;
a plurality of conductive loops being located within the conductive grid and having uniform spacing (δ
) between inner and outer edges of each loop, wherein the spacing (s) between the conductive loops and the conductive grid is on the order of λ
/100 or less; and
a thin substrate, wherein the conductive grid and the plurality of conductive loops are both located on the same side of the thin substrate and are arranged as a miniaturized element frequency-selective surface (MEFSS) with a plurality of unit cells whose dimensions are on the order of λ
/10 or less, and the FSS structure exhibits a single pole frequency response.
2 Assignments
0 Petitions
Accused Products
Abstract
Frequency-selective surface (FSS) structures that may be used in a variety of different filtering capacities and applications. According to exemplary embodiments, there is disclosed: 1) a one-sided FSS structure that has a conductive grid and conductive loops located on the same side of a thin substrate and exhibits a single pole frequency response; 2) a multiple layer FSS structure that has several one-sided FSS layers and exhibits a multiple pole frequency response; 3) a loop/loop tunable FSS structure where the frequency response can be adjusted or tuned with a bias network; 4) a grid/grid tunable FSS structure where the frequency response can be adjusted or tuned without the use of bias network; and 5) an antenna arrangement that has a FSS structure placed over top of antenna array so that the need for separate components, like bulky filters in a transceiver chain, can be eliminated.
37 Citations
17 Claims
-
1. A frequency-selective surface (FSS) structure, comprising:
-
a conductive grid; a plurality of conductive loops being located within the conductive grid and having uniform spacing (δ
) between inner and outer edges of each loop, wherein the spacing (s) between the conductive loops and the conductive grid is on the order of λ
/100 or less; anda thin substrate, wherein the conductive grid and the plurality of conductive loops are both located on the same side of the thin substrate and are arranged as a miniaturized element frequency-selective surface (MEFSS) with a plurality of unit cells whose dimensions are on the order of λ
/10 or less, and the FSS structure exhibits a single pole frequency response. - View Dependent Claims (2, 3)
-
-
4. A frequency-selective surface (FSS) structure, comprising:
-
a first FSS layer having a first conductive grid and a first plurality of conductive loops, wherein the first conductive grid and the first plurality of conductive loops are both located on a first plane; a second FSS layer having a second conductive grid and a second plurality of conductive loops, wherein the second conductive grid and the second plurality of conductive loops are both located on a second plane; and a thin substrate located between the first and second planes, wherein the first and second planes are spaced such that the first and second FSS layers are electromagnetically coupled to one another and at least one of the first and second FSS layers is arranged as a miniaturized element frequency-selective surface (MEFSS) with a plurality of unit cells whose dimensions are on the order of λ
/10 or less, and the FSS structure exhibits a multiple pole frequency response. - View Dependent Claims (5, 6, 7, 8)
-
-
9. A tunable frequency-selective surface (FSS) structure, comprising:
-
a first FSS layer having a first loop array; a second FSS layer having a second loop array; a thin substrate being located between the first and second FSS layers; and at least one bias network having a plurality of varactor diodes, wherein the first and second FSS layers are spaced such that the first and second loop arrays are electromagnetically coupled to one another, and the tunable FSS structure exhibits a frequency response that can be tuned with the bias network, and wherein the bias network includes at least one varactor diode that connects adjacent loops within the same loop array, at least one resistor that is connected in parallel with the varactor diode, and a power source that applies a voltage across the same loop array. - View Dependent Claims (10, 11, 12)
-
-
13. A tunable frequency-selective surface (FSS) structure, comprising:
-
a first FSS layer having a first conductive grid; a second FSS layer having a second conductive grid; a thin substrate being located between the first and second FSS layers; and a plurality of varactor diodes connecting the first and second conductive grids together, wherein the first and second FSS layers are spaced such that the first and second conductive grids are electromagnetically coupled to one another, and the FSS structure exhibits a frequency response that can be tuned without a bias network, and wherein the first and second conductive grids are connected to one another through one or more series connections that include a varactor diode, a horizontal link, and a vertical link, and the series connection both extends along a surface of the thin substrate and through the thin substrate. - View Dependent Claims (14, 15)
-
-
16. An antenna arrangement, comprising:
-
a frequency-selective surface (FSS) structure having a loop array, a conductive grid, and a thin substrate, the loop array is located on one side of the thin substrate and the conductive grid is located on another side of the thin substrate; an antenna array having a plurality of antenna elements; and a dielectric spacer located between the FSS structure and the antenna array, wherein the FSS structure is located over top of the antenna array such that electromagnetic waves incident upon or radiating from the antenna elements are filtered by the FSS structure. - View Dependent Claims (17)
-
Specification