Claims
- 1. A directional antenna assembly arrangement comprising:a dielectric structure having a surface, wherein a ground plane is not positioned in or on the dielectric structure; and an array of wire antenna elements disposed within or on the surface of the dielectric structure, at least one of the wire antenna elements being active and the remainder being passive.
- 2. A directional assembly arrangement comprising:a dielectric structure having a surface, wherein the dielectric structure is formed from a material having a relative dielectric constant ∈r of greater than four, and an array of wire antenna elements positioned within or on the surface of the dielectric structure, at least one of the wire antenna elements being active and the remainder being passive.
- 3. The antenna assembly arrangement of claim 2, wherein ∈r is greater than ten.
- 4. A directional antenna assembly arrangement comprising:a dielectric structure having a surface; an array of wire antenna elements positioned within or on the surface of the dielectric structure, at least one of the wire antenna elements being active and the remainder being passive; and switching means electrically connected to the antenna elements, the switching means being operable to selectively switch one or more of the antenna elements to be active.
- 5. The antenna assembly arrangement as claimed in claim 4, wherein the passive antenna elements are switched by the switching means either to be electrically connected to ground or in an open circuit condition.
- 6. The antenna assembly arrangement as claimed in claim 5, wherein the antenna elements are arranged in symmetric array.
- 7. The antenna assembly arrangement as claimed in claim 6, wherein the dielectric structure is a cylinder.
- 8. The antenna assembly arrangment as claimed in claim 6, wherein the dielectric structure is a rectangular body.
- 9. The antenna assembly arrangement as claimed in claim 7, wherein the cylinder is either solid or hollow.
- 10. The antenna assembly arrangement as claimed in claim 5, wherein the switching means are selectively controlled by control means to cause one or more of the antenna elements to be active in accordance with the direction of greatest received signal strength.
- 11. The antenna assembly as claimed in claim 5, wherein the relative dielectric constant of the dielectric structure is greater than ∈0, where ∈0 is the permittivity of free space.
- 12. The antenna assembly arrangement as claimed in claim 11, wherein the antenna elements are separated by a minimum distance of λ010·1εr,where λ0 is the wavelength in free space of the electromagnetic radiation to be received or transmitted by the antenna elements, and ∈r is the relative permittivity of the dielectric structure.
- 13. The antenna assembly arrangement as claimed in claim 12, wherein the length of the antenna elements is greater than. λ05·1εr.
- 14. An antenna assembly including at least:a substantially planar structure of dielectric material, wherein a ground plane is not positioned in or on the structure of dielectric material, and an array of at least three antenna elements mounted on a common surface of said structure, the array including an active element having a feed connection point, a first passive element being parallel with and spaced apart from the active element, and a second passive element being parallel with and spaced apart from the first active element in an opposed direction to said first passive element.
- 15. The antenna assembly as claimed in claim 14, wherein said antenna elements are substantially elongate.
- 16. A portable communications device having an antenna assembly as claimed in claim 14.
- 17. The portable communications device as claimed in claim 16, wherein the antenna assembly is mounted from the communications device in a manner such that the plane of the array is perpendicular to a user's head, with the second passive element being proximate thereto.
- 18. The portable communications device as claimed in claim 17, wherein the antenna assembly is mounted from the communications device in a manner such that the antenna assembly can pivot about its base.
- 19. An antenna assembly including at least:a substantially planar structure of dielectric material, and an array of at least three antenna elements mounted on a common surface of said structure, the array including an active element having a feed connection point, a first passive element being parallel with and spaced apart from the active element, and a second passive element being parallel with an spaced apart from the active element in an opposed direction to said first passive element wherein said antenna elements are substantially elongate, wherein said second passive element has a transverse portion substantially L-shaped, and of greater length than the active element to act as a reflector, and said L-shaped second passive element is arranged to at least partially surround the active element.
- 20. The antenna assembly as claimed in claim 19, wherein the first passive element is equal or lesser length than the active element to act as a director.
- 21. The antenna assembly of claim 20, wherein said second passive element passes through said dielectric structure and extend over at least a portion of the opposed surface of the structure.
- 22. The antenna assembly of claim 21, wherein the feed point of the active element is electrically connected with a centre conductor of a coaxial feed line, being at one end of the active element.
- 23. The antenna assembly of claim 22, wherein the second passive element is electrically connected to a signal ground conductor of the coaxial feed line.
- 24. An antenna assembly including at least:a substantially planar structure of dielectric material, and an array of at least three elongate antenna elements mounted on a first surface of said dielectric material, the array including an active element having a feed connection point, a first passive element being parallel with and spaced apart from the active element, and a second passive element being parallel with and spaced apart from the first active element in an opposed direction to said first passive element, said second passive element also extending through the dielectric material to a second surface opposite the first surface.
- 25. The antenna assembly of claim 24, wherein said second passive element passes through said dielectric material and extends over at least a portion of the second surface of the dielectric material.
- 26. The antenna assembly of claim 25, wherein said second passive element has, on said first surface, a transverse portion being substantially L-shaped, and of greater length than the active element, to act as a reflector, and said L-shaped second passive element is arranged to at least partially surround the active element.
- 27. The antenna assembly of claim 26, wherein the first passive element is of equal or lesser length than the active element to act as a director.
- 28. The antenna assembly of claim 27, wherein the feed point of the active element is electrically connected with a center conductor of a coaxial feed line, being at one end of the active element.
- 29. The antenna assembly of claim 28, wherein the second passive element is electrically connected to a signal ground conductor of the coaxial feed line.
- 30. A portable communications device having an antenna assembly as claimed in claim 24.
- 31. The portable communications device of claim 30, wherein the antenna assembly is mounted from the communications device in a manner such that the plane of the array is perpendicular to a user's head, with the second passive element being proximate thereto.
- 32. The portable communications device of claim 31, wherein the antenna assembly is mounted from the communications device in a manner such that the antenna assembly can pivot about its base.
Priority Claims (1)
Number |
Date |
Country |
Kind |
PQ1980 |
Aug 1999 |
AU |
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RELATED APPLICATIONS
The subject application is a continuation-in-part application of U.S. patent application Ser. No. 08/557,031, filed Mar. 14, 1996 now U.S. 6,034.638.
US Referenced Citations (23)
Foreign Referenced Citations (5)
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Mar 1987 |
EP |
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EP |
2 216 726 A |
Oct 1989 |
GB |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
08/557031 |
Mar 1996 |
US |
Child |
09/469595 |
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US |