EP0045682A1 - Antenna feed for a transmitting-receiving antenna - Google Patents

Abstract

Antenna transducer allowing, with an antenna operating in orthogonal polarizations, to achieve a high purity of polarization. The transducer comprises, from its access (A) intended to be coupled to the antenna: a first polarization duplexer (1) intended to work at low frequencies, a transition element between guides (2) and a second duplexer polarization (3) intended to work at high frequencies. A set of quasi-optical filters (13, 14, 15), located in the body of the first duplexer, short-circuits the low frequencies and lets the high frequencies pass. Dipoles (16a, 16b) placed in the polarization apertures of the first duplexer short circuit for high frequencies.

Description

The present invention relates to an antenna transducer, comprising, in series from an access intended to be coupled to the radiating part of an antenna, a first polarization duplexer intended to work in a first frequency band, a transition element consisting of a variable section guide and a second polarization duplexer intended to work in a second frequency band.

• - ils sont chers du fait des filtres qu'ils utilisent,
• - leurs bandes passantes d'émission et de réception sont relati- veinent faibles,
• - des phénomènes de résonance ont tendance à se produire dans la bande de fréquences hautes, c'est-à-dire dans la bande des fréquences de travail du second duplexeur de polarisation.

It is known to produce such antenna transducers to allow an antenna to operate with high purity of polarization; the two frequency bands of these transducers are respectively a low band for the working frequencies of the first polarization duplexer and a high band for the working frequencies of the second polarization duplexer. These known transducers have their first polarization duplexer which has four lateral polarization ports distributed at 90 ° from one another and the separation between the frequencies of the two bands is done using a share of high-pass filters located in the transition element and / or in the second polarization duplexer and on the other hand low-pass filters placed in the lateral waveguides leading to the four lateral accesses of the first polarization duplexer. The filters used in these known antenna transducers are filters with two or three cavities, adjustable by means of plungers, that is to say rods capable of being more or less sunk into the cavities. Such antenna transducers have various drawbacks:

• - they are expensive because of the filters they use,
• - their transmission and reception bandwidths are relatively low,
• - Resonance phenomena tend to occur in the high frequency band, that is to say in the working frequency band of the second polarization duplexer.

The purpose of the invention is to significantly reduce the above drawbacks.

According to the invention this is obtained in particular by filtering less expensive and more efficient and by producing for this an antenna transducer as defined in any one of claims 1 and 4 attached.

• - les figures 1 et 2 deux vues d'une première réalisation d'un transducteur d'antenne selon l'invention,
• - la figure 3 une vue détaillée d'un des éléments des figures 1 et 2,
• - la figure 4 une vue d'une seconde réalisation d'un transducteur d'antenne selon l'invention,
• - la figure 5 une vue schématique d'une antenne comportant un transducteur selon l'invention, dans sa source primaire.

The present invention will be better understood and other characteristics will appear with the aid of the description below and of the figures relating thereto which represent:

• FIGS. 1 and 2 two views of a first embodiment of an antenna transducer according to the invention,
• FIG. 3 a detailed view of one of the elements of FIGS. 1 and 2,
• FIG. 4 a view of a second embodiment of an antenna transducer according to the invention,
• - Figure 5 a schematic view of an antenna comprising a transducer according to the invention, in its primary source.

In the various figures, the corresponding elements are identified by the same symbols.

In Figures 1, 2 and 4 the proportions are not exactly respected in order to better show certain elements.

Figures 1 and 2 are respectively a side diagram and a top diagram of an antenna transducer, the internal elements of which are shown by transparency. This antenna transducer is designed to allow the operation of an antenna in transmission and in reception with a single access, E, for the transmission, a single access, R, for the reception and a common access, A, intended for be coupled to the primary source of an antenna by a polarizer.

• - un premier duplexeur de polarisation, 1, (appelé orthomode tranducer ou O.M.T. dans la littérature anglo-saxonne)
• - un élément de transition entre guides, 2,
• - un second duplexeur de polarisation, 3.

The antenna transducer according to FIGS. 1 and 2 comprises, in series, from its common access A:

• - a first polarization duplexer, 1, (called orthomode tranducer or OMT in Anglo-Saxon literature)
• - a transition element between guides, 2,
• - a second polarization duplexer, 3.

