Radio antennae
First Claim
1. A radio antenna comprising a length of conductor of thickness 2a electromagnetically coupled with a cladding of dielectric material having an average thickness t and a relative magnetic permeability substantially greater than unity and substantially greater than the relative dielectric permittivity thereof, wherein the ratio N of the electrical length of the clad conductor to that of a corresponding unclad conductor in free space at the operating frequency is equal to or greater than 350 (t+a)/λ
- o where λ
o is the free space wavelength at the operating frequency, and wherein the value of (t+a)/λ
o for the antenna lies on or near the knee in the graphical plot of N versus (t+a)/λ
o for a fixed ratio of (t+a)/a using the same cladding material.
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Accused Products
Abstract
This invention relates to radio antennae, and in particular to dielectric-clad antennae of the kind comprising a length of conductor the electrical length of which is effectively increased by a cladding of dielectric material. The disclosure describes how the physical height of an antenna, typically an HF or VHF wire monopole antenna can be reduced in relation to its electrical length by means of a thin cladding of dielectric material having a relative magnetic permeability substantially greater than unity, e.g. ferrite. By selecting a material having a relative magnetic permeability substantially greater than its relative dielectric permittivity, a given reduction in antenna height can be achieved with a much thinner cladding than can be achieved using conventional materials.
39 Citations
3 Claims
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1. A radio antenna comprising a length of conductor of thickness 2a electromagnetically coupled with a cladding of dielectric material having an average thickness t and a relative magnetic permeability substantially greater than unity and substantially greater than the relative dielectric permittivity thereof, wherein the ratio N of the electrical length of the clad conductor to that of a corresponding unclad conductor in free space at the operating frequency is equal to or greater than 350 (t+a)/λ
- o where λ
o is the free space wavelength at the operating frequency, and wherein the value of (t+a)/λ
o for the antenna lies on or near the knee in the graphical plot of N versus (t+a)/λ
o for a fixed ratio of (t+a)/a using the same cladding material. - View Dependent Claims (2, 3)
- o where λ
Specification