DE4319346C2 - Line resonator - Google Patents

Description

The present invention relates to a line resonator, consisting of several arranged in an outer conductor parallel inner conductors.

Line resonators are e.g. B. from the "Taschenbuch der High Frequency Technology ", H. Meinke, F.W. Gundloch, Springer- Verlag, 3rd improved edition 1968, pp 458-459 known. she are a coaxial line with a cylindrical outer conductor and an inner conductor running coaxially therein. In such a line resonator is a TEM resonance mode viable. Do you want a multi-circuit filter with Realize such line resonators, that leads to a very large volume arrangement.

In the article by Bochtler, Ulrich and Landstorfer, Friedrich: "Determination of S parameters rotationally symmetric multi-conductor problems due to the phase Moden-Method ", ntz Archiv, Vol. 11 (1989), H. 6, pp. 265-269 a rotationally symmetrical multi-conductor system is described, which has a band filter behavior. Here are the individual conductor tensions with such phase relationships placed that the individual TEM- Waves desired couplings enter.

The invention has for its object a Line resonator specify with the very compact Multi-circuit filters can be implemented.  

According to the invention, this object is achieved through the features of Claim 1 solved. An advantageous training of Invention emerges from the subclaim.

In a line resonator designed according to the invention are several different TEM wave modes viable, each of which represents its own resonance circuit. Man can therefore use just one line resonator Realize multi-circuit filter.

Using one shown in the drawing The invention is described in more detail below explained.  

Fig. 1 shows a perspective view of a line resonator with four inner conductors and

Fig. 2 show, 3, 4

Field images in the line resonator.

In FIG. 1, an n λ / 4 long line resonator is shown, which consists of a cylindrical outer conductor 1 disposed rotationally symmetrically in four, parallel to the cylinder longitudinal axis extending inner conductors. With this inner conductor configuration, the TEM resonance modes shown in FIGS. 2 to 4 can be excited in the line resonator. Fig. 2 shows the magnetic field of the TEM basic mode. The magnetic field of a first higher TEM mode, which can occur as two degenerate waves polarized orthogonally to one another, can be seen in FIGS . 3a and 3b. FIGS. 4a and 4b illustrate the magnetic fields of two orthogonally polarized waves of a second higher degenerate TEM mode. A plurality of TEM resonance modes can thus be implemented with a plurality of inner conductors 2 in a cavity 1 . If fewer resonance modes are required, two inner conductors may be sufficient.

The coupling of the individual resonance modes with each other can with usual coupling means (pins, screws, Discontinuities), such as those of multimode cavity resonators are known to be executed.

Claims (2)

1. Line resonator, consisting of a plurality of inner conductors arranged parallel to one another in an outer conductor, characterized in that so many inner conductors ( 2 ) are placed so that at least two orthogonal degenerate TEM resonance modes can be excited in the line resonator. 2. Line resonator according to claim 1, characterized in that there are four rotationally symmetrically arranged inner conductors ( 2 ) within a cylindrical outer conductor ( 1 ).