The first polarization duplexer, 1, has a body constituted by a cylindrical guide, 10, with an internal diameter of 54 mm, one end of which constitutes the common access A and the other end of which is connected to the transition element 2. This guide presents two openings lateral polarization, constituted by rectangular holes of 7 mm by 58 mm, drilled in its wall, at the same level but at 90 ° from each other. Two rectangular guides, 11, 12, of 7 mm by 58 mm open into these openings; they comprise adjustment adjustment screws, such as 18 and 19 and, at their end where they terminate in the cylindrical guide 10, a pair (16a, 16b) of resonant dipoles; these dipoles consist of metallic "T" s with a 10 mm horizontal bar.

The guide 12 has its end opposite to the cylindrical guide which constitutes the reception access, R, of the antenna transducer.

In the guide 11, at the end opposite to the cylindrical guide 10, a resistive load 17 of conventional type is placed; in the case of the example described, this charge is made of a material sold under the brand DISARAL.

In the cylindrical guide 10, on the other side of the lateral openings with respect to the common access A and at a distance of 19 mm from these lateral openings, is disposed a set of three identical quasi-optical filters, 13, 14 , 15. FIG. 3 shows in particular how the filter 13 is mounted: this filter consists of a crossed metal dipole, 13b, deposited on one. dielectric support, 13a, made of beryllium oxide, integral with the wall of the cylindrical guide 10 and perpendicular to the direction of propagation of the waves in this guide 10. The dipole 13b has an overall dimension of 26 mm.

The transition element 2 is a guide in a circular truncated cone, the maximum internal diameter of which is 54 mm and the minimum internal diameter of 34 mm.

The second polarization duplexer according to FIGS. 1 and 2 has a body formed by a cylindrical guide, 30, with an internal diameter of 34 mm. Two rectangular openings of 35 mm by 16 mm are drilled at 90 ° from each other in the side wall of the cylindrical guide 30. In these openings terminate two rectangular guides, 31, 32, whose internal section is 35 mm by 16 mm; the walls of the guides 31, 32 are crossed by adaptation adjustment screws, such as 34, 35. A resistive load, 33, of the same type as the resistive load 17 is placed in the guide 32, on the side of the end of this; guide opposite to the cylindrical guide 30. The end of the guide 31 opposite to the opening of the cylindrical guide 30 constitutes the emission access, E, of the transducer.

• Les filtres quasi-optiques 13, 14, 15 ont été conçus pour se comporter comme des courts-circuits pour les ondes "réception" (4 GHz) et laisser passer les ondes "émission" (6 GHz). Le premier plan de court-circuit étant placé à 19 mm de l'ouverture où aboutit le guide 12, c'est-à-dire à environ
  
  ( λ: longueur d'onde moyenne dans la bande réception), l'énergie des ondes "réception" réfléchie par ce court-circuit se trouve sommée en phase, quand elle arrive dans le guide 12, avec l'énergie "réception" qui arrive directement dans ce guide, la diférence de trajet étant en effet de deux fois
  
  soit
  

The antenna transducer according to FIGS. 1 and 2 is designed to operate in transmission with a frequency band included in the 6 GHz band (that is to say the band going from 5.925 to 6.425 GHz) and in reception with a frequency band in the 4 GHz band (i.e. the band from 3.7 to 4.2 GHz). This antenna transducer works as shown below:

• The quasi-optical filters 13, 14, 15 have been designed to behave like short circuits for "reception" waves (4 GHz) and to let "emission" waves (6 GHz) pass. The first short-circuit plane being placed 19 mm from the opening where the guide 12 terminates, that is to say approximately
  
  (λ: average wavelength in the reception band), the energy of the "reception" waves reflected by this short-circuit is summed in phase, when it arrives in the guide 12, with the "reception" energy which arrives directly in this guide, the path difference being in fact twice
  
  is
  

The "T" dipoles, placed in the lateral openings of the guide 10 are calculated to resonate at the average emission frequency, they therefore constitute short circuits for the "emission" waves. These dipoles thus make it possible to perfect the emission-reception decoupling of the quasi-optical filters by letting the "reception" waves pass and by rejecting the "emission" waves. As for the load 17, it plays the role of a "mode absorber" for the cross polarization of that received, due to parasitic reflections.

The transition element "round guide-round guide", 2, allows a gradual passage from the section of the polarization duplexer 1 to the section of the polarization duplexer 3.

