DE1161329B - Coupling arrangement for the adaptation of two round waveguides with their ends butting against one another - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Kl .: HOIp;

H 03 h

German KL: 21a4-73

Number:
File number:
Registration date:
Display day:

M 47013 IXd / 21 a4
November 3, 1960
January 16, 1964

The invention is concerned with an arrangement for adapting the coupling of two round waveguides for the transmission of H ₀₁ waves which have different surface impedances. It is particularly suitable for connecting a normal round waveguide with a so-called flexible waveguide. This flexible waveguide can consist of a metal spiral embedded in a dielectric or of individual metal rings isolated from one another. "It is known to produce round waveguides in the form of a wire or band-shaped metal spiral which is embedded in a dielectric. Also, waveguides are already known which consist of a large number of mutually insulated metal rings. These waveguides can be constructed periodically or non-periodically with regard to their construction They are all rotationally symmetrical with respect to the waveguide axis and have been developed for the purpose of _{enabling, on the basis of their predetermined surface impedances, the propagation of H 0} ″ waves while at the same time suppressing undesired other wave modules.

These known waveguides have generally proven themselves in practice. But you want one Connect normal round waveguide with a so-called flexible waveguide, so occur at the connection point unwanted reflections and suggestions from other modules. Under flexible waveguides those waveguides are understood here, which are made of strung together metal rings or from There are metal spirals embedded in a dielectric, since the dielectric here has a certain Possesses elasticity.

Furthermore, it is already known in the case of flexible rectangular waveguides, the corrugated meander-shaped design of the waveguide to adapt to flanges and the like. To change so that the size of the mentioned Corrugation is formed on the connection side of the waveguide with decreasing size. The effective one However, the diameter of the waveguide is not constant in this arrangement.

The aim of the present invention is therefore to show an arrangement of the type mentioned above, at which the disadvantages mentioned are avoided.

In a coupling arrangement for the adaptation of two round, with their ends abutting waveguides, which are used for the transmission of H ₀₁ waves and whose surface impedances are different from one another at least over the greater part of their length, with at least one of the waveguide ends on its inner coupling arrangement for adaptation of two
round, with their ends butting together
Waveguides

Applicant:

The Marconi Company Limited, London

Representative:

Dr.-Ing. B. Johannesson, patent attorney,
Hanover, Göttinger Chaussee 76

Named as inventor:

Ernst Friedrich Schelisch, Great Baddow, Essex, John Alfred Berry, Chelmsford, Essex

(Great Britain)

Claimed priority:
Great Britain 30 November 1959
Great Britain Ai of June 14, 1960 (No. 40 477) - -

The circumference is provided with depressions whose depth of cut extends along the waveguide in such a way changes that a gradual transition of the surface impedances of the waveguide ends to be connected takes place, it is therefore proposed according to the invention that these depressions are attached in this way are that the effective inner diameter of the waveguide remains constant.

According to one embodiment of the invention, a normal circular waveguide has on its one End on the inside indentations, which increase towards this end in order to reduce the surface impedance this waveguide to the surface impedance of another to be connected to it Adapt the waveguide.

In the simplest case, this can be achieved by inserting the normal circular waveguide on the inside attaches annular recesses, which are arranged side by side and in their depth and / or increase in width, either from one depression to the next or from a whole Group such wells to the next group in the direction of the end of the waveguide. It is also possible to realize the recess in the form of a screw thread with increasing depth and / or width. By choosing the

309 779/163

Surface impedance at the end of this waveguide, it is possible to make an adjustment to the Surface impedance of a flexible waveguide which is connected to the first-mentioned waveguide shall be. This creates a connection between two waveguides with different surface impedances, which, due to the arrangement according to the invention, are connected to one another almost without reflection are.

It is possible to increase the surface impedance of a flexible waveguide near its one end vary, so that a perfect connection to a normal circular waveguide is also established without reflections or module conversions taking place. According to a Another embodiment of the invention, this is in a flexible waveguide, which consists of a band-shaped or wire-shaped metal spiral, which is embedded in a dielectric, consists in the way realizes that the wire or ribbon cross-section is changed at the end of this waveguide. Of the The band cross-section of the wire or the band of the metal spiral can be in the direction of the waveguide end too steadily or gradually reduced in order to achieve the desired adaptation of the various To achieve surface impedances.

