FR2648278A1 - Antenna with switchable beams - Google Patents

Abstract

Antenna with switchable beams, characterised in that it includes at least one reflector 102 provided with at least two reflective surfaces 104, 105 intended to be exposed separately to a source of radiation 103, each surface having a profile suitable for producing a radiation pattern of specific and predetermined shape. To this end, the reflector 102 can be pivoting with opposite reflective surfaces 104, 105 or a reflector with juxtaposed reflective surfaces whose exposure is carried out by translation or by using two separate sources. Application to radio beam links and especially to shaped-beam satellite antennas.

Description

The present invention relates to one year
switchable beam terminal for establishing
connection between two points by radio waves
very highly concentrated, namely by hert beams
zlens. It mainly relates to satel antennas
lites with shaped beam (s).

A radio-relay link allows
transmit as appropriate and in particular by satellite
- telephone conversations grouped into a frequency multiplex. temporal or by coding
- television programs
- Datas.

We know the following three antenna types:
1) Multi-source antennas with reconfigurable distributor.

 This type of antenna is shown schematically in Figure 1 accompssant the descrlpt: .n of the invention. These antennas include a reflector 1.

a source network 2 and a distributor which can be reconfigured by adjusting the phase shifters 3 and the variable dividers or switches 4.

 The advantage of this device is to be able to create several states. not just two. of the radiated beam. The disadvantages are the complexity of the source network and the dispatcher. the existence of loss in the variable components and in the waveguides as well as the need for a polarization splitter.

 2) Antennas with two inputs.

 This type of antenna is shown in Figures 2a and 2b. The antenna of FIG. 2a comprises a main reflector 5 with a paraboloidal or shaped surface.

an auxiliary reflector 6 of hyperboloidal or shaped surface and two sources 7 and 8. Each source corresponds to a different beam. accessible by switching the input.

 For well separated beams of similar shape, the device is valid. However. otherwise, the main reflector is misused. A simplified version without auxiliary reflector also exists, but it is less efficient.

 The antenna of FIG. 2b comprises a reflector 9. a source network 10 and a fixed distributor without loss and with two inputs 11 and 12. each corresponding to a switchable mode.

 The illuminations created on the source network for the two modes are said to be orthogonal and generate beams which can be either separated.

or -S the limit- coincidents (at the cost, in the latter case. of an enlargement of the reflector compared to the case of the system with a single beam of the same shape).

 The main disadvantage of antennas with two inputs is the low efficiency of use of the surface of the reflector for beams with overlap.

 3) Antennas with deformable reflectors.

 These antennas are illustrated in Figure 3.

where we can notice the presence of a source 13 llluml- nant a reflector 14 whose surface can be varied by deformation obtained by placing a system of remote-controlled motors 15 at a number of points 16. Each configuration of the surface corresponds to a beam.

 The advantage of this device is that a large number of different beams can be obtained and not just two. However, this device has the drawback drawback due to its mechanical complexity and to the fact that, because of the limited number of control points on the deformable surface. the control of the radiation patterns is only relatively coarse.

 The object of the present invention is therefore to provide an antenna with switchable beams which better meets the needs of the practice than antennas of the same type and aiming at the same object previously known. In particular. the aim is to eliminate the disadvantages mentioned above in connection with the antennas of the prior art.

 The object of the present invention is an antenna with switchable beams, characterized in that it comprises at least one reflector provided with at least two reflecting surfaces intended to be exposed separately to a radiation source, each surface having a profile suitable for producing a radiation pattern of specific and predetermined shape.

 According to a preferred embodiment of the antenna conforming to the inventlon, the reflector is a pivoting reflector comprising two opposite reflective surfaces supported by a pivoting axis. each surface being exposed to the radiation source by rotation of the reflector around this axis.

 According to an advantageous arrangement of this embodiment, the radiation source is common to the two reflective surfaces.

 According to an advantageous variant of this arrangement, each reflecting surface is associated with a separate radiation source.

 According to another embodiment of the antenna according to the invention, the reflector is a translational reflector comprising reflecting surfaces constituted by a plurality of profiled portions formed in a single surface supported by a slide, each reflecting portion being exposed to the radiation source by translation of the reflector on the slide which supports it, the source being common to the various reflective portions.

 According to yet another advantageous embodiment of the antenna according to the invention, the reflector is a fixed reader ref comprising reflecting surfaces constituted by a plurality of profiled portions formed in a single fixed surface, each reflecting portion being directly exposed to a separate radiation source.