The resistive load 33 placed in the lateral guide 32 of the polarization duplexer 3 plays the role of a "mode absorber" for the cross polarization of that emitted. This cross polarization arises by parasitic reflections at the level of the radiating part of the antenna: on the sub-reflector in the case, for example, of a Cassegrain antenna and at the level of the antenna horn. Thus the emitted wave, initially rectilinear in the polarization duplexer 3, becomes circular, by example right circular after passing through the polarization coupling to the antenna, then is transformed into left circular polarization after reflection. It then returns to the polarizer and returns to the polarization duplexer 1 with a reverse polarization from its original polarization. This reverse polarization wave, if it was not absorbed by the resistive load 17, would deteriorate the ellipticity rate because it would be reflected on the short circuit formed by the quasi-optical filters and would be sent to the radiating part of the ' _d ntenne with a certain phase shift on the original wave.

In combination with a polarizer and a horn with a low ellipticity rate, that is to say much less than 0.5 dB, the transducer which has just been described makes it possible to obtain a primary source with high purity of polarization. : less than 0.5 db. This transducer was initially designed for antennas of earth stations of the Cassegrain type or with illumination by the hearth, these antennas being able to be moreover with symmetry of revolution or not.

Figure 5 shows such an antenna. FIG. 5 schematically shows a Cassegrain antenna with symmetry of revolution, seen in section, with its horn 40, its hyperboloidal sub-reflector 41 and its main reflector 42 of paraboloidal shape; a polarizer 43, the role of which is to transform a field with rectilinear polarization into a field with circular polarization and vice versa, couples the radiating part of the antenna, 40, 41, 42, to an antenna transducer, 44, according to Figures 1 and 2.

Another embodiment of an antenna transducer according to the invention is given in FIG. 4. The antenna transducer shown in this figure is an antenna transducer with two transmission ports E ₁ , E ₂ and two pairs reception access RR ' ₁ , ^R ₂ R' ₂ .

• - un premier duplexeur de polarisation 1 comportant un guide circulaire 10 avec des filtres quasi-optiques 13, 14, 15 et des ouvertures latérales de polarisation dans chacune desquelles est diposée une paire de dipôles en "T" telles que 16a, 16b, 16d ; un guide latéral d'accès 11, Il', 12, 12' aboutit dans chacune de ces ouvertures l_dtérales,
• - un élément de transition "guide rond-guide rond" 2,
• - et un second suplexeur de polarisation 3 à deux guides latéraux d'accès 31, 32.

The arrangement according to FIG 4 comprises, as the mounting of Figures 1 and 2, three _of p rties, from port A to be coupled, by a polarizer, to the radiating part of an antenna:

• - A first polarization duplexer 1 comprising a circular guide 10 with quasi-optical filters 13, 14, 15 and lateral polarization openings in each of which is provided a pair of "T" dipoles such as 16a, 16b, 16d; a lateral guide access 11, It ', 12, 12' results in each of these openings the térales _d,
• a transition element "round guide-round guide" 2,
• - And a second polarization suplexer 3 with two lateral access guides 31, 32.

• - le guide 10 du premier duplexeur de polarisation ne présente pas deux mais quatre ouvertures latérales à 90° les unes des autres,
• - les guides latéraux 11, 11', 12, 12' débouchant dans les quatre ouvertures latérales du guide 10 ne comportent aucune charge résistive et sont regroupés par paires d'accès opposés R₁-R'₁, R₂-R'₂; à l'aide d'un Té magique et de guides de raccordement non représentés pour ne pas surcharger la figure et parce qu'un tel montage est classique ; un accès réception en polarisation verticale et un accès réception en polarisation horizontale sont ainsi disponibles respectivement sur les deux Tés magiques de ces regroupements
• - Le guide latéral 32 du second duplexeur de polarisation 3, comme le guide latéral 31, ne comporte aucune charge résistive et constitue un deuxième accès émission, E₂, du transducteur d'antenne; le premier accès émission, E₁ correspond à l'accès E des figures 1 et 2 et est destiné à transmettre des onde rectilignes, à polarisation orthogonale des ondes transmises par l'accès E₂.