On the basis of the exemplary embodiments in connection with the figures in the following The idea of the invention will be explained in more detail.

In FIG. 1 shows two lengths 1 and 2 of waveguides which are to be connected to one another at the contact point 3 in order to achieve a continuous waveguide connection. The adjacent ends of the two waveguides can be held together in any known manner. In FIG. 1, for the sake of simplicity, this is accomplished by part 4, which encloses the two waveguide ends. The waveguide 2 is a spiral waveguide of known design and consists of a round metal wire 2 a, which is wound into a spiral or helical line and is covered by an outer layer 2 b of a synthetic material. The other waveguide 1 is an ordinary round waveguide in the form of a metal tube. According to the invention, this waveguide is provided with indentations on the inside, which are denoted by la in the figure and have a triangular cross-section. The depth and width of this cross-section increases in the direction of the connection point 3. These depressions, the cross-sections of which change continuously, are dimensioned in a known manner in order to ensure a gradual transition of the surface impedance from the value which the surface impedance of the waveguide 1 does not include Has part provided with recesses to achieve up to the value of the surface impedance which the waveguide 2 has in the connection plane 3. As shown in the figure, the depressions are arranged in such a way that the effective inner diameter of the waveguide remains constant.

In FIG. 2 shows a further exemplary embodiment of the invention. The waveguide 1 is unchanged here, while the cross-sections of the helical wire of the waveguide 2 embedded in the dielectric 2 b are reduced in the direction of the connection plane 3. The cross-section can be reduced in size continuously or in steps. The dimensioning takes place again in such a way that the two different surface impedances of the waveguides 1 and 2 to be connected are matched to one another with as little reflection as possible. As shown in the figure, the effective inner diameter of the waveguide remains constant.

The invention can be used if two round waveguides of different construction and thus different surface impedances are to be connected to each other, e.g. B. an ordinary one Round waveguide with a so-called spiral waveguide. A flexible waveguide can also be used as a flexible waveguide Individual metal rings built waveguide or a so-called corrugated tube waveguide can be used.

In FIG. 3 shows such an exemplary embodiment in which a waveguide composed of individual metal disks is used as the flexible waveguide. According to the invention, this should be connected to the normal circular waveguide 1. As can be seen from the figure, the waveguide 2 is made up of metal rings 2d , which are insulated from one another by further rings 2e made of dielectric material. As is shown in the figure, the waveguide 1 has depressions 1 a, made on its inside to change its surface impedance at the connection point , as already described in FIG. 1. At the same time, the surface impedance of the waveguide 2 is changed by appropriate selection of the distances between the metal rings 2 d (for example by continuously changing the thickness of the dielectric rings 2e) . These two methods of changing the surface impedance can of course also be used individually. As can be seen from the figure, the effective inner diameter of the waveguide also remains constant in this case.

The described change in the surface impedance can be carried out in steps or continuously The constant change can be linear or after a binomial or exponential series is possible.

Claims (6)

Patent claims: 1. Coupling arrangement for the adaptation of two round, with their ends abutting waveguides, which are used for the transmission of H ₀₁ waves and whose surface impedances are different from each other at least over the greater part of their length, with at least one of the waveguide ends on its inner circumference with depressions is provided whose incision depth changes progressively along the waveguide so that a gradual transition of the surface impedances of the waveguide ends to be connected takes place, characterized in that these depressions are made in such a way that the effective inner diameter of the waveguide remains constant. 2. Arrangement according to claim 1, characterized in that the end of the normal circular waveguide is provided with indentations on the inside. 3. Arrangement according to claim 2, characterized in that the depth and / or width of this Increase the indentations towards the end of the circular waveguide. 4. Arrangement according to claim 1, characterized in that the cross section of the tape or wire, from which the metal spiral of the flexible waveguide consists, in the direction of the Waveguide end decreases. 5. Arrangement according to claim 1, characterized in that when using one of the individual Metal rings existing flexible waveguide the distance between these rings at the end of the Waveguide is different from the normal distance. 6. Arrangement according to one of the preceding claims, characterized in that the inner Dimensions at the end of the waveguide or waveguides can be changed in steps or continuously. References considered: U.S. Patents Nos. 2,600,169, 2,912,695. Older patents considered: German Patent No. 1 083 363. For this purpose, 1 sheet of drawings 309 779/163 1.64 © Bundesdruckerei Berlin