 According to a preferred arrangement of each of the above embodiments, each of the reflecting surfaces, which are intended to be exposed separately to a source of radiation and which together constitute an auxiliary reflector, in turn radiates on a reflecting surface distinct from the preceding and constituting a main reflector.

 In addition to the foregoing provisions, the invention also comprises other provisions, which will emerge from the description which follows.

The invention will be better understood with the aid of the additional description which follows, which refers to the accompanying drawings in which
- the flashes 1 to 3 schematically illustrate the solutions of the prior art, which have already been described in the preamble to the description relating to the prior art
- Figure 4 schematically illustrates a first embodiment of the antenna with switchable beams according to the invention comprising a pivoting auxiliary reflector
- Figure 5 illustrates a slight variant of the antenna illustrated in Figure 4
- Figure 6 illustrates an antenna with switchable beams using an ilxillary translational reflector and which is also shown diagrammatically;
FIG. 7 illustrates, still schematically, a third embodiment of the antenna with switchable beams according to the invention comprising a fixed auxiliary reflector.

 The basic solution of the invention in the meantime is defined by an antenna comprising at least one reflector provided with at least two reflecting surfaces intended to be exposed separately to a radiation source, each surface having a profile suitable for create the desired specific radiation pattern for a given a-pllcatlon.

 A preferred embodiment is represented by the antenna 100 of FIG. 4 which comprises a main reflector 101, an auxiliary reflector 102 and a primary source 103. The auxiliary reflector 102 is a pivoting reflector having two opposite reflecting surfaces 104 and 105 of different profiles. so as to obtain two beams of different directions and / or shapes. This auxiliary reflector is supported by a pivoting axis 106 which makes it possible to expose one or other of the reflecting surfaces to the radiation source 103 by simple rotation of the reflector 102 around the axis 106.

 A configuration with two sources is also possible, as illustrated in FIG. 5, where the two separate sources 103a and 103b are associated, respectively, with the surfaces 104 and 105 'of the auxiliary reflector 102.

A second embodiment is illustrated by the antenna 200 of FIG. 6 which comprises a main reflector 201, an auxiliary reflector 202 and a source 203. The auxiliary reflector 202 is a translational reflector comprising two reflecting surfaces constituted by two profiled portions 204 and 205 formed in a single surface supported by a slide 206. In this case. the exposure of each reflecting portion 204 or 205 to the radiation source 203 is obtained essentially by translating the reflector 202 onto the slide 206 which supports it, so as to associate one or the other of the two portions with the source cited above.
A third embodiment is illustrated by the antenna 300 of FIG. 7 and comprises a main reflector 301, an auxiliary reflector 302 and two sources 303a and 303b. In this case, the auxiliary reflector is a fixed reflector comprising two reflecting surfaces constituted by two profiled portions 304 and 305 formed in a single fixed surface. Each of these portions is exposed directly to the corresponding source, without moving the auxiliary reflector.

 It goes without saying that the antenna 200 with an auxiliary translational reflector is a configuration which can be extended in the case where this auxiliary reflector comprises more than two profiled portions. Likewise. the antenna 300 with fixed auxiliary reflector is a configuration which can be extended to more than two sources and therefore to more than two profiled portions.

 As regards the contour delimiting the main reflector 101, 201 and 301 in each embodiment mentioned above, as well as the contour of the corresponding auxiliary reflector 102, 202 and 302. respectively, they are not necessarily circular: they can be , in fact, also elliptical, rectangular or have other contours.

 Regarding the sources. these may consist of cones, corrugated or not, circular. elliptical, rectangular or another shape, the horn being the most commonly used means to obtain radiation when the signal comes from a waveguide. This is obtained, in a manner known to technicians in the field. by progressively widening one and / or the other of the dimensions of the guide, which) uses the schematic representation to funnel of the sources indicated in the figures. Alternatively, any type of radiating sources illuminating the auxiliary reflector can be used as the source, including a source composed of a group of radiating elements or comprising sub-reflectors or lenses.

 Although the shape of the main reflector.

in all the configurations described above can preferably consist of a portion of paraboloid (this choice being dictated by the need to obtain greater directivity and being based on the property of parabolas which allow the transformation of spherical waves in plane waves), it is possible to adopt for the main reflector pcrtions of hyperboloids, ellipsoids. spheres, surfaces with double curvatures or with an optimized profile.

