Claims
- 1. A dual-frequency microstrip antenna comprising:
- a conductive ground plate means having a feed inserted therethrough;
- at least three strips of a first dielectric material bonded to the conductive ground plate means in a spatially-separated manner, the first dielectric material having a first dielectric constant;
- at least two strips of a second dielectric material bonded to the conductive ground plate means at locations within spaces separating the three strips of the first dielectric material, the strips of a second dielectric material having a conductive cladding which is separated from the conductive ground plate means and the feed, and the strips of a second dielectric material having a second dielectric constant which is higher than the first dielectric constant; and
- a dielectric covering over an upper surface of the three strips of the first dielectric material and over an upper surface of the two strips of the second dielectric material, the dielectric covering having a radiating conductive cladding which electrically contacts the feed;
- wherein the three strips of the first dielectric material form low dielectric regions and the two strips of the second dielectric material form high dielectric regions, and wherein the high and low dielectric regions establish low and high resonance regions, respectively, wherein fields of lower resonance are excited in the high dielectric regions and exponentially decay in the low dielectric regions and fields of higher resonance are excited in the low dielectric regions.
- 2. The microstrip antenna according to claim 1, wherein the conductive ground plate means comprises a copper ground plate.
- 3. The microstrip antenna according to claim 1, wherein each of the three strips of the first dielectric material comprises a bare material and wherein each of the two strips of the second dielectric material comprises copper-clad material.
- 4. The microstrip antenna according to claim 3, wherein the bare material comprises 20-mil thick material having a dielectric constant on the order of 2.2 and wherein the copper-clad material comprises 20-mil thick material having a dielectric constant on the order of 6.2.
- 5. The microstrip antenna according to claim 1, wherein the dielectric covering comprises a copper-clad material.
- 6. The microstrip antenna according to claim 1, further comprising a bonding film for thermally bonding the three strips of the first dielectric material and the two strips of the second dielectric material to the conductive ground plate means and to the dielectric covering.
- 7. The microstrip antenna according to claim 6, wherein the bonding film comprises 1.5 mil of copper clad bonding film with a dielectric constant on the order of 2.3.
- 8. The microstrip antenna according to claim 1, wherein said feed is disposed in a geometric center area of said dielectric covering, the strips of dielectric material are symmetrically placed relative to said feed to ensure symmetric H-plane radiation and to ensure symmetric radiation patterns along a plane of radiation edges.
- 9. The microstrip antenna according to claim 8, said feed is positioned in the antenna such that the radiating edges are perpendicular to the strips of the second dielectric material, but not contacting the conductive cladding of the strips of the second dielectric material.
GOVERNMENT INTEREST
The invention described herein may be manufactured, used, and licensed by or for the Government of the United States of America without the payment to us of any royalty thereon.
US Referenced Citations (10)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2097196 |
Oct 1982 |
GBX |