DE2243728A1 - TUNED COAXIAL LINE RESONATOR - Google Patents

Description

Tunable Koaxialleitungsre sonator Addition to the patent. * .. ... (Akt.Z .: P 21 45 696.2) The invention relates to a tunable coaxial line resonator, which is designed in the manner of a coaxial line section short-circuited at one end whose outer conductor is connected to the inner conductor via an electrically conductive material Existing Kurzscblußplatte is connected, wherein according to Patent No.. ... ... (Act.Z .: P 21 45 696.2) in the short-circuit plate or in the one adjacent to the short-circuit plate In the area of the outer conductor, a rotating part is provided on which, according to additional patent no. . ... ... (Akt.Z .: P 22 36 168.8) two flat ones made of electrically conductive material existing field displacement bodies are arranged, of which at least one one possesses elliptical cross-section.

In particular when using such coaxial line resonators Such a resonator should be used in response devices of a vehicle identification system be tuned in only a relatively small frequency range. The in Above mentioned main patent flat field displacement body have an advantageous Tuning characteristic of the frequency over the angle of rotation oC of the rotating part with almost straight course. The angle Oc is formed from the plane in which the Displacement body lies, and a tangent that forms a concentric circle around the resonator inner conductor at the intersection of the central axis connection of the rotating part touches the inner conductor. The further additional invention is based on the task the almost straight course the mentioned tuning characteristics to continue to improve, thus setting different, equidistant from each other distant resonance frequencies, the rotating part is rotated by an angle that is as equal as possible will. This object is achieved in that the major axis of the elliptical cross section of a field displacer with the major axis of the cross section of the other field displacer forms an acute angle.

With reference to the drawing, in two exemplary embodiments, a turned part shows with field displacement bodies arranged on it in several views the subject of the additional patent no. ... ... (Akt.Z .: P 22 36 168.8) and the The present invention is explained in more detail below.

The reference numbers chosen in the main patent are used for the same Parts reused. In Fig. 1, the rotating part 7 is similar to that of Fig. 3 of the Main patent with the federal government 8 and the flat field displacement body 11 reproduced. In addition to this, for example, centrally arranged field displacement body 11 shows a further field displacement body 13, the longitudinal axis 131 of which runs parallel but eccentrically to the central axis 111 of the rotating part 7. The cross section this field displacement body 13 can preferably, as can be seen from FIG. 3, be elliptical in shape.

By arranging the field displacement body according to the one shown Example, it is possible by means of this rotating part 7 by the displacement body tunable, shown in the main patent coaxial line resonator on each Weil to match frequencies that are approximately equidistant from one another, in which the rotating part 7 starting from a position in which the centrally arranged field displacement body 11 in a tangential plane to the inner conductor of the coaxial line resonator concentric circle is always rotated by the same angle y.

The particular advantage of the subject of the additional patent specified above in addition to the approximate linearity of the detuning Af over the angle of rotation, that the angle of rotation g more than doubled compared to the subject of the main patent is. If the angle of rotation OC was 900 in the subject of the main patent, then can it will be increased to over 1800 with the subject of the additional patent.

In Fig. 4 is an embodiment of the present additional invention shown, in which the further field displacement body 13 on the rotating part 7 is advantageous is arranged so that the major axis 132 of its elliptical cross-section with the major axis 112 of the rectangular cross section of the first field displacer 11 forms an acute angle. This arrangement of the further field displacer 13 has been found to be particularly advantageous, since this results in a further better linearity of the detuning a f over the angle of rotation «results. As the cheapest Angle p for a specific case of selected dimensions of the field displacement body 11 and 13, for example, a value between 100 and 150 has been found. It is also possible, in the case of a third self-displacement body, in FIG. 1 and 3 shown in dashed lines, or with only two eccentric field displacement bodies to apply the present additional invention. With the number and size of the field displacers can, at the same angle cc, the possible detuning S f of the coaxial line resonator to be influenced. By rotating the major axis 132 of the eccentric field displacer can the course of the resonance frequency of the resonator in question over the Angle of the rotating part 7 influence.

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Claims (1)

Patent claim tunable coaxial line resonator, which according to Art of a coaxial line section short-circuited at one end, the Outer conductor with the inner conductor via an existing made of electrically conductive material Short circuit plate is connected, according to Patent No.. ... ... (Akt.Z .: P 21 45 696.2) in the short-circuit plate or in that of the short-circuit plate adjacent area of the outer conductor a rotating part is provided on which according to additional patent No. ... (Akt.Z .: P 22 36 168.8) two flat ones made of electrically conductive material existing field displacement bodies are arranged, of which at least one one has an elliptical cross-section, which means that the major axis (132) of the elliptical cross section of the one field displacer (13) with the major axis (112) of the cross section of the other field displacer (11) forms an acute angle (Q).