EP0473076A1 - Microwave filter with lateral access - Google Patents

Abstract

The microwave filter (1) is of the type with rectangular waveguide, this guide containing, between two end accesses, a plurality of successive cavities (2) arranged following one another and coupled by irises or by rods (3). It is characterised in that one at least of the two accesses is a lateral access (5), opening out directly into the corresponding end cavity of the guide along a direction perpendicular to the main axis of the guide and on the small side of the latter's cross-section, the excitation of the cavity being such that the coupling with the guide through this access is a magnetic coupling. The successive cavities can advantageously be arranged in a folded configuration, such that the two accesses of the filter lie on the same side of the latter. <IMAGE>

Description

The present invention relates to a microwave filter of the rectangular waveguide type, usable in particular as a rejector filter for a radiocommunication transmitter / receiver.

When it is a question of making filters with wide bandwidth with high close rejections, in practice only the waveguide filters offer all the required advantages, namely low insertion losses, good ROS, factor high overvoltage and simple thermal compensation.

Such a waveguide filter comprises a plurality of successive in-line cavities, that is to say arranged one after the other between two end ports, and coupled together and to the two ports by irises or rods forming inductive suspensions.

Such filters have been known for a long time, and reference may in particular be made to S. B. Cohn, in Direct-Coupled Filters, Proceedings of the I.R.E., Vol. 45, February 1957, who developed the theory.

However, it is often necessary, from the point of view of the layout, for problems of mechanical bulk, resistance to vibrations or for certain electrical arrangements, to have filters comprising lateral accesses, that is to say accesses which no longer open axially from the filter, that is to say in the general direction along which extends the series of cavities (“in-line” access), but on the side of the filter, perpendicular to this direction ("side" access).

The solution hitherto adopted consisted in making a waveguide filter in line and then adding, at the inlet and / or outlet, elbows, also constituted as a waveguide, defining lateral accesses and connecting these accesses. to the accesses proper of the filter.

In many respects (insertion losses, increase in the mechanical complexity of production, additional space, etc.), these constructions are hardly satisfactory and do not constitute an optimal solution to the problem of lateral access to a filter of the type cited above.

One of the aims of the present invention is to remedy these drawbacks, by proposing a waveguide filter provided with direct lateral accesses (that is to say accessing the filtering function without interposing a element such as a direction change elbow), which nevertheless provides radio characteristics similar to those of an online access filter.

To this end, the microwave filter of the invention, which is of the rectangular waveguide type, this guide comprising, between two end accesses, a plurality of successive cavities arranged one after the other. and coupled by iris or by rods, is characterized in that at least one of the two accesses is a lateral access, opening directly into the corresponding end cavity of the guide in a direction perpendicular to the main axis of the guide and on the short side of the cross section thereof, the excitation of the cavity being such that the coupling with the guide by this access is a magnetic coupling.

The successive cavities can in particular be arranged in a folded configuration, so that the two ports of the filter are located on the same side thereof.

Furthermore, the filter may advantageously include, in the vicinity of at least one of the access points, or in the vicinity of at least one of the medium cavities situated near the folding, a short-circuit cavity forming a band-stop filter , coupled to the end cavity, or middle, corresponding by iris or rods.

Other characteristics and advantages of the invention will appear on reading the detailed description below of various embodiments made with reference to the accompanying drawings.

