Wave transmission lines and networks – Dissipating terminations for long lines – Fluid-cooling
Patent
1995-02-27
1997-03-11
Gensler, Paul
Wave transmission lines and networks
Dissipating terminations for long lines
Fluid-cooling
333 81B, 333248, H01P 126, H01P 122
Patent
active
056105622
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The present invention relates to a waveguide absorber which has at least one member inserted into a waveguide and exhibiting absorber material.
Terminating impedances and attenuators are frequently required in microwave technology. Use is made as such of waveguide absorbers such as are disclosed, for example, in the "Taschenbuch der Hochfrequenztechnik" ["Manual of radio-frequency technology"], H. Meinke and F. W. Gundlach, 3rd edition, 1968, pages 443 to 445. This publication does not reveal the means by which the members consisting of absorber material and arranged in the waveguide are fixed.
Special requirements for fixing the absorbing member are to be made for the application of waveguide absorbers in the field of space flight. The fixing is to be able to withstand high mechanical and thermal loads. It is the object of the present invention to specify a waveguide absorber of the type mentioned at the beginning which fulfils the abovementioned requirements.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a waveguide absorber which eliminates the disadvantages of the prior art.
In keeping with these objects and with others which will become apparent hereinafter, one feature of the present invention resides, briefly stated, in a waveguide absorber which has at least one member inserted into a waveguide and composed at least partially of absorber material, wherein the member is clamped between opposing waveguide walls by providing that at least one wall region resting on the member is constructed flexibly, and that a force acting on the flexible wall region presses the latter against the member and the flexible wall region is realized by a strong reduction of wall thickness of one of said waveguide walls in the wall region resting on the member as compared with the opposing, rigid, waveguide wall.
In accordance with another advantageous feature of the flexible wall region is realized by an appropriately strong reduction in the wall thickness.
In accordance with still another feature of the present invention, a pressure clamp exerts the clamping pressure on the flexible wall region, rests on the flexible wall region and is screwed to a wall region of the waveguide which is opposite the flexible wall region. The clamping pressure is produced by a correspondingly tight screwing of the pressure clamp to the opposite wall region.
Finally, the pressure lamp can be formed as screws which can be screwed against the flexible wall region in order to be able to produce the clamping pressure.
The invention has the advantage that no use is made for fixing the absorber member of the usual materials such as adhesive or solder, which often do not withstand very high thermal or mechanical stress. In addition, the mechanical outlay is very low in the waveguide absorber according to the invention.
The novel features which are considered as characteristic for the invention are set forth in particular in the appended claims. The invention itself, however, both as to its construction and its method of operation, together with additional objects and advantages thereof, will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
The single FIGURE of the drawings shows an exemplary embodiment of the present invention.
DESCRIPTION OF A PREFERRED EMBODIMENT
The FIGURE shows a side view of a rectangular waveguide 1 which is provided at one end with a flange 2, and whose other end is sealed by a cover 3. Inserted into this waveguide 1 is a member 4 which consists at least partially of a thermostable absorber material (for example, silicon carbide). The member 4 extends with a subregion over the entire height of the waveguide and has the shape of a wedge. The absorber member can have any arbitrarily different shape; it depends, for example, on the electrical requirements and on the mounting position in the waveguide. It is important that the member
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Taschenbuch der Hochfrequenztechnik, Meinke, et al, 1968, pp. 443-445.
Damaschke Jurgen
Geissler Klaus H.
Wolk Dieter
ANT Nachrichtentechnik GmbH
Gensler Paul
Striker Michael J.
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