Communications: directive radio wave systems and devices (e.g. – Radar reflector – With spherical lens
Patent
1991-09-25
1992-12-08
Barron, Jr., Gilberto
Communications: directive radio wave systems and devices (e.g.,
Radar reflector
With spherical lens
342370, 343911R, G01S 1523, G01S 1514
Patent
active
051701677
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to reflectors for electromagnetic radiation and in particular, though to exclusively, to radar reflectors for enhancing the radar cross-section of an object.
2. Discussion of Prior Art
GB Patent Application No. 2194391A describes a reflector comprising a spherical lens, having a dielectric constant of substantially equal to 3.414 with a reflective coating formed over a part of the spherical surface of the lens. Electromagnetic radiation, e.g. radar, is focussed by the lens on to the reflector and then reflected back towards the radar source. When suitably designed with the reflector covering about one half of the lens a highly uniform radar cross section covering substantially a hemisphere of angles of incidence resulted. This meant that two lenses, back-to-back, could provide a substantially uniform radar cross-section, independent of the direction of incidence of the radiation. Such reflectors provide a simpler and cheaper alternative to Luneberg lenses and their uniform response makes them suitable for use, for example, on top of yacht masts to provide suitably large echoes on ships' radar scanners to mimimise the likelihood of collisions.
The invention provided a material with the correct dielectric constant and low loss transmission characteristics. However the weight of the reflector is a critical factor in various applications and a compromise was needed between maximising the radar cross-section and mimimising the weight.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an improved reflector having a lightweight structure compared with the prior art arrangement.
The invention provides a reflector for electromagnetic radiation having: a first input converging lens; a second converging lens coaxial with said first lens and having a convex rear surface; and a reflective coating applied to the convex surface of the second lens; the lenses being arranged such that electromagnetic energy from a source incident on the first lens is refracted onto the second lens then reflected from the reflective coating back towards the source of the energy.
In a particularly advantageous arrangement for use as a radar reflector the lenses have a dielectric constant of 3.414.
Advantageously the lenses are moulded from silica flour in a polyester resin binder. In a convenient arrangement the lenses are meniscus lenses, the second lens being provided around its periphery with an annular flange and the first lens being substantially hemispherical and provided with a rebated portion around the periphery thereof for mating with a complementary portion of the periphery of the flange. The reflecting surface is preferably a zinc spray coating.
The angular response of the reflector may be adjusted by providing means to adjust the separation of the two lenses.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will now be described by way of example only with reference to the accompanying Drawings of which:
FIG. 1 is a schematic view of a reflector according to the invention, showing various radar ray tracings; and
FIGS. 2a and 2b are sectional and plan views of one reflector arrangement.
DETAILED DISCUSSION OF PREFERRED EMBODIMENTS
As can be seen in FIG. 1 a passive radar target comprises a first hemispherical meniscus lens 10 which focuses microwave energy 11-13 towards a second lens 14. Microwave energy incident on the second lens 14 is focused on the rear convex surface 15 of the second lens which is coated with a zinc spray radar reflective coating. The two lenses are made from silica flour in a polyester resin binder.
The rear convex surface 15 of the lens 14 is part spherical while the front surface 16 is a convex axially symmetric surface which is flattened near the lens axis 17. The dielectric constant of the silica flour/polyester resin is close to 3.414, which was described in GB Patent Application No. 2194391A as the optimum value for a radar reflector using a single solid lens/reflector. The spacing, dimensions
REFERENCES:
patent: 3204244 (1965-08-01), Prache
Gilbert Mark T.
Rix Clifford
Barron Jr. Gilberto
The Secretary of State for Defence in Her Britannic Majesty's Go
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