• La figure 1 est une vue schématique, en plan, d'un filtre selon l'invention, à cavités couplées par tiges et présentant deux accès latéraux.
• La figure 2 est une vue schématique, en plan, d'un filtre selon l'invention à cavités couplées par iris et présentant un accès latéral et un accès en ligne.
• La figure 3 est une vue schématique, en plan, d'un filtre selon l'invention à cavités couplées par tiges et présentant deux accès latéraux coaxiaux, le filtre étant de configuration repliée et pourvu de cavités stop-bande disposées au voisinage des accès, à l'opposé du repliement.
• La figure 4 est une vue schématique, en plan, d'un filtre selon l'invention à cavités couplées par tiges et présentant deux accès latéraux coaxiaux, le filtre étant de configuration repliée et pourvu de cavités stop-bande disposées au voisinage des cavités médianes, du côté du repliement.
• La figure 5 est une vue en élévation, partiellement en coupe selon la ligne V-V de la figure 6, d'un exemple détaillé de réalisation mécanique d'un filtre selon l'invention, ce filtre étant du type replié à entrée latérale et sortie en ligne et à cavités couplées par tiges.
• La figure 6 est une vue en plan, partiellement en coupe, de ce même filtre.
• Les figures 7 et 8 sont des vues de face, en coupe respectivement selon les lignes VII-VII et VIII-VIII de la figure 6, de ce même filtre.
• La figure 1 représente, schématiquement, un premier exemple de réalisation d'un filtre selon l'invention, vu en plan.

It will be noted that, in the different figures, the same reference numerals designate functionally similar elements.

• Figure 1 is a schematic plan view of a filter according to the invention, with cavities coupled by rods and having two lateral accesses.
• Figure 2 is a schematic plan view of a filter according to the invention with cavities coupled by iris and having lateral access and online access.
• FIG. 3 is a schematic plan view of a filter according to the invention with cavities coupled by rods and having two coaxial lateral accesses, the filter being of folded configuration and provided with band-stop cavities arranged in the vicinity of the accesses, opposite of folding.
• Figure 4 is a schematic plan view of a filter according to the invention with cavities coupled by rods and having two coaxial lateral accesses, the filter being of folded configuration and provided with band stop cavities arranged in the vicinity of the median cavities , on the folding side.
• Figure 5 is an elevational view, partially in section along the line VV of Figure 6, of a detailed example of a mechanical embodiment of a filter according to the invention, this filter being of the folded type with lateral entry and exit in line and cavities coupled by rods.
• Figure 6 is a plan view, partially in section, of the same filter.
• Figures 7 and 8 are front views, in section respectively along lines VII-VII and VIII-VIII of Figure 6, of the same filter.
• FIG. 1 schematically represents a first embodiment of a filter according to the invention, seen in plan.

In itself known manner, this filter 1 comprises a series of cavities 2 arranged in a line and the length of which, in the axial direction z, is d = n.Xg / 2, n being the number of distribution of sinusoids within the same cavity and Xg being the guided wavelength.

These cavities are defined inside a waveguide by the interposition of rods 3 constituting, in itself known manner, susceptibilities for coupling from one cavity to the next.

It will be noted that it is also possible to use, instead of the rods 3, irises 4, as illustrated for example in the example of FIG. 2.

The waveguide inside which the cavities are defined is a guide of rectangular section in the plane (x, y). The short side (in the x direction, perpendicular to the plane of the figure) has a dimension a, the long side (in the y direction, seen from the end in the figure) has a dimension b, and the length of the cavity is d .

With these notations, for an excitation of the guide in TE ₁₀ mode such as a TE ₁₀₁ mode, the equations of the fields inside the cavity are those of a pure standing wave in the z direction:
E _x = E ₀ .sin (π y / b) .sin ( _1T z / d)
Hy = j [b / (b ² + d ² ) ^1/2 ] .E _0. (∈ / µ) ^1/2 .sin (π y / b) .cos (π z / d) Hz = -j [ d / (b ² + d ² ) ^1/2 ] .E _0. (∈ / µ) ^1/2 .cos (π y / b) .sin ( _1T z / d) with E _o / H _o = (µ ₀ / ∈ ₀ ) ^1/2 , and∈ ₀ µ ₀ c ² = 1

We can thus see that, with the sign close and in the ratio of dimensions b and d, in such a TE ₁₀₁ mode (and, more generally, in any TEio mode) we can have a magnetic coupling not only in the axis of the guide (Hy field), the only coupling used so far for the excitation of this guide, but also on the walls of the guide (H _z field), so that it is thus possible to produce a guide filter with lateral access (entry and / or exit), precisely on the short side of the guide.