The differences with the antenna transducer according to Figures 1 and 2 stem from the fact that

• the guide 10 of the first polarization duplexer does not have two but four lateral openings at 90 ° from one another,
• - The lateral guides 11, 11 ', 12, 12' opening into the four lateral openings of the guide 10 have no resistive load and are grouped by pairs of opposite accesses R ₁ -R ' ₁ , R ₂ -R'₂; using a magic tee and not shown connection guides so as not to overload the figure and because such an assembly is conventional; a reception access in vertical polarization and a reception access in horizontal polarization are thus available respectively on the two magic Tees of these groupings
• - The lateral guide 32 of the second polarization duplexer 3, like the lateral guide 31, does not include any resistive load and constitutes a second transmission access, E ₂ , of the antenna transducer; the first transmission access, E ₁ corresponds to the access E of FIGS. 1 and 2 and is intended to transmit rectilinear waves, with orthogonal polarization of the waves transmitted by the access E ₂ .

• - fréquences de réception prise dans la bande des 4 GHz : 3,7 - 4,2 GH_z
• - fréquences d'émission prises dans la bande des 6 GHz : 5,925 - 6,425 GHz.

In combination with a polarizer and a horn providing an ellipticity rate much less than 0.5 dB, the antenna transducer according to FIG. 4 makes it possible to produce a source with high purity of polarization (less than 0.5 dB) with transmit and receive frequencies chosen as follows:

• - reception frequencies taken in the 4 GHz band: 3.7 - 4.2 GH _z
• - transmission frequencies taken in the 6 GHz band: 5.925 - 6.425 GHz.

Claims (6)

1. Antenna transducer, comprising, in series, a first polarization duplexer (1) intended to work in a first frequency band, a transition element (2) consisting of a variable section guide and a second duplexer of polarization (3) intended to work in a second frequency band, the first polarization duplexer comprising a main waveguide (10) having a first end (A) intended to be coupled to the radiating part of an antenna, a second end coupled to the transition element and two lateral polarization openings, and two auxiliary guides (11, 12) leading respectively to the two lateral openings, characterized in that dipoles (16a, 16b) resonating at the average frequency of the second frequency band are placed in the two lateral openings, in that a resistive load (17) is placed in one of the two auxiliary guides, in that a set (13, 14, 15) of n filters ( n integer at least equal al to 1) is placed in the main waveguide of the first polarization duplexer, between the second end and the two lateral openings, at a distance from the two lateral openings of approximately ₄ (average wavelength in the first band frequency) and in that the n filters short-circuit for the first frequency band. 2. antenna transducer according to claim 1, characterized in that, the second polarization duplexer (3) comprising a main waveguide (30) with two polarization openings and two auxiliary guides (31, 32) terminating respectively at the two polarization openings of the main waveguide of the second duplexer, a resistive load (33) is placed in one of the two auxiliary guides (32) of the second duplexer while the other of these two auxiliary guides (31) of the second duplexer serves as access (E) for the waves of the second frequency band. 3. antenna transducer according to one of claims 1 and 2, characterized in that the filters are quasi-optical filters each consisting of a metal dipole (13b) deposited on a planar dielectric support (13a) disposed in the guide main wave (10) of the first duplexer polarization, perpendicular to the direction of wave propagation in the main waveguide of the first polarization duplexer. 4. An antenna transducer, comprising, in series, a first polarization duplexer (1) intended to work in a first frequency band, a transition element (2) consisting of a variable section guide and a second duplexer of polarization (3) intended to work in a second frequency band, the first polarization duplexer comprising a main waveguide (10) having a first end (A) intended to be coupled to the radiating part of an antenna, a second end coupled to the transition element and four lateral polarization openings, characterized in that dipoles (16a, 16b, 16d) resonating at the average frequency of the second frequency band are placed in the four lateral openings, in that that a set (13, 14, 15) of n filters (n integer at least equal to Ï) is placed in the first polarization duplexer, between the four lateral openings and the second end, at a distance from the four lateral openings about

(λ: average wavelength in the first frequency band) and in that the n filters short circuit for the first frequency band. 5. An antenna transducer according to claim 4, characterized in that the second polarization duplexer (3) comprising a main waveguide (30) with two polarization openings and two auxiliary guides (31, 32) terminating respectively at the two polarization openings of the main waveguide of the second duplexer, the two auxiliary guides of the second polarization duplexer respectively serve as access (E, E ₂ ) for two waves with polarizations orthogonal to one another . 6. antenna transducer according to one of claims 4 and 5, characterized in that the filters are quasi-optical filters each constituted by a metal dipole (13b) deposited on a planar dielectric support (13a) disposed in the guide main wave (10) of the first polarization duplexer, perpendicular to the direction of wave propagation in the main wave guide of the first polarization duplexer.

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