DE1002053B - Arrangement for achieving an adjustable transformation in waveguides - Google Patents

Description

The invention relates to an arrangement for achieving an adjustable transformation in waveguides using one or more transverse to the waveguide axis, through in the waveguide wall located breakthroughs more or less deeply immersible panes made of conductive or non-conductive Material.

It is known to provide openings in the wall of a waveguide through which several transversely Thin disks or pins lying to the waveguide axis are immersed more or less deeply can, so that adjustable dummy components can thereby be generated in the waveguide. Such Facilities can be used especially when the effect of joints or irregularities should be compensated in the waveguide systems or a certain reactance value should be generated in a ladder system. Very often the task is also set to switch on a transformation piece between two different systems, which z. B. a characteristic impedance adjustment causes. A known, adjustable transformation piece consists, for. B. from a line piece with an electrical length that corresponds to a quarter wavelength at the operating frequency. The line piece has rectangle-shaped Cross-section and a displaceable piston extending over this length and arranged in this way is that through it the width of the waveguide can be changed. This increases the wave resistance influenced in a certain way.

The known arrangement for achieving an adjustable transformation is relatively heavy in weight and requires a fair amount of effort in mechanical terms.

In the arrangement according to the invention, to achieve an adjustable transformation in Waveguides of the type mentioned in the introduction, which are movable in these waveguides and extend in the direction of the waveguide Pins made of conductive or non-conductive material are used. These pens can e.g. B. on in the Waveguide diving discs be attached. These disks can even compare to the wavelength have relatively large thickness dimensions. Preferably one can use circular disks that are eccentric are stored, use that because of their eccentric mounting by turning more or less can be immersed deep into the waveguide space, if these disks are made relatively thick, then can an additional transformation effect can be achieved by means of these disks. You can also click one or more pins running in the waveguide direction on one or both sides of the disks attach.

Arrangement for achieving an adjustable transformation in waveguides

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 4

Dipl.-Ing. Helmut Laub, Munich,
has been named as the inventor

The arrangement according to the invention can be attached practically at any point on a waveguide and enables a resistance-level transformation with the simplest means within certain limits. You can z. B. at the transition point from a waveguide system to another or from ainetn line system to an antenna system will.

The invention is explained in more detail using an exemplary embodiment.

In FIGS. 1 and 2, the transition point from a rectangular waveguide 1 to a pyramidal horn radiator 2 is shown in a perspective view. The task here is to determine the input resistance of the pyramidal horn radiator, which z. B. is capacitive to adapt by an inductive and at the same time transforming acting member. The metallic ones mounted eccentrically at points 3 are used for this purpose. Disks 4, on each of which a pin 5 made of conductive material and extending in the direction of the waveguide axis is attached. The length of these pins can be, for. B. V _{6 of} the wavelength. The thin metallic disks 4 designed as eccentrics act like an inductive transverse conductance _{when a / Z 10 wave is present.} The pins 5 give the entire arrangement a transforming effect which can be adjusted by rotating the discs. By turning these disks, these pins are brought more or less deep into the waveguide space; at the same time, however, the inductive reactive component that is caused by the disks is adjustable. The pins 5, which run in the direction of the wave propagation, can be on one or two sides on the disks, on-

609 769/195

be brought. You can practically every desired transformation and also within certain limits Achieve compensation for imperfections if you choose the length and diameter of the pins appropriately.

The transforming effect of the pencils is natural frequency-dependent, since the ratio of the length of the pins to the wavelength depends on the wavelength is. This frequency dependency can be compensated by turning the Slices changed the position of the pins in the waveguide space. The arrangement can also be made in such a way that special discs made of conductive or non-conductive material in addition to those used to achieve the adjustable ones Blind component »existing discs are provided on which the pins are attached. It results So there is a separate setting option for the transforming pins and for the eccentric, mounted ones Discs.

A major advantage of the arrangement is that of the invention consists in providing pins of practically any configuration on the same disks can, so that in this way any transformational effects can be practically within certain limits can achieve.

The arrangement according to the invention provides a very simple device for adjustable transformation In a particular embodiment, the setting of transformation and compensation possible by operating a single setting element.

Claims (5)

Patent claims: 1. Arrangement for achieving an adjustable transformation in hollow conductors using one or more transverse to the waveguide axis • lying through in the waveguide wall Breakthroughs in more or less deep submerged panes made of conductive or non-conductive Material, characterized by movable in the waveguide and extending in the waveguide direction Pins made of conductive or non-conductive material. 2. Arrangement according to claim 1, characterized by disks with compared to the wavelength relatively large thickness dimensions. 3. Arrangement according to claim 1 or 2, characterized by one or more eccentrically mounted Discs. 4. Arrangement according to one of the preceding claims, characterized in that it is on Transition from waveguide to radiator systems is arranged. 5. Arrangement according to one of claims 1 "to 4, characterized in that it is at the transition from one waveguide system to another Waveguide system is arranged. Considered publications:
U.S. Patent Nos. 2,584,802, 2,656,515;
Term an, "Radio Engineering", New York, 1947,. 134 and 135. 1 sheet of drawings © 609 769/195 1.57