Thus, in Figure 1, there is shown such a filter produced with two lateral accesses 5 and 6 allowing direct coupling of input and output with, respectively, the first cavity 7 and the The last cavity 8 of the series of cavities coupled.

In this FIG. 1, a cavity is illustrated with two lateral accesses 5 and 6 arranged on sides facing the guide, but one could as well provide, depending on the design needs, two lateral accesses such as 5 and 6 'arranged on the same side of the guide.

It is possible to apply the lateral magnetic coupling only to one of the ports, as illustrated for example in Figure 2, where the filter has a lateral inlet 5 connected to the first cavity 7 and a conventional axial outlet coupled to the last cavity 8.

As a variant, it is possible to fold the filter back on itself, as illustrated in FIGS. 3 and 4.

It is then possible, as illustrated in these figures, to have two accesses 5 and 6 both lateral (that is to say perpendicular to the main direction of the guide) and coaxial, a configuration which can be very advantageous in certain situations.

The structure of the guide is similar to that of FIG. 1, the league filter being simply folded back on itself and the central cavities 10 and 11 (median cavities of the guide, which then have an even number of cavities) being coupled laterally, for example by an iris 12.

In addition, it is possible to add to this filter one or two cavities forming a stop-band filter, such as the cavities 13 and 14 of FIGS. 3 and 4.

These cavities are, in itself known, tunable short-circuit cavities, which can be coupled here by irises 15 and 16, or, respectively, to the first and the last cavity 7 and 8, as illustrated FIG. 3, or, respectively, to the central cavities 10 and 11, as illustrated in FIG. 4. The fact of placing these band stop cavities in the extension of the filter makes it possible to obtain a particularly compact component.

In FIGS. 5 to 8, a detailed mechanical embodiment of a filter according to the invention is shown, this filter being of the folded type with a lateral access 5 and an axial access 9.

The various cavities 2 are coupled by rods 3 and each tuned by an adjustment plunger 17 (Figures 5 and 8) placed in a threaded orifice 18 (Figures 6 and 7).

The couplings between cavities, resulting from the presence of the rods 3 or of the iris 12, are adjusted by plungers in the form of complementary tuning screws 19, 21, placed in respective tapped holes 20, 22.

In the same way, fine tuning of the irises for coupling the accesses 5 and 9 is provided by means of a screw-shaped plunger 23 introduced into a threaded orifice 24.

Claims (4)

1. Microwave filter (1), with a large pass band with high close rejections, of the rectangular waveguide type excited in TE10 mode comprising, between two end accesses, a plurality of successive cavities (2) arranged one after the other and coupled by iris (4) or by rods (3); characterized in that the length of the cavities (2), in an axial direction; is d = n. g / 2, n being the number of distribution of sinusoids within the same cavity and g being the guided wavelength, and in that at least one of the two accesses is a direct lateral access (5; 6), which accesses the filtering function without the interposition of an element such as a change of elbow direction, opening into the corresponding end cavity (7; 8) of the guide in a direction perpendicular to the main axis of the guide and on the short side of the straight section thereof, the excitation of the cavity being such that the coupling with the guide by this lateral access is a magnetic coupling. 2. Filter according to claim 1, characterized in that it comprises, in the vicinity of at least one of the end cavities, a short-circuit cavity (13; 14) forming a band-stop filter, coupled by iris (15; 16) or by rods to the corresponding end cavity (7; 8). 3. Filter according to claim 1, characterized in that said successive cavities are arranged in a folded configuration, so that the two ports of the filter are located on the same side thereof, thus forming a symmetrical assembly with respect to a median plane. 4. Filter according to claim 3, characterized in that it comprises, in the vicinity of at least one of the medium cavities located near the folding, a short-circuit cavity (13); 14) forming a stop-band filter, coupled by iris (15; 16) or by rods to the corresponding medium cavity (10; 11).

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