 In addition. it has been pointed out that in each of the configurations mentioned above the main reflector can be deleted in this case the switchable beam originates from the reflector at the side illuminated by the primary source (s) (s).

 The present invention therefore makes it possible to produce an antenna with switchable beams which is based on the principle, or method. for generating beams by separate exposure of at least two reflecting surfaces to the radiation source, the exposure being able to be done by rotation or translation of a reflector provided with reflecting surfaces, intended to be exposed separately to the radiation source radiation, or by direct exposure of a plurality of portions of a fixed reflector to a plurality of sources, each source being associated with a reflecting portion.

Equivalently, we can say that we use a pivoting reflector with opposite reflecting surfaces or a reflector with reflecting surfaces
Juxtaposed whose exposure is done by translation or by using separate sources.

 This principle makes it possible to eliminate the disadvantages of the solutions known from the prior art. In particular, the antenna according to the invention makes it possible to reduce the surface of the reflector by half compared to an antenna with two inputs of the type shown in FIG. 2.

With regard to the applications of the antenna according to the invention, it should be noted that a typical application is that which consists in covering, as desired, from a satellite provided with such an antenna, a country or another, this property being appreciable in particular for a television broadcasting satellite, which can thus cover one region or another depending on the face or the part of the auxiliary or main reflector which is illuminated. This may in particular be applicable in the following cases
- common (backup) satellite for two or more countries (or regions)
- satellite with two or more orbital positions, requiring the reconfiguration of the antenna radiation pattern in the event of a change of position
- satellite with two or more operating modes (for example, broad daytime diagrams, fine night beams).

 Of course, in each case the reflecting surfaces, in particular of the auxiliary reflector, with switchable beams can be of the so-called shaped beam type, which makes it possible, in particular for satellites for direct broadcasting of television programs, to use a surface for illuminating optimally a region according to its configuration, while the other surface is used to illuminate another region.

 The antenna according to the invention also applies to radars, radiometers or radio telescopes for which two or more switchable beams are required. These radars, radiometers or radio telescopes can be fixed or on board space vehicles or not. In addition, the antenna according to the invention applies to ground stations where two or more switchable beams are required, for example to pass from one satellite to another.

 As is apparent from the above, the invention is in no way limited to those of its embodiments of implementation and application which have just been described more explicitly; on the contrary, it embraces all the variants which may come to the mind of the technician in the matter, without departing from the scope, or the scope, of the present invention.

Claims (8)

 1.- Antenna with switchable beams, characterized in that it comprises at least one reflector (102; 202; 302) provided with at least two reflecting surfaces (104, 105; 204, 205; 304, 305) intended to be separately exposed to a radiation source (103; 103a. 103b; 203: 303a, 303b), each surface having a profile suitable for producing a radiation pattern of specific and predetermined shape.  2. Antenna according to claim 1, characterized in that the reflector is a pivoting reflector (102) comprising two opposite reflecting surfaces (104. 105) supported by a vivotating axis (1C6). each surface (104, 105) being exposed to the radiation source (103) by rotation of the reflector (102) about this axis (106).  3.- Antenna according to claim characterized in that the radiation source (103) is common to the two reflecting surfaces (154, 105).  4.- Antenna according to claim 2. characterized in that each reflecting surface (104. 105) is associated with a separate radiation source (103a, 103b).  5.- Antenna according to claim 1. characterized in that the reflector is a translational reflector (202) comprising reflecting surfaces constituted by a plurality of profiled portions (204. 205) formed in a single surface supported by a slide (206), each reflecting portion (204, 205) being exposed to the radiation source (203) by translation of the reflector (206) on the slide which supports it, the source ( 203) being common to the various reflecting portions (204. 205).  6.- Antenna according to claim 1. characterized in that the reflector is a fixed reflector (302) comprising reflecting surfaces constituted by a plurality of profiled portions (304. 305) provided in a single fixed surface, each reflecting port (304, 305) being directly exposed to a separate radiation source (303a, 303b).  7. Antenna according to any one of claims 1 to 6, characterized in that each of the reflecting surfaces (104, 105; 204. 205; 304, 305), which are intended to be exposed separately to a source of radiation ( 103; 103a, 103b; 203; 303a. 303b) and which together constitute an auxiliary reflector (102 202; 302). in turn radiates on a reflective surface distinct from the previous one and constituting a main reflector (101: 201 3C1).  8.- Antenna according to any one of claims 1 to 7, characterized in that each of the reflecting surfaces intended to be exposed separately to a radiation source is of the dnt type with a conforming beam.